Data Sheet DB EN IB IL 24/230 DOR 1/W
Contents
1. Installation Instructions and Notes Install the system according to the require ments of EN 50178 Use grounded AC networks gt Inline AC terminals must only be operated in grounded AC networks Read the application description Observe the installation instructions and notes in the IB IL SYS PRO UM E manual especial ly the notes on the low voltage area PHOENIX CONTACT 6 Special Features of the Terminal The terminal can be used to switch loads up to 230 V Please note that the terminal interrupts the po tential jumpers UM US and GND 24 V area as well as L and N 120 V 230 V areas If re quired these supply voltages must be resup plied provided using an appropriate power terminal after the relay terminal Switching Loads in the 230 V Area To switch voltages outside the SELV area an AC area must be created according to the installation instructions and notes provided in the application description Operation on an AC network Operate the terminal from a single phase on an AC network Switching Voltages That Are Not Available in the Segment A relay terminal can be used to switch voltages that are not available in the segment in which the terminal is located e g switching 230 V AC within a 24 V DC segment In this case place a distance terminal before and after the ter minal The isolating distances between the individual areas are thus maintained See also Connection Exampl2. Safety Notes for Inline Terminals Used in Areas Outside the SELV Area AC Area Only qualified personnel may work on Inline terminals in the AC area Qualified personnel are persons who because of their education experience and instruction and their knowledge of relevant standards regulations accident prevention and service conditions have been authorized by those respon sible for the safety of the plant to carry out any required op erations and who are able to recognize and avoid any pos sible dangers Definition of skilled workers according to EN 50110 1 1996 The instructions given in the IB IL SYS PRO UM E user manual and in this data sheet must be strictly observed during installation and startup Technical modifications reserved 6774_en_00 IB IL 24 230 DOR 1 W Correct Usage The terminal is only to be used within an Inline station as specified in this data sheet and in the Configuring and In stalling the INTERBUS Inline Product Range user manual Phoenix Contact accepts no liability if the device is used for anything other than its designated use Dangerous contact voltage Please note that there are dangerous contact voltages when switching circuits that do not meet SELV requirements Only remove and insert the AC terminals when the power supply is disconnected When working on terminals and wiring always switch off the supply voltage and ensure it can not be switched on again
3. HF attenuation via power store Level independent attenuation Current inversion not possible Disadvantages Exact sizing required Only suitable for DC voltage 5663A031 PHOENIX CONTACT 13 Switching AC DC Loads Switching Large AC Loads When switching large AC loads the relay can be operated up to the corresponding maximum values for the switching voltage current and power The arc that occurs during shutdown depends on the current voltage and phase rela tion This shutdown arc switches off automatically the next time the load current passes through Zero In applications with an inductive load an effective protec tive circuit must be provided otherwise the service life of the system will be reduced considerably To prolong the life of the terminal as much as possible when using lamp loads or capacitive loads the current peak must not exceed 6 A when the load is switched on 6774_en_00 IB IL 24 230 DOR 1 W Switching Large DC Loads In DC operation a relay can only switch a relatively low cur rent compared with the maximum permissible alternating current This maximum DC value is also highly dependent on the voltage and is determined in part by design condi tions such as the contact distance and contact opening speed The corresponding current and voltage values are shown using the example in Figure 8 1000 V E E 100
4. U 10 0 1 5663A013 Figure 8 DC load limit curve REL SNR 1XU G 5 GOLD LIEG relay l Switching current in A U Switching voltage in V Definition of the load limit curve For 1000 cycles no constant arc should occur with a burning life gt 10 ms A non attenuated inductive load further reduces the values for switching currents given here The energy stored in the inductance can cause an arc to occur which forwards the current via the open contacts Using an effective contact protection circuit virtually the same currents can be switched as for an ohmic load and the service life of the relay contacts is the same If it is permitted to switch higher DC loads several relay contacts can be switched in parallel The technical data for this is available on request PHOENIX CONTACT 14 IB IL 24 230 DOR 1 W Programming Data Local Bus INTERBUS BDrex 189 Process data channel 2 bits Output address area 2 bits only bit O is occupied Other Bus Systems For the programming data configuration data of other bus systems please refer to the corre sponding electronic device data sheet e g GSD EDS Process Data Assignment of the Terminal Points to the OUT Process Data Byte Bit view 0 1 Terminal N C contact P 12 Main contact 13 If bit 0 0 is set to 1 the N O contact is closed N O contact 14_ Status indicator LED o aao The LED lights up if the N O contact is closed P
5. must be fitted with protective circuits In general the follow ing protective circuits can be used Contact protective circuit Load protective circuit Combination of both protective circuits N N ata Figure 7 5973A028 Contact protective circuit circuit B A load protective 6774_en_00 IB IL 24 230 DOR 1 W lf sized correctly these circuit versions do not differ greatly in their effectiveness In principle safety equipment should intervene directly at the source of the interference The following points speak in favor of a load protective circuit When the contact is open the load is electrically isolat ed from the operating voltage Itis not possible for the load to be activated or to stick due to undesired operating currents e g from RC ele ments Shutdown voltage peaks cannot be coupled in control lines that run in parallel Today the majority of contactor manufacturers offer diode RC or varistor elements that can be snapped on For sole noid valves connectors with an integrated protective circuit can be used PHOENIX CONTACT 11 IB IL 24 230 DOR 1 W Circuit Versions Additional Defined Bipolar Protecting the Load Delay Induced Effective Advantages Disadvantages Voltage Attenuation Limitation Advantages Easy implementation Cost effective Reliable Non critical sizing Low induced voltage Disadvantages Attenuation only v
6. DC area 1 24 V DC area consisting of bus coupler and oe I O terminals Figure 6 Switching 24 V within a 24 V area 2 Terminal separated from the 24 V area by distance terminals 1 24 V area consisting of bus coupler and I O terminals 3 24 V area consisting of a power terminal and 2 Terminal I O terminals 3 24V area consisting of a power terminal and I O terminals See also Special Features of the Terminal on page 7 IEY Also insert distance terminals if you want to switch a 24 V channel within a 230 V AC area 6774_en_00 PHOENIX CONTACT 10 Interference Suppression Measures on Inductive Loads Switching Relays Each electrical load is a mix of ohmic capacitive and in ductive elements Depending on the proportion of the ele ments switching these loads results in a larger or smaller load on the switch contact In practice loads are generally used with a large inductive element such as contactors solenoid valves or motors Due to the energy stored in the coils voltage peaks of up to a few thousand volts may occur when the system is switched off These high voltages cause an arc on the con trolling contact which may destroy the contact through ma terial vaporization and material migration This pulse which is similar to a square wave pulse emits electromagnetic pulses over a wide frequency range spec tral elements reaching several MHZ with a large amount of power To prevent such arcs from occurring the contacts loads
7. 7 1 Type Order No Pcs Pck IB ILSYS PROUME 2743048 1 IL SYS INST UME 2698737 1 12 2 mm x 120 mm x 71 5 mm 46 g without connector 61 g with connector Process data mode with 2 bits At a floating SPDT relay contact 25 C to 55 C 25 C to 85 C 10 to 95 according to DIN EN 61131 2 80 kPa to 106 kPa up to 2000 m above sea level 70 kPa to 106 kPa up to 3000 m above sea level IP20 according to IEC 60529 Spring cage connection 0 2 mm to 1 5 mm solid or stranded 24 16 AWG Through data routing PHOENIX CONTACT 2 IB IL 24 230 DOR 1 W Transmission Speed IB IL 24 230 DOR 1 W IB IL 24 230 DOR 1 W PAC 500 kbps IB IL 24 230 DOR 1 W 2MBD IB IL 24 230 DOR 1 W 2MBD PAC 2 Mbps Power Consumption 500 kbps 2 Mbps Communications power 7 5V DC 7 5V DC 90 mA maximum 0 675 W maximum Current consumption at UL 60 mA maximum Power consumption at UL 0 45 W maximum Supply of the Module Electronics and I O Through Bus Coupler Power Terminal Connection method Through potential routing Relay Output Number 1 AgSnOb hard gold plated 50 mQ at 100 mA 6 V Contact material Contact resistance Limiting continuous current at maximum ambient temperature 3A Maximum switching voltage 253 V AC 250 V DC Maximum switching power AC DC 750 VA see derating Minimum load 5V 10 mA Switching current at 30 V DC 3A Switching current at 250 V DC 0 15A Switching current at 253 V AC 3A Maximum inrush curr
8. HOENIX CONTACT 03 2007 6774 en 00 PHOENIX CONTACT GmbH amp Co KG 32823 Blomberg Germany 15 a Phone 49 0 5235 3 00 Fax 49 0 5235 3 4 12 00 www phoenixcontact com
9. IB IL 24 230 DOR 1 W Inline Terminal With One SPDT Relay Contact AUTOMATIONWORX Data Sheet 6 774 en_00 PHOENIX CONTACT 03 2007 Description The terminal is designed for use within an Inline station It has a floating SPDT relay contact IEP The terminal can be used in the SELV area and in the AC area Observe the appropriate regu lations and safety notes when using the termi nal in the AC area Features Safe isolation according to EN 50178 Floating connection for one actuator Nominal current at the output 3 A Total current of the terminal 3 A Diagnostic and status indicators This data sheet is only valid in association with the IL SYS INST UM E user manual or the Inline system manual for your bus system Make sure you always use the latest documentation It can be downloaded at www download phoenixcontact com A conversion table is available on the Internet at www download phoenixcontact com general 7000 en OO pdf IR This data sheet is valid for all products listed on the following page DOGO M000 Weonnc ODE INSPIRING INNOVATIONS Ordering Data Products Description Inline terminal with one digital relay output without accessories transmission speed of 500 kbps Inline terminal with one digital relay output complete with accessories connector and labeling field transmission speed of 500 kbps Inline terminal with one digital relay output wi
10. ent peak for lamp loads and capacitive loads 6 A for T 200 us IRE See also Table Maximum Switching Current for Ohmic Load Depending on the Switching Voltage on page 4 Nominal power consumption of the coil at 20 C Resistance of the coil at 20 C Maximum switching frequency without load Maximum switching frequency with nominal load 210 mW from the 7 5 V supply 119 Q 12 0 1200 cycles minute 6 cycles minute Response delay 5 ms typical Bouncing time 5 ms typical Release time 6 ms typical Mechanical service life Electrical service life Common potentials 6774_en_00 2 x 10 cycles 10 cycles at 20 cycles minute All contacts floating PHOENIX CONTACT 3 IB IL 24 230 DOR 1 W Maximum Switching Current for Ohmic Load Depending on the Switching Voltage Switching Voltage V DC Switching Current A 10 3 0 20 3 0 30 3 0 40 1 0 50 0 4 60 0 3 70 0 26 80 0 23 90 0 215 100 0 2 150 0 18 200 0 165 250 0 155 Load Current I in A as a Function of the Switching Voltage U witc in V 10 20 30 40 50 60 70 80 90 100 150 200V 250 U etieh 5663A004 Power Dissipation 500 kbps 2 Mbps Formula to Calculate the Power Dissipation in the Terminal Prot Ppus Pret PL Prot Peus Pret PL Prot 0 19 W 0 26 W 1 2 x 0 052 Prot 0 33 W 0 26 W I2 x 0 052 IEP For an N C contact the term Pre is omitted from the formula Where Por Total power dissipation in the termina
11. es on page 9 6774_en_00 IB IL 24 230 DOR 1 W PHOENIX CONTACT 7 IB IL 24 230 DOR 1 W Local Diagnostic and Status Indicators Local Diagnostic and Status Indicators and Terminal Point Assignment Des Color Meaning D Green Diagnostics Yellow Status indicator of the output relay has picked up Function Identification Red with lightning bolt 2 Mbps White stripe in the vicinity of the D LED Housing Connector Color Dark gray housing Dark gray connector without color print Terminal Point Assignment Terminal Points 1 1 2 1 _ Not used no contact present 1 2 2 2 Relay N C contact 1 3 2 3 Relay main contact Relay N O contact Adjacent contacts 1 2 2 2 1 3 2 3 and 1 4 2 4 are 6774A003 jumpered in the corresponding IB IL SCN 8 AC connector It is therefore possible to supply several relays of the termi nals by using a jumper to transmit the voltage from one ter Figure 1 Terminal with appropriate connector minal to the next 6774_en_00 PHOENIX CONTACT 8 Internal Circuit Diagram Local bus SS UL LT a o ppoe 7376C010 Figure 2 Internal wiring of the terminal points Key Protocol chip bus logic including voltage conditioning LED Terminal point without metal contact C7 Relay Electrically isolated area I O area including relay contact isolated from the lo
12. gic area including the relay coil through safe isolation according to EN 50178 OPC 6774_en_00 IB IL 24 230 DOR 1 W IRE Other symbols used are explained in the IL SYS INST UM E user manual or in the Inline system manual for your bus system Connection Examples Connection of an Actuator ee Op Qo Op Qu N C Main N O contact contact contact 5663A008 Figure 3 Typical connection of an actuator 1 2 bole or contact Main 13 contact T N O contact 5663A009 Figure 4 Output relay contacts PHOENIX CONTACT 9 IB IL 24 230 DOR 1 W Switching Voltages That Are Not Available in the Switching Voltages That Are Available in the Segment Segment Distance terminals are not required to switch a 24 V channel within a 24 V area or to switch a 230 V channel within a 230 V area N N 0 O0 O0 QO LIT Q o0 A w i w m T iN E 6774A007 Figure 5 Example Switching 230 V AC within a 24 V
13. ia load resistor Long delay Series connection diode Zener diode Advantages Non critical sizin Medium g to Disadvantages short g Attenuation only above Uzp Advantages Cost effective Non critical sizing Medium Limits positive peaks to Suitable for AC voltage short Disadvantages Attenuation only above Uzp Varistor Advantages High power absorption Ale Non critical sizing Suitable for AC voltage E miss Disadvantages Attenuation only above Uypr 5663A029 6774 _en_00 PHOENIX CONTACT 12 RC Circuit Versions RC Series Circuit Additional delay Defined Induced Voltage Limitation Protecting the Load R C combination Medium to short Sizing Capacitor C Li oaq 4 x Ri oad Resistor R 0 2 x RLoad RC Parallel Circuit With Series Diode Additional delay Defined Induced Voltage Limitation Protecting the Load R C combination with diode Medium to short Sizing Capacitor C Li oaq 4 x Ri oad Resistor R 0 2 x RLoad 6774_en_00 IB IL 24 230 DOR 1 W Bipolar Effective Attenuation Advantages Disadvantages Advantages HF attenuation via power store Suitable for AC voltage Level independent attenuation Reactive current compensating Disadvantages Exact sizing required High inrush current 5663A030 Bipolar Effective Attenuation Advantages Disadvantages Advantages
14. l Pgus Power dissipation through bus operation PREL Power dissipation of the relay coil PIL Power dissipation through the load current via the contacts I Load current of the output 6774_en_00 PHOENIX CONTACT 4 IB IL 24 230 DOR 1 W Power Dissipation of the Housing Depending on the Ambient Temperature Piou 1 2 W 25 C 13 F lt TA lt 25 C 77 F Piou 1 2W TA 25 C 77 F x 0 02 W C 25 C lt TA 77 F lt 55 C 131 F Phou Power dissipation of the housing Ta Ambient temperature Derating When Using the N O Contact 500 kbps and 2 Mbps Ambient Temperature T4 Power Dissipation of the Housing 40 C 0 9 W 45 C 0 8 W 50 C 0 7 W 55 C 0 6 W Maximum Load Current 3 0A 2 6A DOD IN 1 7A With an ambient temperature of up to 40 C a maximum permissible load current of 3 0 A can flow via the N O contact Observe the derating at higher temperatures Safety Equipment None Error Messages to the Higher Level Control or Computer System None Air and Creepage Distances According to EN 50178 VDE 0109 VDE 0110 Isolating Distance Relay contact bus logic Contact contact Contact PE Approvals For the latest approvals please visit www download phoenixcontact com 6774_en_00 Clearance gt 5 5 mm gt 3 1 mm gt 3 1 mm Creepage Distance Test Voltage gt 5 5 mm 4 kV 50 Hz 1 min gt 3 1 mm 1 kV 50 Hz 1 min gt 3 1 mm 1 kV 50 Hz 1 min PHOENIX CONTACT 5
15. thout accessories transmission speed 2 Mbps Inline terminal with one digital relay output complete with accessories connector and labeling field transmission speed 2 Mbps One of the listed connectors is needed for the complete fitting of the terminals IB IL 24 230 DOR 1 W and IB IL 24 230 DOR 1 W 2MBD Accessories Description Plug for digital 1 2 or 8 channel Inline terminals with AC voltage Inline spacer terminal block without accessories Connector set for spacer terminal block Documentation Description Configuring and Installing the INTERBUS Inline Product Range user manual Automation Terminals of the Inline Product Range user manual Technical Data General Data Housing dimensions width x height x depth Weight Operating mode Connection method for actuators Ambient temperature operation Ambient temperature storage transport Permissible humidity operation storage transport Permissible air pressure operation Permissible air pressure storage transport Degree of protection Connection data for Inline connector Connection method Conductor cross section Interface Local bus 6774_en_00 IB IL 24 230 DOR 1 W Type Order No IB IL 24 230 DOR 1 W 2836434 1 IB IL 24 230 DOR 1 W PAC 2861881 1 IB IL 24 230 DOR 1 W 2MBD 2855910 1 IB IL 24 230 DOR 1 W 2MBD PAC 2862110 1 Pcs Pck Type Order No Pcs Pck IB IL SCN 8 AC REL 2740290 1 IB IL DOR LV SET 2742641 1 IB IL DOR LV PLSET 274266
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