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1. E ll Es beoc 1 PEE TS o i 385 s A 883888988986 e E Se 22 2 psadiansnoans ml Twido programmable Nano programmable Micro Premium Quantum Momentum TBX distributed I O Advantys STB IP 67 splitter boxes Telefast 2 pre wired Interfaces Control Electronic Zelio Logic controllers controllers automation platform automation platform automation platform automation platform distributed I O system relays timing relays smart relays modules Human Machine EE T e B dialogue Sesmm O De EEE Elsass gt i pene ell Control and signalling units Cam switches Control stations Pendant control stations Operator dialogue terminals Industrial control stations Integrated Human Machine Illuminated beacons Totalising timers Foot switches Emergency stop stations Emergency stop interfaces and indicator banks and counters trip wire switches Communication 4 T i Communication architecture Ethernet network Modbus Plus network Fipway network AS i bus Fipio bus CANopen bus Uni Telway bus Modbus bus INTERBUS Profibus DP asynchronous serial links Supervision II UO
2. Zs No galvanic insulation Maximum distance 50 etween this input and the oats supply Compatibility 2 wire sensors with leakage current 1 mA a c load d c load Curve 1 Curve 2 Load limit curve Electrical durability of contacts on resistive load Reduction factor k for inductive loads applies to in millions of operating cycles values taken from durability curve 1 104 z 1 S 809 e 0 8 E S67 E ES O o o oc 0 6 2 9 0 5 04 0 4 0 01 0 3 1 0 8 06 05 0 4 0 3 0 2 20 Current broken in A Power factor on breaking cos Current in A RE8 RBeeBUTQ RE8 RBeeBUTQ 1 L R 20ms 2 L R with load protection diode 3 Resistive load Example An LC1 F185 contactor supplied with 115 V 50 Hz for a consumption of 55 VA or a current consumption equal to 0 1 A and cos q 0 3 For 0 1 A curve 1 indicates a durability of approximately 1 5 million operating cycles As the load is inductive it is necessary to apply a reduction coefficient k to this number of cycles as indicated by curve 2 For cos 0 3 k 0 6 The electrical durability therefore becomes 1 5 108 operating cycles x 0 6 900 000 operating cycles References Dimensions Schemes pages 3 34 to 3 37 pages 3 34 and 3 36 page 3 35 Functions Zelio Time timing relays references Industrial single function relays optimum
3. Module type TWD DDI 8DT DDI 16DT DDI 16DK DDI 32DK DMM 8DRT DMM 24DRF Number of input channels 8 16 16 32 z 16 Rated input voltage V 24 sink source Connection Removable HE 10 connector Removable Spring screw terminal block screwterminal terminal block block Commons 1 2 1 Input voltage range V 20 4 28 8 Rated input current mA 7 5 7 Input impedance kQ 3 4 4 4 3 4 Filter time At state 1 ms 4 At state 0 ms 4 Isolation isolation pencen channels MN with nus logic by photocouplers Internal consumption At state 1 5V 25 1 65 1 for all inputs 24V mA 0 45 1 Atstate0 5V 5 1 10 1 Module type TWD DDO8UT DDO8TT DDO16UK DDO16TK DDO32UK DDO32TK Number of output channels 8 16 32 Output logic 2 Sink Source Sink Source Sink Source Connection Removable screw terminal block HE 10 connector Commons 1 2 Nominal output values Voltage V 24 Current A 0 3 0 1 Output voltage range Voltage V 20 4 28 8 Current per channel A 0 36 0 12 Current per common A 3 1 Response time At state 1 us 300 At state 0 us 300 Residual voltage voltage at state 1 V 1 max Maximum inrush current A 1 Leakage current mA 0 1 Overvoltage protection 39 Maximum power of filament lamp 8 Isolation a No isolation between channels isolation with internal logic by photocouplers Consumption At state 1 o V mA 10 10 20 for all the outputs 24V mA 20 40 70 Atstate0 5V mA 5 5 10 Module type TWD D
4. page 3 26 Industrial single or multifunction relays relay output page 3 28 Industrial single function relays optimum relay output page 3 34 Universal plug in relays 8 pin relay output page 3 40 Universal plug in relays 11 pin relay output page 3 44 Miniature plug in relays relay output LLreee page 3 47 Panel mounted plug in universal relays page 3 51 Zelio Count counters Electromechanical hour counters Llllllllseers page 4 3 Electromechanical totalising counters page 4 5 Electromechanical preselection counters page 4 7 Electronic preselection and multifunction counters page 4 9 1 0 Contents 1 Twido programmable controller Selection guide for compact and modular base controllers page 1 2 a Compact base controllers oeer a a oe RT IR AER Rus cs page 1 8 m Modular base controllers 2 2 2 22 2 52030 mE EE ER NEG page 1 14 Selection guide for discrete I O modules page 1 16 a Discrete lO modulesc concesse PM ee ee page 1 22 Selection guide for analogue I O modules page 1 26 a Analogue do modulesc cce 222 asset eos ee ee TET page 1 30 m Master module for AS Interface bus 00002ee eee page 1 33 a COmmuUMIGAlOn 2 assesses ee ee ee ee
5. Characteristics page 5 25 References page 5 25 5 24 Schemes page 5 80 561002 Heferences characteristics Zelio Control measurement and control relays Voltage control relays for 3 phase supply model RM 84 873 4 k it uas RM 84 873 211 e Supply voltage Un on terminals L1 L2 Maximum power Immunity to microbreaks Voltage control relays for 3 phase supply Power supplies measured Reference 3x 400 V RM 84 873 201 Weight kg 0 310 3x 400 V neutral RM 84 873 211 400 30 50 60 Hz VA 4 at Un 8 at Un 20 0 310 Delay on pick up Creepage distance and clearance Adjustment of upper threshold Adjustment of lower threshold Fault delay Conforming to IEC 60664 1 10 About 3 kV 4kV 3 102 115 of Un 85 98 of Un 0 1 10 0 4 50 Hysteresis Setting accuracy Repeat accuracy Upper threshold About 3 96 10 0 06 96 Lower threshold Temperature drift Output 0 09 0 05 C 2 C O contacts AgCdO Breaking capacity 2000 VA 80 W Maximum breaking current Minimum breaking current VI 8 100 100 3 gt Maximum switching voltage lt 250 250 Mechanical life Electrical life AC 12 30 x 106 operating cycles 2000 VA 10 operating cycles AC 15 Cos 0 3 6000 operating cycles DC 13 L R 300 ms 600
6. Sink source inputs Outputs No of I O Program Reference Weight expansion memory kg modules 12 24 VI 8 O source transistor 4 3000 instructions TWD LMDA 20DTK 2 0 140 8 O sink transistor 4 3000 instructions TWD LMDA 20DUK 2 0 140 6 O relay 7 3000 instructions 7 TWD LMDA 20DRT 0 185 2 O source transistor Modular base controllers 40 I O Sink source inputs Outputs No of I O Program Reference Weight expansion memory 1 kg modules 24 24 VI 16 O source transistor 7 3000 instructions 1 TWD LMDA 40DTK 2 0 180 16 O sink transistor 7 3000 instructions 7 TWD LMDA 40DUK 2 0 180 Separate components Description Application Type Reference Weight kg 32 Kb memory cartridge Application backup EEPROM TWD XCP MFK32 0 005 Program transfer 64 Kb memory cartridge Memory extension EEPROM TWD XCP MFK64 0 005 3 Application backup Program transfer Real time clock cartridge Date stamping RTC based programming TWD XCP RTC 0 005 Serial interface module See page 1 35 TWD NOZ eeee Digital display module See page 1 35 TWD XCP ODM Fixing kit For fitting modular base controllers or TWD XMT5 Sold in packs of 5 extensions on a mounting plate Replacement parts Screw terminal blocks Controller TWD LMDA 20DRT 13 contacts TWD FTB 2T13 Sold in packs of 2 Controller TWD LMDA 20DRT 16 contacts TWD FTB 2T16 Analogue input cable Length 1 m TWD XCA 2A10M Magelis compact displays Desc
7. H Hi D Qt Qg A C H Hi D Di A C H Hi D Di Qg Qt 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 10 ranges 10 ranges 10 ranges 10 ranges 10 ranges 10 ranges 10 ranges e e e e e e e e e e e e e e e e e e e e e e RE7 PP13BU RE7 PD13BU RE7 CP13BU RE7 YA12BU RE7 YR12BU RE7 ML11BU RE7 MY13BU RE7 MY13MW 0 150 0 150 0 150 0 150 0 150 0 150 0 150 0 150 Connection schemes RE7 TP13BU RE7 RB13MW RE7 RL13BU RE7 MA13BU RE7 PP13BU RE7 PD13BU RE7 CP13BU 25 21 w LO LO lt x N Characteristics Dimensions Schemes pages 3 24 and 3 25 page 3 29 pages 3 30 and 3 31 Schemes Zelio Time timing relays Industrial single or multifunction relays relay output width 22 5 mm RE7 TL TM TP CL CP ML MY RE7 TM MA MV RM RL PM PD RE7 TM PM ML MY RE7 MA MV RA RM ML MY Start on energisation Start by external control External control of partial stop Start by external control B1 B2 Ai X10 A2 Z2 B1 B2 A1Y10 34 I B1 B2 Ai X10 4 A2 Z2 RE7 RB RE7 RA Start on de energisation Start by external control 42 48 V 240 V gt lt r3 a J 42 48 V 110 RE7 PP RE7 PE RE7 CV Start on energisation Start on energisa
8. XBK P6ee30G3eE e 1f eo i 48 p 93 5 zl p 101 7 XBK P6ee30G3eE 24V 2 wire sensor types XS XU XBK P6ee30G30E default configuration PNP 2 Supply Number of Counting Number Reference Weight voltage display frequency of digits presets V kHz kg Manual electrical and automatic reset Preselection counters with LCD display 24 6 5 1 XBK P61130G30E 0 150 2 XBK P61230G30E 0 150 115 6 5 1 XBK P61130G31E 0 250 2 XBK P61230G31E 0 250 230 6 5 1 XBK P61130G32E 0 250 2 XBK P61230G32E 0 250 Preselection counters with LED display 24 6 5 1 XBK P62130G30E 0 150 2 XBK P62230G30E 0 150 230 6 5 1 XBK P62130G32E 0 250 2 XBK P62230G32E 0 250 Flush mounting D gt 24V 5 wire sensor types XS XU BI d Brown NO or Orange NC XBK P6ee30G30E default configuration PNP 230 V 115 V 2 wire qux XBK P6ee30G32E or G31E default configuration 24V PNP 5d 2 wire sensor or photocell relay or limit switch 230 V or pushbutton e 115 V 18 5 wire sensor Control relay i t CAD types XS XU A2 ype 10 XBK P6ee30G30E XBK P6ee30G32bE or G31 E default configuration default configuration Brown NO PNP fond or Orange NC Characteristics page 4 8 Characteristics Zelio Count counters Electronic totalising counters 24 x 48 8 digits LCD Function Impulse counter
9. Autonomy days Approximately 30 at 25 C with fully charged battery Battery type y Lithium battery not interchangeable Charging time h J Approximately 15 to charge from 0 90 of the full charge Life years 10 Base controller type TWD LMDA 20DTK LMDA 20DUK LMDA 20DRT LMDA 40DTK LMDA 40DUK 12 8 8 6 relay source transistor sink transistor 2 source transistor HE 10 connector Number of 24 V inputs Number and type of outputs 1 Connection of I O 24 16 16 source transistor sink transistor Removable HE 10 connector screw terminal block I O expansion Max no of modules 4 ri modules Max no of I O AS Interface 84 148 2 132 244 2 152 264 2 Management of slave modules 62 discrete 7 analogue Application memory capacity 3000 instructions 3000 instructions 6000 with memory cartridge TWD XCP MFK64 Cycle time Processing time ms 1 for 1000 logic instructions System overhead us 0 5 Data memory Internal bits 256 Internal words 3 3000 Timers 3 128 Counters 3 128 Double words Yes Floating Trigonometrical Yes Power supply Rated voltage V 24 Voltage range V 20 4 26 4 including ripple Maximum input current mA 560 at 26 4 V 700 at 26 4 V Maximum inrush current A 50 Consumption W 15 base with 4 I O expansion modules 19 base with 7 I O expansion modules Communication Function Built in serial link Optional serial interface m
10. Electromagnetic fields Conforming to IEC 61000 4 3 Level 3 10 V m Fast transients Conforming to IEC 61000 4 4 Level 3 2 kV Shock waves Conforming to IEC 61000 4 5 Level 3 2 kV Radiated and conducted emissions CISPR11 Group 1 class A CISPR22 Class A 1 Value not communicated 2 Except RM4 T see page 5 11 5 6 General characteristics Zelio Control measurement and continued control relays Relays model RM4 Mechanical durability In millions of operating cycles Current limit Ith BEI 8 Rated operational limits at 70 C 24 V 115 V 250 V Conforming to IEC 60947 5 1 1991 AC 15 A 3 3 3 eee een DC 13 A 2 0 3 0 1 Minimum switching capacity 12 V 10 mA Switching voltage Rated V 250 Max V 440 Contact material EM 90 10 nickel silver a c load d c load Curve 1 Curve 2 Load limit curve Electrical durability of contacts on resistive load Reduction factor k for inductive loads applies to in millions of operating cycles values taken from durability Curve 1 g 10 zd S Bos HFE o iw 3 ToS I 20 7 D 1 5 o cc 9 6 E 1 o E 0 5 N z 0 1 q 04 i Il 0 01 0 3 0 1 2 3 4 5 6 7 l 8 1 058 06 05 0 4 0 3 0 2 0 1 0 2 05 1 2 5 10 20 Current broken in A Power factor on breaking c
11. Presentation Zelio Control measurement and control relays Current measurement relays model RMA J These devices are designed to detect when when current rises above or drops below a preset threshold on an a c or a d c supply They have a transparent hinged flap on their front face to avoid any accidental alteration of the settings This flap can be directly sealed Relay type Overcurrent Overcurrent or Measuring range detection undercurrent detection 7 RM4 JA01 Yes No 3 mA 1 A RM4 JA31 Yes Yes 3 mA 1A RM4 JA32 Yes Yes 0 3 A 15 A Applications excitation control of d c machines control of load state of motors and generators control of current drawn by a 3 phase motor monitoring of heating or lighting circuits control of pump draining undercurrent control of overtorque crushers monitoring of electromagnetic brakes or clutches RM4 JA01 RM4 JA31 RM4 JA32 Width 22 5 mm Width 22 5 mm Width 45 mm RM4 JA32 1 1 1 2 2 2 3 3 4 4 1 Adjustment of current threshold as of setting range max value 2 Hysteresis adjustment from 5 to 30 2 3 Fine adjustment of time delay as of setting range max value 4 10 position switch combining selection of the timing range 1 s 3 s 10 s 30 s no time delay selection of overcurrent gt or undercurrent detection See table below R Yellow LED indicates relay state U Green LED indicates that supply to the
12. _ i TWD LMDA 20DRT TWD LMDA 40DTK 40DUK Twido programmable controller Modular base controllers The modular programmable controller range includes five base controllers which differ in their processing capacity and their number and type of I O 20 or 40 I O with connection by screw terminal block or HE 10 connector with relay or sink source transistor outputs They can be fitted with any of the I O expansion modules in the range 18 discrete and analogue modules All these modular base controllers use a 24 V power supply These modular base controllers offer m Modular design to adapt to the needs of the application by using a base controller which can be fitted with up to 4 or 7 discrete or analogue I O expansion modules depending on the model W A variety of options which offer the user a degree of flexibility which is generally only available with larger automation platforms TWD LMDA modular base controllers can be fitted simultaneously with an optional memory cartridge module a real time clock cartridge module and a digital display module or serial interface module both of the latter two modules allow the addition of a second RS 485 or RS 232C communication port m The modular controller solution also allows great wiring flexibility Several types of connection are offered such as removable screw terminal blocks spring type connections or HE 10 connectors which allow simple fast and safe wiring The Twido
13. conrorming to I 6 kV contact 8 kV air Level 3 Electromagnetic fields Conforming to IEC 61000 4 3 Level 3 10 V m Fast transients Conforming to IEC 61000 4 4 Level 3 2 kV Shock waves Conforming to IEC 61000 4 5 Level 3 2 kV Radiated and conducted CISPHR1 1 Group 1 class A emissions CISPR22 Class A Consumption RE8 TA RA CL PE PU PT HE8 YG RB RE8 YA References pages 3 34 to 3 37 Dimensions pages 3 34 and 3 36 Schemes page 3 35 Characteristics continued Zelio Time timing relays Industrial single function relays optimum relay output width 22 5 mm 20 96 1 96 25 lt 0 2 C 3 26 except RE8 YG 60 50 Setting accuracy As of the full scale value Repeat accuracy Influence of voltage In the voltage range 0 9 1 1 Un Influence of temperature Immunity to microbreaks Minimum control pulse Reset time Maximum switching voltage 250 Vv Mechanical durability In millions of operating cycles Current limit Ith A Rated operational limits at 70 C 115V 250 V Conforming to IEC 60947 5 1 1991 AC 15 3 3 3 and VDE 0660 DC 13 0 2 0 1 Minimum switching capacity 12 V 10 mA Contact material 90 10 nickel silver ACHIVUle COU Input cnaracteristicS Signal delivered by control No load voltage Supply voltage input Y1 Switching current
14. 8 24 V inputs 16 24 V inputs 32 24 V inputs Removable screw terminal block HE 10 connector 20 4 28 8 V 7 MA per point 5 MA per point Sink source 1 1 common point 2 common points 4 ms 4 ms Between channels common point Between bus and channels by photocoupler 1 22 1 Sink input positive logic source input negative logic m 4 24 V inputs 4 relay outputs 16 24 V inputs 8 relay outputs m For controller versions 2 2 0 m Management of slave modules H Discrete maximum of 62 slaves arranged in 2 banks A B of 31 addresses each z EPEISOE O Analogue maximum of 7 slaves in bank A Removable screw terminal block Non removable spring terminal bloc ihe Ae NES IE SL SUSHI NELLE profile 7 3 7 slaves but does not support analogue profile S 7 4 20 4 28 8 V 7 MA per point Sink source 1 common point 4 ms 4 ms 1 N O contact 240 V 30 V 1 common point 2 common points Between input channels common point between output channels common point Between bus and channels by photocoupler 1 22 1 33 147 Twido programmable controller Discrete I O modules 24 V transistor outputs 8 relay outputs 16 relay outputs Removable screw terminal block Transistor Relay with 1 N O contact 20 4 28 8 V 240 V 30V Sink Source 1 common point 2 common points 0 3 A nominal 2 A max 3 A at 28 8 V 7 A max 8 A max Betwee
15. Description Reference Weight kg Solid state input RC 87 610 240 0 060 Voltage input RC 87 610 250 0 065 RC 87 610 240 Accessories Description Dimensions Reference Weight kg Adaptors for 25x50 mm dimensions 29x54 mm RC 26 546 829 0 002 panel cut out 45x45 mm dimensions 52x52 mm RC 26 546 830 0 008 50 mm dimensions 73 mm RC 26 546 831 0 011 RC 87 610 2e0 Panel cut out Max thickness 10mm 1 unit 4 units 30 as fll RC 26 546 829 RC 26 546 830 RC 26 546 831 54 52 35 y Characteristics Schemes page 4 12 page 4 12 Characteristics Zelio Count counters Electronic totalising counters hour counters chronometers 24 x 48 6 or 8 digits LCD Counter type RC 87 610 340 RC 87 610 440 Functions Impulse counter Hour counter chronometer Solid state input Solid state Solid state Display 8dgtOD O 6dgiiCD Digit height 7 7 n BEEN immo 0 99 999 9 min 0 99 999 9 s 0 99 h 59 min 59 s Time base Quartz precision 50 ppm Possibility of reloading current value a Yes Supply Life 8 years 5 years 1 lithium battery Volt free contact Slow input In L T OFF 1 Start Stop input 40 ms minimum terminals 3 5 1 Reset input 100 ms minimum terminals 1 3 1 Prog input terminals 3 4 1 enable Reset input terminals 1 2 40 max 12 min Volt free contact or
16. Jd OR ABB Start Qo Me Y Output 5 78 Schemes continued Zelio Control measurement and control relays Relay model RM 84 RM 84 873 299 References page 5 15 RM 84 873 004 References page 5 15 L1 Lp L L 1 L2 L3 O 3 11 L3 a 13 11 21 Eg U v w U v W MAA V MA Penne 4 M V m D1 amO p HREN 4 07 mM 2 am TT D D 3 1 Isolating switch 1 Isolating switch 2 Contactor 2 D1 Contactor 8 Alarm 3 Alarm 4 Supply 4 Auxiliary power supply for contactor coil and signalling RM 84 873 01e References page 5 21 RM 84 873 3ee References page 5 23 12 14 Terminal referencing Terminal referencing L1 L2 L3 3 phase supply being monitored Terminals L1 L2 L3 3 phase supply being monitored 12 13 14 Output relay 12 13 14 Output relay 21 22 24 Output relay 5 79 Schemes continued Zelio Control measurement and control relays Relay model RM 84 RM 84 873 3ee References page 5 23 1 Isolating switch 2 D1 Contactor RM 84 873 211 References page 5 25 Terminal referencing Terminal referencing Terminals L1 L2 L3 3 phase supply being monitored Terminals L1 L2 L3 N 3 phase supply being monitored 11 12 14 Output relay R1 lower threshold 11 12 14 Output relay R1 lower threshold 21 22 24 Output relay R2 upper thr
17. Magelis IPC industrial PC Vijeo Look software Monitor Pro software Panel building N eeccccc cc c o aaa mum gaong and cabling i m dt B B gl gl a gi i eee O 4 accessories j 52 3 P A HAT S ODE m 5 Sed Wall mounted enclosures Floor standing enclosures Uprights mounting plates mounting rail Prefabricated busbar systems and Tego Power Profil front panel Terminal blocks Cable ends Marking accessories Tools cable ducting and cable clips ower distribution systems Power m distribution E i EE E een la Li 3 E E E DLE o lo ol ml i Prefadis service poles and posts Canalis busbar trunking for lighting distribution Canalis busbar trunking for low and medium power distribution Canalis busbar trunking for high power distribution Mobile distribution Canalis track section and cable carriers lighting poles Services Product reference index Technical information Schneider Electric worldwide General contents Automation and control Automation and relay functions Twido programmable controllers Selection guide for compact and modular base c
18. RE8 YG11BUTQ RE8 YG31BUTQ RE8 YA32BTQ RE8 YA32FUTQ RE8 YA32QTQ RE8 YG21BUTQ 0 110 0 110 0 110 0 110 0 110 Recommended application schemes Pulse on energisation relays RE8 PE RE8 PT Timing relays for star delta starters RE8 YG RE8 YA RE8 YG RE8 YA d L a Q1 1 K1T RE8 YGeieeTQ 1 K1T RE8 YA32eeTQ Note Correct operation of the star delta starter associated with the RE8 YG is only possible if the wiring scheme is strictly complied with Characteristics Dimensions pages 3 32 and 3 33 page 3 36 Characteristics Zelio Time timing relays Universal plug in relays 8 pin relay output width 35 mm Repeat accuracy Conforming to IEC 1812 1 0 5 Yo with constant parameters Drift Temperature t 0 05 96 C Voltage 0 2 V Full scale setting accuracy Conforming to IEC 1812 1 t 10 96 at 25 C Minimum duration of control Typical ms 30 impulse Typical under load ms 100 Maximum reset time Typical ms 100 by de energisation Immunity time Typical ms gt 10 to microbreaks Multivoltage supply Frequency Operating range On load factor Depending on version see pages 3 40 and 3 41 50 60 85 110 Un 926 85 120 Un for 12 V 100 Maximum power Depending on 24V 0 6 consumption model 240 V 240 V Output type Relay 1 or 2 C O contacts AgNi cadmium
19. 32 ms 1 controller cycle time 0 10 V 4 20 mA 12 bits 4096 points 20 ms 1 controller cycle time 24 V external power supply to sensors preactuators voltage range 20 4 28 8 V Isolation between channels and earth by photocoupler 1 30 1 26 2 inputs 1 output Voltage current 0 10 V non differential 4 20 mA differential 12 bits 4096 points 32 ms 1 controller cycle time 1 30 Thermocouple temperature probe inputs Voltage current output Thermocouple type K J and T Pt 100 3 wire temperature probe 100 ms 1 controller cycle time Telemecanique FIOR For controller versions 2 2 0 Management of slave modules Discrete maximum of 62 slaves arranged in 2 banks A B of 31 addresses each Analogue maximum of 7 slaves in bank A The AS Interface M3 profile supports analogue profile 7 3 7 slaves but does not support analogue profile S 7 4 1 33 1 27 Presentation Twido programmable controller description Analogue I O modules Twido analogue I O expansion modules enable the acquisition of various analogue values encountered in industrial applications such as m High level inputs voltage 0 10 V or current 4 20 mA m High level outputs voltage 0 10 V or current 4 20 mA B Low level inputs from thermocouples type K J and T B Low level inputs from 3 wire Pt 100 temperature probes range 100 500 C Analogue output modules are used t
20. Functions Schemes page 5 54 page 5 78 Functions Zelio Control measurement schemes and control relays Plug in liquid level control relays model RM 84 870 Controlling the levels of conductive liquids a Regulation of two thresholds Control of maximum and or minimum levels of conductive liquids tap water sea Eo Serene res water waste water chemical solutions coffee g maximum Emptying function The operating principle is based on measurement of the apparent resistance of the m Plug in 8 or 11 pin liquid between two submerged probes When this value is less than the threshold m Sensitivity adjustable from 5 k to 100 kQ setting on the front panel of the device the output relay changes state To avoid electrolytic phenomena an a c current runs across the probes Applications in the food processing chemical industries etc The output relay changes state when the level of the liquid reaches the maximum level probe with the minimum level probe submerged It returns to its initial state when the minimum level probe is no longer in contact with the liquid Emptying control Energisation of the device Max level Min level Level being controlled Output relay Input _ 7 Y a Maximum ME b Minimum c Common b Cw HP c LN N For RM 84 870 807 special 11 pin base fitting pin 5 must be connected to a maximum and pin 7 must be connected to c co
21. SR2 SR3 Operating limit values V 19 2 30 Load Nominal voltage V 24 Nominal current Maximum current c 0 625 at 30 V Drop out voltage Response time At state 1 Trip Reset lt 2forl 0 5A MA A Built in protection Against overload and short circuits Yes Against overvoltage 1 Against inversions of power supply Yes Yes 1 If there is no volt free contact between the relay output and the load 6 11 Curves Zelio Logic smart relays Compact and modular smart relays d c loads DC 12 1 Millions of operating cycles 0 0 5 1 1 5 2 Current A DC 13 2 14 L R 10 ms 48 V 1 2 L R 10 ms 24 V 1 0 L R 60 ms 48 V L R 2 60 ms 24 V 0 8 0 6 Millions of operating cycles 0 4 0 2 0 05 4 0 2 0 3 0 4 0 5 0 6 0 7 0 8 0 9 1 Current A 1 DC 12 switching resistive loads and photo coupler isolated solid state loads L R lt 1ms 2 DC 13 switching electromagnets L R lt 2 x Ue x le in ms Ue Rated operational voltage le rated operational current with protection diode on load use the DC 12 curves and apply a coefficient of 0 9 to the millions of operating cycles value 6 12 Curves continued Zelio Logic smart relays Compact and modular smart relays a c loads AC 12 1 3 0 2 5 24 V 2
22. Time delay Current to Width Output Basic reference Weight P be measured relay to be completed by depending on adding the voltage connection code 1 Of S mm kg Without 3 30 mA 22 5 1 C O RM4 JA01e 0 172 10 100 mA 0 1 1A 8 Adjustable Current to Width Output Basic reference Weight time delay be measured relay to be completed by depending on adding the voltage connection code 1 v Of S mm kg 0 05 30 3 30 mA 22 5 2 C O RM4 JA31ee 0 172 10 100 mA 0 1 1A RM4 JA32 0 3 1 5A 45 2 C O RM4 JA32ee 0 204 1 5 A 3 15 A 1 Standard supply voltages RM4 JA01 Volts 24 110 130 220 240 50 60 Hz B F M RM4 JA31 Volts 24 240 110 130 220 240 380 415 and RM4 JA32 50 60 Hz MW F M Q MW Presentation Characteristics Dimensions schemes Setting up pages 5 46 and 5 47 page 5 49 page 5 50 page 5 51 Characteristics Zelio Control measurement and control relays Current measurement relays model RMA J Relay type RM4 JA01 RM4 JA31 and RM4 JA32 Rated supply voltage Un 50 60 Hz V 24 110 130 220 240 24 240 110 130 220 240 380 415 V 24 240 Average consumption at Un VA 2 TOSS 2 3 5 15 33 P 1 9 9 3 2 94 P279 W 1 2 Relay type RM4 JA01 RM4 JA31 and RM4 A32 Number of C O contacts 1 2 Output relay state Energised when Energised when current measured gt threshold setting current measured gt th
23. m On steady relay energised no timing in progress Input type V Volt free contact no potential Control possible by 3 wire sensor with PNP output maximum residual voltage 0 4 V whatever the supply voltage of the relay References Dimensions Schemes page 3 14 page 3 15 pages 3 13 and 3 14 Characteristics continued Conforming to standards Zelio Time timing relays Modular relays relay output width 17 5 mm IEC 1812 1 EN 50081 1 2 EN 50082 1 2 LV directives 73 23 EEC 93 68 EEC C marking EMC 89 336 EEC IEC 669 2 3 Product certifications c ULus CSA GL except RE 88 826 503 Temperature limits Operation 20 60 Storage 90 60 Creepage distance and Conforming to IEC 60664 1 kV 4 kV 3 clearance Degree of protection Terminal block IP 20 conforming to IEC 529 Enclosure IP 40 Panel mounted IP 50 Vibration resistance Conforming to IEC 68 2 6 210 55 Hz A 0 35 mm Relative humidity Conforming to IEC 68 2 3 93 96 without condensation Electromagnetic compatibility Immunity to electrostatic discharge conforming to IEC 1000 42 Level Ill Air 8 kV Contact 6 kV Immunity to electromagnetic fields conforming to ENV 50140 204 IEC 1000 4 3 Level Ill 10 V m 80 MHz 1 GHz Immunity to fast transients in bursts conforming to IEC 1000 4 4 Immunity to surges on the power supply conforming to IEC 1000 4 5 Level III direct 2 kV capaciti
24. Inhibit time delay Inhibit time delay Volt free Namur Terminal identification Al A2 Supply voltage 11 12 14 Output relay R N 24V E 0V_ 3 wire PNP sensor E 0V Voltage input 8V2 Y2 Contact NAMUR sensor input References Characteristics page 5 75 page 5 75 5 74 561005 Heferences characteristics Zelio Control measurement and control relays Underspeed control relays model RM 84 874 Underspeed control Voltage Reference Weight kg 24 V RM 84 874 300 0 255 24V RM 84 874 301 0 255 110V RM 84 874 303 0 255 230 V RM 84 874 304 0 255 RM 84 874 304 Relay type RM 84 874 300 RM 84 874 301 RM 84 874 303 RM 84 874 304 Supply voltage Un V 24 v 24 n 110 230 Operating range 0 85 1 15 Un 0 85 1 15 Un Maximum power consumption Immunity to microbreaks W max at Un and 1 5 W at Un 15 3 5 VA max at Un and 5 VA at Un 15 96 10 1 ms 10 Creepage distance and clearance Conforming to IEC 60664 1 kV 4 kV 3 4 kV 3 Input circuit 3 wire sensor 24 V PNP 50 mA max NAMUR sensor Contact Voltage input 8 2V on 1 kQ Voltfree V 30 max Input resistance State High Low kQ 16 kQ except for NAMUR 1 Min 4 5 max 30 Min 0 max 1 TH Cut off frequency Minimum impulse time Minimum time between impulses Hz 200 5 5 Selection of time delay and memory function W
25. Supply voltage 24 V x 20 isolated Input signal Output signal Reference Weight kg Jm 0 10 V 10 V Switchable RMC L55BD 0 120 0 20 mA 4 20 mA 0 10 V 10 V RMC NZ2BD 0 20 mA 4 20 mA 0 50 V 0 300 V 0 500 V Switchable RMC V60BD 0 150 8 S a or 50 60 Hz 0 10 V 0 20 mA T 7 ees a08 4 20 mA 0 1 5 A 0 5 A 0 15 A 0 10 V or 0 20 mA RMC A61BD 0 150 Ifrre or 50 60 Hz or 4 20 mA Description Type Sold in lots of Unit reference Weight kg Terminal blocks for Screw 100 AB1 RRTP435U 0 025 nM connection of protective Sprin 100 AB1iRRTP435U2 0 015 RMC L55BD RMC A61BD earth conductor diis 1 Converters dedicated to Zelio Logic smart relays Presentation Characteristics Dimensions Schemes pages 6 20 and 6 21 pages 6 22 and 6 23 page 6 25 page 6 25 Dimensions Analogue interfaces mounting Zelio Analog schemes Converters for thermocouples and Pt100 probes Voltage current converters RMT eeeee RMP eeeee RMC eeeee Mounting on rails AM1 eeeee Panel mounting RMT eeeeeeRMC A61BD oxQA4 RMP eeeecce x RMC eeeece m i i O 90 5 90 5 83 EF 80 1 Terminal block AB1 RRTP435U or AB1 RRTP435U2 RMT Jeeee RMT Keeee RMP TeOBD RMP Te3BD 2mA IP 19 30 V Type IP2 Rae Jor K P3 9 i4 q IP4 x A2 0V 7 0V 1 Use one output only Input connections on RMP Teeeee 2 wire type 3 wire type 4 wire type RL1 RL2
26. TWD NAC eeee Connection accessory TWD NOZ eee Description Link Length Reference Weight from to kg Serial link Serial interface adapter Modbus module 3m TWD XCA RJ030 0 160 connection cable or RS 485 serial interface RJ 45 connector gt module mini DIN connector Modems Description Supply voltage Reference Weight kg PSTN modem type WESTERMO TD 33 V 90 12 36 V SR1 MODO1 0 231 supplied with a telephone cable length 3 m GSM modem type WAVECOM WMOD2B dual band 24V SR1 MODO2 0 127 900 1800 Mhz supplied with a power cable i length 1 5 m and clips for plate mounting TWD XCP ODM Accessory kit for GSM modem comprising SR1 KIT02 0 180 a modem cable length 0 5 m an antenna with cable length 3 m and accessories for mounting on 1 r rail Modules TWD NOZ eee XCP ODM 70 a 13 9 a TY Wi U d I 90 il d D 7 L L 4 45 h a TWD NOZ eeee 22 50 TWD XCP ODM 38 11 85 Presentation Twido programmable controller characteristics Communication protocols Link by modem 1 Remote programming PC 2 Cable TSX PCX 1031 on serial port 3 Modem for transmitting receiving data 4 Telephone or radio link 5 Twido compact or modular controller Link by cable 1 Programming PC 2 Cable TSX PCX 1031 RS 485 on serial port or USB cable TSX PCX 3030 for Windows 2000 or XP 3 Twido compact or modular controller Protocol type Programming Data rate Kbit s 19 2 Phy
27. 22 5 mm enclosure Without cable end With cable end 2x25 m 2x15 3 Self extinguishing 90 References pages 3 22 and 3 23 Dimensions page 3 22 Schemes page 3 23 3 21 Heferences dimensions schemes Relay output 2 C O contacts Multifunction or single function B Multi range 7 switchable ranges B Multivoltage 2 relay outputs 8 A 250 V 10 A UL of which 1 instantaneous Screw terminals State indication by 1 LED B Option of supplying a load in parallel 3 wire sensor control option Zelio Time timing relays Industrial single or multifunction relays relay outputs width 22 5 mm Function A Delay on energisation 2 timed contacts or 2 timed contacts 1 of which convertible to instantaneous U R1 R2 R2 INST T Function B Timing on impulse one shot 2 timed contacts or 2 timed contacts 1 of which convertible to instantaneous U C R1 R2 R2 Inst Function C Off delay 2 timed contacts or 2 timed contacts 1 of which convertible to instantaneous U m C e R1 R2 b T p lt 4 M Function Ht Delay on energisation with memory 2 timed contacts or 2 timed contacts 1 of which convertible to instantaneous U C R1 R2 R2 Inst T t14t2 Function Ac Timing after closing opening of control contact 2 timed contacts or 2 timed contacts 1 of which convertible to instantaneous
28. 5 codoocdogd eT EN a gg o Nu protection mum g belo M a COQ 2 lpoonoon o9 ol Cee E Oo o o oo DEMNM DW le OOO 60000 ooo O O Contactors Contactors Contactors Modular contactors Circuit breakers Rotary switch disconnector Thermal overload relays Measurement and Motor starters open version Contactor and reversing Direct on line starters Star delta starters from6to 16A from9to 150A from 185 to 800A control relays contactor breakers enclosed version enclosed version Control and CET ETC g protecti on eo o em lo 900 Ies o5 Soft starters open and Soft start soft stop units Variable speed drives for asynchronous motors Ready assembled Power supplies and transformers enclosed version for asynchronous motors variable speed drives Detection a Em A z JB T LJ a oO ex ET Photo electric Inductive capacitive magnet and ultrasonic Limit switches Limit switches for safety Electromechanical pressure Electronic pressure Connectors Encoders Inductive identification system detectors proximity sensors applications and vacuum switches and vacuum switches Data processing
29. 55 Hz A 0 35 mm Relative humidity Conforming to IEC 68 2 3 93 96 without condensation Electromagnetic compatibility Immunity to electrostatic discharge conforming to IEC 1000 42 Level Ill Air 8 kV Contact 6 kV Immunity to electromagnetic fields conforming to ENV 50140 204 IEC 1000 4 3 Immunity to fast transients in bursts conforming to IEC 1000 4 4 Level Ill 10 V m 80 MHz 1 GHz Level Ill direct 2 kV capacitive connecting clip 1 kV Immunity to surges on the power supply conforming to IEC 1000 4 5 Level Ill common mode 2 kV differential mode 1 kV Immunity to radio frequency interference in common mode conforming to ENV 50141 IEC 1000 4 6 Level Ill 10 V rms 0 15 80 MHz Immunity to voltage dips and breaks conforming to IEC 1000 4 11 30 96 10 ms 60 100 ms gt 95 5s Radiated and mains conducted Class B disturbance conforming to EN 55022 EN 55011 Group 1 Fixing Plug in socket 8 pin Enclosure material Self extinguishing References pages 3 40 and 3 41 Dimensions page 3 40 Schemes page 3 41 3 39 References Zelio Time timing relays dimensions Universal plug in relays 8 pin schemes relay output width 35 mm Relay output 1 or 2 C O contacts Multifunction of single function Function A Function C m Multi range 7 switchable ranges Delay on energisation Off delay B Mu
30. 99 999 999 impulses B Hour counter chronometer Q start stop inputs O 4 time ranges 99 999 9 hours 99 999 9 min 99 999 9 s 99 h 59 min 59s B Powered by lithium battery HI reset from front panel or remote reset RC 87 610 340 RC 87 610 e40 Totalising counters LCD 24 x 48 Description Reference Weight kg Impulse counter RC 87 610 340 0 060 Hour counter chronometer RC 87 610 440 0 060 Accessories Description Dimensions Reference Weight kg Adaptors for 25x50 mm dimensions 29x54 mm RC 26 546 829 0 006 panel cut out 45x45 mm dimensions 52x52 mm RC 26 546 830 0 008 50 mm dimensions 73 mm RC 26 546 831 0 011 Panel cut out RC 26 546 829 RC 26 546 830 RC 26 546 831 54 52 O i aa RC 87 610 340 RC 87 610 440 5 Fast f 9 14 5 Start Stop input L 3 Lo IL O counting Prog TH IHL TI LLL IL IH i t Reset i Ji E CE fes i 4 2108 P L 3 2108H gt gt 3 1 Slow counting k input and V 2 Enable Reset reset input gt gt 4 2108 a 1 2108H gt Enable Reset es PIOS input Reset Start St Reset mi4 2108 100 ms ld Terminals erminals 1 Reset input Reset input Enable Reset Slow counting V O1 c0 nm L Fast counting T 1 2 Enable Rese
31. BOOLEAN CAM PRESET COUNT PRESET BOOLEAH CAM COUNT Allows logic equations to be created between connected inputs Cam programmer Up down counter P DOWN NT PRESET H METER 7 30 TIME PROG UPRONN CON 1529 UP DOWN PRESET fet tired tte COUNT H METER TIME PROG Up down counter with external preset Hour counter hour minute preset Time programmer weekly and annual GAIN GAIN Allows conversion of an analogue value by change of scale and offset HMA COMP IN ZONE MIH l Zone comparison Min lt Value lt Max TRIGGER TRIGGER Defines an activation zone with hysteresis t ADD SUB Add and or subtract function Te MUX MILs Multiplexing functions on 2 analogue values MUL DIV M Multiply and or divide function DISPLAY DIPL AY Display of digital and analogue data date time messages for Human Machine interface lt COMPARE COMPARE Comparison of 2 analogue values using the operands gt lt 2 STATUS STATUS Access to smart relay status ARCHIVE GIS ARCHIVE Storage of 2 values simultaneously SFC functions 2 GRAFCET E t RESET INIT SPEED COUNT SPEED COUNT Fast counting up to 1 kHz INIT STEP STEP RESET IHIT IMIT TEF STEP Reinitialisable step Initial step SFC step E DIV OR 2 l CONV OR2 mies DIV AND 2 PT COMU OF 2 DIU AHD amp Dill DR z Divergence to OR Convergence to OR Divergence to AND Tri CONV A
32. DDO 32UK 32DK Type of connection block 26 way HE10 20 way HE10 With TwidoFast pre formed cables 12 inputs and 8 outputs TWD FCW 30M 50M 16 inputs or 16 outputs TWD FCW 30K 50K With TwidoFast kits sub bases cables Telefast 2 mixed connection kits 12 inputs 8 outputs TWD FST 20DR10 20DR20 l Telefast 2 connection kits with passive sub bases 16 inputs TWD FST 16D10 16D20 IEEE Telefast 2 connection kits with relay sub bases 16 outputs TWD FST 16R10 16R20 With Telefast 2 and all necessary cables ABF TP26MPe00 ABF TE20EPe00 ABF TE20SPe00 Connection sub bases 8 channels ABE 7H08Ree 7H08S21 12 channels ABE 7H12Ree 7H12S21 16 channels ABE 7H16Ree H16Cee 7H16S21 ABE 7H16R23 ABE 7H16F43 ABE 7H16S43 Input adapter sub bases 16 channels ABE 7S16E2ee 7P16F30ee en Ew Output adapter sub bases 8 channels ABE 7S08S2eee ABE 7R08Seee 7P08T330 16 channels ABE 7R16Seee 7R16Teee 7P16Teee ABE 7S16S1eee ABE 7S16S2eee Sub bases for analogue counting I O ABE 7CPA01 7CPA02 7CPA03 ABE 7CPA21 7CPA31 1 Using splitter sub base ABE 7ACCO 2 which allows splitting of 16 channels into 2 x 8 channels Twido sub base cable 2 For sub base ABE 7R08S216 with 8 bistable relays all 16 output channels are used 3 12 input channels used out of 16 available 4 8 output channels used out of 12 16 available 5 Except for sub base ABE 7R08S216 with bistable relays which r
33. Global Detection AS Interface Control and connection components Motor starter solutions Control and protection components Soft starters and variable speed drives Art 28697 MKTED299014EN Telemecanique Components for Human Machine interfaces 2001 Merlin Gerin cri BETE Telemecanique Schneider Electric Man Machine dialogue Art 27501 MKTED201001EN 2003 AUTC201384126EN Quantum automation platform AUTC201496125EN 2003 Promium AUTC101272123EN automation platform Nano programmable controllers and Micro automation platform Schneider y Electric Schneider Electric Schneider Electric Data processing Man Machine dialogue Communication Supervision AUTC20176206EN Twin Line Motion control AUTCD21124207EN 2003 OMA irnik i Lexium Motion control Art 46753 MKTED203011EN 2002 Soft starters and variable speed drives Motor starter solutions Control and protection components 2001 Schneider Telemecanique y Electric Control and protection Automation solutions An overview of the product range C 2 D Product listed in other catalogues see previous pages Contro I and Oo m boood O00 L g
34. O Co WOH A Single cycle MAn Repetitive cycle ALG UP 1_ LF LF LF LF LS 20 1 273 4 5 6 1 Input IN1 2 Display CUMUL 3 Of 1 3 4 5 7 n le T 4 1 Input IN1 count in the direction of the cycle 2 Input IN2 count in the opposite direction from the cycle 3 Display O P 2 channel up down counters 4 Display P O 2 channel up down counters PH2 14 UF LA L Lt 2 ff L I LL LJ L a3o0 t 2 3I4 5 4 3 2 4 n n 1 n 2 n 3 n 4 n 5 n 4 n 3 n 2 n 1 1 Input IN1 counts on rising and falling edges 2 Input IN2 direction of count reversed if IN2 in advance of IN1 3 Display O P 4 Display P O 2 presets PRO P2 P1 d P1 PI 1 Pt 2 Pi 1 PT Pir 02 PR O t Pt 1 P1 Ptet P132 Pi i P1 P1 1 PR0 P2 P2 1 1 P2 P2 1 _ n n P2 P2 1 Principle P1 is the batch preset DN 1 Ls LA LA LALAO 2 n n 6 1 Input IN1 2 Display DIR 1 A LF LAE LE LAE LE LFL 2 DOWN Up ojt j2 s 2 t ogpt ao n n ifn 2 n 3 n 2 n 1 n n 1 Input IN1 input pulses Input IN2 reversal of counting direction Display O P 1 channel up down counters Display P O 1 channel up down counters Ac PH4 14 L5 t B4 L4 ao0t l 2 3 4 5 o 7 1 Input IN1 counts on rising and falling edges 2 Input IN2
35. RMT K80BD 6 04 ABF TE20SP200 1 39 RE 88857 406 3 55 REB RA11BTQ 3 34 RM 84 872 310 5 39 RMT K90BD 6 24 ABF TE20SP300 1 39 RE 88 857 409 3 55 REB RA11FUTQ 3 344 RM 84 873 004 5 7 RSB 1A120ee 2 11 ABF TP26MP100 1 59 RE 88 857 502 3 51 REB RA21BTQ 3 34 RM 84 873 010 5 28 RSB 1A160ee 2 11 ABF TP26MP200 1 39 RE 88857 504 3 51 REB RA21FUTQ 3 344 RM 84 873 012 5 23 RSB 2A08060e 2 11 ABF TP26MP300 1 39 RE 88857 508 3 51 REB RA31BTQ 3 34 RM 84 873 015 5 22 RSZ E1935M 2 11 ABL 7CEM24006 1 14 RE 88 857 601 3 57 REB RA31FUTQ 3 34 RM 84 873 016 5 22 RSZ E1S48M 2 11 ABL 7CEM24012 1 14 RE 88857 604 3 57 REB RAMFUTO 3 344 RM 84 873 201 5 27 RSZ L300 2 11 ABL 7RE2402 1 14 RE 88 857 607 3 57 REB RB11BUTQ 3 35 RM 84 873 211 5 27 RSZ R215 2 11 ABL 7RE2403 1 14 RE 88 857 701 3 57 REB RB31BUTQ 3 35 RM 84 873 299 5 17 RUN21C21ee 2 5 ABL 7RE2405 1 14 RE 88 857 704 3 57 REB RB51BUTQ 3 35 RM 84 873 300 5 25 RUN 21C22ee 2 5 ABL 7RM1202 6 16 RE 88857 707 3 57 REB TA11BUTQ 3 34 RM 84 873 301 5 25 RUN21D21ee 2 5 ABL 7RM2401 6 16 RE 88865 103 3 19 RE8 TA21BUTO 3 344 RM 84 873 310 5 25 RUN21D22ee 2 5 ASI ABLM3024 1 8 RE 88 865 105 3 18 RE8 TA31BUTQ 3 344 RM 84 873311 525 RUN 31A21ee 2 5 and RE 88865 115 3 18 REB TA41BUTQ 3 34 RM 84 873 400 5 79 RUN 31A22ee 2 5 1 14 RE 88 865 125 3 18 RE8 TA61BUTQ 3 34 RM 84 873 401 5 79 RUN 31C21ee 2 5 RE 88 865 135 3 19 RE8 YA32BTQ 3 37 RM 84
36. Repeat accuracy With constant parameters t 0 3 96 Temperature drift 0 5 per C Temperature Operation C 20 50 Storage 40 70 Relative humidity Without condensation 9596 Enclosure material Self extinguishing Degree of protection Conforming to IEC 60529 Enclosure IP 40D terminal block IP 20 Connection Flexible cable w o cable end mm 1x4or2x 2 5 Flexible cable with cable end 2X 1 5 Tightening torque 1 Dielectric strength Conforming to IEC 60255 5 2 5 kV for 1 min at 1 mA 50 Hz Creepage distance and clearance Conforming to IEC 60664 1 kV 4 kV 3 Vibration resistance Conforming to IEC 60068 2 6 a 2 0 35 mm Electrostatic discharge Conforming to IEC EN 61000 4 2 Level 3 6 kV contact 8 kV air Electromagnetic fields Conforming to IEC EN 61000 4 3 Level 3 10 V m Fast transients Conforming to IEC EN 61000 4 4 Level 3 2 kV Shock waves Conforming to IEC EN 61000 4 5 Level 3 2 kV Radio frequencies Conforming to IEC EN 61000 4 6 Level 3 10 V rms Voltage dips and breaks Conforming to IEC EN 61000 4 111 30 for 10 ms 60 for 100 ms and 1 s gt 95 for 5 s and 10 ms Damped oscillatory wave at 1 MHz Conforming to IEC 61255 22 1 Class III Radiated and conducted emissions Class B Functions Dimensions Schemes page 5 32 page 5 32 pages 5 80 and 5 81 Functions schemes dimensions Space savings accurate measurement and optimised functions t
37. Reset 48 240 V 2 Reset common 2 Reset common 3 Start stop common 3 Reset 5 50 V 4 Start stop input 4 5 50 V 5 N C 5 Start stop common 6 N C 6 48 240 V Reset Start stop A B inputs inputs Reset Start stop inputs inputs Characteristics page 4 16 Schemes Zelio Count counters Counters 24 x 48 RC 87 610 240 Fast counting input m Counting and general reset input Voltage Volt free contact NPN transistor or 3 wire NPN proximity sensor 1 RC 87 610 240 4 30V pete 3 p 2 1 NPN E EN 3 Te P I 4 T NUM i o 4 l OV PNP transistor or 3 wire PNP proximity sensor 1 RC 87 610 240 2 wire proximity sensor 2 wire proximity sensor OV 1 For sensor with leakage current lt 0 1 mA 2 R 470 Q 2Q for a 2 wire sensor with leakage current lt 1 5 mA References page 4 13 418 Schemes continued Counters 24 x 48 Zelio Count counters RC 87 610 040 RC 87 610 140 Fast counting input RC 87 610 040 Voltage Volt free contact NPN transistor RC 87 610 140 NPN transistor or 3 wire NPN proximity sensor 1 RC 87 610 040 4 30V PNP transistor RC 87 610 140 PNP transistor or 3 wire PNP proximity sensor 1 RC 87 610 040 2 wire proximity sensor 2 wire proximity sensor RC 87 610 050 RC 87 610 150 RC 87 610 250 Counting input RC 87 610 050 RC 87 610 250 Start Stop input RC 87
38. aW l ie A m YN NH L EL e e e e e e Single function Dual function Dual function Single function Single function Multifunction Multifunction C H Ht Li L Q Q A At B C H A At B C H Ht Di D Ac Bw Ht Di D Ac Bw 1s 10s 1min 10 min 1h 10h 100h 20 40 60 80 20 40 60 80 100 120 140 ms 100 120 140 ms 8A 8A 8A 8A 8A 8A 8A RE 88 865 135 RE 88 865 145 RE 88 865 155 RE 88 865 175 RE 88 865 103 RE 88 865 503 RE 88 865 176 0 090 0 090 0 090 0 090 0 090 0 090 0 090 Connection schemes All functions except L and Li 1 Link A1 Y1 for function L only Function Q U N et A1 15 A2 l4 28 18 I Dimensions page 3 18 Characteristics pages 3 16 and 3 17 Characteristics Zelio Time timing relays Industrial single or multifunction relays relay output width 22 5 mm Repeat accuracy Conforming to IEC 1812 1 0 5 Yo with constant parameters Drift Temperature t 0 05 96 C Voltage 0 2 V Full scale setting accuracy Conforming to IEC 1812 1 10 at 25 C Minimum duration of control Typical mso 30 impulse Typical under load ms 100 Maximum reset time Typical ms 100 by de energisation Immunity time Typical ms gt 10 to microbreaks Multivoltage supply Frequency Operating range Depending on version see pages 3 22 and 3 23 50
39. page 4 7 Schemes page 4 7 References Zelio Count counters dimensions Electromechanical preselection counters schemes digits 8 Supply Number Counting Numberof Resettype Reference Weight 8 voltage ofdisplay frequency presets Tere ae digits ur V kHz kg Uus Subtracting preselection counters with mechanical display 24 5 25 1 Manual XBK P50100D10M 0 200 Manual and XBK P50100D20M 0 240 XBK P50100De0M electrical 560839 Adding preselection counters with mechanical display 24 5 25 1 Manual XBK P50100U10M 0 200 Manual and XBK P50100U20M 0 240 electrical XBK P50100U 0M XBK P50100De0M XBK P50100Ue0M Common flush mounting 2xO4 3 XBK P50100De0M XBK P50100Ue0M o o1 310 o2 320 1 22 94 Q EX o 21 0 20 2 20 32 n Characteristics page 4 6 m Characteristics Zelio Count counters Electronic preselection and multifunction counters 48 x 48 6 digits LCD or LED Counter type Preselection XBK P6 Display type LCD or LED Functions Mulltifunction Supply voltage Sensor supply voltage Consumption Counting frequency Number of digits Display capacity Digit height Number of presets Preset display Counting mode Counter Batch counter totalising counter tachometer and chronometer 24 or 230 10 96 or 115 10 96 12 to 24 50 mA max for XBK P6ee30G32E or XBK P6ee30G31E 1
40. 0 20 4 20 0 20 4 20 500 Reverse polarity overvoltage 30 V and short circuit Output predetermined according to type of output selected Maximum impedance of load Built in protection Safety Output state when no inputs are wired or when input wire broken voltage voltage voltage 0 V 2 5V 10 410V 10V current current 0 410V 0V 0 20 mA 0 mA 6 mA current 4 20 MA 4 mA 0 20 mA 0 mA 4 20 MA 4 mA l ITP gt Supply Voltage Rated 24 t 20 96 24 20 isolated 1 5 kV non isolated Maximum current For voltage output mA 40 70 consumption For current output mA 6 90 Built in protection Reverse polarity Signalling Green LED power on Measurements Accuracy At 20 C 96 1 of the full scale value 5 of the full scale value Repeatibility error At 20 C 96 0 2 of the full scale value At 60 C 96 0 6 of the full scale value Temperature coefficient ppm C 200 0 02 96 0 1 5 A 500 0 05 95 0 5 A 1000 0 1 96 0 0 15 A 2000 0 2 96 Presentation References Dimensions Schemes pages 6 20 and 6 21 page 6 24 page 6 25 page 6 25 6 23 References Analogue interfaces Zelio Analog Converters for thermocouples and Pt100 probes Voltage current converters 108999 108997 Supply voltage 24 V 20 non isolated Type Temperature range Switchable Reference Weight oC oF output signal kg Type J 0 150 32 302 0 10
41. 10 A 24V RM 84 871 031 0 150 120 V RM 84 871 033 0 150 230 V RM 84 871 034 0 150 10 100 A 230 V RM 84 871 044 0 150 with current transformer Accessories RM 84 871 08e Description Reference Weight kg Current transformer RM 26 852 304 0 065 Relay type RM 84 871 021 RM 84 871 031 RM 84 871 044 RM 84 871 023 RM 84 871 033 RM 84 871 024 RM 84 871 034 Supply voltage Un V 24 120 230 50 60 Hz galvanic isolation by transformer 230 50 60 Hz Operating range 0 8 1 15 Un Average consumption 1 cadmium free C O contact 8 250 Output relay Rated current Switching voltage Maximum voltage 440 Rated breaking capacity A 2000 Minimum breaking current 100 at 12 V Electrical life AC 12 10 operating cycles at 8 A at 250 V Mechanical life 2 x 107 operating cycles Time delay On crossing threshold T1 12 9 10 5 On energisation T2 1 20 10 2 500 ix Measurement range o ecc lt lik Bet i 0 1 10 10 100 with current transformer Frequency of the measured signal 40 500 Adjustable hysteresis 15 50 of the threshold setting Threshold value 10 100 of the range Threshold setting accuracy 10 Measurement ranges Inputs E1 M E2 M E3 M E1 M E2 M E3 M E1 M Sensitivity mA 2 20 10 100 50 500 A 01 1 10 5 5 1 10 10 100 Input resistance kQ 5 1 0 2 0 1 0 2 0 0
42. 2 C O contacts Multifunction or single function Function A Function C Function Ac m Multi range 7 switchable ranges Delay on energisation Off delay Timing after closing opening B Multivoltage 2 timed contacts or 2 timed contacts or of control contact 2 relay outputs 8 A 250 V 10 A UL 2 timed contacts 1 of which 2 timed contacts 1 of which 2 timed contacts or m Plug in convertible to instantaneous convertible to instantaneous 2 timed contacts 1 of which State indication by 1 LED convertible to instantaneous Option of supplying a load in parallel U n 3 wire sensor control possible C R1 R2 m Cue R1 R2 T xo T eae E I R2 Inst Function B Function Ht Function Di Timing on impulse one shot Delay on energisation wih Flashing relay 2 timed contacts or memory Pulse start 2 timed contacts 1 of which 2 timed contacts or 2 timed contacts or convertible to instantaneous 2 timed contacts 1 of which 2 timed contacts 1 of which convertible to instantaneous convertible to instantaneous U U C R1 R2 C R1 R2 R2 Inst R2 Inst T t14t2 O DIGIDT OLIO 1 LS Connection Plug in sub base e e e Functions Multifunction Dual function Single function A At B C H Ht Di D A At C Ac Bw Timing ranges 7 ranges 1s 10s 1 min 10 min 1h 10h 100h Relay output 2 timed contacts 2 timed cont
43. 2500 2000 Between contacts V 11500 Electrical durability of contacts Reduction coefficient for inductive load Breaking capacity on a resistive load Resistive load depending on power factor cos 107 ld S 9 5 10 2 5 3 3 106 T ILEN 5 0 5 03 D A 0 2 105 0 1 BI 10 8 0 6 0 4 0 3 0 2 02030 80 120 160 200 250 300 Switching capacity Cos Voltage RXL4 RXL 2 RXL 3 et RXL 4 RXLS T 0 ms B RXL2 B RXLS T 40 ms C RXL3 C RXL4 D RXL2 Durability inductive load durability resistive load x reduction coefficient References Dimensions Schemes pages 2 8 and 2 9 page 2 14 page 2 12 Characteristics continued Relay type Number and type of contacts Miniature relays RXN 21E1eee Zelio Relay plug in relays RXN 41Gleee 4 C O Contact materials Rated thermal current Ith Maximum operating rate In operating cycles h Switching voltage Breaking capacity 2 C O AgNi For temperature lt 40 C A 5 No load 18 000 Under load 1200 Minimum Minimum 5 maximum 250 250 Minimum mA 10 Maximum VA 1250 Rated voltage Un V 12 110 24 230 50 60 Hz Average consumption 0 9 W 1 6 VA Permissible voltage variation 0 8 1 1 Un 50 60 Hz or Drop out voltage threshold z 20 1 Un 20 15 Un Conforming to standards Standard version IE IEC 61810 1 Approvals pending Standard version CSA UL Am
44. 3770 F7 96 132 230 16 100 P7 184 253 1 These relays have a lockable Test button on their front face which can be converted to non lockable or can be eliminated see accessories on page opposite Characteristics pages 2 6 and 2 7 2 8 Dimensions page 2 14 Schemes page 2 12 560590 560591 Heferences continued Zelio Relay plug in relays Miniature relays Sockets 1 Protection Application Type I O Sold in Unit reference Weight module lots of kg Without RXN 21 RXN 41 Mixed 10 RXZ E1M114 0 048 RXL 2A12 and RXL 4 With RXN 21 RXN 41 L Mixed 10 RXZ 7G 0 055 RXZ 200 RXN 21 RXL2 E Separate 10 RXZ E1S108M 0 058 RXL 3A10 E Separate 10 RXZ E1S111M 0 065 RXN 4 RXL 4 E Separate 10 RXZ E1S114M 0 070 E Mixed 10 RXZ E1M114M 0 070 2 Accessories Description Application Sold in Unit reference Weight lots of kg Button For non lockable Test function 20 3 RXZ P20 0 001 RXZ H235 Blanking For elimination of Test function 20 3 RXZ P10 0 001 cover Metal For use on all sockets 10 RXZ 200 0 001 maintaining clamps Plastic RXZ E 10 RXZ R235 0 005 maintaining clamps Legends Clip in fixing on socket RXZ 7G 10 RXZ 300 0 010 Clip in fixing on socket RXZ 7 10 RXZ 310 0 011 in place of module RXW 040MD Clip in fixing on socket RXZ E 10 RXZ L320 0 001 1 A bag containing ten RXZ 300 legends is supplied with sockets RXZ 7G RXZ E1M114 7 A 300 V RXZ 7G 6A 300 V RXZ E
45. 4 kV 8 mm creepage distance Isolation of contacts and electrodes from the supply kV G25 Temperature limits Operation C 20 60 Storage 30 4 70 Product certifications c UL us CSA Functions Scheme page 5 56 page 5 56 Presentation 561078 be RM4 LGO1 561079 RM4 LA32 Zelio Control measurement and control relays Liquid level control relays model RM4 These devices monitor the levels of conductive liquids They control the actuation of pumps or valves to regulate levels and are also suitable for protecting submersible pumps against running empty or protecting tanks from overflow They can also be used to control dosing of liquids in mixing processes and to protect heating elements in the event of non immersion They have a transparent hinged flap on their front face to avoid any accidental alteration of the settings This flap can be directly sealed Compatible liquids O spring town industrial and sea water O metallic salt acid or base solutions O liquid fertilizers O non concentrated alcohol 40 95 o liquids in the food processing industry milk beer coffee etc Non compatible liquids chemically pure water fuels liquid gasses inflammable oil concentrated alcohol gt 40 ethylene glycol paraffin varnish and paints 0000 E RM4 LG01 RM4 LA32 Width 22 5 mm Width 22 5 mm A ON 1 Fi
46. 48V 110V 240V RE7 001 1BU wa or e e les w Jos 2 I RE7 ee12BU and RE7 ee13BU VA 12 2 2 8 125 W 0 8 1 6 RE7 eeeeMW 1 VA 2 2 5 50 6 W 2 1 22 2 1 RE7 HBeeMW current peak on energisation 1 A 30 ms References pages 3 26 to 3 29 Characteristics continued Zelio Time timing relays Industrial single or multifunction relays relay output width 22 5 mm Setting accuracy As 96 of the full scale value MEN 10 Repeat accuracy 0 2 96 Influence of voltage In the voltage range 0 85 1 1 it lt 0 2 96 Influence of temperature lt 0 07 C Immunity to microbreaks 3 Minimum control pulse m 20 except RE7 RB1eMW 1 s Reset time Output circu i t characterist naracteristic 50 3 a Maximum switching voltage Vv 250 Mechanical durability In millions of operating cycles 20 Current limit Ith A 8 except RE7 RBeeMW 5 A Rated operational limits at 70 C 24V 115 V 250 V Conforming to IEC 60947 5 1 1991 AC 15 3 3 3 ane ve poe DC 13 2 0 2 0 1 Minimum switching capacity 12 V 10 mA Contact material 90 10 nickel silver except RE7 RBeeMU gold flashed silver alloy Remote control input characteristics Maximum voltage Applicable to inputs V 60 Y1Z2 X1Z2 X2Z2 Signal delivered by control Switching current lt 1 A UN Y1 X122 finie Maximum distance 50 o galvanic insulation am ET between these inputs and the Comp
47. Control of tank filling at 2 levels min 1 max 1 with simultaneous control of well or supply tank emptying at 2 levels min 2 max 2 in order to protect the pump against running empty The operating principle is based on measurement of the apparent resistance of the liquid between two submerged probes To avoid electrolytic phenomena an a c current runs across the probes In certain applications fine adjustment of sensitivity leads to the detection of undesirable factors such as the presence of foam or bubbles on the surface of the liquid or the appearance of leakage impedance between probes extended line capacity humidity The output relay changes state is de energised when the level of the liquid in the tank reaches the max 1 level probe with the min 1 level probe submerged It returns to its initial state closes again when the min 1 level probe is no longer in contact with the liquid When the level of the liquid in the well reaches the min 2 level probe the pump stops relay open Protection prevents the pump from running empty If on energisation or after a power cut the max 2 level probe in the tank is above the liquid level the device must be reset by pressing the pushbutton B P ITI Te T3 T4 P a gt lt 7 Well or supply tank Tank Characteristics page 5 69 References page 5 69 5 68 Dimensions page 5 69 561032 References Zelio
48. For controller versions 2 2 0 1 point adjustable from 0 1023 points 1 point adjustable from 0 511 points 1 6 1 The first value corresponds to the maximum number of I O base controller and expansion module with screw or spring terminal expansion modules the second value is for HE 10 connector expansion modules 2 The maximum values cannot be cumulated 3 With 16 I O base controller TWD LCAA 16DHF and 24 I O base controller TWD LCAA 24DHF Characteristics continued Twido programmable controller Compact base controllers Base controller type TWD LCAA 10DRF TWD LCAA 16DRF TWD LCAA 24DRF Number of input channels 6 9 14 Rated input voltage 24 sink source positive or negative logic V Commons mg 1 V Input voltage range 20 4 28 8 Rated input current mA 11 mA for 10 0 and 10 1 7 mA for other inputs IO i Input impedance kQ 2 1 KQ for 10 0 and 10 1 3 4 KQ for other inputs IO i Filter time At state 1 us 35 us programmed filter time for 10 0 10 5 40 us or programmed filter time for other inputs 10 1 At state 0 us 45 us programmed filter time for 10 0 10 5 150 us or programmed filter time for other inputs 10 1 Isolation No isolation between points isolation with internal logic by photocouplers Number of output channels 4 7 10 Output currents 2 per channel 8 per common Commons Common 0 3 N O contacts 4 N O contacts 4 N O contacts Common 1 1 N O contact 2 N
49. IN U I function me T2l T l Hysteresis Relay pod l Sa References Characteristics Schemes page 5 33 page 5 33 pages 5 80 and 5 81 5 32 561465 References Zelio Control measurement characteristics and control relays Voltage control relays with memory self powered model RM 84 872 Type Voltage to be measured Reference Weight kg With memory v Or RM 84 872 046 0 100 20 80 V Or RM 84 872 047 0 100 65 260 V Without memory POSEE RM 84 872 056 0 100 20 80 V rec RM 84 872 057 0 100 65 260 V RM 84 872 0ee Relay type IN RM 84 872 04e RM 84 872 05e Supply voltage Un V Or 20 80 or 65 260 V VA VA Operating range 15 150 50 275 Maximum consumption 260V 6 7 6 80V 2 2 260 V W 2 2 80V W 0 8 0 8 Output relay 1 cadmium free C O contact Rated current A 8 Switching current V 250 Maximum voltage V 440 Rated breaking capacity VA 2000 Minimum breaking current mA 100at 12V Electrical life AC 12 10 operating cycles at 8 A at 250 V Mechanical life 2 x 107 operating cycles Time delay On crossing the threshold T1 s 0 1 3 10 Delay on pick up ms 500 Relay type Measures its own supply voltage Measurement range 20 80 or 65 260 depending on model Frequency of the signal measured 50 60 1 Hysteresis mo Adjustable 5 20 96 Fixed 5 96 Threshold setting accuracy HEN 10
50. RE 88 826 103 RE 88 826 503 0 060 0 060 0 060 0 060 0 060 Connection scheme All functions except L and Li Functions L and Li 1 Link A1 Y1 for function L only Characteristics Dimensions pages 3 12 and 3 13 page 3 14 ans Characteristics Repeat accuracy with constant parameters Drift Zelio Time timing relays Industrial single or multifunction relays relay output width 22 5 mm Conforming to IEC 1812 1 0 5 Yo 0 05 96 C 0 2 V Temperature Voltage Full scale setting accuracy Minimum duration of 10 at 25 C ms 30 Conforming to IEC 1812 1 Typical control impulse Typical under load ms 100 Maximum reset time Typical ms 100 by de energisation Immunity time Typical ms gt 10 to microbreaks Mutivoltage supply Depending on version see pages 3 18 and 3 19 Frequency 50 60 Operating range 85 110 Un 85 120 Un for 12 V On load factor 100 Maximum power Depending 24V 0 6 consumption on model 240 V 1 5 240 V VA 32 Output type Relay C O contact AgNi cadmium free Breaking capacity 2000 VA 80 W Maximum breaking current mod co Minimum breaking current 10 5V Maximum switching voltage V 250 Electrical life 105 operations 8 A 250 V resistive Mechanical life 5 x 108 operations Dielectric strength Conforming to IEC 1812 1 kV 2 5 1min 1 mA 50 Hz Impulse voltag
51. RUZ 1A RUN 33A22ee RUW 101MW RUZ 7A Zelio Relay plug in relays Universal relays Relays for standard applications Number Conventional LED Pins oo Unit reference to Weight of C O rated thermal be completed by contacts current adding the control voltage code 1 A kg 2 10 Without Octal 10 RUN 21D21ee 0 105 8 flat pins 10 RUN 21C21ee 0 110 Green Octal 10 RUN 21D22ee 0 105 8 flat pins 10 RUN 21C22ee 0 110 3 10 Without Undecal 10 RUN 31A21ee 0 105 11 flat pins 10 RUN 31C21ee 0 110 Green Undecal 10 RUN 31A22ee 0 105 11 flat pins 10 RUN 31C22ee 0 110 Relays with gold flashed contacts 3 4 Green Undecal 10 RUN 33A22ee 0 105 LED indicator modules 2 Description Type Voltage Unit reference Weight lots of V kg Power on 110 230 20 RUW 010P7 0 006 indication 6 24 20 RUW 030BD 0 006 With protection diode Protection modules 2 Diode E2 6 230 20 RUW 040BD 0 006 Varistor E2 24 20 RUW 042B7 0 006 E2 230 20 RUW 042P7 0 006 RC circuit E2 110 240 20 RUW 041P7 0 006 Timer module 2 Multifunction 24 240 1 RUW 101MW 0 020 Sockets Protection Relay type y o Unit reference Weight module lots of kg Without module RUN 21 octal Mixed 10 RUZ 1D 0 067 indicator RUN 31 and RUN 33 Mixed 10 RUZ 1A 0 067 protection or undecal meri RUN 21C and Mixed I0 RUZ1C 0 067 RUN 31C With module RUN 31A and Mixed 10 RUZ 7A 0 069 indicator RUN 33 protection or RUN 21 octal Mixe
52. SR2 PACK2FU 6 14 TWD NOI 10M3 1 33 SR2 PACKBD 6 4 TWD NOZ 232D 1 35 SR2 PACKFU 6 14 TWD NOZ 485D 1 35 SR2 SFTO1 6 18 TWD NOZ 485T 1 35 SR3 B101B 6 15 TWD NOZ eeee 1 14 SR3 B101BD 6 15 TWDSPU1001V10M 1 47 SR3 B101FU 6 15 TNDSPU1002 V10M 1 47 SR3 B102BD 6 15 TWD USE 10AD 1 47 7 3 Technical information Protective treatment according to climatic environment Depending on the climatic and environmental conditions in which the equipment is placed Schneider Electric can offer specially adapted products to meet your requirements In order to make the correct choice of protective finish two points should be remembered e he prevailing climate of the country is never the only criterion e Only the atmosphere in the immediate vicinity of the equipment need be considered This is the standard treatment for the Telemecanique brand equipment and is suitable for the vast majority of applications It is the equivalent of treatments described as Klimafest Climateproof Total tropicalisation or Super tropicalisation and meets the same requirements in particular e Publication UTE C 63 100 method l successive cycles of humid heat at 40 C and 95 relative humidity e DIN 50016 Variations of ambient conditions within a climatic chamber 23 C and 83 relative humidity 40 C and 92 relative humidity It also meets the requirements of the following marine classification authorities BV LRO
53. Single function Dual function H Li L 1s 10s 1min 10min 1h 10h 100h 0 7 A 0 7 A RE 88 826 044 RE 88 826 054 0 060 0 060 Connection schemes Functions A H Function U Functions L Li TE Ple g I 1 Link A2 Y1 for function L only Characteristics Dimensions pages 3 4 and 3 5 page 3 6 cm 560853 Characteristics Conforming to standards Zelio Time timing relays Industrial relays solid state output width 22 5 mm The RE9 range of relays is designed for simple repetitive applications with short and intensive cycles because their solid state output provides very high electrical durability Each relay has a single timing range Each relay has a wide voltage range from 24 to 240 V The range comprises 9 references with 3 model types B RE9 TA function A m RE9 RA function C B RE9 MS multifunction A H L Li These products have a transparent hinged flap on their front face to avoid any accidental alteration of the settings This flap can be directly sealed IEC 61812 1 EN 61812 1 Product certifications CSA GL pending UL C marking Zelio Time timing relays conform to European regulations relating to C marking Ambient air temperature around the device Permissible relative humidity range Vibration resistance Shock resistance Degree of protection Storage 40 85 Operation Conforming to IEC 60721 3 3 Conforming to IEC 6068 2 6
54. U C R1 R2 R2 Inst Function Di Flashing relay Pulse start 2 timed contacts or 2 timed contacts 1 of which convertible to instantaneous R2 Inst 561175 561176 D e RE o rs8 E Connection Screw terminals e e Functions Multifunction Dual function A At B C H Ht Di D Ac Bw A At Timing ranges 7 ranges 1s 10s 1min 10 min 1h 10h 100h 4 ranges Relay output 2 timed contacts 1 convertible to instantaneous 2 timed contacts Rated current 8A 8A Voltages 24V 24 240V RE 88 865 305 RE 88 865 215 c 12V Weight kg 0 090 0 090 Dimensions f Characteristics Schemes pages 3 20 and 3 21 page 3 23 3 22 Function K Function At Function H Function D Function Bw Delay on de energisation Timing on energisation Timing on energisation Flashing relay Pulse output adjustable True off delay with memory 2 timed contacts or Start after pause 2 timed contacts or without auxiliary supply 2 timed contacts or 2 timed contacts 1 of which 2 timed contacts or 2 timed contacts 1 of which 2 timed contacts 2 timed contacts 1 of which convertible to instantaneous 2 timed contacts 1 of which convertible to instantaneous convertible to instantaneous convertible to instantaneous U U U U U R1 R2 C R1 R2 R1 R2 C T R1 R2 R2 Inst R2 Inst R1 R2 R2 Inst R2 Inst T t14 t2 meg LEE o o 3 3 E Ve p e e Singl
55. a 1 Relays 2 Add on protection module 3 Maintaining clamp 4 Legend References Schemes pages 28042 4 28042 5 and 2 page 2 12 2 14 Dimensions continued Zelio Relay plug in relays Universal relays references page 2 5 RUN 21D2eee RUN 31A2eee RUN 33A2eee RUN 21C2eee RUN 31C2e0ee Sockets references page 2 5 RUZ 1D References Schemes page 2 5 page 2 13 2 15 3 0 Contents 3 Zelio Time timing relays Selection guide for Zelio Time timing relays page 3 2 m Modular relays solid state output width 17 5 mm page 3 6 m industrial relays solid state output width 22 5mm page 3 10 m Modular relays relay output width 17 5mm 05 page 3 14 m industrial single or multifunction relays O 1 relay output wid 22 5 tros vs cette Eon ea ee Bee ee page 3 18 Gl 2 relay outputs width 22 5 mimos 22465 265 eee ee ee een ee page 3 22 m industrial single function relays relay output width 22 5 mm page 3 26 m Industrial single or multifunction relays relay output width 22 5 mm page 3 28 m industrial single function relays optimum relay output width 22 5 MM soy 64 29 ao es UE UR ER RRECECETE ee e n EHE es page 3 34 B Universal plug in relays 8 pin relay outp
56. conforming to ENV 50140 204 IEC 1000 4 3 Level III 10 V m 80 MHz 1 GHz Immunity to fast transients in bursts conforming to IEC 1000 4 4 Level Ill direct 2 kV capacitive connecting clip 1 kV Immunity to surges on the power supply conforming to IEC 1000 4 5 Immunity to radio frequency interference in common mode conforming to ENV 50141 IEC 1000 4 6 Level Ill common mode 2 kV differential mode 1 kV Level Ill 10 V rms 0 15 80 MHz Immunity to voltage dips and breaks conforming to IEC 1000 4 1 1 30 10 ms 60 96 100 ms 95 5s Radiated and mains conducted disturbance conforming to EN 55022 EN 55011 Group 1 Class B Fixing Clamping capacity Symmetrical mounting rail EN 50022 Without cable end 35 2x25 With cable end 2x1 5 Spring terminals 2 terminals Flexible cable 1 5 3 3 3 T E per connection point Solid cable mm 25 Enclosure material Self extinguishing References Dimensions Schemes pages 3 18 and 3 19 page 3 18 page 3 19 3 17 References Zelio Time timing relays dimensions Industrial single or multifunction relays schemes relay output width 22 5 mm Relay output 1 C O contact Multifunction or single function Function A Function H Function Li m Multi range 7 switchable ranges Delay on energisation Timing on energisation Asymmetrical recycler B Multivoltage Pulse start 1 rel
57. free Breaking capacity 2000 VA 80 W Maximum breaking current Oy ar 20 Minimum breaking current mA 10 5 V Maximum switching voltage V 250 Electrical life 105 operations 8 A 250 V resistive Mechanical life 5 x 108 operations Dielectric strength Conforming to IEC 1812 1 kV 2 5 1min 1 mA 50 Hz Impulse voltage Conforming to IEC 664 1 kV 5 wave 1 2 50 us IEC 1812 1 State indication by 1 LED Green Operating status indication uu Pulsing relay energised no timing in progress except Di D and Li L mann Flashing timing in progress m On steady relay energised no timing in progress Input type V Volt free contact no potential Control possible by 3 wire sensor with PNP output maximum residual voltage 0 4 V whatever the supply voltage of the timer References Dimensions Schemes pages 3 40 and 3 41 page 3 40 page 3 41 Characteristics continued Zelio Time timing relays Universal plug in relays 8 pin Conforming to standards relay output width 35 mm C marking EMC 89 336 EEC IEC 669 2 3 IEC 1812 1 EN 50081 1 2 EN 50082 1 2 LV directives 73 23 EEC 93 68 EEC Product certifications c UR us CSA GL Temperature limits Operation 20 60 Storage 90 60 Creepage distance Conforming to IEC 60664 1 kV 4 kV 3 and clearance Degree of protection Terminal block IP 20 conforming to IEC 529 Enclosure IP 40 Front panel IP 50 Vibration resistance f 10
58. laundries sugar refineries steam rooms etc TC treatment can still be used if the following precautions are taken e The enclosure in which the equipment is mounted must be protected with a TH finish see next page and must be well ventilated to avoid condensation and dripping water e g enclosure base plate mounted on spacers e Components mounted inside the enclosure must have a TC finish e If the equipment is to be switched off for long periods a heater must be provided 0 2 to 0 5 kW per square decimetre of enclosure switched on automatically when the equipment is turned off This heater keeps the inside of the enclosure at a temperature slightly higher than the outside surrounding temperature thereby avoiding any risk of condensation and dripping water the heat produced by the equipment itself in normal running is sufficient to provide this temperature difference e For pilot devices the use of TC treatment can be extended to outdoor use provided the enclosure is made of light alloys zinc alloys or plastic material In this case it is essential to ensure that the degree of protection against penetration of liquids and solid objects is suitable for the applications involved 7 4 Technical information Protective treatment according to climatic environment This treatment is for hot and humid atmospheres where installations are subject to condensation dripping water and the risk of fungi Plast
59. lt 200 mQ RL1 RL2 RL3 RL1 RL2 lt 200 Q RL1 RL2 lt 200 Q RMC eecee RMC N22BD 19 30 V 4 20 MA gt 1 Use one input only 1 Use one input only 1 Use one input only 2 Use one output only Presentation Characteristics References pages 6 20 and 6 21 pages 6 22 and 6 23 page 6 24 ms 7 0 Contents 7 Services m index IJ Product reference Index o lt 2 224 nese IRL Ip page 7 2 B Technical information O Protective treatment according to climatic environment page 7 4 O Product standards and approvals lille page 7 6 O Degrees of protection provided by enclosures page 7 8 E o 7 1 Product reference index RE 88 857 003 3 55 RE8 PD21BTQ 3 36 RM 84 872 033 5 37 RMP T70BD 6 24 A RE 88 857 005 3 55 RE8 PD21FUTQ 3 36 RM 84 872 034 5 37 RMP T73BD 6 16 AB1 RRTP435U 6 24 RE 88 857 103 3 55 RE8 PD31BTQ 3 36 RM 84 872 046 5 35 And AB1 RRTP435U2 6 24 RE 88 857 105 3 55 RE8 PD31FUTQ 3 380 RM 84 872 047 5 35 6 24 ABF TE20EP100 1 39 RE 88 857 301 3 55 RE8 PE11BUTQ 3 36 RM 84 872 056 5 25 BMT J40BD 6 24 ABF TE20EP200 1 39 RE 88 857 302 3 55 RE8 PE21BUTQ 3 36 RM 84 872 057 5 25 RMT J60BD 6 24 ABF TE20EP300 1 39 RE 88857 307 3 55 RE8 PE31BUTQ 3 36 RM 84 872 301 5 39 RMT J80BD 6 24 ABF TE20SP100 1 39 RE 88 857 400 3 55 REB PTO1BUTQ 3 37 RM 84 872 305 5 39
60. of the device Function Empty Fill Note Memory Alarm and Function selections must only be made with the device switched off Memory OFF Memory ON On energisation probe Al is submerged relays R1 and R2 change to the energised state and the pump is ON filling starts the LED for relay R1 is lit When the liquid reaches the max level probe relay R1 changes to the de energised state and the pump is OFF filling stops the LED for relay R1 goes out Relay R1 re energises when the min level probe emerges In the event of a fault continual drop in level probe Al is emerged relay R2 changes to the de energised state and the alarm is triggered the LED for relay R2 comes on This fault can be memorised Memon ORP Maman ON On energisation the level in the tank is low relays R1 and R2 change to the r gt it gt H energised state and the pump is ON filling starts the LED for relay R1 is lit When Miss the liquid reaches the max level probe relay R1 de energises and the pump is OFF Min filling stops and the relay LED goes out In the event of a fault if the level continues Bs to rise and reaches probe Al relay R2 de energises and the alarm is triggered the Eo quem LED for relay R2 comes on This fault can be memorised joai ee On energisation the min level max level and Al probes are submerged relays R1 un a
61. schemes relay output width 22 5 mm Relay output 1 C O contact Single timing range Function A Function C Start on energisation With control contact NN el NENNEN OO site sien CE 3 15 16 t C O 15 18 15 16 560954 560954 Functions A C Voltages ora 24V e e 110 240 V e e 380 415 V Timing ranges 0 05 s 0 5s 0 15 35 RE8 TA61BUTQ 0 1 s 10 s RE8 TA11BUTQ RE8 RA11BTQ RE8 RA11FUTQ 0 3 s 30s RE8 TA31BUTQ RE8 RA31BTQ RE8 RA31FUTQ 3 s 300 s RE8 TA21BUTQ RE8 RA21BTQ RE8 RA21FUTQ 20 s 30 min RE8 TA41BUTQ RE8 RA41FUTQ Weight kg 0 110 0 110 0 110 Dimensions Rail mounting Screw fixing Characteristics Schemes pages 3 32 and 3 33 page 3 35 560954 Function K Function D Off delay Symmetrical Supply Supply 15 16 19 16 gt 80 ms t t t 44 3 560954 K D e e e e RE8 RB51BUTQ RE8 RB11BUTQ RE8 CL11BUTQ RE8 RB31BUTQ 0 110 0 110 Connection schemes Recommended application schemes RE8 TA CL RE8 RA RE8 RB RE8 TA CL RE8 RA Control of several relays with a single external control contact RE8 RA RE8 PD The external control contact C may be an electronic control device for example Leakage current open state If 1 mA a 2 wire sensor In this case A1 A2 24 V and the control device can only control up to a maximum of 4 relays Characteristics
62. such as timers counters drum controllers registers etc m Controller internal variables such as internal bits and words Instruction List programming A program written in instruction List language consists of a series of instructions executed sequentially by the controller Each instruction is represented by a single program line and consists of three components B Line number line numbers are generated automatically when the instructions are entered m Instruction code the instruction code is a symbol linked to an operand identifying the operation to be performed on this operand These operations are generally of the Boolean and numerical type B Operand an operand is a reference a symbol or a number representing a piece of physical data For example in the program opposite the operand l0 4 is the reference corresponding to a controller discrete input Programmable controller variables An instruction can include from zero to three operands depending on the type of instruction code The operands may be m Sensor image inputs detectors control buttons etc B Preactuator output images contactors solenoid valves pilot lights etc m internal bits equivalent to the internal relays in electromagnetic control equipment B Control equipment function blocks timers counters drum controllers registers E Functions continued Mima HN fied ema jai Dem rm eni H qm Wo we oe A Ava
63. 0 4 Yes SR2 B122BD 0 220 20 12 2 8 0 No SR2 A201BD 1 0 380 12 6 8 0 Yes SR2 B201BD 0 380 12 6 0 8 Yes SR2 B202BD 0 280 Supply 24 V 12 8 0 4 0 Yes SR2 B121B 0 250 20 12 0 8 0 Yes SR2 B201B 0 380 Supply 100 240 V 10 6 0 4 0 NO SR2 A101FU 1 0 250 12 8 0 4 0 Yes SR2 B121FU 0 250 20 12 0 8 0 NO SR2 A201FU 1 0 380 12 0 8 0 Yes SR2 B201FU 0 380 Number Discrete Of which Relay Transistor Clock Reference Weight ofl O inputs 0 10V outputs outputs analogue inputs kg Supply 24 V 10 6 0 4 0 NO SR2 D101BD 7 0 220 12 8 4 4 0 Yes SR2 E121BD 0 220 20 12 2 8 0 No SR2 D201BD 1 0 350 12 6 8 0 Yes SR2 E201BD 0 350 Supply 24 V 12 8 0 4 0 Yes SR2 E121B 0 220 20 12 0 8 0 Yes SR2 E201B 0 350 Supply 100 240 V 10 6 0 4 0 NO SR2 D101FU 7 0 220 12 8 0 4 0 Yes SR2 E121FU 0 220 20 12 0 8 0 NO SR2 D201FU 1 0 350 12 0 8 0 Yes SR2 E201FU 0 350 Number Pack contents Reference Weight of I O kg Supply 24 V 12 An SR2 B121BD compact smart relay with display SR2 PACKBD 0 700 a connecting cable and Zelio Soft programming software supplied on CD Rom 20 An SR2 B201BD compact smart relay with display SR2 PACK2BD 0 850 a connecting cable and Zelio Soft programming software supplied on CD Rom Supply 100 240 V 12 An SR2 B121FU compact smart relay with display SR2 PACKFU 0 700 a connecting cable and Zelio Soft programming software supplied on CD Rom 20 An SR2 B201FU compact smart relay with display SR2 PACK2FU 0 850 a connec
64. 1 47 and SR3 B261BD 6 15 TWD USE 10AF 1 47 2 11 SR3 B261FU 6 15 TWD USE 10AI 1 47 RZM 021FP 2 8 SR3 B262BD 6 15 TWD USE 10AS 1 47 and SR3 MBUO1BD 6 5 TWDXCA2A10M 1 14 BEV MEER 1 1 10 6 15 nemen 27 6R3 PACKBD 6 15 and bis SR3 PACKFU 6 15 ih RZN OSTEN zs D OBSS 6 15 TWD XCP MFK64 1 14 SR3 XT101BD 6 15 TWD XCP ODC 1 8 and SR3 XT101FU 6 15 TWD XCP ODM 1 8 2 41 SR3 XT141B 6 15 Mur RZM 031FPD 2 8 SR3 XT141BD 6 15 1 14 and SR3 XT141FU Dd Coney s ait Shs ATOTB 6 15 TWD XCP RTC 1 14 RZM 031RB 2 0 SRS AIGIBD 6 5 TWD XDPPAKie 1 47 aud e ATOUEL 6 75 TWDXDPPAK2e 1 47 2 11 TWD XMT5 1 8 RZM 040W 2g I TWD XMT5 1 8 ang TSX PCX 1031 1 47 and oy1 TSX PCX 3030 1 47 py TWD ALM 3LT 1 30 PZM 041BEN7 2 8 TWD AMI 2HT 1 30 TWD XSM 14 1 8 au un aMM SHY 1 39 TWD XSM6 1 8 2 1 TWD AMO 1HT 1 30 TWD XSM 9 1 8 RZM 041FU7 2 8 TWD DDI 16DK 1 22 and TWD DDI 16DT ye X 2 41 TWD DDI 32DK 1 22 XBKH70000000M 4 3 TUD DOCK joo XBK H70000004M 4 3 SR1 KITO2 1 85 TWD DDO 16UK 1 22 XBKP50100D10M 4 7 SR1 MODO1 1 85 TWD DDO 32TK 1 22 XBKP50100D20M 4 7 SR1 MODO2 1 85 TWD DDO 32UK 1 22 XBKP50100U10M 4 7 SR2 A101BD 6 4 TWD DDO 8TT 1 22 XBK P50100U20M__ 47 SR2 A101FU 6 14 TWD DDO 8UT 1 22 XBK P61130G30E 4 9 SR2 A201BD 6 14 TWDDMM24DRF 1 22 XBK P61130G31E 4 9 SR2 A201FU 6 14 TWD DMM 8DRT 1 22 XBK P61130G32E 4 9 SR2 B121B 6 14 TWD DRA 16RT 1 22 XBK P61230G30E 4 9 SR2 B
65. 10 An SR3 B101BD modular smart relay a connecting SR3 PACKBD 0 700 cable and Zelio Soft programming software supplied on CD Rom 26 An SR3 B261BD modular smart relay a connecting SR3 PACK2BD 0 850 cable and Zelio Soft programming software supplied on CD Rom Supply 100 240 V 10 An SR3 B101FU modular smart relay a connecting SR3 PACKFU 0 700 cable and Zelio Soft programming software supplied on CD Rom 26 An SR3 B261FU modular smart relay with display SR3 PACK2FU 0 850 a connecting cable and Zelio Soft programming software supplied on CD Rom 1 Including 8 outputs at maximum current of 8 A and 2 outputs at maximum current of 5 A 2 Power supply to the I O extension and communication modules is via the modular smart relays Note The smart relay and its associated extensions must have an identical voltage References Zelio Logic smart relays Compact and modular smart relays Separate components 510352 Description Reference Weight kg Zelio Soft for PC multi language programming software SR2 SFTO1 0 200 supplied on CD Rom 1 compatible with Windows 95 98 NT 2000 XP and ME Connecting cable between smart relay and PC SR2 CBL01 0 150 length 3 m Description Reference Weight kg EIECTUS EEPROM back up memory SR2 MEMO1 0 010 Description Supply Reference Weight S kg 1 Communication interface 12 24 V SR2 COMO1 A 0 140 Supply voltage 24 V 20 96 not isolated T
66. 2 low level inputs Module type Number of channels 2 high level inputs Voltage Current Thermocouple Temperature probe Range 0 10 V 4 20 mA Type K 0 1300 C Pt probe Type J 0 1200 C 3 wire type Type T 0 400 C 100 500 C Type Non differential Differential Resolution 4096 points 12 bits LSB value 2 5 mV 4 uA 0 325 C type K 0 15 C 0 3 C type J 0 1 C type T Connection Removable screw terminal block Permissible continuous overload o f la d4mA External supply V Rated voltage 24 Voltage range 20 4 28 8 Input impedance 1 MQ min T0 0 250 Q max 5 Q max Max sampling duration ms 16 80 Sampling repetition time 16 50 Acquisition period a 32 1 controller cycle time 100 1 controller cycle time Measuring precision Max error at 25 C PE 0 2 0 2 precision of cold 0 2 junction compensation 4 C max Temperature coefficient 96 PE C 0 006 Repeat accuracy after t 0 5 stabilisation time Non linearity 0 2 Total error PE t Common mode rejection E 50 dB Cross talk 2 low significance bits max Cabling Twisted shielded pair recommended Dielectric strength V rms v 500 between the input and the supply circuit Type of protection Photocoupler between the input and the internal circuit Consumption mA 5 V internal supply 50 24 V external supply 40 Module type TWD AMO 1HT AMM 3HT ALM 3LT Nu
67. 32 482 32 932 Analogue output Output selection 0 10 V 0 20 mA 4 20 mA switchable for RMP TeOBD au 0 10 V or 4 20 mA for RMP Te3BD Voltage Minimum impedance of load kQ 100 Current Maximum impedance of load Q 500 Built in protection Reverse polarity overvoltage 30 V and short circuit Safety feature Output state when no inputs are Output predetermined according to type of output selected wired or when input wire broken voltage 13 V current 0 mA Supply Voltage Rated 24 20 non isolated Maximum current For voltage output 40 consumption For current output mA 60 Built in protection Reverse polarity Signalling Green LED power on Measurements Accuracy At 20 C 0 5 of the full scale value 3 4 wire connection 1 of the full scale value 2 wire connection Repeatibility error At 20 C 0 2 of the full scale value At 60 C 0 6 of the full scale value Temperature coefficient ppm C 150 0 015 95 Connection in 2 wire mode Maximum resistance of cable mQ 200 Types of voltage current converters RMC N22BD RMC L55BD RMC V60BD RMC A61BD Input types Voltage V 010 0 10 10 0 50 0 300 0 500 or 50 60 Hz Current mA 4 20 0 20 4 20 or 50 60 Hz Analogue output Output selection By cabling Switchable Switchable By cabling Voltage Range V 0 10 0 10 10 0 10 0 10 Minimum impedance of load kQ 100 Current Range 4 20 0 20 4 20
68. 32 channel sink transistor outputs and three output modules with 8 16 or 32 channel source transistor outputs equipped with either removable screw terminal blocks or HE 10 type connector depending on the model m 2 discrete mixed input and output modules comprising one 4 channel input 4 channel relay output module with removable screw terminal block and one 16 channel input 8 channel relay output module with non removable spring terminal block The narrow width of these I O modules 17 5 mm 23 5 mm 29 7 mm or 39 1 mm makes it possible to build Twido configurations of up to 264 I O with a minimal overall size of L 255 4 mm x H 90 mm x D 81 3 mm All these discrete I O modules and the analogue I O modules are connected to the base controller by stacking them on a DIN rail starting from the right hand side panel of the base controller according to the following rules O For the 24 I O compact base controller TWD LCAA 24DRF 4 modules max see characteristics page 1 6 O For 20 I O modular base controllers TWD LMDA 20DeK 4 modules max see characteristics page 1 13 O For 20 and 40 I O base controllers TWD LMDA 20DRT 40DeK 7 modules max see characteristics page 1 13 All the discrete I O modules are electrically isolated with the use of a photocoupler between the internal electronic circuit and the input output channels Twido discrete I O modules comprise An extension connector for electrical connection to the pre
69. 35 mm 1 r rail Screw fixing retractable lugs 00 107 6 2xO4 SR2 B201JD SR2 A201BD SR2 B20eBD SR2 B201B SR2 A201FU SR2 B201FU SR2 D201BD SR2 E201BD SR2 E201B SR2 D201FU and SR2 E201FU 20 I O SR3 B26eBD and SR3 B261FU 26 I O Mounting on 35 mm 1 r rail Screw fixing retractable lugs N n OO OOOOO000000000 QO OOOO OOOO OOOO OO eJ Y 107 6 SR3 XT61ee 6 I O Mounting on 35 mm 1 r rail Screw fixing retractable lugs SR3 XT101ee and SR3 XT141ee 10 and 14 I O Mounting on 35 mm 1 r rail Screw fixing retractable lugs OOOOOOOO 110 ooo ooo ooo 72 6 17 Schemes Zelio Logic smart relays Compact and modular smart relays 3 wire sensors SR2 eeeeBD SR2 B121JD and SR3 eeeeBD SR2 eeeeBD Z 24 V SR2 B121JD 12V SR3 eeeeBD 24 V 1121314 IBICIDIE OO OOOOOOOO oo oo oo oo Q1 Q2 Q3 Q4 1 1 A quick blow fuse or circuit breaker Analogue inputs SR2 B12eBD SR2 B121JD and SR3 B10eBD SR2 B201BD SR3 B26eBD and SR2 B201JD 0 10V ANALOG 0 10 V ANALOG SR2 B201BD So S SR3 B26eBD E SR2 B121JD E SR2 B201JD 12 V s E 12V y 7 Y T 11 12 13 14 IB IC ID IE l1 12 13 14 15 l6 IB IC ID IE IF IG T OO OOOOOOOO OO OOOOOOOOOO0O0O0O0O0 I O O O O O O O O DUE d OO OOOO OOOO OOOO OO 1 1 A quick blow fuse
70. 873 501 521 RUN31C22ee 2 5 L RE 88 865 145 3 19 RE8 YA32FUTQ 3 37 RM 84 873 502 521 RUN 33A22ee 2 5 LAS RM201 5 62 RE 88 865 155 3 19 RE8 YA32QTQ 3 37 RM 84 873 511 5 19 RUW 010P7 2 5 RE 88 865 175 3 19 RE8 YG11BUTQ 3 37 RM 84 873 512 5 19 RUW O30BD 2 5 R RE 88 865 176 3 19 RE8 YG21BUTQ 3 37 RM 84 874 300 5 77 RUW 040BD 2 5 RC 26 546 829 4 11 RE 88 865 215 3 22 RE8 YG31BUTQ 3 37 RM 84 874 301 5 77 RUW 041P7 2 5 io RE 88 865 265 3 23 RE9 MS21MW 3 10 RM 84 874 303 5 77 RUW 042B7 2 5 q7 RE 88 865 303 3 28 RES RA11MW7 3 10 RM 84 874 304 5 77 RUW 042P7 2 5 nese eae ai 4 1 RE 88 865 305 3 22 REQ RA21MW7 310 RM4 JAO1e 5 50 RUW 101MW 2 5 RE 88 865 503 3 19 RE9 RAS31MW7 310 RM4 JA31ee 5 550 RUZ 1A 2 5 RE 88 867 100 3 41 REQ RAB1MW7 310 RM4 JA32ee 5 50 Ban 4 17 RE 88 867 103 3 41 REO TA11MW 3 10 RM4 LA32ee 5 62 m RC 26 546 831 411 RE 88 867 105 3 40 RE9 TA21MW 3 10 RMALGO1e 5 62 to RE 88 867 135 3 40 RE9 TA31MW 310 RM4 TA01 5 13 and 4 7 RE 88 867 155 3 41 RES TA51MW 3 10 RM4 TAO2 5 13 9 73 RC 87 610 040 4 11 RE 88 867 215 3 40 RM 26 852 304 5 55 RM4 TA31 5 13 RUZ1C 2 5 RC 87 610 050 4 11 RE 88 867 300 3 45 RM 79 696 006 5 74 RM4 TA32 5 13 RUZ 1D 2 5 RC 87 610 140 4 17 RE 88 867 303 3 45 RM 79 696 014 5 74 RM4 TG20 5 13 3 40 RC 87 610 150 4 17 RE 88 867 305 3 44 RM 79 696 043 5 74 RM4 TR31 5 13 and RC 87 610 240 4 13 RE 88 867 415 3 44 RM 79 696 044 5 74 R
71. Aee and TWD NOI 10M3 4 or 7 depending on model On the left hand side panel A connector for display module TWD XCP ODM or serial interface module TWD NCZ eeee not visible Modular base controllers are mounted on a symmetrical DIN rail Fixing kit TWD XMT5 supplied in lots of 5 allows plate or panel mounting Example of configuration with expansion modules and extension Shown opposite an example configuration consisting of a TWD LMDA 20DRT modular base controller with m built in display module TWD XCP ODM on the left m two I O expansion modules TWD DDI 8DT and TWD DDO 16K on the right The modular base controller is fitted with real time clock cartridge TWD XCP RTC and memory extension cartridge TWD XCP MFK64 111 Characteristics Temperature Relative humidity ES Operatio Twido programmable controller Modular base controllers n 0 55 Storage 25 70 Degree of protection Altitude Vibration resistance Mounted on 1 Tr rail Plate or panel mounted using fixing kit TWD XMT5 30 to 95 96 without condensation IP 20 m Operation 0 2000 Storage 0 3000 Hz 10 57 amplitude 0 075 mm acceleration 57 150 Hz m s 9 8 1 gn 2 25 amplitude 1 6 mm acceleration 25 100 Hz Shock resistance Backup battery Data backed up m s 39 2 4 gn m s 147 15 gn for 11 ms Internal RAM internal variables internal bits and words timers counters shift registers
72. C mark relating to this Directive has been compulsory since 1st January 1997 the Electromagnetic Compatibility Directive 89 336 EEC amended by Directives 92 31 EEC and 93 68 EEC the C mark on products covered by this Directive has been compulsory since 1st January 1996 ASEFA LOVAG certification The function of ASEFA Association des Stations d Essais Fran aise d Appareils lectriques Association of French Testing Stations for Low Voltage Industrial Electrical Equipment is to carry out tests of conformity to standards and to issue certificates of conformity and test reports ASEFA laboratories are authorised by the French authorisation committee COFRAC ASEFA is now a member of the European accord group LOVAG Low Voltage Agreement Group This means that any certificates issued by LOVAG ASEFA are recognised by all the authorities forming the membership of the group and carry the same validity as those issued by any of the member authorities When components can be used in domestic and similar applications it is sometimes recommended that a Quality label be obtained which is a form of certification of conformity Code Quality label Country CEBEC Comit Electrotechnique Belge Belgium KEMA KEUR Keuring van Electrotechnische Materialen Netherlands NF Union Technique de l Electricit France OVE Osterreichischer Verband f r Electrotechnik Austria SEMKO Svenska Electriska Materiel Kontrollanatalten Sweden
73. Dimensions pages 3 32 and 3 33 page 3 34 EI Function Zelio Time timing relays references Industrial single function relays optimum schemes relay output width 22 5 mm continued Relay output 1 C O contact Single timing range Function H Function W Pulse on energisation Start on opening of external control contact Supply Supply lm OO iie set v Cd 15 16 EN C O 15 18 15 16 560968 560968 Functions H W Voltages ora 24V e e 110 240 V e e 380 415 V Timing ranges 0 05 s 0 5s 0 1 s 3 s 0 1 s 10s RE8 PE11BUTQ RE8 PD11BTQ RE8 PD11FUTQ 0 3 s 30 s RE8 PE31BUTQ RE8 PD31BTQ RE8 PD31FUTQ 3 s 300 s RE8 PE21BUTQ RE8 PD21BTQ RE8 PD21FUTQ 20 s 30 min Weight kg 0 110 0 110 0 110 Dimensions Rail mounting Screw fixing 80 78 89 5 82 Connection schemes terminal blocks RE8 PE Characteristics Schemes pages 3 32 and 3 33 page 3 37 Function He Function Qc Function Qe Pulse on energisation start on de energisation Timing relay for star delta starters Timing relay for star delta starters m mum LEM Supply MENNEEEENENEEEN 15 18 C O 15 16 C O 15 18 15 16 15 16 N O 25 28 Star t lt t e t 80 ms elta gt 80ms t 50 ms ml 560968 560969 560969 He Qc Qe o o o e eo o o RE8 PTO1BUTQ
74. Extension of the measuring range or supply Simply connect an additional resistor Rs in series with the measuring input B3 or C RM4 UA33 Rs If the value of Rs is in the region of Hs Ri cae 1 where Um Ri Internal resistance of input B3 C Um Maximum value of threshold setting range U Voltage threshold to be measured The tripping threshold of the relay will be towards the maximum graduation on the threshold setting potentiometer In general the power consumed by the resistor does not exceed 0 5 W For a c voltages it is also possible to use a voltage transformer r l l l l Supply by the measured voltage For monitoring mains and power supplies the RM4 UA can be supplied by the voltage to be controlled provided that the measurement threshold is within the operating range of the product s power supply 0 85 1 1 Uc variations of the voltage to be measured are compatible with the supply and measurement voltage ranges Presentation References Characteristics Dimensions schemes pages 5 26 and 5 27 page 5 28 page 5 29 page 5 30 5 31 Functions Zelio Control measurement dimensions and control relays Voltage control relays with memory self powered model RM 84 872 Simple to install these threshold relays check their own supply voltage level Overvoltage undervoltage control with memor E RM4 84 872 04e Select Overvoltage or H
75. France DNV Det Norske Veritas Norway GL Germanischer Lloyd Germany LROS Lloyd s Register of Shipping Great Britain NKK Nippon Kaiji Kyokai Japan RINA Registro Italiano Navale Italy RRS Register of Shipping Russia For further details on a specific product please refer to the Characteristics pages in this catalogue or consult your Regional Sales Office IP eee code The IP code comprises 2 character istic numerals e g IP 55 and may include an additional letter when the actual protection of personnel against direct contact with live parts is better than that indicated by the first numeral e g IP 20C Any characteristic numeral which is unspecified is replaced by an X e g IP XXB Technical information Degrees of protection provided by enclosures 1st characteristic numeral corresponds to protection of the 2nd characteristic numeral corresponds to equipment against penetration of solid objects and protec protection of the equipment against tion of personnel against direct contact with live parts penetration of water with harmful effects Protection of the equipment Protection of personnel 0 1 50 mm Pod f 9j l 2 125mm AL 9 3 2 5 mm la 4 1mm e 5 hes OOOO gt E oo 9 e 99 7 8 Telemecanique Additional letter corresponds to protection of personnel against direct contact with live part
76. LMDA 20DRT 40DeK 7 modules max see characteristics page 1 13 All analogue I O modules are electrically isolated with the use of a photocoupler between the internal electronic circuit and the input output channels Twido analogue I O modules comprise 1 An extension connector for electrical connection to the previous module 7 2 A block for displaying the channels and module diagnostics 3 Aremovable screw terminal block for connection of the 24 V external power supply the sensors and the preactuators Alatching mechanism for attachment to the previous module These modules are mounted on a symmetrical DIN rail Fixing kit TWD XMT 5 supplied in lots of 5 allows plate or panel mounting 1 A connector on the right hand side panel ensures continuity of the electrical link with the next I O module 1 28 Characteristics Twido programmable controller Analogue I O modules Operation 0 55 Storage 25 70 30 to 95 96 without condensation IP 20 m Operation 0 2000 Storage 0 3000 Mounted on 1 r rail Hz 10 57 amplitude 0 075 mm acceleration 57 150 Hz m s 9 8 1 gn 2 25 amplitude 1 6 mm acceleration 25 100 Hz 39 2 4 gn Temperature Relative humidity Degree of protection Altitude Vibration resistance Plate or panel mounted using fixing kit m s TWD XMT5 m s 147 15 gn for 11 ms Shock resistance TWD AMI 2HT AMM 3HT TWD ALM 3LT
77. Tank Min level Output relay 1 Pushbutton no I UN M S I b 0 0 a maximum b minimum Y L C common Well Tank Output For RM 84 870 808 special 1 1 pin base fitting pin 5 must be connected to a maximum and pin 7 must be connected to c common References Characteristics Dimensions page 5 71 page 5 71 page 5 71 561009 References Zelio Control measurement characteristics and control relays dimensions Plug in liquid level control relays combined empty fill functions model RM 84 870 Liquid level control relays Number of pins Voltage Reference Weight kg 11 pin 24V RM 84 870 401 0 140 120V RM 84 870 403 0 40 230V RM 84 870 404 0 140 RM 84 870 40e Special 11 pin base fitting 230 V RM 84 870 808 0 190 Accessories Description Sold in lots of Unit reference Weight kg 11 pin socket 10 RUZ 1A 0 067 Note The probe cable maximum length 100 metres need not be screened but it is inadvisable to fit it in parallel with the power supply cables Screened cable may be used with the screening connected to the common Supply voltage Un V 24 120 230 50 60 Hz Operating range 0 85 1 15 x Un Maximum power consumption VA 3 Sensitivity adjustment kQ 5 100 Measurement accuracy 0 30 at maximum sensitivity Maximum electrode voltage V 24 50 60 Hz Maximum electrode current
78. V 0 20 mA RMT J40BD 0 120 4 20 mA 0 300 32 572 0 10 V 0 20 mA RMT J60BD 0 120 4 20 mA 0 600 32 1112 0 10 V 0 20 mA RMT J80BD 0 120 RMT J40BD RMT K90BD Tare LUR Type K 0 600 32 1112 0 10 V 0 20 mA RMT K80BD 0 120 4 20 mA 0 1200 32 2192 0 10 V 0 20 mA RMT K90BD 0 120 4 20 mA 109000 Supply voltage 24 V 20 non isolated Type Temperature range Switchable Reference Weight eC oF output signal kg Pt100 40 40 40 104 0 10 V 0 20 mA RMP T10BD 0 120 2 wire 3 wire 4 20 mA and 4 wire 100 100 148 212 0 10 V 0 20 mA RMP T20BD 0 120 4 20 mA 0 100 32 212 0 10 V 0 20 mA RMP T30BD 0 120 RMP T70BD SEMIS 0 250 32 482 0 10 V 0 20 mA RMP T50BD 0 120 4 20 mA 0 500 32 932 0 10 V 0 20 mA RMP T70BD 0 120 4 20 mA a e e o eo Te Supply voltage 24 V 20 non isolated Type Temperature range Output signal Reference Weight C F kg Pt100 40 40 40 104 0 10 V or 4 20 mA RMP T13BD 0 120 2 wire 3 wire and 4 wire 100 100 148 212 0 10 V or 4 20 mA RMP T23BD 0 120 0 100 32 212 0 10 Vor 4 20 mA RMP T33BD 0 120 eM TIGRE 0 250 32 482 0 10 V or 4 20 mA RMP T53BD 0 120 0 500 32 932 0 10 V or 4 20 mA RMP T73BD 0 120 108996 Supply voltage 24 V 20 non isolated Input signal Output signal Reference Weight kg 0 10 V or 4 20 mA 0 10 V or 4 20 mA RMC N22BD 0 120
79. ae m a cost effective converter which will convert a 0 10 V signal to a 4 20mA signal or vice versa B a Universal voltage current converter allowing the most common signals They have o for inputs a voltage current range 0 10 V 10 V 0 20 mA 4 20 mA O for outputs a switchable voltage current range 0 10 V 10 V 0 20 mA 4 20 mA B two Universal voltage current converters which allow conversion of electrical power signals both a c and d c They have the following depending on the model O for voltage inputs a range of 0 to 500 V or O for outputs a switchable voltage current range 0 10 V 0 20 mA 4 20 mA O for current inputs a range of 0 to 15 A or O for outputs a voltage current range 0 10 V 0 20 mA 4 20 mA 109002 RMC A61BD 108998 Zelio Analog converters have the following on their front panel depending on the model Two terminals for 24 V supply connection A Power ON LED Three input selector switches depending on model An output selector switch depending on model A sealable protective cover A screw terminal block for inputs A screw terminal block for outputs Ooc0c1 amp c0cN RMC L55BD Characteristics References Dimensions Schemes pages 6 22 and 6 23 page 6 24 page 6 25 page 6 25 Characteristics Analogue interfaces Zelio Analog Converters for thermocouples and Pt100 probes Voltage current converte
80. allowing connection of modules with HE 10 connectors to O pre formed cables with free wires at one end for direct connection to sensors preactuators o TwidoFast kits connection cables plus Telefast sub base m The display and plug in memory options allow easy adjustment transfer and backup of applications o the digital display can be used as a local display and adjustment tool o the EEPROM technology in the memory modules allows backup and transfer of programs to any Twido compact or modular controller m TwidoSoft software allows easy programming using instruction list language instructions or ladder language graphic objects It uses the same objects and sets of instructions as those used by PL7 07 software for Nano programmable controllers TwidoSoft software allows existing Nano PLC applications to be reused with Twido controllers by importing an ASCII file m Compact controllers have 2 analogue adjustment points only one for 10 I O controllers accessible on the front panel These adjustable values are stored in system words and are updated at every scan Compact base controller 24V inputs Relay Analogue Serial ports l O expansion Display Optional cartridge outputs adjustment module TWD LCAA 10DRF 6 4 1 point 1 x RS 485 No Yes 1 slot 0 1023 real time clock or memory TWD LCAA 16DRF 9 7 1 point 1 x RS 485 1 slot 0 1023 option of real time clock 1 x RS 232C 485 or memory TWD LCAA 24DRF 14 10 1 point 1 x RS 485 Y
81. and high sensitivity Voltage Sensitivity Reference Weight kg M 24V 250 Q 5 KQ RM 84 870 121 0 150 eee gt 50 kQ 1 MQ RM 84 870 131 0 150 zk T Note the probe cable maximum length 100 metres needs not be screened but it is inadvisable RM 84 870 131 to fit it in parallel with the power supply cables If a screened cable is used do not exceed the capacities indicated Relay type RE 84 870 121 RE 84 870 131 Supply voltage 24 50 60 Hz Supply range 15 96 of Un M 10 if other products are mounted on the same rail Maximum power consumption VA Sensitivity adjustment i anal eoo a m i a ms Measurement accuracy at maximum sensitivity Maximum electrode voltage Maximum electrode current Maximum cable capacity Initialisation time t3 Response time High level t1 Low level t4 Output relay to meet AC 1 requirements resistive load 1 C O contact cadmium free 8 A 250 V Galvanic isolation via transformer Class Il VDE 0551 4 kV 8 mm creepage distance Isolation of contacts and electrodes from the supply 1 min 1 mA 50 Hz IEC 60 225 5 Creepage distance Conforming to IEC 60664 1 kV 4kV 2 and clearance Ambient air temperature Operation 20 60 Storage 90 70 Degree of protection Enclosure IP 50 Terminal block IP 20 Enclosure material Self extinguishing Pc m o Product certifications c UL us CSA 4 2
82. by adding the voltage code 7 kQ mm kg Without 5 100 22 5 1 C O RM4 LG01e 0 165 Adjustable 0 25 5 22 5 2 C O RM4 LA32ee 0 165 0 1 10 s 25 50 25 500 RM4 LA32 Liquid level control probe 561089 Type of installation Maximum operating Reference Weight temperature C kg Suspended by cable 100 LA9 RM201 0 100 LA9 RM201 1 Standard supply voltages RM4 LG01 Volts 24 110 130 220 240 380 415 50 60 Hz B F M Q RM4 LA32 Volts 24 240 24 110 130 220 240 380 415 50 60 Hz MW B F M Q MW Presentation Characteristics Dimensions schemes Setting up pages 5 58 and 5 59 page 5 61 page 5 62 page 5 63 5 60 Characteristics Zelio Control measurement and control relays Liquid level control relays model RM4 Relay type RM4 LG01 RM4 LA32 Rated supply voltage Un 50 60Hz V 24 110 130 220 240 380 415 24 240 24 110 130 220 240 380 415 V Average consumption v VA 1 9 2 6 2 4 2 9 2 7 2 6 3 4 at Un W Number of C O contacts 1 2 Output relay state Can be configured by switch empty y fill Y Sensitivity scale kQ 5 100 adjustable 0 25 5 25 50 25 500 Maximum a c electrode voltage V 24 24 peak to peak Maximum current in the electrodes mA 1 Maximum cable capacity nF 10 200 25 4 Maximum cable length m 100 1000 100 20 1 The electrodes may also be incorporated i
83. complied with the relay remains energised indefinitely 560875 560875 560876 560876 560877 560877 K Hf H Hi Ht D L Li Lt 0 05 s 10 min 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 7 ranges 10 ranges 10 ranges 10 ranges 10 ranges 10 ranges e e e e e e e e e e e e e e m E _ RE7 RB11MW RE7 RA11BU RE7 PE11BU RE7 PM11BU RE7 CL11BU RE7 CV11BU RE7 RM11BU low level contact 0 150 0 150 0 150 0 150 0 150 0 150 Connection schemes RE7 TL11BU RE7 RB11MW RE7 PE11BU RE7 TM11BU RE7 RA11BU RE7 MA11BU RE7 RM11BU RE7 PM11BU RE7 MV11BU 21 82 gt B HERE ENS N lt E p i RE7 CV11BU p LO o E A Characteristics Dimensions Schemes pages 3 24 and 3 25 page 3 26 pages 3 30 and 3 31 Functions Zelio Time timing relays references Industrial single or multifunction relays schemes relay output width 22 5 mm Relay output 2 C O contacts Multiple timing ranges Function A Function Ac Function C Start on energisation External control for start of Off delay with external time delay control for start of time delay gt 20ms se CMM S Sool 00 NEENEEEEEIAN C O Start 15 18 25 28 Y1Z2 EI Start EH 15 16 25 26 C O t 15 18 25 28 C O 15 18 15 16 25 26 15 16 Function K Off delay gt 1s 1 Supply C O 15 18 25 28 15 16 25 26 t 1 If the device has been stored
84. consequences of reverse running lifting handling elevators escalators etc m Control of sensitive 3 phase supplies B Protection against the risk of a driving load phase failure m Normal emergency power supply switching RM4 TG R R Yellow LED indicates relay output state M4 TU 010 0 0 00 U Red LED undervoltage fault EE Sa 1 Undervoltage setting potentiometer 1 Time delay function selector t Fault detection delayed E Fault detection extended 3 2 Potentiometer for setting time delay in seconds 4 3 Potentiometer for setting overvoltage as a direct 1 1 value 2 2 254 Potentiometer for setting undervoltage as a direct value R Yellow LED indicates relay output state U Green LED indicates that supply to the RM4 is on gt U Red LED overvoltage fault U Red LED undervoltage fault P Red LED phase failure or incorrect rotational direction of phases RM4 TA3 RM4 TAO 1 Asymmetry threshold setting potentiometer from 5 to 15 96 2 Potentiometer for setting time delay 0 1 to 10 s 1 R Yellow LED indicates relay output state U Green LED indicates that supply to the RM4 is on A Red LED phase asymmetry P Red LED phase failure or incorrect rotational direction of phases References Characteristics Dimensions schemes page 5 11 page 5 12 page 5 13 5 8 Presentation continued Zelio Control measurement and control relays 3 phase supply control relays model RM4 T The
85. counts on rising and falling edges direction of count reversed if IN2 in advance of IN1 Display O P Display P O n n 7 aQ PR20 P2 Pit PT P11 P1 2 P1 Pret P2 02 PR Off P1 1 P1 PtH P122 Pt Pt 1 P1 2 j ON Lut i OFF t t Pulsed transient pulse t 0 1 9 9 s Pulsed with auto Reset to value of P2 or P for 1 preset t 500 ms t 0 1 s to 9 9 s for multifunction When P2 is displayed the value displayed on the upper digits represents the current counter value reset to P2 In this configuration the RST key on the front panel of the device reinitialises the current value When P1 batch preset is displayed the value displayed on the upper digits represents the value of the Batch counter In this configuration the RST on the front panel of the device resets the batch counter An electrical reset RST terminal still resets the current counter value and that of the batch counter Example On a packing line bottles need to be counted into packs of 6 bottles and then despatched in a box containing a batch of 4 packs P2 current counter preset value 00006 P1 batch counter preset value 00004 References pages 4 24 and 4 25 Characteristics pages 4 22 and 4 23 Dimensions Schemes pages 4 24 and 4 25 pages 4 24 and 4 25 Functions continued Zelio Count c
86. details of the Telefast 2 range please refer to the specialist catalogue Telefast 2 pre wired system 1 39 Presentation Twido programmable controller TwidoSoft programming software TwidoSoft is a graphical development environment for creating configuring and managing applications for Twido programmable controllers TwidoSoft is a 32 bit Windows based program which runs on a PC with Windows 98 second edition 2000 or XP operating system TwidoSoft software is based on a standard interface which offers the user friendly features of the Windows environment with which users are already familiar windows toolbars pull down menus balloon tips context sensitive help etc For development work TwidoSoft provides a comprehensive set of features to X yen uu E EE simplify programming and configuration mu p O Programming in instruction list or ladder language These two languages are reversible O Application browser with multiple window views aiding easy software configuration O Editors for main programming and configuration functions O Cut copy and paste functions O Symbolic programming O Cross referencing r1 Duplication of application programs On site on line mode TwidoSoft provides the following main functions O Real time animation of program and or data elements Diagnostics on programmable controller operation Monitoring of the application s use of memory Downloading and uploading of contro
87. ene ee eee page 1 35 a Communication protocols 222 6 202620265 es base tase eee page 1 36 la Pre wired Solutions 22 7 erc E IUE page 1 39 m TwidoSoft programming software jadis ursi m RR R T EP DEP page 1 41 S OG eave VATE a eee ces cere eee ee ar tee ee re NE page 1 42 O Integrated functions software Set Up 00 00e eae page 1 43 O Integrated counter and positioning functions page 1 44 O TwidoSoft programming software llle page 1 47 1 Twido programmable controller Compact and modular base controllers 10 16 24 6 sink source 24 V inputs 9 sink source 24 V inputs 14 sink source 24 V inputs 1 1 1 4 relay outputs 7 relay outputs 10 relay outputs Non removable screw terminal block 4 discrete analogue and 8 16 or 32 24 V inputs 2 x 12 bit inputs 1 x 12 bit output Management of slave modules 10 16 88 with screw terminal I O expansion modules 4 152 with HE 10 connector I O expansion module 3 x 16 bit counting channels 0 65535 points dedicated 24 V discrete inputs of the base controller up down counting with preset 1 x 16 bit counting channel 0 65535 points dedicated 24 V discrete inputs for incremental encoder or proximity sensors up down counting up counter down counter and frequency meter For all controller versions gt 2 0 For all controller versions gt 2 0 1 RS 485
88. it is connected are closed N lt Latch coil Set The coil is energised when the contacts to which it is connected S are closed It remains tripped when the contacts re open N lt Unlatch coil The coil is de energised when the contacts to which it is Reset R connected are closed m It remains inactive when the contacts re open N lt Presentation continued Zelio Logic smart relays Compact and modular smart relays Zelio Soft programming software Definition Pre programmed functions FBD language allows graphical programming based on the use of predefined function blocks This language provides the use of 23 pre programmed functions for counting time delay timing definition of switching threshold temperature regulation for example generation of impulses time programming multiplexing display etc Zelio Logic smart relays provide a high processing capacity up to 200 function blocks including 23 pre programmed functions 4 t TIMER AC TIMER AC Timer Function A C ON delay and OFF delay f p TIMER LI T TIMER Li Pulse generator ON delay OFF delay 1 ap H TIMER EH Timer Function BH Adjustable pulsed signal JLF BISTABLE i El TABLE Impulse relay function K TIMER BW JLL TIMER EY Timer Function BW pulse on rising falling edge TT SET RESET a Bistable latching Priority assigned either to SET or RESET function
89. mA 1 50 60 Hz Maximum cable capacity nF 10 Response time High level ms 300 Low level ms 500 Output relay to meet AC 1 requirements resistive load 1 C O contact AgCdO 8 A max Galvanic isolation via transformer Class II VDE 0551 4 kV 8 mm creepage distance Isolation of contacts and electrodes from the supply kV mw 25 Ambient air temperature Operation C 20 60 Storage C 30 70 Product certifications c UL us CSA 39 O O LO e Functions Scheme page 5 70 page 5 70 References Zelio Control measurement and control relays Electrode holders and probes Application No Length Opera Maximum Reference Weight of ting pressure probes temper p ature s mm C kg cm kg Recommended 3 1000 80 2 RM 79 696 044 0 800 for drinks vending machines and where installation space is limited Stainless steel RM 79 696 043 Suitable for 1 1000 200 25 RM 79 696 014 0 360 boilers pressure vessels and under high temperature conditions 1 304 stainless steel Description Material Reference Weight kg Protected probe Protective shell RM 79 696 043 0 150 for mounting by suspension PUC S7 Electrode stainless steel 561035 561036 Description Material Reference Weight kg Electrode for use up to 350 C Stainless steel RM 79 696 006 0 150 and 15 kg cm2 2 isolated by ceramic RM 79 696 006 1 3 8 BSP mounting thread with hexagonal head Use a 24 mm spanner for tightening 2 3 8 BSP mou
90. machinery or other dust producing activities for example For highly corrosive industrial environments Schneider Electric is able to offer special protective treatments Please consult your Regional Sales Office Technical information Product standards and approvals Conformity to standards The Telemecanique brand products satisfy in the majority of cases national for example BS in Great Britain NF in France DIN in Germany European for example CENELEC or international IEC standards These product standards precisely define the performance of the designated products such as IEC 60947 for low voltage equipment When used correctly as designated by the manufacturer and in accordance with regulations and correct practices these products will allow assembled equipment machine systems or installations to conform to their appropriate standards for example IEC 60204 relating to electrical equipment used on industrial machines Schneider Electric is able to provide proof of conformity of its production to the standards it has chosen to comply with through its quality assurance system On request and depending on the situation Schneider Electric can provide the following a declaration of conformity a certificate of conformity ASEFA LOVAG an approval certificate or agreement in the countries where this procedure is required or for particular specifications such as those existing in the merc
91. min year 0 to 55 C 6 sec month at 25 C and calibration Timer block accuracy 1 96 2 of the cycle time Between inputs None Smart relay type SR2 SR3 Connection Screw terminal block Nominal value of inputs Voltage V 24 Current mA 4 Input switching limit values At state 1 Voltage V 215 Current mA gt 2 20 At state 0 Voltage V lt 5 Current mA 0 75 Input impedance at state 1 KQ 7 4 Configurable response time State O to 1 ms 0 2 State 1 to 0 ms 0 3 Conformity to IEC 61131 2 Type 1 Sensor compatibility 3 wire Yes PNP 2 wire No Input type Resistive Isolation Between supply and inputs E None KHz Maximum counting frequency Protection re Smart relay type Against inversion of terminals 1 Control instructions not executed SR2 SR3 Connection Screw terminal block Nominal value of inputs Voltage V 100 240 Current mA 0 6 Frequency Hz 47 63 Input switching limit values At state 1 Voltage V 279 Current mA gt 0 1750 At state 0 Voltage V lt 40 Current mA lt 0 05 Input impedance at state 1 KQ 350 Configurable response time State 0 to 1 50 60 Hz ms 50 State 1 to 0 50 60 Hz ms 50 Isolation Between supply and inputs None Between inputs None Protection Against inversion of terminals Control instructions not executed 6 10 Characteristics continued Smart relay type Analogue inputs Conversion Isolation Cabling dis
92. operating cycles AC 15 Cos q 0 3 6000 operating cycles DC 13 L R 300 ms 6000 operating cycles Enclosure material Terminal capacity With cable end Self extinguishing Pc 2x1 5 Without cable end 2x25 Temperature limits Operation 20 60 conforming to IEC 68 1 14 Storage 90 70 conforming to IEC 68 1 1 2 Relative humidity 93 without condensation Product certifications c UL us CSA 3 5 23 77 4 2 LO N Functions Scheme page 5 68 page 5 68 Functions scheme Zelio Control measurement and control relays Plug in liquid level control relays combined fill empty functions model RM 84 870 8 Combined fill empty function Combined fill empty function B Combined regulation of emptying a well and filling a tank B Plug in 11 pin The output relay changes state when the level of the liquid in the tank reaches the maximum level probe with the minimum level probe submerged It returns to its initial state when the minimum level probe is no longer in contact with the liquid Bl Output relay state indication LED m Sensitivity adjustable from 5 kQ to 100 kQ When the level of the liquid in the well reaches the minimum level probe the pump stops If on energisation or after a power cut the maximum level probe in the tank is above the liquid level reset the device by pressing button BP Emptying control Max level Well Min level Max level
93. or circuit breaker 1 1 A quick blow fuse or circuit breaker 6 18 Schemes continued Zelio Logic smart relays Compact and modular smart relays SR2 eeeeBD SR2 B121JD SR2 e201BD and SR3 B10eee SR2 B122BD and SR2 B202BD SR3 B102BD and SR3 B262BD SR2 eeeeBD 24 V SR2 B121JD 12V 1121314 IBICIDIE OO OOOOOOOO I1 12 13 I4 IB IC ID IE OOOOOOOO 29 Qo Qo Q2 Q3 Q4 3 L EE m zc 12 240 V PEN 50 60 Hz a Ny 12 24 V OR N 12 240 V m 50 60 Hz or l m A N xxxii 25 Pd 12 24 V 1 1 A quick blow fuse or circuit breaker 1 1 A quick blow fuse or circuit breaker 2 Fuse or circuit breaker 3 Inductive load SR2 BeeeB SR2 A1e1FU SR2 e201FU SR3 BeeB and SR3 BeeeFU SR2B121B e 24 V SR2 e101FU 100 240 V 50 60 Hz I1 12 13 14 15 16 LN OO OOOOOOQ00 Oe one Q1 Q2 Q3 Q4 3 _ B o 9 1 12 240 V NO Sw 50 60 Hz u UU 12 24 V 5 4 N 12 240 V cdd 50 60 Hz or 1 1 A quick blow fuse or circuit breaker 2 Fuse or circuit breaker 3 Inductive load Presentation Analogue interfaces Zelio Analog Converters for thermocouples and Pt100 probes Voltage current converters The Zelio Analog range of converters is designed to convert signals emitted by sensors or electrical measurements into standard electrical signals which are compatible with automation platforms controll
94. output width 22 5 mm Timing relay type RE9 TA RE9 RA RE9 MS On delay Off delay Multifunction Supply voltage V 24 240 24 240 AZ 24 240 See page 3 10 Voltage limits Of the control circuit 0 85 1 1 Un Frequency Control contact Mechanical only T EE Between Y2 and A2 In series ro p rn 5 Maximum length of From contact to RE9 connecting cable Control input consumption Input Y2 Setting accuracy Repeat accuracy Minimum reset time After the time delay period ms 100 Minimum switching time ms 40 Maximum immunity During the time delay period ms 100 2 70 to microbreaks After the time delay period ms 2 E 2 Temperature drift lt 0 1 96 per degree centigrade At ambient temperature 20 C A 0 7 minimum 10 mA Maximum continuous current Maximum overload current VDE 0435 part 303 A 15 for 10 ms 4 8 3 Class II Maximum voltage drop Closed state V At 0 7 A 3 Leakage current Open state mA 6 lt 1 lt 6 Maximum dissipated power W 2 5 4 2 5 Derating For temperature gt 20 C mA Without Electrical durability In millions of operating cycles gt 100 References Dimensions Schemes page 3 10 page 3 10 page 3 11 Functions Zelio Time timing relays references Industrial relays solid state output dimensions width 22 5 mm Solid state output 1 C O contact Function A Function C Function H Delay on energisation Off delay Timing on energis
95. programmable controller TwidoSoft programming software Programming TwidoSoft allows the user to write a controller program in either Ladder language or instruction List language The language selected depends on user preference and does not affect the application m Ladder language consists of a series of ladder rungs represented graphically together with text comments m Instruction List language consists of a series of text based instructions In either language the program is written in the logical order required to control the machine or process It is recommended that the programs be documented by adding comments explanatory text inserted at program instruction level These two languages are reversible provided that a few basic rules are followed Ladder programming A program written in Ladder language consists of networks of linked graphical elements similar to electromagnetic contact diagrams organised into rungs which are executed sequentially by the controller when it is in RUN mode Each rung comprises graphical elements contacts coils linked by horizontal and vertical lines organised into a programming grid starting with a potential bar on the left and ending with a second potential bar on the right The graphical elements are associated with m Controller inputs and outputs such as sensors pushbuttons and relays B Arithmetic logic and numeric value comparison operations m Automation function blocks
96. programmable controller TwidoSoft programming software User interface TwidoSoft provides an intuitive Windows based user interface including balloon tips and on line help The Twido user interface offers the following features B Application browser this browser is a window providing the directory structure of the application The windows and toolbars can be moved and attached to the borders of the main window The elements of an application appear in a logical hierarchy based on their structure within the application They are arranged as an indented tree structure which can be expanded or collapsed The application browser can be used to view program and manage a Twido application and to configure hardware using a graphical representation of the base controllers I O extensions and options m Status bar this is a panel at the bottom of the main window which displays information about the application the controller status and the TwidoSoft software mode This bar includes a a memory usage indicator indicating the percentage of total memory used by the program A warning message is displayed when available memory is getting low m Operating modes TwidoSoft software can operate in on line mode PC connected to the Twido base controller and off line mode PC disconnected from the Twido base controller Off line mode is used to develop an application in the design office This application must then be transferred from the PC memory t
97. seen by Twido in the same way as any I O Configuration of the AS Interface bus Configuration of all the modules present on the AS Interface bus is carried out by following the on screen instructions Definition of the AS Interface bus master module Module TWD NOI 10M3 is defined like any I O module Configuration of AS Interface slave modules From the definition screen it is possible to configure all the slave modules corresponding to all the I O of the interfaces present on the AS Interface bus The user selects the reference of the AS Interface module shown in the Schneider Electric catalogue among the various discrete analogue or safety modules This selection automatically determines the AS Interface profile and parameters associated with each interface module Programming After configuration the I O connected to the AS Interface bus are processed by the application program in the same way as any of the PLCs In rack I O either by their address e g l 4 0 16 2 input 2 of slave 16 on the AS Interface bus or by their associated symbol e g Start conveyor 1 43 Functions continued Twido programmable controller TwidoSoft programming software Integrated counter positioning The counter function allows the controller to count a large number of pulses within one program scan cycle Using its integrated 16 bit fast counters Twido can count up to 65 535 pulses generated by 24 V sensors It can compare the current co
98. sheath 2 conductor type with common cylindrical PVC max 6 3 mm sheath having a maximum diameter of 6 3 mm The skirt also acts as a calming chamber so Level electrode avoiding inaccuracy due to an agitated surface of the liquid waves Maximum operating temperature 100 C Reference electrode Probe LA9 RM201 can also be fixed on various any containers cisterns tanks by means of a bracket or other suitable fixing device LAS RM201 Connection examples Control by electrodes 7 Teste High level A1 Bi B2 B3 e oN amp m al c Low level WP Supply voltage Control by probes 2 levels 1 level Presentation References Characteristics Dimensions schemes pages 5 58 and 5 59 page 5 60 page 5 61 page 5 62 5 63 Functions Regulation of two levels O minimum o maximum Monitoring of filing UP or emptying DOWN selectable by means of switch on the front panel of the device Probes with a c current flowing through them Sensitivity adjustment potentiometer on front panel of the device m Sensitivity adjustable from 5 kQ to 100 KQ Zelio Control measurement and control relays Liquid level control relays model RM 84 870 Control of maximum and or minimum levels of conducti
99. single phase AS Interface bus 3 wide range 1 Other separate components see page pages 1 35 and 1 39 2 Connection via built in port or optional serial port on Twido programmable controllers 3 With earth fault detection ASI ABLM3024 1 8 Dimensions Twido programmable controller connections Compact base controllers TWD LCAA 10DRFA6DRF 24DRF Installation rules i i a Important TWD LCAA 10 DRF 80 m Vertical mounting not permissible for temperatures gt 40 C upside down flat mounting not permissible ll 0 50 B Avoid placing devices which generate heat transformers power supplies power TWD LCAA 24 DRF 95 contactors beneath the controller Connection of 24 V inputs Connection of 100 240 V power supplies and relay outputs TWD LCAA 10DRFA6DRF 24DRF TWD LCAA 10DRF QU e o3 ACD Ry OUT Ry QU LIN GP como COM1 l Wf B 6 I3 Connection to sink inputs positive logic with sensors powered by the base controller TWD LCAA 16DRF Q0 OF G2 Q3 O4 Q5 Ry eee D LL Er Be L l Wf B m i5 I3 Connection to source inputs negative logic with sensors powered by the base controller TWD LCAA 24DRF Q Of OF Q3 7 Ge G 00 240VAC our Eg ENT L N Gp coM 7 iin Hi pr zn L LLL I 1 I IIT T Z OETH om Presentation i i A TWD LMDA 20DTK 20DUK bo cme ih
100. the calculated value i e 1 W for this example in order to limit temperature rise On an a c supply it is also possible to use a current transformer Presentation References Characteristics Dimensions schemes pages 5 46 and 5 47 page 5 48 page 5 49 page 5 50 5 51 Functions schemes dimensions Space savings accurate measurement and optimised functions to improve the safety of your electrical installation Control select Overcurrent or Undercurrent mode by means of a dip switch on the underside of the unit Safety in the same way choose whether or not to activate the fault memory function and set the threshold crossing delay T1 and the inhibit time delay T2 a c d c mode is detected automatically Accuracy 3 products enable you to choose the best product for greater measuring accuracy provided by a microprocessor Without With Usupply fault memory fault memory Meas T input 2 Sc Thres D o 9 2 E f 63 2 Relay Meas i input p L Thres m 3c hold t Oo gt 83 z s 5 Relay During the time delays the yellow LED flashes at a frequency of 1 Hz RM 84 871 02e RM 84 871 03e A1 A2 Supply Zelio Control measurement and control relays Current control relay model RM 84 871 Control of a c d c current without memory When the value of the controlled current either a c or d c reaches the threshold displayed on the front panel t
101. to the left or right max 16 steps m 8 step counter blocks SCi 0 lt i lt 7 move forward or back one step max 256 steps m Fast counter 5 kHz Up Down counter FC m Very fast counter 20 kHz Up Down counter frequency meter VFC m Pulse width modulated output PWM with modular base controller m Pulse generator output PLS with modular base controller Numerical instructions m Assignment in word indexed word word table bit strings BW Arithmetic X REM SQRT m Logic AND OR XOR NOT INC DEC m Shift operation SHL SHR ROL ROR logic and rotate B Conversion BTI ITB BCD lt gt Binary B Comparison gt lt gt lt gt Specific functions m 1 input for controller RUN STOP command m 1 Security output controller block error m Real time display of Grafcet steps used m Symbol table management Arithmetic functions with variables SQRT ABS TRUNC LOG LN EXP EXPT 1 When the numbers of objects are not indicated see characteristics pages 1 6 and 1 12 1 45 Characteristics continued Twido programmable controller TwidoSoft programming software Cteri continu Instructions continued Trigonometrical functions with variable COS SIN TAN ACOS ASIN ATAN DEG TO RAD RAD TO DEG Double word functions SQRT ABS REM INC DEC SHL SHR ROL ROR Other functions SUM_ARR EQUAL_ARR FIND EQR FIND GTR FIND LTR MAX ARR MIN ARR O
102. w o cable end 2x 1 5 mm Arrangement of coil contact terminals a Separate Type of protection module RZM type E Relay types used RSB 2A080 and RSB 14160 contacts to RSB 1A120 be wired in parallel References Dimensions Schemes page 2 11 page 2 14 page 2 12 560582 560583 560584 560585 References Zelio Relay plug in relays Interface relays Relays for standard applications Number of Conventional rated Sold in Unit reference Weight C O contacts thermal current lots of to be completed by 2 adding the control voltage code 1 2 A kg 2 8 10 RSB 2A080ee 0 014 1 12 10 RSB 1A120ee 0 014 16 10 RSB 1A160ee 0 014 Protection modules Description Type Voltage Sold in Unit reference Weight lots of V kg Diode E 6 230 10 RZM 040W 0 003 Diode LED E 6 24 10 RZM 031RB 0 004 RSB 2A080BD RSZ E1S948M 24 60 10 RZM 031BN 0 004 110 230 10 RZM 031FPD 0 004 Varistor LED E Or 6 24 10 RZM 021RB 0 005 Or 24 60 10 RZM 021BN 0 005 or 110 230 10 RZM 021FP 0 005 RC circuit E 24 60 10 RZM 041BN7 0 010 110 240 10 RZM 041FU7 0 010 Sockets 12 A 300 V Application Sold in Unit reference Weight lots of kg RSB 2A080 and RSB 1A160 10 RSZ E1S48M 0 050 RSB 1A120 10 RSZ E1S35M 0 060 Accessories Application Sold in Unit reference Weight lots of kg Maintaining clamp 10 RSZ R215 0 002 RSB 1A120JD RZM 031FPD RSZ E1S35M Legend 10 R
103. wa MA f Overload Threshold va a function JT2 4 gum us Hysteresis I od I Relay l l ee NENNEN O Meas input i Threshold poof nf Rf NE isin ictal Underload if NY i neuen Aol iti iT 2 ea xL Hysteresis Relay 1 I A1 A2 Supply Characteristics page 5 35 References page 5 85 References Zelio Control measurement characteristics and control relays Voltage control relays model RM 84 872 561467 Measurement range Supply voltage Reference ibn 0 2 60 V 24M RM 84 872 021 ES 120V RM848720233 0 120 230V RM84872024 0 120 15 600V 24V RM84872031 0 120 120V RM84872033 0 120 230V RM84872034 0 120 RM 84 872 03e Relay type RM 84 872 02e RM 84 872 03e Supply voltage Un 24 120 230 50 60 Hz galvanic isolation by transformer Operating range 0 8 1 15 Un Average consumption 3 Output relay 1 cadmium free C O contact Rated current A 8 Switching voltage V 250 Maximum voltage V 440 Rated breaking capacity VA 2000 Minimum breaking current 100 at 12 V Electrical life AC 12 10 operating cycles at 8 A at 250 V Mechanical life 2 x 10 operating cycles Time delay On crossing threshold T1 S 0 1 3 10 98 On crossing threshold T2 s 1 20 10 Delay on pick up ms 500 Measurement range V 0 2 60 15 600 Frequency of th
104. with Series control UL EE maintained control Contact Eb m Wu 1 2 N Flashing relay Series control Us mm starting On delay Contact ERE phase EU ME Bi tlt mm Flashing relay Series control u NEN starting Off delay Contact BER m phase i2 Bp ie Power off Power on Off delay timer R Monostable with pulse control Ws Monostable starting on de energisation Wa On delay timer Es Contact open ERE Contact closed Control by external contact S Control by external contact S Control by external contact S Control by external contact S U voltage R relay RUNeee Contact Contact Contact Contact Ca s C EM 1 4 1 2 O O sL NE 1 4 1 2 Fr sL NE CO 1 4 1 2 Ca sL HEN 1 4 1 2 E S external control t adjustable time delay References page 2 5 2 13 Dimensions Zelio Relay plug in relays Interface relays references page 2 11 RSB 2A080ee RSB 1A160ee RSB 1A120ee 15 7 29 3 9 15 7 3 9 Sockets references page 2 11 RSZ E1S48M RSZ E1S35M 67 67 Miniature relays references pages 2 8 RXN 21E1eee RXN 41G1eee RXLeee 356 peur 41 8 Sockets references page 2 9 RXZ E1M114 RXZ 7G RXZ E1S108M 82 4 73 5 78 5 l J 41 5 RXZ E1S114M 82
105. 0 48 V 1 5 110 V 10 230 Millions of operating cycles 0 5 SS 0 0 5 1 0 1 5 2 0 2 5 3 0 3 5 4 0 4 5 5 Current A AC 14 2 2 5 2 0 1 5 1 0 Millions of operating cycles AC 15 3 1 0 0 9 0 8 0 7 0 6 230 V 48 V 0 5 0 4 0 3 0 2 0 1 0 0 110V Millions of operating cycles 0 5 0 7 0 9 1 1 1 3 1 5 1 7 1 9 Current A 1 AC 12 switching resistive loads and photo coupler isolated solid state loads cos 2 0 9 2 AC 14 switching small electromagnetic loads whose power drawn with the electromagnet closed is lt 72 VA making cos 0 3 breaking cos 0 3 3 AC 15 switching electromagnetic loads whose power drawn with the electromagnet closed is gt 72 VA making cos 0 7 breaking cos 0 4 6 13 Heferences 109440 T oon geoeeeeeno SR2 A201BD 109442 ge speres SR2 E121BD 510345 SR2 PACKeee 6 14 Zelio Logic smart relays Compact smart relays Number Discrete Of which Relay Transistor Clock Reference Weight of O inputs 0 10V outputs outputs analogue inputs kg Supply 12 V 12 8 4 4 0 Yes SR2 B121JD 0 250 20 12 6 8 0 Yes SR2 B201JD 0 250 Supply 24 V 10 6 0 4 0 NO SR2 A101BD 1 0 250 12 8 4 4 0 Yes SR2 B121BD 0 250 8 4
106. 0 operating cycles Delay on crossing the threshold Indication Supply 0 1 10 Max 10 15 Green LED Overvoltage relay Yellow LED Undervoltage relay Protection class Terminal block Yellow LED IP 20 Conforming to IEC 529 5 Enclosure IP 50 Enclosure Terminal capacity With cable end Self extinguishing Pc panel or DIN rail mounted 2 xX 1 5 RRR l Without cable end 2x25 Tightening torque Conforming to IEC 947 1 0 6 max M3 screw Temperature limits Operation 20 60 conforming to IEC 68 1 14 Storage 30 70 conforming to IEC 68 1 1 2 Relative humidity Conforming to IEC 68 2 30 93 without condensation Vibrations Amplitude mm 0 35 Conforming to IEC 682 6 Frequency Hz 10 55 Insulation resistance Conforming to IEC 255 5 MQ gt 10 at 500 V Dielectric strength Conforming to IEC 255 5 kV 2 5 1min 1 mA 50 Hz Impulse voltage Conforming to IEC 255 5 664 1 kV 5 wave 1 2 50 us Product certifications C UL us CSA Functions Dimensions Schemes page 5 24 page 5 24 page 5 80 561046 Presentation MIL Fo rm e Zelio Control measurement and control relays Voltage measurement relays model RM4 U These devices are designed to detect when voltage rises above or drops below a preset threshold on an a c or a d c supply They have a transparent hinged flap on their front face to avoid any accidental alteration of the settin
107. 00 ms 6000 operating cycles Mechanical life 5 x 106 operating cycles Time delay in the event of fault t1 S 0 5 10 Max 10 16 Indication Supply Green LED Relay Yellow LED Protection class Terminal block IP 20 Enclosure IP 30 Enclosure Self extinguishing PC panel or DIN rail mounted Terminal block clamping Without cable end mm 2x25 capacity With cable end mm 2x1 5 Tightening torque Nm 0 6 max M3 screw IEC 947 1 Temperature limits Operation C 20 60 conforming to IEC 68 2 14 Storage C 30 70 conforming to IEC 68 2 1 2 Relative humidity Conforming to IEC 68 2 30 93 without condensation Vibrations Amplitude T 0 35 conforming to IEC 68 2 6 Frequency 10 55 Insulation resistance Conforming to IEC 255 5 100 at 500 V Dielectric strength Conforming to IEC 255 5 kV 2 5 1 min 1 mA 50 Hz Impulse voltage Product certifications Conforming to IEC 255 5 664 1 kV 5 wave 1 2 50 us c UL us CSA RM 84 873 30e GL Functions page 5 22 Dimensions page 5 22 UO 0 o o gt O O Q3 J co o 5 23 Functions dimensions Controls overvoltage and undervoltage on its own power supply window type E RM 84 873 201 phase to phase RM 84 873 211 between phase and neutral Minimum and maximum thresholds can be adjusted separately Absence of neutral detected on relay RM 84 873 211 Delay on crossing the upper or lower threshold adjustab
108. 1 4 Temperature Operation 20 50 storage 40 70 Relative humidity Without condensation 95 Enclosure material Self extinguishing Degree of protection Conforming to IEC 60529 Enclosure IP 40D terminal block IP 20 Connection Flexible cable without cable end 1 x 4 or 2 x 2 5 flexible cable with cable end 2 x 1 5 Tightening torque A 1 Dielectric strength Conforming to IEC 60255 5 2 5 for 1 min at 1 mA 50 Hz Creepage distance and clearance Conforming to IEC 60664 1 kV 4kV 3 Vibration resistance Conforming to IEC 60068 2 6 a 0 035 mm Electrostatic discharge Conforming to IEC EN 61000 4 2 Level 3 6 kV contact 8 kV air Electromagnetic fields Conforming to IEC EN 61000 4 3 Level 3 10 V m Fast transients Conforming to IEC EN 61000 4 4 Level 3 2 kV Shock waves Conforming to IEC EN 61000 4 5 Level 3 2 kV Radio frequencies Conforming to IEC EN 61000 4 6 Level3 10 V rms Voltage dips and breaks Conforming to IEC EN 61000 4 1 1 30 for 10 ms 60 for 100 ms and 1 s gt 95 for 5 s and 10 ms Damped oscillatory wave at 1 MHz Conforming to IEC 61255 22 1 Class III Radiated and conducted emissions Glass B Functions Schemes Dimensions page 5 52 page 5 52 page 5 52 Functions Regulation of two thresholds O minimum O maximum E Emptying control B Probes with a c current flowing through them Sensitivity adjustment potentiometer on front panel of the device Sensitivity adjustable fro
109. 1 L2 L3 References Characteristics page 5 19 page 5 19 Dimensions page 5 19 560999 References Zelio Control measurement characteristics and control relays dimensions Phase asymmetry control relays self powered model RM 84 873 Phase asymmetry control relays Voltage Reference Weight kg 230 V RM 84 873 501 0 120 400 V RM 84 873 502 0 120 RM 84 873 501 Supply voltage 3 x 230 and 3 x 400 self powered Operating range 20 15 Un Frequency 50 60 Hz 1 Hz Maximum consumption 17 at Un 50 Hz 20 at 60 Hz VA 23 at Un 15 995 50 Hz 27 at 60 Hz Output type 2cadmium free C O contacts Rated current 8 Maximum switching voltage 250 V 440 V Rated breaking capacity 2000 Minimum breaking current 100 12 V Electrical life AC 12 10 operating cycles at 8 A 250 V Mechanical life 2x 107 operating cycles Time to onset of fault t2 200 Time to disappearance of fault t1 200 Clamping capacity Without cable end mm 1x4or2x2 5 With cable end mm 2x 1 5 1 M3 screw IEC 947 1 20 50 40 70 95 96 max without condensation Self extinguishing PC Tightening torque Temperature limits Operation Storage Relative humidity Enclosure material Protection class Terminal block IP 20 Enclosure IP 40 Dielectric strength Conforming to IEC 60255 5 kV 2 5 1 min 1 mA 50 Hz Creepage distance Conforming to IEC 60664 1 kV 4kV 3
110. 10 to 55 Hz 20 60 15 85 Environmental class 3K3 a 0 35 ms Conforming to IEC 6068 2 27 15gn 11 ms Casing IP 50 Terminals IP 20 Degree of pollution Conforming to IEC 60664 1 Overvoltage category Conforming to IEC 60664 1 Rated insulation voltage Test voltage for insulation tests Voltage limits Frequency limits Disconnection value Mounting position without derating Conforming to IEC Conforming to CSA Dielectric test Shock wave Power supply circuit Power supply circuit Power supply circuit In relation to normal vertical mounting plane 250 Co Q e x ee nip no oo o 0 85 1 1 Uc 50 50 5 96 0 1 Uc Any position Cabling Flexible cable without cable end mm 2x2 5 Maximum c s a Flexible cable with cable end mm 2x1 5 0 6 1 1 Tightening torqu Imi t Electrostatic discharge jnetic ini Conforming to IEC 61000 4 2 N m Level 3 6 kV contact 8 kV air Electromagnetic fields Conforming to IEC 61000 4 3 Level 3 10 V m Fast transients Conforming to IEC 61000 4 4 Level 3 2 kV Shock waves Conforming to IEC 61000 4 5 Level 3 2 kV Radiated and conducted CISPR11 Group 1 class A emissions CISPR22 Class A References Dimensions Schemes page 3 10 page 3 10 page 3 11 3 8 Characteristics Zelio Time timing relays continued Industrial relays solid state
111. 10 to 55 Hz Shock resistance Conforming to IEC 6068 2 27 15gn 11 ms Degree of protection Casing IP 50 Terminals IP 20 Degree of pollution Conforming to IEC 60664 1 3 Overvoltage category Conforming to IEC 60664 1 III Rated insulation voltage Conforming to IEC 250 Between contact circuit and Conforming to CSA 300 power supply or between contact circuit and control inputs Test voltage for Dielectric test 25 insulation tests Shock wave kV 4 8 Voltage limits Power supply circuit s 0 85 1 1 Uc Frequency limits Power supply circuit Hz 50 60 596 Disconnection value Power supply circuit 0 1 Uc Mounting position In relation to normal Any position without derating vertical mounting plane Cabling Flexible cable without cable end 2x 25 Maximum Cc s a Tightening torque Electrostatic discharge Flexible cable with cable end mm 2x 1 5 N m 0 6 1 1 agnetic interference EMC applicat renc application class 2 conforming to EN 61812 1 Conforming to IEC 61000 4 2 Level 3 6 kV contact 8 kV air Electromagnetic fields Fast transients Conforming to IEC 61000 4 4 Level 3 2 kV Shock waves Conforming to IEC 61000 4 3 Level 3 10 V m Conforming to IEC 61000 4 5 Level 3 2 kV Radiated and conducted emissions Average consumption CISPR11 Group 1 class A CISPR22 Class A 50 60 Hz E 48V 110V 240V
112. 10095 Phase L1 NES 100 a E Phase L2 j 100 Phase L3 gt 11 14 21 24 Rel etay 412 21 22 ee L1 L2 L3 References Characteristics page 5 17 page 5 17 Dimensions page 5 17 560998 References Zelio Control measurement characteristics and control relays dimensions Phase control relays self powered model RM 84 873 Phase control relays Voltage Reference Weight kg e 230 V RM 84 873 511 0 120 Sa 400 V RM 84 873 512 0 120 o o RM 84 873 511 Supply voltage 3 x 230 and 3 x 400 self powered Operating range 20 15 Un Frequency 50 60 Hz 1 Hz Maximum consumption 17 at Un 50 Hz 20 at 60 Hz VA 23 at Un 15 50 Hz 27 at 60 Hz Output type 2cadmium free C O contacts Rated current 8 Maximum switching voltage 250 V 440 V Rated breaking capacity 2000 Minimum breaking current 100 12 V Electrical life mA AC 12 10 operating cycles at 8 A 250 V Mechanical life 2x 10 operating cycles Time to onset of fault t2 lt 200 Time to disappearance of fault t1 m lt 200 Clamping capacity Without cable end 1x40r2x2 5 With cable end mm 2x 1 5 Tightening torque Nm 1 M3 screw IEC 947 1 Temperature limits Operation C 20 50 Storage C 40 70 Relative humidity 95 max without condensation Enclosure material E Self extinguishing PC Protection class Terminal block IP 20 Enclosure I
113. 121BD 6 14 TWD DRA 8RT 1 22 XBK P61230G31E 4 9 SR2 B121FU 6 4 TWD FCN 5K20 1 39 XBK P61230G32E 4 9 SR2 B121JD 6 14 TWD FCN 5K26 1 39 XBK P62130G30E 4 9 SR2 B122BD 6 4 TWD FCW 30K 1 39 XBK P62130G32E 4 9 SR2 B201B 6 14 TWD FCW 30M 1 39 XBK P62230G30E 4 9 SR2 B201BD 6 4 TWD FCW 50K 1 39 XBK P62230G32E 4 9 SR2 B201FU 6 14 TWD FCW 50M 1 39 XBK T50000U08M 45 SR2 B201JD 6 4 TWD FST 16D10 1 39 XBK T50000U10M 4 5 SR2 B202BD 6 14 TWD FST 16D20 1 39 XBK T50000U11M 45 SR2 CBL01 6 16 TWD FST 16R10 1 39 XBK T60000U00M 4 5 SR2 COMO1 6 6 TWD FST 16R20 1389 XBKT60000U10M 4 5 SR2 D101BD 614 TWDFST20DR10 1 39 XBK T60000U11M_ 4 5 SR2 D101FU 614 TWDFST20DR20 1 39 XBKT70000U00M 45 SR2 D201BD 6 4 TWD FTB 2T10 1 22 XBK T80000U00M 4 5 SR2 D201FU 6 14 TWD FTB 2T11 1 22 XBT N200 1 8 SR2 E121B 6 4 TWD FTB 2T11 1 30 and SR2 E121BD 6 14 TWD FTB 2T13 1 14 1 14 SR2 E121FU 6 14 TWD FTB 2T16 1 14 XBT N400 1 8 SR2 E201B 6 14 TWDLCAA10DRF 1 8 and SR2 E201BD 6 14 TWDLCAA16DRF 1 8 1 14 SR2 E201FU 6 4 TWDLCAA24DRF 1 8 XBT N401 1 8 SR2 MANO1DE 6 68 TWDLMDA20DRT 1 14 ano SR2 MANO1EN 6 6 TWDLMDA20DTK 41 14 oe SR2 MANO1ES 6 16 TWDLMDA20DUK 1 14 xz CB 10201 ee SR2 MANO1FR 6 16 TWDLMDA40DTK 1 14 yz Cp 10501 es SR2 MANO1IT 6 16 TWDLMDA40DUK 1 14 xz Cp 11001 pa SR2 MANO1PO 6 16 TWD NAC 232D 1 35 SR2 MEMO1 6 18 TWD NAC 485D 1 35 SR2 PACK2BD 6 14 TWD NAC 485T 1 35
114. 1SeeeM 12 A 300 V 2 Each socket RXZ E1M114M is delivered with a legend RXZ L320 3 10 red and 10 green Characteristics Dimensions Schemes pages 2 6 and 2 7 page 2 14 page 2 12 2 9 Characteristics Relay type Number and type of contacts Zelio Relay plug in relays Interface relays RSB 2A080ee RSB 1A120ee RSB 1A160ee 2 C O 1 C O 1 C O Contact materials Rated thermal current Ith A 8 f i For temperature lt 40 C Maximum operating rate No load 72 000 In operating cycles h Under load 600 Switching voltage Minimum 5 Maximum V 400 300 Breaking capacity Minimum 5 Maximum VA 2000 3000 Rated voltage Un V 6 110 24 240 50 60 Hz Average consumption 0 45W 0 75 VA Permissible voltage variation Drop out voltage threshold 0 8 1 1 Un 50 60 Hz or at 20 C gt 0 1 Un 0 15 Un Conforming to standards Standard version IEC 61810 1 Product certifications pending Standard version UL CSA Ambient air temperature Storage 40 85 around the device Operation C 40 85 40 70 Vibration resistance Conforming to IEC 68 2 6 gt 10 gn 10 150 Hz Degree of protection IP 40 Shock resistance 10 gn closing 5 gn opening Mechanical durability In millions of operating cycles gt 30 Operating time Between coil v About 12 response time energisation and making About 9 of the On d
115. 21E10e0ee RXN 41G 1 4 1 2 3 4 l l TE 42 E 22 32 42 5 8 5 6 T 8 E cory oY Cc 14 44 14 24 34 44 9 12 9 10 11 12 L1 11 41 21 31 41 13 14 13 14 A i A2 A i A2 RXL 2ee RXL 3ee RXL 4ee i RS a NE a IA 7 1 4 1 1 2 3 4 12 42 12 22 32 12 22 32 42 8 8 4 5 6 5 6 7 8 L een de Lr L Fr Ep i 144 44 14 24 34 14 24 34 44 NE 132 NES 8 9 9 10 11 12 0 4 NEL 21 31 21 31 4 us IE 13 14 13 14 L3 L d L 4 11 L3 4 l A A2 TAI A2 A A2 Universal relays 1 RUN 21D2eee RUN 21C2e0cee RUN 31A2eee RUN 33A2eee6 RUN 31C2e0ee 1 3 12 22 4 6 x E 7 9 11 21 eh M En A1 A2 1 Blue references are those marked on the relay References Dimensions pages 2 5 2 8 and 2 11 page 2 14 2 12 Installation Multifunction timer module Zelio Relay plug in relays Universal relays RUW 101MW Programming Timing range selection m B m m m E HN HE NN Function Time selection delay E m NH E HN m m EHE HN EH E selection A ge SER 0 1 1s 1 10s 0 1 1 min 1 10 min 0 1 1h 1 10 h 0 1 1 day 1 10 days Function selection Selection Function Control Function diagram Control scheme On delay timer Series control u C a U E Contact 1 4 1 2 PEOR m m Monostable
116. 2A connector for the TWD XCP MFK32 memory cartridge or TWD XCP RTC real time clock cartridge access through the bottom of the controller Compact base controllers can be mounted on a symmetrical DIN rail mounting plate or panel 2 x 4 3 holes 1 5 Characteristics Temperature Operation C Twido programmable controller Compact base controllers 0 55 Storage 25 70 Relative humidity 2 30 to 95 without condensation Degree of protection IP20 Altitude Operation 0 2000 Storage n 0 3000 Vibration resistance Mounted on 1r rail Mz 10 57 amplitude 0 075 mm acceleration 57 150 Hz m s 9 8 1 gn Plate or panel mounted Hz 2 25 amplitude 1 6 mm acceleration 25 100 Hz using fixing kit m s 39 2 4 gn TWD XMT5 Shock resistance m s 147 15 gn for 11 ms Backup battery Data backed up Autonomy Battery type Internal RAM internal variables internal bits and words timers counters shift registers Approximately 30 at 25 C with fully charged battery Lithium battery not interchangeable Charging time Life Base controller type Number of 24 V inputs Number and type of outputs Connection of I O years Approximately 15 to charge from 0 90 of the full charge 10 TWD LCAA 10DRF TWD LCAA 16DRF 6 9 Non removable screw terminal block TWD LCAA 24DRF 14 10 relay I O expansion modules Max no of modules 4 Max no of I O A
117. 3 0 140 a i olt 280 V RM 84 870 004 0 140 Note The probe cable maximum length 100 metres need not be screened but it is inadvisable to install it in parallel with the power supply cables A screened cable may be used with the screening connected to the common Supply voltage Un V 24 120 230 50 60 Hz Operating range 0 85 1 15 x Un Maximum power consumption VA 3 Sensitivity adjustment KQ 5 100 Measurement accuracy 0 30 at maximum sensitivity Electrode voltage maximum V 24 50 60 Hz Electrode current maximum mA 1 50 60 Hz Maximum cable capacity nF 10 Response time High level ms 300 Low level ms 500 Output relay to meet AC 1 requirements resistive load 1 C O contact AgCdO 8 A max Galvanic isolation via transformer Class II VDE 0551 4 kV 8 mm creepage distance Isolation of contacts and electrodes from the supply kV Pd S Temperature limits Operation C 20 60 Storage C 90 70 Product certifications c UL us CSA Functions Schemes page 5 64 page 5 78 Functions Zelio Control measurement and control relays Liquid level control relays with alarm model RM 84 870 Control and automatic regulation of liquid levels BN 2 sensitivity ranges Fill or empty function selectable via dip switch High or low level alarm selectable via dip switch E Selectable memory B Power on output rela
118. 3 electrodes or 2 probes LA9 RM201 Type Function Time delay RM4 switch 3 switch 4 dra EE s hare vsu l msn imp 1 q U supply A1 A2 LGO1 ij D 18 6 ssw sn M A tas eee LA32 uj c 18 16 25 26 m t LA32 LL 18 16 25 26 Fill function maximum level detection 2 electrodes or 1 probe LA9 RM201 Type Function Time delay B1 B2 B1 B2 B1 B2 RM4 switch3 switch 4 im am k d U supply A1 A2 LGO1 i i p 15 18 PEUT ELT LA32 4 02D af NR RN LA32 4 Em 05 QE RR Fill function regulation between a maximum and a minimum level 3 electrodes or 2 probes LA9 RM201 Type Function Time delay B1 B3 B2 RM4 switch3 switch 4 U supply A1 A2 ig CO 2 a m occ a5 o Dm _ m R LA32 4j EH 1 7 nn M B1 reference electrode B2 high level electrode B3 low level electrode 1 When operating with 2 electrodes the high level electrode performs both high and low level functions References Characteristics Dimensions schemes Setting up page 5 60 page 5 61 page 5 62 page 5 63 5 59 References Zelio Control measurement and control relays Liquid level control relays model RM4 Liquid level control relays 8 Time delay Sensitivity Width Output Basic reference to be Weight 8 scale relay completed
119. 30 220 240 50 60 Hz B F M RM4 UA3e Volts 24 240 110 130 220 240 380 415 50 60 Hz MW F M Q MW Presentation Characteristics Dimensions schemes Setting up page 5 29 page 5 30 page 5 31 pages 5 26 and 5 27 Characteristics Zelio Control measurement and control relays Voltage measurement relays model RM4 U Relay type RM4 UAOe RM4 UA3e Rated supply voltage Un 50 60 Hz V 24 110 130 220 240 24 240 110 130 220 240 380 415 V 24 240 Average consumption at Un VA 2 TOSS 2 3 5 15 33 P 1 9 9 3 2 94 P279 W 1 2 Relay type RM4UA0e RM4 UA3e Number of C O contacts 1 2 Output relay state Energised when Energised when voltage measured gt threshold setting voltage measured gt threshold setting gt function voltage measured lt threshold setting lt function Setting accuracy of the switching threshold As of the full scale value 5 Switching threshold drift lt 0 06 per degree centigrade depending on the permissible ambient temperature lt 0 5 within the supply voltage range 0 85 1 1 Un Hysteresis adjustable 5 30 of the voltage threshold setting Setting accuracy of the time delay As of the full scale value 10 Time delay drift lt 0 5 within the supply voltage range 0 85 1 1 Un lt 0 07 per degree centigrade depending on rated operating tempe
120. 36 Without 10 RXL 4G06B1ee 0 035 Protection modules for sockets RXZ 7G Description Type Voltage Sold in Unit reference Weight lots of V kg Diode L z 12 250 10 RXW 040MD 0 010 Protection modules for relay sockets RXZ EeeeeM Diode z 6 230 10 RZM 040W 0 003 Diode E 6 24 10 RZM 031RB 0 004 green LED 24 60 10 RZM 031BN 0 004 z 110 230 10 RZM 031FPD 0 004 Varistor E or 6 24 10 RZM 021RB 0 005 green LED Or 24 60 10 RZM 021BN 0 005 Or 110 230 10 RZM 021FP 0 005 RC circuit E 24 60 10 RZM 041BN7 0 010 v 110 240 10 RZM 041FU7 0 010 2 Standard control circuit voltages Volts 12 24 48 110 120 230 Ex JD BD ED FD 50 60 Hz RXN B7 E7 F7 P7 RXL B7 E7 F7 P7 For other voltages please consult your Regional Sales Office Coil characteristics Control d c supply a c supply 50 60 Hz circuit Average Cod Operating voltage Average Cod Operating voltage voltage resistance limits resistance limits zi at 20 C Min Max 8t20 C Min Max t 1096 t 15 96 V Q V V Q V V RXN relays 12 160 JD 9 6 13 2 24 640 BD 19 2 26 4 150 B7 192 26 4 48 2600 ED 38 4 52 8 635 E7 384 52 8 110 13 600 FD 88 121 F7 230 15 400 P7 184 253 RXL relays 12 160 JD 9 6 13 2 24 640 BD 19 2 26 4 158 B7 192 26 4 48 2600 ED 38 4 52 8 640 E7 384 52 8 110 13 600 FD 88 121 120
121. 4 RXN 41G12ee 2 8 RC 87 619 224 4 25 RE7 PD13BU 3 20 RM 84 870 604 5 71 RMP T10BD 6 24 RXW 040MD 2 8 RC 87 619 228 4 25 RE7 PE11BU 3 27 RM 84 870 807 5 59 RMP T13BD 6 116 RXZ 200 2 9 RC 87 619 322 4 25 RE7 PM11BU 3 27 RM 84 870 808 5 73 and RXZ 300 2 9 RC 87 619 324 4 25 RE7 PP13BU 3 20 RM 84 871 021 5 55 6 24 RXZ 310 2 9 RC 87 619 328 4 25 RE7 RA11BU 3 27 RM84 871 023 5 55 RMP T20BD 624 RXZ7G 2 9 RE 88 826 004 3 6 RE7 RB11MW 3 27 RM84871 024 5 55 RMP T23BD amp 16 RXZ E15114M 3 47 RE 88 826 014 3 6 RE7 RB13MW 3 28 RM 84 871 031 5 55 and RXZ E1M114 2 9 RE 88 826 044 3 7 RE7 RL13BU 3 28 RM 84 871 033 5 55 g4 RXZ E1M114M 2 9 RE 88 826 054 3 7 RE7 RM11BU 3 27 RM 84 871 034 5 55 Weer c4 RXZE1S108M 2 9 RE 88 826 103 3 15 RE7 TL11BU 3 26 RM 84 871 044 555 PFEMBIGSD gig RXZ E1S111M 2 9 RE 88 826 105 3 14 RE7 TM11BU 3 26 RM 84871 102 5 47 RXZ E1S114M 2 9 RE 88 826 115 3 14 RE7 TP13BU 3 28 RM 84 871 305 5 39 and RXZ L320 2 9 RE 88 826 125 3 14 RE7 YA12BU 3 20 RM 84 871 310 5 39 6 4 RXZ P10 2 9 RE 88 826 135 3 15 RE7 YR12BU 3 20 RM 84 872 021 5 37 RMP TSOBD 6 4 RXZ P20 2 9 RE 88 826 145 3 15 RE8CL11BUTQ 3 35 RM 84 872 023 5 37 RMP T53BD 6 16 RXZ R235 2 9 RE 88 826 155 3 115 REBPD11BTQ 3 36 RM 84 872024 5 37 and RE 88 826 503 3 15 REB PD11FUTQ 3 36 RM 84 872 031 5 37 6 24 7 2 Product reference index RZM 021BN 2 8 SR3 B261B 6 15 TWD USE 10AE
122. 50 mA 24 V 50mA 230 V or 115 V 5000 2500 for bi directional counting 999999 7 6 LED or 9 LCD 1or2 Non continuous O 5 programmable modes single counter input single counter with phase discriminator differential inputs summing inputs counting direction inputs Counter input resistance 5 kQ Reset 2 modes reset to zero and reset to preset value Reset type Manual electrical and automatic Output type Relay changeover response time 5 ms o Vellc lt 30V n 5 V lt UG lt 250 V 10mA lt I lt 1A Transistor PNP 12 24 V 10 mA max Connection Screw terminal block Minimum duration of counting pulse Conforming to standards Product certifications Temperature Operation Storage Degree of protection Conforming to IEC 529 Vibration resistance Conforming to IEC 68 2 6 Shock resistance Conforming to IEC 68 2 27 Protection against electric shocks Mounting and fixing Conforming to IEC 536 ms 17 at 30 Hz 0 1 at 5 KHz EN 50081 2 and EN 50082 2 EN 61010 UL C UL pending 0 50 20 70 IP 65 1 gn 10 to 150 Hz 10 gn 18 ms Class Il Flush mounting unit and fixing by a self locking clamp with setscrews References Dimensions page 4 9 page 4 9 4 8 560820 560821 Heferences dimensions schemes Zelio Count counters Electronic preselection and multifunction counters 48 x 48 6 digits LCD or LED XBK P62e30G3eE
123. 6 2 10 59 Hz A 0 35 mm Relative humidity Conforming to IEC 68 2 3 93 96 without condensation Electromagnetic compatibility Immunity to electrostatic discharge conforming to IEC 1000 42 Immunity to electromagnetic fields conforming to ENV 50140 204 IEC 1000 4 3 Level Ill Air 8 kV Contact 6 kV Level Ill 10 V m 80 MHz 1 GHz Immunity to fast transients in bursts conforming to IEC 1000 4 4 Level Ill direct 2 kV capacitive connecting clip 1 kV Immunity to surges on the power supply conforming to IEC 1000 4 5 Immunity to radio frequency interference in common mode conforming to ENV 50141 IEC 1000 4 6 Level Ill common mode 2 kV differential mode 1 kV Level Ill 10 V rms 0 15 80 MHz Immunity to voltage dips and breaks conforming to IEC 1000 4 11 30 96 10 ms 60 96 100 ms gt 95 5s Radiated and mains conducted disturbance conforming to EN 55022 EN 55011 Group 1 Class B Mounting method Symmetrical mounting rail EN 50022 35 Clamping capacity Without cable end With cable end 2x25 mm 2x1 5 ze Spring terminals 2 terminals Flexible cable m 1 5 per connection point Solid cable 25 Enclosure material Self extinguishing References Dimensions Schemes pages 3 6 and 3 7 page 3 6 page 3 7 3 5 References Zelio Time timing relays dimensions Modular relays solid state output wi
124. 6 consumption on model 240 V 1 5 240 V VA 32 Output type Relay C O contacts AgNi cadmium free Breaking capacity Maximum breaking current Minimum breaking current Maximum switching voltage Electrical life 105 operations 8 A 250 V resistive Mechanical life 5 x 108 operations Dielectric strength Conforming to IEC 1812 1 kV 2 5 1min 1 mA 50 Hz Impulse voltage Conforming to kV 5 wave 1 2 50 us IEC 664 1 IEC 1812 1 2000 VA 80 W 8 8 10 5 V J 250 dE State indication by 1 LED Green Operating status indication uu Pulsing relay energised no timing in progress except Di D and Li L gees Flashing timing in progress Samm On steady relay energised no timing in progress Input type V Volt free contact no potential Control possible by 3 wire sensor with PNP output maximum residual voltage 0 4 V whatever the supply voltage of the timer References Dimensions Schemes pages 3 44 and 3 45 page 3 44 page 3 45 Characteristics continued Zelio Time timing relays Universal plug in relays 11 pin Conforming to standards relay output width 35 mm C marking EMC 89 336 EEC IEC 669 2 3 IEC 1812 1 EN 50081 1 2 EN 50082 1 2 LV directives 73 23 EEC 93 68 EEC Product certifications c UR us CSA GL Temperature limits Operation 20 60 Storage 90 60 Creepage distance Conforming to IEC 60664 1 kV 4 kV 3 and clear
125. 60 85 110 Un 85 120 Un for 12 V On load factor 100 Maximum power Depending 24V 0 6 consumption on model 240 V 1 5 240 V VA 32 Output type Relay C O contacts AgNi cadmium free Breaking capacity 2000 VA 80 W Maximum breaking current A 216 ec Minimum breaking current mA 104 5V Maximum switching voltage Nez 250 Electrical life 10 operations 8 A 250 V resistive Mechanical life 5 x 108 operations V Dielectric strength Conforming to IEC 1812 1 kV 2 5 1min 1 mA 50 Hz Impulse voltage Conforming to IEC 664 1 kV 5 wave 1 2 50 us IEC 1812 1 State indication by 2 LEDs Green Operating state indication green LED uiu Pulsing relay energised no timing in progress except Di D and Li L munne Flashing timing in progress m On steady relay energised no timing in progress Yellow On delay relay Input type V Volt free contact no potential Control possible by 3 wire sensor with PNP output maximum residual voltage 0 4 V whatever the supply voltage of the timer References Dimensions Schemes pages 3 22 and 3 23 page 3 22 page 3 23 Characteristics continued Conforming to standards Zelio Time timing relays Industrial single or multifunction relays relay output width 22 5 mm IEC 1812 1 EN 50081 1 2 EN 50082 1 2 LV directives 73 23 EEC 93 68 EEC C marking EMC 89 336 EEC IEC 669 2 3 Product certificat
126. 610 150 4 Voltage Live contact 5 50V 1 V 48 240V 1 PNP transistor or 3 wire PNP proximity sensor 1 NPN transistor or 3 wire NPN proximity sensor 1 2 wire proximity sensor 2 wire proximity sensor 30V maxi 4 5 OV 1 For sensor with leakage current lt 0 1 mA 2 R 470 Q9 2Q for a 2 wire sensor with leakage current lt 1 5 mA Slow counting or reset input RC 87 610 040 Start Stop or reset input RC 87 610 140 RC 87 610 040 10r4 2or3 TV7N 1K RC 87 610 140 Ne 20r3 10r4 RC 87 610 040 10r4 20r3 DN a9 20r3 10r4 Reset RC 87 610 050 RC 87 610 150 RC 87 610 250 A 48 240V NEN 5 50V 7 1 48 240V 3 5 50V T 3 30V maxi 3 Kel R 2 OV 2 RC 87 610 140 References pages 4 11 to 4 17 4 19 Functions Zelio Count counters Electronic preselection and multifunction counters Models RC 87 618 and RC 87 619 Input mode IL PNP count on rising edge NPN count on falling edge IND so 112 sjaj t o pj i 4n n i 1 Input IN1 count in the direction of the cycle 2 Input IN2 count in the opposite direction from the cycle 3 Display O P 2 channel up down counters 4 Display P O 2 channel up down counters PH LF LS LF Ll LL 2 JLL US UPL 0 2 n n 1 n 2 n 3 n 4n 3 n 2 Input IN1 signals 90 out of phase Input IN2 signals 90 out of phase Display O P Display P
127. 8 228 CENT 2 solid state RC 87 618 268 0 200 20 55 V 2 N O RC 87 618 224 0 200 2 solid state RC 87 618 264 0 200 10 30 V 2 N O RC 87 618 222 0 200 2 solid state RC 87 618 262 0 200 z Red LED display 80 260 V 2 N O RC 87 618 328 0 200 2 solid state RC 87 618 368 0 200 20 55 V 2 N O RC 87 618 324 0 200 2 solid state RC 87 618 364 0 200 10 30 V 2 N O RC 87 618 322 0 200 RC 87 618 322 2 solid state RC 87 618 362 0 200 Display Panel cut out 1 Reset 2 Access to all parameters in Prog mode 3 Incrementation of figures and multipliers selection of a parameter value RC 87 618 22e RC 87 618 32e m DILDO DILDO RC 87 618 26e RC 87 618 36e Supply Supply ENDE AN Wl en neh Nae EE IE net ere mn 3 We K Y H k y 3 DICTU enm O WE 020 N T ERE sy LT p PHP 0 6 o LO t Functions pages 4 20 and 4 21 Characteristics pages 4 22 and 4 23 560818 560819 Heferences dimensions schemes continued Zelio Count counters Electronic preselection and multifunction counters 72 x 72 6 digits LCD or LED Model RC 87 619 RC 87619 322 Preselection and multifunction up down counters 72 x 72 Functions counter batch counter tachometer chronometer totalising counter Counting input modes UP DN IND CUMUL DIR PH PH2 PH4 Time base 99 h 59 min 99 min 59 s 99 99 s 24 h 999 99 h 999 99 min 2 presets Description Sup
128. 85 Degree of protection Conforming to IEC 529 IP 40 except XBK T60000U00M IP 65 Vibration resistance Conforming to IEC 68 2 6 5 gn 10 to 150 Hz Shock resistance Conforming to IEC 68 2 27 30 gn 6 ms Protection against electric shocks Conforming to IEC 536 Class II Mounting and fixing Flush mounting Connection By AMP lugs on a cable connector References Dimensions Schemes page 4 5 page 4 5 page 4 5 4 4 References Zelio Count counters dimensions Electromechanical totalising counters schemes 5 to 8 digits x Supply voltage Number of Counting Reset type Reference Weight E display digits frequency V kHz kg Totalising counters with mechanical display E 24 5 20 Manual XBK T50000U10M 0 100 XBK T50000UeeM 8 6 25 Without XBK T60000U00M 0 030 XBK T60000U00M 25 Manual XBK T60000U10M 0 150 7 20 Without XBK T70000U00M 0 100 8 25 Without XBK T80000U00M 0 150 48 5 20 Without XBK T50000U08M 0 100 2 115 5 10 Manual XBK T50000U11M 0 100 iO Oaia A 6 10 Manual XBK T60000U11M 0 030 XBK T80000U00M XBK T50000UeeM XBK T70000U00M Flush mounting XBK T60000U00M Flush mounting e gt ja X EE c2 415 75 e panel thickness 1 mm e 2 5 mm XBK T60000U1eM Common flush mounting 2x 04 3 XBK T50000UeeM XBK T70000U00M XBK T80000U00M XBK T60000U1eM EM t XBK T60000U10M XBK T80000
129. Automation and control Automation and relay functions Catalogue December a brand of Schneid i die Telemecanique Art 55053 MKTED203041EN AS Interface cabling system 2003 Schneider y Electric Control and Protection Detection Data processing Man Machine dialogue Communication Art 54752 MKTED203031EN Global Detection Electronic and electromechanical sensors 2003 Detection Art 67341 MKTED203111EN Safety solutions using Preventa 2004 Control and Protection Detection Data processing Man Machine dialogue To be issued 2004 Automation and control Mounting systems Art 61231 DIAGED2030901EN Distributed I O Advantys STB 2003 Data processing Communication The Essential guide To be issued 1st quarter 2004 Art 70263 MKTED203113EN 2003 Automation and control Interfaces I O splitter boxes and power supplies Art 70455 MKTED204011EN 2003 We Automation and control Automation and relay functions Panel buil ding and cabling accessories AUTC201108140EN Transparent factory AUTC201104124EN The future of automation 2003 Momentum automation platform Schneider Electric Schneider y Electric An overview of the product range Safety solutions using Preventa
130. CCUR ARR SORT ARR ROR ARR ROL ARR LENGTH ARR L KUP MEAN ITB BTI DINT TO REAL REAL TO DINT Addressable objects Bit objects 1 96 l Qx y I O bits Mi internal bits Si 128 system bits Xi 62 Grafcet steps eei j function block bits 96 eei Xk bits extracted from internal words system words constant words input and output words Word objects 1 MWI internal words 96 KWi 64 constant words 96 SWi 128 system words 96 INWi j 4 input words per controller exchange words for inter controller communication 96 QNWIi j 4 output words per controller exchange words for inter controller communication Bit string and word table objects ei L bit strings I O internal system and Grafcet bits B 9ceWI L word tables internal constant and system words 1 When the numbers of objects are not indicated see characteristics pages 1 6 and 1 12 1 46 References Twido programmable controller TwidoSoft programming software The multi language software packages English French German Italian and Spanish are for use on PCs 1 with Windows 98 SE Windows 2000 and Windows XP operating system These software packages include m A CD ROM containing TwidoSoft multi language software and multi language documentation for hardware and software set up m Depending on the model a PC Twido controller connection cable reference TSX PCX 1031 which is compatible with Twido Micro and Premium progr
131. Compact base controllers The Twido range of compact programmable controllers offers an all in one solution in a compact overall size 80 95 x 90 x 70 mm Three base controllers are available differing in their processing capacity and their number of 24 V inputs and relay outputs 10 16 and 24 I O All these compact base controllers use an a c power supply between 100 and 240 V and provide a 24 V supply to the sensors This type of compact base controller offers the following advantages B A significant number of I O up to 24 I O in a small overall size so reducing the size of consoles or panels for applications where space is an important factor W A variety of expansion options and product options offer the user a degree of flexibility which is generally only available with larger automation platforms The TWD LCAA 24DHF 24 I O compact base controller can take up to 4 discrete I O expansion modules corresponding to a 64 I O configuration optional modules such as a digital display memory cartridge and real time clock cartridge as well as an additional RS 485 or RS 232C communication port m The compact controller solution also allows great wiring flexibility For expansion modules with base controller TWD LCAA 24DRF several types of connection are offered such as removable screw terminal blocks and spring type connections which allow simple fast and safe wiring The TwidoFast system provides a pre wired cabling solution
132. Control measurement characteristics and control relays dimensions Liquid level control relays combined fill empty functions model RM 84 870 Combined fill empty function Voltage Reference Weight kg TR 230 V RM 84 870 604 0 250 LOL k O 3 Th man Note The probe cable maximum length 100 metres need not be screened but it is inadvisable BM 84 870 604 to install it close to the power supply cables Supply voltage Un In order to conform to the EMC directive 89 336 EEC a screened cable must be used with the screening connected to the common and to earth V 230 50 60 Hz galvanic isolation via transformer Operating range 0 85 1 15 Un Power Rated 3 max at Un Maximum 4 at Un 15 96 Immunity to microbreaks 10 Delay on pick up t1 400 Response time on t4 ms 500 de energisation Creepage distance Conforming to IEC 60664 1 kV 4kV 2 and clearance Sensitivity range 5 100 kQ Setting accuracy Electrode voltage Electrode current 30 at maximum sensitivity 15 50 60 Hz Accuracy Response time On immersion t2 On emersion t3 1 m 30 at maximum sensitivity ms 400 ms 700 Output type 1 C O contact AgCdO Breaking capacity 2000 VA 80 W Maximum breaking current A 8 8 Minimum breaking current mA 100 100 Maximum switching voltage Mechanical life Electrical life sss 250 5 x 106 operating cycles V Em AC 12 2000 VA 10
133. DI 8DT 0 085 sink source screw terminal block supplied 16 1 Removable TWD DDI 16DT 0 100 screw terminal if block supplied k HE 10 TWD DDI 16DK 0 065 connector TWD DDI 8DT TWD DDI 32DK 32 2 HE 10 TWD DDI 32DK 0 100 connector Discrete output modules Type of output No of No of Connection Reference Weight jr ic channels common kg i a point i Transistor 8 sink 1 Removable TWD DDO 8UT 0 085 24 V 0 3 A screw terminal block supplied 8 source 1 Removable TWD DDO 8TT 0 085 screw terminal m T block supplied h Transistor 16 sink 1 HE 10 TWD DDO 16UK 0 070 24 V 0 1 A connector TWD DDO 8eT DRA 8RT TWD DDO 160K 16 source 1 HE 10 TWD DDO 16TK 0 070 connector 32 sink 2 HE 10 TWD DDO 32UK 0 105 P connector e p 32 source 2 HE 10 TWD DDO 32TK 0 105 connector M Relay 2 A Ith 8 N O 2 Removable TWD DRA 8RT 0 110 230 V 30 V contact screw terminal block supplied 16 N O 2 Removable TWD DRA 16RT 0 145 a contact screw terminal h block supplied h Discrete mixed input output modules TWD DDO 32eK TWD DRA 16RT No of No and No and No of Connection Reference Weight 10O type of type of common kg inputs outputs poin input tput int jr 8 4 24V 40O relay Inputs Removable TWD DMM 8DRT 0 095 J J sink source N O contact 1 common screw terminal 2 A Ith Outputs block supplied L T 1 common 24 161 24V 8 O relay Inputs Non removable TWD DMM 24DRF 0 140 sink source N O cont
134. Display 8 digit LCD Digit height 7 Counting capacity 0 99 399 999 Counter type RC 87 610 040 RC 87 610 050 Input type 1 slow counting input by volt free contact 1 slow counting input or NPN open collector transistor terminals 3 4 1 fast counting input by voltage level terminals 3 5 Voltage Terminals 3 5 V 4 30 Terminals 4 5 V PG ee S50 Terminals 5 6 V 48 240 Front panel Dipswitch n 2 to OFF Inhibited Inhibited Dipswitch n 2 to ON Enabled Voltage Terminals 2 3 AG bab Terminals 1 2 V 48 240 Counting speed slow counting 40 Slow counting minimum impulse duration Low level 12 12 High level ms 12 High leve Input levels 4 4 90 47230 Input impedance 3 5 min 3 5 min 2 alkaline batteries Life 1 lithium battery Life 4 years 8 years Supply can be switched off via Dipswitch n 1 located on the underside of the device WDE 0110 IEC 664 348 255 4 255 5 801 2 801 4 c UL us CSA Self extinguishing By 6 screw terminals on back of the device 2x15 Conforming to standards Product certifications Material Connection Clamping capacity Mounting method By yoke Front panel degree of protection IP 66 Temperature limits Operation 10 4 55 Storage 20 70 Insulation resistance Conforming to IEC 255 5 Q 100 500 V Dielectric strength Conforming to IEC 255 5 2000 V 50 Hz 1 m
135. Fast system provides a pre wired cabling solution allowing connection of modules with HE 10 connectors to O pre formed cables with free wires at one end for direct connection to sensors preactuators o TwidoFast kits connection cables plus Telefast sub base m IwidoSoft software allows easy programming using instruction list language instructions or ladder language graphic objects It uses the same objects and sets of instructions as those used by PL7 07 software for Nano programmable controllers TwidoSoft software allows existing Nano PLC applications to be reused with Twido controllers by importing an ASCII file m Modular base controllers include o 1 analogue voltage input 0 10 V 9 bits 512 points O 1 analogue adjustment point accessible on the front panel This point can be set to a value between 0 and 1024 This adjustable value from 0 1023 points is stored in system words and is updated at every scan Modular base controller 24V inputs Outputs Type of Serial ports l O expansion Interface Optional connection module cartridge extension TWD LMDA 20DTK 12 sink source 8 source HE 10 connector 1 x RS 485 4 modules 1 module 2 slots real time transistor option of display or clock and 1x RS 232C 485 serial link memory TWD LMDA 20DUK 12 sink source 8 sink transistor HE 10 connector 1x RS 485 4 modules 1 module 2 slots real time option of display or clock and 1x RS 232C 485 serial link memory TWD LMDA 20D
136. H i Y U j Two operating modes are available ndervoltage mode and the memory function by i B a c d c voltage control without memory means of dip switches then set the delay ON CrOSSINg w ac d c voltage control with memory see previous page threshold T1 m RM4 84 872 05e set the required high and low Without With voltage thresholds and the delay on crossing threshold Urggpgi temo fal mamay Lh Overload funcion Hysteresis Underload function Hysteresis Threshold without memory The window threshold relay controls an electrical voltage which acts as its own power supply simplified wiring When the value of the controlled voltage a c or d c goes outside the window the output relay de energises at the end of a time delay T1 which can be set on the front panel between 0 1 and 3 s It re energises when the voltage returns within the window and stays between the upper and lower thresholds displayed by two potentiometers on the front panel A fixed hysteresis ensures bounce free relay switching around the thresholds Note time delay T1 on crossing the upper and lower thresholds provides immunity to transients so preventing spurious triggering of the output relay Without U fault memory cl Meas aT ae Bc LI L Overload 4 hoa TIT function JT I EE Hysteresis Relay i Meas input Thres FS Mr Underload bold 2
137. In some countries the approval of certain electrical equipment is required by law or by the market In this case an approval certificate is issued by the official test authority Each approved component must bear the relevant quality label when this is mandatory Code Approval authority Country CSA Canadian Standards Association Canada UL Underwriters Laboratories USA Note on approvals issued by the Underwriters Laboratories UL There are two levels of approval Recognized 9 The component is fully approved for inclusion in equipment built in a workshop where the operating limits are known by the equipment manufacturer and where its use within such limits is acceptable by the Underwriters Laboratories The component is not approved as a Product for general use because its manufacturing characteristics are incomplete or its application possibilities are limited A Recognized component does not necessarily carry the approval symbol Listed UL The component conforms to all the requirements of the classification applicable to it and may therefore be used both as a Product for general use and as a component in assembled equipment A Listed component must carry the approval symbol Prior approval by certain marine classification authorities is generally required for electrical equipment which is intended for use on board merchant vessels Code Classification authority Country BV Bureau Veritas
138. M 84 872 301 RM 84 87e 305 RM 84 87e 310 Supply voltage 230 5060 Hz Operating range 0 85 1 10 x Un 0 85 1 10 x Un Maximum power consumption 1W 3 VA Immunity to microbreaks ms 10 10 Delay on pick up ms 500 500 Creepage distance and clearance Relay type Conforming to IEC 60664 1 kV 4 kV 3 4 kV 3 Minimum current Mechanical life WA 1 C O contact AgCdO 5 A 250 V 100 B 108 operating cycles Electrical life AC 12 VA 1250 10 operating cycles AC 15 A Cos 0 3 6000 operating cycles DC 13 UR 300 ms 6000 operating cycles Delay on crossing the threshold 0 1 3 seconds 10 LCD display Relay state OVER or UNDER Mode Memory function Type of signal or Protection class Conforming to IEC 529 Measurement overflow Terminal block IP 20 front panel IP 40 enclosure IP 50 Enclosure Terminal capacity With cable end Self extinguishing Pc Without cable end Tightening torque 2x15 2x2 5 0 6 max Temperature limits C Operation 20 60 storage 30 70 Relative humidity 93 without condensation Dielectric strength Conforming to IEC 255 5 kV 2 5 1 min 1 mA 50 Hz Product certifications c UL us CSA Relay type RM 84 872 301 RM 84 872 305 RM 84 872 310 Input circuits E1 M E2 M E3 M Measurement ranges V 15 150 30 300 60 600 Input resistance kQ 2 10 60 100 300 650 Maximum continuous v
139. M4 TAO1 0 110 0 5 50 60 Hz 5 15 380 500 Asymmetry 22 5 1 C O RM4 TAO2 0 110 50 60 Hz 5 15 Adjustable 200 240 Asymmetry 22 5 2 C O RM4 TA31 0 110 RM4 TAO1 0 1 10 50 60 Hz 5 15 380 500 Asymmetry 22 5 2 C O RM4 TA32 0 110 50 60 Hz 5 15 1 Can be used on other supply voltages provided that the minimum operational voltages maximum voltage between phases and compatibility with the control threshold ranges are complied with see page 5 11 Presentation Characteristics Dimensions schemes pages 5 8 to 5 10 page 5 12 page 5 13 Characteristics Relay type Number of C O contacts Zelio Control measurement and control relays 3 phase supply control relays model RM4 T RM4 TG RM4 TU RM4 TR RM4 TA RM4 TA3e 2 RM4 TAOe 1 Output relay state Accuracy of the switching threshold setting As of the set value Energised during fault free operation De energised or unable to energise on detection of rotational direction fault or failure of one or more phases Energised during fault free operation De energised on detection of undervoltage or rotational direction fault or failure of one or more phases 3 Energised during fault free operation De energised on detection of overvoltage undervoltage or rotational direction fault or phase failure 3 Energised during fault free operation De energised on detection of asymmetry fault phase failure or rotational di
140. M4 TR32 5 3 3 55 RC 87 610 250 4 113 RE 88 867 435 3 44 RM 84 870 001 5 67 RM4 TR33 5 3 RUZ 200 2 5 RC 87 610 340 4 15 RE 88 867 455 3 45 RM 84 870 003 5 67 RM4 TR34 5 3 RUZ 210 2 5 RC 87 610 440 4 15 RE 88 896 201 3 47 RM 84 870 004 5 67 RM4 TUO1 5 13 RUZ7A 2 5 RC 87 618 222 4 24 RE 88 896 202 3 47 RM 84 870 121 5 57 RM4 TUO2 5 13 RUZ 7D 2 5 RC 87 618 224 4 24 RE 88 896 203 3 47 RM 84 870 131 5 57 RM4UA01e 5 30 RXL2A12B1ee 2 8 RC 87 618 228 4 24 RE 88 896 206 3 47 RM 84 870 301 5 59 RM4 UA02e 5 30 RXL2A12B2ee 2 8 RC 87 618 262 4 24 RE 88 896 207 3 47 RM 84 870 303 5 59 RM4 UAO3e 5 30 RXL3A10B1ee 2 8 RC 87 618 264 4 24 RE7 CL11BU 3 27 RM 84 870 304 5 59 RMAUA31ee 5 30 RXL3A10B2ee 2 8 RC 87 618 268 4 24 RE7 CP13BU 3 20 RM 84 870 306 5 59 RM4 UA32ee 5 30 RXL4AO06B1ee 2 8 RC 87 618 322 4 24 RE7 CV11BU 3 27 RM 84 870 308 5 59 RM4 UA33ee 5 30 RXL 4A06B2ee 2 8 RC 87 618 324 4 24 RE7 MA11BU 3 26 RM 84 870 309 5 59 RM4 UB34 5 43 RXL 4G06B1ee 2 8 RC 87 618 328 4 24 RE7 MA13BU 3 28 RM 84 870 401 5 72 RM4 UB35 5 43 RXL 4G06B2ee 2 8 RC 87 618 362 4 24 RE7 ML11BU 3 20 RM 84 870 403 5 72 RMC A61BD 6 24 RXN21E11ee 2 8 RC 87 618 364 4 24 RE7 MV11BU 3 26 RM 84 870 404 5 72 RMC L55BD 6 24 RXN 21E12ee 2 8 RC 87 618 368 4 24 RE7 MY13BU 3 20 RM 84 870 501 5 69 RMC N22BD 6 24 RXN 41G11ee 2 8 RC 87 619 222 4 25 RE7 MY13MW 3 20 RM 84 870 504 5 69 RMC V60BD 6 2
141. ND 2 COHU RHDZ Convergence to AND Logic functions AND OR NAND AHDOD HAHD AND function OR function NOT AND function NOR Jed XOR NOT HOR AOR HOT NOT OR function Exclusive OR function NOT function 1 Functional Block Diagram 2 Sequential Function Chart 6 8 Characteristics Product certifications Conformity with the low voltage directive Conformity with the EMC directive Degree of protection Zelio Logic smart relays Compact and modular smart relays Conforming to 73 23 EEC Conforming to 89 336 EEC Conforming to IEC 60529 UL CSA GL C TICK EN 61131 2 EN 61131 2 Zone B EN 61000 6 2 EN 61000 6 3 and EN 61000 6 4 IP 20 Overvoltage category Degree of pollution Ambient air temperature around the device Maximum relative humidity Maximum operating altitude Mechanical resistance Conforming to IEC 60664 1 3 Conforming to IEC EN 61131 2 2 Operation C 20 55 40 in enclosure conforming to IEC 60068 2 1 and IEC 60068 2 2 Storage 40 70 95 without condensation or dripping water Operation 2000 Transport 3048 Immunity to vibrations Immunity to mechanical shock IEC 60068 2 6 test Fc IEC 60068 2 27 test Ea Resistance to electrostatic discharge Immunity to electrostatic discharge IEC 61000 4 2 level 3 Resistance to HF interference Immunity Conducted and radiated emissions Connection to screw termina
142. Number Protocol profile Number of I O Reference Weight c per controller 1 kg l AS Interface master module 2 AS Interface M3 63 discrete modules max TWD NOI 10M3 0 085 for Twido programmable 7 analogue modules max controllers V 7 2 0 Connection accessories Description Length Reference Weight e kg E Flat cable for 20m XZ CB 10201 1 400 AS Interface bus yellow 50m XZ CB 10501 3 500 100 m XZ CB 11001 7 000 TWD NOI 10M3 1 When analogue and discrete modules are connected simultaneously to the network the analogue modules use addresses 1 to 31 in bank A When an analogue module uses a certain address the module addresses having the same number in bank B cannot be occupied for slaves in banks A B Presentation Twido programmable controller description Communication In order to communicate with an intelligent environment Twido compact and modular programmable controllers offer an RS 485 serial communication port on the module as well as an optional type RS 485 or RS 232 link These two ports allow Twido compact and modular controllers to use four communication protocols Programming Modbus ASCII and Remote link Compact base controllers have the following on the front panel EU 1 An RS 485 serial port with mini DIN type connector for connection to the programming terminal 2 A slot for fitting a 2 optional port RS 485 RS 232 using TWD NAC eee H UP adapters Compact base a 2 controller Modular
143. O contacts 4 N O contacts Common 2 1 N O contact 1 N O contact Common 3 a 1NO ta Minimum switching load LA 0 1 0 1 V reference value Contact resistance when new mt 30 max Loads resistive inductive A 2A 240 V or 2A 30 V with 1800 operations hour max electrical life minimum 100 000 operations mechanical life minimum 20 x 108 operations rms insulation voltage V 1 500 for 1 minute Consumption At state 1 Ov 24 30 36 ML 2V m a 55 AtstateO 5V mA 5 5 5 Precision s month 30 at 25 C Autonomy days Approximately 30 at 25 C with fully charged battery Battery type Lithium battery not interchangeable Charging time h Approximately 10 to charge from 0 90 96 of the full charge Life years 10 Memory type HE EEPROM Memory capacity 32 Save transfer program and internal words Yes Program size increase NO 1 Compact base controllers have only one cartridge slot therefore only one type of cartridge can be used References Twido programmable controller Compact base controllers Compact base controllers a co Number Inputs Outputs Program memory Reference Weight 9 of I O sink source kg i Vm 10 1 0 6 24 V inputs 4 relay outputs 700 instructions TWDLCAA10DRF 0 230 k 16 I O 9 24 V inputs 7 relay outputs 2000 instructions TWD LCAA 16DRF 0 250 24 I O 14 24 V inputs 10 relay outputs 3000 instructions TWD LCAA 24DRF 0 305 Separate componen
144. P 40 Dielectric strength Conforming to IEC 60255 5 kV 2 5 1 min 1 mA 50 Hz Creepage distance Conforming to IEC 60664 1 kV 4kV 3 and clearance Insulation coordination Conforming to IEC 60664 1 Overvoltage category III degree of pollution 3 4 kV 3 Vibration Amplitude Conforming to IEC 60068 2 6 Frequency Product certifications c UL us CSA Functions Schemes page 5 16 page 5 16 Functions schemes Control O phase imbalance asymmetry O phase sequence phase failure O voltage drop on one or more phases Asymmetry rate can be adjusted on the front panel from 5 96 to 15 6 of Un E Power supply 3 x 230 V and 8 x 400 V B Dual frequency 50 and 60 Hz indication of phase presence and relay state by yellow LED Relay output 2 C O contacts 8A Zelio Control measurement and control relays Phase asymmetry control relays self powered model RM 84 873 These relays monitor the correct sequencing of phases L1 L2 and L3 as well as a regeneration rate of 5 96 to 15 96 of Un When the phase sequence is correct the output relay is energised this is indicated by a yellow LED The relay de energises LED off if one of the following faults occurs incorrect sequence of phases at terminals L1 L2 and L3 voltage drop on one or more phases 100 Phase L1 0 100 Phase L2 100 Phase L3 11 14 21 24 Rela y 11 12 21 22 L
145. Pulse output adjustable of control contact U U C C R R T T T T 561179 561178 561178 e e e Dual function Multifunction Multifunction Li L A At B C H Ht Di D Ac Bw A At B C H Ht Di D Ac Bw 1s 10s 1min 10 min 1h 10h 100h 1 timed contact 1 timed contact 1 timed contact 8A 8A 8A RE 88 867 155 RE 88 867 100 E RE 88 867 103 0 080 0 080 0 080 RUZ 1D RUZ 1D RUZ 1D 0 067 0 067 0 067 EEE Connection schemes Timing relays with 1 relay output Timing relays with 2 relay outputs All functions except L and Li Functions L and Li Function A 1 Link between pins 2 and 6 for function L only Characteristics Dimensions pages 3 38 and 3 39 page 3 40 Characteristics Zelio Time timing relays Universal plug in relays 11 pin relay output width 35 mm Repeat accuracy Conforming to IEC 1812 1 0 5 Yo with constant parameters Drift Temperature t 0 05 96 C Voltage 0 2 V Full scale setting accuracy Conforming to IEC 1812 1 t 10 96 at 25 C Minimum duration of control Typical mso 30 impulse Typical under load ms 100 Maximum reset time Typical ms 100 by de energisation Immunity time Typical ms gt 10 to microbreaks Multivoltage supply Frequency Operating range Depending on version see pages 3 44 and 3 45 50 60 85 110 Un 85 120 Un for u 12 V On load factor 100 Maximum power Depending 24V 0
146. RA 8RT DRA 16RT DMM 8DRT DMM 24DRF Number of output channels 8 N O contacts 16 N O contacts 4 N O contacts 8 N O contacts Output currents Current per channel 2 Current per common E 8 7 Minimum switching load ce 0 1 0 1 V reference value Contact resistance when new 30 max Loads resistive inductive 2A 240 V or 2A 30 V with 1800 operations hour max electrical life minimum 100 000 operations mechanical life minimum 20 x 109 operations rms insulation voltage V v 500 for 1 minute Consumption At state 1 ov mA 30 45 See values above input channels for all the outputs 24V mA 40 75 See values above input channels At state 0 5V mA 5 5 See values above input channels 1 Consumption values are indicated for all inputs outputs at state O or at state 1 2 Source output positive logic sink output negative logic 1 21 References Twido programmable controller Discrete I O modules These discrete I O modules are mounted on symmetrical DIN rails to the right of the Twido base controller The maximum number of discrete and or analogue I O modules which may be mounted depends on the type of base controller Type of LCAA LCAA LCAA LMDA LMDA LMDA TWD base 10DRF 16DRF 24DRF 20DeK 20DRT 40DeK Number of 0 0 4 4 7 7 modules Discrete input modules B Input voltage No of No of Connection Reference Weight ias r channels common kg a point 1 24V 8 1 Removable TWD D
147. RM4 is on Table showing details for switch 4 Switch position Function Time delay t 0 Undercurrent detection No time delay 1 Undercurrent detection 0 05 to 1s lt 3 Undercurrent detection 0 15to 3s 10 Undercurrent detection 0 5 to 10s 30 Undercurrent detection 1 5 to 30s gt 0 Overcurrent detection No time delay gt Overcurrent detection 0 05 to 1s gt 3 Overcurrent detection 0 15to3s gt 10 Overcurrent detection 0 5to 10s gt 30 Overcurrent detection 1 5to 30s 1 Selection by switch on front face 2 Value of current difference between energisation and de energisation of the output relay of the current threshold to be measured References Characteristics Dimensions schemes Setting up page 5 48 page 5 50 page 5 51 5 46 Presentation continued Zelio Control measurement and control relays Current measurement relays model RMA J The supply voltage is connected to terminals A1 A2 The current to be monitored is connected to terminals B1 B2 B3 and C See diagram below Hysteresis is adjustable between 5 and 30 for overcurrent h IS1 1S2 IS1 for undercurrent h IS2 181 IS1 A measuring cycle lasts only 80 ms which allows rapid detection of changes in current Relay set for overcurrent detection RM4 JA01 or selector on gt for model RM4 JA36 If the current is gt the setting threshold IS1 the output relay is energised with or without a time delay depending on the model Wh
148. RT 12 sink source 6 relay Removable 1 x RS 485 7 modules 1 module 2 slots real time 2 source screw terminal option of display or clock and transistor block 1x HS 232C 485 serial link memory TWD LMDA 40DTK 24 sink source 16 source HE 10 1 x RS 485 7 modules 1 module 2 slots real time transistor connectors option of display or clock and 1x HS 232C 485 serial link memory TWD LMDA 40DUK 24 sink source 16 sink transistor HE 10 1 x RS 485 7 modules 1 module 2 slots real time connectors option of display or clock and 1x HS 232C 485 serial link memory 1 10 Description Twido programmable controller Modular base controllers Twido TWD LMDA e0 Dee base controllers comprise On the front panel 1 A hinged door 2 An analogue adjustment point 3 A connector for connection of the built in analogue input 4 A display block showing the status of the controller PWR RUN ERR and STAT the status of the inputs and outputs INi and OUTI 5 Amini DIN type RS 485 serial port connector allowing connection of the programming terminal 5 Two slots protected by a removable cover for memory cartridge TWD XCP MFKee and real time clock cartridge TWD XCP RTC 7 One or more HE 10 type connector s or screw terminal block for connection of the input sensors output preactuators 8 Screw terminals for connection of the 24 V mains power supply On the right hand side panel 9 Aconnector for I O expansion modules TWD Dee TWD
149. S GL DNV RINA Characteristics e Steel components are usually treated with zinc chromate and when they have a mechanical function they may also be painted e Insulating materials are selected for their high electrical dielectric and mechanical characteristics e Metal enclosures have a stoved paint finish applied over a primary phosphate protective coat or are galvanised e g some prefabricated busbar trunking components Limits for use of TC All climates treatment e TC treatment is suitable for the following temperatures and humidity Temperature C 20 40 50 Relative humidity 95 80 50 e It may also be used where the above limits are only exceeded accidentally or for very short periods or where temperature variations are not sufficient or fast enough to cause heavy condensation or dripping water on the equipment TC treatment is therefore suitable for all latitudes including tropical and equatorial regions where the equipment is mounted in normal ventilated industrial locations Being sheltered from external climatic conditions temperature variations are small the risk of condensation is minimised and the risk of dripping water is virtually non existent Extension of use of TC All climates treatment In cases where the humidity around the equipment exceeds the conditions described above where the equipment in tropical regions is mounted outdoors or where it is placed in a very humid location
150. S Interface 88 152 1 Management of slave modules 62 discrete 7 analogue Application memory capacity 700 instructions 2000 instructions 3000 instructions Cycle time Processing time 1 for 1000 logic instructions System overhead 0 5 Data memory Internal bits 128 256 Internal words 2 3000 Timers 2 64 128 Counters 2 128 Double words Yes Power supply Rated voltage 100 240 Voltage range 85 264 Maximum inrush current 35 40 24 V sensor supply mA 250 Maximum power 100 V VA 20 22 33 base with 4 I O expansion required modules 264 V VA 30 31 40 base with 4 I O expansion modules Communication Function Built in serial link Optional serial interface adapter 3 Port type RS 485 RS 232C with adapter TWD NAC 232D RS 485 with adapter TWD NAC 485e Maximum data rate K bits s 38 4 Isolation between internal circuit and serial port Not isolated Programming terminal connection Half duplex terminal port No Communication protocols Modbus Master Slave RTU ASCII character mode Remote Link I O Integrated functions Yes see page 1 37 4 Counter Number of points Frequency Capacity PID 24 I O base controllers 3 channels at 5 kHz function FCi 1 channel at 20 kHz function VFCi 16 bits 0 65535 points For controller versions 2 2 0 Event processing Analogue adjustment points 24 I O base controllers 10 16 24 I O base controllers
151. SZ L300 0 001 1 Standard control circuit voltages Volts 6 12 24 48 60 110 120 220 230 240 E HD JD BD ED ND FD 50 60 Hz B7 E7 F M7 P7 U7 For other voltages please consult your Regional Sales Office 2 To order a relay complete with socket sold in lots of 20 add suffix S to the references selected above Example RSB 2A080ee becomes RSB 2A080eeS Coil characteristics Control d c supply a c supply 50 60 Hz circuit Average Cod Operating voltage Average Cod Operating voltage voltage resistance limits resistance limits He at 20 Min Max at 20 C Min Max 1096 t 1596 V Q V V Q V V 6 90 RD 42 15 3 12 360 JD 8 4 30 6 POB Edd 24 1440 BD 16 8 61 2 400 B7 192 26 4 48 5700 ED 33 6 122 4 1550 E7 38 4 57 6 60 7500 ND 42 153 110 25 200 FD 77 280 120 10 200 F7 96 144 220 35 500 M7 176 264 230 38 500 P7 184 2 6 240 42 500 U7 192 288 RSZ R215 Characteristics Dimensions Schemes page 2 10 page 2 14 page 2 12 2 11 Schemes Zelio Relay plug in relays Interface relays 1 RSB 2A080ee RSB 1A120ee RSB 1A160ee a q 14 7 4 4 21 11 11 6 3 3 22 23 12 When using relay RSB 1A160ee with socket RSZ E1S48M terminals 11 and 21 14 and 24 12 and 22 must be linked Miniature relays 1 RXN
152. TEE E page 4 24 O Models RC 87 619 72 x 72 cdon EC DOr ED ree ee ME page 4 25 4 1 Characteristics Zelio Count counters Electromechanical hour counters 7 digits Counter type XBK H hour counters Display type Mechanical Function Hour counters Supply voltage V 24 10 96 50 Hz 115 10 50 Hz 230 10 50 Hz XBK H70000001M 0 56 XBK H70000002M 1 XBK H70000004M 0 08 Permanent Consumption Backup capacity m Number of digits m 7 Display precision m 99999 99 h Digit height uat 5 Counting mode Adding 1 100 of an hour Reset Without Inputs Function Validation Type Contact Conforming to standards EN 50081 2 EN 50082 2 VDE 0435 Product certifications UL CSA pending Temperature Operation C 10 50 Storage C 25 70 Degree of protection Conforming to IEC 529 IP 65 Vibration resistance Conforming to IEC 68 2 6 3 gn 10 to 150 Hz Shock resistance Conforming to IEC 68 2 27 30 gn 11 ms Protection against electric Conforming to IEC 536 Class Il shocks Mounting and fixing Flush mounting unit fixed by a self locking collar Connection Screw terminal block References Dimensions page 4 3 page 4 3 ET 560844 Heferences dimensions ih ra D XBK H7000000eM XBK H7000000eM e panel thickness 1 mm e 2 5 mm Zelio Count counters Electromechanical hour counters 7 digits Supply voltage Number o
153. TL11BU RE7 TM11BU RE7 MA11BU RE7 MV11BU Weight kg 0 150 0 150 0 150 0 150 Dimensions Rail mounting Screw fixing 80 N Y 89 5 Characteristics Schemes pages 3 24 and 3 25 pages 3 30 and 3 31 Function Ac Function Ae Function Af Function K Function Hf Remote control for partial External control for start of Asymmetrical On delay and Off delay Remote control for stop of stop of time delay time delay Off delay with external control time delay gt 1s 1 ee a 0 7 NEN Start C O Partial External vl NEM 15 18 25 28 stop control 15 16 25 26 tif he nan E i co C E Sat we H 1 CO 4518 15 16 C O 15 18 25 28 15 16 25 26 C O X1Z2 Partial stop time delay ti t1 t2 ta t3 t4 tr Function D Function L Function Li Function Lt Symmetrical flasher start Start with output in rest Asymmetrical flasher Start External control for partial with output in rest position position X2Z2 not linked with output in operating stop of time delay position X2Z2 linked Supy TTT Suppl Sumy NENEEEENENEEN sov o C O C O C O 15 18 25 28 Ss C O 15 18 25 28 15 18 25 28 15 16 25 26 15 16 25 26 15 16 25 26 t t tr ta ta tr 1 If the device has been stored de energised for more than a month it must be energised for about 15 seconds in order to activate it Subsequently it only takes 1 second to start the time delay A If this time is not
154. The electrical durability therefore becomes 1 5 106 operating cycles x 0 6 900 000 operating cycles References pages 3 26 to 3 29 Functions Zelio Time timing relays references Industrial single function relays schemes relay output width 22 5 mm Relay output 1 C O contact Multiple timing ranges Function A Function Wt Delay on energisation External control for start of time delay Sw w 9 NEN C O 15 18 25 28 Partial wo w 15 16 25 26 SER t C O 15 8 15 16 t Function H Function Hi Pulse on energisation Start on opening of external Start on energisation control contact Sumy NEN 7 So O C O Start 15 18 25 28 vz MN 15 16 25 26 EN C O 15 18 15 16 Function At External control for partial stop of time delay with memory aNNEEN Panal x NON NEN stop t t3 t2 15 16 t t t1 12 13 Function Ht External control for partial stop of time delay with memory Suv EENNNNNNNNNNNN Partial X1z2 Patil o INE 2 T Lt lie ss 560873 560873 560874 560874 A 4 a A a L a Functions A A Wt At Ac Ae Af Timing ranges 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 10 ranges 10 ranges 10 ranges 10 ranges Voltages Ore 24V e e e e 110 240 V e e e e v Or 42 48 V e e e Or e 24 240 V References RE7
155. U The PWM function block generates pulses of fixed frequency with a variable ratio between the high state and low state of the output signal The ON to OFF duration ratio is a dynamic Ge Vmbo 777 variable called PWM R with a range from O 96 to 100 96 b l Deretan pari PWM function blocks are assigned to outputs Q0 0 0 or Q0 0 1 on a base controller The PWM function can be used to control analogue module outputs The user defined PWM function block generates a signal on output Q0 0 0 or Q0 0 1 of modular base controllers see illustration opposite Varie perd 1 44 Characteristics Instructions Combinational List instructions Twido programmable controller TwidoSoft programming software LD LDN LDR LDF read the state of a bit direct inverse rising and falling edges ST STN S R write an output direct inverse set reset AND ANDN ANDR ANDF logic AND with a bit direct inverse rising and falling edges OR ORN ORR ORF logic OR with a bit direct inverse rising and falling edges LD AND OR open and close brackets 8 possible levels XOR XORN XORR XORF exclusive OR with a bit MPS MRD MPP buffer memory management for divergence towards output bits N negation Grafcet List instructions i step 1 xix 62 z zi initial step 1 lt i 62 i activate step i after deactivation of current step deactivate current step Di deactivate s
156. U00M 1 ol 1 O1 2 o2 2 o2 O O Characteristics page 4 4 Characteristics Counter type Zelio Count counters Electromechanical preselection counters 5 digits XBK P5 preselection counters Display type Mechanical Function Preselection counters Supply voltage V 24 t 10 96 Consumption WwW 2 5 Counting frequency Hz 25 Number of digits 5 Display capacity 99999 Digit height mm 4 Number of presets 1 Preset display Adding continuous or subtracting non continuous Counting mode Adding or subtracting Reset Adding from zero or subtracting from the preset value Reset type Manual or manual and electrical Type of input signals Contact 20 VA 220 V 1 A max Output type Contact volt free Connection Conforming to standards Product certifications Temperature Degree of protection Vibration resistance Shock resistance Protection against electric shocks Mounting and fixing Operation Storage Conforming to IEC 529 Conforming to IEC 68 2 6 Conforming to IEC 68 2 27 Conforming to IEC 536 By AMP lugs on a cable connector EN 50081 2 and EN 50082 2 EN 61010 XBK P5eeeDeeM CSA pending XBK P5eeeUeeM UL CSA pending 10 50 40 85 IP 40 5 gn 10 to 150 Hz 30 gn 6 ms Class Il Removable and flush mounting Fixing by screws on front panel References page 4 7 4 6 Dimensions
157. UN 21C RUN 31C RUN 21D RUN 31A RUN 33A Number and type of contacts 2 C O 3 C O 2 C O 3 C O 3 C O linked Contact materials AgNi Hard silver 10 u gold flashed Rated thermal current Ith For temperature 40 C A 10 t a Maximum operating rate No load 36 000 36 000 36 000 In operating cycles h Under load 3600 3600 3600 Switching voltage Minimum 10 Maximum V 4 250 250 Ae 250125 Breaking capacity Minimum A 50 50 1 Maximum 1000 Rated voltage Un 24 48 110 230 50 60 Hz other voltages available on request 12 24 48 110 other voltages available on request 3 5 e 2 3 VA 1 5 W 0 8 1 1 Un 50 Hz or 0 85 1 1 Un 60 Hz zo 0 15 Un 2 0 05 Un Average consumption Inrush v Sealed Permissible voltage variation Drop out voltage threshold Conforming to standards Standard version m EN 61810 1 Product certifications pending Standard version UL CSA Ambient air temperature Storage C 40 70 around the device Operation Cc I 20 40 20 60 Vibration resistance Conforming to IEC EN 68 2 6 4 gn 30 100 Hz Degree of protection IP 40 Shock resistance 10gn Mechanical durability In millions of operating cycles 20 Operating time Between coil energisation About 15 response time and making of the Abo
158. VA 10 operating cycles AC 15 Cos q 0 3 6000 operating cycles DC 13 L R 300 ms 6000 operating cycles S Time delay in the event of a fault 0 2 10 Max 10 15 Indication Power on Green LED Relay Yellow LED Enclosure na Self extinguishing PC Terminals Without cable end 2X25 With cable end mm 2x1 5 Tightening torque Nm 0 6 max Temperature limits Operation C 20 60 Storage C 30 70 Relative humidity 93 without condensation Vibration Amplitude mm 0 35 Frequency Hz 10 55 Insulation resistance Conforming to IEC 60664 1 MQ gt 100 at 500 V Dielectric strength kV 3 at 1 mA for 1 minute 50 Hz Product certifications m c UL us CSA Functions Dimensions Schemes page 5 20 page 5 20 page 5 79 Functions dimensions Control o phase imbalance asymmetry O phase sequence o disconnection of one or more phases with regenerated voltage equivalent to 95 of Un Asymmetry rate adjustable on front panel 5 to 20 96 E 3 phase power supply 3 x e 280 V and 8 x 400 V Dual frequency 50 and 60 Hz B Indication of phase presence and relay state by 2 LEDs lime delay in the event of a fault adjustable from 0 5 to 10 seconds Relay output HI 1 C O contact 8 A o 2 C O contacts 8 A T1 Delay after a fault T2 Delay on power down T3 Delay on power up Zelio Control measurement and control relays Phase asymmetry control relays s
159. WD NAC 485T TWD LMDA eeee TWD NOZ 485D TWD NOZ 232D TWD NOZ 485T 1 A A RTS A A 2 B B DTR B B 3 NPC NC TXD SG 0 V 4 DE NC RXD 5 DPT NC DSR 6 NPC NC OV 7 OV OV OV 8 5V 180 mA 5 V 180 mA 5 V 180 mA NC not connected NPC do not connect DPT 1 2 master If not connected the PUNIT protocol is used for communication with PCs at state 1 19200 bauds with no parity If connected to 0 V the communication parameters are those configured by the TwidoSoft software 1184 References Twido programmable controller dimensions Communication Serial link modules and adapters Description Compatibility Physical layer Connection Reference Weight kg Serial interface adapters Compact base controllers RS 232C Mini DIN TWD NAC 232D 0 010 TWD LCAA 16 24DRF connector Built in display module RS 485 Mini DIN TWD NAC 485D 0 010 TWD NAC 232D 485D Screw terminals TWD NAC 485T 0 010 Serial interface modules Modular base controllers RS 232C Mini DIN TWD NOZ 232D 0 085 TWD LMDA 20 40Dee connector RS 485 Mini DIN TWD NOZ 485D 0 085 connector TWD NAC 485T Screw terminals TWD NOZ 485T 0 085 Digital display and built in display module zzz Description Compatibility Characteristics Reference Weight kg Built in display module Modular base controllers Mounted on left hand side TWD XCP ODM 0 105 TWD LMDA 20 40Dee of base controller Enables adjustment and diagnostics of the programmable controller Can take a serial adapter
160. X2 and X4 on one side and between X1 and X2 on the other side pq The timing relay is placed in series with the load whose de energisation is to be delayed on one side and switch K on the other side The mains supply may be a c or d c and the voltage may be between 24 V and 240 V See function diagram on page opposite The timing relay is placed in series with the load whose de energisation is to be delayed Switch K is connected to terminals Y2 and A2 of the timing relay and terminal A2 is connected to the mains supply as indicated in the diagram opposite The device is operated from an a c mains supply whose voltage is between 24 V and 240 V See function diagram on page opposite Pulse on energisation Function H Selection of the timing range X3 X4 not linked range 3 s 300 s Xi X3 X4 T factory configuration K pt A1 L Air1A2 X3 X4 linked range 0 1 s 10 s asandll me g RE9 MS Supply n Link to be made between terminals X1 and X4 Symmetrical flasher Start with output in the operating position Function Di I X2 X3 X4 Lond K 71 Peel ipee EB ee RE9 MS E Supply n Link to be made between terminals X1 and X4 Note For supply voltages greater than 30 V the rated voltage of the load is equal to the supply voltage For a supply voltage of 24 V the voltage drop within the RE9 relay must be taken into account about 3 V a coil with a nominal voltage of 21 V must ther
161. act 1 common spring terminal 2 A Ith Outputs block E rF 2 commons n EE wy Separate component T Description Type TWD module Reference Weight TWD DDM 8DRT TWD DDM 24DRF m GOmpgupHiy kg Wiring system TwidoFast DDI 16 32DK See page 1 38 Telefast DDO 16eK 32eK Replacement parts Description Type TWD module Reference Weight compatibility kg Screw 10 contacts DDI eDT TWD FTB 2T10 terminal blocks DRT eRT sold in DDO 8eT lots of 2 11 contacts DMM 8DRT TWD FTB 2T11 1 22 Dimensions connections 24 V input modules TWD DDI 8DT v 2 H O The COM terminals are linked internally TWD DDI 16DT uu oe Ls 1 2 as O The COM terminals are linked internally 1 Source input negative logic 2 Sink input positive logic Twido programmable controller Discrete I O modules Discrete I O modules C 70 a TWD a C ir 7 DDI 8DT 16DT 23 5 14 6 Li DDI 16DK 17 6 11 3 DDI 32DK 29 7 11 8 j ile go DDO 8UT 8TT 23 5 16 6 DDO 16UK 16TK 17 6 11 3 DDO 32UK 32TK 29 7 11 3 DRA 8RT 16RT 23 5 14 6 DMM 8DRT 23 5 14 6 DMM 24DRF 39 1 1 0 fins ERE H a 4 5 TWD DDI 16DK no BE cou oL Bue vB O The COM terminals are linked internally TWD DDI 32DK O The COMO terminals are linked internally o The COMI terminals are linked internally Connections continued Twido programmable controller Dis
162. acts 2 timed contacts 1 convertible to instantaneous Rated current 8A 8A 8A Voltages 24V 24 240 V RE 88 867 305 RE 88 867 415 RE 88 867 435 c 12V 12 240 V Weight kg 0 080 0 080 0 080 Socket 1 11 pin RUZ 1A RUZ 1A RUZ 1A Weight kg 0 067 0 067 0 067 1 These products are sold in packs of 10 Dimensions and connection schemes Dimensions Characteristics Dimensions pages 3 42 and 3 43 page 3 45 3 44 Function Bw Function At Pulse output adjustable 2 timed contacts or 2 timed contacts 1 of which convertible to instantaneous memory Timing on energisation with 2 timed contacts or 2 timed contacts 1 of which Function H Timing on energisation 2 timed contacts or 2 timed contacts 1 of which convertible to instantaneous convertible to instantaneous Function D Flashing relay Start after pause 2 timed contacts or Function L Asymmetrical recycler Start after pause 2 timed contacts 2 timed contacts 1 of which convertible to instantaneous U U U U U C C R1 R2 R1 R2 R1 R2 T 1 912 R R1 R2 R2 Inst R2 Inst R2 Inst T t14 t2 Function Li Asymmetrical recycler Pulse start 2 timed contacts R1 R2 561180 561182 561182 e e e Dual function Multifunction Multifunction Li L A At B C H Ht Di D Ac Bw A At B C H Ht Di D Ac Bw 1s 10s 1min 10 min 1h 10h 100h 2 timed contacts 2 timed contacts 1 conve
163. ammable controllers length 2 5 m TwidoSoft software packages Description Reversible PC Reference Weight languages connection cable 1 kg TwidoSoft Ladder TSX PCX 1031 TWD SPU 1001 V10M multi language Instruction List packs Without TWD SPU 1002 V10M Separate components Description Application Reference Weight From To kg Connecting All USB port on the PC 2 TSX PCX 3030 cables Twido controllers with TwidoSoft software installed Serial port on the PC TSX PCX 1031 with TwidoSoft software installed TwidoPack kits Schneider Electric offers two TwidoPack kits to help you discover and become familiar with the new range of Twido programmable controllers TwidoPack which is inexpensive and easy to use is available in two versions each comprising m A Twido base controller B A set of options B A TwidoSoft software package with cable TWD SPU 1001 V10M m A teach yourself E Learning CD Rom Description Twido base Options Reference Weight controller 3 kg TwidoPack Compact 10 I O Real time clock TWD XDP PAK1e Compact TWD LCAA 10DHF cartridge 100 240 V TWD XCP RTC relay outputs 6 input simulator TWD XSM 6 TwidoPack Modular 20 I O Real time clock TWD XDP PAK2e Modular TWD LMDA 20DTK cartridge 24V supply TWD XCP RTC transistor outputs Built in display module TWD XCP ODM Serial interface adapter TWD NAC 485T Pre formed cable 3 m TWD FCW 30M User documentation Descrip
164. ammable controllers consists of selecting options for the controller s hardware and software resources These resources can be adapted at any time while creating a program m Hardware resources allow the user to define the type and number of Twido components in a configuration base controller remote controllers I O expansion modules and optional modules B Software resources consist of configurable and non configurable functions Function blocks also called variables are blocks created in memory to execute automation functions which will be used by the program For example when configuring a counter function block memory addresses in the controller are assigned to represent the values associated with the parameters of this counter current values preset values Other software resources are called internal memory blocks such as bits words constant words system words network exchange words These resources are configured using TwidoSoft software 1 41 Functions continued ENIM APE eee ee ee ee ek eee ee ALa La LETH THE i t a LILE os Ala LI r3 IS IS COKEENKT OF d LINE hi E MXFLE rT we IT 15 IGHORED FELF EEWEFZIBT TO LRDDEE k i HEEFT I5 15 4 I X CIE IT 15 IGMORED WEEF FEWVEFZISZ TO LADDEE a Le TALHZS OHLY MAE TITLE a THIS 1 amp iD a BEBRFT OB i LIFE LPL HAT s IF 1 amp 1ORORED WERE FRNRERIE Labbei Li 1 42 Twido
165. ance Degree of protection Terminal block IP 20 conforming to IEC 529 Enclosure IP 40 Front panel IP 50 Vibration resistance Conforming to IEC 68 2 6 20 555 Hz A 0 35 mm Relative humidity Conforming to IEC 68 2 3 93 96 without condensation Electromagnetic compatibility Immunity to electrostatic discharge conforming to IEC 1000 42 Level Ill Air 8 kV Contact 6 kV Immunity to electromagnetic fields conforming to ENV 50140 204 IEC 1000 4 3 Immunity to fast transients in bursts conforming to IEC 1000 4 4 Level Ill 10 V m 80 MHz 1 GHz Level Ill direct 2 kV capacitive connecting clip 1 kV Immunity to surges on the power supply conforming to IEC 1000 4 5 Level Ill common mode 2 kV differential mode 1 kV Immunity to radio frequency interference in common mode conforming to ENV 50141 IEC 1000 4 6 Level Ill 10 V rms 0 15 80 MHz Immunity to voltage dips and breaks conforming to IEC 1000 4 11 30 96 10 ms 60 100 ms gt 95 5s Radiated and mains conducted Class B disturbance conforming to EN 55022 EN 55011 Group 1 Fixing Plug in socket 11 pin Enclosure material Self extinguishing References pages 3 44 and 3 45 Dimensions page 3 44 Schemes page 3 45 3 43 References Zelio Time timing relays dimensions Universal plug in relays 11 pin schemes relay output width 35 mm Relay output
166. and L2 It operates during loss of L3 phase inversion or voltage drop Its purpose is to avoid spurious triggering of the output relays during transient states notably during motor starting References Characteristics Schemes page 5 21 page 5 21 page 5 79 5 20 561000 References Zelio Control measurement characteristics and control relays Phase sequence and loss of phase control relays model RM 84 873 Phase sequence and loss of phase control relays Voltage Setting range Reference Weight V kg m 3x 230 V 180 260 RM 84 873 010 0 350 rasche 3 x 400 V 320 460 RM 84 873 012 0 350 3 x 480 V 380 550 RM 84 873 015 0 350 3x 575 V 460 660 RM 84 873 016 0 350 RM 84 873 010 Supply ES Self powered terminals L1 L2 Operating range 0 7 1 2 x Un Frequency 50 60 Maximum consumption 6 Immunity to microbreaks ms 10 Delay on pick up ms 500 Creepage distance Conforming to IEC 60664 1 kV 4kV 3 and clearance Measurement input resistance kQ 1 at Un Regeneration rate max 70 of the threshold setting Undervoltage detection symmetrical drop 20 of the threshold setting Threshold setting accuracy 10 Output type 2 C O contacts AgCdO Breaking capacity 2000 VA 80 W Maximum breaking current A ad Minimum breaking current mA 100 Maximum switching voltage V 250 Electrical life AC 12 2000
167. and clearance Vibration Amplitude mm 0 35 peak Conforming to IEC 60068 2 6 Frequency Hz 10 55 Product certifications c UL us CSA Functions Scheme page 5 18 page 5 18 Functions dimensions Control EH phase sequence HI loss of one or more phases o undervoltage Senses its own supply voltage Potentiometer for adjustment of mains power lime delay in the event of a fault adjustable 0 2 to 10 s E Relay output 2 C O contacts 8 A E Power on and relay state indication by 2 LEDs Zelio Control measurement and control relays Phase sequence and loss of phase control relays model RM 84 873 On a 3 phase supply this relay simultaneously monitors phase sequence loss of a phase with a maximum regeneration rate of 70 96 of the voltage indicated by a potentiometer on the front panel and symmetrical voltage drop on the 3 phases of less than 20 96 of the preset value When the 3 phases are in sequence the output relay is energised and this is indicated by a yellow LED The output relay de energises LED off after a time delay T adjustable between 0 2 and 10 s on the front panel if one of the following faults occurs reversed direction of phase rotation absence of one or more phases voltage drop A U L1 V L2 L tes es 20 _ W L3 l l R1 R2 ua a M 8 GNNNNNND Note Time delay T is not operational during loss of L1
168. andard and extended Product certifications Degree of protection AS Interface n 47801 IP 20 Altitude Operation 0 2000 Transport 0 3000 Temperature Relative humidity Operation 0 55 Storage 25 70 30 to 95 without condensation Degree of pollution 2 conforming to IEC 60664 Immunity to corrosion Vibration Mounted on 1 r rail resistance Plate or panel mounted using fixing kit TWD XMT5 Shock resistance Free of corrosive gases 10 57 amplitude 0 075 mm 57 150 acceleration 9 8 m s for 2 hours on all 3 axes 2 25 amplitude 1 6 mm 25 100 acceleration 39 2 m s for 90 minutes on all 3 axes 147 15 gn duration 11 ms on all 3 axes As Interface external power supply Internal current At 5V At 24 V AS Interface consumption at 24 V As Interface bus With 1 to 19 slaves ms 3 cycle time With 20 to 62 slaves ms 0 156 x 1 N where N number of active slaves With 31 standard slaves or slaves in banks A amp B 5 With 62 slaves in banks A and B 10 Max no of Analogue modules 1 7 modules Discrete modules 1 62 Max no of I O Standard slaves 248 124 inputs 124 outputs Slaves in banks A and B 434 248 inputs 186 outputs Max length of Without splitter block or extension m 100 AS Interface cable With a total of 2 splitter blocks or extensions m 300 AS Interface bus voltage V 30 a Description
169. apacity Minimum mA 5 5 5 2 Maximum VA 3000 2500 1500 1500 Rated voltage Un M 24 230 50 60 Hz 12 110 Average consumption v 1 6 0 9 Permissible voltage variation 0 8 1 1 Un 50 60 Hz or Drop out voltage threshold v 20 15 Un m gt 0 1 Un Conforming to standards Standard version IEC 61810 1 Product certifications pending Standard version UL CSA Ambient air temperature Storage C 40 4 85 around the device Operation 40 70 N 40 4 55 Vibration resistance Conforming to IEC 68 2 6 gt 5 gn 10 150 Hz Degree of protection IP 40 Shock resistance 10 gn closing 5 gn opening Mechanical durability In millions of operating cycles gt 20 220 Operating time Between coil energisation About 12 response time and making of the About 12 On delay contact Between coil de v E About 12 energisation and making ms About 4 of the Off delay contact Electrical durability Resistive load 12A 250V 20 1 10A 250V 20 1 6A 250V 20 1 In millions of operating cycles h Inductive load See curves below Rated insulation voltage Ui Conforming to IEC 947 V 250 Insulation class Conforming to VDE 0110 C 250 B 250 Dielectric strength Between coil and contact V 2500 rms voltage Between poles V
170. atibility is PNP and NPN Telemecanique sensors or other sensors without an internal supply Potentiometer for connection Type Linear at 20 between terminals Z1Z2 2322 Resistance kQ 47 20 Power W 0 2 Maximum distance m 25 by shielded cable shielding linked to terminal Z2 a c load Curve 1 Electrical durability of contacts on resistive load in millions of operating cycles o 10 x 3 5 O gt o o t g E c E ne m o 1 5 Q xe Oo o 5 tc o c 9 0 0 01 6 8 Current broken in A RE7 RBeeMW Example Curve 2 Reduction factor k for inductive loads applies to values taken from durability curve 1 1 0 9 0 8 0 7 0 6 0 5 0 4 d c load Load limit curve 5 1 038 0 66 005 0 4 0 3 0 2 0 1 02 05 4 2 10 20 Power factor on breaking cos Current in A RE7 RBeeMW L R 20 ms L R with load protection diode Resistive load on D gt An LC1 F 185 contactor supplied with 115 V 50 Hz for a consumption of 55 VA or a current consumption equal to 0 1 A and cos 9 0 3 For 0 1 A curve 1 indicates a durability of approximately 1 5 million operating cycles As the load is inductive it is necessary to apply a reduction coefficient k to this number of cycles as indicated by curve 2 For cos o 0 3 k 0 6
171. ation Pulse on energisation Suppl Sup TE Suppl L NENNEN Load EE Control ENS Load t contact K t An Load Function Di Function D Symmetrical flasher start Symmetrical flasher start with output in operating with output in rest position position Supply 00 Control M Control contact K contact K NENNEN O NENNEN Load 560854 560855 560855 Functions A C A H D Di Voltages or n 24 240 V e e A 24 240 V e e H D Di Timing ranges 0 1 s 10s RE9 TA11MW RE9 RA11MW7 RE9 MS21MW 0 3 s 30 s RE9 TA31MW RE9 RA31MW7 3 s 300 s RE9 TA21MW RE9 RA21MW7 RE9 MS21MW 40 s 60 min RE9 TA51MW RE9 RA51MW7 Weight kg 0 110 0 110 0 110 Rail mounting Screw fixing 80 89 5 AMAA 82 a Characteristics Schemes pages 3 8 and 3 9 page 3 11 Schemes Zelio Time timing relays Industrial relays solid state output width 22 5 mm RE9 TA P RE9 TA Load gt M L 71 Supply or a RE9 RA RE9 RA Load A1 L m Y2 K A2 P Supply or RE9 MS Delay on energisation Function A E X3 X4 gad gt A1 L A117 A2 HUM i RE9 MS T Supply or Symmetrical flasher Start with output in the rest position Function D Ti X1 X2X3 X4 Load K E AA A L ALI A2 a RE9 MS i Supply Link to be made between terminals
172. ation of the output relay of the voltage threshold to be measured References Characteristics Dimensions schemes Setting up page 5 28 page 5 29 page 5 30 page 5 31 5 26 Presentation continued Zelio Control measurement and control relays Voltage measurement relays model RM4 U The supply voltage is connected to terminals A1 A2 The voltage to be monitored is connected to terminals B1 B2 or B3 and C Hysteresis is adjustable between 5 and 30 for overvoltage h US1 US2 US1 for undervoltage h US2 US1 US1 A measuring cycle lasts only 80 ms which allows rapid detection of changes in voltage Relay set for overvoltage detection RM4 UAOe or selector on gt for model RM4 UA3e If the voltage is gt the setting threshold US1 the output relay is energised with or without a time delay When the voltage returns to a value US2 below the threshold depending on the hysteresis setting the relay is instantaneously de energised Relay set for undervoltage detection selector on lt model RM4 UA3e only If the voltage is the setting threshold US1 the output relay is energised with or without a time delay When the voltage returns to a value US2 above the threshold depending on the hysteresis setting the relay is de energised Function diagrams Overvoltage control Function gt U supply A1 A2 Voltage US1 measured Relay 1518 25 28 25 26 t time
173. ay output 8 A 250 V 10 A UL Screw or spring terminals U U U State indication by 1 LED R R i R Option of supplying a load in parallel T T 14 T2 3 wire sensor control option Function B Function L Function Di Timing on impulse one shot Asymmetrical recycler Flashing relay Start after pause Pulse start U U U C H H B T 14 T2 Tel lt oo T 561172 N N ds JS o 1 561171 ie ae RE m s a r i e o o gt Connection Screw terminals e e e Spring terminals Functions Multifunction Dual function Single function A At B C H Ht Di D A At B Ac Bw Timing ranges 7 ranges 1s 10s 1min 10min 1h 10h 100h Selectable interswitching time Rated current 8A 8A 8A Voltages 24V 24 240 V RE 88 865 105 RE 88 865 115 RE 88 865 125 12V 12 240 V 230 380 V Weight kg 0 090 0 090 0 090 Dimensions f Characteristics Schemes pages 3 16 and 3 17 page 3 19 ana Function C Function At Function Ht Function D Function Bw Off delay Timing on energisation Delay on energisation with Flashing relay Pulse output adjustable with memory memory Start after pause U U C C C H H Me oo T ti t2 t1 t2 T T T t14 t2 T t14t2 Function Ac Function Q Timing after closing opening Star delta starting of control contact U U C R T Ti H T T LR LER even RE LEE im P e in m L m T
174. base controllers have the following on the front panel Gd 1 An HS 485 serial port with mini DIN type connector for connection to the TWD NAC TWD NAC programming terminal 485D 232D 485T The slot for fitting a 2 optional port RS 485 RS 232 using adapters TWD NAC eee is located behind the removable cover 2 of a TWD NOZ eeee interface module 3 or a TWD XCP ODM display module 4 ES X The interface and display modules connect to the left hand side of modular base IAE controllers Twido controller communication ports Or Serial port Optional port 2 port RS 485 RS 485 RS 232 RS 485 i mini DIN mini DIN mini DIN screw r terminal block Compact All compact TWD NAC 485 D TWD NAC 232 D TWD NAC 485 T TWD NOZ eeee TWD XCP ODM Modular base base base controllers 1 2 1 controller controllers TWD LCAA eeee Modular All modular TWD NOZ 485 D TWD NOZ 232 D TWD NOZ 485 T or base base controllers 1 2 1 3 controllers TWD LMDA eeee or or or TWD NAC TWD NAC TWD XCP ODM TWD XCP ODM TWD XCP ODM 485D 232D 485T TWD NAC 485D TWD NAC 232D TWD NAC 485T 1 With max cable length 200 m 2 With max cable length 10 m If the RS 232 physical layer is used for a length greater than 10 metres use the HS 485 physical layer and an RS 485 RS 232 conversion module reference XGS Z24 Serial link Optional link RS 485 RS 485D RS 232 D RS 485T OO TWD LCAA eeee TWD NAC 485D TWD NAC 232D T
175. bient air temperature Storage 40 70 around the device Operation 20 50 Vibration resistance Conforming to IEC 68 2 6 gt 5 gn 30 150 Hz Degree of protection IP 40 Shock resistance 20 gn Mechanical durability In millions of operating cycles 20 Operating time Between coil energisation About 12 response time and making of the About 12 On delay contact Between coil de N About 12 energisation and making About 4 of the Off delay contact Electrical durability Resistive load 5A 250V 20 1 In millions of operating cycles h Inductive load See curves below Rated insulation voltage Ui Conforming to IEC 947 V 250 Insulation class Conforming to VDE 0110 A 250 Dielectric strength Between coil and contact 2000 rms voltage Electrical durability of contacts lt Between poles 2000 V 1500 Reduction coefficient for inductive load Between contacts d Breaking capacity on a resistive load Resistive load depending on power factor cos q 107 1 5 gt D 08 l 4 5 o 3 S 8 0 6 5 2 2 5 I 3 1 a E 0 7 O 106 c 0 5 5 0 4 0 4 8 0 3 E 0 2 D 0 1 S 105 0 20406080 120 160 200 250 a 0 1 2 0 2 Voltage Switching capacity KVA Cos o Durability inductive load durability resistive load x reduction coef
176. crete I O modules Transistor output modules TWD DDO 8UT TWD DDO 8TT TWD DDO 16UK TWD DDO 16TK Terminals Terminals O COM are linked internally O COM are linked internally o COMO are linked internally o COMO are linked internally o COM are linked internally o COM are linked internally O V are linked internally H V are linked internally O VO are linked internally H VO are linked internally O V1 are linked internally H V1 are linked internally am Connections continued Twido programmable controller Discrete I O modules Relay output modules TWD DRA 8RT TWD DRA 16RT Q7 T 1 2 Terminals o COMO are linked internally o COMI are linked internally o COMO and COM are independent 1 Sink output negative logic 2 Source output positive logic Mixed input output modules TWD DMM 8DRT TWD DMM 24DRT o The COM terminals are linked internally o Terminals COMO COM1 and COM2 are independent H Terminals V are linked internally 1 Source input negative logic 2 Sink input positive logic 3 Sink output negative logic 4 Source output positive logic Twido programmable controller Analogue I O modules 2 inputs 1 output Voltage current Removable screw terminal block 0 10 V non differential 4 20 mA differential 12 bits 4096 points
177. d 10 RUZ 7D 0 069 timer Accessories Description Unit reference Weight lots of kg Maintaining clamp for octal undecal 25 RUZ 200 0 001 Maintaining clamp for flat pin 25 RUZ 210 0 001 1 Standard control circuit voltage For other voltages please consult your Regional Sales Office Volts 12 24 48 110 230 RUN 21 and RUN 31 JD BD ED FD RUN 33 BD ED 50 60 Hz RUN 21 RUN 31 B7 E7 F7 P7 and RUN 33 2 Modules for use with sockets RUZ 7A or RUZ 7D Coil characteristics Control d c supply a c supply 50 60 Hz circuit Average Cod Operating Average Cod Operating voltage UC resistance voltage limits resistance voltage limits at 20 C Min Max at 20 C Min Max R9200 10 15 V Q V V Q V V 12 96 JD 9 6 19 2 24 384 BD 192 26 4 73 7 B7 204 26 4 48 1336 ED 38 4 52 8 305 E7 408 54 8 110 7660 FD 88 121 1710 F7 93 5 121 230 7500 P7 196 253 Characteristics Dimensions Schemes page 2 4 page 2 15 page 2 13 2 5 Characteristics Zelio Relay plug in relays Miniature relays Relay type RXL 2A12Beee RXL 3A10Beee RXL 4A06Beee RXL 4G06Beee Number and type of contacts 2 C O 3 C O 4 C O Contact materials AgNi AgNi AU 5 uw Conventional rated For temperature lt 40 C pei nn LENS 6 thermal current Ith Maximum operating rate No load 18000 In operating cycles h Under load 1200 Switching voltage Minimum 5 Maximum 250 250 Breaking c
178. de energised for more than a month it must be energised for about 15 seconds in order to activate it Subsequently it only takes 1 second to start the time delay A If this time is not complied with the relay remains energised indefinitely 560902 560903 560904 560904 Functions A Ac C K Timing ranges 0 05 s 300 h 0 05 s 300 h 0 05 s 300 h 0 05 s 10 min 10 ranges 10 ranges 10 ranges 7 ranges Voltages orn 24V e e e 110 240 V e e e Or 42 48 V e e e Or e 24 240 V e References RE7 TP13BU RE7 MA13BU RE7 RL13BU RE7 RB13MW symmetrical low level contact Weight kg 0 150 0 150 0 150 0 150 Dimensions Rail mounting Screw fixing 80 i Characteristics Schemes pages 3 24 and 3 25 pages 3 30 and 3 31 Function H Function Hi Function Qt Function Qg Function D Pulse on energisation Start on opening of external Timing relays for star delta Timing relays for star delta Symmetrical flasher start Start on energisation control contact starters starters with output in rest position soy H J So Sly Seely ONG C O Start CO 1518 CO1 ims C co 15 18 25 28 15 16 25 26 t see C O2 17 28 C O2 S526 Ed C O 15 18 star K1 15 16 K1 star delta K3 t K3 delta t 50 ms t 50 ms Function Di Symmetrical flasher start with output in operating position Suey C ENNNNENEN C O MEM 560906 560907 560907 560908 560908
179. delay Undervoltage control Function lt U supply A1 A2 o M 1 US2 Volt 9 age Us measured Relay i 25 28 25 26 t time delay Note the measurement ranges can be extended above 500 V by adding a resistor see page 5 31 The measurement range on supply can be extended by means of a voltage transformer the secondary of which is connected to the measuring terminals of the corresponding RM4 References Characteristics Dimensions schemes Setting up page 5 28 page 5 29 page 5 30 page 5 31 5 27 Heferences Zelio Control measurement and control relays Voltage measurement relays model RM4 U e Time delay Voltage to be Width Output Basic reference Weight measured relay to be completed by depending on adding the voltage connection code 1 v Of V mm kg Without 0 05 0 5 22 5 1 C O RM4 UAO1e 0 168 0 3 3 0 5 5 RM4 UA01 1 10 22 5 1 C O RM4 UA02e 0 168 5 50 10 100 30 300 22 5 1 C O RM4 UA03e 0 168 50 500 Adjustable Voltage to be Width Output Basic reference Weight time delay measured relay to be completed by depending on adding the voltage connection code 1 Of S V mm kg 0 05 30 0 05 0 5 22 5 2 C O RM4 UA31ee 0 168 0 3 3 0 5 5 1 10 22 5 2 C O RM4 UA32ee 0 168 5 50 10 100 30 300 22 5 2 C O RM4 UA33ee 0 168 50 500 1 Standard supply voltages RM4 UAOe Volts 24 110 1
180. dth 17 5 mm schemes Solid state output Multifunction or single function Function A Function H Function Li m Multi range 7 switchable ranges Delay on energisation Timing on energisation Asymmetrical recycler B Multivoltage Pulse on energisation Pulse start B Solid state output 0 7 A 250 V 0 5 A UL Screw terminals U U U State indication by 1 LED B T T 14 12 Function B Function L Function Di Timing on impulse one shot Asymmetrical recycler Symmetrical flasher start Start after pause with output in operating position U U U C H H T 1 4 T2 Tet E H oo T ppt es R Uu Um es ELL Connection Screw terminals e e Functions Multifunction Single function A At B C H Ht Di D Ac Bw A Timing ranges 7 ranges 1s 10s 1min 10 min 1h 10h 100 h Rated current 0 7A 0 7A Voltages 24 240 V 50 60 Hz RE 88 826 004 24 240 V J 50 60 Hz RE 88 826 014 Weight kg 0 060 0 060 Dimensions 3 5 44 45 Characteristics Schemes pages 3 4 and 3 5 page 3 7 3 6 560848 Function C Function At Function Ht Function D Function Bw Off delay with control Timing on energisation Delay on energisation Symmetrical flasher start Pulse output adjustable contact with memory with memory with output in rest position U U U U C C C R C R R R TeT oo T ti t2 t1 t2 T T T t14 t2 T t14 t2 Function Ac Timing after closing opening of control contact 560849 e e
181. e 5 A connector on the RH side for I O expansion modules TWD Dee and TWD Aee 4 or 7 depending on version 5 Alatching mechanism for attachment to the previous module 7 A power supply removable screw terminal block TWD NOI 10M3 master module connections As Interface flat cable 1 32 Diagnostics characteristics references 0 4d om d wi d wid oa S Twido programmable controller Master module for AS Interface bus The 30 pilot lights on the front panel of the module are used in conjunction with the two pushbuttons for diagnostics by the Twido controller The display block on the front panel of master module TWD NOI 10M3 allows simplified local diagnostics to be performed by displaying the slaves present on the AS Interface bus The AS Interface bus is configured using TwidoSoft software see pages 1 40 to 1 47 The services offered are based on the principle of simplicity o Management of profile tables parameters and data by the master management transparent to the user o Topological addressing of I O any AS Interface slave defined on the bus has a topological address assigned to it on the bus in a way that is transparent to the user o Each AS Interface module sensor actuator is seen by the Twido programmable controller in the same way as any In rack I O Module type TWD NOI 10M3 AS Interface profile AS Interface M3 V 2 11 profile S 7 4 not supported Type of addressing St
182. e 5 72 m Underspeed control relays mode IRANDA rA E ccc M LUE page 5 75 m Motor load control relays mmodo Bd emu cU MMC UE page 5 77 5 1 Zelio Control measurement and control relays RM4 Teee RM 84 873 010 RM 84 873 211 RM 84 873 004 RM 84 873 201 RM 84 873 299 RM 84 873 3060 RM 84 873 5ee 5 2 Control overvoltage 50 mV 5 V v 1 0 100 V 30 0 500 V 1 C O contact 22 5 mm 5 28 Control overvoltage or undervoltage 50 mV 5 V 0 2 60 V v 1 100 V 15 600 V 30 500 V 0 2 60 V 15 600 V or 20 80 V or 652 260 V 1 or 2 C O contacts 1 C O contact 45 mm 5 35 5 37 Control overvoltage and undervoltage 2 C O contacts 22 5 mm 5 41 Control overcurrent 1 20 A with built in TI 1 C O contact 17 5 mm 5 45 Telemecanique 3 mA 1 A 22 5 mm 5 48 Control overcurrent and undercurrent 3 mA 1A 0 3 15 A 2 500 mA 2 500 mA 0 1 10 A 0 1 10 A 10 100 A with built in TI 1 or 2 C O contacts 45 mm 5 53 5 37 5 3 Selection guide Zelio Control measurement and continued control relays RM 84 870 1601 RM 84 870 300 RM4 Leeee RM 84 870 807 RM 84 870 00e Telemecanique RM 84 870 506 RM 84 870 604 RM 84 870 40e RM 84 874 30e RM 84 873 406 RM 84 870 808 Telemecanique E Zelio Control measurement and control relays Relays model RM4 General characteristics Conformin
183. e Conforming to IEC 664 1 kV 5 wave 1 2 50 us IEC 1812 1 State indication by 2 LEDs Green Operating state indication green LED uu Pulsing relay energised no timing in progress except Di D and Li L meee Flashing timing in progress p On steady relay energised no timing in progress Yellow On delay relay Input type V Volt free contact no potential Control possible by 3 wire sensor with PNP output maximum residual voltage 0 4 V whatever the supply voltage of the timer References Dimensions Schemes pages 3 18 and 3 19 page 3 18 page 3 19 Characteristics continued Conforming to standards Zelio Time timing relays Industrial single or multifunction relays relay output width 22 5 mm IEC 1812 1 EN 50081 1 2 EN 50082 1 2 LV directives 73 23 EEC 93 68 EEC C marking EMC 89 336 EEC IEC 669 2 3 Product certifications c UL us CSA GL except RE 88 865 503 Temperature limits Operation 20 60 Storage 90 60 Creepage distance Conforming to IEC 60664 1 kV 4 kV 3 and clearance Degree of protection Terminal block IP 20 conforming to IEC 529 Enclosure IP 40 Front panel IP 50 Vibration resistance Conforming to IEC 68 2 6 f 10 55 Hz A 0 35 mm Relative humidity Conforming to IEC 68 2 3 93 96 without condensation Electromagnetic compatibility Immunity to electrostatic discharge conforming to IEC 1000 42 Level Ill Air 8 kV Contact 6 kV Immunity to electromagnetic fields
184. e EAT ME Ear MM TIE UU page 5 21 m Voltage control relays for 3 phase supply modeled ono cM TM LEM page 5 25 m Voltage measurement relays model RM4U page 5 28 m Voltage control relays with memory self powered model RM 84872 ccc ee ees page 5 33 m Voltage control relays model RM 84 872 000200 ee page 5 35 Bm Voltage current control relays with display models RM 84 872 and RM 84 871 0 00 eee ee page 5 37 m Voltage control relays model RM4U 00000 00 ee page 5 41 m a c current control relays model RM 84 871 page 5 45 B Current measurement relays model RM4J page 5 48 B Current control relay model RM 84 871 4 4 page 5 53 m Liquid level control relays low and high sensitivity medela od orc CPU M M MM page 5 55 m Plug in liquid level control relays preesse ir E page 5 57 B Liquid level control relays model RM4 0005 page 5 60 m Liquid level control relays Modol RM ed a0 sc I A page 5 65 m Liquid level control relays with alarm aodellaNedq az c ME page 5 67 m Liquid level control relays combined empty fill functions model HM 84 87O cc erre ee oe ie a ee eae ee aon eee as page 5 69 m Plug in liquid level control relays combined empty fill functions inodelrmvied S Otis c tet c D E M M page 5 71 m Electrode holders and probes cece cece ener nae pag
185. e display this coefficient RM 84 871 102 being a function of the tripping angle of the phase controller form factor Supply voltage Un V AU 24 110 240 Frequency Hz 50 60 Operating range 15 for 24 V 15 4 10 from 110 240 V Maximum consumption 24V VA 1 240 V VA 24V co 0 6 0 06 C 0 45 95 Temperature drift Repeat accuracy Relative humidity 1 20 sinusoidal 30 400 10 96 of the maximum scale value 15 of the set value Measured current range Frequency range of measured current Setting accuracy Switching hysteresis Maximum continuous current 40 Accidental overload current 100 Afor3s Response time to sensing t2 400 x 50 t3 120 50 Delay on pick up t1 ms 500 max Output 1 N O contact AgCdO Breaking capacity VA 1250 Maximum breaking current A ug sc Minimum breaking current mA a 10 19 1250 250 30 x 106 operating cycles 105 operating cycles at 1250 VA resistive Maximum switching voltage Mechanical life Electrical life i i Terminal capacity With cable end mm 2x1 5 Without cable end mm 2x25 Temperature limits Operation C 20 60 Storage C 30 70 Dielectric strength Conforming to IEC 255 5 kV 2 5 1 min 1 mA 50 Hz Product certifications c UL us CSA lecieli Functions Scheme page 5 44 page 5 44 561061 561062
186. e function Multifunction K A At B C H Ht Di D Ac Bw 1s 10s 1min 10 min 1h 10h 100h 0 68 2 5s 20s 1605s 2 timed contacts 2 timed contacts 1 convertible to instantaneous 8A 8A RE 88 865 265 RE 88 865 303 0 090 0 090 Connection schemes All functions except K Function K U U v N _ A1 15 25 R1 R2 A2 l l 16 18 26 22 28 24 KS 16 18 26 28 I Characteristics Dimensions pages 3 20 and 3 21 page 3 22 560872 Characteristics Zelio Time timing relays Industrial single or multifunction relays relay output width 22 5 mm Conforming to standards The RE7 range of relays with only 23 references covers all timing applications These relays offer multi range timing from 50 ms to 300 h They are multivoltage Three models combine several different functions multifunction relays These products have a transparent hinged flap on their front face to avoid any accidental alteration of the settings This flap can be directly sealed IEC 61812 1 EN 61812 1 Product certifications C marking CSA GL pending UL Zelio Time timing relays conform to European regulations relating to C marking Ambient air temperature around the device Permissible relative humidity range 40 85 20 60 15 85 96 Environmental class 3K3 Storage Operation Conforming to IEC 60721 3 3 Vibration resistance Conforming to IEC 6068 2 6 a 0 35 ms
187. e measured signal Mz 40 500 Adjustable hysteresis Threshold value 5 50 96 of the threshold setting 10 100 of the range Threshold setting accuracy 10 Measurement ranges Inputs E1 M E2 M E3 M E1 M E2 M E3 M Sensitivity V 0 2 2 1 10 6 60 15 150 30 300 60 600 Input resistance kQ 2 10 60 100 300 600 Temperature Operation C 20 50 Storage A003 70 Relative humidity Without condensation 95 96 Enclosure material Self extinguishing Degree of protection Conforming to IEC 60529 Enclosure IP 40D terminal block IP 20 Connection Flexible cable w o cable end 1x40r2x2 5 Flexible cable with cable end x 1 5 Tightening torque Dielectric strength Conforming to IEC 60255 5 5 kV for 1 min at 1 mA 50 Hz Creepage distance and clearance Conforming to IEC 60664 1 4 kV 3 Vibration resistance Conforming to IEC 60068 2 6 a 0 035 mm Electrostatic discharge Conforming to IEC EN 61000 4 2 Level 3 6 kV contact 8 kV air Electromagnetic fields Conforming to IEC EN 61000 4 3 Level 3 10 V m Fast transients Conforming to IEC EN 61000 4 4 Level 3 2 kV Shock waves Conforming to IEC EN 61000 4 5 Level 3 2 kV Radio frequencies Conforming to IEC EN 61000 4 6 Level 3 10 V rms Voltage dips and breaks Conforming to IEC EN 61000 4 1 1 30 for 10 ms 60 for 100 ms and 1 s gt 95 for 5 s and 10 ms Damped oscillatory wave at 1 MHz Conforming to IEC 61255 22 1 Clas
188. e output relay is de energised overvoltage the red LED gt U illuminates undervoltage the red LED lt U illuminates r1 When the supply returns towards its rated value the relay is re energised according to the hysteresis value 5 96 and the corresponding red LED goes out o A selector switch allows selection of an adjustable time delay from 0 1 s to 10 s With function pg transient over or under voltages are not taken into account With function ggg all variations above or below are taken into account and re energisation of the relay is delayed o In all cases in order to be detected the duration of the overvoltage or undervoltage must be greater than the measuring cycle time 80 ms Function diagram RM4 TR31 RM4 TR32 RM4 TR31 RM4 TR32 Setting gt U 0 95 x Setting gt U 1 05 x Setting lt U Setting lt U UL1 L2 L3 0 Volt l Funcion a U T 15 18 25 28 Function MEE 12 12 39 32 ias i m a a a t time delay Function diagram RM4 TR33 RM4 TR34 RM4 TR33 RM4 TR34 TR33 TR34 242 V 230 V 208 V 198 V 440 V 418 V 378 V 360 V UL1 L2 L3 15 16 25 26 Function E 15 18 25 28 t time delay 15 16 25 26 References page 5 11 Characteristics page 5 12 Dimensions schemes page 5 13 99 Presentation continued Zelio Control measurement and control relays 3
189. ection IP 66 C Temperature limits Operation 10 55 Storage 20 70 1 The reset is galvanically isolated from the counting input References Dimensions Schemes page 4 17 page 4 17 page 4 17 560815 References Zelio Count counters dimensions Electronic hour counters 24 x 48 Counting inputs and reset inputs solid state or voltage Integral module for voltage inputs or 5 50 V 48 240 V 4 time ranges L1 99 999 9 h 99 999 9 min EH 99 999 9 s 99 h 59 min 59s Possibility of reloading current value Powered by lithium battery Life 5 years Reset on front panel or external with inhibit facility Hour counters LCD 24 x 48 Description Reference Weight kg Solid state input RC 87 610 140 0 060 Voltage input RC 87 610 150 0 065 Accessories j Description Dimensions Reference Weight RC 87 610 150 kg Adaptors for 25x50 mm dimensions 29x54 mm RC 26 546 829 0 002 panel cut out 45x45 mm dimensions 52x52 mm RC 26 546 830 0 008 50 mm dimensions 73 mm RC 26 546 831 0 011 RC 87 610 1e0 Panel cut out Max thickness 10 mm 1 unit 4 units 44 8 GULL PA T 30 gy 7 am pom 11 5 t 4 zb EN EN TB Bg 3g a 7 RC 26 546 830 RC 26 546 831 52 9 RC 87 610 140 RC 87 610 150 Terminals Terminals 1 Reset input 1
190. efore be selected for the load Characteristics Dimensions pages 3 8 and 3 9 page 3 10 Characteristics Repeat accuracy with constant parameters Zelio Time timing relays Modular relays relay output width 17 5 mm Conforming to IEC 1812 1 0 5 Yo Drift Temperature t 0 05 96 C Voltage 0 2 V Setting accuracy at full scale Conforming to IEC 1812 1 10 at 25 C Minimum duration of Typical ms 30 control impulse Typical under load ms 100 Maximum reset time Typical ms 100 by de energisation Immunity time Typical ms gt 10 to microbreaks Multivoltage supply Depending on version see pages 3 10 Frequency 50 60 Operating range 85 110 of Un On load factor 100 Maximum Depending 24V 0 6 power consumption on model 240 V W 1 5 240 V VA 32 Output type Relay 1 C O contact AgNi cadmium free Breaking capacity 2000 VA 80 W Maximum breaking current Ou B ccc Minimum breaking current mA 10 5V Maximum switching voltage V 250 Electrical life 10 operations 8 A 250 V resistive Mechanical life 5 x 108 operations Dielectric strength Conforming to IEC 1812 1 kV 2 5 1min 1 mA 50 Hz Impulse voltage Conforming to IEC 664 1 kV 5 wave 1 2 50 us IEC 1812 1 State indication by 1 LED Green Operating status indication uuu Pulsing relay energised no timing in progress except Di D and Li L munnu Flashing timing in progress
191. elay contact Between coil de v About 10 energisation and making About 4 Electrical durability In millions of operating cycles h of the Off delay contact Resistive load 8 A 250 V 20 1 16 A 250 V 20 07 See curves below 12 A 250 V 20 1 Inductive load Rated insulation voltage Ui Conforming to IEC 947 V 400 Insulation class Conforming to VDE 0110 C250 Dielectric strength Between coil and contact V 5000 rms voltage Between poles V 2500 Between contacts v 1000 Electrical durability of contacts Reduction coefficient for inductive load n Maximum switching capacity on a resistive Resistive load n depending on power factor cos q load T 1 li so 08 S 06 5 lE e uc O 12 C D amp o 05 8 S 2 5 A s D o Q g E S 2 O 04 1 i D or Q E 0 5 e g 8 104 0 3 a 5 0 04 08112 16 2 10 806 04 0 2 10 20 30 50 100 200 300 O cos Voltage Switching capacity kVA A RSB2A080ee gt RSB 1A160ee C RSB 1A120ee Durability inductive load durability resistive load x reduction coefficient Socket type RSZ E1S48M RSB E1S35M Conventional rated thermal current Ith A 12 Insulation class C 250 Degree of protection IP 20 Product certifications a CSA UR Connection Solid cable without cable end 2x 2 5 mm Flexible cable with or
192. elf powered model RM 84 873 The device is self powered by two phases A green LED indicates that the power supply is ON When the phase sequence is correct and the asymmetry rate is lower than the threshold indicated on the front panel the output relay is energised this is indicated by a yellow LED lit The output relay de energises after a delay T1 adjustable on the front panel if one of the following faults is present incorrect phase sequence absence of L3 asymmetry rate higher than the threshold setting This imbalance represents the increase or decrease in the voltage of two phases compared to the voltage of a different phase The output relay de energises instantaneously in the event of a break on L1 or L2 A hysteresis fixed at about 10 96 ensures bounce free relay switching around the threshold As differential measurement is used the relay does not react to symmetrical increases or decreases in the mains supply Phase L1 100 96 0 96 Phase L2 100 L3 0 96 Phase L3 100 96 L2 0 96 i b l Asymmetry 100 96 oe 1 Threshold Hysteresis asymmetry rate Uc MEE Coa 1 1 1 ch 099 LT T8 Ti T2 T3 T2 T3 T1 T8 T2 gt lt ea rad p lt gt ra R1 R2 Output relay ON yellow LED OFF References Characteristics page 5 23 page 5 23 5 22 Schemes page 5 79 561001 References Zelio Control measur
193. ement characteristics and control relays Phase asymmetry control relays self powered model RM 84 873 Phase asymmetry control relays self powered Number of relays Supply voltages Reference Weight gum measured kg 1 3x 230 V RM 84 873 300 0 360 mm 3 x 400 V RM 84 873 301 0 360 amp i a 2 3x 230 V RM 84 873 310 0 360 B 3x 400 V RM 84 873 311 0 360 RM 84 873 300 aa id terminals L1 L2 OD aus eae Operating range Frequency Maximum consumption 1 2 x Un VA 4atUn 8 at Un 20 Immunity to microbreaks 10 Delay on power up t3 1 max Delay on power down t2 300 max Creepage distance and clearance Conforming to IEC 60664 1 kV 4kV 3 3 phase supply Rated voltage a 3 x 230 3 x 400 Operating range 185 275 320 480 Frequency can be altered via switch beneath the device 50 60 Regeneration rate max 95 of Un Asymmetry rate adjustment 5 20 of Un Threshold setting accuracy Conforming to VDE 0435 20 at full scale Temperature drift 04 C Repeat accuracy 1 96 at full scale Fixed hysteresis Output type Breaking capacity 10 96 of the threshold setting Volt free C O contact AgCdO 2000 VA 80 W Maximum breaking current Aoc Minimum breaking current 100 Maximum switching voltage 250 Electrical life AC 12 2000 VA 10 operating cycles AC 15 Cos 0 3 6000 operating cycles DC 13 UR 3
194. en the current returns to a value IS2 below the threshold depending on the hysteresis setting the relay is instantaneously de energised Relay set for undercurrent detection selector on lt model RM4 JA3e only If the current is lt the setting threshold IS1 the output relay is energised with or without a time delay depending on the model When the current returns to a value IS2 above the threshold depending on the hysteresis setting the relay is instantaneously de energised Function diagrams Overcurrent detection Function gt U supply A1 A2 C NEENEEEENENENENENNENEENEEEEEEEEEEEEEEEEEEN Current S1 measured Relay 1218 25 28 25 26 t lt t r4 t time delay Undercurrent detection Function lt U supply Ai A2 as IS2 Current measured IS1 Relay qu 25 28 25 26 t t 4 t time delay B1 B2 B3 C Load U drop 1 V Measurement Note The measurement ranges can be extended by means of a current transformer the secondary of which is connected to the measuring terminals of the RM4 relay or by means of a resistor connected in parallel with the measuring input see example page 5 51 Setting up References Characteristics Dimensions schemes Setting up page 5 48 page 5 49 page 5 50 page 5 51 5 47 Heferences Zelio Control measurement and control relays Current measurement relays model RMA J
195. enable the programming buttons B simulate the application in real time or in accelerated time m dynamically display in red the various active elements of the program Zelio Soft monitoring mode makes it possible to test the program executed by the smart relay i e B display the program on line B force inputs outputs control relays and current values of the function blocks m adjust the time m change from STOP mode to RUN mode and vice versa In simulation or monitoring mode the monitoring window allows the status of the smart relay I O to be displayed within your application environment diagram or image Monitoring mode Presentation Zelio Logic smart relays Compact and modular smart relays Zelio Soft programming software Definition see LADDER language allows a LADDER program to be written with elementary TERM functions elementary function blocks and derived function blocks as well as with SSO contacts coils and variables The contacts coils and variables can be annotated Text can be placed freely within the graphic Text function block B Control scheme input modes Zelio input mode enables users who have directly programmed the Zelio smart relay to find the same user interface even when using the software for the first time Free input mode which is more intuitive is very user friendly and incorporates many additional features With LADDER programming language two alternati
196. ents Commons Common 1 3 N O contacts Common 2 2 N O contacts Common 3 1 N O contact Minimum switching load mA 0 1 0 1 V reference value Contact resistance when new mt 30 max Loads resistive inductive A 2 240 V 2 30 V 2 rms insulation voltage V 1 500 for 1 minute Consumption At state 1 OV mA lapel miele PAV mA Atstate0 5V mA Precision s month 30 at 25 C Autonomy days Approximately 30 at 25 C with fully charged battery Battery type Lithium battery not interchangeable Charging time h Approximately 10 to charge from 0 90 96 of the full charge Life years 10 Cartridge type TWD XCP MFK32 TWD XCP MFK64 Memory type EEPROM Save transfer program and internal words Base controllers Base controllers TWD LMDA 20DeK 20DRT 20DeK TWD LMDA 20DRT 40DeK Program size increase 6000 instructions with base controllers TWD LMDA 20DRT 40DeK 1 Source output positive logic sink output negative logic 2 2A 240 V or 2A 30 V with 1800 operations hour max electrical life minimum 100 000 operations mechanical life minimum 20 x 1086 operations 413 Heferences d li 3l iti TWD LMDA TWD LMDA 20DTK 20DUK 40DTK 40DUK TWD LMDA 20DHT L2 a P TWD XCP MFK ee XBT N401 ABL 7CEMeeee ASI ABLM3024 1 14 Twido programmable controller Modular base controllers Modular base controllers 20 I O
197. eparate components for compact and modular smart relays page 6 16 Zelio Analog analogue interfaces m Converters for thermocouples and Pt100 probes page 6 24 m voltage current Converters oei ceee reee ese eet bees bans oe page 6 24 6 1 Selection guide Zelio Logic smart relays Compact and modular smart relays gt a EE ETE SR2 121060 SR2 B122BD SR2 A201ee SR2 B200ee SR2 E201 8 SR2 e101ee 1 FBD Function Block Diagram A Available 1 quarter 2004 Telemecanique SR3 B10606060 SR3 B260e0ee 1 FBD Function Block Diagram Telemecanique E Presentation Zelio Logic smart relays Compact and modular smart relays Zelio Logic smart relays are designed for use in small automated systems They are used in both industrial and commercial applications m For industry O automation of small finishing production assembly or packaging machines o decentralised automation of ancillary equipment of large and medium sized machines in the textile plastics and materials processing sectors r1 automated systems for agricultural machinery irrigation pumping greenhouses m For the commercial building sectors O automation of barriers roller shutters access control r1 automation of lighting installations O automation of compressors and air conditioning systems Their compact size and ease of setting up make them a competitive alternati
198. equires 16 output channels 6 Module with two connectors requiring use of two identical cables Connections ABF TP26MPe00 ABF TE20EPe00 ABF TE20SPe00 26 way HE10 A 20 way HE10 B 26 way HE10 C 26 way HE10 A 20 way HE10 B 26 way HE10 A 20 way HE10 B 20 12 11 Twido side Output side Twido side Input side Twido side Output side _ o OONODOORWN OONOARWN i mici io ilol io0 9 8 7 6 5 4 3 2 Fi 1188 References Twido programmable controller Pre wired solutions TwidoFast pre formed cables Description Description For use with Gauge Cable Reference Weight Twido C s a length kg Pre formed cables 1 pre formed Modular base controllers 22 3m TWD FCW 30M 0 405 cable one end TWD LMDA 0 035 mm fitted with HE 10 20DTK 40DTK 22 5m TWD FCW 50M 0 670 connector one end 0 035 mm with ree wires I O extensions 22 3m TWD FCW 30K 0 405 TWD DDI 16DK 32DK 0 035 mm TWD DDO 16eK 32eK 22 5m TWD FCW 50K 0 670 S a 1 HE10 female connector 26 way TWD FCN 5K26 Sold in packs of 5 20 way E TWD FCN 5K20 E TwidoFast kits sub bases cables Description Description For use with Gauge Cable Reference Weight Twido C s a length kg 16 inputs 1 passive sub base Inputs 22 im TWD FST 16D10 0 330 1 pre formed cable TWD DDI 16DK 32DK 0 035 mm 22 2m TWD FST 16D20 0 410 S085 mm 16 outputs 1 relay sub base Outputs 22 1m TWD FST 16R10 0 440 TWD FST 16e0 1 pre
199. er the Technical Union of Electricity UTE the French version of the corresponding European standard carries a double notation European reference NF EN and classification C Therefore the standard NF EN 60947 4 1 relating to motor contactors and starters effectively constitutes the French version of the European standard EN 60947 4 1 and carries the UTE classification C 63 110 This standard is identical to the British standard BS EN 60947 4 1 or the German standard DIN EN 60947 4 1 Whenever reasonably practical European standards reflect the international standards IEC With regard to automation system components and distribution equipment in addition to complying with the requirements of French NF standards Telemecanique brand components conform to the standards of all other major industrial countries European Directives Opening up of European markets assumes harmonisation of the regulations pertaining to each member country of the European Union The purpose of the European Directive is to eliminate obstacles hindering the free circulation of goods within the European Union and it applies to each member country Member countries are obliged to transcribe each Directive into their national legislation and to simultaneously withdraw any contradictory regulations The Directives in particular those of a technical nature which concern us only establish the objectives to be achieved and are referred to as essentia
200. ers thermal processes speed They also allow the connection distance between a sensor and the measurement acquisition device to be increased for example between a thermocouple and a programmable controller Conforming to IEC standards UL and CSA certified these converters are suitable for universal use Measurement signals for thermocouples and Pt100 probes The voltages induced by thermocouples vary between 10 and 80 n V C Pt100 probes 100 ohms at 0 C produce about 0 5 mV C with measurement currents of 1 mA Depending on the sensor the signal to be measured ranges from a few uV thermocouple to 250 and 700 mV for a Pt100 probe It is therefore difficult to transmit these low level signals over long electric lines without encountering problems of interference signal reduction or errors Connecting Zelio Analog converters close to the sensors resolves these problems 4 20 mA current loops transmitted over a long distance are less sensitive to interference than low level voltage signals from sensors signal reductions during transmission resistance of voltages do not occur the cables used to connect the converters to process equipment programmable controllers are standard cables which are more cost effective than extension cables or compensation cables suitable for low level signals for Pt100 probes or thermocouples The Zelio Analog range The Zelio Analog range has been developed both to take account of the mo
201. es 4 max 1 slot 0 1023 option of 1 real time clock 1 point 1 x HS 232C 485 or memory 1 4 0 51 1 Le a maximum of 88 I O with screw terminal expansion modules with a maximum of 32 relay outputs in I O expansion modules Maximum of 152 I O with HE 10 connector expansion modules Description 12 11109 Twido programmable controller Compact base controllers Twido TWD LCAA ee DRF compact programmable base controllers comprise 1 Two hinged connection terminal block covers for access to the terminals 2 A hinged access door 3 Amini DIN type RS 485 serial port connector allowing connection of the programming terminal 4 Aslot protected by a removable cover for digital diagnostic maintenance display module TWD XCP ODC 5 Ascrew terminal block for 24 V supply to the sensors and for connection of the input sensors 5 A connector for I O expansion modules TWD Dee TWD Aee and TWD NOI 10M3 maximum of 4 on 24 I O models 7 A display block showing the status of the controller PWR RUN ERR and STAT the inputs and outputs INe and OUTe 8 Ascrew terminal block for connection of the output preactuators 9 Two analogue adjustment points one point for 10 and 16 I O models 10 An extension connector for the addition of a 2 RS 232C RS 485 serial port using adapter TWD NAC eee for 16 and 24 I O models 11 A screw terminal block for connection of the 100 240 V mains power supply 1
202. eshold 21 22 24 Output relay R2 upper threshold RM 84 873 201 References page 5 25 RM 84 873 211 References page 5 25 Ra R S ee T Auxiliary power supply Auxiliary power supply A1 A2 Supply A1 A2 Supply 5 80 Schemes continued Zelio Control measurement and control relays Relay model RM 84 RM 84 872 04e References page 5 33 RM 84 872 05e References page 5 33 12 V version 20 80 V and _ 90 270 V version l Supply voltage to be monitored Supply voltage Supply voltage to be monitored to be monitored e a c or d c voltage to be monitored RM 84 873 40e References page 5 77 Operation on a 3 phase supply I 10 A Operation on a 3 phase supply I 10 A 11 21 R1 R2 2 1 14 22 2 3 x 400 V 3 x 400 V 22 24 Az N A Operation on a single phase supply 230 V Terminal referencing L1 L2 L3 Supply to be monitored E Current read output 11 12 14 Output relay R1 lower threshold 21 22 24 Output relay R2 upper threshold 12 14 22 24 5 81 6 0 Contents 6 Zelio Logic smart relays and Zelio Analog analogue interfaces Zelio Logic smart relays Selection gulde ce ae eeu wg E whee RARE E AS SEE UE SUR UK IR RUNE TRUE Tee page 6 2 a Compact smat relays a concu I MET page 6 14 a Modular smatnbrelayscc cc esce s xu T E page 6 15 B S
203. f Mains Reset type Reference Weight display supply digits frequency V Hz kg Hour counters with mechanical display max display capacity 99999 99 h 24 7 50 Without XBK H70000004M 0 060 115 7 50 Without XBK H70000001M 0 060 230 7 50 Without XBK H70000002M 0 060 Flush mounting 45 Characteristics page 4 2 dm Characteristics Counter type Zelio Count counters Electromechanical totalising counters 5 to 8 digits XBK T totalising counters Display type Mechanical Functions Totalising counters with mechanical display Supply voltage V 24 t 10 96 48 t 10 115 10 Consumption W VA XBK T50000U10M and XBK T50000U08M and XBK T70000U00M 1 5 XBK T50000U11M and XBK T60000U10M and XBK T80000U00M 2 5 XBK T60000U11M 2 75 XBK T60000U00M 0 155 Counting frequency Hz 10 20 25 Backup capacity Permanent Number of digits 5 6 70r8 Setting accuracy 99999 99999999 Digit height mm 4 Counting mode Adding Reset to zero With or without Reset type Manual Inputs Function Counting Type Contact Mechanical life in millions of pulses Conforming to standards Product certifications Temperature Operation 10 except XBK T60000U10M and XBK T80000U00M 200 EN 50081 2 EN 50082 2 UL CSA pending except XBK T60000U00M 10 50 except XBK T60000U00M 10 70 Storage 20 60 except XBK T60000U00M 40
204. ference Weight type kg g i 2 inputs 0 10 V 12 bits TWD AMI 2HT 0 085 4 20 mA c i 1 output 0 10 V 12 bits TWD AMO 1HT 0 085 lj 4 20 MA 2 inputs and 0 10 V 0 10 V 12 bits TWD AMM 3HT 0 085 r La 1 output 4 200mA 4 20 mA 4 Thermocouple 0 10 V 12 bits TWD ALM 3LT 0 085 K J T 4 20 mA Temperature TWD ALM SLT probe TWD AMI 2HT Pt 100 Replacement part Description Application Reference Weight kg Screw terminal block 11 contacts TWD FTB 2T11 Sold in packs of 2 1 30 Dimensions connections Twido programmable controller Analogue I O modules Analogue I O modules 3 8 23 5 Input module TWD AMI 2HT 24 VDC Voltage current sensor Voltage current sensor B Fit a fuse of appropriate size for the sensor type m Do not connect any wires to the unused channel Mixed input output module TWD AMM SHT D Voltage current preactuator Voltage current sensor NC Voltage current sensor ES De m Fit a fuse of appropriate size for the sensor and preactuator types m Do not connect any wires to unused channels Output module TWD AMO 1HT 24 VOC Voltage current preactuator m Fit a fuse of appropriate size for the preactuator type m Do not connect any wires if the channel is unused Mixed input output module TWD ALM 3LT de Voltage current preactuator Pt 100 temperature probe ssp i 1 Fit a fuse of appro
205. ferred into the smart relay at power up Autonomy and backup Autonomous operating time of the clock ensured by a lithium battery is 10 years Data backup preset values and current values is provided by an EEPROM Flash memory 10 years l O extensions Zelio Logic smart relays can if necessary take the following I O extensions m 6 10 or 14 I O supplied with 24 V via the smart relay m 6 10 or 14 I O supplied with 24 V via the smart relay 1 2 m 6 10 or 14 I O supplied with 100 240 V via the smart relay Communication module A D as sesensseseseseees RU A module for communication on the Modbus network will be available for Zelio Logic z modular smart relays It is supplied with 24 V via the smart relay Communication interface AA ar The communication products in the Zelio Logic range include 5528 BH a communication interface connected between a smart relay and a modem m analogue or GSM modems 99 9999 99 99 PR PP SUPR oro cee see m Zelio Soft Com software They are designed for monitoring or remote control of machines or installations which operate without personnel 1 Modular smart relay The communication interface supplied with 12 24 V allows messages telephone 10 or 26 1 0 numbers and call conditions to be stored 2 IO extension module 1 FBD Functional Block Diagram CO ORTA 2 LCD Liquid Crystal Display A Available 15 quarter 2004 AA Available 1 half 2004 6 4 Descriptio
206. ficient Socket type RXZ E1S108M E1S111M E1S114M E1M114M E1M114 7G Conventional rated thermal current Ith A 12 12 7 6 Insulation class C 250 Degree of protection IP 20 Product certifications CSA UR Connection Solid cable without cable end 2x2 5 mm 2 x 1 5 mm 2 x 2 5 mm Flexible cable with or w o cable end 2x 1 5 mm Arrangement of coil contact terminals Separate Mixed Type of protection module RZM type E RXW type L Relay types used RXL 2 RXL 3 RXL 4 RXL 4 RXL 2 1 RXN 21 RXN 21 RXN 21 RXN 4 RXN 4 RXL 4 RXN 41 RXN 41 1 Limited to 7 A in operation References Dimensions Schemes pages 2 8 and 2 9 page 2 14 page 2 12 560586 108780 26 s 560588 560589 Heferences RXL 4A06B1BD RXZ E1S114M RXL 3A10B2BD RZM 031RB RXZ P10 RXZE1S111M Zelio Relay plug in relays Miniature relays Relays for standard applications 1 Number of Conventional rated LED Sold in Unit reference Weight C O contacts thermal current lots of to be completed by adding the control voltage code 2 A kg 2 5 Red 10 RXN 21E12ee6 0 035 Without 10 RXN 21E11ee 0 034 12 Green 10 RXL 2A12B2e0e 0 036 Without 10 RXL 2A12B1ee 0 035 3 10 Green 10 RXL 3A10B2e0e 0 036 Without 10 RXL 3A10B1ee 0 035 4 5 Red 10 RXN 416G12ee 0 035 Without 10 RXN 41G11ee 0 034 6 Green 10 RXL 4A06B2ee6 0 036 Without 10 RXL 4A06B1ee 0 035 Relays with gold flashed contacts 7 4 6 With 10 RXL 4G06B2ee 0 0
207. formed cable TWD DDO 16TK 32TK 0 035 mm 22 2m TWD FST 16R20 0 520 0 035 mm 12 inputs 8 outputs 1 passive sub base Modularbase controllers 22 im TWD FST 20DR10 0 570 1 relay sub base TWD LMDA 0 035 mm 1 pre formed cable 20DTK 40DTK 22 2m TWD FST 20DR20 0 650 0 035 mm Telefast 2 connection cables 2 Description Description For use with Gauge Cable Reference Weight Twido C s a length kg Discrete I O 1 pre formed Modular base controllers 28 im ABF TP26MP100 0 200 cable one end TWD LMDA 0 080 mm fitted with 26 way 20DTK 40DTK 28 2m ABF TP26MP200 0 500 EEE IONS HE 10 connector 0 080 mm OE 28 3m ABFTP26MP300 0 800 end fitted with two 0 080 mm 20 way HE 10 connectors on Telefast 2 side Discrete inputs 1 pre formed Inputs 28 im ABF TE20EP100 0 080 cable one end TWD DDI 16DK 32DK 0 080 mm fitted with 20 way 28 2m ABF TE20EP200 0 140 HE 10 connector 0 080 mm Uni 28 3m ABFTE20EP300 0210 end fitted with 0 080 mm 20 way HE 10 connector on Telefast 2 side Discrete outputs 1 pre formed Outputs 28 im ABF TE20SP100 0 080 cable one end TWD DDO 16TK 32TK 0 080 mm fitted with 20 way 28 2m ABF TE20SP200 0 140 HE 10 connector 0 080 mm piod ee 28 3m ABFTE20SP300 0 210 end fitted with 2 0 080 mm 20 way HE 10 connector on Telefast 2 side 1 Each station may be used as a decentralised I O extension or as a local reflex programmable controller with exchanges of input output words between the different stations 2 For further
208. g capacity A 0 7 at 20 C 0 5 A UL Derating 5 C Maximum permissible current 20 lt 10ms Minimum breaking current 10 Leakage current mA lt 5 Maximum switching voltage V 250 Typical voltage drop at terminals 3 wire 4V 2 wire 8V Electrical life 108 operations Mechanical life 108 operations Dielectric strength conforming to IEC 664 IEC 255 5 kV 2 5 at 1 mA 1 min State indication Green Operating status indication by 1 LED iui Pulsing relay energised no timing in progress except Di D and Li L munnu Flashing timing in progress m On steady relay energised no timing in progress Input type V Volt free contact no potential Control possible by 3 wire sensor with PNP output maximum residual voltage 0 4 V whatever the supply voltage of the timer References Dimensions Schemes pages 3 6 and 3 7 page 3 6 page 3 7 Characteristics continued Conforming to standards Zelio Time timing relays Modular relays solid state output width 17 5 mm IEC 1812 1 EN 50081 1 2 EN 50082 1 2 LV directives 73 23 EEC 93 68 EEC C marking EMC 89 336 EEC IEC 669 2 3 Product certifications c UL us CSA Temperature limits Operation 20 60 Storage C 90 60 Creepage distance Conforming to IEC 60664 1 kV 4 kV 3 and clearance Degree of protection Terminal block IP 20 conforming to IEC 529 Enclosure IP 40 Panel mounted IP 50 Vibration resistance Conforming to IEC 68 2
209. g to standards Product certifications C marking IEC 60255 6 EN 60255 6 CSA GL UL pending Zelio Control measurement relays conform to European regulations relating to C marking Ambient air temperature around the device Permissible relative humidity range Vibration resistance Storage Operation Conforming to IEC 60721 3 3 Conforming to IEC 6068 2 6 10 to 55 Hz 40 4 85 20 65 15 85 96 Environmental class 3K3 a 0 35 ms Shock resistance Conforming to IEC 6068 2 27 15gn 11 ms Degree of protection Casing IP 50 Terminals IP 20 Degree of pollution Conforming to IEC 60664 1 3 Overvoltage category Conforming to IEC 60664 1 Hl Rated insulation voltage Conforming to IEC 500 Conforming to CSA 1 Test voltage for Dielectric test kV 25 insulation tests Shock wave kV 4 8 Voltage limits Power supply circuit 0 85 1 1 Uc 2 Frequency limits Power supply circuit 50 60 5 Disconnection value Power supply circuit gt 0 1 Uc 2 Mounting position In relation to normal vertical Any position without derating mounting plane Cabling Flexible cable without cable end mm 2x25 Maximum C s a Flexible cable with cable end mm 2x1 5 Tightening torque N m 0 6 1 1 Immunity to electromagnetic interference EMC Application class 2 conforming to EN 61812 1 Electrostatic discharge Conforming to IEC 61000 4 2 Level 3 6 kV contact 8 kV air
210. ge 5 11 page 5 12 page 5 13 5 10 561024 561025 561026 Heferences RM4 TG20 RM4 TR33 Zelio Control measurement and control relays 3 phase supply control relays model RM4 T Time delay Rated mains Width Output Reference Weight supply voltage 7 relay S V mm kg Without 200 500 22 5 2 C O RM4 TG20 0 110 50 60 Hz Time delay Rated mains Control threshold Width Output Reference Weight supply voltage 1 relay S V V mm kg Without 200 240 Undervoltage 22 5 2 C O RM4 TUO1 0 110 50 60 Hz 160 220 380 500 Undervoltage 22 5 2 C O RM4 TUO2 0 110 50 60 Hz 300 430 Relays with fixed voltage thresholds Adjustable Rated mains Control threshold Width Output Reference Weight time delay supply voltage 1 relay S V V mm kg 0 1 10 220 Undervoltage 22 5 2 C O RM4 TR33 0 110 50 60 Hz 198 Overvoltage 242 400 Undervoltage 22 5 2 C O RM4 TR34 0 110 50 60 Hz 360 Overvoltage 440 Relays with fixed voltage thresholds Adjustable Rated mains Control threshold Width Output Reference Weight time delay supply voltage 1 relay S V V mm kg 0 1 10 200 240 Undervoltage 22 5 2 C O RM4 TR31 0 110 50 60 Hz 160 220 Overvoltage 220 300 380 500 Undervoltage 22 5 2 C O RM4 TR32 0 110 50 60 Hz 300 430 Overvoltage 420 580 Time delay on Rated mains Control threshold Width Output Reference Weight de energisation supply voltage 1 relay S V mm kg Fixed 200 240 Asymmetry 22 5 1 C O R
211. ged in 2 banks A and B of 31 addresses each O analogue slaves maximum of 7 slaves in bank A The AS Interface M3 profile supports analogue profile 7 3 7 slaves but not analogue profile S 7 4 The maximum number of TWD NOI 10M3 modules per Twido controller is 2 7 discrete analogue and AS Interface I O modules are controlled by TwidoSfot software see page 1 40 An AS Interface power supply is essential to supply the various modules on the bus It should preferably be located close to the stations with high power consumption For more information on power supplies see pages 1 8 and 1 14 Module TWD NOI 10M3 takes the form of a standard size module It is connected to a Twido base controller compact or modular in the same way as any I O module It comprises 1 A display block comprising m 6 pilot lights indicating the module operating modes r1 green PWR pilot light module powered up r1 red FLT pilot light error in the configuration loaded O green LMO pilot light module in local mode r1 green CMO pilot light module in connected mode o red CNF pilot light not used o red OFF pilot light module in protected unconnected mode B 6 green pilot lights 3 for inputs 3 for outputs 2 A block for displaying the status of the addresses 3 Two pushbuttons PB1 and PB2 for controlling the status of the slaves by selecting their address and changing the mode 4 An extension connector for electrical connection to the previous modul
212. gs This flap can be directly sealed a Relay type Voltage control Overvoltage or Measuring range Way undervoltage h D detection 1 e RM4 UADe Yes No 50 mV 500 V RM4 UA3e Yes Yes 50 mV 500 V RM4 UA01 Applications d c motor overspeed control battery monitoring monitoring of a c or d c supplies speed monitoring with tacho generator Presentation RM4 UAOe RM4 UA3e Width 22 5 mm Width 22 5 mm 1 1 2 2 3 4 1 Adjustment of voltage threshold as of setting range max value 2 Hysteresis adjustment from 5 to 30 2 3 Fine adjustment of time delay as of setting range max value 4 Switch combining selection of the timing range 1s 3s 10s 30s no time delay selection of overvoltage or undervoltage detection See table below R Yellow LED indicates relay state U Green LED indicates that supply to the RM4 is on Table showing details for switch 4 Switch position Function Time delay t 0 Undervoltage control No time delay 1 Undervoltage control 0 05 to 1 s lt 3 Undervoltage control 0 15to3s lt 10 Undervoltage control 0 5to10s lt 30 Undervoltage control 1 5to 30s gt 0 Overvoltage control No time delay gt 1 Overvoltage control 0 05to1s gt 3 Overvoltage control 0 15to3s gt 10 Overvoltage control 0 5to10s gt 30 Overvoltage control 1 5to 30s 1 Selection by switch on front face 2 Value of voltage difference between energisation and de energis
213. hant navy Code Standards body Country Name Abbreviation ANSI American National Standards Institute ANSI USA BS British Standards Institution BSI Great Britain CEI Comitato Elettrotecnico Italiano CEI Italy DIN VDE Verband Deutscher Electrotechniker VDE Germany EN Comit Europ en de Normalisation Electrotechnique CENELEC Europe GOST Gosudarstvenne Komitet Standartov GOST Russia IEC International Electrotechnical Commission IEC Worldwide JIS Japanese Industrial Standard JISC Japan NBN Institut Belge de Normalisation IBN Belgium NEN Nederlands Normalisatie Institut NNI Netherlands NF Union Technique de l Electricit UTE France SAA Standards Association of Australia SAA Australia UNE Asociacion Espanola de Normalizacion y Certificacion AENOR Spain European EN standards These are technical specifications established in conjunction with and with approval of the relative bodies within the various CENELEC member countries European Union European Free Trade Association and many central and eastern European countries having member or affiliated status Arrived at through the principle of consensus the European standards are the result of a weighted majority vote Such adopted standards are then integrated into the national collection of standards and contradictory national standards are withdrawn The European standards are now incorporated within the French standards and carry the prefix NF EN Und
214. he output relay changes state at the end of time delay T1 It instantly returns to the initial state when the current drops below the hysteresis threshold or when the power supply is disconnected Control of a c d c current with memory The output relay changes state at the end of time delay T1 and remains latched in this position To reset it the memory function must be reactivated by disconnecting the auxiliary supply Overcurrent function The time delay on energisation T2 prevents current peaks due to motor starting The delay on upward crossing of threshold T1 provides immunity to transients and other interference thereby preventing spurious triggering of the output relay Undercurrent function The time delay on energisation T2 prevents the occurrence of current troughs The delay on downward crossing of threshold T1 provides immunity to random dips thereby preventing spurious triggering of the output relay Note In undercurrent mode the absolute value of the hysteresis cannot be greater than the measurement range maximum RM 84 871 044 Characteristics page 5 53 References page 5 53 561468 References Zelio Control measurement characteristics and control relays Current control relay model RM 84 871 Current control relay Measurement range Supply voltage Reference Weight kg 2 500 mA 24V RM 84 871 021 0 150 120 V RM 84 871 023 0 150 230 V RM 84 871 024 0 150 0 1
215. her start Start after pause with output in operating position U U U C R R HT 14 T2 Tel lt R oo T 560850 560851 560851 sere ses ses f NAY Y EE uus ut t BELL BEI Connection Screw terminals e e e Spring terminals Functions Multifunction Dual function Single function A At B C H Ht Di D A At B Ac Bw Timing ranges 7 ranges 1s 10s 1min 10min 1h 10h 100h Rated current 8A 8A 8A Voltages 24V 24 240 V RE 88 826 105 RE 88 826 115 RE 88 826 125 12 240 V Weight kg 0 060 0 060 0 060 Dimensions 17 5 35 yg 44 P LO lt 60 5 5 Characteristics Schemes pages 3 12 and 3 13 page 3 15 3 14 Function C Function At Function Ht Function D Function Bw Off delay with control Timing on energisation with Delay on energisation with Symmetrical flasher start Pulse output adjustable contact memory memory with output in rest position U U U U U C B C R C R R x T4T R c T t t2 t t2 T T T t1 t2 T t1 t2 Function Ac Timing after closing opening of control contact 560851 560851 560852 560850 560850 eee eee eee oor e e e e e Single function Dual function Dual function Multifunction Multifunction C H Ht Li L A At B C H Ht Di A At B C H Ht Di D Ac Bw D Ac Bw 1s 10s 1min 10min 1h 10h 100h 8A 8A 8A 8A 8A RE 88 826 135 RE 88 826 145 RE 88 826 155
216. ic insulating components are also resistant to attacks from insects such as termites and cockroaches These properties have led to this treatment being described as Tropical Finish but this does not mean that all equipment installed in tropical and equatorial regions must systematically have undergone TH treatment On the other hand certain operating conditions in temperate climates may well require the use of TH treated equipment see limitations for use of TC treatment Special characteristics of TH treatment e All insulating components are made of materials which are either resistant to fungi or treated with a fungicide and which have increased resistance to creepage Standards IEC 112 NF C 26 220 DIN 5348 e Metal enclosures receive a top coat of stoved fungicidal paint applied over a rust inhibiting undercoat Components with TH treatment may be subject to a surcharge 1 Please consult your Regional Sales Office 1 A large number of the Telemecanique brand products are TH treated as standard and are therefore not subject to a surcharge Location Environmental Duty Internal Type Protective treatment conditions cycle heating of of of of enclosure climate components enclosure when not in use Indoors No dripping Unimportant Unnecessary Unimportant TC TC water or condensation Presence Frequent No Temperate TC TH of dripping switching off Equa
217. ilable 15 half of 2004 Twido programmable controller TwidoSoft programming software Integrated functions software set up PID For all controller versions 7 2 0 m 14 PID programming loops B Autotuning algorithm A m Analogue PWM output B Linear conversion of measuring input B 2 alarm levels high and low on the measurement Command output limits B Direct and inverse action B 2 animated modes for TwidoSoft PID o configuration mode r1 debugging mode Event processing For all controller versions 7 2 0 m Event management by the application B 2 priority levels W 3 types of source O 4 event sources based on the basic inputs o 4 event sources based on the very fast threshold counter VFcounter o 1 event source based on the periodic event Timer m Command masked and enabled by the system bits B Each event executes a single user logic subroutine m Updating of reflex outputs For all controller versions 7 2 0 Configuration of the AS Interface bus is carried out via TwidoSoft software version 2 0 or greater The services offered are based on the principle of simplicity m Management of profile tables parameters and data by the master management transparent to the user m Topological addressing of I O any AS Interface slave defined on the bus has a topological address assigned to it on the bus in a way that is transparent to the user m Each AS Interface module sensor actuator is
218. in 1 The reset is galvanically isolated from the counting input References Dimensions Schemes page 4 11 page 4 11 pages 4 11 and 4 19 560812 References Zelio Count counters dimensions Electronic totalising counters 24 x 48 LCD display 8 digits digit height 7 mm Powered by alkaline batteries or lithium battery Counting inputs solid state 4 30 V or voltage up to 240 V E Dimensions DIN 24 x 48 mm Reset on front panel or external with inhibit facility Totalising counters LCD 24 x 48 Description Reference Weight kg Solid state input lithium battery RC 87 610 040 0 060 Voltage input lithium battery RC 87 610 050 0 065 Accessories RC 87 610 050 Description Dimensions Reference Weight kg Adaptors for 25 x 50 mm dimensions 29 x 54 mm RC 26 546 829 0 002 panel cut out 45 x 45 mm dimensions 52 x 52 mm RC 26 546 830 0 008 50 mm dimensions 73 mm RC 26 546 831 0 011 RC 87 610 0e0 Panel cut out Max thickness 10mm 1 unit 4 units 44 8 0 30 GULL Dp 7 E LL 7 A as iE M Dun EN UN RC 26 546 830 RC 26 546 831 WS 48 44 RC 87 610 040 RC 87 610 050 Terminals Terminals 1 Reset input 1 Reset 48 240 V 2 0V reset 2 0V reset 3 0 V counting 3 Reset 5 50 V 4 Slow counting 4 5 50 V 5 Fast c
219. ing cycles Enclosure material Self extinguishing Pc Terminal capacity With cable end 2x5 Without cable end 2x2 5 Temperature limits Operation C 20 60 conforming to IEC 68 1 14 Storage C 30 70 conforming to IEC 68 1 1 2 Relative humidity 93 without condensation Product certifications c UL us CSA Terminal connections Connection Dimensions A1 A2 Supply voltage 11 12 14 Output relay R1 E 21 22 24 Alarm output relay R2 L4 HH C Min Max Al Probe inputs Green LED power on Yellow LED output relay state CENE qI p A2 12614022021824 it j Note If the reservoir is conductive metal it can be used as the reference electrode C Red LED alarm relay state P Functions page 5 66 Functions scheme Control and automatic regulation of liquid levels Sensitivity adjustable from 5 to 100 KQ EH Combined regulation of emptying a well and filling a tank Power on and output relay state indication LED T1 Delay on pick up T2 Response time on immersion T3 Response time on emersion T4 Response time on de energisation Use of terminals A1 A2 11 12 14 C Min 1 Max 1 C Min 2 Max 2 Supply voltage Output relay R Tank probe inputs Well or supply tank probe inputs Zelio Control measurement and control relays Liquid level control relays combined fill empty functions model RM 84 870
220. ing the configuration editor the user must select MPO Ve ETE MPD ETUR either Up or Down counting mode for each function block define the initial value of pg Avm g ev the preset FCi P 1 65 535 and select the attribute adjustable in order to be able to dynamically change the preset value FCi P and the current value FCi V Within function block FCi the current value FCi V varies by m Incrementing the value 0 to the preset value FCi P in counter mode m Decrementing the preset value FCi P to 0 in down counter mode Twido modular controllers include two positioning functions frequency 7 kHz which can be used for example for controlling step motors m Function PLS pulse pulse generator output m Function PWM pulse width modulation output This function can also be used for applications with light or sound intensity control controller function PLS function pulse 7kHz The PLS function block generates pulses of fixed ratio In some cases the frequency can be fixed and in others it is variable as in control of slopes when driving step motors The PLS function block can be programmed to generate a specific number of pulses PLS function blocks are assigned to outputs Q0 0 0 or Q0 0 1 on modular base controllers The pulse generator signal has a variable period but with a constant duty cycle which establishes an ON to OFF ratio of 50 96 of the period see illustration opposite PWM function 7 kHz SONA mM TU
221. ions Temperature limits Creepage distance and clearance Degree of protection conforming to IEC 529 c UL us CSA GL except RE 88 865 265 Operation 20 60 Storage 90 60 Conforming to IEC 60664 1 kV 4kV 3 Terminal block IP 20 Enclosure IP 40 Front panel IP 50 except RE 88 865 265 Vibration resistance Relative humidity without condensation Electromagnetic compatibility Conforming to IEC 68 2 6 Conforming to IEC 68 2 3 Immunity to electrostatic discharge conforming to IEC 1000 42 f 10 55 Hz A 0 35 mm 93 Level Ill Air 8 kV Contact 6 kV Immunity to electromagnetic fields conforming to ENV 50140 204 IEC 1000 4 3 Immunity to fast transients in bursts conforming to IEC 1000 4 4 Level Ill 10 V m 80 MHz 1 GHz Level Ill direct 2 kV capacitive connecting clip 1 kV Immunity to surges on the power supply conforming to IEC 1000 4 5 Level Ill common mode 2 kV differential mode 1 kV Immunity to radio frequency interference in common mode conforming to ENV 50141 IEC 1000 4 6 Level Ill 10 V rms 0 15 80 MHz Immunity to voltage dips and breaks conforming to IEC 1000 4 11 30 96 10 ms 60 100 ms gt 95 5s Radiated and mains conducted disturbance conforming to EN 55022 EN 55011 Group 1 Class B Fixing Symmetrical mounting rail EN 50022 35 Clamping capacity Enclosure material Weight
222. ised y function then exceed the threshold by about 10 96 to compensate for variation in the supply voltage If the relay is not able to energise a higher sensitivity scale must be used selector 4 on RM4 LA32 or relay RM4 LG must be replaced by an RM4 LA32 relay and the adjustment procedure must be started again m Then check that the relay de energises function or energises y function as soon as electrodes B3 and B2 are out of the liquid If the relay does not de energise select a lower sensitivity scale m he electrode connection point must be protected against corrosion by sticking or sealing In areas where thunderstorms are likely to occur 1 measures must also be taken to protect the or 2 2 electrode lines EL 3 3 Note the high level can be raised by means of the Lr 4 adjustable time delay from 0 1 to 10 seconds with function BZ The low level can be lowered by means of this same time delay with function agg RM4 LA32 Probe LA9 RM201 This probe is of the suspension type It is coaxial i e in addition to the normal central electrode the stainless steel skirt can also act as earth reference electrode which means that there is no need to install a separate reference probe In this way for controlling one level only one probe is required instead of 2 for controlling 2 levels only 2 probes are required instead of 3 The connecting cable must be of the 2 conductor cable in cylindrical
223. ithout memory 8 position switch on front panel 0 1 1 s 1 10 s 0 1 1 min 1 10 min With memory 0 1 1 s 1 10 s 0 1 1 min 1 10 min Hysteresis 5 of the threshold setting Setting accuracy 10 of the full scale value at 25 C Repeat accuracy 0 5 with constant parameters Temperature drift 0 05 C Voltage drift 1 V Reset time ms 200 minimum Reset time for S2 ms 100 minimum Inhibit time delay s 0 3 30 10 Output 1 C O contact AgCdO Breaking capacity 2000 VA 80 W Maximum breaking current so 6 B Minimum breaking current 100 100 Maximum switching voltage 100 100 Mechanical life 5 x 106 operating cycles Electrical life AC 12 2000 VA 10 operating cycles AC 15 Cos Q 0 3 6000 operating cycles DC 13 L R 300 ms 6000 operating cycles Enclosure material Self extinguishing Pc Terminal capacity With cable end 2x1 5 Without cable end 2X 25 Temperature Operation C 20 60 conforming to IEC 68 1 14 limits Storage C 30 70 conforming to IEC 68 1 1 2 Relative humidity 93 without condensation Product certifications mE c UL us CSA Functions Dimensions Scheme page 5 74 page 5 74 page 5 74 Functions Zelio Control measurement and control relays Motor load control relays Cos model RM 84 873 Self powered Control of motor overload and underload Measurement of
224. k Up to 690 V 10 million 10 million CAD Ce CAeSK Equipment based on plug in control relays Plug in control relays Universal type plug in control relays Miniature plug in control relays Interface relays 12 240 V 24 230 V 24 230 V 24 240 V other voltages available on request other voltages available on request 5 240 V 24 or 48 V 12 24 48 or 110 V 6 12 24 48 600r 110 V other voltages available on request other voltages available on request e e e e e e z e e e e Low consumption as standard for Version with low level contacts gold flashed contacts 4 C O Off delay On delay 5A Up to 250 V 400 000 1 Manual override of contact operation possible by means of actuator Version with LED to indicate relay status Version with gold flashed contacts Other functions and connections available on request 2 or 3 C O Off delay On delay 10 A RUN 21 and RUN 31 4 A RUN 33 500 000 2 5 1 Please consult your Regional Sales Office 2 or 4 C O Off delay On delay 2 3 or 4 C O Off delay On delay 5 A RXN 21 6 A RXL 4 10 A RXL 3 12 A RXL 2 100 000 100 000 2 8 1 or 2 C O Off delay On delay 8 A RSB 2A080ee 12 A RSB 1A120ee 16 A RSB 1A160ee Up to 400 V 300 V 100 000 2 11 2 3 Characteristics Zelio Relay plug in relays Universal relays Relay type R
225. ke Conforming to standards VDE 0110 IEC 664 IEC 48 IEC 255 4 IEC 255 5 IEC 801 2 IEC 801 4 Front panel degree of protection IP 66 Temperatures Operation C 10 55 Storage C 20 70 1 The reset is galvanically isolated from the counting input RC 87 610 240 RC 87 610 250 General Counting reset inputs General Counting inputs reset inputs inputs Terminals Terminals 1 General reset input 1 Reset 48 240 V 2 General reset common 2 General reset common 3 Count common 3 Reset 5 50 V 4 Counting 4 u 5 50 V 5 Not connected 5 Count common 6 Not connected 6 48 240 V References Dimensions page 4 13 page 4 13 560813 References Zelio Count counters dimensions Electronic total partial impulse counters 24 x 48 8 digits LCD Partial or total count display B Counting capacity g partial 0 999 999 EHI total 0 99 999 999 Counting inputs and reset inputs o RC 87 610 240 solid state o RC 87 610 250 voltage Decimal point Integral module for voltage inputs 5 50 V 48 240 V Powered by lithium battery Life 5 years Front panel reset for partial count Front panel or electrical reset for total count Accessories for panel cut out 25 x 50 45 x 45 50 Total partial impulse counters LCD 24 x 48
226. l requirements The manufacturer must take all the necessary measures to ensure that his products conform to the requirements of each Directive applicable to his production As a general rule the manufacturer certifies conformity to the essential requirements of the Directive s for his product by affixing a C mark The C mark is affixed to Telemecanique brand products as defined by French and European regulations Significance of the C mark The C mark affixed to a product signifies that the manufacturer certifies that the product conforms to the relevant European Directive s which concern him this condition must be met to allow free distrubition and circulation within the countries of the European Union of any product subject to one or move of the E U Directives The C mark is intended solely for national market control authorities The C mark must not be confused with a conformity marking 7 6 Technical information Product standards and approvals European Directives continued For electrical equipment only conformity to standards signifies that the product is suitable for its designated function and only the guarantee of an established manufacturer can provide a high level of quality assurance For Telemecanique brand products one or several Directives are likely to be applicable depending on the product in particular the Low Voltage Directive 73 23 EEC amended by Directive 93 68 EEC the
227. lay t2 ms 300 in the event of loss of one phase Creepage distance Conforming to IEC 60664 1 kV 4kV 3 and clearance Clamping capacity Without cable end mm 2x 2 5 With cable end mm 1x40r2x1 5 Tightening torque Nm 1 M3 screw IEC 947 1 Temperature limits Operation C 20 50 Storage C 30 70 Enclosure material REI Self extinguishing PC Protection class Terminal block IP 20 Enclosure IP 40 Dielectric strength Conforming to IEC 255 5 2 5 kV 1 min 1 mA 50 Hz Product certifications c UL us CSA Functions Schemes page 5 15 page 5 79 Functions schemes Control EH phase sequence O phase failure O voltage drop on one or more phases E Regeneration rate 90 of Un Power supply 3 x 230 V and 8 x 400 V B Dual frequency 50 and 60 Hz B indication of phase presence and relay state by yellow LED Relay output 2 C O contacts 8A Zelio Control measurement and control relays Phase control relays self powered model RM 84 873 This relay monitors the correct sequencing of phases L1 L2 and L3 as well as a regeneration rate equal to 9096 10 96 of Un When the phase sequence is correct the output relay is energised this is indicated by a yellow LED The relay de energises LED off if one of the following faults occurs incorrect sequence of phases at terminals L1 L2 and L3 voltage drop on one or more phases
228. lays may be used B Fordetection of a liquid level operating with 2 electrodes one reference electrode and one high level electrode or an LA9 RM201 probe Example prevention of tank overflow B For regulating a liquid level between a minimum and a maximum level operating with 3 electrodes one reference electrode one low level electrode and one high level electrode or two LA9 RM201 probes Example water tower The state of the output relay can be configured m Empty function _ the output relay is energised when high level electrode B2 is immersed and is de energised when low level electrode B3 is dry 1 m Fill function y the output relay is energised when the low level electrode is dry and is de energised when high level electrode is immersed 1 On model RM4 LA32 a time delay can be set on energisation or de energisation of the output relay in order to raise the maximum level function 2 or to lower the minimum level function agg This function also makes it possible to avoid pulsing of the output relay wave effect when operating with 2 electrodes Empty function maximum level detection 2 electrodes or 1 probe LA9 RM201 Type Function Time delay B1 B2 B1 B2 B1 B2 RM4 switch3 switch 4 J Esch im U supply A1 A2 Gor ip B 138 mie vee LA32 LL QD E ee Ee LA32 ii 18 18 28 26 Empty function regulation between a maximum and a minimum level
229. le between 0 1 and 10 seconds on the front panel of the device Overvoltage and undervoltage indicated by 2 yellow LEDs E Power on indicated by 1 green LED 2 output relays upper and lower threshold 2 separate time delays Zelio Control measurement and control relays Voltage control relays for 3 phase supply model RM 84 873 The two relays are energised when the measured voltages are between the minimum and maximum thresholds which can be adjusted separately via two potentiometers on the front panel of the device If one or more voltages go outside the window between the two thresholds the relay corresponding to the fault de energises following a delay which can be adjusted on the front panel Each relay can have its own individual time delay 0 1 to 10 s A hysteresis fixed at 3 ensures bounce free relay switching when the voltage levels return to a value between the upper and lower thresholds The device is not affected by the phase sequence or by harmonic distortion A green LED indicates that the power supply is ON Two yellow LEDs indicate when the upper and lower thresholds have been exceeded They are lit when the voltages are within the set window 3 phase supply Upper threshold Lower threshold H1 peT OM T1 T2 gt ar Lower threshold 340 392 195 225 Upper threshold 408 460 235 264 RM 84 873 201 RM 84 873 211
230. ller programs Backup of controller programs to the optional EEPROM memory modules 02000 Connecting a PC to a Twido controller m The PC is connected to the built in serial port of the Twido controller by means of a TSX PCX 1031 multifunction cable or to a USB port using cable TSX PCX 3030 Windows 2000 or XP only It converts RS 232 output signals from the PC to RS 485 signals for the controller Connection of a PC via cable to the built in port of Twido base controllers automatically sets the communication protocol of this port to a protocol which is compatible with TwidoSoft B itis also possible to connect the PC to the serial port of Twido base controllers via modems The modems used must be defined for TwidoSoft via the Preferences screen and for the Twido controller via the hardware configuration Connection management screen When the connection is established TwidoSoft and the Twido controller will each initialise the modem assigned to them by sending a initialisation string of the Hayes protocol type Functions ELI My application E ij TWDLMDAADODUK amp fl Hardware 7 Port 1 Remote Link 1 Expansion Bus E ra Software Fia Constants Ph Constants KD d Constants KF 2 Counters Drum Controllers 4233 Fast Counters LIFO FIFO Registers O XPLS XPWwM IP Schedule Blocks Timers 1 2 Very Fast Counters PID E Program amp Symbols Animation T ables amp Documentation Twido
231. ls Tightened using 3 5 screwdriver Smart relay type Primary Immunity to electromagnetic radiated fields IEC 61000 4 3 level 3 Immunity to fast transients in bursts IEC 61000 4 4 level 3 Immunity to shock waves IEC 61000 4 5 Radio frequency in common mode IEC 61000 4 6 level 3 Voltage dips and breaks Immunity to damped oscillation wave Conforming to EN 55022 11 Group 1 Flexible cable with cable end IEC 61000 4 11 IEC 61000 4 12 Class B 1 conductor 0 25 2 5 cable AWG 24 AWG14 2 conductors 0 25 0 75 cable AWG 24 AWG18 Semi solid cable mm 1 conductor 0 2 2 5 cable AWG 25 AWG14 Solid cable mm 1 conductor 0 2 2 5 cable AWG 25 AWG14 2 conductors 0 2 1 5 cable AWG 24 AWG16 Tightening torque N m 0 5 SR2 B121JD SR2 B201JD Voltage limits Including ripple ao 10 4 14 4 10 4 14 4 Nominal input current 120 200 Maximum nominal input current with extensions 144 250 Power dissipated 1 5 2 9 Micro breaks Permissible duration ms lt 1 repeated 20 times Protection Smart relay type Primary Nominal voltage Against polarity inversion Voltage limits Nominal input current Including ripple Maximum nominal input current with extensions Power dissipated Maximum power dissipated with extensions Micro breaks Permissible duration 1 repeated 20 times Protection ate polarit
232. ltivoltage 1 contact 2 timed contacts 1 timed contact 1 or 2 relay outputs 8 A 250 V 10 A UL Plug in State indication by 1 LED U U U Option of supplying a load in parallel R R1 R2 C 3 wire sensor control option T T oo T Function Di Function B Function Ht Flashing relay Timing on impulse one shot Delay on energisation with Pulse start memory U U U R C C Tel R R co T t1 t2 T t1 2 561177 561178 561178 O E E eras feral ais APs A E E Connection Plug in sub base e e e Functions Multifunction Single function Single function A At B C H Ht Di D A C Ac Bw Timing ranges 7 ranges 1s 10s 1 min 10 min 1h 10h 100h Relay output 1 timed contact 2 timed contacts 1 timed contact Rated current 8A 8A 8A Voltages 24V 24 240 V RE 88 867 105 RE 88 867 215 RE 88 867 135 n 12V 12 240 V Weight kg 0 080 0 080 0 080 Socket 1 8 pin RUZ 1D RUZ 1D RUZ 1D Weight kg 0 067 0 067 0 067 1 These products are sold in packs of 10 Dimensions Characteristics Schemes pages 3 38 and 3 39 page 3 41 3 40 Function L Function D Function At Function H Function Li Asymmetrical recycler Flashing relay Timing on energisation Timing on energisation Asymmetrical recycler Start after pause Start after pause with memory Pulse start U U U U U R R R T 14 12 T4T R T 14 T2 t1 t2 T t14 t2 Function Ac Function Bw Timing after closing opening
233. m O 250 KQ to 5 kQ low sensitivity O 50 kQ to 1 MQ high sensitivity Zelio Control measurement and control relays Liquid level control relays low and high sensitivity model RM 84 870 Control of maximum and or minimum levels of conductive liquids tap water sea water waste water chemical solutions coffee The operating principle is based on measurement of the apparent resistance of the liquid between two submerged probes When this value is less than the threshold setting on the front panel of the device the output relay changes state To avoid electrolytic phenomena an a c current runs across the probes Applications in the food processing chemical industries etc The output relay changes state when the level of the liquid reaches the maximum level probe with the minimum level probe submerged It returns to its initial state when the minimum level probe is no longer in contact with the liquid Emptying control Un rrr SC Max level lo GF l I Min level f Ii i S amp S e S D Output relay References Characteristics Dimensions Schemes page 5 55 page 5 55 page 5 55 page 5 78 5 54 561007 References Zelio Control measurement characteristics and control relays dimensions Liquid level control relays low and high sensitivity model RM 84 870 Emptying control relays low
234. mber of channels 1 output Voltage Current Range 0 10 V 4 20 mA Resolution 4096 increments 12 bits LSB value o sw AA Load impedance Q 2000 min 300 max Applicable load 2 Resistive Stabilisation time Total output system transfer time External supply V ms 20 20 1 controller scan time Rated voltage 24 Voltage range 20 4 28 8 Measuring precision Max error at 25 C PE t 0 2 Temperature coefficient 0 015 Repeat accuracy after t 0 5 stabilisation time Output error PE Non linearity PE 0 2 Output ripple 1 low significance bit max Total error PE Cabling Twisted shielded pair recommended Dielectric strength V rms v 500 between the input and the supply circuit Consumption 5 V internal supply mA 50 for TWD AMO 1HT 24 V external supply mA 40 1 29 References Twido programmable controller Analogue I O modules These analogue l O expansion modules are mounted on symmetrical DIN rails to the right of the Twido base controller The sensors preactuators are connected to a removable screw terminal block supplied with each module The maximum number of analogue I O modules which may be mounted depends on the type of base controller Type of LCAA LCAA LCAA LMDA LMDA LMDA TWD 10DRF 16DRF 24DRF 20DeK 20DRT 40DeK controller Number of 0 0 4 4 7 7 modules j Ex Analogue I O modules E Channel Input range Output range Resolution Re
235. mmon References Characteristics Dimensions page 5 57 page 5 57 page 5 57 Heferences characteristics dimensions Zelio Control measurement and control relays Plug in liquid level control relays 561008 model RM 84 870 Liquid level control relays Number of pins Voltage Reference PE 8 pin 24M RM 84 870 301 YT 120V RM 84 870 303 0 140 230 V RM 84 870 304 0 140 11 pin 24V RM 84 870 306 0 140 120V RM 84 870 308 0 140 RM 84 870 303 230 V RM 84 870 309 0 140 Special 11 pin base fitting 230 V RM 84 870 807 0 190 Note The probe cable maximum length 100 metres need not be screened but it is inadvisable to fit it in parallel with the power supply cables Screened cable may be used with the screening connected to the common Accessories Description Sold in lots of Unit reference Weight kg 11 pin socket 10 RUZ 1A 0 067 Supply voltage Un V 24 120 230 50 60 Hz Operating range 0 85 1 15 x Un Maximum power consumption VA 3 Sensitivity adjustment KQ 5 100 Measurement accuracy 0 30 at maximum sensitivity Maximum electrode voltage V 24 50 60 Hz Maximum electrode current mA 1 50 60 Hz Maximum cable capacity nF 10 Response time High level ms 300 Low level ms 500 Output relay to meet AC 1 requirements resistive load 1 C O contact AgCaO 8 A max Galvanic isolation via transformer Class Il VDE 0551
236. model RM 84 871 Current transformer incorporated by passing a cable through the front panel The relay contact 11 and 14 closes if the current is greater than the threshold a c current threshold adjustable from 1 to 20 A 30 Hz to 400 Hz via button on front panel The relay contact 11 and 14 opens if the current is less than 15 96 hysteresis of Relay output 5 A 250 V 1 N O contact the threshold Multivoltage supply EH e 110 to 240 V 50 60 Hz O v Or 24 V 1 17 5 mm enclosure clips onto symmetrical DIN rail UA1 A2 Amplitude of measured current threshold 11 14 Closed 11 14 Open T1 Delay on pick up 500 ms maximum T2 Response time to sensing 400 ms 50 96 T3 Response time on de energisation 120 ms 50 96 A1 A2 110 240 V supply A1 A2 or 24 V supply References Characteristics Dimensions page 5 45 page 5 45 page 5 45 561003 References Zelio Control measurement characteristics and control relays dimensions a c current control relays model RM 84 871 a c current control relays Voltage Reference Weight kg A 24 Vl 110 240 V RM 84 871 102 0 080 sss a s Note The graduated set point scale on the front panel relates to sinusoidal or delta current measurement The relay can measure non sinusoidal currents for example currents subject to phase control In this case an error coefficient may be assigned to th
237. n Zelio Logic smart relays Compact and modular smart relays With display 10 12 and 20 I O Without display 10 12 and 20 I O ON 99 2999052529 5 oo ee oo oo cf 1 Ti 7 69 0O02529025202292029 pec Eum I oj DRAFT Agam dr dsl Compact smart relays have the following on the front panel Two retractable fixing lugs Two power supply terminals Terminals for connection of the inputs Backlit LCD display with 4 lines of 18 characters Slot for a memory cartridge and connection to a PC 6 buttons for programming and parameter entry Terminals for connection of the outputs 10 and 26 I O T F c i L e M Li i mp ud Ge Steg 1E Fa aum ifi T i g 1 il L la 5 am I f n r i F Modular smart relays have the following on the front panel Two retractable fixing lugs Two power supply terminals Terminals for connection of the inputs Backlit LCD display with 4 lines of 18 characters Slot for a memory cartridge and connection to a PC 6 buttons for programming and parameter entry Terminals for connection of the outputs 10 and 14 I O 6 I O 1 o 4 E aa s 5 2 mme 5 29900 eis jH jP dut I O extension modules have the following on the front panel 1 2 3 Two retractable fixing lugs Terminals for connection of the inputs Terminals for connection of the outputs A connector for connection to the smart relay p
238. n channels common point Between channels common point Between bus and channels by photocoupler Between bus and channels 1500 V for 1 minute 1 22 1 Source output positive logic sink output negative logic i8 16 24 V transistor outputs 16 24 V transistor outputs HE 10 connector Transistor 20 4 28 8 V Sink Source 1 common point 0 1 A nominal 32 24 V transistor outputs Sink 2 common points 32 24 V transistor outputs Source 1 A at 28 8 V Between channels common point Between bus and channel by photocoupler 1 22 Telemecanique 1 19 Presentation Twido programmable controller description Discrete I O modules The range of Twido I O modules includes input modules output modules and mixed input output modules With the 14 I O modules offered in addition to the I O integrated in 24 I O compact base controllers and modular base controllers configurations can be adapted to best suit application requirements so optimising costs The following discrete I O modules are available m 4 24 V discrete input modules comprising an 8 channel module two 16 channel modules and a 32 channel module equipped with either removable screw terminal blocks or HE 10 type connector depending on the model These modules can be either sink or source B 8 discrete output modules comprising two output modules with 8 and 16 relay outputs three output modules with 8 16 or
239. n the probes The probes are normally designed for fixing to a tank by means of a bracket with a seal closed tanks or suspended by their own electrical connecting cable boreholes etc See page 5 63 Setting up Probe LA9 RM207 Presentation References Dimensions schemes Setting up pages 5 58 and 5 59 page 5 60 page 5 62 page 5 63 Dimensions Zelio Control measurement and schemes control relays Liquide level control relays RM4 LG01 LA32 Rail mounting Screw fixing 89 5 82 Probe LA9 RM201 RM4 LA32 A1 A2 Supply voltage Electrodes and level controlled B1 B2 B3 Electrodes see table opposite B1 Reference or tank earth electrode 15 18 1 C O contact 15 16 of the output relay B2 High level 25 28 2 C O contact 25 26 of the output relay B3 Low level Presentation References Characteristics Setting up pages 5 58 and 5 59 page 5 60 page 5 61 page 5 63 Setting up Zelio Control measurement and control relays Liquide level control relays B Select the empty fill 4 function according to the sequence to be performed m f necessary set potentiometer 1 to minimum time delay B Set potentiometer 2 to minimum on RM4 LA select the lowest sensitivity range using potentiometer 4 5 rz or 5 ggg m With all the electrodes immersed turn the sensitivity potentiometer towards maximum until the relay is energised function or de energ
240. n the value of the controlled signal a c or d c reaches the threshold set on the front panel the output relay opens failsafe at the end of time delay T It closes immediately when the signal goes below or above in under value mode the threshold minus hysteresis plus hysteresis in under value mode When the threshold is reached the output relay opens at the end of time delay T and remains in that position To reset the relay the power supply must be switched off This operating mode enables the detection of over or under values of short duration Notes The threshold crossing time delay T which can be adjusted on the front panel from 0 1 to 3 seconds ensures immunity to transients and other interference thus preventing spurious triggering of the output relay In under value mode the absolute value of the hysteresis cannot be more than the maximum of the measurement range Normal mode In this mode the device displays the value of the measured signal its form or the mode selected OVER or UNDER the memory function ON or OFF and the state of the output relay In the event of measurement overflow the display indicates OVERFLOW by three dashes on the screen and the flashing symbol OVER Parameter entry mode If the user wishes to modify one of the three parameters Threshold Hysteresis or Threshold delay he simply needs to set the corresponding potentiometer and the value of the modified parameter au
241. nd control relays Voltage measurement relays model RM4 U Example of undervoltage to be measured Undervoltage threshold to be measured 12 V Output relay time delay 20 s Reset voltage threshold 13 2 V Supply voltage 230 V 60 Hz Product selected RM4 UA32M Connection of voltage to be measured B2 C 5 to 50 V A OND m Adjustments o Adjustment of function and timing range switch 4 determine the timing range immediately greater than the time required in the above example 30 s determine whether overvoltage or undervoltage detection is required in this example undervoltage position switch 4 according to the above 2 criteria in this example switch 4 on 30 O Fine adjustment of time delay Depending on the max range setting displayed at 4 in the above example 30 s use potentiometer 3 to set the required time delay as a 96 of value In the above example the required time 20 s therefore Set the time delay potentiometer 3 to 66 tx100 20x100 o 930 66 4 O Set the voltage threshold setting potentiometer 1 as a percentage of the maximum value of the measuring range selected when wiring In the above example wiring B2 C max value of measuring range 50 V therefore Setting 1 exis 24 Set the voltage threshold setting potentiometer to 24 O Set the hysteresis 2 as a of the threshold value in this example Setting 2 132 12 10 Set the hysteresis 2 to 10
242. nd R2 change to the energised state and the pump is ON emptying starts the LED Max for relay R1 is lit When the liquid reaches the max level probe relay R1 Mi de energises and the pump is OFF emptying stops the LED for relay R1 goes out n In the event of a fault if the level continues to drop probe Al emerges relay R2 ga BEES de energises and the alarm is triggered the LED for relay R2 comes on This fault Ti T3 T3iT2 T2 can be memorised al li San A On energisation the min level and max level probes are submerged and probe Al Un is above the level of the liquid Relays R1 and R2 change to the energised state and R the pump is ON emptying starts the LED for relay R1 is lit When the min level Min probe emerges relay R1 de energises and the pump is OFF emptying stops the LED for relay R1 goes out The relay re energises when the max level probe is R1 l Hb submerged In the event of a fault if the level continues to rise and reaches probe Al relay R2 de energises and the alarm is triggered the LED for relay R2 comes on This fault can be memorised T1 Delay on pick up T3 Response time on emersion T2 Response time on T4 Response time on energisation Immersion References Characteristics Dimensions Scheme page 5 67 page 5 67 page 5 67 page 5 67 561033 References Zelio Control measurement and characteristics control relays scheme Liquid level control relays with alarm dimensi
243. nding on type of RM4 JA B1 B2 Currents to be measured RM4 JA01 B1 C 3 30 mA RM4 JA32 B1 C 0 3 1 5 A B3 C see table opposite amp RM4 JA31 B2 C 10 100 mA B2 C 1 5A B3 C 0 1 1 A B3 C 3 15 A Example detection of blockage on a crusher overcurrent function Current measured x 15 A Current measured 15 A gt T co LO T co LO at F at F N AC B3 C e RM4 JAS3 KM1 Overtorque Overtorque Presentation References Characteristics Setting up pages 5 46 and 5 47 page 5 48 page 5 49 page 5 51 Setting up Zelio Control measurement and control relays Current measurement relays model RMA J Example of overcurrent to be measured Overcurrent threshold at 13 A Output relay time delay 5 s Reset current threshold 11 A Supply voltage 127 V Product selected RM4 JA32MW Connection of current to be measured B3 C 3 to 15 A Ac N m Adjustments o Adjustment of function and timing range switch 4 determine whether overcurrent or undercurrent detection is required in this example overcurrent determine the timing range immediately greater than the time required in this example 10 s position switch 4 according to the above 2 criteria in this example switch 4 on gt 10 O Fine adjustment of time delay Depending on the max range setting displayed at 4 in the above example 10 s use potentiometer 3 t
244. ne adjustment of time delay as of setting range max value 2 Fine adjustment of response sensitivity as of setting range max value 3 Function selector switch empty or fill y 4 Switch combining selection of the response sensitivity range selection of time delay on energisation or on de energisation g of the relay R Yellow LED indicates relay state U Green LED indicates that supply to the RM4 is on Table showing details for switch 4 Switch position Time delay Sensitivity 500 BZ On delay High 2 500 kO range 500 EN Off delay High 2 500 kO range 50 EJ On delay Medium 50 KQ range 50 mmi Off delay Medium 50 kO range 5p On delay Low 5 kQ range 5a Off delay Low 5 kQ range References Characteristics Dimensions schemes Setting up page 5 60 page 5 61 page 5 62 page 5 63 5 58 Presentation continued Zelio Control measurement and control relays Liquid level control relays model RM4 The operating principle is based on a change in the resistance measured between immersed or non immersed electrodes Low resistance between electrodes liquid present High resistance between electrodes no liquid present The electrodes may be replaced by other sensors or probes which transmit values representing variations in resistance The a c measuring voltage which is 30 V and galvanically insulated from the supply and contact circuits ensures safe use and the absence of any electrolysis phenomena RM4 re
245. nter Standard RS 485 RS 232 cable on optional port 6 3 Link by cable 1 Simple ASCII display 2 Standard RS 485 cable or cable TSX PCX 1031 for RS 232 conversion on serial port 3 Twido compact or modular controller 4 Standard RS 485 RS 232 cable on optional port 5 ASCII printer Protocol type ASCII Data rate Kbit s 1 2 38 4 Initial value 19 2 Data bits 70r8 Initial value 8 Stop bits 1or2 Initial value 1 Parity Without even or odd Initial value without Physical layer RS 485 RS 232 Connection Serial port RS 485 or optional port RS 485 RS 232 Compatibility With compact base controllers TWD LCAA eeee and modular base controllers TWD LMDA eeee Remote Link decentralised I O Each compact or modular base controller can be extended by means of Twido base controllers used either as an I O extension or as a local reflex controller r1 When used as an I O extension these base controllers cannot take any I O extensions r1 When used as a local reflex controller these base controllers have their own application program Internal words are reserved for automatic exchange of information between the base controllers 1 Base controller 2 RS 485 3 wire cable on serial port or on optional port I Twi ntroller xtension or as local reflex controller 1 Connection is made either to the serial port or to the optional port do base controllers used as I O extension o
246. nting thread Dimensions page 5 73 Dimensions Zelio Control measurement and control relays Electrode holders and probes RM 79 696 044 lt 38 5 32 fa je C1 cable supplied to required length RM 79 696 001 RM 79 696 006 E 84 j c 2 z o T LO Y LO O References page 5 72 Functions Zelio Control measurement scheme and control relays dimensions Underspeed control relays model RM 84 874 Detection of motor underspeed stoppage running speed or stalling Information detected by 3 wire or NAMUR sensor or by contact or voltage m Adjustable time from 100 ms to 10 min in 4 sub ranges Power on inhibit time adjustable from 0 3 to 30 seconds Default time delay adjustable from 0 3 to 3 seconds Power on and output relay state indication LEDs This control relay is used to resolve problems of underspeed on conveyor belts conveyors etc where crossing of a low speed threshold must trigger an alarm Speed information is detected by means of a sensor such as a 3 wire or NAMUR proximity sensor or a volt free contact or the voltage On energisation in order to allow the process being monitored to reach its operating speed monitoring is inhibited for a time between 0 3 and 30 seconds which can be adjusted on the front panel of the cont
247. o e xo e lt co S2 om co al t N N wi v2 K3 V1 ii U1 Y A N K1T relay RE7 YR A No galvanic isolation between supply terminals A1 A2 B1 B2 and supply terminal Z2 This terminal must therefore never be used factory setting Control of several relays with a single external control contact Connection of a Telemecanique 3 wire NPN or PNP sensor O A1 B1 O A1 B amp It is advisable to follow the recommended wiring schemes detailed above and on previous pages However the connections below are possible if the restrictions given are taken into account Connection of an external control contact without using terminal Z2 Connection of a Telemecanique 3 wire NPN or PNP sensor without using terminal Z2 possible on all RE7 relays with external control option except RE7 RA11BU only possible on relay RE7eeeeBU d c supply only d c supply only y do d A1 B1 or B12 ALBTorBi2 Y1 or X1 Y1 or X1 T T d Characteristics References pages 3 24 and 3 25 pages 3 26 to 3 29 3 31 560953 Characteristics Zelio Time timing relays Industrial single function relays optimum relay output width 22 5 mm Conforming to standards The RE8 range of relays is designed for simple and repetitive applications providing basic functions Each relay comprises a single timing range a C O output relay These
248. o control the preactuators in devices such as variable speed drives valves and applications that require process control The output current or the voltage is proportional to the numerical value defined by the user program When the Twido controller stops the outputs can be configured with fallback reset to the lowest scale value or hold the last value received This function when set to hold is useful when debugging the application or when a fault occurs in order not to disturb the process being controlled The 4 following analogue I O modules are available m One module with 2 high level inputs m One module with 1 high level input m One mixed module with 2 inputs and 1 high level output m One mixed module with 2 thermocouple or temperature probe inputs and 1 high level output All Twido analogue extension modules offer 12 bit resolution 4096 points with connection by removable screw terminal block An external 24 V power supply is required for each analogue module Like discrete I O modules analogue I O modules are connected to the base controller by stacking them on a DIN rail starting from the right hand side panel of the base controller according to the following rules B For 24 I O compact base controller TWD LCAA 24DRF 4 modules max see characteristics page 1 6 m For 20 I O modular base controllers TWD LMDA 20DeK 4 modules max see characteristics page 1 13 m For 40 I O modular base controllers TWD
249. o improve the safety of your electrical installation These relays allow you to ensure that your equipment is working under correct conditions by checking their supply voltage Control select Overvoltage or Undervoltage mode by means of a dip switch Safety in the same way choose whether or not to activate the fault memory function and the delay on threshold crossing Accuracy 2 products for greater measuring accuracy provided by a microprocessor Zelio Control measurement and control relays Voltage control relays model RM 84 872 Control of a c d c voltage without memory When the value of the controlled voltage a c or d c reaches the threshold Ue displayed on the front panel the output relay changes state at the end of a time delay T1 which can be set on the front panel to between 0 1 and 3 s As soon as the voltage drops below 5 to 5096 of the threshold hysteresis the output relay instantly changes state again Changing the hysteresis on the front panel does not therefore modify the value of the preset threshold Control of a c d c voltage with memory When the value of the controlled voltage a c or d c reaches the Ue threshold displayed on the front panel the output relay changes state at the end of a time delay T1 which can be set on the front panel to between 0 1 and 3 s and remains latched in this position Without With U supply 4 fault memory fault memory Meas input AN
250. o set the required time delay as a of value 4 In the above example the required time 5 s therefore tx100 5x100 Set the time delay potentiometer 3 to 50 qo 7 49 7299 O Set the current threshold setting potentiometer 1 as a percentage of the maximum value of the measuring range selected when wiring In the above example wiring B3 C max value of measuring range 15 A therefore Setting 1 is OF 87 96 Set the current threshold setting potentiometer to 87 O Set the hysteresis 2 as a of the threshold value in this example Setting 2 23 15 4 96 Set the hysteresis 2 to 15 13 11 21 e 15 4 of the current to be measured Extension of the measuring range B d c or a c supply Simply connect a resistor Rs to terminals B1 C or B2 B3 C on the measuring input The relay energisation threshold will be towards the middle of the setting potentiometer range if the value of Rs is in the region of B Ri Rs Glim 1 where Ri Internal resistance of input B1 C Im Maximum value of threshold setting range Current threshold to be measured Power dissipated by Rs P Rs I Im 2 m Application Use of relay RM4 JA31ee 10 to 100 mA Connection B2 C to measure a threshold of 1 A knowing that Ri 10 Q for this rating and that Im 100 mA 10 7 The value of Rs will be exon 0 526 Q P 1 D 2x 0 526 i e 0 47 W Select a resistor Rs capable of dissipating at least twice
251. o the controller memory downloaded in order to be able to run on the controller On line mode is used to debug and adjust this application In this mode the application program in the PC memory is identical to the application in the controller memory Program changes can therefore be made directly to the application in the Twido controller Editors and viewers TwidoSoft provides special windows called editors for performing the main tasks necessary to develop an application A TwidoSoft application consists of a program configuration data symbols allocated to the variables and documentation These components can be used in any order when creating an application Developing each part of an application using separate editors makes it possible to rationalise the development process TwidoSoft software provides B instruction List language and Ladder language editors B A configuration editor m Variables editors with symbols and animation table editors m Ladder language cross reference and program error viewers TwidoSoft software also provides security features to protect the integrity of programs Application protection right of access prevents access to the controller application This option prohibits unauthorised transfers of an application Password protection is selected when an application is transferred to the controller to make access to the application secure Configuration of hardware and software Configuring Twido progr
252. odule 4 Port type RS 485 RS 232C with module TWD NOZ 232D Maximum data rate RS 485 with module TWD NOZ 485e K bits s 38 4 Isolation between internal circuit and serial port Not isolated Programming terminal connection Communication protocols Half duplex terminal port No Modbus Master Slave RTU ASCII character mode Remote Link I O Yes see page 1 35 Integrated functions Counter Number of points 4 Frequency 2 channels at 5 kHz function FCi 2 channels at 20 kHz function VFCi Capacity 16 bits 0 65535 points Positioning Number of points 2 Frequency Functions PWM pulse width modulation output PLS pulse generator output Analogue input Number of channels 1 channel Range 0 10 V Resolution 9 bits 0 511 points Input impedance PID ko 100 For controller versions gt 2 0 Event processing For controller versions gt 2 0 Analogue adjustment points N 1 point adjustable from 0 1023 points 1 Source output positive logic sink output negative logic 2 The first value corresponds to the maximum number of I O base controller and expansion module with screw or spring terminal expansion modules the second value is for HE 10 connector expansion modules 3 The maximum values cannot be cumulated 4 Or with serial interface adapter TWD NAC eeee fitted in built in display module TWD XCP ODM 1 12 Characteristics continued Twido programmable controlle
253. ollers 5 These products do not conform to standard EN 61000 3 2 6 Compatible input voltage not indicated on the product 7 With earth fault detection Dimensions Twido programmable controller connections Modular base controllers TWD LMDA 20DeK 20DRT 40DeK Installation rules b gt ja Fit j a t H a b TWD LMDA 20DTK DUK 35 4 0 excluding connector Important TWD LMDA 20DRT 475 146 m Horizontal or flat mounting not permissible m Avoid placing devices which generate heat transformers power supplies power TWD LMDA 40DTK DUK 47 5 O excluding connector contactors beneath the controller TWD LMDA 20DTK TWD LMDA 20DUK TWD LMDA 20DRT O The COM and COM terminals are interconnected internally O Output channels 0 and 1 are of the source transistor O The COM and COM COM and COM terminals are independent type O The V and V terminals are interconnected internally Output channels 2 to 7 are of the relay type TWD LMDA 40DTK TWD LMDA 40DUK O The COM terminals are independent O Connectors CN1 and CN2 are independent 1 Supply connection for sink inputs positive logic O The COM and COM terminals are interconnected internally 2 Supply connection for source inputs negative logic O The COM and COM COM and COM terminals are independent O The V and V terminals are interconnected internally ans Twido programmable controller Discrete I O modules
254. oltage at 20 C V 4 20 120 200 350 650 Peak overload lt 1 ms at 20 C V 50 100 300 lt 50 ms at 20 C kV 2 2 2 Relay type RM 84 871 305 RM 84 871 310 Input circuits E1 M E2 M E3 M E1 M E2 M E3 M Measurement ranges Input resistance 2 20mA__ 10 100 mA 50 500 mA 05 5A 1 10A Maximum continuous voltage at 20 C Peak overload lt 1 ms at 20 C Maximum line voltage Q 5 1 0 2 0 1 0 02 0 01 A 1 5 8 17 20 50 Hysteresis Frequency of a c signal measured Mains 277 480 V Adjustable from 5 to 50 96 of threshold 40 500 Threshold setting accuracy 10 Repeat accuracy 0 1 with constant parameters Temperature drift 0 05 C Voltage drift lt 0 5 96 Functions Dimensions Schemes page 5 36 page 5 38 page 5 39 Dimensions Zelio Control measurement and control relays Voltage current control relays with display models RM 84 872 and RM 84 871 RM 84 871 305 RM 84 871 310 RM 84 872 301 RM 84 872 305 RM 84 872 310 Functions References Characteristics Schemes page 5 36 page 5 37 page 5 37 page 5 39 5 38 Schemes Zelio Control measurement and control relays Voltage current control relays with display models RM 84 872 and RM 84 871 m2j4 M A2 Functions References Characteristics Dimensions page 5 36 page 5 37 page 5 38 5 39 561037 Pre
255. om 0 3 to 3 seconds During this time delay the green LED flashes The relay closes again as soon as the value measured has risen above the threshold plus the hysteresis If the value of the high threshold is set as less than or equal to the low threshold value the green LED flashes rapidly 2 Hz 3 phase supply Maximum Cos Minimum R1 R2 T2 T1 T1 q p lt b gt n References Characteristics Dimensions Schemes page 5 77 page 5 77 page 5 77 page 5 81 5 76 561004 References Zelio Control measurement characteristics and control relays dimensions Motor load control relays Cos 9 model RM 84 873 Motor load control relays Cos zu Power supply control Reference Weight e i kg 8x 230 V RM 84 873 400 0 360 ID ume y 400 V RM 84 873 401 0 360 ge 3 x 400 o A Mii x RM 84 873 400 Supply voltage Un V 230 400 self powered via L1 and L2 Operating range ae cS Un Power Rated VA 2 at Un Maximum VA 3 at Un 15 96 Immunity to microbreaks ms 10 Creepage distance Conforming to IEC 60664 1 kV 4kV 3 and clearance 04 0 99 Threshold display Voltage circuit input resistance kQ About 2 Un Current measurement ra By internal link via 2 terminals Current range A 05 10 Input resistance mQ 20 Maximum continuous current 14 at 20 C Peak overload A 50 1 second at 20 C Time delays On energi
256. ons model RM 84 870 Liquid level control relays with alarm Voltage Reference Weight k g 24V RM 84 870 501 0 280 TEKET e ee Ww 230 V RM 84 870 504 0 280 mm Li Mb Note The probe cable need not be screened but it is inadvisable to install it close to the power ecran e supply cables RM 84 870 504 In order to conform to the EMC directive 89 336 EEC a screened cable must be used with the screening connected to the common and to earth Supply voltage Un V 24 or 230 50 60 Hz galvanic isolation by transformer Operating range ex 0 85 1 15 Un Maximum power Rated VA 3 at Un Maximum VA 4 at Un 15 96 Immunity to microbreaks ms 10 Delay on pick up t1 S About 2 Response time on t4 ms 500 de energisation Insulation coordination Category lll degree of pollution 2 conforming to IEC 664 1 VDE 0110 4 kV 2 Sensitivity range 5 100 kQ Setting accuracy 30 at maximum sensitivity Electrode voltage V 15 50 60 Hz mA 1 Electrode current Response time On immersion t2 ms 400 On emersion t3 ms 700 Output type 2 C O contacts AgCdO Breaking capacity 2000 VA 80 W Maximum breaking current A Curs Minimum breaking current mA 100 100 Maximum switching voltage V 250 250 Mechanical life 2 x 106 operating cycles Electrical life AC 12 2000 VA 10 operating cycles AC 15 Cos q 0 3 6000 operating cycles DC 13 L R 300 ms 6000 operat
257. ontrol relays model RM4 T Rail mounting a L 6th 89 5 E01 ee Screw fixing Terminal blocks RM4 TG20 TUOe 28 24 25 21 26 22 18 14 15 11 16 12 L1 L2 L3 15 11 18 14 15 11 16 12 25 21 28 24 25 21 26 22 Example Supply to be monitored 1st C O contact of the output relay 27d C O contact of the output relay RM4 TR3e TA3e L1 L2 L3 15 18 15 16 25 28 25 26 KM1 Supply to be monitored 1st C O contact of the output relay 2 C O contact of the output relay RM4 TAOe L1 L2 L3 Supply to be monitored 15 18 1st C O contact 15 16 of the output relay Presentation References page 5 11 Characteristics page 5 1 pages 5 8 to 5 10 12 Functions Optimised installation and space savings 22 5 mm Control the phase control relay can simply be installed and used to monitor phase failure or phase reversal without any adjustment Safety the level of safety of the installation can be selected by using versions with 1 or 2 C O output contacts B Self powered simple to install uses the controlled mains supply for its own power supply Zelio Control measurement and control relays Phase control relays self powered model RM 84 873 These relays monitor the correct sequencing of phases L1 L2 and L3 as well as the total loss of one of these phases When the phase sequence is correc
258. ontrollers page 1 2 Compact base controllers lelellllsl l l l e page 1 8 Modular base controllers 205 o Eos n Re eae nes page 1 14 Selection guide for discrete I O modules page 1 16 Discrete VO Modules sc ts oe ie ee ee ee ee page 1 22 Selection guide for analogue I O modules page 1 26 Analogue V O modules 905 91 tee eee ie is uem page 1 30 Master module for AS Interface bus Lll ee page 1 33 Communicatignie ure PM rr eR ERE eM eee page 1 35 Communication protocols eee urere ee page 1 36 Pre wired Solutions eee sU M epee eee eter eens page 1 39 TwidoSoft programming software page 1 46 Zelio Relay plug in relays Selection guide for control relays and plug in control relays page 2 2 Universal relays s cce vec cud ee UNA DNI eae aie aie ees ENDE page 2 5 Miniature relays core RECEN EE EE EUIS ene ei erect page 2 8 Interface relays s oo x ME page 2 11 Zelio Time timing relays Selection guide for Zelio Time timing relays page 3 2 Modular relays solid state output Lsees page 3 6 Industrial relays solid state output sees page 3 10 Modular relays relay output llllll eel ll er page 3 14 Industrial single or multifunction relays page 3 18 Industrial single function relays relay output
259. os q Current in A Example 1 L R 20 ms 2 L R with load protection diode An LC1 F185 contactor supplied with 115 V 50 Hz for a consumption of 55 VA or a current consumption 3 Resistive load equal to 0 5 A and cos 0 3 For 0 5 A curve 1 indicates a durability of approximately 1 5 million operating cycles As the load is inductive it is necessary to apply a reduction coefficient k to this number of cycles as indicated by curve 2 For cos 0 3 k 0 6 The electrical durability therefore becomes 1 5 106 operating cycles x 0 6 900 000 operating cycles 5 7 Presentation Zelio Control measurement and control relays 3 phase supply control relays model RM4 T These devices are designed to monitor 3 phase supplies and to protect motors and other loads against the faults listed in the table below They have a transparent hinged flap on their front face to avoid any accidental alteration of the settings This flap can be directly sealed 561011 Monitoring of rotational direction of phases Detection of complete failure of one or more of the phases Undervoltage detection Overvoltage and undervoltage detection 2 thresholds Detection of phase asymmetry imbalance pw Function performed Function not performed Control for connection of moving equipment site equipment agricultural equipment refrigerated trucks Bm Control for protection of persons and equipment against the
260. ounters Electronic preselection and multifunction counters Models RC 87 618 and RC 87 619 On multifunction version B totalising counter reset via front panel only B current value reset via front panel and electrical Measurement principle Measurement begins on a rising edge of the signal to be measured The measurement time is greater than TR but less than TL Measurement stops at the end of the current period 3 after TR If the period 3 does not end before TL the measurement result will be zero 0 The outputs are updated at the end of each measurement according to the selected output mode m Maintained output output active if the measured speed is greater than the preset speed B Pulsed output output activated during time T when the preset threshold is crossed Measurement accuracy 100 200 TR PPM Example for TR 1 s 300 PPM 0 03 95 pacte ee ES Sie eietbeise yeas rbv U A E Pact ee een ee le ire a eae re Dac CENAE cet ad 1 Maintained 2 Pulsed output Application example You wish to display a linear speed of 2 00 m s for a drive pulley rotating at 300 rev min A sensor on this pulley delivers one pulse per revolution i e V Ns Coef RPX SOME Required display V 2 00 result in m s RPX 1 Given that n 1 Ns Dwhere Coef Seay Cost Rer 40 In addition the decimal point is positioned in the hundreds xxxx xx Selection of TR you wish the meas
261. ounting 5 0V 6 48 240 V 7 5 kHz i E j Reset Start stop Reset Start stop inputs inputs inputs inputs Characteristics page 4 10 Characteristics Zelio Count counters schemes Electronic total partial impulse counters 24 x 48 8 digits LCD Function Impulse counter Display 8 digit LCD Digit height 7 Counting capacity 0 99 399 999 Counter type RC 87 610 240 RC 87 610 250 Input type 1 counting input by volt free contact or 1 galvanically isolated counting input NPN or PNP open collector transistor terminals 3 4 Minimum time closed ms 40 Voltage Terminals 4 5 V musssb 50 Terminals 5 6 V v 48 240 Front panel Partial counter always enabled External total counter Volt free contact or NPN or PNP open collector transistor terminals 1 2 Minimum time closed 40 40 Voltage Terminals 2 3 M E E V Terminals 1 2 v 48 240 Counting speed selectable with dispwitch n 4 Hz 14 or 100 14 Slow counting minimum Low level 35 impulse duration High level 35 Fast counting minimum Low level ms v 5 impulse duration High level ms 5 1 lithium battery 5 years Supply can be switched off via Dipswitch n 3 located on the underside of the device Product certifications c UL us CSA Material BEEN Self extinguishing Connection By 6 screw terminals on back of the device Clamping capacity 2x15 Fixing aes By yo
262. owered by the smart relay Locating pegs Functions Zelio Logic smart relays Compact and modular smart relays Zelio Soft for PC programming software Zelio Soft software allows B programming in LADDER language or in function block diagram language FBD simulation monitoring and supervision uploading and downloading of programs output of personalised files automatic compiling of programs on line help L ECEX 4 2 3c 2 me mg CH LL Nu WEM E LI n d Coherence test and application languages Zelio Soft software monitors applications by means of its coherence test function An indicator turns red at the slightest input error The problem can be located by simply clicking the mouse Zelio Soft software allows switching at any time to any of the 6 application languages English French German Spanish Italian Portuguese and editing of the application file in the selected language Inputting messages for display on Zelio Logic Zelio Soft software allows Text function blocks to be configured which can then be displayed on all smart relays which have a display Program testing 2 test modes are provided simulation and monitoring Zelio Soft simulation mode allows all the programs to be tested without the smart relay i e B enable discrete inputs m display the status of outputs B vary the voltage of the analogue inputs m
263. phase displacement between voltage and current Cos Independent adjustment of minimum and maximum thresholds from 0 1 to 0 99 Power on inhibit time adjustable from 0 5 to 20 seconds Default time delay adjustable from 0 3 to 3 seconds 2 output relays one per threshold Power on and output relay state indication LEDs The control relay is used for motor protection The variation in the power factor voltage current phase displacement or Cos is related to the variation in the mechanical load of the motor The control relay monitors the power factor and therefore the mechanical load and checks that it is between two defined and adjustable limits A green LED indicates that the power supply is ON Two yellow LEDs indicate the state of the output relays On power up the two output relays are closed for the duration of the inhibit time T2 adjustable from 0 5 to 20 seconds If the power factor value is between the two threshold settings both relays are closed If the power factor exceeds the maximum value set by the user the high threshold relay is de energised after a time delay T1 adjustable from 0 3 to 3 seconds During this time delay the green LED flashes 1 Hz The relay closes again as soon as the value measured drops below the threshold less the hysteresis If the power factor drops below the minimum value set by the user the low threshold relay is de energised after a time delay T1 adjustable fr
264. phase supply control relays model RM4 T m Undervoltage detection only RM4 TU O In normal operation the output relay is energised and the yellow LED is illuminated o If the average of the 3 voltages between phases is less than the undervoltage threshold setting the relay is de energised after 550 ms and the red LED lt U illuminates Function diagram 1 05 x Setting lt U Setting lt U isl 0 volt UL1 L213 l gt H l t l pisa NC 15 16 25 26 t fixed time delay 550 ms m Detection of phase asymmetry RM4 TA O In normal operation the output relay is energised and the yellow and green LEDs are illuminated O In the event of an asymmetry fault after a time delay set between 0 1 s and 10 s on RM4 TAS only the output relay is de energised the yellow LED goes out and red LED A illuminates RM4 TA3e only O The relay re energises when the asymmetry value measured is less than half of the asymmetry value setting hysteresis Function diagram i ga ae Asymmetry gt Je En ES set threshold L3 L2 L1 L3 L2 L1 15 18 15 16 Asymmetry gt set threshold Relay 25 28 25 26 t time delay Example asymmetry set at 10 96 mains supply voltage 400 V relay de energisation threshold 400 V 10 96 360 V 10 relay re energisation threshold 400 V 1076 380 v 2 References Characteristics Dimensions schemes pa
265. ply voltage Outputs Reference Weight kg Back lit LCD display 80 260 V 2 C O RC 87 619 228 0 290 2 solid state o 20 55 V 2 C O RC 87 619 224 0 290 2 solid state 10 30 V 2 C O RC 87 619 222 0 290 2 solid state Red LED display 80 260 V 2 C O RC 87 619 328 0 290 2 solid state o 20 55 V 2 C O RC 87 619 324 0 290 2 solid state 10 30 V 2 C O RC 87 619 322 0 290 2 solid state Display 1 Reset 2 4 Access to all parameters in Prog mode 3 Incrementation of figures and multipliers selection of a parameter value RC 87 619 22e RC 87 619 32e uL Panel cut out px Y eo99096 Co O CD TS 7 0 6 68 0 72 68 0 Supply A OUT 2242 5 7VAC OUT uT coco imm cc ME Tou ose pe ot 43 3 NPN E pup 13 Functions Characteristics pages 4 20 and 4 21 pages 4 22 and 4 23 5 0 Contents 5 Zelio Control measurement and control relays Selection guide for measurement and control relays page 5 2 a Relays Model RMA es sacar cee os Um S TU Eua ard dan ee page 5 6 B 3 phase supply control relays model RM4T page 5 11 m Phase control relays self powered modelRM gd oTo t mL MM E e pages 5 15 and 5 17 m Phase asymmetry control relays self powered MOG SI IWES 4G 73 uc cu pages 5 19 and 5 23 m Phase sequence and loss of phase control relays model RMSE G7 Ose ease ale
266. priate size for the sensor and preactuator types For a Pt 100 3 wire temperature probe RTD connect the three wires to terminals A B and B channels INO and IN1 For a Pt 100 2 wire temperature probe RTD connect the two wires to terminals A and B and make a bridge between B and B channels INO and IN1 For a thermocouple connect the two wires to the and terminals channels INO and or IN1 Do not connect any wires to unused channels Presentation Twido programmable controller description Master module for AS Interface bus Master module TWD NOI 10M3 for AS Interface bus allows the Twido controller versions 7 2 0 to perform the function of AS Interface master Twido controller Em X Master module S E Sensors TWD NOI 10M3 Indicator bank py Control ES T T Motor starter el Safety EE om interface 00009090 The bus consists of a Master station Twido controller and Slave stations The Master which supports the AS Interface profile polls each of the devices connected to the AS Interface bus in turn and stores information gathered sensor actuator status operating status of the devices in the controller memory Communication on the AS Interface bus is managed in a way that is totally transparent to the Twido application program The TWD NOI 10M3 master module manages the following with the AS Interface M3 profile O discrete slave modules maximum of 62 slaves arran
267. products have a transparent hinged flap on their front face to avoid any accidental alteration of the settings This flap can be directly sealed IEC 61812 1 EN 61812 1 Product certifications C marking CSA GL pending UL Zelio Time timing relays conform to European regulations relating to C marking Ambient air temperature around the device Permissible relative humidity range Vibration resistance Storage 40 85 Operation Conforming to IEC 60721 3 3 Conforming to IEC 6068 2 6 10 to 55 Hz 20 60 15 85 96 Environmental class 3K3 a 0 35 ms Shock resistance Conforming to IEC 6068 2 27 15gn 11 ms Degree of protection Casing IP 50 Terminals IP 20 Degree of pollution Conforming to IEC 60664 1 3 Overvoltage category Conforming to IEC 60664 1 III Rated insulation voltage Conforming to IEC V 250 Conforming to CSA 300 Test voltage for Dielectric test kV 2 5 insulation tests Shock wave kV 4 8 Voltage limits Power supply circuit 0 9 1 1 Do Frequency limits Power supply circuit 50 60 5 96 Disconnection value Power supply circuit m 0 1 Uc Mounting position In relation to normal Any position without derating vertical mounting plane Connection Flexible cable without cable end mm 2X 2 5 maximum c S a Flexible cable with cable end mm 2x1 5 Tightening torque Electrostatic discharge Conforming to IEC 61000 4 2 N m 0551
268. r Modular base controllers Base controller type TWD LMDA 20DTK LMDA 20DUK LMDA 20DRT LMDA 40DTK LMDA 40DUK Number of input channels 12 24 Rated input voltage V 24 sink source positive or negative logic Commons BEEN UEM E Input voltage range V 20 4 26 4 Rated input current mA 5 mA for 10 0 and 10 1 10 6 and 10 7 7 mA for other inputs IO i Input impedance 5 7 kQ for 10 0 and 10 1 10 6 and 10 7 4 7 kQ for other inputs 10 i Filter time At state 1 us 35 us for 10 0 and 10 1 10 6 and 10 7 40 us for other inputs IO i At state 0 us 45 us for 10 0 and 10 1 10 6 and 10 7 150 us other inputs IO i No isolation between channels isolation with internal logic by photocouplers Isolation Number of output channels 8 2 16 Output logic 1 Source Sink Source Sink Commons 1 2 Nominal output values Voltage 24 Current 0 3 Output voltage range Voltage 20 4 28 8 Current per channel 0 36 Current per common 1 Response time At state 1 5 us for Q 0 0 and Q 0 1 300 us for other outputs Q O i At state 0 S 5 us for Q 0 0 and Q 0 1 300 us for other outputs Q O i Residual voltage voltage at state 1 1 max Maximum inrush current 1 Leakage current 0 1 Overvoltage protection 39 Maximum power of filament lamp 8 Isolation No isolation between channels isolation with internal logic by photocouplers 6 2 per channel 8 per common Number of output channels Output curr
269. r as local reflex controle Protocol type Remote link Data rate Kbit s 38 4 Physical layer RS 485 Connection Serial port or optional port only Number of Twido modules that can be connected from 1 to 7 Compatibility With compact base controllers TWD LCAA eeee and modular base controllers TWD LMDA eeee Presentation Twido programmable controller combinations Pre wired solutions With its HE 10 connector products the Twido range offers several solutions for economical fast and reliable wiring m TwidoFast pre formed cables in 3 or 5 m lengths have one end fitted with an HE 10 type connector and the other with referenced free wires to facilitate the connection of inputs outputs B lelefast 2 pre wired kits which under a single reference include a TeleFast 2 sub base together with its cable 1 or 2 m length for connection to the HE 10 connectors on Twido modules These sub bases allow easy wiring with their screw terminal blocks as well as signal adaptation Twido transistor outputs to relay outputs 1 common per 4 channels B Three types of cable available in 3 lengths which ensure compatibility with the entire Telefast 2 range so allowing Twido controllers to be used in conjunction with Telefast 2 sub bases see table below Combination Twido modules Base controller Extension modules possible 12 inputs 16 outputs Not applicable TWD LMDA 20DTK 40DTK 6 DDI 16DK 32DK 6 DDO 16TK 32TK 6
270. rature Measuring cycle ms 80 Internal input resistance and permissible overload depending on the voltage measurement ranges Relay type RM4 UAe1 RM4 UAe2 RM4 UAe3 Measurement range 0 05 0 5 0 3 9 05 5 10 100 30 300 50 500 50 60 Hz and Internal input resistance Ri V 1 10 5 2 50 0 Er r 2 Im A Permissible continuous overload WE GEMMAE DELE ud 550 Ee qe gp rm 1111 Permissible non repetitive overload fortx1s Presentation References Dimensions schemes Setting up pages 5 26 and 5 27 page 5 28 page 5 30 page 5 31 5 29 Dimensions Zelio Control measurement and schemes control relays Voltage measurement relays model RM4 U Dimensions Rail mounting Screw fixing RM4 UA 80 89 5 Terminal blocks RM4 UA01 UA02 RM4 UA03 RM4 UAS31 UA32 RM4 UA33 A1 A2 Supply voltage Connection and current values to be measured depending on type of RM4 UA B1 B2 Voltages to be measured RM4 UAe1 B1 C 0 05 0 5 V RM4 UAe2 JB1 C 1 10 V RM4 UAe3 B2 C 30 300 V B3 C see table opposite B2 C 0 3 3 V B2 C 5 50V B3 C 50 500 V B3 C 0 5 5 V B3 C 10 100 V Application scheme Example overspeed monitoring undervoltage function 1 TA Tacho generator KM1 Overspeed Presentation References Characteristics Setting up pages 5 26 and 5 27 page 5 28 page 5 29 page 5 31 Setting up Zelio Control measurement a
271. rection fault 396 Switching threshold drift Depending on the permissible ambient temperature Within the measuring range lt 0 06 per degree centigrade lt 0 06 per degree centigrade lt 0 06 per degree centigrade lt 0 5 Accuracy of the time delay setting As of the full scale value 10 l Time delay drift Within the measuring range lt 0 5 96 Depending on the rated 0 07 96 per degree lt 0 07 per degree x 0 07 per degree operational temperature centigrade centigrade centigrade Hysteresis Fixed About 5 of the About 5 of the About 50 of the de energisation de energisation asymmetry threshold threshold percentage Measuring cycle 80 lt 80 lt 80 N i eristi Minimum operational voltage L1 L2 RM4 TUO1 160 RM4 TR31 RM4 TAO1 1 or RM4 TR33 160 RM4 TA31 160 L2 L3 or RM4 TUO2 290 RM4 TR32 RM4 TAO2 L1 L3 RM4 TR34 290 RM4 TA32 290 Maximum permissible L1 L2 L3 RM4 TU01 300 RM4 TR31 RM4 TAO1 voltage between phases 1 Minimum voltage required for operation of indicators and of the time delay RM4 TR33 300 RM4 TA31 300 RM4 TUO2 580 RM4 TR32 RM4 TR34 580 RM4 TAO2 RM4 TA32 580 Presentation pages 5 8 to 5 10 5 12 References page 5 11 Dimensions schemes page 5 13 Dimensions schemes Zelio Control measurement and control relays 3 phase supply c
272. reshold setting gt function current measured lt threshold setting lt function Setting accuracy of the switching threshold As of the full scale value 5 Switching threshold drift lt 0 06 per degree centigrade depending on the permissible ambient temperature lt 0 5 within the supply voltage range 0 85 1 1 Un Hysteresis adjustable 5 30 of the current threshold setting Setting accuracy of the time delay As of the full scale value 10 Time delay drift lt 0 07 per degree centigrade depending on temperature lt 0 5 within the supply voltage range 0 85 1 1 Un Measuring cycle ms lt 80 Internal input resistance and permissible overload depending on the current measurement ranges Relay type RM4 JA01 IET RM4 JA31 JA32 Measurement range 3 30 mA 100 mA 0 1 PESAS 15A 50 60 Hz and Permissible continuous overload Permissible non repetitive overload A 0 2 0 5 5 10 15 100 fort lt 3s Presentation References Dimensions schemes Setting up pages 5 46 and 5 47 page 5 48 page 5 50 page 5 51 5 49 Dimensions Zelio Control measurement and schemes control relays Current measurement relays model RMA J Dimensions Rail mounting Screw fixing RM4 JA common side view RM4 JAe RM4 JA32 ooe t 690 a Terminal blocks RM4 JA31 A1 A2 Supply voltage Connection and current values to be measured depe
273. ription Protocol Compatible with Supply Reference Weight PLC types voltage kg Compact display 2 lines Uni Telway Twido Nano Micro Premium 5 V by XBT N200 0 360 of 20 characters Modbus terminal port alphanumeric display on PLC Compact displays 4 lines Uni Telway Twido Nano Micro Premium 5 V by XBT N400 0 360 of 20 characters Modbus terminal port matrix display on PLC Twido 4 Nano Micro 24V XBT N401 0 360 Premium TSX series 7 external source Momentum Quantum Other Modbus slave modules Phaseo regulated power supplies Description Mains input Output Rated Rated Auto protect Reference Weight voltage voltage power current reset 47 63 Hz V V W A kg Single phase 100 240 24 15 0 6 Auto ABL 7CEM24006 0 180 regulated switch mode single phase power supplies 5 wide range 30 1 2 Auto ABL 7CEM24012 0 220 e 110 220 6 100 240 24 48 2 Auto ABL 7RE2402 0 520 single phase 72 3 Auto ABL 7RE2403 0 520 wide range 120 5 Auto ABL 7RE2405 1 000 Regulated switch mode 100 240 30 24 2x72 2 4 3 Auto ASI ABLM3024 1 300 power supplies for single phase AS Interface bus 7 wide range 1 6000 instructions with memory extension cartridge TWD XCP MFK64 2 Connection by HE 10 connector see TwidoFast pre formed cable and Telefast 2 pre wired system page 1 39 3 Memory extension with base controllers TWD LMDA 20DRT 40DeKk 4 Connection via built in port or via optional serial port on Twido programmable contr
274. rol relay Without latching If starting requires an inhibition time greater than 30 seconds external contact S2 must be closed during starting to inhibit the relay during this time the yellow LED flashes then opened once nominal speed has been reached On each cycle of the process being monitored the sensor sends an impulse to the Hysteresis relay Speed setting Each of these impulses resets the relay s internal time delay If the time between two impulses is less than the setting value on the relay the time delay is reset at each impulse and the output relay stays closed Output relay If the speed of the process being monitored drops the time between two impulses increases When the time between two impulses is greater than the setting value on the relay the process being monitored is running at underspeed and the output relay changes With latching state opens 200msmin The output relay closes again when the speed of the process being monitored gt lt exceeds the setting value plus the hysteresis 5 of the setting value Inhibit time delay U If memory mode is selected the relay stays open when an underspeed fault is S2 detected In this case the output relay can only close again after a manual reset has iivsieresis been performed by closing external contact S2 Speed setting A yellow LED indicates the state of the relay A green LED indicates that the power supply is ON Output relay
275. rs Converter types RMT J Keeeee RMP eeeee RMCeeece Conforming to standards IEC 947 1 IEC 584 1 IEC 751 DIN 43760 for RMPeeee Approvals UL CSA GL C Degree of protection Housing IP 50 Terminal block IP 20 Flame resistance 850 conforming to UL IEC 695 2 1 Shock resistance 50 gn 11ms conforming to IEC 68 2 27 Vibration resistance 5 gn 10 100 Hz conforming to IEC 68 2 6 Immunity to EMC Resistance to electrostatic discharge kV Level 3 8 air 6 contact conforming to IEC 1000 4 2 Immunity to fast transient currents On the power supply 2 on the input output 1 conforming to IEC 1004 4 Surge withstand kV 0 5 waves 1 2 50ys 0 5 J conforming to IEC 1000 4 5 Disturbance Radiated conducted CISPR11 and CISPR22 Group1 Class B Insulation voltage kV 2 Ambient air temperature around the device Storage C 40 85 40 185 F Operation Mounted side by side 0 50 32 122 F 2 cm spacing 0 60 32 140 F Degree of pollution 2 conforming to IEC 60 664 1 Mounting 35 mm DIN rail clip on or fixed on mounting plate Connection mm 2xl 50r1x2 5 cable Tightening torque Nm 0 6 1 1 Types of converter for thermocouples RMT J40BD RMT J60BD RMT J80BD RMT K80BD RMT K90BD Input types Thermocouple type to IEC 584 J Fe CuNi K Ni CrNi Temperature range C 0 150 0 300 0 600 0 600 0 1200 P 32 302 32 572 321112 12m2 32 2192 Analogue output switchable
276. rtible to instantaneous 2 timed contacts 1 convertible to instantaneous 8A 8A 8A RE 88 867 455 RE 88 867 300 es RE 88 867 303 0 080 0 080 0 080 RUZ 1A RUZ 1A RUZ 1A 0 067 0 067 0 067 Connection schemes All functions except L and Li Functions L and Li 1 Link between pins 2 and 5 for function L only Characteristics pages 3 42 and 3 43 Dimensions page 3 44 4 0 Contents 4 Zelio Count counters m Electromechanical hour counters Te eie E E E E M m P M M M page 4 3 m Electromechanical totalising counters TOS gare tran eae ee ee x ee eer page 4 5 m Electromechanical preselection counters SS EN E a E A E E E E E page 4 7 B Electronic preselection and multifunction counters 48 x 48 Sidigiis d BC brougbbbE sere ste c MEE E page 4 9 m Electronic totalising counters 24 x 48 Bidigiiss ore mc UA MM page 4 11 m Electronic total partial impulse counters 24 x 48 S didto ECES P PUE UE UH page 4 13 m Electronic totalising counters hour counters chronometers 24 x 48 Soro diols aE CD rer rare cuc dere ee page 4 15 m Electronic hour counters 24 x 48 Edigiis BODL m MI UU arity een rh E arene tea eis ag eee at page 4 17 m Multifunction counters with display O Models RC 87 618 and RC 87 619 cee ee page 4 24 m Electronic preselection and multifunction counters O Models RC 87 618 48 x 48 sdg EC Bo gl hl cs Be eee eer
277. s IK ee code 2 characteristic numerals The IK code comprises 2 charac teristic numerals e g IK 05 00 01 02 03 04 05 06 07 08 09 10 corresponding to a value of impact energy 0 2 kg Telemecanique 7 9
278. s With function lt transient over or under voltages are not taken into account With function Hil all variations above or below are taken into account and re energisation of the relay is delayed In all cases in order to be detected the duration of the overvoltage or undervoltage must be greater than the measuring cycle time 80 ms Function diagram RM4 UB34 RM4 UB35 e a Setting gt U 0 95 x Setting gt U 1 05 x Setting lt U Setting lt U UL1 L3 aet 0 Volt t t 7 iis ia INI 15 18 25 28 Function I 15 16 25 26 a t t t II t l t 15 18 25 28 Function MM 15 16 25 26 a a mb time delay References page 5 41 Characteristics page 5 42 Dimensions schemes page 5 43 561038 References Zelio Control measurement and control relays Voltage control relays model RM4 U Adjustable Control Width Output Reference Weight time delay threshold relay S V mm kg 0 1 10 Undervoltage 22 5 2 C O RM4 UB34 0 110 80 120 50 60 Hz Overvoltage 160 220 Undervoltage 22 5 2 C O RM4 UB35 0 110 160 220 50 60 Hz Overvoltage 220 300 Presentation Characteristics Dimensions schemes page 5 40 page 5 42 page 5 43 Characteristics Zelio Control measurement and control relays Voltage control relays model RM4 U Number of C O contacts Output relay state Energi
279. s III Radiated and conducted emissions E Class B Functions Schemes Dimensions page 5 34 page 5 34 page 5 34 Functions B Displays the actual value and the preset value on the LCD display Controls a c and d c signals automatic detection Overload or underload modes can be selected Threshold and hysteresis can be adjusted separately B Memory function in the event of a fault Delay on crossing the threshold A y NENNEN Hysteresis Threshold a Funct R Overload N S 0 Hysteresis Funct R l Underload 4 A MEN EN Hysteresis Threshold Funct R y A Overload Threshold Hysteresis Funct R F1 Memory m Underload Memor Ta 5 Zelio Control measurement and control relays Voltage current control relays with display models RM 84 872 and RM 84 871 These devices are designed to control an a c or d c electric signal The threshold and hysteresis can be adjusted separately via two potentiometers on the front panel of the device Before powering up the device the operating mode must be selected by means of two dip switches on the underside of the device with without memory over under value The mode is validated when power is applied to terminals A1 A2 The signal to be monitored is connected between terminals E1 E2 or E3 depending on the range and terminal M Whe
280. s and by HE 10 connector or 2 inputs 1 x 12 bit output connection by screw terminals discrete max 62 modules analogue max 7 modules For all controller versions 2 0 84 with screw terminal I O expansion module 132 with screw terminal I O expansion module 152 with screw terminal I O expansion module 148 with HE 10 connector I O expansion module 244 with HE 10 connector I O expansion module 264 with HE 10 connector I O expansion module 2 x 16 bit channels 0 65535 points dedicated discrete inputs of the base controller up down counting with preset 2 x 16 bit channels 0 65535 points dedicated 24 V discrete inputs for incremental encoders or proximity sensors up down counting up counter down counter frequency meter 2 channels PWM function pulse width modulation output and PLS function pulse generator output For all controller versions gt 2 0 For all controller versions gt 2 0 24 V power supply 3000 instructions 6000 with memory extension cartridge TWD XCP MFK64 128 counters Yes 1 14 4 With maximum of 42 relay outputs on base controller and I O expansions 5 The maximum values of the internal words and function blocks cannot be cumulated 6 Replace the e in the reference with T source transistor outputs U sink transistor outputs 1 3 Presentation b 3 tee k TWD LCAA 10DRF TWD LCAA 16DRF TWD LCAA 24DRF Twido programmable controller
281. sation t2 0 5 20 20 of the full scale value On crossing the threshold t1 0 3 3 20 of the full scale value Frequency Hz 50 60 Hysteresis Cos o 2 0 4 10 96 fixed Cos 0 4 10 Hysteresis lt 30 96 Setting accuracy 10 of the full scale value Repeat accuracy 0 08 with constant parameters Temperature drift t 0 05 96 C Output 2 C O contacts AgCdO Breaking capacity 2000 VA 80 W Maximum breaking current S e 6 Minimum breaking current 100 100 Maximum switching voltage 250 250 Mechanical life 30 x 106 operating cycles Electrical life AC 12 2000 VA 10 operating cycles AC 15 Cos 0 3 6000 operating cycles DC 13 L R 300 ms 6000 operating cycles Enclosure material Terminal capacity Temperature limits Relative humidity Product certifications Self extinguishing Pc With cable end 2 x 1 5 Without cable end 2 x 2 5 Operation 20 60 to IEC 68 1 14 storage 30 70 to IEC 68 1 1 2 93 96 without condensation c UL us CSA 3 5 23 77 Functions Schemes page 5 76 page 5 81 Schemes Zelio Control measurement and control relays Relay model RM 84 RM 84 870 00e RM 84 870 1e1 References pages 5 65 and 5 55 A1 A2 Supply RM 84 870 00e References page 5 65 Regulation of two levels Up filling control a At tt OC Min Max Y Input Input
282. sed during fault free operation De energised on detection of an overvoltage or undervoltage fault Accuracy of the switching As 96 of the set value t 396 threshold setting Switching threshold drift Depending on the permissible ambient temperature lt 0 06 per degree centigrade Within the measuring range 0 5 96 Accuracy of the As of the full scale value t 10 96 time delay setting Time delay drift Within the measuring range lt 0 5 96 Depending on the rated lt 0 07 per degree centigrade operational temperature Hysteresis Fixed About 5 96 of the de energisation threshold Measuring cycle ms lt 80 Minimum operational voltage V RM4 60 RM4 UB35 160 Maximum permissible voltage V RM4 UB34 300 between L1 and L3 RM4 UB35 300 Presentation References Dimensions schemes page 5 40 page 5 41 page 5 43 5 42 Dimensions Zelio Control measurement and schemes control relays Voltage control relays model RM4 U RM4 UB Rail mounting Screw fixing Terminal blocks RM4 UB L1 L3 Voltage to be monitored 15 18 1 C O contact 15 16 of the output relay 25 28 2 C O contact 25 26 of the output relay Example 1 L1 2 p UE To sensitive loads Presentation References Characteristics page 5 40 page 5 41 page 5 42 E Functions Zelio Control measurement schemes and control relays a c current control relays
283. sentation Zelio Control measurement and control relays Voltage control relays model RM4 U These devices are designed for monitoring single phase voltages They have a transparent hinged flap on their front face to avoid any accidental alteration of the settings This flap can be directly sealed B Protection of electronic or electromechanical devices against overvoltage and undervoltage m Normal emergency power supply switching A OND 1 Overvoltage setting potentiometer 2 Undervoltage setting potentiometer 3 Time delay function selector Fault detection delayed EN Fault detection extended 4 Potentiometer for setting time delay in seconds R Yellow LED indicates relay state U Green LED indicates that supply to the RM4 is on U Red LED overvoltage fault U Red LED undervoltage fault The voltage to be monitored is connected to terminals L1 L3 of the product There is no need to provide a separate power supply for RM4 UB relays they are self powered by terminals L1 L3 If the voltage goes outside the range to be monitored the output relay is de energised overvoltage the red LED gt U illuminates undervoltage the red LED lt U illuminates When the voltage returns towards its rated value the relay is re energised according to the hysteresis value 5 and the corresponding red LED goes out A selector switch allows selection of an adjustable time delay from 0 1 s to 10
284. serial port 1 RS 485 serial port mini DIN connector mini DIN connector 1 optional serial port RS 232C mini DIN connector or RS 485 mini DIN connector or screw terminals 100 240 V supply 24 V discrete sensors powered by the base controller 700 instructions 2000 instructions 3000 instructions 128 bits 128 bits 256 bits 3000 64 timers 128 counters 128 timers Yes Optional TWD XCP RTC real time clock cartridge using 16 real time clock blocks Reversible languages Ladder language and Instruction List language with Grafcet instructions TwidoSoft running under Windows 98 SE Windows 2000 and Windows XP 1 8 1 Sink input positive logic Source input negative logic 2 Within the consumption limit controlled by TwidoSoft software 3 The AS Interface M3 profile supports analogue profile 7 3 7 slaves but not analogue profile S 7 4 1 2 Modular base controllers X 20 40 12 sink source 24 V inputs 1 24 sink source 24 V inputs 1 8 sink or source transistor outputs depending on model 6 relay outputs and 2 transistor source outputs 16 sink or source transistor outputs depending on model HE 10 connector Removable screw terminal block HE 10 connector AS Interface I O modules 2 7 discrete analogue and AS Interface I O modules 2 8 16 or 32 24 V or relay outputs 4 24 V inputs 4 relay outputs or 16 24 V inputs 8 relay outputs connection by screw or spring terminal
285. sical layer HS 485 Connection Serial port Compatibility With compact base controllers TWD LCAA eeee and modular base controllers TWD LMDA eeee Twido controller connected directly on the Modbus bus 1 Magelis compact display XBT N40e 2 Cable XBTZ 978 on serial port 3 Cable for optional RS 485 port 4 Twido modular controller 5 Modbus hub LU9 GC3 4 6 Modbus tap link cable VW3 A8 306 Ree 7 8 9 1 000000 1 amp N Modbus bus Line end adapters VW3 A8 306 RC Modbus T junctions VW3 A8 306 TFee with cables Twido compact controller 0 Modules ATS 48 and ATV 28 5 a aA 7 Hr Br g TR Th wJ uu lazi Cani Eer Protocol type Modbus Data rate Kbit s 1 2 38 4 Initial value 19 2 70r8 Initial value 8 Stop bits Tor 2 Parity Without even or odd Initial value without Physical layer RS 485 RS 232 point to point Connection Serial port RS 485 or optional port RS 485 RS 232 Data bits Compatibility Compact base controllers TWD LCAA eeee and modular base controllers TWD LMDA eeee Presentation Twido programmable controller characteristics Communication protocols Link by modem 1 Simple ASCII display 1 3 2 Standard RS 485 cable or cable TSX PCX 1031 for RS 232 conversion on serial fis port Modem for transmitting receiving data Telephone or radio link Twido compact or modular controller ASCII pri
286. signal o 0 10 V 0 20 mA 4 20 mA Characteristics References Dimensions Schemes pages 6 22 and 6 23 page 6 24 page 6 25 page 6 25 6 20 109000 Presentation continued Analogue interfaces Zelio Analog Converters for thermocouples and Pt100 probes Voltage current converters Converters for Universal Pt100 probes Pt100 probes with platinum resistor are electrical conductors whose resistance varies according to the temperature This ohmic resistance is transmitted to the Zelio Analog converter which converts it to a standard signal Converters for Universal Pt100 probes have B for inputs a pre set temperature range depending on the model 100 100 C 40 40 C 0 100 C 0 250 C 0 500 C B for outputs a switchable signal O 0 10 V 0 20 mA 4 20 mA The products in the Universal Pt100 family allow wiring of Pt100 probes in 2 3 and 4 wire mode RMP T70BD 0000 L1 Converters for Optimum Pt100 probes Derived from the above family these converters have B for inputs a pre set temperature range identical to that of converters for Universal Pt100 probes B for outputs o a O 10V signal dedicated to Zelio Logic analogue inputs They allow Pt100 probes to be wired in 2 3 and 4 wire mode in Universal voltage current converters eee 008 This family of converters allows the adaptation of electrical values voltage current Four products are available
287. sion 00 001 99 999 XXXXX XXXX X XXX XX XX XXX o zs 12or 100 V Un 2 V 100 mA XXXXXX XXXXX X 30006 XX 2000900 XX XXXX Configuration and current value saved In EEPROM memory Functions References pages 4 20 and 4 21 pages 4 24 and 4 25 4 22 Schemes pages 4 24 and 4 25 Dimensions pages 4 24 and 4 25 Characteristics continued Counter type Solid state outputs Type Maximum current Maximum voltage Voltage drop Response time Relay outputs Type Rated current Maximum voltage Maximum breaking capacity resistive AC 1 Minimum current Response time Mechanical life Electrical life at max AC 1 Output modes maintained or pulsed fixed or adjustable pulse duration Single cycle or repetitive immediate auto reset Supply min max values Maximum consumption Immunity to microbreaks Zelio Count counters Electronic preselection and multifunction counters Models RC 87 618 and RC 87 619 RC 87 618 eee RC 87 619 eee NPN open collector 100 I O lt 5 lt 250 2 N O contacts or 2 solid state 2 C O contacts 2 solid state depending on model 2 250 VA 500 mA 10 100 ms lt 10 3 x 106 operating cycles 3 x 107 operating cycles 1 x 105 1 x 105 Bm t 0 1 9 9s t 0 1 9 9s Ye V 10 30 20 55 n 80 260 version W 4 lt 5 50 60 Hz version VA 10 13 10 30 V
288. st common applications and to ensure great simplicity of installation pre set input and output scales requiring no adjustment outputs protected against reverse polarity overvoltage and short circuits 24 V power supply sealable protective cover rail mounting and screw fixing onto mounting plate LED indicator on the front panel input and output selector switches on the front panel output with fallback value if no input signal is present due to failure of a sensor for example The Zelio Analog converter range is divided into four families m Converters for J and K type thermocouples RMT J K B Converters for Universal Pt100 probes RMP TeO m Converters for Optimum Pt100 probes RMP Te3 B Universal voltage current converters RMC Converters for J and K type thermocouples Thermocouples which consist of two metals with different thermo electric characteristics produce a voltage that varies according to temperature This voltage is transmitted to the Zelio Analog converter which converts it to a standard signal Converters for thermocouples have cold junction compensation to allow detection of measurement errors induced by the connection to the device itself 108999 108997 Converters for J and K type thermocouples have B for inputs a pre set temperature range depending on the model O Type J 0 150 C 0 300 C 0 600 C RMT J40BD RMT K90BD ri Type K 0 600 C 0 1200 C B for outputs a switchable
289. supply voltage to be monitored is connected to terminals L1 L2 L3 of the product There is no need to provide a separate power supply for RMA T relays they are self powered by terminals L1 L2 L3 m Monitoring rotational direction of phases and detection of complete failure of one or more phases RM4 T all models r1 When terminals L1 L2 L3 are energised the relay is energised and the yellow LED comes on if the rotational direction of phases is correct and if all 3 phases are present H If one or more of the phases have failed or if the rotational direction is incorrect the relay is not energised at switch on O In normal operation no fault the relay is energised it de energises instantaneously in the event of failure of one or more of the phases any time delay set is not active on these faults O In the event of failure or absence of a single phase a voltage greater than the detection threshold 130 V on RM4 TG undervoltage threshold setting on RM4 TU and RM4 TR can be generated back through the control circuit thus preventing detection of the phase failure In this case we recommend the use of RM4 TA relays O The absence of a phase is signalled on RM4 TR and RM4 TA by illumination of LED P B Overvoltage and undervoltage detection RM4 TR O In normal operation the relay is energised and LEDs U and R are illuminated o If the average of the 3 voltages between phases goes outside the range to be monitored th
290. t 3 Common 4 Prog 5 Start Stop Characteristics page 4 14 Characteristics Zelio Count counters Electronic hour counters 24 x 48 6 digits LCD Function Hour counter Display 6 digit LCD Digit height 7 Time ranges 0 99 999 9 h 0 99 999 9 min 0 99 999 9 s 0 99 h 59 min 59 s Time base Quartz precision 50 ppm Possibility of reloading current value Yes Counter type RC 87 610 140 RC 87 610 150 Input type 1 start stop input by volt free contactor 1 start stop input open collector transistor terminals 3 4 a 5 D0 48 240 50 60 Hz 50 35 Voltage Terminals 4 5 Terminals 5 6 Minimum time closed Minimum impulse time v Front panel Dipswitch n 2 to OFF Inhibited Inhibited Dipswitch n 2 to ON Enabled Enabled External Volt free contact or open collector transistor terminals 1 2 Minimum time closed 100 Minimum impulse time 100 mobi 5 48 240 50 60 Hz Voltage Terminals 2 3 Terminals 1 2 1 lithium battery 5 years Supply can be switched off via Dipswitch n 1 located on the underside of the device Conforming to standards VDE 0110 IEC 664 348 55 4 255 5 801 2 801 4 Product certifications c UL us CSA Material Self extinguishing Connection By 6 screw terminals on back of the device Clamping capacity 2x 1 5 Mounting method By yoke Front panel degree of prot
291. t the output relay is energised this is indicated by a yellow LED The relay de energises LED off if one of the following faults occurs incorrect sequence of phases at terminals L1 L2 and L3 total loss of one phase or of all three phases phase failure detection threshold lt 50 V RM 84 873 299 100 phase L1 y LLL 100 phase L2 0 pu 1009 a phase L3 0 Relay 11 12 14 gt 11 14 11 12 RM 84 873 004 100 phase L1 0 100 phase L2 0 100 phase L3 0 11 12 14 21 22 24 11 14 21 24 11 12 21 22 Relay Relay Schemes page 5 79 Dimensions page 5 15 Characteristics page 5 15 References page 5 15 5 14 560997 References Zelio Control measurement characteristics and control relays dimensions Phase control relays self powered model RM 84 873 Phase control relays Outputs Reference Weight kg 1 C O RM 84 873 299 0 100 2C RM8487300 0100 RM 84 873 004 Supply voltage V 3 x 230 400 self powered Operating range V 200 500 Frequency ESI 50 60 Hz 1 Hz Maximum consumption VA 25 Output relay NEN Cadmium free Rated current A 8 Maximum switching voltage 250 440 Rated breaking capacity 2000 Minimum breaking current 10 5 V Electrical life La AC 12 10 operating cycles at 8 A 250 V Mechanical life 2x 107 operating cycles Pick up delay t1 ms 200 Drop out de
292. tance Zelio Logic smart relays Compact and modular smart relays Input range I Input impedance KQ 12 Maximum non destructive voltage V 30 Value of LSB 39 mV 4 mA Input type Common mode Resolution Bbi Conversion time Smart relay cycle time Precision at 25 C 5 at 55 C 62 Repeat at 55 C NM t 296 accuracy Between analogue a None channel and supply 10 maximum with screened cable sensor not isolated Protection Against inversion of terminals Control instructions not executed Smart relay type SR2eee SR3 B101ee SR3 B261ee SR3 XT141ee Operating limit values so LOO 21950 v 24 250 v 24 250 Contact type N O N O Thermal current RO oO 8 outputs 8 A 2 outputs 5 A V Electrical durability for Utilisation DC 12 24 500 000 operating cycles category A 1 5 DC 13 24 L R 10 ms 24 L R 10 ms A fe O fos AC 12 V 230 230 A 1 5 4 5 ACB 230 0 9 0 9 Minimum switching capacity At minimum voltage of 12 V AC 10 10 Low power switching B MEE 12V 10mA reliability of contact Maximum operating rate No load Hz i10 o At le operational current 0 1 0 1 Mechanical life In millions of operating cycles z 10 10 Rated impulse Conforming to IEC 60947 1 4 withstand voltage and 60664 1 Response time Trip ms 10 10 Reset ms 5 5 Built in protection Short circuit None None Smart relay type Against overvoltage and overload
293. tep i after another step POST start post processing Xi bit associated with step i Instructions on program List title and comments Ladder rungs MCS MCR master relay END ENDC ENDCN end of program conditional or unconditional JMP JMPC JMPCN jump to a label L conditional or unconditional SRn call subroutine n 0 lt n lt 15 RET end of subroutine NOP non operative instruction Title 122 characters before each LD LDN LDR LDF instruction Comments 4 lines of 122 characters before each LD LDN LDR LDF instruction Possibility of associating a comment of 122 characters with each instruction 10 contacts of 7 lines with 1 output per line Title 122 characters per rung Comments 4 lines of 122 characters Ladder language graphical symbols Standard function blocks 7 Normally open normally closed and on edge contacts Direct inverse SET and RESET coils Program jump subroutine call Timers TMi 0 lt i lt 31 0 to 9999 word Up Down counters Ci 0 lt i lt 15 0 to 9999 word 4 16 bit LIFO or FIFO registers Ri 0 lt i 3 4 Drum controllers DRi 0 lt i lt 3 8 steps Real time clock RTCi 0x ix 15 month day hour minute Specific function blocks 7 m Transmission reception of message of 64 words maximum internal or constant EXCH m Exchange control MSG available output fault output m 8 shift bit registers SBRi 0x i lt 7 shift one step
294. ting cable and Zelio Soft programming software supplied on CD Rom 1 Programming on smart relay in LADDER language only Heferences 109442 ud a a a eoo a LT ay a SR3 B101BD sect 109363 mT ams iNOS rwr pam 03 SR3 XT61BD 109369 sssoccet y uc e pee yh SR3 XT141BD A Available 15 quarter of 2004 Zelio Logic smart relays Modular smart relays Number Discrete Of which Relay Transistor Clock Reference Weight ofl O inputs 0 10 V outputs outputs analogue inputs kg Supply 24 V 10 6 4 4 0 Yes SR3 B101BD 0 250 6 4 0 4 Yes SR3 B102BD 0 220 26 16 6 10 1 0 Yes SR3 B261BD 0 400 16 6 0 10 Yes SR3 B262BD 0 300 Supply 24 V 10 6 0 4 0 Yes SR3 B101B 0 250 26 16 0 10 1 0 Yes SR3 B261B 0 400 Supply 100 240 V 10 6 0 4 0 Yes SR3 B101FU 0 250 26 16 0 10 1 0 Yes SR3 B261FU 0 400 Number Discrete Relay Reference Weight ofl O inputs outputs kg Supply 24 V for smart relays SR3 BeeeBD 6 4 2 SR3 XT61BD 0 125 10 6 4 SR3 XT101BD 0 200 14 8 6 SR3 XT141BD 0 220 Supply 24 V for smart relays SR3 BeeeB 6 4 2 SR3 XT61B 0 125 10 6 4 SR3 XT101B 0 200 14 8 6 SR3 XT141B 0 220 Supply 100 240 V for smart relays SR3 BeeeFU 6 4 2 SR3 XT61FU 0 125 10 6 4 SR3 XT101FU 0 200 14 8 6 SR3 XT141FU 0 220 For use on Supply voltage Reference Weight kg Modbus network 24V SR3 MBUO1BD A 0 300 Number Pack contents Reference Weight of I O kg Supply 24 V
295. tion Format Language Reference Weight kg Twido Hard copy English TWD USE 10AE installation 216 x 181 mm and set up French TWD USE 10AF manuals greater ang German TWD USE 10AD software Spanish TWD USE 10AS Italian TWD USE 10Al 1 Typical recommended configuration 300 MHz processor 128 Mb of RAM with 40 Mb of available hard disk space 2 PC running under Windows 2000 or XP operating system only 3 Replace the e at the end of the reference with E English F French 1 47 2 0 Contents 2 Zelio Relay plug in relays Selection guide for control relays and plug in control relays a nivorsalreldySoe c rc E M MEI page 2 5 a Miblsture delays tS OEEECEDU TUUM LE page 2 8 B IMleMaCe Welay Sia meee eor uU I KEEN eee page 2 11 2 1 2 2 Zelio Relay plug in relays 12 690 V 12 690 V 24 400 V 12 440 V 12 250 V N22 N e e e e e e Low consumption version for Linked contacts in accordance with INRS and BIA specifications 5 N O or 3 N O 2 N C combined 4 N C or N O combined double break double break Upto 4 N C or N O contacts combined 4 N C or N O combined double break double break 10A Up to 690 V Up to 660 V 30 million 2 million 30 million 6 million Please consult our catalogue Motor starter solutions Telemecanique Version with alternating contacts 2 N C or N O combined double break 2 N C or N O combined double brea
296. tion Selection of starting phase i l IBI B2 A1 X 6 Qe 6 A2 Z20 RE7 TM TP MA RA RM PP PM RE7 MV RE7 CV ML MY Connection of potentiometer Connection of potentiometers to Connection of potentiometers Connection precautions asymmetrical timing relays DEREN i 74 XiorYi orzi Zi Z3 4 b p er VI GU Z2 Z1 A2 A2 Z2 A No galvanic isolation between supply terminals A1 A2 B1 B2 and control inputs X1 Y1 Z1 Z2 1 110 240 V except RE7 MY13MW 24 240 V 2 12 48V 3 24V 4 Adjustment of the On delay period 5 Adjustment of the Off delay period 6 Start during the On delay period X2 Z2 linked Start during the Off delay period X2 Z2 not linked 7 Off delay adjustment tr contact 15 16 closed 8 On delay adjustment ta contact 15 18 closed Characteristics References pages 3 24 and 3 25 pages 3 26 to 3 29 3 30 Schemes continued Zelio Time timing relays Industrial single or multifunction relays relay output width 22 5 mm Power scheme Control schemes RE7 YA12BU Star delta function with double On delay timing Qt F3 Terminal block 13 22 21 96 EN F2 N Ut oO W1 V2 V1 U1 Y N KiT relay RE7 YA Power scheme Control schemes RE7 YR12BU Star delta function with contact for switching to star connection Q F3 Terminal block co o T7 A ol l Q K1 UN a eo zT au x
297. to voltage or current Voltage Range V 0 10 Minimum impedance of load kQ 100 Current Range mA 0 20 4 20 Maximum impedance of load Q 500 Built in protection 2 Reverse polarity overvoltage 30 V and short circuit Safety feature Output state when no inputs are wired Output predetermined according to type of output selected or when input wire broken voltage 13 V current 0 mA Supply Voltage Rated 24 20 96 non isolated Maximum current For voltage output 40 consumption For current output 60 Built in protection Reverse polarity Signalling Green LED power on Measurements Accuracy At 20 C 1 of the full scale value Repeatibility error At 20 C 96 0 25 of the full scale value At 60 C 96 0 8 of the full scale value Temperature coefficient ppm C 200 0 02 96 Cold junction compensation Built in cold junction measurement 0 to 60 C 0 140 F Presentation References Dimensions Schemes pages 6 20 and 6 21 page 6 24 page 6 25 page 6 25 6 22 Characteristics continued Analogue interfaces Zelio Analog Converters for thermocouples and Pt100 probes Voltage current converters Specific characteristics continued Types of converter for Pt100 probes RMP T10 13BD RMP T20 23BD RMP T30 33BD RMP T50 53BD RMP T70 73BD Input types Probe type Pt100 IEC 751 DIN 43760 2 3 4 wire Temperature range C 40 40 100 100 0 100 0 250 0 500
298. tomatically appears After 2 seconds the current value of the measured signal reappears in the display return to NORMAL mode Exception In UNDER mode underload since the hysteresis is always greater than the threshold it is possible that it will exceed the maximum measurement range according to the settings Threshold Hysteresis gt Max Threshold To remedy this problem when the user sets the hysteresis or threshold in proportions which exceed the management capacity the value of the hysteresis is automatically corrected so that it does not exceed the range maximum In addition the user is warned by flashing of the symbol UNDER Parameter display mode To review the parameters press the pushbutton VISU several times in succession to cycle through the settings Keep the pushbutton depressed to scroll through the values References Characteristics page 5 37 page 5 37 Dimensions Schemes page 5 38 page 5 39 Heferences characteristics Zelio Control measurement and control relays Voltage current control relays with display models RM 84 872 and RM 84 871 561060 LI e RM 84 872 305 Control relay with LCD display Voltage Current Measurement range Supply voltage Reference i 0 2 60V 24V RM 84 872 301 DS 230V RM 84 872 305 0 160 15 600 V 230 V RM 84 872 310 0 160 2 500 mA 230 V RM 84 871 305 0 160 0 1 10A 230 V RM 84 871 310 0 160 Relay type R
299. torial TH TH water for periods of or more than 1 day Yes Unimportant TC TH condensation Continuous Unnecessary Unimportant TC TH Outdoors No dripping Unimportant Unnecessary Temperate TC TC sheltered water Equatorial TH TH or dew Exposed Frequent and Frequent No Temperate TC TH outdoors regular presence switching off Equatorial TH TH or of dripping water for periods of near the or dew more than 1 day Yes Unimportant TC TH sea Continuous Unnecessary Unimportant TC TH These treatments cover in particular the applications defined by methods and ll of guide UTE C 63 100 Electronic products always meet the requirements of TC treatment A number of them are TH treated as standard Some electronic products for example programmable controllers flush mountable controllers CCX and flush mountable operator terminals XBT necessitate the use of an enclosure providing a degree of protection to at least IP 54 as defined by the standards IEC 664 and NF C 20 040 for use in industrial applications or in environmental conditions requiring a TH treatment These electronic products including flush mountable products must have a degree of protection to at least IP 20 either provided by the enclosure itself or following installation for restricted access locations where the degree of pollution does not exceed 2 a test booth not containing
300. transistor T ON Current output Leakage current in OFF state 12 min 52 max uA 0 2 max Residual voltage NPN collector 0 4 max 7 max E 70 min 70 min Fast input In H T OFF T ON Level 0 Level 1 Current consumption Reset to zero Reset 6 max at 24 V Volt free contact or transistor Volt free contact or transistor NPN open collector Enable reset 12 minimum 100 minimum Front panel Front panel Radiated field Conforming to IEC 1000 4 3 Level 3 10 V M 26 MHz to 1 GHz Fast transients Damped oscillatory wave Electrostatic discharge Conforming to IEC 1000 4 4 Conforming to IEC 255 4 Conforming to IEC 1000 2 6 Level 3 1 kV Level8 1 kV Level 3 8 kV Conforming to standards VDE 0110 IEC 664 348 255 4 255 5 801 2 801 4 Product certifications c UL us CSA Material Self extinguishing Connection by screw terminals on back of the device 5 terminals Clamping capacity 2x9 Fixing By yoke Degree of protection IP 64 Temperature limits Operation C 0 55 Storage C 25 70 References Dimensions Schemes page 4 15 page 4 15 page 4 15 Ana 560814 Heferences dimensions schemes 8or6 digits LCD display digit height 7 mm lotalising counter H 7 kHz and 40 Hz inputs Zelio Count counters Electronic totalising counters hour counters chronometers 24 x 48 6 or 8 digits LCD EH maximum counting capacity
301. ts 1 Description Application Type Reference Weight kg 32 Kb memory cartridge Application backup EEPROM TWD XCP MFK32 0 005 Program transfer Real time clock cartridge Date stamping RTC based programming TWD XCP RTC 0 005 Serial interface adapter See page 1 35 TWD NAC eeee Digital display Data display and modification TWD XCP ODC 0 020 Input simulators 6 inputs TWD XSM 6 TWD NAC eeee 9 inputs TWD XSM 9 14 inputs TWD XSM 14 Description Application Reference Weight kg Fixing kit For fitting compact base controllers or extensions TWD XMT5 Sold in packs of 5 on a mounting plate TWD XCP ODC Magelis compact displays Description Protocol Compatible with Supply voltage Reference Weight PLC types kg Compact display Uni Telway Twido Nano Micro 5 V by terminal XBT N200 0 360 2 lines of 20 characters Modbus Premium port on PLC alphanumeric display Compact displays Uni Telway Twido Nano Micro 5 V by terminal XBT N400 0 360 XBT N401 4 lines of 20 characters Modbus Premium port on PLC matrix display Twido 2 Nano Micro 24 V externa XBT N401 0 360 Premium TSX series 7 source Momentum Quantum Other Modbus slave modules Phaseo regulated power supply Description Mains input Output Rated Rated Auto protect Reference Weight voltage voltage power current reset 47 63 Hz V N W A kg Regulated switch mode 100 240 30424 2x72 2 4 3 Auto ASI ABLM3024 1 300 power supply for
302. ult your Regional Sales office Miniature ranges 1S 10s 1 min 10 min 1h 10 h 100 h 3 47 Panel mounted Analogue Depending on model 6 ranges 1 s 10 1 min 10 min 1 h 10 h 8 ranges 15s 10s 1 min 4 min 10 min 1 h 10 h 60 h 1 Digital Depending on model ranges 99 99 s 999 99 s 99 min 59 s 99 99 min 999 9 min 99 h 59 min 999 9 h 11 ranges 99 99 s 999 99 s 9999 s 99 min 59 s 99 99 min 999 9 min 9999 min 99 h 59 min 99 99 h 999 9 h 9999 h 3 51 5 55 and 3 57 Electromechanical Depending on model 3 ranges 6 s 60 s 12 min 3 ranges 6 min 60 min 12 h 1 3 3 Characteristics Zelio Time timing relays Modular relays solid state output width 17 5 mm Repeat accuracy Conforming to IEC 1812 1 m t 0 5 96 with constant parameters Drift Temperature 0 05 C Voltage 0 2 V Setting accuracy at full scale Conforming to IEC 1812 1 10 at 25 C Minimum duration of Typical uM 50 control impulse Maximum reset time Typical d 350 by de energisation Immunity time Typical ms gt 10 to microbreaks Multivoltage supply Frequency Operating range On load factor Maximum power Depending 24V consumption on model Depending on version see pages 3 6 and 3 7 50 60 85 110 96 Un 100 96 0 6 iS Output type Solid state Breakin
303. unter value with a preset value and trigger an output when the preset value is reached This type of counter function can be used for counting parts or events or for measuring length or position The number of integrated fast counters depends on the type of base controller Base controller type Compact Modular TWD LCAA 10 12 24 DRF LMDA 20DeK Counter VFC 20 kHz 1 2 Counter FC 5 kHz 3 2 Very fast counter VFC 20 kHz The 20 kHz VFC Very Fast Counter is an up down counter with possibility of auxiliary zn EN inputs The counter is accessed by means of a function block 96 VFCi programmed o NE ul using TwidoSoft The VFCi function block can be used to execute one of the following SUPR 5 functions all with a maximum frequency of 20 kHz MEDIE TH amp ee FCi M m Up Down counter Mata m Up Down counter with detection of running direction B Single Up counter B Single Down counter m Frequency meter The pulses to be counted may come from an incremental encoder or from 2 proximity sensors up down counting connected to inputs IO and l1 of Twido base controllers Fast counter FC 5 kHz EF Ci Fi The fast counter is available for up or down counting of pulses rising edges on the MP courte DOWN counter discrete inputs of Twido base controllers at a maximum frequency of 5 kHz The Up r E pe T and Down counters are accessed by means of a function block VFCi MPDP HEX SCL Pawn programmed using TwidoSoft Us
304. urement to be updated every 2 seconds gt TR 2 s Select TL gt TR for example TL 3 s The tachometer function can also be used to calculate a flow rate 1 Input IN1 i LII 3 2 Display 0 PR 1 channel pulse Et measurement 3 Display PR 0 1 channel pulse ES T1 DTI T2 measurement 3 np ee p Tn In 12 1 Input IN1 1 Fl FLF F1 2 Display 0 PR 1 channel period NT m t measurement 3 Display PR 0 1 channel period 20 m ea measurement 3 mi pmmerrl o fe T2 1 Input IN1 start counting i uoc eA e 2 Input IN2 stop counting 2 L e 3 Display 0 PR measurement on 2 separate iu 7 channels 30 T n1 T Tr T2 4 Display PH 0 measurement on 2 separate channels 4 In Tn In T1 T2 Characteristics References Dimensions Schemes pages 4 22 and 4 23 pages 4 24 and 4 25 pages 4 24 and 4 25 pages 4 24 and 4 25 am Characteristics Counter type Functions Mulltifunction Zelio Count counters Electronic preselection and multifunction counters Models RC 87 618 and RC 87 619 RC 87 618 eee RC 87 619 eee Preselection up down counters Counters Batch counters tachometers and chronometers Counters Batch counters totalising counters tachometers and chronometers Number of presets 1or2 Back lit or Current value bdits 6digits red illuminated displa
305. ut width 35 mm page 3 40 m Universal plug in relays 11 pin relay output width 35 mm page 3 44 m Miniature plug in relays relay output lille page 3 47 m Panel mounted plug in universal relays ld relay output umng ANGE Ss eset x page 3 51 o 1 or 2 relays outputs 11 timing ranges llis page 3 55 E 1 relay output 11 ming ranges s e eR ERE page 3 57 3 1 Zelio Time timing relays Modular Industrial Modular Industrial 7 ranges 1 or 2 ranges 7 ranges Depending on model 1s 10s 1 min 10 min depending on model 15s 10s 1 min 10 min 4ranges 1h 10 h 100 h 10 s 30 s 300 s 1h 10 h 100 h 0 6 s 2 5 s 20 s 160 s 60 min 7 ranges 15 10s 1 min 10 min 1h 10 h 100 h 7 ranges 1s 38s 10s 305 100 s 300 s 10 min 10 ranges 1 5 3 s 10 S 30s 100 s 300 s 30 min 300 min 30 h 300 h 3 6 and 3 7 3 10 3 14 and 3 15 3 18 to 3 23 and 3 26 to 3 29 3 2 These timing relays enable simple automation cycles to be set up using wired logic They can also be used to complement the functions of PLCs Relay Relay outputs provide complete isolation between the supply and output circuits It is possible to have several output circuits Optimum 1 range depending on model 0 5 s 3 s 10 s 30 s 300 s 30 min 3 34 to 3 37 E Plug in Universal ranges 1 s 10 s 1 min 10 min 1 h 10 h 100 h 3 40 to 3 45 1 Please cons
306. ut 15 On delay contact Between coil de v About 15 energisation and making About 15 of the Off delay contact Electrical durability Resistive load 20 1to 10A In millions of operating cycles h Inductive load See curves below Rated insulation voltage Ui Conforming to IEC 947 V 250 Insulation class Conforming to VDE 0110 C 250 B 380 Dielectric strength Between coil and contacto V 2500 rms voltage Between poles V 2500 Between contacts V 11000 Durability in N 230 V 50 Hz Switching capacity on a supply for minimum durability of 109 operating cycles 107 resistive or inductive load with diode RVW 040BD D 9 5x108 oS 22x108 3 108 5 5x109 E E 2x10 105 rT TT TTT INN 1 Resistive load 1 Contact E 2 Inductive load 2 Contacts in series B 5x104 3 Contacts in series 5 10 20 50 102 109 5x109 VA z 2x102 ax103 0 20 60 100 140 200 Switching capacity Socket type RUZ 1A RUZ 1D RUZ 1C RUZ 7A RUZ 7D Conventional rated thermal current Ith A 10 Insulation class C 250 Degree of protection IP 20 Product certifications CSA UR Connection Solid cable without cable end 2x2 5 mm Flexible cable with or w ocableend 2x 1 5 mm Arrangement of coil contact terminals Mixed Type of protection module RUW type E2 Relay types used RUN 31A RUN 21C RUN 31A RUN 21D RUN 33A RUN 31C RUN 33A References Dimensions Schemes page 2 5 page 2 15 page 2 13 560592 560593 560594 560590 Heferences RUN 31A21ee
307. ve connecting clip 1 kV Level Ill common mode 2 kV differential mode 1 kV Immunity to radio frequency interference in common mode conforming to ENV 50141 IEC 1000 4 6 Immunity to voltage dips and breaks conforming to IEC 1000 4 11 Level Ill 10 V rms 0 15 80 MHz 30 96 10 ms 60 100 ms gt 95 5s Radiated and mains conducted Class B disturbance conforming to EN 55022 EN 55011 Group 1 Mounting method Symmetrical mounting rail mm 35 EN 50022 Clamping capacity Without cable end mm 2x25 With cable end mm 2x1 5 Spring terminals 2 terminals Flexible cable mm 15 per connection point Solid cable mm 25 Enclosure material un Self extinguishing References Dimensions Schemes pages 3 13 and 3 14 page 3 14 page 3 15 3 3 References Zelio Time timing relays dimensions Modular relays relay output schemes width 17 5 mm Relay output 1 C O contact Multifunction or single function Function A Function H Function Li m Multi range 7 switchable ranges Delay on energisation Timing on energisation Asymmetrical recycler B Multivoltage Pulse on energisation Pulse start 1 relay output 8 A 250 V 10 A UL Screw or spring terminals B State indication by 1 LED Option of supplying a load in parallel T T 1l T2 3 wire sensor control option U c J JJ Function B Function L Function Di Timing on impulse one shot Asymmetrical recycler Symmetrical flas
308. ve liquids tap water sea water waste water chemical solutions coffee The operating principle is based on measurement of the apparent resistance of the liquid between two submerged probes When this value is less than the threshold setting on the front panel of the device the output relay changes state To avoid electrolytic phenomena an a c current runs across the probes Applications in the food processing chemical industries etc The output relay changes state when the level of the liquid reaches the maximum level probe with the minimum level probe submerged It returns to its initial state when the minimum level probe is no longer in contact with the liquid Filling or emptying control Un Energisation of the device Max level Min level Level being controlled Down L Fl r L Emptying function Output relay or Filling function Up B Lo L Lo Note If the voltage break AT lasts 1 second or more the relay is instantly re energised ifin UP mode and is de energised if in DOWN mode Characteristics page 5 65 References page 5 65 Schemes page 5 78 Dimensions page 5 65 561006 References Zelio Control measurement characteristics and control relays dimensions Liquid level control relays model RM 84 870 Filling UP and emptying DOWN control relays Voltage Reference Weight kg 24V RM 84 870 001 0 140 TE a y 120 V RM 84 870 00
309. ve to 109446 MIB ISI solutions based on cabled logic or specific cards Seti jai Simple programming ensured by the universal nature of LADDER and function block ap oe vm diagram FBD 1 languages meets all automation requirements and also the needs e e e i of the electrician Compact smart relays are suitable for simple automated systems up to 20 I O If required modular smart relays can be fitted with I O extensions and a module for communication on the Modbus network for greater performance and flexibility from 10 to 40 I O Som d d Fus Ru oe p 68 6 i SR2 B121BD Programming Programming can be carried out m independently using the buttons on the smart relay ladder language B ona PC using Zelio Soft software When using a PC programming can be carried out either in LADDER language or in function block diagram language FBD LCD display backlighting 2 Backlighting of the display is programmable using Zelio Soft software and by direct action on the smart relay s 6 programming buttons Memory The Zelio Logic smart relay has a backup memory which allows programs to be copied into another smart relay examples for building identical equipment remote transmission of updates The memory also allows a backup copy of the program to be saved prior to exchanging the product When used with a smart relay without display or buttons the copy of the program contained in the cartridge is automatically trans
310. ve types of symbol can be used o LADDER symbols O electrical symbols Free input mode also allows the creation of mnemonics and notes associated with with each line of the program Instant switching from one input mode to the other is possible at any time by clicking the mouse Up to 120 control scheme lines can be programmed with 5 contacts and 1 coil per program line Up down counter Fast counter Analogue comparator a Control relay Counter comparator m Functions O 16 time delay function blocks parameters of 11 different types can be set for each LCD backlighting Summer Winter time switching of these 1 10 second to 9999 hours O 16 up down counter function blocks from 0 to 32767 O 1 fast counter 1 KHz O 16 text function blocks O 16 analogue comparator function blocks Output coil O 8 clock function blocks each with 4 channels O 28 control relays O 8 counter comparators O automatic Summer Winter time switching O variety of coil functions latching Set Reset impulse relay contactor o LCD screen with programmable backlighting Functions Function Electrical scheme LADDER language Notes Contact corresponds to the real state of the contact connected to the d 5 I input of the smart relay i corresponds to the inverse state of the contact connected to the b 2 t or input of the smart relay T N i Standard coil The coil is energised when the contacts to which
311. version v 20 55 V version 80 260 V version Relative humidity without condensation Altitude cere eS Ojoio 95 0 2000 Insulation IEC 664 1 Standards Conforming to IEC 1000 4 2 Conforming to IEC 1000 4 3 kV m o Level 3 Level 3 Conforming to IEC 1000 4 4 Conforming to IEC 1000 4 6 Conforming to IEC 55022 11 group 1 Vibration withstand on 3 axes conforming to IEC 68 2 6 Level 3 Level 3 Class A 10 55 Hz 0 35 mm Material Connection Clamping capacity Self extinguishing Screw terminals 2x15 Front panel fixing With bracket Front panel protection Front panel seal IP 54 Yes Temperature limits Operation 0 55 Storage 25 70 Product certifications c UL us CSA Functions References Dimensions Schemes pages 4 20 and 4 21 pages 4 24 and 4 25 pages 4 24 and 4 25 pages 4 24 and 4 25 4 23 References Zelio Count counters dimensions Electronic preselection and multifunction schemes counters 48 x 48 5 digits LCD or LED Model RC 87 618 Preselection and multifunction up down counters 48 x 48 Functions counter batch counter tachometer chronometer Counting input modes UP DN IND CUMUL DIR PH PH2 PH4 Time base 99 h 59 min 99 min 59 s 99 99 s 24 h 2 presets Description Supply voltage Outputs Reference iun 5 Back lit LCD display 80 260 V 2 N O RC 87 61
312. vious module 7 One or two blocks for displaying the channels and module diagnostics One or two connection components of varying type depending on the model removable screw terminal block 1 or 2 for modules whose reference ends in T HE 10 connector 1 or 2 for modules whose reference ends in K non removable spring terminal block for module TWD DMM 24DRF Latching mechanism for attachment to the previous module POO OOAWND Mod le with Module with These modules are mounted on a symmetrical DIN rail Fixing kit TWD XMT 5 removable screw HE 10 connector supplied in lots of 5 allows plate or panel mounting For modules with removable terminal block screw terminal block the terminal blocks are supplied with the module 1 A connector on the right hand side panel ensures continuity of the electrical link with the next I O module 1 20 Characteristics Twido programmable controller Discrete I O modules Temperature Operation 0 55 Storage 25 70 Relative humidity 30 to 95 96 without condensation Degree of protection IP 20 Altitude m Operation 0 2000 Storage 0 3000 Vibration resistance Mounted on 1 r rail Hz 10 57 amplitude 0 075 mm acceleration 57 150 Hz m s 9 8 1 gn Plate or panel mounted Hz 2 25 amplitude 1 6 mm acceleration 25 100 Hz using fixing kit m s 39 2 4 gn TWD XMT5 Shock resistance m s 147 15 gn for 11 ms
313. y Preset 5 digits 6 digits Preset CO Display capacity 9999 99999 Simultaneous readout of count value and one preset Inputs Yes Yes 2 counting inputs IN1 IN2 2 counting inputs IN1 IN2 1 inhibit input Input modes see page 4 20 UP DN DIR IND CUMUL PH PH2 PH4 Input by contact Voltage or solid state for 3 wire and 2 wire detection using external resistor NPN or PNP depending on wiring Voltage or solid state NPN PNP depending on wiring Counting speed Counters Mulltifunction UP DOWN DIR 5 kHz or 30 Hz 2 5 kHz PH4 5 kHz 2 5 kHz in phase x 4 30 Hz in debounce mode Counter Tachometer Counter Tachometer Totalising counter 9 79 5 9 IND CUMUL IN1 IN2 non simultaneous IND CUMUL IN1 IN2 simultaneous 6 9 6 3 5 except in Batch mode 3 5 4 kHz 2 5 1 5 V PH PH2 PHA Low level eee High level 4 30 Impedance kQ 10 Reset to zero Front panel If not protected in programming phase or to preset value Electrical By contact voltage or solid state NPN or By contact voltage or solid state NPN or PNP depending on wiring PNP Minimum pulse time ms 5 Low level V 91 High level V 4 30 Impedance kQ 10 Option to protect against reset from front panel Yes Scale factor each input pulse is multiplied by this figure Decimal point selectable for ease of reading Sensor supply version ver
314. y inversion Smart relay type SR2e1e1B SR2e2e1B SR3 B101B SR3 B261B Primary Nominal voltage V 24 Voltage limits Including ripple V 20 4 28 8 Nominal frequency Hz 50 60 Nominal input current mA 280 Power dissipated VA 4 ie 75 Micro breaks Permissible duration ms lt 10 repeated 20 times rms insulation voltage V 1780 50 60 Hz 6 9 Characteristics continued Zelio Logic smart relays Compact and modular smart relays 0 Smart relay type SR2e 101FU SR2e121FU SR2e201FU SR3B101FU SR3 B261FU Primary Nominal voltage V 100 240 100 240 100 240 100 240 100 240 Voltage limits Including ripple V aie 85 264 85 264 85 264 Nominal input current mA 80 330 80 00 100 50 100 50 Maximum nominal input current with extensions mA 80 40 80 60 Power dissipated VA 7 11 7 12 Maximum power dissipated with extensions va eo Micro breaks Permissible duration ms 10 10 10 10 10 rms insulation voltage V 1780 1780 1780 1780 1780 Smart relay type SR2 SR3 Number of With LADDER programming 120 control scheme lines Number of function blocks With FBD programming Up to 200 Cycle time 10 Response time 20 Back up time in the event of power failure Day time Program and settings 10 years lithium battery at 25 C 10 years EEPROM memory Program memory checking At each power up Clock drift 12
315. y state and alarm relay state indication LEDs Control of the level of a conductive liquid at specific points high and low levels with alarm when the level is abnormally high or abnormally low The operating principle is based on measurement of the apparent resistance of the liquid between submerged probes When this value is below the threshold setting on the front panel of the device the output relay R1 and or the alarm relay R2 change state To avoid electrolysis phenomena an a c current runs across the probes Sensitivity adjustment Set the sensitivity so that the relay changes state when the probes are in contact with the liquid Then check that the relay returns to its initial position as soon as the probes emerge In certain applications fine adjustment of sensitivity leads to the detection of undesirable factors such as the presence of foam or bubbles on the surface of the liquid or the appearance of leakage impedance between probes extended line capacity humidity Note Latching of alarm relay R2 in the de energised state in the event of a fault can be programmed via a switch on the underside of the device the switch must be operated with the device switched off To reset alarm relay R2 the power supply to the device must be switched off provided that the levels have been re established Programming The level controller can be programmed by means of Memory ON High 3 switches on the underside Alarm Low
316. ype Temperature range Output signal Reference Weight C am kg SH2 MEMO 1 Pt100 40 40 40 104 0 10V 0r4 20mA RMP T13BD 0 116 2 wire 3 wire 100 100 148 212 0 10V0r4 20 mA RMP T23BD 0 116 and 4 wite 5 100 32 212 0 10Vor4 20mA RMP T33BD 0 116 0 250 32 482 0 10Vor4 20mA RMP T53BD 0 116 0 500 32 932 0 10 V or 4 20 mA RMP T73BD 0 116 510353 Input Nominal Nominal Reference Weight voltage output voltage output current kg 100 240 V 12V 1 9 A ABL 7RM1202 0 180 47 63 Hz 24V 1 4 A ABL 7RM2401 0 182 Description Language Reference Weight kg p User s manual English SR2 MANO1EN 0 100 for direct programming French SR2 MANO1FR 0 100 SR2 COMO omine smalnrelay German SR2 MANO1DE 0 100 Spanish SR2 MANO1ES 0 100 Italian SR2 MANO1IT 0 100 Portuguese SR2 MANO1PO 0 100 5 TEN ize 1 CD Rom containing Zelio Soft software an application library a self training manual o installation instructions and a user s manual LI TG 2 See pages 6 20 to 6 25 l 3 See our catalogue Interfaces I O splitter boxes and power supplies E HE eter 5 M Ne el ABL7 RM1202 A Available 15 half of 2004 Dimensions Zelio Logic smart relays Compact and modular smart relays SR2 A101BD SR2 D101FU SR3 B101BD and SR3 B101FU 10 I O SR2 B121JD SR2 B12eBD SR2 B121B SR2 A101FU SR2 B121FU SR2 D101BD SR2 E121BD SR2 E121B SR2 E121FU 12 I O Mounting on

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