Curves TeSys Model U 0 Tripping curves for control units LUCA, LUCB, LUCD Average operating times at 0 C according to multiples of the setting current, tolerance : ± 0 %. Time (s) 000 00 0 0, LUCD, poles from cold state, class 0. LUCA, LUCB, poles from cold state, class 0. LUCA, LUCB, LUCD, poles from hot state. 6 7 0 0 0 x the setting current (Ir) Tripping curves for control units LUCC Average operating times at 0 C according to multiples of the setting current, tolerance : ± 0 %. Time (s) 000 00 0 0, 6 7 0 0 0 x the setting current (Ir) LUCC, single-phase, cold state. LUCC, single-phase, hot state. References : page 9 Schneider Electric
Curves (continued) TeSys Model U 0 Tripping curves for control units LUCM Cold state curves Average operating times at 0 C according to multiples of the setting current, tolerance : ± 0 %. Time (s) 0000 000 00 0 Class 0 Class Class 0 Class Class 0 Class 0, 6 7 9 0 6 0 7 9 0 x the setting current (Ir) References : page 0 Schneider Electric
Curves (continued) TeSys Model U 0 Tripping curves for control units LUCM Hot state curves Average operating times at 0 C according to multiples of the setting current, tolerance : ± 0 % Time (s) 0000 000 00 0 Class 0 Class Class 0 Class Class 0 Class 0, 6 7 9 0 6 0 7 9 0 x the setting current (Ir) References : page 0 Schneider Electric
Curves (continued) TeSys Model U 0 Current limitation on short-circuit U e = 6 Maximum peak current (ka) 00 0 0, 0, 0,6 0, 6 0 0 0 0 60 0 00 Prospective Isc (ka) Maximum peak current A power base A power base Thermal limit on short-circuit U e = 6 Sum of I dt (A s) 0 000 00 0 0, 0,6 0, 6 0 0 0 0 60 0 00 Prospective Isc (ka) A power base A power base References : pages to 0 Schneider Electric
Selection guide TeSys Model U 0 Use in category AC- Millions of operating cycles 0 6 LUB LUB 0, 0,6 0, 6 7 9 0 0 Current broken in A Use in category AC- Ue Ue = 69 Millions of operating cycles 0 6 LUB LUB Millions of operating cycles 0 6 LUB LUB 0, 0,6 0, 6 7 9 0 0 Current broken in A 0, 0,6 0, 6 7 90 0 Current broken in A 0, 0,7,,, 7, kw 0 0, 0,7,,, 7, kw 0, 0,7,,, 7, kw References : pages to 0 6 Schneider Electric
Selection guide TeSys Model U 0 Use in category AC- Ue Ue = 69 Millions of operating cycles 0, 0,6 0, 0, 0, 0, LUB LUB Millions of operating cycles 0, 0,6 0, 0, 0, 0, LUB LUB 0, 0,0 0,06 0,0 0,0 0,0 0, 0,0 0,06 0,0 0,0 0,0 0,0 0,0 0,0 0 0 0 0 66 00 00 0 60 0 70 Current broken in A 0,0 0 0 0 0 60 00 00 0 0 6 Current broken in A References : pages to 0 Schneider Electric 7
Dimensions TeSys Model U 0 Non-reversing 6 X Reversing Rail mounting Screw fixing Rail mounting Screw fixing 6 0 Ø 9 Ø 6 7 X () X X () 0/ Minimum electrical clearance : X = 0 mm for Ue = and 70 mm for Ue = 00 and 69, X = 0 () Maximum depth (with Modbus communication module) Reverser block for mounting separately from power base Rail mounting Screw fixing Ø 0 6 Sets of busbars and plug-in power sockets GV G and GV G GV Gppp with terminal block GV G09 GV G and G a l p GV G09 l 9 0 I GV G ( x ) 9 GV G ( x ) 9 I P GV G GV G and G GV G ( x ) 79 60 l GV G ( x ) 06 a Number of tap-offs 6 7 I GV G ( x ) 69 9 GV G ( x ) GV G ( x ) 60 6 GV G ( x ) AK JB AK PC, PC, PCL 0 79,, Schneider Electric
Dimensions TeSys Model U 0 Limiter-disconnector LUA LB Disconnector LUA LB0 Current limiter LA9 LB90 9 ØM 6 0 () () Maximum depth (with Modbus communication module). Current limiter GV L 6, 0 () () Maximum depth (with Modbus communication module). Door interlock mechanisms LU9 AP00 Door cut-out = = 0 = = 0, 7 Addressing consoles XZ MC ASI TERV 09 9 0 0 Modbus splitter box LU9 CG Splitter box LU9 G0 6 Ø 0 Schneider Electric 9
Schemes TeSys Model U 0, or A With standard, advanced or multifunction control unit Non-reversing Reversing /NO /NO /NC /NC /T /L /L /L Control Unit /T 6/T With control unit LUCC or LUCM Connection of a single-phase motor /T /T 6/T B B /T /L /L /L Control Unit /T 6/T Pre-wired L L Reverser Control Unit /NO /NO /NC /NC Control terminal block U 6 V LUB Reverser Motor Controller M Reverser blocks LUM LU6M Control terminal blocks /L /L /L S S S S S S B B LU6M Reverser Block Reverser With pre-wired connector LU9M RC S S S B B LU6M Reverser Block /T /T 6/T B B LU9M RC Pre-wired coil Control terminal block Basic scheme LUM Reverser Motor Controller B B S Start next stage S Electrical interlocking S Maintaining contact B Maintain forward running B Maintain Pulse forward running mon Pulse () Electronically operated bistable electromagnet. Add-on contact blocks Add-on contact modules LU D LU C LU C0 LUFN 0 LUFN LUFN 0 Forward B B Reverse S Forward S Reverse S () LU6M /NO /NO 7/NO /NO 7/NO /NO /NO /NO /NO /NO /NC /NC 9/NC 96/NC 9/NC 96/NC 97/NO 9/NO /NO /NO /NC /NC /NC /NC 0
Schemes (continued) TeSys Model U 0 Control units Standard control unit LUCA Basic scheme 6 Advanced control unit LUCB, LUCC, LUCD Basic scheme 6 Sensor L Power Base Interface LUCA Sensor L Power Bas Interface LUCp Sensor L Control A.S.I.C. tr Sensor L Control A.S.I.C. tr Sensor L Sensor L Supply and Detection of start sequence Thermal overload memory Supply and Detection of start sequence Thermal overload Test Interface module 7 9 0 and Trips and Electromagnet Power base rating 6 N/C Multifunction control unit LUCM Control terminal block and Trips and Electromagnet Power base rating 6 N/C 7 Load Thermal status/set 9 Reset mode/reset 0 (lm/ir) Vc Vc LUCM V Aux Multifunction Control Unit + V 67 Basic scheme 6 Sensor L Power Base Interface Display and Parameter Entry LUCM Sensor L Control A.S.I.C. ESC ENT Sensor L Supply and detection of start sequence Thermal overload memory RS + V 7 RJ Supply Interface module V Aux 7 9 0 and Trips and Electromagnet Power base rating 6 N/C 7 Load N/C 9 Load 0 (lm/ir) Rx/Tx Vc
Schemes (continued) TeSys Model U 0 Function modules Alarm LUF W0 LUFW 0 Alarms Module 07 0 Basic scheme Advanced Control Unit or Multifunction Control Unit LUFW 0 Input interface LED Supply Bistable Relay 07 0 Indication of motor load LUFV -0 ma output LUFV...0 ma V Aux Analogue output Module V Aux NC Basic scheme Advanced Control Unit or Multifunction Control Unit Input interface Supply LUFV µp - Analogue/Digital converter Insulation Digital/Analogue converter Voltage/Current converter...0 ma c V 00 Ω < load < 00 Ω c max and 0 ma min
Schemes (continued) TeSys Model U 0 munication modules munication module Modbus communication module LULC AS-Interface Module LUL C0 Modbus Module O AS-i O LO V Aux 6 With pre-wired coil connection LU9B NC With pre-wired coil connection LU9B NC AS-Interface Module LUL C0 Modbus Module LU9B NC Pre-wired coil AS-i LU9B NC Pre-wired coil LO V Aux 6 With pre-wired coil connection LU9M RC With pre-wired coil connection LU9M RC AS-Interface Module LUL C0 Modbus Module LU9M RC Pre-wired coil AS-i LU9M RC Pre-wired coil LO V Aux Basic scheme Basic scheme Advanced Control Unit or Multifunction Control Unit LED Ready-Fault-Pole Input interface LULC 0 LED Address Ready-Fault-Pole RS 0V Modbus RJ Output Interface SI Output Interface AL Supply AL O c V AS-i O LO V Aux Parallel wiring module With pre-wired coil connection LU9M RC LUF C00 Parallel bus Module LUF C00 Parallel bus Module O Liaison // RJ 6 7 LU9M RC Pre wired coil Liaison // RJ 6 7 With pre-wired coil connection LU9B NC Basic scheme LUF C00 LU9B NC Pre wired coil Parallel bus Module Liaison // RJ 6 7 O 6 7 LUF C00 RJ Ready- Fault-Pole Forward running Reverse running Output common Position button Pole state 6 Reserved 7 Fault Input common
Schemes (continued) TeSys Model U 0 munication modules (continued) Wiring hub and splitter box Modbus hub LU9 GC Parallel wiring splitter box LU9 G0 X RJ 7 6 X RJ X RJ X RJ LU9 GC D (B) D (A) + Shielding 6 7 X9 RJ NC NC NC D (B) D (A) + NC NC Forward running Reverse running Output common N/C Pole state N/C Fault Input common X RJ 7 6 X RJ X RJ X RJ LU9 G0 X9 () 6 7 9 0976 0 Fault X Fault X Fault X Fault X Fault X Fault X6 Fault X7 Fault X Pole state X Pole state X Pole state X Pole state X Pole state X Pole state X6 Pole state X7 Pole state X + V Aux - V Aux + V Aux - V Aux Colours of TSX CDPppp connection cable wires () White Brown Green Yellow Grey 6 Pink 7 Blue Red 9 Black iolet Grey-pink Red-blue White-green Brown-green White-yellow 6 Yellow-brown 7 White-grey Grey-brown 9 White-pink 0 Pink-brown X RJ X6 RJ X7 RJ X RJ X0 RJ Shielding Shielding c V Forward running N/C Output common N/C Pole state N/C Fault Input common X RJ 7 6 X6 RJ X7 RJ X X0 () 6 7 9 0976 0 Forward running X Forward running X Forward running X Forward running X Forward running X Forward running X6 Forward running X7 Forward running X Reverse running X Reverse running X Reverse running X Reverse running X N/C N/C N/C N/C + c V - c V + c V - c V RJ V Aux Outputs Inputs () 0-way HE 0 input connector. () 0-way HE 0 output connector. () Corresponding to colour of the HE 0 connector pin wires. Gateways LUF P LUF P7 LUF P9 LUF P Gateway Fip I/O - Modbus LUF P7 Gateway Profibus - Modbus LUF P9 Gateway DeviceNet - Modbus V Aux X Fip I/O 6 7 9 X V Aux X Profibus 6 7 9 X 0 v V Aux X DeviceNet X
Control unit information TeSys Model U 0 Data profile under AS-Interface Control unit present in the product Standard Advanced Multifunction Status D0 Ready (available) D Poles closed (running) mands D0 Forward running D Reverse running Register addresses accessible under Modbus Control unit present in the product Standard Advanced Multifunction Identification Register 0 Register 99 Words Bits mercial reference, serial number, software version Log Register 00 Register 0 Words Bits Fault log, Operating log, Log of last trips Status Register Register 6 Words Bits Alarm signalling (bits), Fault signalling (bits) Values Register 6 Register 7 Words Irms phase, phase, phase. Motor load, thermal status Earth leakage current. Phase imbalance and phase failure Register 7 Register 99 Words Bits Reserved Configuration Register 600 Register 699 Words Bits Protection and alarm thresholds, fallback mode and reset mode mands Register 700 Register 7 Words Bits mands Status and values Register Bit 0 Short-circuit fault Bit Overcurrent fault Bit Thermal overload fault Register Bit 0 Ready (available) Bit Poles closed Bit Fault Bit Alarms Bit Tripped ( TRIP position) Bit Fault acknowledgement allowed Bit 6 Reserved Bit 7 Motor running Bit Motor current % (bit 0) Bit 9 Motor current % (bit ) Bit 0 Motor current % (bit ) Bit Motor current % (bit ) Bit Motor current % (bit ) Bit Motor current % (bit ) Bit Reserved Bit Motor starting Register 6 Bit Thermal overload alarm Register 6 Word Thermal status value Register 66 Word Motor load value (Im/Ir) Configuration Register 60 Bit 0 Manual reset on thermal overload fault Bit Remote reset on thermal overload fault Bit Automatic reset on thermal overload fault Register 6 Value 0 Fallback mode validation Value Outputs O and unchanged Value Outputs O and forced to 0 Value Outputs O and unchanged, signalling existence of communication failure Value Outputs O forced to and unchanged Value Outputs forced to and O unchanged mands Register 700 Bit 0 LO output command Register 70 Bit 0 O output command Bit output command Bit Reserved Bit Fault acknowledgement Bit Reserved Bit Trip test Bit 6 Reserved Data accessible
Recommended application schemes TeSys Model U 0 Non-reversing Non-reversing starter-controllers LUB /L /L /L Control Unit U V W /T /T 6/T M -wire control via -position switch -wire control, pulsed start with maintaining contact Running Stop Connection of a motor load indicator module LUFV LUFV Analogue output Module...0 ma V Aux V Aux NC 6 Schneider Electric
Recommended application schemes (continued) TeSys Model U 0 Non-reversing Non-reversing starter controllers LUB (continued) Control via communication module ASIL UFC With local control AS-Interface Module AS-Interface Module AS-Interface AS-Interface O O Bus AS-Interface Normal Adjustment Bus AS-Interface With pre-wired coil connection LU9B NC With local control AS-Interface Module AS-Interface Module AS-Interface AS-Interface LU9B NC Pre-wired coil O Bus AS-Interface Bus AS-Interface Adjustment Normal With multifunction control unit LUCM Control via Modbus communication module LULC 0 AS-Interface Module LULC 0 Modbus Module O AS-Interface O LO LI LI V Aux GND 6 S S Bus AS-Interface Modbus LUCM V Aux Multifunction Control Unit RJ GND 6 Emergency Stop Bus Modbus RS 7
Recommended application schemes (continued) TeSys Model U 0 Reversing Reversing starter-controllers LUB -wire control via -position switch -wire control, pulsed start with maintaining contact /T /T U 6/T V /T W B B /L /L /L LUB Reverser Motor Controller LUB Reverser Motor Controller B B Control Unit Start forward running forward running Stop Stop forward running and reverse running Stop forward running Start /T 6/T Stop M Control via communication module ASIL UFC With pre-wired coil connection LU9M RC With multifunction control unit LUCM -wire control, pulsed start with maintaining contact and limit switches AS-Interface Module LUB Reverser Motor Controller LU9M RC Pre-wired coil AS-Interface B B Bus AS-Interface Limit switch forward running Stop forward running Start forward running LUCM V Aux Multifunction Control Unit GND 6 Stop forward running and reverse running Limit switch Stop Start Bus Modbus RS Control via communication module Control via Modbus communication module LULC 0 With running direction pilot lights and limit switches With local control LUB Reverser Motor AS-Interface Module Controller B B O AS-Interface LUB Reverser Motor LULC 0 Controller B B O LO LI LI Modbus Module V Aux GND 6 Bus AS-Interface Modbus Start forward running Start Adjustment Normal Emergency Stop
Recommended application schemes (continued) TeSys Model U 0 Reversing Reversing starter-controllers LUB + LU6M U V W /T /T 6/T /L /L /L /T /T 6/T /L /L /L Control Unit M -wire control, pulsed start with maintaining contact S S S LU6M Reverser Block Stop forward running and Stop Start forward running forward running S S6 S B B Stop S7 Start S9 -wire control via -position switch B B S S S LU6M Reverser Block forward running Stop Schneider Electric 9