TeSys motor starters
Contents
1. NIM Number of starter controllers Number of controllers Network Interface LUCA eeBL LUCB eeBL LUCM eeBL LUCB ee Module LUCC eeBL LUCD ee LUCD eeBL LUCM ee CANopen Standard 17 17 15 15 Basic 12 12 12 12 DeviceNet Standard 18 18 16 16 Basic 12 12 12 12 Profibus DP Standard 9 8 8 8 Basic 9 8 8 8 Interbus Standard 2 2 1 1 Basic 2 2 1 1 Fipio Standard 4 4 4 4 Modbus plus Standard 17 17 15 15 Ethernet Standard 32 32 32 32 Description Item Reference Weight kg Advantys STB communication module 14 LUL C15 0 108 Line end adapter 16 LU9 RFL15 0 012 End of segment EOS 11 STB XBE1100 Beginning of segment BOS 18 STB XBE1300 Pre wired components simplify wiring and reduce wiring errors By pre wired connector or wire link m Pre wired connector pre wired coil connection The use of a power base without pre wired control circuit connections is recommended Description For use with Item Reference Weight power base kg Pre wired coil connection LUB ee 19 LU9B N11L 0 050 LU2B ee 20 LU9M RL 0 450 m Wire link Allows insertion for example of an emergency Stop control or a voltage interface This type of connection must be used for a reversing starter controller assembled using an LU6M reverser block for separate mounting When reverser block LU6M and the power base are mounted side by side a pre wired coil connection LU9M RL may be2. d Electric 0 37 LUB12 LUCLO5 ATV31H037N4 0 55 LUB12 LUCLO5 ATV31H055N4 0 75 LUB12 LUCLO5 ATV31H075N4 1 1 LUB12 LUCL12 ATV31HU11N4 1 5 LUB12 LUCL12 ATV31HU15N4 22 LUB12 LUCL12 ATV31HU22N4 3 LUB32 LUCL18 ATV31HU30N4 4 LUB32 LUCL18 ATV31HU40N4 5 5 LUB32 LUCL32 ATV31HU55N4 7 5 LUB32 LUCL32 ATV31HU75N4 i TeSys U Altistart 61 type 1 coordination 0 75 LUB12 Theme ATV61H075N4 1 5 LUB12 LUCL12 ATV61HU15N4 2 2 LUB12 LUCL12 ATV61HU22N4 3 LUB32 LUCL18 ATV61HU30N4 4 LUB32 LUCL18 ATV61HU40N4 5 5 LUB32 LUCL32 ATV61HU55N4 7 5 LUB32 LUCL32 ATV61HU75N4 i TeSys U Altistart 71 type 1 coordination Powe TeSys Ur 0 75 z USER ES ATV71H075N4 1 5 LUB12 LUCL12 ATV71HU15N4 2 2 LUB12 LUCL12 ATV71HU22N4 3 LUB32 LUCL18 ATV71HU30N4 4 LUB32 LUCL18 ATV71HU40N4 5 5 LUB32 LUCL32 ATV71HU55N4 Schneider 4n 39
3. Fipio 1 Profibus DP DeviceNet Modbus 524177 ATS48 ATV312 Front panel of the product 1 LEDindicating communication status of the Modbus serial links gateway status communication status of the Fipio Profibus DP or DeviceNet bus 2 Connectors for connection to Fipio Profibus DP or DeviceNet buses Underside of product 3 RJ45 connector for connection of the Modbus serial link 4 RJ45 connector for link to a PC 5 24N power supply For the Fipio bus software set up of the gateway is performed using either PL7 Micro Junior Pro software or ABC Configurator software For the Profibus DP and DeviceNet buses software set up is performed using ABC Configurator This software is included in the TeSys U user s manual 561512 1 Connection kit for PowerSuite software workshop see page 1 74 Characteristics references Dimensions Schemes page 1 95 page 1 95 page 1 118 1 94 Schneider d Electric Characteristics TeSys motor starters open version references Communication gateways LUF P dimensions Bus type Fipio Profibus DP DeviceNet Environment Conforming to IEC 60664 Degree of pollution 2 Ambient air temperature Around the device c 10 50 Degree of protection IP 20 Electromagnetic Emission Conforming to IEC 50081 2 1993 compatibility Immunity Conforming to IEC 61000 6 2 1999 Number
4. Modbus serial link ENS Functions available EE Functions not available Modbus serial link The PowerSuite software workshop can be connected directly to the device terminal port or Modbus network port via the serial port on the PC Two types of connection are possible m With a single device point to point connection use a VW3 A8 106 PC serial port connection kit m With a number of devices multidrop connection use the XGS Z24 interface Modbus TCP communication network The PowerSuite software workshop can be connected to a Modbus TCP network In this case the devices can be accessed m Using a VW3 A3 310 communication card for the Altivar 61and 71 drives m Using a TSX ETG 100 Modbus TCP Modbus gateway Bluetooth wireless link The PowerSuite software workshop can communicate via a Bluetooth radio link if the device is equipped with a Bluetooth Modbus VW3 A8 114 The adapter plugs into the device connector terminal port or Modbus network port and has a range of 10 m class 2 If the PC does not feature Bluetooth technology use the VW3 A8 115 USB Bluetooth adapter Remote maintenance Asimple Modbus TCP connection is all that is required for the PowerSuite software workshop to support remote monitoring and diagnostics When devices are not connected to the Modbus TCP n
5. Application Item Breaking Mounting Unit Weight capacity Iq reference lt 440 V 690 V kA kA kg Limiter 749 130 70 Direct on LUA LB1 2 0 310 disconnector power base 3 5 Current limiter 8 100 35 Separate LA9 LB920 0 320 3 Limiter cartridge 9 130 70 Limiter disconnector LUALF1 0 135 Clip in On power base LAD 90 4 0 001 marker holder on reverser block on parallel link splitter box 1 The rated peak current for power sockets AK5 PCee is 6 kA When used in association with power bases LUBee the prospective short circuit current must not exceed 7 kA 2 Supplied with limiter cartridge 3 These devices make it possible to increase the breaking capacity of the power base 4 Sold in lots of 100 5 The limiter must be mounted on an LUB or LU2B power base The limiter can therefore not be common to several motor starters Dimensions pages 1 110 and 1 111 1 66 Schneider Electric References continued 568768 568769 568771 568770 TeSys motor starters open version TeSys U starter controllers Power connection pre wired system limiter blocks and accessories Phase barrier LU9 SPO must be used m To build a UL 508 type E certified starter Self Protected Starter Without the phase barrier the starter controller is certified UL 508 m If the starter controller is to be used on an operational voltage of 690 V Description Item Application Mounting
6. Forward running Reverse running Output common Selector in position Pole state Reserved Fault Input common co JO om ko 3 1 117 Schemes continued TeSys motor starters open version TeSys U starter controllers Wiring hub and splitter boxes Modbus hub LU9GC3 Parallel wiring splitter box LU9 G02 Parallel wiring splitter box LU9 G03 Forward running Forward running Reverse running Reverse running Output common Output common NIC N C Pole state Pole state NIC x9 24V X9 Fault Fault X1 Fault Fault X1 24 V Aux Fault X2 24 V Aux Fault X2 x2 co Fault X3 Fault X3 LP Y Fault x4 Fault X4 w Fault X5 Fault X5 D SG E NIC n Fau au z NIC I eo Fault X8 co Fault X8 cu D B ss 2 Pole state X1 el Pole state X1 E PO D A x3 2 Bs state x Pole state X2 d Bl Li SE 24V m N Pole state N Pole state 1 Pole state X5 Pole state X5 l lov LL Pole state X6 Pole state X6 aL Le 9 Pole state X7 Pole state X7 X X4 Pole state X8 Pole state X8 N 24 V Aux 24 V Aux E al Com Com RJ45 5t 24 V Aux 24 V Aux Com Com ke A IL p i 2 1 X5 AI Forward running kad NIC i a xo e _ x10 Commun des ic Forward running x1 Forward running X
7. 1000 o E LT 1 100 2 3 10 1 0 1 1 2 3 4 5 6 7 8 10 12 14 20 30 xthe setting current Ir 1 LUCD 3 poles from cold state class 20 2 LUCA LUCB 3 poles from cold state class 10 3 LUCA LUCB LUCD 3 poles from hot state Average operating times at 20 C according to multiples of the setting current tolerance 20 1000 Time s 100 0 1 il 2 3 4 5 6 7 8 10 12 14 20 30 x the setting current Ir 1 LUCC single phase cold state 2 LUCC single phase hot state References page 1 69 G3 1 104 Schneider ectric n E FU Curves continued TeSys motor starters open version TeSys U starter controllers Cold state curves Average operating times at 20 C according to multiples of the setting current tolerance 20 10000 a o E E N Wo 1000 NANAS KM Ki TNS KE S Ki See 100 SH Ze C Bes sa Ta LH a ee Re gt 10 a Class30 Class 25 ak Class 20 Class 15 Class 10 1 Class 5 0 1 1 4 5 6 7 8 9 10 12 14 16 18 20 30 11 13 15 17 19 xthe setting current Ir References page 1 70 Schneider Electric 1 105 Curves continued TeSys motor starters open versi
8. 24 V auxiliary power supply 5 Yellow connector for connection to the AS Interface system Series type connection Architecture Communication modules ASILUF C5 or ASILUF C51 Tap off TCS ATVO1N2 Pre wired coil connection LU9B N11C Information transmitted by the AS Interface system AS Interface profiles 7 D F 0 profile and 7 A 7 E profile Data bits command Bit value 0 1 Command DO O Stop forward Forward running Command D1 O Stop reverse Reverse running Command D2 O Not used Not used Command D3 O Not used Not used Data bits Bit value 0 1 status Status DO I Not ready or fault Ready Status D1 Stopped Running Status D2 Not used Not used Status D3 Not used Not used Description Addressing Item Reference Weight kg Communication Single 6 ASI LUF C5 0 065 modules 31 slaves Extended 6 ASI LUF C51 0 065 62 slaves 1 78 Schneider S Electric References continued TeSys motor starters open version TeSys U starter controllers AS Interface communication modules Pre wired components simplify wiring and reduce wiring errors 510920 By pre wired connector or wire link m Pre wired connector pre wired coil connection The use of a power base without pre wired control circuit connections is recommended Description For use with Item Reference Weight power base kg Pre wired LUB ee 3 LU9B N11C 0 045 coil connection LU2B ee 5 LU9M RC 0 030 m Wire
9. AS Interface modules ASILUF C5 and ASILUF C51 Profibus DP module LUL C07 CANopen module LUL C08 DeviceNet module LUL C09 Advantys STB module LUL C15 Modbus modules LUL C031 and LUL C033 They must be used in conjunction with a 24 V control unit and require a 24 V supply voltage Connection to other protocols such as Fipio is possible via gateway modules LUFP or via the TeSysPort for Ethernet Auxiliary contact modules LUFN 3 3 possible configurations 2 N O 1 N O 1 N C or 2 N C Auxiliary contacts 4 They provide the following information fault signalling and rotary knob in ready position Reverser block 5 Allows a non reversing power base to be converted to reversing operation The reverser block LU2M is mounted directly beneath the power base without modifying the width of the product 45 mm The reverser block LU6M is mounted separately from the power base when the height available is limited Limiter disconnector LUA LB This unit is mounted directly on the power base It allows the breaking capacity to be increased up to 130 kA at 400 V with a visible break Plug in terminal blocks 6 The control terminal blocks are of the plug in type so allowing wiring to be prepared away from the machine or the replacement of products without rewiring Control circuit pre wiring system 7 Numerous pre wired accessori
10. Oo o Motor type Single phase Single phase and 3 phase Thermal overload test function e H Overtorque No load running Long staring time E Automatic or remote Parameters can be set IERI Integrated function pg Function provided with accessory Compatibility of References Functions control unit LUCLee with The starter controller Yes LUB 12 LUB 32 Starter controller magnetic protection The starter No LUS 12 LUS 32 Starter without either magnetic or thermal overload protection The controller No LUTM Controller without thermal overload protection Add on contact blocks Yes LUA 1C11 Add on contact blocks with fault signalling 1 N O 1 N C with fault signalling LUA 1C20 Add on contact blocks with fault signalling 2 N O and auxiliary contacts m LUF N20 Auxiliary contacts 2 N O LUF N11 Auxiliary contacts 1 N O 1 N C LUF N02 Auxiliary contacts 2 N C Communication Yes ASILUF C5 and AS Interface communication modules modules ASILUF C51 LUF C00 Parallel wiring module LUL C033 Modbus communication module 1 output 2 inputs LUL C031 Modbus communication module 1 output LUL C15 Advantys STB communication module 1 output 2 inputs LUL C08 CANopen communication module 1 output 2 inputs LUL C09 DeviceNet communication module 1 output 2 inputs LUL C07 Profibus DP communication module 1 output 2 inputs Function modules No LUF W10 Alarm functio
11. 107983 538849 Presentation TeSys U starter controller 1 52 TeSys motor starters open version TeSys U starter controllers The TeSys U starter controller is a D O L starter 1 which performs the following functions m Protection and control of single phase or 3 phase motors o isolation and breaking function o overload and short circuit protection o thermal overload protection o power switching Control of the application o protection function alarms application monitoring running time number of faults motor current values o logs last 5 faults saved together with motor parameter values These functions can be added by selecting control units and function modules which simply clip into the power base This late customisation is even possible after power and control circuit wiring has been completed TeSys Uis a flexible range that meets the current and future needs of system builders panel builders and machine manufacturers as well as those of additional Systems From design through to operation TeSys U offers many advantages and simplifies the selection of components in comparison with a traditional solution the breaking isolation and contactor functions are incorporated in a single block this means fewer references to be ordered and easy selection without any risk of error because a single reference covers all needs up to 15 Kw the control unit has a wi
12. 18 LUCL18ee 0 135 8 32 LUCL32ee 0 135 1 Standard control circuit voltage Volts 24 48 72 110 240 E BL 2 3 s B OF ES 4 FU 5 2 Voltage code to be used for a starter controller with communication module 3 d c voltage with maximum ripple of 10 96 4 48 72 V N 48 V 5 110 220 V 110 240 V ider ectric 1 134 Schn z0 Selection TeSys motor starters open version Magnetic control unit for the protection of variable speed controllers and soft start stop units Functions provided Maximum motor Power base Control unit Line current power ratings 50 60 Hz reference reference 400 415 V 500 V 690 V KW KW KW A m Short circuit protection 0 09 LUB 12 or LUB 32 LUCLX6ee 0 15 0 6 m Manual reset 0 25 LUB 12 or LUB 32 LUCL1Xee 0 35 1 4 1 5 22 3 LUB 12 or LUB 32 LUCLO5ee 1252 5 5 5 5 5 9 LUB 12 or LUB 32 LUCL12ee 3 12 7 5 9 15 LUB 32 LUCL18ee 4 5 18 15 15 18 5 LUB 32 LUCL32ee 8 32 Control units Standard Advanced Multifunction LUCA Luce Lucc LucD LucL Thermal overload protection Over current protection 14 2 x the setting current 3 to 17 x the setting current r Lei o Short circuit protection 14 2 x the max current Protection against phase loss unten cnet a lt lt Protection against phase imbalance Earth fault protection equipment protection only Tripping class
13. Conductor size 1 conductor AWG 24 AWG 16 AWG 26 AWG 16 AWG 24 AWG 16 AWG 26 AWG 16 Tightening torque 0 5 0 6 0 20 0 25 0 5 0 6 0 20 0 25 Flat screwdriver Connectors Pitch 2 5 DeviceNet 5 Open Style Flexible cable without cable end 1 conductor 0 2 2 5 2 identical conductors 0 5 1 5 Flexible cable Without with cable end insulated ferrule 1 conductor 0 25 2 5 2 identical conductors 0 25 1 With insulated ferrule 1 conductor 0 25 2 5 2 identical conductors Use a double cable end 0 5 Solid cable without cable end 1 conductor 0 14 0 2 2 5 2 identical conductors 0 14 0 5 0 14 0 5 0 14 0 5 0 14 0 5 Conductor size 1 conductor AWG 26 AWG 16 AWG 26 AWG 16 AWG 26 AWG 16 AWG 24 AWG 16 Tightening torque 0 20 0 25 0 20 0 25 0 20 0 25 0 5 0 6 Flat screwdriver 2 5 2 5 2 5 3 5 Scbneider Electric 1 103 Curves TeSys motor starters open version TeSys U starter controllers Average operating times at 20 C according to multiples of the setting current tolerance 20
14. Electric Presentation TeSys motor starters open version references TeSys U starter controllers AS Interface communication modules AS Interface communication modules ASILUF C5 and ASILUF C51 make it easy to connect starter controllers to the AS Interface cabling system and therefore allow remote control and command of these starter controllers ASILUFC5 510919 Module ASILUF C51 features extended addresing The various operating states of the modules AS Interface voltage present communication fault addressing fault are indicated on the front panel by a green LED 1 and a red LED 2 COM OA1 OA3 Operation of the modules is continuously monitored by auto testing in a way that is totally transparent to the user The incorporation of AS Interface V 2 1 functions allows diagnostics to be performed The product is supplied with a yellow connector 4 for connection to the AS Interface system a black connector 5 for connection to the 24 V auxiliary supply and a black connector 3 for connection of the outputs 3 4 5 on the modules either remotely via the line or locally via the ASI TERV2 addressing terminal 1 Green LED AS Interface voltage present 2 RedLED AS Interface or module fault The communication modules must be connected to a 24 V auxiliary supply and 3 Outputs for starter commands must be used in conjunction with a 24 V control unit LUCe eeBL 4 Black connector for connection to
15. LUCC eeBL and LUCD eeBL Yes Yes LUCM eeBL V1 04 Yes No V1 05 Yes Yes V1 06 Yes V1 10 1 Yes Yes With base controllers version 1 200 1 Control unit software versions LUL C031 LUL C033 V2 3 1 V2 1 1 LUCB TeeBL and LUCD TeeBL Yes LUCM TeeBL V2 1 1 Yes 1 And higher versions Eug Combinations not permitted Description Item Reference Weight kg Modbus communication modules 7 LUL C031 0 080 7 LUL C033 0 080 Pre wired components simplify wiring and reduce wiring errors By pre wired connector or wire link m Pre wired connector pre wired coil connection The use of a power base without pre wired control circuit connections is recommended Description For use with Item Reference Weight power base kg Pre wired coil connection LUB ee 8 LU9B N11C 0 045 LU2B ee 13 LU9M RC 0 030 m Wire link Allows insertion for example of an emergency Stop control or a voltage interface This type of connection must be used for a reversing starter controller assembled using an LU6M reverser block for separate mounting When reverser block LU6M and the power base are mounted side by side a pre wired coil connection LU9M RC may be used Achieved either by means of a Modbus hub or using T junctions Description Length Item Reference Weight m kg Modbus hub E 10 LU9 GC3 0 260 8 slaves Cables fitted with 0 3 9 VW3 A8 306 R03 0 045 2x RJ45 connectors 1 9 VW3 A8 306 R10 0 065 3 9 VW3 A8 306 R30 0 125
16. UL 508 Overload protection Tripping class conforming to UL 508 IEC EN 60947 6 2 5 10 15 20 25 30 selectable Frequency limits of the operational current 50 60 Temperature compensation 25 55 Communication Physical interface RS 485 multi drop interface for Connections RJ45 on front panel terminal on or Protocol Modbus RTU Maximum transmission speed 19 200 self configuration up to this value Maximum return time 200 Display Type LCD 2 lines of 12 characters Language version Multilanguage English French German Italian Spanish Precision 5 Resolution 1 96 of Ir Auxiliary supply External type 24 with maximum ripple of 10 96 Heat dissipation 0 8 Tripping Alarm Adjustment of tripping Adjustment of time before Adjustment of alarm threshold tripping threshold Factory setting Factory setting Range Default value Range Default value Range Default value Overcurrent Activated 1 3 17 Ir 14 2 Overload Activated 1 Activated 0 5 32A 2 Irmin Class 5 30 5 10 100960f 85 the thermal state Earth fault Activated Activated 0 2 5Irmin 0 3 Ir min 0 1 1 2s 0 1s 0 2 5Irmin 0 3Ir min Phase imbalance Activated Activated 10 30 10 0 2 20s 5s 10 30 10 96 Torque limitation Deactivated Deactivated 1 8 Ir 21r 1 30s 5s 1 8 Ir 21r No load running Deactivated Deactivated
17. pre wired coil connection The use of a power base without pre wired control circuit connections is recommended Description For use with Item Reference Weight power base kg Pre wired coil connection LUB ee 4 LU9B N11L 0 050 LU2B ee 6 LU9M RL 0 450 m Wire link Allows insertion for example of an emergency Stop control or a voltage interface This type of connection must be used for a reversing starter controller assembled using an LU6M reverser block When this reverser block and the power base are mounted side by side a pre wired coil connection LU9M RL may be used The 24 V Aux supply to Profibus DP modules LUL C07 must pass through power supply module LU9 GC7 LUL C07 modules must be connected to the LU9 GC7 splitter box in order to be powered The number of TeSys U starter controllers that can be powered by an LU9 GC7 module is limited by the maximum current 1 5 A which it can deliver The 24 V supply for the inputs outputs must be provided separately Description Length Item Reference Weight m 1 kg Profibus DP 15 LU9 GC7 power supply module Profibus DP connector 16 LU9 AD7 Profibus DP cables 100 13 TSX PBSCA100 2 wire 400 13 TSX PBSCA400 Profibus DP cables 10 17 LU9 RPB010 4 wire 100 17 LU9 RPB100 E 400 17 LU9 RPB400 1 See connection diagram on page 1 80 Schneider 1 81 Electric Compatibility LUB LUC eeeBL LUL C07 LU9B N11L TeSys moto
18. 0 V Blue wire AS Interface Brown wire AS Interface 2 The CD Rom contains user s manuals for the AS Interface and Modbus communication modules multifunction control units and gateway modules as well as the gateway programming software 3 English French German Italian Spanish Electric Schneider 1 79 Presentation Profibus DP OA3 OA1 COM 13 0603 1 LED indicating module status 2 Faultsignalling LED 3 LED indicating 24 V supply ON for outputs OA1 OA3 and LO1 4 SUB D connector for bus link 5 24 V supply connection 6 Discrete input 7 Discrete input 8 Discrete output 9 Outputs for starter controller commands non reversing and reversing 10 Pin for connection to control unit advanced or multifunction 1 80 Sc TeSys motor starters open version TeSys U starter controllers Profibus DP communication module and pre wired coil connection components When used in conjunction with the power base and control unit communication module LULCO7 allows TeSys U starter controllers to be controlled via Profibus DP Deported Periphery Communication module LULC07 is of the slave type and uses the TeSys U system s internal registers which can be accessed via the Profibus DP bus in cyclic or acyclic mode This module has a 24 V 0 5 A discrete output and two configurable discrete inputs Serial bus topology 2AN 24V 11 Programma
19. 05 05 S 0 4 5 04 g Q 9 03 2 03 5 6 o Hd g 02 B 02 0 1 i 0 1 t 0 08 i 0 08 d 0 06 0 06 4 0 05 0 05 t 0 04 l 0 04 0 08 0 03 1 0 02 H 0 02 H i i 1 0 01 H 0 01 1 2 3 5 10 20 30 50 66 100 1200 1 2 3 5 10 20 30 50 60 100 200 40 60 80 170 40 54 80 126 Current broken in A Current broken in A References page 1 62 Electric Schneider 1 109 Dimensions TeSys motor starters open version TeSys U starter controllers Starter controllers LUB non reversing Rail mounting Screw fixing 126 LN 126 94 2 N d a 1 x 135 1 a With Modbus module 135 With Advantys STB CANopen Profibus DP 147 or DeviceNet modules Minimum electrical clearance X1 50 mm for Ue 440 V and 70 mm for Ue 500 and 690 V X2 0 Reverser block for mounting separately from power base Rail mounting Screw fixing bs e Sets of busbars and plug in power sockets GV2 G445 and GV2 G454 18 LU2B reversing GV2 G445 2x45 179 45 GV2 G454 2x 54 206 54 a Number of tap offs 5 6 7 8 GV2 G445 2x45 224 269 314 359 GV2 G454 2x 54 260 314 368 422 AK5 JB144 esi 1 Up lglg lglg tgp ly Ti Dtm Dt rtr ntn 438 D gigi panig 452 Rail mounti
20. 2 No consumption sealed 3 For 690 V use phase barrier LU9 SPO Electric Schneider 1 97 Characteristics TeSys motor starters open version TeSys U starter controllers Reversing power bases and auxiliary contacts Duration of inrush phase 50 60 Hz ms Maximum operating time Without change of direction With change of direction Conventional For ambient temperature 0 70 C 5 thermal current Ith Frequency of the operational current Up to 400 Minimum switching capacity 102 U min 17 Imin 5 Short circuit Conforming to IEC EN 60947 5 1 gG fuse 4 protection Short time rating Permissible for 1s 30 500 ms 40 100 ms 50 Insulation resistance 10 Guaranteed between N C and N O contacts Non overlap time 2 on energisation and on de energisation Linked contacts Mirror contact Conforming to IEC EN 60947 4 1 Conforming to IEC EN 60947 1 Each power base has 1 N O contact and 1 N C contact which are mechanically linked The N C contact fitted in each power base reliably represents the state of the power contacts safety scheme Up to 690 250 690 600 Rated operational voltage Ue Rated insulation Conforming to IEC EN 60947 5 1 voltage Ui Conforming to UL CSA Rated operational voltage Ue Rated insulation Conforming to IECJEN60947 5 1 voltage Ui Conforming to UL CSA Up to 250 250 250 2
21. ATSU 704 0 0 Forward 704 0 1 Reverse 704 1 1 Automatic control without deceleration Powering down TeSys U and ATSU Run 700 0 1 Forward 704 0 0 Stop 704 0 0 Reverse 704 1 0 Automatic control with deceleration Automatic control without deceleration Run 700 0 1 Run 700 0 1 Soft stop 700 0 0 Stop forward 704 0 0 Stop reverse 704 1 0 Automatic control with deceleration forward or reverse Run 700 0 1 Soft stop 700 0 0 A1 Soft start soft stop unit A1 Soft start soft stop unit QF1 TeSys U controller starter with reversing unit Automatic control with AS Interface communication module without deceleration Without reversing unit With reversing unit i ASI LUFC5 LU2B e2BL ASI LUFC5 LU9B N11C 24V A lntertaee 25 Q 2V AS Interface Pre wired coil F oon 2 m S bd e Se r Pe mum poe yea yee Ere T ee E ait WS BCEE Function Bit Value Function Bit Value Power up and automatic control without deceleration Power up and automatic control without deceleration Run DO 1 Run forward DO 1 Stop DO 0 Stop DO 0 Run reverse D1 1 Stop D1 0 A1 Soft start soft stop unit A1 Soft start soft stop unit QF1 TeSys U controller starter with reversing unit Presentation Characteristics References Dimensions pages 1 124 and 1 125 pages 1 126 and 1 127 page 1 128 page 1 129 Electric Schneider 1 133 Presentation TeSys moto
22. L1 LL Ed LU Le ake Green LED L Green LED LI 1 er Logic input LI2 l l Logic input LI2 Pushbutton S2 Pushbutton S1 Pushbutton S1 00000 0771 ogie output Logic output LO1 M LI Ly Yellow LED Hoi Ee Yellow LED 5 puki 5 105 Y Motor voltage i ETO PN 2 Motor voltage fe ig e l t J Li t N t1 Lt Automatic 3 wire control Without deceleration With deceleration 24V 24V EISE CO ECC p aa les TM ATSU 01N2eeLT LUA1 C20 LUA1 C20 z Il o LE 1 2 S e E WENNER SERE Ge 82 EA s2E QF1 a 3 x QF1 N lt Functional diagrams Power supply cL CC Power supply LI 1 4 _3 voltage voltage Green LED ID Green LED 2500 ms lagi Logic input LI2 Pushbutton 51 U Pushbutton 82 pp ee Pushbutton S2 HI q1 Logic input LI1 Pushbutton 1 l S Logic input LI2 LI L I Logic output LO1 Logic output LO1 LX au Yellow LED r o 2 Yellow LED ban Lon 105 105 pens P Motor voltage e e Motor voltage A1 Soft start soft stop unit S1 S2 XB4 B or XB5 B pushbuttons QF1 TeSys U controller starter t1 Acceleration time can be controlled by a potentiometer t2 Deceleration time can be controlled by a potentiometer U Starting time can be controlled by a potentiometer Presentation Characteristics References Dimensions pages 1 124 and 1 125 pages 1 126 and 1 127 page 1 128 page 1 129 Schneider Electric 1 131 Schemes continued Soft starters for asynchrono
23. LUB 12 0 900 clamp clamp 4 terminals terminals 32 23 21 LUB 32 0 900 Without 1 2 12 12 9 LUB 120 0 865 connections 32 23 21 LUB 320 0 865 Connection For base Item Reference Weight 2 kg Screw clamp terminals LUB 120 or 320 3 4 LU9B N11 0 045 1 Rated breaking capacity for operation on short circuit Ics see table below For higher values use current limiters see page 1 66 Volts 230 440 500 690 3 kA 50 50 10 4 2 The various sub assemblies are supplied assembled but they are easy to separate as shown in the illustration 3 For 690 V use phase barrier LU9 SPO Other versions Power bases without built in short circuit protection device short circuit protection by circuit breaker or separate fuses Please consult your Regional Sales Office Characteristics pages 1 96 to 1 98 1 62 Dimensions pages 1 110 and 1 111 Schemes pages 1 112 to 1 119 Schneider Electric References TeSys motor starters open version TeSys U starter controllers Reversing power bases Two versions of control connection configuration are available m connection by screw terminals plug in control terminal block m without connections This version enables wiring to be prepared in advance and is recommended when a communication module is required allowing the use of control connection prewiring accessories Connection Item Rating Reference to Weight Power Contro 1 lt 440V 500V 690v becomplet
24. RFL15 17 Bus connection cable LU9 RDDee straight straight for connections between LUL C15 modules 18 Beginning of segment BOS Connection of power supply for the outputs A 24 V supply must be connected to module LUL C15 for outputs OA1 OA3 and LO1 Information carried by the bus Depends on the type of control unit used Control unit Standard Advanced Multifunction Starter status ready running fault Start and Stop commands Thermal overload alarm Remote reset via the bus Indication of motor load Fault signalling and differentiation Remote programming and monitoring of all functions Log function Monitoring function Alarms overcurrent P Functions performed For more detailed information please refer to User s Manual LUCA eeBL B eeBL C eeBL D eeBL All versions marketed after 2T04081 1 LUCM eeBL All versions 2 V3 2 LUCM T1BL All versions 2 V3 2 1 This date code is made up as follows 2T or 2C factory code 04 05 06 and so on year of manufacture 08 week 1 1st day of the week Scbneider P Electric References TeSys motor starters open version TeSys U starter controllers Advantys STB communication module and pre wired coil connection components The maximum number of starter controllers and controllers that can be connected to an Advantys STB island depends on the Network Interface Module NIM used and the associated control units
25. and 1 111 pages 1 112 to 1 119 Schneider 1 98 G Electric Characteristics Protection Motor type TeSys motor starters open version TeSys U starter controllers Control units 3 phase Conforming to standard IEC EN 60947 6 2 UL 508 CSA C22 2 n 14 Overload Tripping class conforming to 10 protection UL 508 IEC EN 60947 6 2 Frequency limits of the operational current 40 60 Temperature compensation 25 70 Protection against phase imbalance Yes Short circuit Tripping threshold 14 2 x Ir setting current protection Tripping tolerance 20 Control unit type LUCB LUCC LUCD Protection Motor type 3 phase Single phase 3 phase Conforming to standard IEC EN 60947 6 2 UL 508 IEC EN 60947 6 2 UL 508 IEC EN 60947 6 2 UL 508 CSA C22 2 n 14 CSA C22 2 n 14 CSA C22 2 n 14 Overload Tripping class conforming to 10 10 20 protection UL 508 IEC EN 60947 6 2 Frequency limits of the operational current Hz 40 60 40 60 40 60 Temperature compensation c 25 70 25 55 25 70 Protection against phase imbalance Yes Yes Short circuit Tripping threshold 14 2 x Ir max 14 2 x Ir max 14 2 x Ir max protection Tripping tolerance 20 20 20 Protection Motor type Parameters can be set single phase or 3 phase Conforming to standard IEC EN 60947 6 2
26. and OA3 unchanged Value 2 Outputs OA1 and OA3 forced to 0 Value 3 Outputs OA1 and OA3 unchanged signalling existence of communication failure Value 4 Outputs OA1 forced to 1 and OA3 unchanged Value 5 Outputs OA3 forced to 1 and OA1 unchanged Commands Register 700 BitO LO1 output command Register 704 Bit O OA1 output command Bit 1 OA3 output command Bit2 Reserved Bit 3 Fault acknowledgement Bit4 Reserved Bit5 Trip test Bit 6 15 Reserved z Data accessible Schneider 1 119 Electric Basic schemes U1 2 71 2 wire control via 2 position switch QF1 S1 A1 A2 A Stat Stop eT uw TeSys motor starters open version TeSys U starter controllers Non reversing Connection of a motor load indicator module LUFV 2 Al Ae LUFV 2 Analogue output Module 3 wire control pulsed start with maintaining contact 4 20 mA 24V Aux 24 V Aux OF1 Connection of thermal overload fault signalling modules LUF DA10 Automatic reset LUF DA10 Automatic or remote reset 24 280V 1 ASA aana l L M s14 Control via Modbus communication module LUL C031 Without pre wired coil connection 24V Modbus 1 120 Remote reset p NE E LUF DA10 Automatic or remote reset 24 280V A M 81d Control via Modbus communication module LUL C033 Without pre w
27. connection 4 1 LU9B N11C 1 93 Connection of communication module output terminals to the coil terminals Connection cable for connecting the 1 VW3 A8 306 Ree 1 93 communication module to the serial bus T junction 1 VW3 A8 306 TF03 1 93 m Short circuit protection with level of protection of 50 kA at 400V m Total coordination of protection devices conforming to EN 60947 6 2 continuity of Service in case of a short circuit m Electronic protection against thermal overloads with an adjustment range of 4 m Load switching 1 5 million operating cycles in category AC 43 at In m Measurement of load current and detection of no load running by the multifunction control unit m Interlock between the motor starter control and the position of the rotary knob not possible to start the motor when the knob is in the OFF position m No load running or operation under load To use this function the following parameters must be entered H trip the answer yes no enables or disables the function D time before tripping the time period during which the value of the current must be below the tripping threshold in order to cause tripping adjustable from 1 to 200 s D tripping threshold value as a 96 of the load current ratio in relation to the setting current If the ratio remains below this threshold for the time specified in the previous parameter the product trips adjustable from 30 to 100 96 m Indication of the various motor starter sta
28. graphic elements cursors gauges bar charts m Perform sort operations on the parameters m Display text in five languages English French German Italian and Spanish The language changes immediately and there is no need to restart the program It also features online contextual help m On the PowerSuite tool m On the device functions by direct access to the user manuals 1 Certain functions are not available for all devices See the table of available functions page 1 73 References page 1 74 1 72 Schneider P Electric Functions continued PowerSuite software workshop Functions available for the PowerSuite software workshop Functions not listed in the table are available for all devices Function available with devices Monitoring Controller Starter Soft start Drives Servo controller soft stop drive unit TeSys T TeSysU ATV 11 ATV31 ATV61 ATV71 LXM05 Oscilloscope High speed oscilloscope FFT oscilloscope Display of communication parameters Control Customization of parameter names Creation of a user menu Creation of monitoring control panels Sort operation on parameters o B E Custom logic editor 536845 PowerSuite E Modbus serial link gg ATV310r ATV61 ATV 71 Lexium 05 TeSys U ATS 48 Modbus multidrop connection PowerSuite Modbus TCP network
29. link Allows insertion for example of an emergency Stop control or a voltage interface This type of connection must be used for a reversing starter controller assembled using an LU6M reverser block for separate mounting When reverser block LU6M and the power base are mounted side by side a pre wired coil connection LU9M RC may be used 531122 This is achieved by using a tap off for connection to 2 ribbon cables m 1 for AS Interface yellow m 1 for separate 24 V supply black Description Length Reference Weight m kg Tap off 2 XZ CG0142 0 265 Description Reference Weight kg Addressing terminal XZ MC11 0 550 Battery operated Battery charger supplied LU2B ASILUF C5 LU9M AS Interface V 1 and V 2 1 compatible Adjustment and diagnostics console ASI TERV2 0 500 Runs on LR6 batteries Allows addressing of AS Interface V 2 1 slaves and diagnostics Cable adapter XZ MG12 0 070 For console XZ MC11 AS Interface configuration is carried out using PL7 Micro Junior Pro software From the module declaration screen it is possible to configure all the slave devices corresponding to all the AS Interface UC Configuration is carried out by following the instructions on the screen iiki Bid TeSysUusersmanuadlg 000000 Application Language Reference Weight kg On CD Rom Multi language LU9 CD1 0 022 3 1 Degree of protection IP 54 Connection by 4 x 0 34 mm wires Black wire 24 V White wire
30. main circuit 400 SELV appendix N Between the control and auxiliary circuits 400 Degree of protection Front panel outside connection IP 40 Conforming to IEC EN 60947 1 zone protection against Front panel and wired terminals IP 20 direct finger contact Other faces IP 20 Protective treatment Conforming to IEC EN 60068 TH Conforming to IEC EN 60068 2 30 Cycles 12 Conforming to IEC EN 60068 2 11 h 48 Ambient air temperature Storage C 40 85 around the device Operation C Power bases and standard and advanced control units 25 70 At temperatures above 60 C and up to 70 C for starter controller LUB32 leave a minimum gap of 9 mm between products Power bases and multifunction control units 25 60 At temperatures above 45 C leave a minimum gap of 9 mm between products At temperatures above 55 C and up to 60 C leave a gap of 20 mm between products Maximum operating altitude m 2000 Operating positions In relation to normal vertical mounting plane Flame resistance Conforming to UL 94 V2 Conforming to c 960 parts supporting live components IEC EN 60695 2 12 C 650 Environmental restrictions Cadmium and silicone free recyclable Shock resistance Conforming to IEC EN60068 2 27 Power poles open 10 gn 1 2 sine wave 11 ms 1 Power poles closed 15 gn Vibration resistance Conforming to IEC EN 60068 2 6 Power poles open 2 gn 5 300 Hz 1 Power poles closed 4 gn 2 Resistance to Conforming to IEC EN 6
31. of Modbus slaves which can be connected lt 8 Connection Modbus By RJ45 connector conforming to Schneider Electric RS485 standard ToaPC By RJ45 connector with PowerSuite connection kit Field bus By SUB D9 female By SUB D9 female By 5 way removable connector connector screw connector Supply V External supply 24 10 96 Consumption Max mA 280 Typical mA 100 Indication diagnostics By LED on front panel Services Profile FED C32 or FED C32P Command 26 configurable words 1 122 configurable words 256 configurable words Monitoring 26 configurable words 1 122 configurable words 256 configurable words Configuration and adjustment By gateway mini messaging facility PKW References 00000000000 Description For use with With bus Reference Weight serial link kg Communication TeSys U starter controllers Fipio Modbus LUF P1 0 245 gateways Altistart 48 Profibus DP Modbus LUF P7 0 245 ANE DeviceNet Modbus LUF P9 0 245 Connection accessories Description For use with Length Connectors Reference Weight D Connection cables Modbus 3 1 RJ45 type connector and VW3 A8 306 D30 0 150 one end with stripped wires TSX FPACC 12 0 3 2 RJ45 type connectors VW3 A8 306 R03 0 050 1 2 RJ45 type connectors VW3 A8 306 R10 0 050 3 2 RJ45 type connectors VW3 A8 306 R30 0 150 Connectors Fipio 1 SUB D 9 male connector TSX FP ACC12 0 040 E Profibus mid line 1 SUB D 9 male connector 490 NAD 911 04 490 NAD 911 03 Profibus line end 1 SUB D 9 male co
32. of main motor parameters on front panel of the control unit or via a remote terminal m Differentiation of thermal overload and magnetic fault m Overload no load running CANopen DeviceNet Advantys STB communication module 1 communication module 1 communication module 1 LUL C08 LUL C09 LUL C15 see page 1 84 see page 1 86 see page 1 90 1 Communication modules can only be combined with a 24 V control unit LUCe ee BL Schneider 510901 Application examples TeSys motor starters open version TeSys U starter controllers Starting and protection of a pump m Power 4 kW at 400 V m in 9A m Maximum of 10 class 10 starts per hour m Duty class S3 m 3 wire control D Start button S2 D Stop button S1 m Control circuit voltage 230 V Power base 1 1 LUB 12 1 62 12A with screw clamp connections Standard control unit 2 1 LUCA 12FU 1 69 m Short circuit protection with level of protection of 50 kA at 400V m Total coordination of protection devices conforming to EN 60947 6 2 continuity of service in case of a short circuit m Electronic protection against thermal overloads with an adjustment range of 4 m Load switching 2 million operating cycles in category AC 43 at In m Indication of motor status by N C or N O contact m Interlock between the motor starter control and the position of the rotary knob not possible to start the motor when the knob is in the OFF
33. of the reversing power block makes mechanical interlocking unnecessary See 520969 510903 Application examples Commands Register 704 Status Register 455 Forward running BitO Ready available Reverse running Bit1 Poles closed Reserved Bit2 Fault Reset Bit3 Alarms Reserved Bit4 Tripped Connection test Bit5 Reserved reset enabled Reserved Bit6 A1 A2 powered Reserved Bit 7 Motor running Reserved Bit8 Motor current bit 0 Reserved Bit9 Motor current bit 1 Reserved Bit 10 Motor current bit 2 Reserved Bit 11 Motor current bit 3 Reserved 3 phase control Bit 12 Motor current bit 4 Reserved Bit 13 Motor current bit 5 Reserved Bit 14 Reserved Reserved Bit 15 Motor starting Scbneider TeSys motor starters open version TeSys U starter controllers Monitoring operation of a surface pump in a water treatment plant to avoid dry running which could lead to destruction of the pump m Power 15 kW at 400 V m in 28 5A m Duty class S1 m Control circuit voltage 24 V m Control command by PLC and serial link using the Modbus protocol i Item Quantity Reference Page Power base 32 A without connections 1 1 LUB 320 1 62 Multifunction control unit 2 1 LUCM 32BL 1 70 Modbus communication module 3 1 LUL C033 1 93 Pre wired coil
34. 0 70 C 12A lt 70 C 32A Ue lt 440 V tolEC EN Category AC 43 8 lt 70 C 12A 8 lt 70 C 32A 60947 2 Rated operational voltage V 690 3 690 3 Frequency limits Ofthe operating current Hz 40 60 40 60 Power dissipated Operational current A 3 6 9 1201998252232 in the power circuits Power dissipated W 01 03 06 141 24 46 7 5 in all three poles Rated breaking capacity on short circuit V 230 440 500 600 kA 50 50 10 4 Total breaking time ms 2 2 2 Thermal limit With Isc max on 440 V kA s 90 120 1 d c voltage with maximum ripple of 10 96 2 No consumption sealed 3 For 690 V use phase barrier LU9SPO Schneider Electric 1 137 526112 526112 526112 Combinations 1 138 526113 526114 526115 TeSys motor starters open version TeSys U starter controllers The standard defines tests at different levels of current the purpose of these tests is to place the equipment in extreme conditions The standard defines 2 types of coordination according to the condition of the components after testing type 1 and type 2 Type 1 coordination requires that in a short circuit condition the contactor or starter must not present any danger to personnel or installations and must not be able to resume operation without repair or the replacement of parts The product combinations given below provide type 1 coordination TeSys U Altistart 48 type 1 coordination Power TeSys U referen
35. 0 3 1 Ir 0 5 Ir 1 200s 10s 0 3 1 Ir 0 5 Ir Long starting time Deactivated Deactivated 1 8 Ir Ir 1 200s 10s 1 8 Ir Ir Factory setting Setting range Reset Manual Manual automatic or remote Time before reset 120s 1 1000 s Type of load 3 phase motor 3 phase motor single phase motor Self cooled Self cooled force cooled Language English English French German Italian Spanish Display Average current Average current thermal state of motor current in phase 1 2 3 earth leakage current phase imbalance cause of last 5 faults 1 This function cannot be deactivated 2 The setting range depends on the rating of the control unit used References Dimensions Schemes pages 1 69 and 1 70 pages 1 110 and 1 111 pages 1 112 to 1 119 Schneider 1 99 Electric Characteristics TeSys motor starters open version TeSys U starter controllers Limiter disconnector current limiter thermal overload alarm function module and thermal overload fault signalling modules Rated insulation voltage Ui conforming to standard IEC EN 60947 1 690 Conventional thermal current Ith conforming to standard IEC EN 60947 1 32 Operating threshold I rms 50 Breaking capacity 440 690 130 70 Mounting Directly on the upstream terminals of the starter controller Cabling Solid cable 1 conductor 1 5 10 2 conductors 1 5 6 Fle
36. 0 450 m Wire link Allows insertion for example of an emergency Stop control or a voltage interface This type of connection must be used for a reversing starter controller assembled using an LU6M reverser block When this reverser block and the power base are mounted side by side a pre wired coil connection LU9M RL may be used The 24 V supply to DeviceNet LUL C09 modules is provided via the V V terminals The 24 V supply for the inputs outputs must be provided separately from the supply to the LUL C09 modules The 24 V Aux terminal is for supply to the LUCM control unit or the LUTM controller Schneider 1 87 Electric Compatibility TeSys motor starters open version TeSys U starter controllers DeviceNet communication module and pre wired coil connection components Compatibility of DeviceNet communication module LUL C09 with starter controller LUB 12 LUB 32 z 1 0 09 LUB 12 LUC AeXBL LUC B6XBL LUC D6XBL LUC MeXBL LUL C09 LU9 BN11L or LUB 32 0 25 LUB 12 LUC A1XBL LUC B1XBL LUC D1XBL LUC M1XBL LUL CO9 LU9 BN11L or LUB 32 1 5 LUB 12 LUC A05BL LUC BO5BL LUC DO5BL LUC MOS5BL LUL C09 LU9 BN11L or LUB 32 LUB LUC eeeBL 5 5 LUB 12 LUC A12BL LUC B12BL LUC D12BL LUC M12BL LUL C09 LU9 BN11L LUL C09 LU9B N11L or LUB 32 7 5 LUB 32 LUC A18BL LUC B18BL LUC D18BL LUC M18BL LUL C09 LU9 BN11L 15 LUB 32 LUC A32BL LUC B32BL LUC D32BL LUC M32BL LUL C09 LU9 BN11L Note DeviceNet communication module LU
37. 0 L 0 0 0 0 0 Q 1 LUL C09 DeviceNet Module B 24V a LU9B N11L ONES S emu SW i e Wm 333 y s g mma 1 l I NYENG EE EE EE EECH L l l I l l I l l LUL C09 DeviceNet Module a S 24V Bus LU9M RL o 5 S ae d jS I Pre wired coil E J 1 116 Schneider d Electric Schemes continued TeSys motor starters open version TeSys U starter controllers Advantys STB communication module LUL C15 Without pre wired coil connection m TR E ue ee ess po AA 9 SiS 2 a ite LUL C15 Advantys STB Module 24 V GE m LUSBNTIL 5 5 8 a no re wired EEGEN e eve e rere ea e SR al e E LUL C15 Controller interface i x VO interface Supply Filter O 24 V Aux Schneider Electric Parallel wiring modules Without pre wired coil connection LUF C00 Parallel bus Module L 5 S 2 Link RJ45 UI UM CI ME HIZISTATSISETIS LUF C00 Parallel bus Module 1 1 LU9B N11C Link RJ45 4 Pre wited coll ooo HERE With pre wired coil connection LU9M RC LUF C00 Parallel bus Module LU9M RC Link RJ45 Pre wired coil 11 1 2 3 4 5 16 7 8
38. 1 I Pole state RJ45 N ponar running m Be running ed Forward runnin orward runnin DOE N C ia Ei Forward anna X4 Forward unn X4 Fault mi nd 0 Forward running X5 Forward running X5 24V Aux Eo el Forward running X6 kel Forward running X6 X6 X Forward running X7 Colours of Forward running X7 co Forward running X8 TSX CDPeee co Forward running X8 ILL fo Reverse running X1 connection el Reverse running X1 LX RJ45 IS Reverse running x2 cable wires 3 Reverse running x2 E L el Reverse running x3 4 Reverse running X3 LL N Reverse running X4 1 White Reverse running X4 X7 J N C 5 Reverse running X5 ieee NIC 2 Brown TR ina X6 E 3 Green everse running m Es N C 4 Yellow Eg Reverse running X7 bat o S 1 x8 E N C 5 Reverse running X8 BEONE RJ45 Ne 5 Grey E oa Gi E LL IP 6 Pink Com IEZ ma Son 7 Blue om fo 24V 8 Red 24V 1 X8 EC e C UT a om 9 Black om EL 1 10 Violet 11 Grey pink RJ45 12 Red blue 13 White green 14 Brown green e o 15 White yellow EIEIE 5 16 Yellow brown a la eg 6 17 White grey 2 ol el 5 18 Grey brown po 19 White pink LS j i 20 Pink brown KZ 1 Not connected on connectors X1 to X8 Only present on RJ45 IN and OUT connectors 2 20 way HE10 input connector 3 20 way HE10 output connector 4 Wire colours and corresponding HE10 connector pin num
39. 1000 4 2 kV In open air 8 Level 3 electrostatic discharge kV On contact 8 Level 4 Immunity to radiated high Conforming to IEC EN 61000 4 3 V m 10 Level 3 frequency disturbance Immunity to fast Conforming to IEC EN 61000 4 4 kV All circuits except for serial link 4 Level 4 transient currents kV Serial link 2 Level 3 Immunity to dissipated Conforming to IEC EN 60947 6 2 Common mode Serial mode shock waves Uc 24 240 V kV 2 1 Uc 48 220 V Uc 24V Not applicable Immunity to conducted Conforming to IEC EN 61000 4 6 V 10 high frequency disturbance Radiated emission Conforming to CISPR 11 and Class A and conducted EN 55011 1 Without modifying the contact states in the most unfavourable direction 2 2 gn with Advantys STB or CANopen communication modules References Dimensions Schemes pages 1 62 to 1 71 pages 1 110 and 1 111 pages 1 112 to 1 119 1 96 Schneider d Electric Characteristics Power base control unit or reverser block type TeSys motor starters open version TeSys U starter controllers Power bases and control units LUB 12 LUCA or LUCB or LUCC or LUCD LUB 32 LUCA or LUCB or LUCC or LUCD LUB 12 LUCM LUB 32 LUCM LU2M LU6M Connection to 4 mm screw clamp terminals Flexible cable 1 conductor mm 2 5 10 2 5 10 2 5 10 2 5 10 2 5 10 without cable end 2 conductors mm 1 5 6 1 5 6 1 5 6 1 5 6 1 5 6 Flexible cable 1 conduct
40. 1000 4 3 level 3 Immunity to electrical transients IEC 61000 4 4 level 4 Voltage current impulse IEC 61000 4 5 level 3 Conducted and radiated emissions IEC 61000 4 6 level 3 Immunity to conducted interference caused by radio electrical fields IEC 61000 4 11 Damped oscillating waves IEC 61000 4 12 level 3 C marking The starters carry C marking in accordance with the European low voltage directives IEC EN 60947 4 2 Product certifications UL CSA C Tick and CCC Degree of protection IP 20 Degree of pollution 2 conforming to IEC EN 60947 4 2 Vibration resistance 1 5 mm peak to peak from 3 to 13 Hz 1 gn from 13 to 150 Hz conforming to IEC EN 60068 2 6 Shock resistance 15 gn for 11 ms conforming to IEC EN 60068 2 27 Relative humidity 5 95 without condensation or dripping water conforming to IEC 60068 2 3 Ambient temperature around Storage 25 70 conforming to IEC EN 60947 4 2 the unit Operation 10 40 without derating up to 50 C with current derating of 2 per C above 40 C Maximum operating altitude 1000 without derating above this derate the current by 2 2 per additional 100 m Operating position Maximum permanent angle in relation to the normal vertical mounting position 10 10 Type of starter ATSU 01N2eeLT Category of use Conforming to I
41. 1000 4 4 All circuits except for serial link 4 Level 4 fasttransient currents Serial link 2 Level 3 Immunity to dissipated Conforming to IEC EN 60947 2 Common mode Serial mode Shock waves Uc 24 240 V 2 1 Uc 48 220 V Uc 24V Not applicable Immunity to conducted high frequency disturbance Conforming to IEC EN 61000 4 6 10 1 Without modifying the contact states in the most unfavourable direction 2 2 gn with Advantys STB or CANopen communication modules Hd D 3 0 ider ectric 1 136 d Characteristics Power base and control unit type Connection to 4 mm screw clamp terminals TeSys motor starters open version TeSys U starter controllers Power bases and LUCL magnetic control unit LUB 12 LUCL LUB 32 LUCL Flexible cable 1 conductor mm 2 5 10 2 5 10 without cable end 2 conductors mm 1 5 6 1 5 6 Flexible cable 1 conductor mm 1 58 SE with cable end 2 conductors mm 1 6 6 Flexible cable 1 conductor mm 1 10 U without cable end 2 conductors mm 1 6 NO Screwdriver Philips n 2 or flat screwdriver 6 mm Tightening torque N m 19 125 T9725 Connection to 3 mm screw clamp terminals Flexible cable 1 conductor mm 075 1149 2 00 1145 without cable end 2 conductors mm 0 75 1 5 0 75 1 5
42. 105 for multidrop Modbus terminals Requires a 24 V 20 30 V 20 mA power supply 2 connection Modbus Bluetooth adapter m 1 Bluetooth adapter 10 m range class 2 VW3 A8 114 0 155 3 with 1 RJ45 connector m For PowerSuite 1 x 0 1 m cable with 2 RJ45 connectors m For TwidoSoft 1 x 0 1 m cable with 1 RJ45 connector and 1 mini DIN connector m ForATV 38 58 58F drives 1 RJ45 9 way male SUB D adapter USB Bluetooth adapter for This adapter is required in the case of a PC that does not feature VW3 A8 115 0 290 PC Bluetooth technology It is connected to a USB port on the PC 10 m range class 2 1 Updates a version 2 V1 40 with the latest available version For versions V1 40 you should order the PowerSuite CD Rom VW3 A8 104 2 Please refer to the Interfaces I O splitter boxes and power supplies catalogue 3 Can also be used to communicate between a Twido PLC and the TwidoSoft software workshop Presentation page 1 72 1 74 Functions page 1 72 ider ectric vd 3 0 E Compatibility PowerSuite software workshop Connexion Controller Starter Soft start Drives Servo drives controller softstop unit TeSys T TeSys U 2 TET 48 ATV 1 ATV31 ATV61 ATV71 LXMO05A LXMO05B LXM 05C Modbus v1 40 Modbus TCP device equipped Ree with Modbus TCP card Modbus TCP via Modbus TCP Modbus gateway Bluetooth INN Compatible software versions pu Incompatible software versi
43. 12 and 32 LUCA 05ee 0 135 5 5 5 5 9 3 12 12 and 32 LUCA 12ee 0 135 7 5 9 15 4 5 18 32 LUCA 18ee 0 135 15 15 18 5 8 32 32 LUCA 32ee 0 135 Pressing the Test button on the front panel simulates tripping on thermal overload Class 10 for 3 phase motors 0 09 0 15 0 6 12and 32 LUCB X6ee 0 140 0 25 0 35 1 4 12and32 LUCB 1Xee 0 140 1 5 2 2 3 1 25 5 12 and 32 LUCB 0566 0 140 5 5 5 5 9 3 412 12 and 32 LUCB 1266 0 140 7 5 9 15 4 5 18 32 LUCB 18ee 0 140 15 15 18 5 8 32 32 LUCB 3266 0 140 Class 10 for single phase motors 0 15 0 6 12and32 LUCC X6ee 0 140 0 09 0 35 1 4 12and32 LUCC 1Xee 0 140 0 55 1 25 5 12 and 32 LUCC 05ee 0 140 LUB e2 LUCA eeee 22 3 12 12 and 32 LUCC 12ee 0 140 4 4 5 18 32 LUCC 18ee 0 140 7 5 8 32 32 LUCC 32ee 0 140 0 09 0 15 0 6 12and32 LUCD X6ee 0 140 0 25 0 35 1 4 12and32 LUCD 1Xee 0 140 1 5 2 2 3 1 25 5 12 and 32 LUCD 05ee 0 140 5 5 5 5 9 3 12 12 and 32 LUCD 12ee 0 140 7 5 9 15 4 5 18 32 LUCD 18ee 0 140 15 15 18 5 8 32 32 LUCD 32ee 0 140 1 Standard control circuit voltages Volts 24 48 72 110 240 BL 2 3 s B TON ES 4 FU 5 2 Voltage code to be used for a starter controller with communication module 3 d c voltage with maximum ripple of 10 4 48 72 V 48 V 5 110 220 V 110 240 V L
44. 2 1and2 Trips 1and2 Trips 3and4 Electromagnet 3and4 Electromagnet 5 Power base rating 5 Power base rating 6 N C 6 N C 7 Earth 8 Thermal status Set 9 Reset mode Reset 10 Im Ir 11 Vc2 12 ve Multifunction control units LUCM Control terminal block GE ms o 24 V Aux UU E SEET a 5 7 8 __ Power Base Sensor Interface Display and L1 Parameter Entry Sensor Control L2 A S I C RJ45 Supply and Thermal detection of overload start memory sequence 1 and 2 Trips 3 and 4 Electromagnet 5 Power base rating 6 N C 7 Earth 8 N C 9 Earth 10 Im Ir 11 RXx Tx 12 Vc1 Scbneider 1 113 Electric Schemes continued TeSys motor starters open version TeSys U starter controllers Alarm Indication of motor load LUF W10 LUF V2 4 20 mA output 4 20 mA 24 V Aux 24 V Aux ME NC L 0 Gig 0 o 0 0 o Input interface uP Analogue Digital converter N Isolation 8 converter SSS Voltage Current converter 250 V 2A 24V 2A Digital Analogue 100 Q lt load lt 5009 30 V max and 40 mA min Communication modules ASILUF C5 and ASILUF C51 Without pre wired coil connection With pre wired coil connection LU9B N11C Pre wi
45. 28 567226 Presentation continued references Vico ats N NIN E SEH am i ANERER LULCO9 E rum MNS ERR 24V g DeviceNet OA3 OA1 COM LO LH Ule 4 DJ LUL C09 i Connection of power supplies TeSys motor starters open version TeSys U starter controllers DeviceNet communication module and pre wired coil connection components Information carried by the bus Depends on the type of control unit used with module LUL C09 Information accessible LUL C09 in conjunction wi via DeviceNet LUCAeeBL LUCB C D eeBL LUCM eeBL Standard Advanced Multifunction control unit control unit control unit Starter status ready running fault Start and Stop commands Thermal overload alarm Remote reset via the bus Indication of motor load Fault signalling and differentiation Remote programming and monitoring of all functions Log function Monitoring function Alarms overcurrent PS Functions performed Description Item Reference Weight kg DeviceNet communication module 14 LUL C09 0 108 By pre wired connector or wire link m Pre wired connector pre wired coil connection The use of a power base without pre wired control circuit connections is recommended Description For use with Reference Weight 7 aeons power base kg Pre wired coil connection LUB ee LU9B N11L 0 050 LU2B eeee LU9M RL
46. 32BL LU2B LUC eeeBL LUL C07 LU9M RL 7 5 LU2B 32BL LUC A18BL LUC B18BL LUC D18BL LUC M18BL LUL C07 LU9 MRL 15 LU2B 32BL LUC A32BL LUC B32BL LUC D32BL LUC M32BL LUL C07 LU9 MRL Note Profibus DP module LUL C07 is not compatible with LUT M controllers Scbneider Electric Presentation 12 3 A ing k LULCOB SE STATUS ERR 24V CANopen OA3 OA COM 24V Lor LH W gt LED indicating module status N Fault signalling LED LED indicating 24 V supply ON for outputs OA1 OA3 and LO SUB D connector for bus link wo 24 V supply connection Discrete input Discrete input Discrete output Outputs for starter commands Oo JO Oo A 10 CANopen master module TSX CPP110 PMCIA card with junction box 11 Cable TSX CANCee equipped with a TSX CANKCDF90T connector to be assembled 12 Terminal block TSX CANTDM4 with 4 SUB D type connectors for connection of slaves and screw terminal blocks connection of bus and dedicated 24 V supply to modules LUL C08 13 Connection between junction boxes TSX CANTDM4 by cable TSX CANCADDee or cable TSX CANCee fitted with TSX CANKCDF9OT connectors 14 The slaves are connected by means of cables TSX CANCADDee 15 Connections are made by means of cables TSX CANCee fitted with TSX CANKCDF180T connectors for the slaves and with TSX CANKCDF9OT connectors for the junction boxes 16 Starter controller 17 CANopen communicati
47. 5 0 6 12and32 LUCM K6BL 0 175 0 25 0 35 1 4 12 and 32 LUCM 1XBL 0 175 1 5 2 2 3 1 25 5 12and 32 LUCM 05BL 0 175 5 5 5 5 9 3 12 12 and 32 LUCM 12BL 0 175 7 5 9 15 4 5 18 32 LUCM 18BL 0 175 15 15 18 5 8 32 32 LUCM 32BL 0 175 Application Language Reference Weight kg On CD Rom Multi language 3 LU9 CD1 0 022 This compact Magelis terminal enables the parameters of multifunction control unit LUCM to be read and modified Itis supplied pre configured to provide dialogue with 8 TeSys U starter controllers Modbus protocol application pages and alarm pages loaded Starter controller alarm and fault management takes priority SG v A voc 2 Language Display window Supply voltage Reference Weight kg Multi language 3 4 lines of 24N XBT NU400 0 150 XBT NU400 20 characters Function Length Type Reference Weight kg Connects terminal XBT NU400 2 5m SUB D 25 way XBT Z938 0 200 to a multifunction control unit female RJ45 1 Input voltage 24 V with maximum ripple of 10 96 2 The CD Rom contains user s manuals for the AS Interface and Modbus communication modules multifunction control units and gateway modules as well as the gateway programming software 3 English French German Italian Spanish 4 If a terminal is used with several control units this cable can be connected to a Modbus hub orto T junctions see page 1 93 Characteristics Schemes pages 1 96 and 1 99 pages 1 112 to 1 115 1
48. 5 10 15 20 ATSU 01N232LT LUB 32 LUCe 32BL Example of a starter motor combination with 1 non reversing power base for DOL starting LUBe2BL 2 control unit LUCM eeBL 3 power connector VW3 G4104 4 Altistart UO1soft start soft stop unit ATSU 01N2eeLT 1 Standard motor power ratings HP power ratings indicated according to standard UL 508 ATSU 01N2eeL T 2 Depending on the configuration of the chosen TeSys U starter controller replace the e with A for standard B for expandable and M for multifunction Presentation Characteristics Dimensions Schemes pages 1 124 and 1 125 pages 1 126 and 1 127 page 1 129 pages 1 130 to 1 133 1 128 Schneider Dimensions Soft starters for asynchronous motors Altistart U01 and TeSys U TeSys U combination non reversing power base and TeSys U combination non reversing or reversing power base ATSU 01N206LT to ATSU 01N212LT and ATSU 01N206LT to ATSU 01N212LT Mounting on Lr 35 mm rail with VW3 G4104 connector Side by side mounting ELM eeo TeSys U combination non reversing power base and TeSys U combination non reversing or reversing power base ATSU 01N222LT to ATSU 01N232LT and ATSU 01N222LT to ATSU 01N232LT Mounting on Lr 35 mm rail with VW3 G4104 connector Side by side mounting CHO m Ol
49. 50 Rated operational power of contacts Conforming to IEC EN 60947 5 1 a c supply categories AC 14 and AC 15 Electrical durability valid for up to 3600 operating cycles hour on an inductive load such as the coil of an electromagnet making current cos o 0 7 10 times the power broken cos 0 4 d c supply category DC 13 Electrical durability valid for up to 1200 operating cycles hour on an inductive load such as the coil of an electromagnet without economy resistor the time constant increasing with the load V 24 48 115 230 400 440 600 V 24 48 125 250 1 million VA 60 120 280 560 2960 1050 1440 W 120 90 75 68 operating cycles 3 million VA 16 32 80 160 280 300 420 W 70 50 38 33 operating cycles 10 million VA 4 8 20 40 70 80 100 W 25 18 14 12 operating cycles 10 10 D A 24V 6 6 9 5 9 5 48 V E 4 gt 4 125 V 5 3 KR 3 s a 2 250 V 6 S no o 6 S 1 1 08 07 0 7 0 6 0 6 0 5 0 5 t 0 4 r 0 4 T 0 3 h 0 3 1 0 2 0 2 l i 1 1 1 1 0 1 1 0 1 1 0 1 02 0 3 04 056108l1 2 3 4 1618110 0 1 0 2 0 3 0 4 0 6 0 8 1 2 3 4 1618110 0 5 0 7 0 9 5 7 9 05 0 7 0 9 5 7 9 Current broken inA Current broken inA References Dimensions Schemes pages 1 63 and 1 64 pages 1 110
50. 70 510915 510445 References TeSys motor starters open version TeSys U starter controllers Function modules Output Item Application Reference Weight kg Thermal overload signalling and manual reset Module LUF DH11 makes it possible to differentiate thermal overload and short circuit faults The short circuit fault can then be signalled via add on contact blocks LUA1 C The module includes two contacts for thermal overload signalling as well as an LED on the front panel To reset the motor starter the operator must use the rotary knob on the power base The module can only be used with an advanced control unit and requires an zf 24 240 V external power supply 1 N O 1 N C 3 or 24 250V LUF DH11 0 060 Thermal overload signalling and automatic or remote reset These modules make it possible to differentiate thermal overload and short circuit faults The short circuit fault can then be signalled via add on contact blocks LUAM C The modules include one contact for thermal overload signalling as well as an LED on the front panel A second contact terminals Z1 Z2 must be wired in series with terminal A1 of the motor starter In the event of a thermal overload fault this wiring allows motor control to be switched off The rotary knob on the power base will then stay in the ready position Resetting of the motor starter is automatic after the required motor cooling time if terminals X1 X2 are linked by a strap or
51. 9 2 logic inputs for Run Stop commands 1 logic input for the BOOST function 1 logic output to indicate the end of starting 1 relay output to indicate the starter has a power supply fault or the motor has reached a standstill at the end of the deceleration stage Characteristics pages 1 126 and 1 127 1 124 Dimensions Schemes page 1 129 pages 1 130 to 1 133 Schneider d Electric Presentation continued Soft starters for asynchronous motors Altistart U01 and TeSys U Please consult the TeSys U starters open version catalogue m 2 wire control The run and stop commands are controlled by a single logic input State 1 of logic input LI2 controls starting and state 0 controls stopping 24V Li LS ee Pa O T 1 Altistart U01 control terminals Wiring diagram for 2 wire control m 3 wire control The run and stop commands are controlled by 2 different logic inputs Stopping is achieved when logic input LIT opens state 0 The pulse on input LI2 is stored until input LI1 opens Wiring diagram for 3 wire control m Starting time Controlling the starting time means that the time of the voltage ramp applied to the motor can be adjusted to obtain a gradual starting time dependent on the motor load m Voltage boost function via logic input Activating the BOOST logic input enables the function for supplying a starting overtorque capable of overcoming any mech
52. AC 15 230 V max 400 VA 100 000 operating cycles DC 13 24 V 50 W 100 000 operating cycles Conventional thermal current Ith For ambient A 2 temperature 0 lt 70 C Short circuit protection Conforming to A gG fuse 2 IEC EN 60947 5 1 Reset input Conductor c s a mm 0 2 min Length m 500 R 50 Q L 52 8 mH Cp 93 pF References Dimensions Schemes pages 1 66 and 1 71 pages 1 110 and 1 111 pages 1 112 to 1 119 1 100 Schneider Electric Characteristics TeSys motor starters open version TeSys U starter controllers Function modules and communication modules 4 20mA Value of average Ir ratio within the range of 0 to 2 for LUCB and LUCD Value of average Ir ratio within the range of 0 to 3 for LUCC Analogue output Signal delivered Load impedance Minimum Maximum 500 Typical 100 Signal characteristics Precision 6 with advanced control unit Signal characteristics Precision 10 with multifunction control unit Resolution 1 of Ir Supply External 24 V Module type ASILUF C5 ASILUF C51 Product certification AS Interface V2 1 n 52901 AS Interface V2 1 n 52303 AS Interface profile 7 D F 0 T A T E Ambient air temperature Operation 25 70 Cycle time 5 10 Addressing 31 slaves 62 slaves AS Interface supply 29 5 315 Current consumption On the Normal operation 25 AS Interface bus On 24 V supply for the outputs Fau
53. C15 LUL C07 LUL C08 and Remote reset via the bus LUL C09 thermal overload alarm only LUL C09 Indication of motor load and Modbus port on the control unit alarm possible for all types of fault Fault signalling and differentiation Remote programming and monitoring of all functions With modules LUL C031 LUL C033 Log function LUL C15 LUL C07 LUL C08 and Monitoring function HE Built in function LUL C09 and Modbus port on the control unit Function provided with accessory 1 PDA Personal Digital Assistant 2 Mounting possibilities 1 function module or 1 communication module 1 68 uo D 3 0 ider Electric 520735 520736 References TeSys motor starters open version TeSys U starter controllers Standard and advanced control units 510913 1 Extraction and locking handle 2 Test button on advanced control unit only 3 Iradjustment dial 4 Locking of settings by sealing the transparent cover 5 Sealing of locking handle Maximum standard power Setting Clip in Reference to Weight ratings of 3 phase motors range mountingon be completed 50 60 Hz power base by adding the 400 440 V 500 V 690 V Rating voltage code 1 kW kW kW A A kg E Class 10 for 3 phase motors LUCA eeee 0 09 0 15 0 6 12and32 LUCA X6ee 0 135 LUCB eeee 0 25 0 35 1 4 12 and 32 LUCA 1Xee 0 135 1 5 2 2 3 1 25 5
54. EC 60947 4 2 Ac 53b Rated operating voltage 3 phase voltage V 200 10 to 480 10 Frequency Hz 50 5 to 60 5 Output voltage Maximum 3 phase voltage equal to line supply voltage Control supply voltage 24 V 100 mA 10 Rated operating current A 6 32 Adjustable starting time s 1 10 Adjustable deceleration time s 1 10 Starting torque 30 80 of DOL motor starting torque Type of starter ATSU 01N206LT 01N209LT 01N212LT 01N222LT 01N232LT Control power supply consumption 24 V 65 mA 24 V 100 mA Power dissipated At full load at end of starting w 1 5 T5 15 2 5 2 5 In transient state at 5 times the W 61 5 91 5 121 5 222 5 322 5 rated operating current Type of starter ATSU 01N206LT to ATSU 01N222LT ATSU 01N232LT Use A Starting time Starting time s 1 5 10 1 5 10 Maximum number of cycles per 100 20 10 50 10 hour Full voltage state or starter at standstill d t Operating cycle La Presentation References Dimensions Schemes pages 1 124 and 1 125 page 1 128 page 1 129 pages 1 130 to 1 133 1 126 Schneider Electric Characteristics continued Logic input power supply electrically isolated between power 24 V 1096 Soft starters for asynchronous motors Altistart U01 and TeSys U and control Isolated 24 V COM Max current 100 mA Logic inputs Logic inputs with impedance 27 kO 24 V power supply U max 40 V LIM LI2 BOOST Max current 8 mA Stop run and boost on start up functions
55. Flexible cable 1 conductor mm 0 34 1 5 0 34 1 5 with cable end 2 conductors mm 0 34 1 5 0 34 1 5 Flexible cable 1 conductor mm 05 75 0 75 3 5 without cable end 2 conductors mm 0 75 1 5 0 75 1 5 Screwdriver Philips n 2 or flat screwdriver 5 mm Tightening torque N m 0 8 1 2 Choon le Rated control 50 60 Hz 240 24 240 circuit voltage 220 24 220 Voltage limits 24V 1 2 20 27 Operation 24V 265 20 26 5 0r 48 72V v 38 5 72 38 5 93 38 5 72 38 5 93 110 240 V 88 264 88 264 110 240 V 88 242 88 242 Drop out 24V 14 5 14 5 24V 14 5 14 5 or 48 72 V 29 110 240 V 110 220 V 55 Typical consumption 24V 220 max while closing 24V 220 or 48 72 V 280 110 240 V 110 220 V 280 I rms sealed 24V 80 24V 90 or 48 72V 45 110 240 V 110 220 V 25 Heat dissipation 3 Operating time Closing 24 V 70 48 V 60 2 72 V 50 24 V 70 48 V 60 2 72 V 50 Opening 35 35 Resistance to micro breaks 3 3 Resistance to voltage dips IEC EN 61000 4 11 At least 70 of Uc for 500 ms Mechanical durability In millions of operating cycles 15 15 Maximum operating rate In operating cycles per hour 3600 3600 Number of poles 3 3 Isolation Possible Yes Yes conforming to IEC EN 60947 1 Paglocking 1 padlock with 6 9 mm shank 1 padlock with 6 9 mm shank Rated thermal current A 12 32 Rated operational current Conforming Category AC 41
56. L C09 is compatible with LUT M controllers Schneider Electric 567123 Compatibility continued LU2B LUC eeeBL LUL C09 LU9M RL TeSys U starter controllers DeviceNet communication module and pre wired coil connection components Compatibility of DeviceNet communication module LUL C09 0 09 LU2B 12BL or LU2B 32BL with starter controller LU2B 12 LU2B 32 LUC A6XBL LUC B6XBL LUC D6XBL LUC M6XBL LUL C09 TeSys motor starters open version LU9 MRL 0 25 or LU2B 12BL LUC A1XBL LUC B1XBL LUC D1XBL LUC M1XBL LUL C09 LU9 MRL LU2B 32BL 1 5 LU2B 12BL LUC AO5BL LUC B05BL LUC DOSBL LUC MOS5BL LUL C09 LU9 MRL or LU2B 32BL 5 5 LU2B 12BL LUC A12BL LUC B12BL LUC D12BL LUC M12BL LUL C09 LU9 MRL or LU2B 32BL 7 5 LU2B 32BL LUCA18BL LUC B18BL LUC D18BL LUC M18BL LUL C09 LU9 MRL 15 LU2B 32BL LUC A32BL LUC B32BL LUC D32BL LUC M32BL LUL C09 LU9 MRL Note DeviceNet communication module LUL C09 is compatible with LUT M controllers Scbneider Electric Presentation 1 2 3 e FEE ef COMM ERR 24V g e Advantys STB OA3 OA1 COM 876 5 Two colour LED indicating module status Fault signalling LED LED indicating that 24 V supply is ON Bus connectors 24 V supply connection Discrete input Discrete input Discrete output Outputs for starter commands o JA o Oo P Go NM 1 90 TeSys motor starters open version TeSys U starter c
57. LU9B C11 0 022 terminal blocks LUA1 C200 2 LU9B C20 0 022 Blanking Location for auxiliary contact 4 LU9C 1 0 020 covers communication or function module Location for add on 5 LU9C 2 0 010 contact blocks Characteristics Schemes page 1 98 page 1 112 Scbneider 1 65 Electric References TeSys motor starters open version TeSys U starter controllers Power connection pre wired system limiter blocks and accessories supplytooneor fromthe top more busbar sets Set of 4 pole busbars 3 phase neutral or 3 phase common Description Application Pitch Item Soldin Unit Weight mm lots of reference kg Sets of 3 pole 2 tap offs 45 2 1 GV2 G245 0 036 63 A busbars 54 1 GV2 G254 0 038 3 tap offs 45 1 GV2 G345 0 058 54 1 GV2 G354 0 060 4 tap offs 45 1 1 GV2 G445 0 77 54 1 GV2 G454 0 085 5 tap offs 54 1 GV2 G554 0 100 Protective For unused 4 5 GV1 G10 0 005 end cover busbar outlets Terminal block for Connection 3 1 GV1 G09 0 040 The busbar system can be screw mounted onto any type of support Number of Item Length For mounting in Reference Weight tap offs at enclosure width 18 mm intervals mm mm kg 18 5 452 800 AK5 JB144 0 900 Removable 3 phase power sockets Number of Thermal Item Cable Soldin Unit Weight points used current lengths lots of reference on the busbar system kg 2 16 6 200 6 AK5 PC13 1 0 040 32 6 250 6 AK5 PC33 1 0 045 1000 6 AK5 PC33L 1 0 060
58. Manual Parameters can be set Automatic or remote With function module or parameters Parameters can be set can be set via the bus with a communication module see chart below Parameters can be set via the bus with a communication module see below Alarm Thermal overload alarm only with function module or communication module see below Possible for each type of fault Indication on front panel of the control unit via remote terminal via PC or via PDA 1 With communication modules to make use of these alarms via a bus see below Log function Log ofthe last 5 trips Number of starts number of trips number of operating hours Monitoring function With function modules 2 Thermal overload alarm Display of main motor parameters on front panel of the control unit via remote terminal via PC or via PDA 1 With module LUF W Thermal overload signalling and manual reset With module LUF DH11 Thermal overload signalling and automatic or remote reset With modules LUF DA01 and LUF DA10 Indication of motor load analogue Starter status ready running fault With module LUF V With communication module or via Modbus port on control unit LUCM 2 With any communication module Reset method Parameters can be set via the bus Alarm With modules LUL C031 LUL C033 With module LUL C031 LUL C033 LUL C15 LUL C07 LUL C08 and LUL
59. N 2 0 and CAN 2 B passive mode Transmission speed 800 Addressing Self addressing Supply for the 24V 20 28 discrete outputs Current consumption 1 5 max and control Protection by gl fuse 2 Ambient air temperature Operation 25 55 Discrete inputs Number 2 to be assigned according to configuration Supply 24 Input current T Nominal input values Voltage 24 positive logic Current 7 Response time Change to state 1 10 x 30 96 Change to state 0 10 x 30 96 Input type Resistive Discrete outputs Number 3 of which 2 dedicated to starter controller coil operation Max current 500 Short circuit protection Yes Switching capacity 0 5A 24V Indication diagnostics By 3 LEDs on front panel 1 102 Schneider E ectric S Characteristics continued Connectors Pitch TeSys motor starters open version TeSys U starter controllers Function modules and communication modules Flexible cable without cable end 1 conductor 0 14 1 2 identical conductors 0 14 0 75 Flexible cable Without with cable end insulated ferrule 1 conductor 0 25 1 2 identical conductors 0 25 0 34 With insulated ferrule 1 conductor 0 25 0 5 2 identical conductors Use a double cable end Solid cable without cable end 1 conductor 2 identical conductors ESOS 0 14 0 5
60. Reference Weight kg Phase barrier 1 LUB or LU2B 120r 120 Directon LU9 SPO 0 030 LUB or LU2B 32 or 320 terminals LUALB1 L1 L2 L3 Description Item Reference Weight kg Fixing kit 1 2 2 3 LU9 AP00 0 490 Door mounted black handle on blue front plate IP54 4 LU9 AP11 0 150 Door mounted red handle on yellow front plate IP54 4 LU9 AP12 0 150 Handle for mounting in the MCC drawer 5 LU9 AP20 0 096 Motor Control Centre 1 The fixing kit includes a bracket and a shaft extension maximum depth 508 mm 2 To use the fixing kit with a D O L reversing power base only reverser block LU6 M must be used Dimensions pages 1 110 and 1 111 Schneider 1 67 Electric Selection Operating characteristics Control units Thermal overload protection TeSys motor starters open version TeSys U starter controllers Control units Multifunction LUCM Standard Advanced LUCA LUCB LUCC LUCD Overcurrent protection 14 2 x the setting current 3 to 17 x the setting curr Short circuit protection 14 2 x the max current Protection against phase loss Protection against phase imbalance Earth fault protection equipment protection only Tripping class Ho 28 5 30 9 Motor type Single phase 3 phase Single phase and 3 phase En Oo Thermal overload test function Overtorque No load running Long starting time Reset method
61. State 0 if U lt 5 V and I lt 0 2 mA State 1 if U gt 13 V and I gt 0 5 mA Logic output LO1 End of starting signal Open collector logic output External 24 V power supply minimum 6 V maximum 30 V Max current 200 mA Relay output Normally open N O contact R1AR1C Minimum switching capacity 10 mA for 6 V Maximum switching capacity on inductive load cos q 0 5 and L R 20 ms 2 A for 250 V or 30 V AC 15 Maximum operating voltage 440 V LED signalling Green LED Starter powered up Yellow LED Nominal voltage reached Power circuit Flexible wire without cable 1 conductor Connection to 4 mm screw clamps mm 1 5 10 8AWG end 2 conductors mm 1 5 6 10AWG Flexible wire with cable end 1 conductor mm meo 10AWG 2 conductors mm me 10 AWG Rigid wire 1 conductor mm 3 240 8AWG 2 conductors mm me 10 AWG Tightening torque Control circuit Flexible wire without cable 1 conductor N m O2 Screw connector mm 0 5 2 5 14 AWG end 2 conductors mm 0 5 1 5 16 AWG Flexible wire with cable end 1 conductor mm 0 5 1 5 16 AWG 2 conductors mm 0 5 1 5 16 AWG Rigid wire 1 conductor mm 0 5 2 5 14 AWG 2 conductors mm 0 5 1 17 ANG Tightening torque T U 3Tn 0 85U 2 Tn 4 Tn 06U Tr 1 Fr zm zl e ee keng SS T 0 N Ns 0 0 25 05 0 75 1 N m 0 5 The diagram opposite shows th
62. T junctions 1 0 3 11 VW3 A8 306 TF03 0 032 1 11 VW3 A8 306 TF10 0 032 LU2B LUL CO3e LU9M RS 485 line terminator E 12 VW3 A8 306 R 0 012 Application Language Reference s g On CD Rom Multi language 3 LU9 CD1 0 022 1 Fitted with 2 x RJ45 female connectors bus side and a 0 3 m or 1 m length cable supplied with an RJ45 male connector station side 2 The CD Rom contains user s manuals for the AS Interface and Modbus communication modules multifunction control units and gateway modules as well as the gateway programming software 3 English French German Italian Spanish Electric Schneider 1 93 Presentation TeSys motor starters open version description Communication gateways LUF P setting up Communication gateways LUF P allow connection between the Modbus serial link and Fipio Profibus DP or DeviceNet field buses After configuration these gateways manage information which can be accessed by the Modbus serial link and make this information available for read write functions command monitoring configuration and adjustment on the field buses An LUF P communication gateway consists of a box which can be clipped onto a 35 mm omega rail allowing connection of up to 8 Slaves connected on the Modbus serial link Example of architecture Configuration of gateway TeSys U starter controllers by PC ma LUFP Hemi Beuksce
63. UB e2 LUCB eeee Characteristics Schemes pages 1 96 and 1 99 page 1 113 Electric Schneider 1 69 References 510914 LUCMeeBL LUB e2 LUCM eeBL SEMI GRRPHIC DISPLAY SMALL FONTS BIG FONTS TeSys motor starters open version TeSys U starter controllers Multifunction control units Extraction and locking handle Built in display window 2 lines 12 characters 4 button keypad z 24 V auxiliary power supply Modbus RS485 communication port Connection by RJ45 connector Sealing of locking handle o Om P GOAR The display window 2 and keypad 3 allow m in configuration mode local configuration of protection functions and alarms m in run mode display of parameter values and events The Modbus communication port 5 is used to connect m an operator terminal m aPC m a Personal Digital Assistant PDA Parameter entry monitoring of parameter values and consultation of logs are carried out m either on the front panel using the built in display window keypad m or via an operator terminal m or via a PC or a PDA with PowerSuite software m orremotely via a Modbus communication bus Programming of the product via the keypad requires a 24 V auxiliary power supply Maximum standard power Setting Clip in Reference Weight ratings of 3 phase motors range mounting on 1 50 60 Hz power base 400 415 V 500 V 690 V Rating kW kW kW A A kg 0 09 0 1
64. anical friction When the input is at state 1 the function is active input connected to the 24 V and the starter applies a fixed voltage to the motor for a limited time before starting U A 100 Un Voltage ramp 50 4 Un Initial voltage 4 e t 200 ms Application of a voltage boost equal to 100 of the nominal motor voltage m End of starting Application function for logic output LO1 ATSU 01N2eeLT soft start soft stop units are equipped with an open collector logic output LO which indicates the end of starting when the motor has reached nominal speed Characteristics References Dimensions Schemes pages 1 126 and 1 127 page 1 128 page 1 129 pages 1 131 to 1 133 Schneider 1 125 Electric Characteristics Type of starter Conformity to standards Soft starters for asynchronous motors Altistart U01 and TeSys U ATSU 01N2eeLT Altistart U01 electronic starters have been developed to conform to the strictest international standards and the recommendations relating to electrical industrial control devices IEC EN in particular standard IEC EN 60947 4 2 Electromagnetic compatibility EMC Conducted and radiated emissions CISPR 11 level B IEC 60947 4 2 level B Harmonics IEC 1000 3 2 IEC 1000 3 4 EMC immunity EN 50082 2 EN 50082 1 Electrostatic discharge IEC 61000 4 2 level 3 Immunity to radiated radio electrical interference IEC 6
65. ase z Reverser block LU6M BOee LU9M R1 0 030 for mounting separately from power base Description Item Reference Weight kg Pre wired connector 3 5 LU9M R1C 0 035 1 The various sub assemblies are supplied assembled but they are easy to separate as shown in the illustration 2 Select the same control voltage as that of the control unit Standard control circuit voltages Volts 24 48 72 110 240 Feed BL Gg den v B Ton ES 4 FU 5 3 For control connection between a power base and a reverser block for direct mounting 4 48 72 V 48 V 5 110 220 V 110 240 V Other versions Power bases without built in short circuit protection device short circuit protection by circuit breaker or separate fuses Please consult your Regional Sales Office LU6M LU9 M1 LU9M R1 Characteristics Dimensions Schemes pages 1 96 to 1 98 pages 1 110 and 1 111 pages 1 112 to 1 119 Electric Schneider 1 63 Presentation TeSys motor starters open version TeSys U starter controllers Add on contact blocks and auxiliary contact modules Ready to operate o 0 q escuela Start 9 1 q A E EE C Tripped on short circuit TRIP I res E Tripped on Manual reset mode TRIP 0 thermal overload u Automatic reset on thermal o 0 overload fault mode q a Remote reset mode 0 q e E A N O co
66. bers LUF P1 LUF P7 LUF P9 p 2 Li LJ LUF P1 Fip I O Modbus Gateway LUF P7 Profibus Modbus Gateway LUF P9 DeviceNet Modbus Gateway l 1 i E 24VAI ma DAVA acs AWAN saang was SX X2 Profibus wu BS X2DeviceNet x i E21 cm LZ BEIBHBISSIISIS ____ 41518 LJ LHEISBISETII sl 1 6 G2 41518 1 118 Schneider eElectric Schemes continued Data profile under AS Interface TeSys motor starters open version TeSys U starter controllers Control unit present in the product Standard LUCA Status DO Ready available D1 Poles closed running Commands DO Start forward running D1 Start reverse running Advanced Multifunction LUCB CC CD LUCM Main registers accessible with Modbus CANopen Advantys STB Profibus DP and DeviceNet communication modules For other registers and for further information please consult the User s Manual Communication variables on the website www schneider electric com Control unit present in the product Standard Advanced Multifunction Marking Register 0 Register 99 Words Bits Commercial reference serial number software vers
67. ble controller with Profibus DP master card 12 Other slave not powered via the bus 13 Profibus DP 2 wire cable TSX PBSCA100 100 m TSX PBSCA400 400 m 14 Standard Profibus DP connector 490NAD91103 or 490NAD91104 15 Profibus DP power supply module for 24 V Aux supply to LUL C07 modules LU9 GC7 16 Profibus DP connector TeSys U dedicated LU9 AD7 17 Profibus DP 4 wire cable LU9 RPBeee 18 Profibus DP communication module LUL C07 Profibus DP general information The TeSys U communication module supports 2 Profibus application profiles based on DP VO and DP V1 services motor starter MS motor management starter MMS Cyclic Acyclic services In general data is exchanged via cyclic services and via acyclic services The application profiles define for the cyclic data m manufacturer independent data m manufacturer specific data DP V1 Read Write services DP V1 read and write services allow access to all data that cannot be accessed by cyclic data exchange PKW feature In order to make data which is not cyclically exchanged accessible for DP VO masters a function called PKW Periodically Kept in acyclic Words is implemented The cyclic data carries a dedicated zone of 4 input words and 4 output words called PKW which makes it possible to access all the registers en bloc Electronic device description The TeSys U system is described by a GS file 1 This file will be used by any Profibus configuration
68. ces Soft start unit reference 400V kW protection power switching Class 10 Class 20 5 5 LUB32 LUCL32 or LUCL18 ATS48D17 7 5 LUB32 LUCL32 ATS48D17 ATS48D22 11 LUB32 LUCL32 ATS48D22 ATS48D32 15 LUB32 LUCL32 ATS48D32 ATS48D38 TeSys U Altivar 21 UL Type 1 IP 20 type 1 coordination Power TeSys U references Variable speed controller reference 400V kW protection power switching 0 75 LUB12 LUCLO5 ATV21H075N4 ATV21HU15N4 2 2 LUB12 LUCL12 ATV21HU22N4 3 LUB12 LUCL12 ATV21HU30N4 4 LUB12 LUCL12 ATV21HU40N4 5 5 LUB32 LUCL32 or LUCL18 ATV21HU55N4 7 5 LUB32 LUCL32 or LUCL18 ATV21HU75N4 11 LUB32 LUCL32 ATV21HD11N4 15 LUB32 LUCL32 ATV21HD15N4 TeSys U Altivar 21 IP 54 type 1 coordination Power TeSys U references Variable speed controller reference 400 V kW protection power switching 0 75 LUB12 LUCLO5 ATV21W075N4 N4C 1 5 LUB12 LUCL12 or LUCLO5 ATV21WU15N4 N4C 2 2 LUB12 LUCL12 ATV21WU22N4 N4C 3 LUB12 LUCL12 ATV21WU30N4 N4C 4 LUB12 LUCL12 ATV21WU40N4 N4C 5 5 LUB32 LUCL32 or LUCL18 ATV21WU55N4 N4C 7 5 LUB32 LUCL32 or LUCL18 ATV21WU75N4 N4C 11 LUB32 LUCL32 ATV21WD11N4 N4C 15 LUB32 LUCL32 ATV21WD15N4 N4C Schneider Combinations TeSys motor starters open version TeSys U starter controllers 526112 526112 526112 526116 TeSys U Altistart 31 type 1 coordination
69. cooo O Q Oo 000 GE o Y A 000 Presentation Characteristics References Schemes pages 1 124 and 1 125 pages 1 126 and 1 127 page 1 128 pages 1 130 to 1 133 Schneider 1 129 d Electric Schemes Soft starters for asynchronous motors Altistart U01 and TeSys U For 0 75 to 15 kW motors Power wiring Power wiring with reversing unit TeSys TeSys U with reversing unit Compatible components For full references Please consult our catalogue and Please consult our catalogue or refer to our catalogue Motor starter solutions Control and protection components Code Description A1 Soft start soft stop unit QF1 TeSys U controller starter CU TeSys U control unit Presentation Characteristics References Dimensions pages 1 124 and 1 125 pages 1 126 and 1 127 page 1 128 page 1 129 1 130 Scbneider d Electric Soft starters for asynchronous motors Altistart U01 and TeSys U For 0 75 to 15 kW motors Schemes continued Automatic 2 wire control Without deceleration With and without deceleration 24V 24V a ie 8 d ATSU 01N2eeLT E LUM C20 N ES LUA1 C2 g Es z g ha jk 9 a ic EO GE 2 S 81 FFA SI JAN lt ar1 LL 82 _F P F P Functional diagrams Power supply LT
70. d 4 running Lu E EE E Start reverse running LU s4 lt BE rr Control via Modbus communication module LUL C033 Without pre wired coil connection With local control RM Cari oe LU2B Reverser LULC 033 Modbus Module Morr 24V 24V SE E a Controller Aux COME 24 V Modbus O 582 forward running Lu E E H T Start i 2 E o o reverse funding a lt 1 z 1 L1 3 L2 Gagn 5 L3 ap 5 L3 6 13 2 T1 m lt forward running and reverse Stop Start running forward running forward runnin S5 S6 S8 Stop Start reverse running reverse running S7 S9 Schneider 2 wire control via 3 position switch LU6M Reverser Block z p Se 4 Stop forward running reverse running 1 123 Presentation 536566 on out Soft starters for asynchronous motors Altistart U01 and TeSys U The Altistart U01 is a soft start soft stop unit for asynchronous motors It is designed primarily for combinations with TeSys U starter controllers When combined with a TeSys U 1 controller by means of a connector 2 the Altistart U01 3 is a power option which provides the Soft start soft stop function The result is a unique innovative motor starter Using the Altistart U01 starter enhances the starting performance of asynchronous motors by allo
71. de setting range It can operate on a d c or a c supply The number of references required is divided by 10 compared with traditional solutions The compact components in the TeSys U range are mounted on a single rail so optimising the amount of space required in enclosures By eliminating power wiring between the circuit breaker and contactor TeSys U reduces installation times in enclosures Setting up accessories simplify or completely eliminate wiring between components and eliminate the risk of errors Consists of a power base and a control unit Power bases 1 The power base is independent of the control voltage It is available from 0 to 15 kW at 400 V It incorporates the breaking function with a breaking capacity of 50 kA at 400V total coordination continuity of service and the switching function m 2 ratings are available 0 12 A and 0 32 A m Non reversing LUB and reversing LU2B Control units 2 These must be selected according to the control voltage the power of the motor to be protected and the type of protection required m Standard control unit LUCA satisfies the basic protection requirements for motor starters overload and short circuit m Magnetic control unit LUCL when fitted upstream of a variable speed drive or Soft start soft stop unit and used in conjunction with an LUB 12 or LUB 32 power base this unit provides isolation and short circuit protection of the motor starter m Advanced control un
72. dule Profibus DP CANopen DeviceNet LUL C07 LUL C08 LUL C09 Services Conformity class NA S 20 Schneider Electric NA Standard Profibus DP CIADS 301 V4 02 IEC 62026 1 DR 303 2 overvoltage category III degree of pollution 3 Profile LVSG V1 0 ODVA Open DeviceNet MS Motor Starter and Vendor Association MMS Motor Management MS Motor Starter Starter Protocol Profibus DP CAN 2 0A 2B passive CAN 2 0A 2B passive Address 1 125 0 127 by switches 0 63 Structure Physical interface 9 way SUB D male 9 way SUB D female Open Style connector Binary rate 9600 Kbits s 12 Mbits s 10 20 50 125 250 500 125 500 kbaud and 1000 Kbits s by switches Cables 2 shielded twisted pairs Supply for the 24V 20 28 discrete outputs Current consumption 1 5 max and control Protection by gl fuse 2 Ambient air temperature Operation 25 55 Logic inputs Number 2 to be assigned according to the configuration Supply 24 Input current 7 Nominal input values Voltage 24 positive logic Current 7 Response time Change to state 1 10 3096 Change to state 0 10 3096 Input type Resistive Discrete outputs Number 3 of which 2 dedicated to starter controller coil operation Max current 500 Short circuit protection Yes Switching capacity 0 5A 24V Indication diagnostics By 3 LEDs on front panel Physical interface CAN Connections Fire Wire Protocol CA
73. e torque speed characteristic of a cage motor in relation to the supply voltage The torque varies in line with the square of the voltage at a fixed frequency The gradual increase in the voltage prevents the instantaneous current peak on power up Presentation References pages 1 124 and 1 125 page 1 128 Dimensions Schemes page 1 129 pages 1 131 to 1 133 Electric Schneider 1 127 t a G nd i a DF510362 References ATSU 01N222LT Soft starters for asynchronous motors Altistart U01 and TeSys U 3 phase supply voltage 200 480 V 50 60 Hz 0 75 1 1 5 2 6 ATSU 01N206LT 0 340 1 1 1 9 2 2 3 3 1 5 2 5 9 ATSU 01N209LT 0 340 4 2 2 3 5 5 7 5 12 ATSU 01N212LT 0 340 3 4 5 7 5 10 22 ATSU 01N222LT 0 490 5 5 7 5 11 15 7 5 10 15 20 32 ATSU 01N232LT 0 490 Power connector between ATSU 01N2eeLT VW3 G4104 0 020 ATSU 01N2eeLT and TeSysU Numerous possibilities for combinations and options are offered Please consult the TeSys U Starters open version specialist catalogue Electric 0 75 1 1 5 2 ATSU 01N206LT LUB 12 LUCe 05BL 3 1 1 1 5 22 3 3 ATSU 01N206LT LUB 12 LUCe 12BL LUCM eeBL 1 5 2 ATSU 01N209LT LUB 12 LUCe 12BL 4 5 ATSU 01N209LT LUB 12 LUCe 12BL 2 2 3 ATSU 01N212LT LUB 12 LUCe 12BL 3 5 5 7 5 ATSU 01N212LT LUB 32 LUCe 18BL 4 5 7 5 10 ATSU 01N222LT LUB 32 LUCe 18BL 5 5 7 5 11 15 ATSU 01N222LT LUB 32 LUCe 32BL 7
74. ebsite www schneider electric com Pre wired components simplify wiring and reduce wiring errors By pre wired connector or wire link m Pre wired connector pre wired coil connection The use of a power base without pre wired control circuit connections is recommended Description For use with Item Reference Weight power base kg Pre wired coil connection LUB ee 17 LU9B N11L 0 050 LU2B ee 18 LU9M RL 0 450 m Wire link Allows insertion for example of an emergency stop control or a voltage interface This type of connection must be used for a reversing starter controller assembled using an LU6M reverser block for separate mounting When reverser block LU6M and the power base are mounted side by side a pre wired coil connection LU9M RL may be used Description Length Item Reference Weight m kg Standard Cables equipped with 0 3 14 TSX CANCADD03 0 045 SUB D connectors 1 0 14 TSX CANCADD1 0 065 3 14 TSX CANCADD3 0 125 5 14 TSX CANCADD5 1 500 Reel of cable 50 14 TSX CANCAS50 z 100 11 TSX CANCA100 UL approved Cables equipped with 0 3 14 TSX CANCBDD03 0 045 SUB D connectors 1 14 TSX CANCBDD1 0 065 3 14 TSX CANCBDD3 0 125 5 14 TSX CANCBDD5 1 500 Reel of cable 50 11 TSX CANCB50 100 14 TSX CANCB100 Description Reference Weight kg Elbowed connector TSX CANKCDF90T Straight connector TSX CANKCDF180T Junction box TSX CANTD M4 Electric Schneider 1 85 Presentation TeSy
75. ed 2 A A A kg These bases have two N O common point contacts 81 82 84 which indicate non reversing and reversing operating status Screw Screw 14243 12 12 9 LU2B 12ee 1 270 clamp clamp 4 5 32 23 21 LU2B 32ee 1 270 terminals terminals Without 1 2 3 12 12 9 LU2B A0ee 1 270 connections 5 32 23 21 LU2B BOee 1 250 Sasa Ae Areverser block should preferably be combined with a non reversing power base LU2B e2 without connections to create a reversing starter controller The built in N O 13 14 and N C 21 22 contacts are used for electrical interlocking between the reverser block and the base they are therefore no longer available as output contacts The reverser block has two N O common point contacts 81 82 84 which indicate non reversing and reversing operating status 8 32A reverser block Connection Item 1 Reference to Weight d Power Control be completed 2 kg For mounting directly Screw clamp Without E LU2M BOee 0 400 beneath the power base terminals connections For mounting separately Screw clamp Without 6 LU6M BOee 0 425 from the base terminals connections screw or rail fixing Description Item Application Reference Weight kg Control 4 Reversing power base without LU9 M1 0 025 terminal connections LU2B A0ee or Dee block Reverser block LU2M BOee LU9 M1 0 025 for direct mounting beneath power base Reverser block LU6M BOee LU9 M1 0 025 for mounting separately from power b
76. er controller upto 12A controller g 3 12 family family 1 54 Schneider Electric Presentation continued TeSys motor starters open version TeSys U starter controllers CONTROL UNIT POWER BASE For D O L starting Maximum standard power ratings of 3 phase motors 50 60 Hz non reversing Setting range For D O L starting Reference to be completed by adding the voltage code reversing Reference to be completed by Control circuit voltages V dding th d adding the voltage code 400 415 V 500 V l ELAY LUCAX6ee LU2B1206 LUCA1Xee LU2B12ee LUCA05ee LU2B12ee LUCA 1266 LU2B12ee LUCA 1866 LU2B3266 LUCA32ee LU2B320e Auxiliary contacts Number of contacts 2 4 1 2 Power pole status NO NC NO NC NO NC References LUF N20 LUF N11 LUF N02 Signalling contacts Number of contacis 4 1 2 2 Power base Fault signalling NC 95 96 NO 97 98 Position of rotary knob NO 17 18 NO 17 18 Removable terminal block References LUA 1C11 LUA 1C20 Schneider 1 55 Presentation continued TeSys motor starters open version TeSys U starter controllers 1 m Protection against overloads and short m Short circuit protection circuits m Manual Reset m Protection against phase failure and Motor thermal overload protection must phase imbalance be provided by the variable speed m Earth fault protection equipment controller or soft starter protection only m Manual
77. ers With standard advanced or multifunction control unit Non reversing Non reversing d d lt lt TIN Cl ON With control unit LUCC or LUCM Connection of a single phase motor y N ell el LU2M LU6M Control terminal blocks 1 L1 o o e N a 0 m 1 0 0 0 0 0 2 T1 a GE S1 Start next stage S2 Electrical interlocking S3 Maintaining contact B1 Maintain forward running B3 Maintain reverse running A1 Pulse forward running FIRS SEAR RASS A2 Common A3 Pulse reverse running 1 Electronically operated bistable electromagnet B1 Forward A1 Forward LUA1 C11 LUA1 C20 LUAS E20 LUFN 20 LUFN 11 LUFN 02 17 NO 18 NO 17 NO 18 NO o 33 NO 34 NO 43 NO 44 NO 31 NC 4 32 NC nm ME NE c 7 NGT mum c 95 NC 4 96 NC 97 NO 98 NO CSCS 43 NO 44 NO 31 NC 4 32 NC 41 NC 4 42 NC Di d M Electric 1 112 Schneider Schemes continued TeSys motor starters open version TeSys U starter controllers Standard control units LUCA Advanced control units LUCB LUCC LUCD Basic scheme Basic schemehd W ee cock a erie BECH Luce Power Base Interface Control Control A S 1 C A S I C Supply and Supply and Therm overload Th Detection of hills Detection of memory tart overload tart sta memory sta 0_0 sequence sequence Test Interface module 7 8 9 1011 1
78. es IP 20 Protective treatment Conforming to IEC EN 60068 TH Conforming to EN 60068 2 30 12 Conforming to IEC EN 60068 2 11 48 Ambient air temperature Storage 40 85 around the device Operation Power bases and standard and advanced control units 25 70 At temperatures above 60 C and up to 70 C for le 32A leave a minimum gap of 9 mm between products Power bases and multifunction control units 25 60 At temperatures above 45 C leave a minimum gap of 9 mm between products At temperatures above 55 C up to 60 C leave a gap of 20 mm between products Maximum operating altitude 2000 Operating positions In relation to normal vertical mounting plane E Flame resistance Conforming to UL 94 V2 Conforming to IEC EN 60695 2 12 960 parts supporting live components 650 Environmental restrictions Cadmium and silicone free recyclable Shock resistance Conforming to IEC EN60068 2 27 Power poles open 10 gn 1 2 sine wave 11 ms 1 Power poles closed 15 gn Vibration resistance Conforming to IEC EN 60068 2 6 Power poles open 2 gn 5 300 Hz 1 Power poles closed 4 gn 2 Resistance to Conforming to IEC EN 61000 4 2 In open air 8 Level 3 electrostatic discharge On contact 8 Level 4 Immunity to radiated high Conforming to IEC EN 61000 4 3 10 Level 3 frequency disturbance Immunity to Conforming to IEC EN 6
79. es provide simple clip in connections e g connection of reverser control terminals Schneider 1 53 Electric Presentation continued TeSys motor starters open version TeSys U starter controllers Mirror auxiliary contacts built in the handle as standard Coil cut out contact built into linked to the power poles as standard mechanically Disconnection and breaking 4 H J Short ciircuit protection gi I d I H f I H 1 e trol unii Overload protection SES E L ss Lil ii Power switching E T g e Low consumption d al zl zs EE technology coil Reverser Motor starter structure a roni dadas dalal Disconnection and breaking Short ciircuit protection Power switching g Variable speed Variable speed control controller Non 12Amp Size of product 2 Rating reversing category AC3 45 mm wide TeSys D Coil voltage Circuit TeSys D family 110 V 50 60 Hz Contactor i breaker family oo Q Auxiliary contact for cut out of contactor coil Power combination block Wide range control unit Standard Control voltage e g 110 240 V AC DC Power base Starter For ratings Start
80. etwork or it is not directly accessible various remote transmission solutions may be used instead modem teleprocessing gateway etc Please consult your Regional Sales Office 1 Please refer to the compatibility table on page 1 75 ue Us Arve BINA 2 Please refer to our specialist Automation platform Modicon Premium and Unity PL7 software and Automation platform Modicon M340 catalogues Modbus TCP connection Presentation References page 1 72 page 1 74 Schneider 1 73 536848 536847 References PowerSuite software workshop VW3 A8 104 VW3 A8 114 Description Composition Reference Weight kg PowerSuite CD ROM m 1 program for PC in English French German Italian VW3 A8 104 0 100 and Spanish m Variable speed drive starter and servo drive technical manuals PowerSuite update m 1 program for PC in English French German Italian VW3 A8 105 0 100 CD ROM 7 and Spanish m Variable speed drive and starter technical manuals PC serial port connection kit m 1x3m cable with 1 RJ45 connector on starter controller or VW3 A8 106 0 350 for point to point Modbus drive side and 1 RS 232 RS 485 converter with 1 9 way female connection SUB D connector on PC side m Forthe ATV 11 drive 1 converter with one 4 way male SUB D connector and 1 RJ45 connector m ForATV 38 58 58F drives 1 RJ45 9 way male SUB D adapter RS 232 RS 485 interface m 1 Modbus multidrop converter for connection to screw XGS Z24 0
81. gy Bus topology 7 Communication module LUL C031 or LUL C033 8 Pre wired coil connection LU9B N11C 9 Connection cable VW3 A8 306 Ree with one RJ45 connector at each end 10 Modbus hub LU9 GC3 with channel connections to PLC and to starter controller with RJ45 connectors 11 T junction VW3 A8 306 TFee 12 Line terminator VW3 A8 306 R Information carried by the bus Depends on the type of control unit used Control unit Advanced Multifunction Starter status ready running fault Start and Stop commands Thermal overload alarm Remote reset via the bus Indication of motor load Fault signalling and differentiation Remote programming and monitoring of all functions Log function Monitoring function Alarms overcurrent HE Functions performed Standard For more detailed information please refer to User s Manual LU9 CD1 see page opposite With starter controllers and controllers Starter controllers and controllers LUB ee LU2Be2 LUT M eeBL P Possible combinations LUL C031 LUL C033 G3 ider ectric n E z0 References TeSys motor starters open version TeSys U starter controllers Modbus communication modules and pre wired coil connection components With power bases Control unit software versions LUL C031 LUL C033 V2 3 1 V2 2 1 LUCA eeBL Yes Yes LUCB eeBL
82. h channel connections on the PLC side by two HE 10 connectors and on the starter controller side by 8 RJ45 connectors 7 Connection cable TSX CDPeee with one HE 10 connector at each end Description Item Reference Weight kg Parallel wiring module 3 LUF C00 0 045 1 Please consult our Power Control and connection components catalogue 2 Please consult our IP20 distributed inputs outputs Advantys STB catalogue o7 ider ectric n E FU 510918 References continued LUB LUF C00 LU9B Da Z J E LU2B LUF C00 LU9M TeSys motor starters open version TeSys U starter controllers Parallel wiring module and pre wired coil connection components Pre wired components simplify wiring and reduce wiring errors By pre wired connector or wire link m Pre wired connector pre wired coil connection The use of a power base without pre wired connections is recommended Description For use with Item Reference Weight power base kg Pre wired coil LUB ee 4 LU9B N11C 0 045 connection LU2B ee 13 LU9M RC 0 030 m Wire link Allows insertion for example of an emergency Stop control or a voltage interface This type of connection must be used for a reversing starter controller assembled using an LU6M reverser block for separate mounting When reverser block LU6M and the power base are mounted side by side a pre wired coil connectio
83. ion Log Register 100 Register 450 Words Bits Fault log Operating log Log of last 5 trips Status Register 451 Register 464 Words Bits Alarm signalling bits Fault signalling bits Values Register 465 Register 473 Words Irms phase 1 phase 2 phase 3 Motor load thermal status Earth leakage current Phase imbalance and phase failure Register 474 Register 599 Words Bits Reserved Configuration Register 600 Register 699 Words Bits Protection and alarm thresholds fallback mode and reset mode Commands Register 700 Register 714 Words Bits Commands Status and Register 452 Bit O Short circuit fault values Bit 1 Overcurrent fault Bit 2 Thermal overload fault Register 455 BitO Ready available Bit 1 Poles closed Bit 2 Fault Bit 3 Alarms Bit 4 Tripped TRIP position Bit5 Fault acknowledgement allowed Bit6 Reserved Bit 7 Motor running Bit 8 Motor current bit 0 Bit9 Motor current bit 1 Bit 10 Motor current bit 2 Bit 11 Motor current bit 3 Bit 12 Motor current bit 4 Bit 13 Motor current bit 5 Bit 14 Reserved Bit 15 Motor starting Register 461 Bit 3 Thermal overload alarm Register 465 Word Thermal status value Register 466 Word Motor load value Im Ir Configuration Register 602 Bito Manual reset on thermal overload fault Bit 1 Remote reset on thermal overload fault Bit2 Automatic reset on thermal overload fault Register 682 Value 0 Fallback mode validation Value 1 Outputs OA1
84. ired coil connection Basic schemes continued TeSys motor starters open version TeSys U starter controllers Non reversing Control by communication modules ASILUF C5 and ASILUF C51 Without pre wired coil connection Without pre wired coil connection With local control DANA BZ AS Interface Module ASILUFC5 or ASILUF C51 AS Interface Module AS Interface Na 24V AS Interface ie m o Sn AS Interface line Urs AS Interface line o s E E 5 2 2 1 82 With pre wired coil connection LU9B N11C Without pre wired coil connection With local control QF1 AS Interface Module AS Interface line Normal 6 N Without pre wired coil connection With multifunction control unit LUCM QF1 Schneider 1 121 Electric Basic schemes continued TeSys motor starters open version TeSys U starter controllers Reversing 2 wire control 3 wire control pulsed start with maintaining contact via 3 position switch a snes Da aga OE eae ere Ee VETS D LU2B Reverser Motor Controller 28 Start forward running S0 S1 82 un T Lu Lu Stop Stop forward running forward running forward running Start je and reverse reverse running S1 4 Stop running 53 _s4 reverse running dr 4 S
85. it LUCB LUCC or LUCD allows additional advanced functions such as alarm fault differentiation m Multifunction control unit LUCM suitable for the most sophisticated control and protection requirements The control units are interchangeable without rewiring and without using tools They have a wide range of adjustment range of 4 and low heat dissipation due to the fact that bimetallic overload protection components are no longer used 1 For use with resistive and inductive loads Control of d c or capacitive loads is not possible ider ectric vd 3 0 E 538852 538850 538851 Presentation continued TeSys motor starters open version TeSys U starter controllers 3 Function modules can be used to increase the functions of the starter controller Function modules 3 Must be used in conjunction with advanced control units 4 types are available m Thermal overload alarm LUF W10 m Thermal fault and manual reset LUF DH11 3 m Thermal fault and automatic or remote reset LUF DAO1 and LUF DA10 m Indication of motor load LUF V2 which can also be used in conjunction with the multifunction control unit gu A Ts All alarm and fault information processed by these modules is available on digital contacts Es ASWAN Communication modules 3 The information processed is exchanged m Via a parallel bus parallel wiring module LUF C00 m Via a serial bus
86. lt condition 30 200 24 30 2 dedicated to starter controller coil operation 0 5 A 24 V outputs protected against short circuits By 2 LEDs on front panel Auxiliary supply Number of outputs Switching capacity of the solid state outputs Indication diagnostics Module type Physical interface Connections Protocol Maximum transmission speed Maximum return time Addressing Ambient air temperature LUL C031 RS 485 multi drop RJ45 on front panel Modbus RTU 19 200 self configuration up to this value 30 By switches from 0 31 Operation 25 55 LUL C033 Discrete inputs Number 2 to be assigned according to the configuration Supply 24 Input current y Nominal input values Voltage 24 positive logic Current Ti Response time Change to state 1 10 x 30 96 Change to state 0 10 x 30 Inputtype Resistive Solid state Number 3 of which 2 dedicated to starter controller coil operation outputs Supply 24 Mak current 500 Protection gl fuse 1 Switching capacity 0 5 A 24 V Indication diagnostics By 3 LEDs on front panel Electric Schneider 1 101 Characteristics continued TeSys motor starters open version TeSys U starter controllers Function modules and communication modules Communication mo
87. n LU9M RC may by used No tools are required to connect the parallel wiring module to the PLC Connection is via a splitter box which allows up to 8 starter controllers to be connected a maximum of 4 reversing starters per splitter box is allowed The splitter box requires a 24 V power supply Splitter boxes Connectors For use with Reference Weight PLC side Starter controller side kg 2xHE 10 8 x RJ45 4 reversing starters LU9 G02 1 0 260 20 way maximum 8 reversing starters LU9 G03 1 0 260 maximum Connection cables to the splitter box Connectors Item Length Reference Weight m kg 2x RJ45 connectors 5 0 3 LU9 R03 0 045 1 LU9 R10 0 065 3 LU9 R30 0 125 Connection cables from splitter box to PLC Type of connection Gauge C s a Length Reference Weight PLC side Splitter box side AWG mm m kg HE 10 HE 10 22 0 324 0 5 TSX CDP 053 0 085 20 way 20 way 1 TSX CDP 103 0 150 2 TSX CDP 203 0 280 3 TSX CDP 303 0 410 5 TSX CDP 503 0 670 28 0 080 1 ABF H20 H100 0 080 2 ABF H20 H200 0 140 3 ABF H20 H300 0 210 HE 10 2xHE10 0 324 0 5 BMX FCC 053 0 210 40 way 20 way 1 BMX FCC 103 0 350 2 BMX FCC 203 0 630 3 BMX FCC 303 0 940 5 BMX FCC 503 1 530 10 BMX FCC 1003 3 000 Bare wires HE 10 22 0 324 3 TSX CDP 301 0 400 20 way 5 TSX CDP 501 0 660 1 Allows run and fault status of each starter controller to be fed back to the PLC and transmits commands Schneider 1 77
88. n module LUF DH11 Thermal overload signalling module with manual reset LUF DAO1 Thermal overload signalling module with automatic or remote reset 1 N C LUF DA10 Thermal overload signalling module with automatic or remote reset 1 N O LUF V2 Motor load indication module Schneider 1 135 Characteristics TeSys motor starters open version TeSys U starter controllers Protection Motor type 3 phase Conforming to standard When used in conjunction with an LUB 12 or LUB 32 power base magnetic control unit LUCL conforms to standard IEC 60947 2 Short circuit protection Product certifications Tripping threshold 14 2 x In max setting current Tripping tolerance tX 20 96 CE Conforming to standards When used in conjunction an LUB power base control unit LUCL conforms to standard 60947 2 Rated insulation voltage Ui Conforming to IEC EN 60947 1 overvoltage category III degree of pollution 3 690 Rated impulse withstand voltage Uimp Conforming to IEC EN 60947 2 Safety separation of circuits SELV Conforming to IEC EN 60947 1 appendix N Between the control or auxiliary circuit and the main circuit 400 Between the control and auxiliary circuits 40 Degree of protection Front panel outside connection IP 40 Conforming to IEC EN 60947 1 zone protection against Front panel and wired terminals IP 20 direct finger contact Other fac
89. ng GV2 G345 et G354 Screw fixing 4 2 l 299 297 La GV2G245 2x45 89 GV2G254 2x54 98 l 134 152 GV2 G345 2 x 45 GV2 G354 2 x 54 1 Depth with communication module 2 Retractable fixing lugs 1 110 Schneider Electric Dimensions continued TeSys motor starters open version mounting TeSys U starter controllers Limiter disconnector LUA LB1 Current limiter LA9 LB920 Disconnector LUA LB10 20M4 INA e 1 6 a t 53 5 A a With Modbus module 135 With Advantys STB 147 CANopen Profibus DP or DeviceNet modules Door interlock mechanisms LU9 AP20 LU9 AP00 Door cut out 45 on HH Jj 943 o E y 44035 C Gi c EN Se Y 6 171 230 11 5 LEAN g7 L 508 d Addressing consoles XZ MC11 ASI TERV2 wo o 30 35 Splitter boxes LU9 GC3 Modbus LU9 G02 and LU9 G03 LU9 GC7 Profibus DP Rail mounting Screw fixing Rail mounting Screw fixing 4 2 0 0 d 0 0 0 128 45 128 ure 65 20 1 Depth with communication module 2 Retractable fixing lugs Scbneider 1 111 Electric Schemes TeSys motor starters open version TeSys U starter controll
90. nnector 490 NAD 911 03 Documentation Description Medium Language Reference Weight kg User s manual for CD Rom Multilingual English French German Italian LU9 CD1 0 022 TeSys U range 2 Spanish a A 27 1 If the gateway is configured using PL7 and not ABC Configurator the I O capacity is limited to a total of 26 words 2 This CD Rom contains user s manuals for AS Interface and Modbus communication modules multifunction control units and gateways as well as for the gateway programming software ABC Configurator Presentation description Setting up Schemes page 1 94 page 1 94 page 1 118 Electric Schneider 1 95 Characteristics TeSys motor starters open version TeSys U starter controllers Product certifications UL CSA CCC GOST ASEFA ABS BV DNV GL LROS ATEX Conforming to standards IEC EN 60947 6 2 CSA C22 2 N 14 Type E UL 508 type E with phase barrier LU9 SPO Rated insulation voltage Ui Conforming to IEC EN 60947 1 V 690 overvoltage category III degree of pollution 3 Conforming to UL508 V 600 CSA C22 2 n 14 Rated impulse Conforming to kV 6 withstand voltage Uimp IEC EN 60947 6 2 Safety separation of circuits Conforming to IEC EN 60947 1 V Between the control or auxiliary circuit and the
91. ntact in closed position N C contact in open position Characteristics Schemes page 1 98 page 1 112 om Schneider References TeSys motor starters open version TeSys U starter controllers Add on contact blocks and auxiliary contact modules 568764 Auxiliary contacts Signalling and composition Cabling Item Reference Weight kg 1 N C fault signalling Screw clamp 1 2 LUA1 C11 0 030 contact 95 96 and terminals 1 N O contact 17 18 indicating rotary knob Without 1 LUA1 C110 0 012 n ready position connections 1 N O fault signalling Screw clamp 1 2 LUA1 C20 0 030 contact 97 98 and terminals 1 N O contact 17 18 indicating rotary knob Without 1 LUA1 C200 0 012 n ready position connections 2 N O contacts Screw clamp 6 LUAS E20 0 048 Contacts open rotary knob terminals in OFF position Contacts closed rotary knob n ready position LUB LUA1 LUF N LUA 8E20 Auxiliary contact modules for connection by screw clamp terminals Module with 2 contacts indicating the status of the starter controller power poles Operation or 24 250 V 1th 5A Composition Item Reference gean 2 N O contacts 33 34 and 43 44 3 LUF N20 men 1 N C contact 31 32 and 1 N O contact 43 44 3 LUF N11 0 050 2 N C contacts 31 32 and 41 42 3 LUF N02 0 050 Accessories Description For use on Item Reference Weight kg Screw clamp LUA1 C110 2
92. odule 24V 24V o 5 5 a Aux COM maiz meme 8 5 3 c BE re wired COU ages ee Ies e ce E Basic scheme i Advanced Control Unit or Multifunction Control Unit Controller a A Nana aa EE ZE Kia MERE Eo o NIS NS Control unit interface Controller interface Ready Fault Pole D B 5 Modbus RJ45 8 UO interface 24V 24V 5 t Aux COM S T SE Schemes continued TeSys motor starters open version TeSys U starter controllers Profibus DP communication module LUL C07 CANopen communication module LUL C08 Without pre wired coil connection Without pre wired coil connection LUL C08 LU9B N11L Pre wired coil 24V Bus 9 5 Si GEES Pre wired coil With pre wired coil connection LU9M RC LUL C07 LUL C08 1 LU9M RL LU9M RL Pre wired coil Pre wired coil Basic scheme Basic scheme Controller interface Controller interface VO interface UO interface c o E o 5 i I E DeviceNet communication module LUL C09 Without pre wired coil connection Basic scheme EREECHEN EENS CH D ___Advanced Control Unit or Multifunction Control Unit Controller DeviceNetModule 5 f LL f f x6 pree mme ane 8 s 88 5 83 E mmm i 0 0
93. on TeSys U starter controllers Hot state curves Average operating times at 20 C according to multiples of the setting current tolerance 20 10000 s o E E 1000 100 10 Class 30 Class 25 1 Class 20 Class 15 Class 10 0 1 1 2 20 30 11 13 15 17 19 xthe setting current Ir References page 1 70 1 106 Schneider E Electric Curves continued TeSys motor starters open version TeSys U starter controllers U 460 V 100 kA peak current 0 1 0 1 0 2 04 0 6 0 8 1 2 3 4 6 8 10 20 30 40 60 80 100 Prospective Isc kA 1 Maximum peak current 2 32Apower base 3 12 A power base U 460V 1000 2 g lt bg o E 2 7 1 100 2 10 1 0 1 0 2 0 4 0 6 08 1 2 3 4 6 8 10 20 30 40 60 80 100 Prospective Isc KA 1 32Apower base 2 12Apower base References page 1 62 Schneider 1 107 Electric Selection TeSys U s
94. on module LUL C08 18 Advantys STB island NIM Network Interface Modules O modules 19 CANopen extension module STB XBE 2100K 1 84 TeSys motor starters open version TeSys U starter controllers CANopen communication module and pre wired coil connection components Communication module LUL C08 allows direct connection of TeSys U starter controllers and controllers on a CANopen bus Module LUL C08 is of the slave type When used in conjunction with an LUC eeeBL or LUC eT1BL control unit module LUL C08 provides control and command of the starter controller and of the controller For local control requirements the module is equipped with a configurable 24 V 0 5 V discrete output and two configurable discrete inputs LUL C08 communication modules can be connected to Advantys STB module XBE 2100K Star topology Bus topology 10 Connection of power supplies The 24 V power supply for modules LUL C08 is distributed via the bus and must be connected to the first TSX CANTDMA junction box The cable c s a allows connection of up to 25 LUL C08 modules Above this number another power supply must be connected to the next junction box A 24 V supply must be connected to module LUL C08 for outputs OA1 OA3 and LO1 Information carried by the bus Depends on the type of control unit used Control unit Standard Advanced Multifunction Starter statu
95. ons The PowerSuite software workshop can operate in the following PC environments and configurations m Microsoft Windows XP SP1 SP2 m Pentium Ill 800 MHz hard disk with 300 MB available 128 MB RAM m SVGA or higher definition monitor 1 Minimum software version 2 TeSys U starter controller without communication module or with Modbus LUL C031 or LUL C033 communication module Presentation Functions References page 1 72 page 1 72 page 1 74 Electric Schneider 1 75 510917 511528 Presentation references LUFCOO COM OA1 OA3 1 Outputs for starter commands 2 RJ45connector for connecting to splitter box 511529 LU9 G02 LU9 G03 8 Dedicated parallel interface module STB EPI 2145 9 Power base 10 24NV control unit LUC B D C M ee BL 11 Parallel wiring module LUF C00 12 Options add on contact blocks reverser blocks 1 76 Sc TeSys motor starters open version TeSys U starter controllers Parallel wiring module and pre wired coil connection components The parallel wiring system makes it possible to connect starter controllers to the PLC UO modules quickly and without any need for tools It replaces traditional screw terminal and single wire connections It is used with the Telefast pre wired system 1 The parallel wiring module provides the status and command information for each starter controller It must be used with an LUB 12 or LU2B AOBL
96. ontrollers Advantys STB communication module and pre wired coil connection components Communication module LUL C15 allows direct connection of TeSys U starter controllers and controllers on an Advantys STB island between two segments or at the end of a segment In the latter case the segment must be equipped with an EOS End of segment extension module STB XBE1100 The starter controller will then be able to make use of the services provided by Advantys STB self addressing autobaud fallback positions When used in conjunction with an LUC eeeBL or LUC eT1BL control unit module LUL C15 provides control and command of the starter controller and of the controller For local control requirements the module is equipped with a configurable 24 V 0 5 A discrete output and two configurable discrete inputs S ome edic B 14 14 E x s 12 17 12 j 13 13 Dl i E EBEE 8 Be mmm IK 10 Advantys STB island NIM Network Interface Module I O modules 11 Extension module EOS End of segment STB XBE1100 12 Bus connecting cable LU9 RCDee elbowed straight for connection of the first TeSys U communication module 13 Starter controller 14 Communication module LUL C15 15 Connector for connection of product either by wire link or using coil connection modules LU9 BN11L or LU9 MRL 16 Line end adapter LU9
97. or mm 1 6 1 6 tG Nab 1 6 with cable end 2 conductors mm 1 6 1 6 1 6 6 1 6 Solid cable 1 conductor mm 1 10 tls 1 10 IESSE deo without cable end 2 conductors mm 1 6 1 6 1 6 1 6 1 6 Screwdriver Philips n 2 or flat screwdriver 6 mm Tightening torque Nm 1 9 2 5 1 9 2 5 1 9 2 5 1 9 2 5 1 9 2 5 Connection to 3 mm screw clamp terminals Flexible cable 1 conductor mm 0 75 1 5 0 75 1 5 0 75 1 5 0 75 1 5 0 75 1 5 without cable end 2 conductors mm 0 75 1 5 0 75 1 5 0 75 1 5 0 75 1 5 0 75 1 5 Flexible cable 1 conductor mm 0 34 1 5 0 34 1 5 0 34 1 5 0 34 1 5 0 34 1 5 with cable end 2 conductors mm 0 34 1 5 0 34 1 5 0 34 1 5 0 34 1 5 0 34 1 5 Solid cable 1 conductor mm 0 75 1 5 0 75 1 5 0 75 1 5 0 75 15 0 75 1 5 without cable end 2 conductors mm 0 75 1 5 0 75 1 5 0 75 1 5 0 75 1 5 0 75 1 5 Screwdriver Philips n 1 or flat screwdriver 5 mm Tightening torque Num 0 8 1 2 0 8 1 2 0 8 1 2 0 8 1 2 0 8 1 2 Rated voltage 50 60 Hz 24 240 240 of control circuit Fee 24 220 220 Voltage limits 24V 1 20 27 mn Operation 24V 20 26 5 26 5 or 48 72V RY Sess E a 110 240 V 88 264 88 264 110 220 V 88 242 88 242 Drop out 24V 14 5 14 5 24V 14 5 14 5 0r 48 72V 29 110 240 V 110 220 V 55 Typical cons
98. p can be used on its own to generate the device configuration which can be saved printed and exported to office automation software The PowerSuite software workshop can also be used to convert an Altivar 58 or Altivar 58F drive configuration into one that is compatible with an Altivar 71 Start up When the PC is connected to the device the PowerSuite software workshop can be used to m Transfer the generated configuration m Adjust m Monitor This option has been enhanced with new functions such as o The oscilloscope D The high speed oscilloscope minimum time base 2 ms O The FFT Fast Fourier Transform oscilloscope o Display of communication parameters m Control m Save the final configuration Maintenance To facilitate maintenance operations the PowerSuite software workshop can be used to m Compare the configuration of a device currently being used with a saved configuration m Manage the user s installed equipment base in particular O Organize the installed base into folders electrical equipment machinery workshops etc O Store maintenance messages o Facilitate Modbus TCP connection by storing the IP address User interface The PowerSuite software workshop can be used to m Present the device parameters arranged by function in the form of illustrated views of diagrams or simple tables m Customize the parameter names m Create D Auser menu choice of particular parameters o Monitoring control panels with
99. position 230 V E See 510902 Application examples TeSys motor starters open version TeSys U starter controllers Expansion of an existing installation for improved control of its operation Monitor the status of the motor and obtain alarm signalling by a digital contact in order to improve operation of the pump and anticipate a complete stoppage due to thermal overload Description Item Quantity Reference Page Replace the standard control unit with an advanced control unit and insert a thermal overload alarm function module Advanced control unit S 1 LUCB 12FU 1 69 Alarm function module 3 1 LUF W10 1 71 m Alarm information is generated by the advanced control unit and is processed by the thermal overload alarm function module to make it usable m The advanced control unit includes a thermal trip Test button on its front panel 230 V ul 7 q 4 C U 2 TI S2 QF1 Ee d nnum el DN e E ET Lm ol zl c lt application QF1 59 SN g N Other versions The advanced control unit can provide other functions depending on the type of function modules used instead of the LUF W module described above thermal fault signalling with function modules LUF DA01 LUF DA10 or LUF DH11 indication of motor load with function module LUF V2 This module delivers a 4 20 mA analogue signal which is proportional to the average 3 phase curren
100. power base and a 24 V control unit LUCe eeBL Splitter boxes LU9 G02 and LU9 G03 distribute information from the PLC I O modules to each of the starter controllers connected to it Splitter box LU9 G02 maximum of 4 reversing starters is optimised for use with card TSX DMZ28DTK and splitter box LU9 G03 maximum of 8 reversing starters for use with cards TSX DMZ64DTK and BMX DDM3202K When used in conjunction with the Advantys STB distributed I O solution the TeSys U starter controller is ideal in decentralised automation architectures 2 The use of dedicated parallel interface module STB EPI 2145 allows remote connection of 4 starter controllers Parallel wiring module LUF C00 has m 2 outputs control of starter forward and reverse running m 3 inputs position of the rotary knob fault indication and position of the poles Each of the channels of LU9 GOe splitter boxes has m 2 outputs control of starter forward and reverse running in the case of a reversing starter m 2 inputs fault indication and position of poles Connection to the dedicated module is by means of the following cables m RJ45 LU9Ree for lengths less than 3 metres m 490 NTW 00066 for lengths greater than 3 metres Parallel type connection Architecture 3 Parallel wiring module LUF C00 4 Pre wired coil connection LU9B N11C 5 Connection cable LU9 Re with one RJ45 connector at each end 6 Splitter box LU9 G02 or LU9 G03 for 8 motor starters wit
101. r starters open version TeSys U starter controllers Profibus DP communication module and pre wired coil connection components Compatibility of Profibus DP communication module LUL C07 with starter controller LUB 12 LUB 32 0 09 LUB 12 LUC A6XBL LUC B6XBL LUC D6XBL LUC MeXBL LUL C07 LU9 BN11L or LUB 32 0 25 LUB 12 LUC A1XBL LUC BIKBL LUC D1XBL LUC M1XBL LUL C07 LU9 BN11L or LUB 32 1 5 LUB 12 LUC A05BL LUC BO5BL LUC DO5BL LUC MOS5BL LUL C07 LU9 BN11L or LUB 32 5 5 LUB 12 LUC A12BL LUC B12BL LUC D12BL LUC M12BL LUL C07 LU9 BN11L or LUB 32 7 5 LUB 32 LUC A18BL LUC B18BL LUC D18BL LUC M18BL LUL C07 LU9 BN11L 15 LUB 32 LUC A32BL LUC B32BL LUC D32BL LUC M32BL LUL C07 LU9 BN11L Note Profibus DP module LUL C07 is not compatible with LUT M controllers Scbneider 2 Electric Compatibility continued 0 09 TeSys motor starters open version TeSys U starter controllers Profibus DP communication module and pre wired coil connection components LU2B 12BL or LU2B 32BL LUC A6XBL LUC B6XBL LUC D6XBL Compatibility of Profibus DP communication module LUL C07 with starter controller LU2B 12 LU2B 32 LUC M6XBL LUL C07 LU9 MRL 0 25 or LU2B 12BL LUC A1XBL LUC B1XBL LUC D1XBL LUC M1XBL LUL C07 LU9 MRL LU2B 32BL 1 5 LU2B 12BL LUC A05BL LUC BO5BL LUC DO5BL LUC MO5BL LUL C07 LU9 MRL or LU2B 32BL 5 5 LU2B 12BL LUC A12BL LUC B12BL LUC D12BL LUC M12BL LUL C07 LU9 MRL or LU2B
102. r starters open version description Magnetic control unit for the protection of references variable speed controllers and soft start units A st mm TAWG Presentation 0000 When installed upstream of a variable speed controller or soft start unit control unit LUCLee used in conjunction with an LUB 12 or LUB 32 power base provides D isolation o short circuit protection of the motor starter variable speed controller based or soft start unit based motor starters Note control unit LUCL when used in conjunction with power base LUB 12 or LUB 32 conforms to standard IEC 60947 2 S2 mnv AWG LUB ee Installation regulations m When the length of the cable between the TeSys U starter and the variable speed j controller is more than 1 5 m the c s a of the cable between the variable speed A controller and the TeSys U starter S2 must be equal to the c s a of the cable upstream of TeSys U S1 LL Altivar or Alltistart 1 Extraction and locking handle 2 Sealing of locking handle 3 Dial for magnetic adjustment of motor In 4 Locking of settings by sealing the transparent cover Description Line current of the Reference Weight variable speed controller 1 or soft start unit A kg Magnetic control unit 0 15 0 6 LUCLX6ee 0 135 0 35 1 4 LUCL1Xee 0 135 1 25 5 LUCLO5ee 0 135 3 12 LUCL12ee 0 135 4 5
103. red coil EEJ ASILUF C5 or ASILUF C51 AS Interface Module zm AS i LU9M RC NEC DeC ea l Oo Q 9Q Q 4 ASILUF C5 or ASILUF C51 Output interface E EDI o o SE Eyes 1 114 Schneider Schemes continued TeSys motor starters open version TeSys U starter controllers Modbus communication module LUL C031 Without pre wired coil connection acr XC EE mug cm BAN 24 V Aux m lt gt lowes es cO MT zb I BER i 0 0 0 0 0 0 0 0 DENN 5 8 NN LUL C031 Modbus Module 24 V Aux eus 24V gz LU9B N11C 9 8 aao 8 ES bes Pre wired coil oe ee EE CE OUS ES 4 5 8 Modbus communication module LUL C033 Without pre wired coil connection LUL C033 Modbus Module ee 24V 24V ae LS z Eu a An CoM S z nl T NERONE NECEM NC NENNEN nn all LUL C033 Modbus Module 24V 24V SS T gt LU9B N11C 9 g 9 F Az CoM 583 5 ES Pre wired coil e Nk Na KA ee ts OCT Sonet 7 515 L LUL C031 Modbus Module l 24 V Aux E mz LU9M RC 6 S eue SUE s E g la a Va Em 8 8 2 zz BER il N N lt Basic scheme Com Schneider LUL C033 Modbus M
104. remote by pulsed closing of a volt free contact connected to terminals X1 X2 These modules can only be used with an advanced control unit and require an 24 240 V external power supply LUB e2 LUCB eeee LUFW 10 or LUF Ve Note Terminals X1 X2 are not isolated from the signalling module power supply For remote resetting use a volt free contact specific to each module to be reset 1N C 4 v 0r 24 250 V LUF DA01 0 055 1N O 4 ors 24 250V LUF DA10 0 055 Thermal overload alarm Through load shedding this module makes it possible to avoid stoppages in 200 operation due to overload tripping Imminent thermal overload tripping is displayed as soon as the thermal state exceeds the threshold of 105 hysteresis 5 Signalling is possible via an LED on the front panel of the module and externally by an N O relay output It can only be used with an advanced control unit from which it takes its power 100 4 1 E 1N O 1 Or 24 250V LUF W10 0 055 Z SC Indication of motor load 3 7Z5kW This module provides a signal which is representative of the motor load status 4 12 mA 20 mA average lr m laverage average value of the rms currents in the 3 phases m Ir value of the setting current The value of the signal 4 20 mA corresponds to a load status of 0 to 200 0 to 300 96 for a single phase load It can be used with an advanced or multifunction control uni
105. reset Power base Thermal overload signalling Thermal overload signalling Thermal overload alarm LUB or LU2B module and manual reset modules and automatic or module 2 LUF DH11 remote reset LUF W10 see page 1 71 LUF DAO01 and LUF DA10 see page 1 71 see page 1 71 Motor load indication module Auxiliary contact modules Parallel wiring module LUF V2 LUF Nee LUF C00 see page 1 71 see page 1 65 see page 1 76 3 Fault signalling contacts LUA1ee Depending on configuration see page 1 65 Note the colour indicates possible combinations with the selected control unit Example function module LUF DH11 can only be used with an advanced control unit Electric 1 56 Schneider m Same functions as the standard control unit m In addition in conjunction with a function module o fault differentiation with manual reset o fault differentiation with remote or automatic reset O thermal overload alarm o indication of motor load AS Interface Profibus DP communication modules 1 communication module 1 ASILUF C5 and ASILUF C51 LUL C07 see page 1 78 see page 1 80 Modbus communication modules 1 LUL C031 and LUL C033 see page 1 92 m Same functions as the standard control unit m In addition reset parameters can be set to manual or automatic m Protection function alarm m Indication on front panel or on remote terminal via Modbus RS 485 port m Log function m Monitoring function indication
106. s ready running fault Start and Stop commands Thermal overload alarm Remote reset via the bus Indication of motor load Fault signalling and differentiation Remote programming and monitoring of all functions Log function Monitoring function Alarms overcurrent PS Functions performed For more detailed information please refer to User s Manual LUCA eeBL B eeBL C eeBL D eeBL All versions marketed after 2T04081 1 LUCM eeBL All versions 2 V3 2 LUCM T1BL All versions 2 V3 2 1 This date code is made up as follows 2T or 2C factory code 04 05 06 and so on year of manufacture 08 week 1 1st day of the week Scbneider d Electric References LU2B LUL C08 LU9M RL TeSys motor starters open version TeSys U starter controllers CANopen communication module and pre wired coil connection components Communication module LUL C08 uses PDO SDO and PKW type objects for data exchange Process Data Objects Service Data Objects Periodically Kept in Acyclic Words Transmit and Receive PDO PDO 1 Real time command control Preconfigured and enabled PDO 2 PDO 3 Unused To be defined by configuration PDO4 Adjustment diagnostics and acyclic exchanges Preconfigured and enabled Description Item Reference Weight kg CANopen communication module 16 LUL C08 0 108 Note The Electronic Data Sheets EDS and user s manuals are available on the w
107. s motor starters open version TeSys U starter controllers DeviceNet communication module and pre wired coil connection components When used in conjunction with the power base and control unit communication module LUL C09 allows TeSys U starter controllers and controllers to be controlled LULCOS via DeviceNet Communication module LUL C09 is of the slave type and uses the TeSys U system s DeviceNet internal registers which can be accessed via DeviceNet OA3 OA1 COM Module LUL C09 has a configurable 24 V 0 5 A discrete output and two m_i configurable discrete inputs MNS ERR 24V Serial bus topology 63 starter controllers max with modules LUL C09 1 LED indicating module status 2 Faultsignalling LED 3 LED indicating 24 V supply ON for outputs OA1 OA3 and LO1 and 24 V bus 13 13 13 4 DeviceNet connector for bus link 24V FE EFE 5 24V supply connection 12 14 md 14 zd 14 6 Discrete input 7 Discrete input 8 Discrete output sss 9 Outputs for starter controller commands non reversing and reversing 10 Pin for connection to control unit advanced or 11 Industrial PLC Industrial Programmable Controller equipped with a DeviceNet Master multifunction 12 Connection and power distribution box for supply to DeviceNet communication modules 13 Starter controller 14 DeviceNet communication module LUL C09 1 86 Scbneider e Electric b6 12
108. t Module LUF V2 requires a 24 V external power supply 4 20mA 2 LUF V2 0 050 Characteristics Schemes pages 1 96 and 1 101 page 1 114 Schneider 1 71 Electric 5 S B 572706 Presentation functions Syst me Station de pompage I PowerSuite screen on PC Hi Fonctions applicati C Entr es sommatri JOG Configuration des Limitation de cour e PIF Affectation Retour PI c C Choix vitesses pr c c c RPG Gain proportionnel PI Valeurs vitesses RIG Gain int gral PI Injection de coura R gulateur Pi FBS Coefficient retour PI PowerSuite screen on PC View of PI regulator function parameters Non configur 1 00 1 00 LAMA LI eae gt n AL IN ENK EN LIA NOB DE ema A paya Pet kar View of the FTT oscilloscope PowerSuite software workshop The PowerSuite software workshop for PC is a user friendly tool designed for setting up the Schneider Electric control device motors m TeSys U starter controllers m TeSys T motor management systems m Altistart soft start soft stop units m Altivar variable speed drives m Lexium 05 servo drives Itincludes various functions designed for setup phases such as m Preparing configurations m Start up m Maintenance To facilitate start up and maintenance the PowerSuite software workshop is compatible with the Bluetooth wireless link Preparing configurations The PowerSuite software worksho
109. t drawn by the motor This allows the load current to be monitored and provides access to other application functions using this value or to predictive or preventive maintenance possibilities replacement of the motor before it breaks down Schneider Electric Application examples TeSys motor starters open version TeSys U starter controllers Manual control of a 2 position turntable m Power 2 2 kW at 400 V m In 6A m 30 starts per hour m Duty class S4 m 3 wire control O Pushbutton for Position 1 S1 O Pushbutton for Position 2 82 D Stop button S5 m Stopping atthe positions is achieved by limit switches S3 and S4 m Control circuit voltage 115 V g on Item Quantity Reference Page bj base reversing 1 1 LU2B 12FU 1 63 12A with screw clamp connections Standard control unit 2 1 LUCA 12FU 1 69 m Short circuit protection with level of protection of 50 kA at 400V m Total coordination of protection devices conforming to EN 60947 6 2 continuity of service in case of a short circuit m Electronic protection against thermal overloads with an adjustment range of 4 m Load switching 2 million operating cycles in category AC 43 at In m Interlock between the motor starter control and the position of the rotary knob not possible to start the motor when the knob is in the OFF position Electrical interlocking is ensured by pre wired connector LU9M R1C included on base LU2B 12 The design
110. tarter controllers LUB 12 LUB 32 Millions of operating cycles oD TeSys motor starters open version 2 1 0 8 0 6 0 5 i 1 1 2 3 4 5 6 7 8910 12 32 40 Current broken inA Ue lt 440 V Ue 690 V N e N Si e E E E S al 10 10 2 E e S 8 o D 5 6 ZS 6 5 5 ao Q 4 O A4 5 6 o Bc B3 2 i 2 t I H T H I l 1 1 I 1 1 H 1 1 H T T 0 8 0 8 H t T T 06 i 0 6 0 5 l 0 5 i d 1 2 3 4 5 678910 12 32 40 1 2 3 4 5 6 7 8910 12 21 32 40 Current broken inA Current broken inA LO Lo in nN n N nm N o e be o 08 qw 230V 1 1 1 1 1 1 LO N Nn R n N in Moe in o N u N ga kW 400 V 1 1 1 i 1 1 1 1 mw on N R un N um mn un 440 V Lol 1 1 1 1 1 1 1 References page 1 62 1 108 Schneider d Electric Selection TeSys motor starters open version TeSys U starter controllers Ue lt 440 V Ue 690 V LUB 12 LUB 32 LUB 12 LUB 32 no 1 2 1 08 5 08 e e 9 os 5 06
111. tool to get information about the device The GS files and associated icon dedicated to the TeSys U system can be downloaded from the www schneider electric com website Library Software Tools 1 Replace the asterisk with the letter corresponding to the required language G3 ider ectric n E z0 106949 510951 Presentation continued references BF ERR 24V 13 0603 Profibus DP OA3 OA COM EH uzly F Za LUL C07 Connection of power supplies TeSys motor starters open version TeSys U starter controllers Profibus DP communication module and pre wired coil connection components Information carried by the bus Depends on the type of control unit used with module LUL C07 Information accessible LUL C07 in conjunction with via Profibus DP LUCAeeBL LUCB C D eeBL LUCM eeBL Standard Advanced Multifunction control unit control unit control unit Starter status ready running fault Start and Stop commands Thermal overload alarm Remote reset via the bus Indication of motor load Fault signalling and differentiation Remote programming and monitoring of all functions Log function Monitoring function Alarms overcurrent EN Functions performed Description Reference Weight kg Profibus DP communication module 18 LUL C07 0 108 By pre wired connector or wire link m Pre wired connector
112. top reverse running Control by communication modules ASILUF C5 3 wire control pulsed start with maintaining contact and limit switches and ASILUF C51 With pre wired coil connection LU9M RC With multifunction control unit LUCM Ier E KEE I D ee a Se UE E ASILUF C5 or ASILUF C51 AS Interface Module LU2B Reverser Motor Controller l 24V AS Interface LU9M RC lt al m m e Fr ee 2 8 x 2 Red ECKE 9 9 o a Limit switch Stop Start AS Interface line forward running forward running forward running S0 55 S1 82 Ee b d QFi Stop forward LUCM Multifunction Control Unit dE E running Limit switch Stop Start 24 V Aux reverse running reverse running reverse running s S6 S38 S4 ee Control by communication modules ASILUF C5 and ASILUF C51 Without pre wired coil connection With running direction pilot lights and limit switches QF1 oF ASILUF C5 C51 AS Interface Module 1 latius EE 24V ASnterface col deu AS Interface line Q V1 V2 1 122 Schneider d Electric Basic schemes continued TeSys motor starters open version TeSys U starter controllers Reversing Control via Modbus communication module LUL C031 Without pre wired coil connection With local control Lu2B Reverser LUL C031 Motor Startforwar
113. tuses and currents LUCM Multifunction Control Unit zh amp LU9B N11C Aux COM 5 Pre wired coil Modbus 1 VW3 A8 306 TF03 The multifunction control unit incorporates other control and protection functions such as monitoring and control of phase current alarm Module LUL C033 also provides a programmable output and two configurable discrete inputs Electric References 561330 LUB e20 TeSys motor starters open version TeSys U starter controllers Non reversing power bases Two versions of control connection configuration are available m connection by screw terminals plug in control terminal block m without connections This version enables wiring to be prepared in advance and is recommended when a communication module is required allowing the use of control connection prewiring accessories or when a reverser block is to be mounted by the customer Connection Item Rating Reference Weight Power Control 2 440V 500V 690V A A A kg These bases have 2 auxiliary contacts 1 N O 13 14 and 1 N C 21 22 which indicate the closed or open position of the power poles A low power internal contact allows power supply to the control unit to be switched off when the rotary knob is no longer in the ON position The power bases must be used in conjunction with a control unit see pages 1 68 to 1 70 Screw Screw 14243 12 12 9
114. umption 24V max while closing 24V or 48 72 V 110 240 V 110 220 V rms sealed EN 60 24V 70 0r 48 72V 35 110 240 V 110 220 V 25 Heat dissipation 2 Operating time Closing 24 V 70 48 V 60 2 72 V 50 Opening 35 35 Resistance to micro breaks 3 3 Resistance to voltage dips IEC EN 61000 4 11 At least 70 Yo of Uc for 500 ms Mechanical durability In millions of operating cycles Maximum operating rate In operating cycles per hour Number of poles Isolation Possible Yes Yes Yes Yes conforming to IEC EN 60947 1 Paglocking 1 padlock with 6 9 mm shank Rated thermal current A 12 32 12 32 Rated operational current TolEC Category AC 41 0s 70 C 12A 0s 70 C 32A 0 55 C 12A 0 55 C 32A Ue lt 440V EN 60947 6 2 Category AC 43 0 70 C 12A 0 70 C 32A 0 lt 55 C 12A 0 55 C 32A Rated operational voltage V 690 3 690 3 690 3 690 3 Frequency limits Of the operating current Hz 40 60 40 60 40 60 40 60 Power dissipated Operational current A 3 6 9 12 18 25 32 in the power circuits Power dissipated in all three poles W 0 1 03 06 14 24 46 7 5 Rated breaking capacity on short circuit V 230 440 500 690 kA 50 50 10 4 Total breaking time ms 2 2 2 Thermal limit With Isc max on 440 V kA s_ 90 120 90 120 1 Voltage with maximum ripple of 10 96
115. us motors Altistart U01 and TeSys U For 0 75 to 15 kW motors Automatic 3 wire control with reversing unit Without deceleration With deceleration EE ICT WE 1 LU2B e2BL ATSU 01N2eeLT 2 24V QF1 TeSys U controller starter with reversing unit QF1 TeSys U controller starter with reversing unit A1 Soft start soft stop unit A1 Soft start soft stop unit S1 S2 S3 XB4 B or XB5 B pushbuttons S1 S2 S3 XB4 B or XB5 B pushbuttons S3 minimum depression time 500 ms Boost on starting and end of starting signal A1 Soft start soft stop unit Presentation Characteristics References Dimensions pages 1 124 and 1 125 pages 1 126 and 1 127 page 1 128 page 1 129 1 132 Scbneider d Electric Schemes continued Soft starters for asynchronous motors Altistart U01 and TeSys U For 0 75 to 15 kW motors Automatic control with Modbus communication module with and without deceleration Without reversing unit ATSU 01N2eeLT LUL C031 Modbus Module SM EA I 1 lt oj 2 a Or 24V 24VAux 5 5 0 ES S mg e LU9BN11C o AAO Too o 28r Nana With reversing unit LUL C031 Modbus Module lt T 24 V 24 V Aux amp 4 Function Register Bit Value Function Register Bit Value Powering down TeSys U and ATSU Powering up TeSys U and
116. used Description Length Item Reference Weight m kg Cables fitted with 0 3 12 LU9 RCD03 0 045 connectors 1 12 LU9 RCD10 0 065 one straight and one elbowed 3 12 LU9 RCD30 0 125 5 12 LU9 RCD50 1 500 Cables fitted with 0 3 17 LU9 RDD03 0 045 two straight connectors 1 17 LU9 RDD10 0 065 3 LU9 RDD30 0 125 Note User manuals are available on the website www schneider electric com Electric Schneider 1 91 566970 Presentation LUL C031 1 Pee RI LULCO31 anih bedan LULCO33 COMM ERR 24V S 8 COM OA OA3 MODBUS 6 3 5 2 6 Module status signalling LED 24 V supply connection 2 discrete inputs 1 discrete output Outputs for starter commands o Om P GO MM 1 92 Coh OAT OAS LUL C033 1 D RR RR 85 3 COMM ERR 24V MODBUS 24V 24V Com Lo um up Lana 35 4 2 RJ45 connector for RS485 Modbus link Sc TeSys motor starters open version TeSys U starter controllers Modbus communication modules and pre wired coil connection components Communication modules LUL C031 and LUL C033 enable the TeSys U starter controller to be connected to the Modbus network They must have a 24 V supply and must be used in conjunction with a 24 V control unit LUCe eeBL They incorporate a 0 5 A 24 V discrete output for local command requirements The module LUL C033 also has two configurable discrete inputs Architecture Star topolo
117. wing them to start gradually smoothly and in a controlled manner It prevents mechanical shocks which lead to wear and tear and limits the amount of maintenance work and production downtime The Altistart UO1 limits the starting torque and current peaks on starting on machines which do not require a high starting torque The Altistart U01 is designed for the following simple applications Conveyors Conveyor belts Pumps Fans Compressors Automatic doors and gates Small cranes Belt driven machines etc The Altistart U01 is compact and easy to install It complies with standards IEC EN 60947 4 2 carries UL CSA C Tick CCC certifications and C marking m ATSU 01N2eeLT soft start soft stop units O Control two phases of the motor power supply to limit the starting current and for deceleration o Internal bypass relay o Motor power ratings ranging from 0 75 kW to 15 kW O Motor supply voltages ranging from 200 V to 480 V 50 60 Hz An external power supply is required for controlling the starter m Altistart U01 soft start soft stop units are equipped with D A potentiometer for setting the starting time 6 D A potentiometer for setting the deceleration time 8 D A potentiometer for adjusting the start voltage threshold according to the motor load 7 o 1 green LED 4 to indicate that the unit is switched on o 1 yellow LED 5 to indicate that the motor is powered at nominal voltage if it is connected to the starter o Aconnector
118. xible cable without cable end 1 conductor 1 10 2 conductors 1 6 Flexible cable with cable end 1 conductor EE 2 conductors 1 6 Screwdriver Phillips n 2 or flat screwdriver 6 mm Tightening torque 197215 Rated insulation voltage Ui 690 conforming to standard IEC EN 60947 1 Conventional thermal current Ith 63 conforming to standard IEC EN 60947 1 Operating threshold I rms 1000 Breaking capacity 440 690 100 35 Mounting Separate Cabling Solid cable 1 conductor 1525 2 conductors 1 5 10 Flexible cable without cable end 1 conductor 1525 2 conductors 25m0 Flexible cable with cable end 1 conductor 1 5 16 2 conductors 1 5 4 Screwdriver Phillips n 2 or flat screwdriver 6 mm Tightening torque 2 2 Activation threshold Fixed at 88 of the thermal tripping state Hysteresis between activation and switching off 5 Display By LED on front panel Supply Powered by the control unit Discrete output characteristics Type N O contact AC 15 230 V max 400 VA 100 000 operating cycles DC 13 24 V 50 W 100 000 operating cycles Conventional thermal current Ith For ambient A 2 temperature 0 lt 70 C Short circuit protection Conforming to A gG fuse 2 IEC EN 60947 5 1 Module type LUF DH11 LUF DA01 LUF DA10 Fault signalling By LED on front panel External power supply V u 24 240 Module consumption mA 7at 24 1 1 at 240 Discrete outputs Type 1 N C 1 N O 1 N C 1N O
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