3 phase 200-230Volts, 380-460Volts
Contents
1. 00000 00000000000000 00000 00000000000000 Dimension unit mm Inverter w1 w2 H1 H2 D2 SV008iS5 2 4 150 130 284 269 156 5 SV015iS5 2 4 150 130 284 269 156 5 SV022iS5 2 4 150 130 284 269 156 5 SV037iS5 2 4 150 130 284 269 156 5 SV055iS5 2 4 200 180 355 340 182 5 SV075iS5 2 4 200 180 355 340 182 5 unit mm Inverter wi w2 H1 H2 D2 SV110iS5 2 4 250 230 385 370 201 SV150iS5 2 4 250 230 385 370 201 SV185iS5 2 4 304 284 460 445 234 SV220iS5 2 4 304 284 460 445 234 OO unit mm Class Type w1 W2 W3 H1 H2 D1 D2 SV300iS5 2 375 360 275 615 593 5 277 5 230 5 200 230v SV370iS5 2 375 360 275 615 593 5 277 5 230 5 SV450iS5 2 375 360 275 780 758 5 300 7 230 5 SV550iS5 2 375 360 275 780 758 5 300 7 230 5 SV300iS5 4 350 319 2 270 680 662 311 2 256 6 SV370iS5 4 350 319 2 270 680 662 311 2 256 6 380 480V SV450iS5 4 375 359 6 275 780 760 5 329 259 SV550iS5 4 375 359 6 275 780 760 5 329 259 SV750iS5 4 375 359 6 275 780 760 5 329 259 18 Starvert iS5 Options Option Name Descripption Internal Installation Sub Board Sub A Board Extended I O Extended I O module 3 multi function inputs P4 P5 P6 3 multi function outputs Q1 Q2 Q3 Auxiliary analog frequency reference V2 Lm Load meter Output 0 10V Sub B Board speed Feedback Encoder pulse input Speed feedback AOC BOC A A B B Encoder puls2. Multi function Input 3 Common Terminal Potentiometer 1kohm 1 2W SEE 71 0 C vi Speed signal Input Note Factory Setting Speed L Speed M Speed H OiO C Fault output relay i O less than AC250V 1A less than DC30V 1A O C Mult function output relay1 less than AC250V 1A O C less than DC30V 1A TT Factory setting RUN Power supply for AXA speed signal 11V 10mA BXB Speed signal input 0 10V Speed signal input 4 20mA 2500hm Common for VR Vi I e display main circuit terminals 0 display control circuit terminals 1 The terminal configuration varies depend on the model name P terminal is available in 5 5 to 7 5kW inverters P1 and P2 are available in 11 to 75kW inverters B1 and B2 terminals are for braking resister or connection P1 and P2 are for braking unit 2 Analog speed command can be set by voltage current and both of them 3 When installing the DC Reactor the common busbar between P1 and P2 must be removed 4 0 75 7 5kW inverters have on board braking circuit Braking resistor is only included for 0 75 gt 3 7kW inverters 11 gt 75KW inverters need optional braking unit and resister for dynamic braking 5 Marked as CM for over 30kW drives 06 Starvert iS5 Power terminal configuration Symbol Function R S AC Line input 3 phase 200 230 Vac for 2 units and 380 480 Vac for 4 units T U Vv 3 phase output te
3. Japan Tel 81 3 3582 9128 e Fax 81 3 3582 0065 e e mail jschuna lgis com Starvert iS5 1 Sep 2003 Printed in Korea STAFF
4. 10 00 Hz No FU2 12 Jump Frequency 1 High Jump Hi 1 12 Fu1 11 to FU2 20 0 01 15 00 Hz No FU2 13 Jump Frequency 2 Low Jump lo 2 33 Fu1 22 to FU2 14 0 01 20 00 Hz No FU2 14 Jump Frequency 2 High Jump Hi 2 14 Fu1 13 to FU2 20 0 01 25 00 Hz No FU2 15 Jump Frequency 3 Low Jump lo 3 5 Fu1 22 to FU2 16 0 01 30 00 Hz No FU2 16 Jump Frequency 3 High Jump Hi 3 16 Fu1 15 to FU2 20 0 01 35 00 Hz No FU2 17 Starting rate of S curve Start Curve 19 0 100 1 40 No FU2 18 Ending rate of curve End curve 19 0 100 1 40 No FU2 19 Input Output Phase Loss Protection Trip select 19 00 to 11 bit set 00 Yes FU2 20 Power ON Start selection Power on 20 No 0 1 0 No Yes run Yes 1 FU2 21 Restart after Fault Reset 2T No 0 0 No Yes RST restart Yes 1 FU2 22 Speed Search selection 22 0000 to 1111 bit set 0000 No FU2 23 Current Limit Level during Speed Search Speed Search 25 80 to 200 1 100 Yes FU2 24 P Gain during Speed Search SS Sup Curr 24 0 to 30000 1 100 Yes FU2 25 Gain during speed search SS P gain 25 0 to 30000 1 1000 Yes FU2 26 Number of Auto Restart Attempt SF 26 0to 10 1 0 Yes FU2 27 Delay Time before Auto Restart gainRetry 27 0 to 60 sec 0 1 1 0 sec Yes FU2 30 Rated Motor selection number 30 0 75kW 0 1 6 No Retry Delay 1 5kW 1 Motor select 2 2kW 2 3 7kW 3 5 5kW 4 7 5kW 5 11 0KW 6 15 0KW 7 18 5kW 8 22 0kW 9 30kW 10 37kW 11 45kW 12 55kW 13 75kW 14 FU2 31 Number of Motor Pole qu 2to 12 1 4 No FU2 32 Rated Motor
5. 150 Yes FU1 56 Overload Warning Hold Time OL time 55 0 to 30 sec 0 1 10 0 sec Yes Overload Trip selection OLT select 56 No 0 1 1 Yes Yes FU1 57 Yes 1 FU1 58 Overload Trip Level OLT level a 30 to 150 1 180 Yes FU1 59 Overload Trip Delay Time OLT time 58 0 to 60 sec 1 60 0 sec Yes FU1 60 Stall Prevention Mode selection Stall prev 59 000 to 111 bit set bit 000 No FU1 99 Stall Prevention Level Stall level 60 30 to 150 1 150 No Return Code Not display 99 Not available PROG ENT 1 1 Yes or SHIFT ESC 3 Function 2Group FU2 ik Keypad Display Setting Range Factory Adjustable Code beseription LCD 7 segment LCD 7 segment Units Default during run FU2 00 Jump to desired code Jump code Not displayed 1 to 99 Not available 1 30 Yes FU2 01 Previous Fault History 1 Last trip 1 I 0 None FU2 02 Previous Fault History 2 last trip2 2 By pressing PROG and a key FU2 03 Previous Fault History 3 last trip 3 3 the frenquency current operation 1 FU2 04 Previous Fault History 4 Last trip 4 4 status at the time of fault FU2 05 Previous Fault History 5 Last trip 5 5 can be seen FU2 06 Erase Fault History Erase trips 6 No 0 1 0 No Yes Yes 1 FU2 07 Dwell Frequency Dwell freq 7 FU1 22 to FU1 20 0 01 5 00 Hz No starting freq to Max freq FU2 08 Dwell Time Dwell time 8 0 to 10 sec 0 1 0 0 sec No FU2 10 5 Frequency Jump selection Jump Freq 10 No 0 1 0 No No Yes 1 FU2 11 Jump Frequency 1 Low Jump lo 1 II Fu1 22 to FU2 12 0 01
6. 3 23mH 7 5A 11 66mH 7 1A SV037i55 4 5 ABS33a EBS33 SMC 20P 3 5 12 2 14 2 14 20A 2 34mH 10A 7 83mH 10A SV055iS5 4 23 ABS33a EBS33 SMC 20P 35 12 2 14 35 12 20A 1 22mH 15A 5 34mH 14A SV075iS5 4 10 ABS33a EBS33 SMC 20P 55 10 35 12 35012 30A 1 14mH 20A 4 04mH 19A 20 Starvert iS5 r Wire mm2 AWG Inverter Models kW MCCB ELB Magnetic Contactor RST UVW Ground AC Input Fuse AC Reactor DC Reactor SV110iS5 4 15 ABS53a EBS53 SMC 20P 8 8 5 5 10 8 8 35A 0 81mH 30A 2 76mH 29A SV150iS5 4 20 ABS63a EBS63 SMC 25P 146 88 8 8 45A 0 61mH 38A 2 18mH 36A SV185iS5 4 25 ABS108a EBS103 SMC 35P 1406 88 1406 60A 0 45mH 50A 1 79mH 48A SV220iS5 4 30 ABS108a EBS103 SMC 50P 22 4 1406 1406 70A 0 39mH 58A 1 54mH 55A SV300iS5 4 40 ABS208a EBS125 GMC 85 22 14 100A 0 33mH 67 1A 1 19mH 76 0A SV370iS5 4 50 ABS203a EBS150 GMC 100 2 2 14 100A 0 27mH 82 5A 0 98mH 93 0A SV450iS5 4 60 ABS203a EBS175 GMC 125 38 38 22 100A 0 22mH 100 1A 0 89mH 112 0A SV550iS5 4 75 ABS203a EBS225 GMC 150 38 38 22 150A 0 18mH 121 08 0 75mH 135 0A SV750iS5 4 100 ABS203a EBS225 GMC 180 60 60 22 200A 0 13mH 167 2A 0 44mH 187 0A IS5 Series Footprinting Filter Tension Leakage Dimensions Mounting i Output Minverter Power Code Current Voltage Current LWH YX Weight Mount Chokes THREE PHASE NOM MAX SV008iS5 2 0 75KW FFS5 T012 X 12A 250VA 03A 18A 329X149 5 X 50 315X 120 M5 FS 2 SVO15iS5 2 1 5kW SV02255 2 22KW FFS5 T
7. 44 OH a Lost 11 Command 12 Run 13 Stop 0 45 Fault Output Relay setting 0A 30B 30C Relay mode 45 000 to 111 bit set 010 bit Yes VO 46 13 Inverter Number Inv No 46 1 to 32 1 1 Yes 0 47 Baud Rate Baud rate 47 1200bps 0 1 3 9600bps Yes 2400bps 1 4800bps 2 9600bps 3 19200bps 4 1 0 48 Operation selection at loss of Freq Reference lost 48 None 0 1 0 None Yes command Freerun 1 Stop 2 0 49 Waiting Time after Loss of Freq Reference 49 0 1 to 120 sec 0 1 0 1 sec Yes 0 50 Auto Sequence Operation selection Time out 50 None 0 1 No Auto mode Auto A 1 Auto B 2 0 51 Sequence Number selection SH 1105 1 0 None Yes VO 52 The Number of steps of Sequence Number Seq selet 52 1t08 1 1 Yes 1 O 53 14 15 Step Frequency of Sequence Step number 53 0 01 to FU1 20 Max freg 0 01 2 Yes 0 54 Transient Time to 1 Step of Sequence Segl 1F 54 0 1 to 6000 sec 0 1 11 00 Hz Yes 0 55 Steady Speed Time at 1st Step of Sequence Seql 1T 55 0 1 to 6000 sec 0 1 1 1 sec Yes 1 0 56 Motor Direction of 15 Step of Sequence 1 Seql 1S 56 Reverse 0 5 1 1 sec Yes Seq1 1D Forward 1 VO 57 15t Step of Fequency of Sequence 2 57 0 01 to FU1 20 Max freq 0 01 1 Forward Yes 0 58 Transient Time to 1st Step of Sequence 2 Segl 1F 58 0 1 to 6000 sec 0 1 21 00 Hz Yes 0 59 Steady Speed Time at 15t Step of Sequence 2 Seql 1T 59 0 1 to 6000 sec 0 1 1 1 sec Yes 0 60 Motor Direction of 1 Step of Sequence 2 Seql 1S 60 Reverse 0 1 1 1 sec Yes Seql 1D Forward 1 1 0 99 Re
8. 49 PID Reference mode selection PID Ref 49 Freq Mode 0 1 0 Freq mode No Keypad 1 1 Keypad 2 2 VI 3 4 Vil 5 FU2 50 PID Output direction selection PID Ref Mode 50 Ramp freq 0 1 0 Ramp freq No Target freq 1 1 FU2 51 10 PID feedback Signal selection PID F B 51 l 0 1 0 1 No vi 1 v2 2 FU2 52 P Gain for PID Control PID P gain 52 0 to 999 9 1 300 0 Yes FU2 53 Gain for PID Control PID I gain 53 Oto 32 0 sec 1 30 0 sec Yes FU2 54 D Gain for PID Control PID D gain 54 0 to 999 9 msec 0 01 0 No Yes FU2 55 Limit Frequency for PID Control PID limit 55 0 to FU1 20 0 01 60 00 Hz Yes FU2 56 Limit Frequency for PID Control PID limit 56 0 to FU1 20 1 60 00 Hz No FU2 57 PID Output inverter PID Out Inv 57 No 0 0 1 0 No No Yes 1 FU2 58 PID Output gain scale PID Out Scale 58 0 1 to 999 9 0 1 Pe 100 0 No FU2 59 PID P2 scale PID P2 gain 59 0 0 to 999 9 0 1 100 0 No FU2 60 P gain scale P gain Scale 60 0 0 to 100 1 100 0 Yes FU2 69 Speed Acc dec turning point 69 FU2 70 Reference Frquency for Accel and Decel Acc Dec freq 70 Max freq 0 1 0 Max fra Yes Delta freq 1 FU2 71 Accel Decel Time scale Time scale Dit 0 01 sec 0 1 0 0 01 sec Yes 0 1 sec 1 1 sec 2 FU2 72 Power On Display PowerOn disp 72 Oto 12 1 0 Yes FU2 73 User Display selection User disp 73 Voltage 0 1 0 Voltage Watt 1 Torque 2 FU2 74 Gain for Motor Speed Display RPM factor 74 1 to 1000 1 100 Yes FU2 75 DB Dynamic Braki
9. Application function related parameters Input Output 1 0 VO is lit Multi function terminal setting auto operation etc Parameter needed for sequence operation External board EXT EXT is lit Displayed when sub board is installed Communication COM VO EXT are lit Displayed when option board is installed Application APP VO EXT FU2 are lit Specific application related parameters Parameter navigation 1 LCD Keypad Function1 group Function2 group I O group MODE DRV T K 0 0A Jump coad une 1 0 Jump coad 00 STP 60 00Hz 00 4 fy v Aj ly a MODE ODE y y Y DRV Acc
10. EXT 05 V2 Mode selection V2 mode 5 None 0 0 None No Override 1 Reference 2 EXT 06 Filtering Time Constant for V2 Signal Input V2 filter 6 0 to 10000 ms 1 10 ms Yes EXT 07 V2 Input Minimum Voltage V2 volt xl 7 Oto 10 V 0 01 0 00 V Yes EXT 08 Frequency corresponding to V2 Input V2 freq y2 8 0 to FU1 20 Max freq 0 01 0 00 Hz Yes Minimum Voltage EXT 09 V2 Input Maximum Voltage V2 volt x2 9 0 to 10 V 0 01 10 00 V Yes EXT 10 Frequency corresponding to V2 Input V2 freq y2 10 0 to FU1 20 Max freq 0 01 60 00 Hz Yes Maximum Voltage EXT 14 Usage of Pules Input Signal F mode 14 None 0 0 None No Fee back 1 Reference 2 EXT 15 Pulse Input Signal selection F pulse set 15 A B 0 0 A B Yes A 1 EXT 16 Encoder Pulse Number F pulse num 16 360 to 4096 1 1024 No EXT 17 Filtering Time Constant for Pulse Input Signal F filter 7 0 to 9999 ms 1 10 ms Yes EXT 18 Pulse Input Minimum Frequency F pulse x1 18 0 to 100 kH 0 01 0 00 kHz Yes EXT 19 Frequency Output corresponding to Pulse F freg yl 19 0 to FU1 20 Max freq 0 01 0 00 Hz Yes Input Minimum Frequency EXT 20 Pulse Input Maximum Frequency F pulse x2 20 0 to 100 kHz 0 01 10 00 kHz Yes EXT 21 Frequency Output corresponding to Pulse F freq y2 2a 0 to FU1 20 Max freq 0 01 60 00 Hz Yes Input Maximum Frequency EXT 22 P Gain for Sub B PG P gain 22 0 to 9999 1 3000 Yes EXT 23 I Gain for Sub B PG I gain 23 0 to 9999 1 300 Yes EXT 24 Slip P Gain for Frequency Sub B board PG Slip
11. Selection Guide Auto tuning The auto tuning algorithm in iS5 sets the motor factors automatically It brings the traditional commissioning difficulties mainly in low speed by the load variation and the low torque generation to a settlement Optimum acceleration and deceleration To make a maximum torque during the acceleration and deceleration so called trip free function is acting during acceleration and deceleration Both of Acceleration and deceleration may cause a trip in case that it is manually programmed The 32 bit DSP CPU monitors the current transition during the acceleration and deceleration to program an optimum curve that is under the triptrigering level automatically Stopped 1 Stopped CHT 2V CH3 5V CH4 2V 1s div CH1 2V CH3 5V CH4 2V tsidiv DC 101 1 DC 104 DC 104 isidi DC 104 1 DC101 DC101 isidiv i i i i 1 NORM 1kS q 1 NORM 1kS q Filter Offset Record Length Trigger Filter Offset Record Length Trigger Smoothing OFF Ch1 0 00V Main 10k Mode AUTO Smoothing OFF Ch1 0 00V Main 10k Mode AUTO BW FULL Ch2 0 00V Zoom 500 Type EDGE CH1 BW FULL Ch2 0 00V Zoom 500 Type EDGE CH1 CH3 0 00V Delay 0 0ns CH3 0 00V Delay 0 0ns CHA 0 00V Hold Off MINIMUM CH4 0 00V Hold Off MINIMUM Traditional curve Optimum curve 380 460V SV015iS5 2 F SV015iS5 4 SV022iS5 2 SV
12. Slip 32 0 to 10 Hz 0 01 7 No FU2 33 Rated Motor Current in RMS Pole number 33 1 to 200 A 1 No FU2 34 No Load Motor Current in RMS Rated Slip 34 0 5 to 200 A 1 No FU2 36 Motor Efficiency Rated Curr 36 70 to 100 1 No FU2 37 Load Inertia Noload 37 0t0 1 1 0 No FU2 38 Carrier Frequency CurrEfficienc 38 8 1 to 15 kHz 1 5 kHz Yes FU2 39 Control Mode selection y 40 VIF 0 1 0 VF No Inertia rate Slip comp 1 Carrier freq PID 2 Control Sensorless 3 FU2 40 Auto tuning selection mode 41 No 0 1 0 No No Yes 1 11 Program Parameter Descriptions 3 Function 2Group FU2 Keypad Display Setting Range A Factory Adjustable Code Description LCD 7 segment LCD 7 segment Units Default during run FU2 41 Stator resistance Rs 41 Decided depending on motor capacity 0 001 Decided depending on motor capacity No FU2 42 Leakage inductance Lsigma 42 Decided depending on motor capacity 0 001 Decided depending on motor capacity No FU2 43 Stator inductance Is 43 Decided depending on motor capacity 0 001 Decided depending on motor capacity No FU2 44 Rotor time constant Tr 44 Decided depending on motor capacity 1 Decided depending on motor capacity Yes FU2 45 P gain for sensorless mode SL P gain 45 0 to 3276 1 1000 Yes FU2 46 gain for sensorless mode SL I gain 46 0 to 3276 1 1000 No FU2 47 PID operation selection Proc PI mode 47 0 No 1 0 No 1 Yes FU2 48 PID feed forward gain PID F gain 48 0 999 9 0 1 0 0 Yes FU2
13. Stop Fault status RUN Run status DRV Drive group FU1 Function group FU2 Function2 group vo VO group EXT Sub board group VO EXT Option board group VO EXT FU2 Application group This is used to move you through seven parameter groups and parameter codes Also used to change data by rotating knob This is used to go into program mode to change data and to enter the changed data This is used to go into program mode to change data and to enter the changed data This button is used to move cursor across the display in a programming mode This is used to stop the inverter from running The reset button is used to reset faults This is used to run the inverter The motor direction is set in DRV13 It blinks in setting mode The LED is lit in Stop status and blinks in fault status The LED is lit in Run status and blinks in fault status It blinks in drive group It blinks in Function1 group It blinks in Function2 group It blinks in O group It blinks in Sub board group It blinks in Option board group It blinks in Application group Terminal Configuration Keypad amp Parameter Navigation Parameter group Parameter group LCD keypad 7 segment keypad Description Drive DRV DRV LED is lit Command frequency accel decel time etc Basic parameters Function 1 FUL FUI is lit Max frequency amount of torque boost etc Basic function related parameters Function 2 FUN2 FU is lit Frequency jumps max min limit of frequency etc
14. code Not Displayed 0 to 99 Not available 1 1 Yes COM 01 Option board Type display Opt B D I None 0 1 0 None Yes Device Net 1 Synchro 2 PLC GF 3 Profibus DP 4 Digital in 5 RS485 6 Mofibus RTU 7 COM 02 Option mode Opt Mode 2 None 0 1 0 None No Command 1 Frequency 2 Cmd Freq 8 COM 03 Option version Opt Version 3 Option version No COM 04 Digital Binary option input mode selection D in Mode 4 8bit Bin 1 1 0 8BitBin Yes 8 BCD 1 2 8 BCD 1Hz 3 12 Bit Bin 4 12 BCD 0 1 5 12 BCD 0 1Hz 6 12 BCD 1Hz 7 COM 05 Digital Binary input filter Digital Ftr 5 0t050 1 15 Yes COM 10 Device Net ID MAC ID 10 01063 1 0 Yes COM 11 Device Net baud rate Baud Rate II 125kbps 0 1 0 125 bps Yes 250kbps 1 500kbps 2 COM 12 Device Net output impedence Out Instance 12 20 0 1 0 20 Yes 21 1 100 2 101 3 COM 13 Device Net input impedence In Instance 13 70 0 1 0 70 Yes 71 1 110 2 111 3 COM 17 PLC station ID Station ID 17 01063 1 1 Yes COM 20 Profibus DP ID Profi MAC ID 20 Oto 127 1 1 Yes COM 30 Number of output Output Num 30 0to8 1 3 Yes COM 31 Output 1 Output 1 31 0000 to 57FF HEX Hi 000A HEX Yes COM 32 Output 2 Output 1 32 0000 to 57FF HEX 000A HEX Yes COM 33 Output 3 Output 1 33 0000 to 57FF HEX 2 000A HEX Yes COM 34 Output 4 Output 1 34 0000 to 57FF HEX gt 000A HEX Yes COM 35 Output 5 Output 1 35 0000 to 57FF HEX 000A HEX Yes COM 36 Output 6 Output 1 36 0000 to 57FF HEX 000A HEX Yes COM 37 Output 7 Output 1 37 0000 to 57FF HE
15. inserted Diversity of communication interfaces The iS5 provides most popular communication interfaces such as Device Net Profibus DP Modbus RTU RS485 and F Net LG proprietary protocol for LG PLC communication The DriveviewTM software offers Window based computer monitoring tool through RS 485 interface with graphic capture keypad emulator parameter edit and text monitor It is applicable for all LG inverters F Net ModBus RTU DeviceNet RS 485 Built in PID control It is valuable in process control The built in PID algorithm controls flow temperature pressure etc through the proportional integral and differential calculus between the feedback value and reference value in closed loop The high speed CPU makes the calculation easy and fast Sensorless vector control The iS5 adopts sensorless vector control algorithm and it improves not only the torque control characteristics but the speed controlability in an uncertain condition caused by the load variation as well The iS5 especially generates strong torque at a low speed range as shown below 300 300 200 200 der 100 100 gt 0 100 200 300 0 J I I y 0 300 0 900 1200 1500 1800 2 0 2400 2 0 3000 3300 100 H I Po aa ss atres I I I I I I 200 EL NL Lui FR SND I___ TETI un L L L 300 SPEED rpm SPEED rpm TORQUE TORQUE 03 Features amp
16. time FUL Run prohibit last trip 1 1 0 V1 filter 01 10 0sec 03 None 01 10ms la fr 4 4 y i A y A y MODE MODE Y y y y DRV Dc time FU1 Acc Pattern FU2 last trip 2 1 0 Vlvoltx1 02 20 0sec 05 Linear 02 02 0 00V A A A A la fv 4 A y A y A fy y y y y DRV Drive mode FU1 Dec Pattern FU2 last trip 3 1 0 V1 fregyl 03 Fx Rx 1 06 Linear 03 03 0 00Hz A A A 4 fv 4 4 y Aj fy A fy MODE y y y y DRV Freq mode FU1 Stop mode FU2 last trip 4 1 0 V1 voltx2 04 Keypad 1 07 Decel 04 04 10 00V la fv A lv A fy A fy MODE MODE Y y y y DRV Step freq 1 FU1 DeStvalue FU2 last trip 5 1 0 v1 freq y2 05 10 00Hz 08 50 05 03 60 00Hz la fv 4 y 4 y 4 fy MODE MODE DRV Fault FUL Stall Level FU2 Para lock 1 0 Way1 2D 12 er 60 150 94 0 60 Forward 08 Starvert iS5 2 LED keypad 7 segment DRV FUL FU2 I O EXT e O O O oO DRV pog DRV FUL FU2 I O EXT e O 0 o o m HIT Li LILI DRV FUL FU2 I O EXT e O Oo 0 oO 88 6884 DRV FUL FU2 I O EXT DRV FUL FU2 I O EXT DRV FUL FU2 I O e O O o o Oo e o O Oo Oo e O o FU1 In a JG I I I H ge LILI cu i Li il ijt PI DRV FUL FU2 I O EXT DRV FUL FU2 1 0 EXT DRV FUL FU2 I O e O o o o o Oo e o o Oo Oo e o FU2 jog LE in og C I I iL ef unnnnnnnnnn
17. 020 X 20A 250VA 03A 18A 329X1495X50 315 X 120 M5 FS2 SVO37iS5 2 3 7kW SV055iS5 2 55KW FFS5 T030 X 30A 250VA O3A 18A 415X199 5X60 410 X160 M5 FS 2 SV075iS5 2 7 5kW FFS5 T050 X 50A 250VA O3A 18A 415X 199 5 X 60 410 X 160 M5 FS 2 SV110iS5 2 11kW 100A 250VA 0 3A 18A FS 3 SV150iS5 2 15kW A 18kW 120A 250VA 0 3A 18A FS3 SV220iS5 2 22kW SV008iS5 4 0 75KW FFS5 T006 X 6A 380VA O5A 27A 329X 149 5 X50 315 X 120 M5 FS 1 SVO15iS5 4 1 5kW SVO22iS5 4 22kW FFS5 T012 X 12A 380VA O5A 27A 329X 149 5 X 50 315 X 120 M5 FS 2 SV037iS5 4 3 7KW Se SSW FFS5 T030 X 30A 380VA 05A 27A 415X1995X60 401X160 M6 FS2 SV075iS5 4 7 5kW Vo IW FFS5 T051 X 51A 380VA 05A 27A 466X258X65 5155 X 255 MB FS2 SV150iS5 4 15KW SV185iS5 4 18KW FFS5 TO60 X 60A 380VA 05A 27A 541X332X65 515 5X255 M8 FS 2 SV220iS5 4 22KW FFS5 T070 X 70A 380VA 05A 27A 541 X 332 X 65 M8 FS 2 IS5 Series Standard Filter Tension Leakage Dimensions Mounting i Output Minverter Power Code Current Voltage Current LWH YX Weight Mount Chokes THREE PHASE NOM MAX SV N iFE 1012 09 12A 250VA O3A 18A 250X110X60 238X76 FS2 SVO15iS5 2 1 5kW SVO22iS5 2 22kW FE T020 X 20A 250VA 03A 18A 270X140X60 258X106 FS 2 SV037iS5 2 3 7kW SVO55iS5 2 5 5kW FE T030 X 30A 250VA 03A 18A 270X140X60 258X 106 FS 2 SVO75iS5 2 75kW FE T050 X 50A 250VA 03A 18A 270X140X60 258X106 FS 2 SV110iS5 2 MV FE T100 x 100A 250VA 0 3A 18A 420X200X130 408X166 FS 3 SV150iS5 2 15kW a J amp W FE T120 x 12
18. 022iS5 4 SV037iS5 2 SV037iS5 4 SV220iS5 2 __ SV220iS5 4 SV300iS5 2 _____ SV300iS5 4 SV370iS5 2 _____ SV370iS5 4 SV450iS5 2 _____ SV450iS5 4 SV550iS5 2 SV550iS5 4 Inverter rating selection guide Application motor 200 230V SV015i85 2 SV022iS5 2 SV03785 2 SV220iS5 2 SV300iS5 2 SV370iS5 2 SV450iS5 2 SV550iS5 2 SV220iS5 4 SV300iS5 4 SV370iS5 4 SV450iS5 4 SV550iS5 4 LG Starvert inverter option built in 2 3 phase 200 230V 4 3 phase 380 480V iH inverter has a different designation in kW iG5 series iS5 series iH series iV5 series 04 Starvert iS5 Specifications 200 230V Class 0 75 55kW Inverter Type SV___iS5 _ 008 2 015 2 022 2 037 2 055 2 075 2 110 2 150 2 185 2 220 2 300 2 370 2 450 2 550 2 Motor Rating HP 1 2 3 5 75 10 15 20 25 30 40 50 60 75 kW 0 75 1 5 22 3 7 5 5 75 11 15 18 5 22 30 37 45 55 Capacity kVAJ 2 19 3 45 6 1 91 12 2 175 22 9 28 2 33 5 46 55 68 84 3 FLAJA 5 8 12 16 24 32 46 60 74 88 122 146 180 220 Output ratings FG O 400 Hz Voltage 200 gt 230V 3 Input ratings Voltage 3 phase 200 gt 230 V 10 Frequency 50 gt 60 Hz 5 Weight kg 4 6 46 48 49 7 5 77 13 8 14 3 19 4 20 Specifications 380 480V Class 0 75 75kW Inverter Type SV___iS5 _ 008 4 015 4 022 4 037 4 055 4 075 4 110 4 150 4 185 4 220 4 300 2 370 2 450 2 550 2 750 2 aat HP 1 2 3 5 75 10 15 20 25 30 40 50
19. 0A 250VAC 1 3 180A 420X 200X130 408 X 106 FS3 SV220iS5 2 22kW SV300iS5 2 30kW FE T150 2 150A 250VAC 1 3A 150A 480 X 200 X 160 468 X 166 FS 3 SV370iS5 2 37kW FE T170 2 170A 250VAC 1 3A 150A 480 X 200 X 160 468 X 166 FS 3 SV450iS5 2 A5kW FE T230 2 230A 250VAC 1 3A 150A 580 X 250X205 560X170 FS 4 SV550iS5 2 55kW FE T260 2 280A 250VAC 1 3A 150A 580 X 250 X 205 560 X 170 FS 4 SV008iS5 4 0 75KW FE T0064X 6A 380VAC 05A 27A 250X110X60 238X76 FS 2 SV015iS5 4 1 5kW ENES 22W FE T012 X 12A 380VAC 05A 27A 250X110X60 238X76 FS2 SV037iS5 4 3 7KW Rue SON FE T030 X 30A 380VAC O 5A 27A 270X140X60 258X106 FS 2 SV075iS5 4 7 5kW SV 1101554 TIKW FE T050 x 50A 380VAC 05A 27A 270X140X90 258X106 FS2 SV150iS5 4 15kW SV185iS5 4 18kW FE T060 X 60A 380VAC 05A 27A 270X140X90 258X106 FS 2 SV220iS5 4 22kW FE T070 X 70A 380VAC 05A 27A 350X180X90 338X146 FS 2 SV300iS5 4 30kW FE T070 2 70A 380VAC 13A 150A 350X180X90 338X146 FS 3 SV370iS5 4 37kW FE T100 2 100A 38VAC 1 3A 150A 425X200X130 408 X 166 FS 3 SV450iS5 4 45W FE T120 2 120A 38VAC 13A 150A 425X200X130 408X166 FS 3 SV550iS5 4 55kW FE T120 2 120A 38VAC 1 3A 150A 425X 200X130 408X166 FS 3 SV750iS5 4 75kW FE T170 2 170A 38VAC 1 3A 150A 480 X 200X160 468X 166 FS 3 X 1 Industrial environment EN 50081 1 A class 2 Domestic and industrial environment EN 50081 1 B class 21 RFI Filters Dimmensi
20. 60 75 100 Motor Rating pg 075 15 22 37 55 75 m 15 185 22 30 37 45 55 75 Capacity kVAJ 1 9 3 45 6 1 9 1 12 2 183 229 297 343 45 56 68 82 100 i FLAJA 25 4 6 8 12 16 24 30 39 45 61 75 91 110 152 Output ratings en 0 400 Hz Voltage 380 480V 3 x 3 phase 380 480V 10 Input ratings rd Po cone Hr Weight kg 4 6 4 6 4 8 49 MED Ull 13 8 14 3 19 4 20 Braking circuit On board Optional Braking unit resistor Average braking torque 100 100 100 150 Braking TRES ne 5seconds 5seconds 5seconds Controlled by braking unit Max duty 30 3 ED 30 2 ED 30 ED 10 ED Cooling methos Forced air cooling Enclosure IP00 1 Indicates the maximum applicable capacity when using 4 pole LG standard motor 2 Rated capacity 3 V l is based on 220V for 200V class and 440V for 400V class 3 Maximum output voltage will not be greater than the input voltage Output voltage less than the input voltage can be set 4 0 75 gt 3 7kW inverter have internal braking resistor inside 5 5 75KW inverters need optional braking resistor Control method V F control sensorless vector control selectable sensored vector control Frequency setting resolution Digital reference 0 01 Hz below 100 Hz 0 1 Hz over 100 Hz Analog reference 0 03 Hz 50 Hz Frequency accuracy Digital 0 01 of max output frequency Analog 0 1 of max output frequency Contra V F ratio Linear Square patten User V F Overload capacity 150 of rated current for 1 min 200 of r
21. 7 Traverse offset Low Trv Off Hi 7 0 0 to 20 0 0 1 0 0 o Yes APP 08 No of Aux Motor in running Trv Off Lo 8 APP 09 Start aux Motor Aux Mot Run 9 1to4 1 1 Yes APP 10 Operation time display by auto change Start Aux 10 0 01 APP 11 Starting frequency of Aux Motor 1 Auto Op II 0 to FU1 20 Max freq 0 01 49 99 Hz Yes APP 12 Starting frequency of Aux Motor 2 Time 12 0 to FU1 20 Max freq 0 01 49 99 Hz Yes APP 13 Starting frequency of Aux Motor 3 Start freq 1 13 0 to FU1 20 Max freq 0 01 49 99 Hz Yes APP 14 Starting frequency of Aux Motor 4 Start freq 2 14 0 to FU1 20 Max freq 0 01 49 99 Hz Yes 16 Starvert iS5 7 Application Group APP ar Keypad Display Setting Range Factory Adjustable Code Description LCD 7 segment LCD 7 segment Unite Default during run APP 17 Starting frequency of Aux Motor 3 Stop freq 3 17 0 to FU1 20 Max freq 0 01 15 00 Hz Yes APP 18 Starting frequency of Aux Motor 4 Stop freq 4 18 0 to FU1 20 Max freq 0 01 15 00 Hz Yes APP 19 Aux Motor starting delay time Aux start DT 19 0 0 to 9999 sec 0 1 60 00 sec Yes APP 20 Aux Motor stop delay time Aux stop DT 20 0 0 to 9999 sec 0 1 60 00 sec Yes APP 21 Number of Aux Motor Nbr Aux s 21 0104 1 4 Yes APP 22 Bypass selection Regul Bypass 22 None 0 1 0 None Yes Yes 1 APP 23 Sleep delay Sleep Delay 23 0 0 to 9999 sec 0 1 60 00 sec Yes APP 24 Sleep frequency Sleep Freq 24 0 to FU1 20 Max freq 0 01 19 00 Hz Yes A
22. Keypad Display Setting Range F Factory Adjustable Gode Description LCD 7 segment LCD 7 segment Unite Default during run 1 0 00 Jump to desired code Jump Not Displayed 11099 Not available 1 1 Yes 1 0 01 Filtering Time Constant for V1 Signal Input VI Filter I 0 to 9999 ms 1 10 ms Yes 0 02 V1 Input Minimum Voltage V1 volt x1 2 0 to 10 V 0 01 0 00 V Yes 0 03 Frequency corresponding to V1 Input V1 freq yl 3 0 to FU1 20 Max freq 0 01 0 00 Hz Yes Minimum Voltag 0 04 V1 Input Maximum Voltage V1 volt x2 4 Oto 10 V 0 01 10 00 V Yes 1 0 05 Frequency corresponding to V1 Input V1 freq y2 5 0 to FU1 20 Max freq 0 01 60 00 Hz Yes Minimum Voltage 12 Starvert iS5 4 Input Output I O u Keypad Display Setting Range R Factory Adjustable Code Description LCD 7 segment LCD 7 segment Units Default during run 1 0 06 Filtering Time Constant for V1 Signal Inputl I filter 5 0 to 9999 ms 1 10 ms Yes 1 0 07 Input Minimum Current V1 curr x1 7 0 to20 ms 0 01 4 00 mA Yes 10 08 Frequency corresponding to V1 Input V1 freq yl 8 0 to FU1 20 Max freq 0 01 0 00 Hz Yes Minimum Voltage 0 09 I Input Minmum Current V1 curr x2 9 0 to20 ms 0 01 20 00 mA Yes 0 10 Frequency corresponding to Input I freg y2 10 0 to FU1 20 0 01 60 00 Hz Yes Maxmum Current 10 11 Criteria for Analog Input Signal Loss Wire broken I None 0 1 0 None Yes half x1 1 below x1 2 0 12 Multi function Input Terminal P1 define P1 define D Spe
23. L__ solution Leader in Electrics amp Automation SCEO ISO9001 15014000 LG Variable Frequency Drive VFD Inverter Starvert iS3 0 75 75kW 1 100HP 3 phase 200 230Volts 380 460Volts LG Industrial Systems www lgis com ONAA LAA ATI AY oe 72 BEE VV A Jir Ey I Contents Overview 02 Features amp Selection Guide 04 Specifications amp Wiring 06 Terminal Configuration Keypad amp Parameter Navigation 08 Program Parameter Descriptions 10 Dimension 18 Options DB Resistor amp Peripheral Devices 20 RFI Filters 22 5 aa Au ees Bm I 2 TA my Sensorless sensored vector controlled iS5 keeps your application in more stable durable and precise condition Options Communications Board e RS 485 e DeviceNet e F Net e ModBus RTU e ProfiBus DP Extended I O Module Sub A Board 3 Multi Function Input 3 Multi Function Output Sub B Board Encoder Plus Input Encoder Plus Output Sub C Board 3 Multi Function Input 3 Multi Function Output Aux Analog Reference Frequency Isolated Cable for Remote Keypad Operations m Dynamic Braking Units for 11 75kW Inverters m Dynamic Braking Resistors Overview Standard features m kW Voltage Ratings e 0 75 55kW 200 230VAC 3 phase e 0 75 75kW 380 480VAC 3 phase m Enclosure IP00 IP20 m Inverter Type PWM with IGBT m Control Method Sensorless
24. OFF and the FX signal or the RX signal is ON the motor keeps running so be cautious RST Fault reset Used to release the protective status when the protective circuit is active Analog Digital CM Sequence common Used for the common terminal for contact input terminals NC Not used VR Frequency setting power 12V Used as power for the analog frequency setting Maximum output is 12V 100mA vi Frequency reference Voltage Used for frequency reference and uses 0 10V for input Input resistance is 20 RQ I Frequency reference Current Used for frequency reference and uses DC 4 20mA for input Input resistance is 250Q 5G Frequency setting common terminal Common terminal for the analog frequency reference signal and the FM for monitoring Pulse FM Analog digital output Outputs one of the followings output frequency output current output voltage DC link voltage 5 For external monitoring Factory default is set to output frequency Maximum output voltage and output current is 0 12V 1mA Output frequency is set to 500Hz 2 Contact 30A 30C 30B Fault contact output Activates when the protective function is operating AC250V 1A or less DC30V 1A or less o Fault 30A 30C short 30B 30C open Normal 30B 30C short 30A 30C open AXA AXC Multi function output Use after defining the multi function output terminal AC250V 1A or less DC30V 1A or less RS232 CN3 Communication port Use the keypad connector Use the keypad connector for RS232 communic
25. PP 25 Wakeup level Wakeup level 25 0 0 to 100 0 0 1 35 0 Yes APP 26 Auto change mode selection AutoCh_Mode 26 0102 1 1 Yes APP 27 Auto change time AutoCh_intv 27 00 00 to 99 00 00 01 72 00 Yes APP 28 Auto change level AutoCh_Mode level 28 0 0 to 100 0 0 1 20 0 Yes APP 29 Interlock selection Inter lock 29 None 0 1 0 None Yes Yes APP 30 Actual value display Actal Value 30 1 APP 31 Actual value percentage Actal Perc 31 None 0 5 z APP 32 Draw mode selection Draw Mod 32 Vi Draw 1 1 O None Yes I Draw 2 V2 Draw 3 APP 33 Draw percentage selection DrawPerc 22 0 0 to 150 0 0 1 00 0 Yes Note Sub Board Selection Guide according to its Function Code Function Description Keypad Display Sub Herd Type LCD 7 segment Sub A Board Sub A Board Sub C Board EXT 01 Sub board selection Sub B D it e e e EXT 02 Multi function Input Terminal P4 P4 define 2 e e EXT 03 Multi function Input Terminal P5 P5 define 3 e e EXT 04 Multi function Input Terminal P6 P6 define 4 e e EXT 05 V2 Mode selection V2 mode 5 e e EXT 06 Filtering Time Constant for V2 Input Signal V2 filter 6 e e EXT 07 V2 Input Minnmum Voltage v2 volt xl 7 e LJ EXT 08 Frequency corresponding to V2 v2 freg yl 8 e e input Minnmum Voltage EXT 09 V2 Input Maximum Voltage V2 volt x2 9 e e EXT 10 Frequency corresponding to V2 V2 freq y2 10 e LJ input Maximum Voltage EXT 14 Usage for Pulse Input Signal F mode 14 e EXT 15 Pulse Input Signal selection F pulse set 15 e EXT 16 E
26. Sensored Vector m 15kHz Carrier Frequency 1 8kHz over 30kW m 0 400Hz Output Frequency Removable Keypad Able to read amp write parameters m Intelligent Accel Decel for Trip Free Operation Auto Tuning m 8 Multi Function Inputs m 1 Multi Function Outputs Failure Relay Built in PID Control m Pre Set Speeds Wire Operation Multi step Programmable Run Patterns Auto Torque Boost DC Injection Braking Stall Prevention m Built In Braking Circuit for 0 75 gt 7 5kW units Application m Traverse Draw MMC Mult Motor Control Converting Material Handling Web Processing Fan Pump Controls Conveyors Industrial Washing machine etc Conformity to global standards m UL and cUL listed for North America CE marked for Europe m Quality process controlled by IS09001 15014000 CE UL ISO9001 15014000 02 Starvert iS5 Extended I O boards The iS5 has several additional I O boards that can be easily mounted into the connection terminal on control board Each I O board is standardized for a specific I O requirement The three main I O boards are Sub board A Sub board B and Sub board C This helps system engineer to design most adequate and cost effective system using the exactly necessary number of I Os and functions It is extendable and changeable in case of system upgrade or change The control parameters and detailed functions for these boards are not shown until any of them is
27. V220DBU 4 SV370DBU 4 SV550DBU 4 SV750DBU 4 Max DC Input Voltage DC400V DC400V DC400V DC400V DC800V DC800V DC800V DC800V DC800V Application Motor kW 15 20 25 30 30 37 45 55 15 20 25 30 30 37 45 55 75 DB Resistor Wattage kW 2 4 2 4 3 6 6 4 64 96 9 6 22 4 3 6 6 4 9 6 12 8 Resistor Value 0 15 10 5 42 28 4030 20 16 9 11 4 8 4 Average Braking Torque 150 150 100 100 150 150 150 100 100 Enable Duty ED 50 50 10 10 10 10 10 10 Output Signal Heat sink over heat signal output Protection Heat sink over heat output cut off Environment Ambient Temp 10 C 40 C Humidity Below 90 Relative Humidity Non Condesing Altitude Less than 3 300ft 1 000m without derating Cooling Method Self cooling Installation Avoid corrosive gas oil mist flammable gas and dust This resister wattage is based on 150 braking torque and 5 ED Double the wattage in case of using with 10 ED application 19 Options DB Resistor amp Peripheral Devices Dynamic braking DB unit 1 Internal built in resistors The DB resistors are built in for 0 75 gt 3 7kW models Model Name kw Internal DB Resistor ED Continuous Braking time SV008iS5 2 0 75 200 Q 100Watt 3 5seconds SV015i85 2 15 100 Q 100Watt 3 5seconds SVO22iS5 2 2 2 60 Q 100Watt 2 5seconds SV037iS5 2 3 7 40 Q 100Watt 2 5seconds SV008iS5 2 0 75 900 Q 100Watt 3 5seconds SV015i85 2 15 450 100Watt 3 5seconds V022iS5 2 2 2 300 100Watt 2 5seconds SV037
28. X 000A HEX Yes COM 38 Output 8 Output 1 38 0000 to 57FF HEX z 000A HEX Yes COM 40 Number of input Input Num 40 0to8 1 2 Yes COM 41 Input 1 Input 1 41 0000 to 57FF HEX 000A HEX Yes COM 42 Input 2 Input 2 42 0000 to 57FF HEX 000A HEX Yes COM 43 Input 3 Input 3 43 0000 to 57FF HEX 000A HEX Yes COM 44 Input 4 Input 4 44 0000 to 57FF HEX 000A HEX Yes COM 45 Input 5 Input 5 45 0000 to 57FF HEX 000A HEX Yes COM 46 Input 6 Input 6 46 0000 to 57FF HEX K 000A HEX Yes COM 47 Input 7 Input 7 47 0000 to 57FF HEX 000A HEX Yes COM 48 Input 8 Input 8 48 0000 to 57FF HEX 000A HEX Yes COM 52 Modbus RTU mode ModBus Mode 52 Mofbus RTU ModBus RTU Yes COM 99 Return Code not displayed 99 Not available PROG ENT 1 Yes or SHIFT ESC 7 Application Group APP ae Keypad Display Setting Range F Factory Adjustable Code Description LCD 7 segment LCD 7 segment Units Default during run APP 00 Jump to desired code Jump code Not Displayed 0 to 99 Not available 1 1 Yes APP 01 Application mode App Mode I None 0 1 0 None No Traverse 1 MMC 2 DRAW 3 APP 02 Traverse operation band Trv Amp 2 0 0 to 20 0 0 1 0 0 Yes APP 03 Traverse scramble band Trv Scr 3 0 0 to 50 0 0 1 0 0 Yes APP 04 Traverse acceleration time Trv Acc Time 4 0 1 to 6000 sec 0 1 2 0 sec Yes APP 05 Traverse deceleration time Trv Dec 5 0 1 to 6000 sec 0 1 3 0 sec Yes APP 06 Traverse offset High Time 6 0 0 to 20 0 20 0 1 0 0 Yes APP 0
29. ated current for 0 5 sec characteristic is inversely proportional to time Torque boost Manual torque boost 0 15 Auto torque boost Operation method Key terminal communication operation Frequency setting Analog 0 gt 10V 4 gt 20 mA Additional port for Sub board 0 10V Start signal forward reverse gt Multi step Up to 8 speeds can be set use multi function terminal BA 4 0 6 000 sec up to 8 types can be set and selected for each setting use the multi function terminal Milti step accel decel time Accel Decel pattern linear pattern U pattern S pattern Emergency stop Interrupts the output of the inverter Jog Jog operation Opreati n Auto operation Operates from internal sequence by setting the multi function terminal 5way x 8step Trip status is removed when protective function is 7 Fault reset active 5 Operation status Frequency level detection Overload alarm stalling overvoltage undervoltage inverter overheating running stop 3 constant speed exchange inverter to commercial line speed searching auto operation step auto operation sequence El Fault output Contact output 30A 30C 30B AC250V 1A DC30V 1A Indicator Choose 1 from Output frequency output current output voltage DC voltage Output voltage 0 10V I DC braking frequency limit frequency jump second function slip compensation reverse rotation prevention auto restart Operation function er i exchange inverter to commercial line auto tu
30. ation Disconnect the keypad 8 and connect the RS232 RS485 converter for RS485 communication VLLLLLLLLLLL LLL I 4 OA LC 200 07 1 LCD Keypad Key LED Name Description MODE Mode key The mode button moves you through the seven program groups DRV FUN1 FUN2 I O EXT COM and APP PROG Program key The program button is used to go into programming mode to change data ENT Enter key The enter button is used to enter changed parameters oan sar The up and down arroes are used to move through and change data SHIFT ESC Shift key The button is used to move cursor across the display in a programming mode Escape key This button is used to move the program code to DRV00 from any program code REW Reverse key The reverse run button is used to run the motor in reverse direction STOP RESET Stop key The stop button is used to the drive from running Reset key The reset button is used to reset faults FWD Forward key The forward run button is used to run the motor in forward direction REV Reverse run The LED blinks when th inverter accels or decels STOP RESET Stop reset The LED blinks when there is a fault FWD Forward run The LED blinks when the inverter accels or decels 2 LED Keypad 7 segment Encoder knob Encoder Knob SET Set key SHIFT ESC Shift key Escape key STOP RESET Stop key Reset key RUN Run key SET Setting status STOP RESET
31. e output FBA FBB Sub C Board Extended I O Extended I O module 3 multi function inputs P4 P5 P6 1 multi function outputs Q1 solated auxiliary analog frequency reference V2 2 Isolated analog meter output AM1 AM2 Option Board Device Net Embedded DeviceNet protrol Can Control erinverter Connection Max 64 input Voltage DC 11 25V Baud Rate 125 250 500k bps CSMA CD NBA method PLC Communication F Net Connection with Fnet communication module of GLOFA PLC inverter Connection Max 64 Baud Rate Max 1M bps Token method RS 485 RS 485 Communication Inverter Connection Max 32 Baud Rate Max 19200 bps Profi Bus Connection to ProfiBus network Device Type Profibus Dp Slave Inverter Connection Max 64 Baud Rate Max 12M bps ModBus RTU ModBus RTU Communication inverter Connection Max 32 Baud Rate Max 19200bps External Installation Keypad LCD 32 Character display Download and Upload from the keypad LED 7 segment 6 digit 7 segment display Remote Cable Remote Cable 2n 3m 5m long keypad cables for separate keypad instaiiation DB Resistor Enables inverter to decelerate rapidly Dynamic Braking DB Unit DB units are provided as an option for 15 75kW inverters Dynamic Braking Unit N 88 5 Dynamic braking DB unit Model Name SV150DBU 2 SV220DBU 2 SV370DBU 2 SV550DBU 4 SV150DBU 4 S
32. ed L 0 1 0 Speed L Yes Speed M il Speed H 2 XCEL L 3 XCEL M 4 XCEL H 5 De brake 6 2nd Func TL Exchange 8 Reverse 9 Up 10 Down 11 3 Wire 12 Ext Trip A 13 Ext Trip B 14 Reverse 15 Open loop 16 Main Drive 17 Analog hold 18 XCEL stop 19 Reverse 20 SEQ L 21 SEQ M 22 SEQ H 23 Manual 24 Go step 25 Hold stepTrv 26 Off Lo 27 Trv Off Hi 28 Interlock1 29 Interlock2 30 Interlock3 31 Interlock4 32 10 13 Multi function Input Terminal P2 define P2 define B Same as above 1 1 Speed M Yes 0 14 Multi function Input Terminal P3 define P3 define 14 Same as above 1 2 Speed H Yes VO 15 Terminal Input Status In ststus 5 000000000 to 11111111 000000000 10 16 Terminal Output Status Out status 16 0000 to 1111 0000 10 17 Filtering Time Constant for Multi function Ti Fit Num 7 21050 1 15 Yes Input Terminal 1 0 20 Jog Frequency setting Jog freq 20 FU1 22 to FU1 20 Starting freqto 0 01 10 00 Hz Yes 0 21 Step Frequency 4 Step freg 4 2 Max freq 40 00 Hz Yes 10 22 Step Frequency 5 Step freq 5 22 50 00 Hz Yes 10 23 Step Frequency 6 Step freg 6 23 40 00 Hz Yes 10 24 Step Frequency 7 Step freg 7 24 30 00 Hz Yes VO 25 Acceleration Time 1 for Step Frequency Acc time 1 25 0 to 6000 sec 0 1 20 0 sec Yes 0 26 Deceleration Time 1 for Step Frequency Dec time 1 26 0 to 6000 sec 0 1 20 0 sec Yes VO 27 Acceleration Time 2 Acc time 2 27 0 to 6000 sec 0 1 30 0 sec Yes VO 28 Deceleration Time 2 Dec time 2 28 0 to 6000 sec 0 1 30 0
33. er Models HP MCCB ELB Magnetic Contactor Ger ONW u d AC Input Fuse AC Reactor DC Reactor SV008iS5 2 1 ABS33a EBS33 SMC 10P 2 14 2 14 35 12 10A 2 13mH 5 7A 7 00mH 5 7A SV015iS5 2 2 ABS33a EBS33 SMC 10P 2 14 2 14 35 12 15A 1 20mH 10A 4 05mH 9 2A SVO22iS5 2 3 ABS33a EBS33 SMC 15P 2 14 2 14 35 12 25A 0 88mH 14A 2 92mH 13A SV037iS5 2 5 ABS33a EBS33 SMC 20P 35 12 3 5 12 35 12 40A 0 56mH 20A 1 98mH 19A SV055iS5 2 7 5 ABS53a EBS53 SMC 25P 5 5 10 55 10 55 0 40A 0 39mH 30A 1 37mH 29A SV075iS5 2 10 ABS63a EBS63 SMC 35P 8 8 8 8 55 10 50A 0 28mH 40A 1 05mH 38A SV110iS5 2 15 ABS103a EBS103 SMC 50P 14 6 146 14 6 70A 0 20mH 59A 0 74mH 56A SV150iS5 2 20 ABS103a EBS103 SMC 65P 22 4 22 4 14 6 100A 0 15mH 75A 0 57mH 71A SV185iS5 2 25 ABS203a EBS203 SMC 80P 30 3 30 3 22 4 100A 0 12mH 96A 0 49mH 91A SV220iS5 2 30 ABS203a EBS203 SMC 100P 38 2 30 3 22 4 125A 0 10mH 112A 0 42mH 107A SV300iS5 2 40 ABS203a EBS225 GMC 150 60 60 22 150A 0 08mH 134 2A 0 35mH 152 0A SV370iS5 2 50 ABS203a EBS225 GMC 180 60 60 22 200A 0 07mH 160 6A 0 3mH 180 0 SV450iS5 2 60 ABS403a EBS300 GMC 220 100 100 38 250A 0 06mH 198 0A 0 28mH 221 0A SV550iS5 2 75 ABS403a EBS350 GMC 300 100 100 38 300A 0 05mH 242 0A 0 25mH 270 0A SV008iS5 4 1 ABS33a EBS33 SMC 10P 2 14 2 14 2 14 6A 8 63mH 2 8A 28 62mH 2 7A SV015iS5 4 2 ABS33a EBS33 SMC 10P 2 14 2 14 2014 10A 4 81mH 4 8A 16 14mH 4 6A SVO22iS5 4 3 ABS33a EBS33 SMC 20P 2 14 2 14 2014 10A
34. freq 24 0 to 20 1 100 Yes EXT 30 Multi function Output Terminal Q1 define Q1 define 30 FDT 1 0 0 FDT 1 Yes FDT 2 1 FDT 3 2 FDT 4 3 FDT 5 4 OL 5 IOL 6 Stall OV 8 LV 9 OH 10 Lost Command 11 Run 12 Stop 19 Steady 14 INV line 15 COMM line 16 Ssearch 17 Step pulse 18 Seq pulse 19 Ready 20 Trv ACC 21 Trv DEC 22 MMC 23 EXT 31 Multi function Output Terminal Q2 define Q2 define 31 Same as above 1 FDT 2 Yes EXT 32 Multi function Output Terminal Q3 define 03 define 32 Same as above 2 FDT 3 Yes EXT 34 LM Load Meter Output selection LM mode 34 Frequency 0 1 Current Yes Current 1 Voltage 2 DC link Vig 3 EXT 35 LM Load Meter Adjustment IM adjust 35 100 to 200 100 Yes EXT 40 AM1 Analog Meter1 Output selection AM1 mode 40 Frequency 0 0 Frequency Yes Current 1 Voltage 2 DC link Vig 3 EXT 41 AM1 Analog Meter1 Output Adjustment AM1 adjust 41 100 to 200 100 Yes EXT 42 AM2 Analog Meter2 Output selection AM2 mode 42 Frequency 0 3 DC link Vtg Yes Current 1 Voltage 2 DC link Vig 3 EXT 43 AM2 Analog Meter2 Output Adjustment AM2 adjust 43 100 to 200 100 Yes EXT 99 Return Code Not 99 Not available PROG ENT 1 Yes displayed or SHIFT ESC 15 6 Communication Group COM Program Parameter Descriptions AR Keypad Display Setting Range i Factory Adjustable Gode Description LCD 7 segment LCD 7 segment unite Default during run COM 00 Jump to desired code Jump
35. iS5 2 3 7 200 Q 100Watt 2 5seconds Above table is based on 100 braking torque 2 External optional resistors Model Name kw DB Resistor 100 Braking Torque DB Resistor 150 Braking Torque SV008iS5 2 0 75 200 Q 100Watt 150 Q 150Watt SV015iS5 2 1 5 100 Q 200Watt 60 Q 300Watt SVO22iS5 2 2 2 60 Q 300Watt 50 Q 400Watt SV037iS5 2 3 7 40 Q 500Watt 33 Q 600Watt SV055iS5 2 55 3 Q 700Watt 20 Q 800Watt SV075iS5 2 75 20 Q 1000Watt 15 Q 1200Watt SV110iS5 2 11 15 Q 1400Watt 10 Q 2400Watt SV150iS5 2 15 11 Q 2000Watt 8 Q 2400Watt SV185iS5 2 18 5 9 Q 2400Watt 5Q 3600Watt SV220iS5 2 22 8 Q 2800Watt 5Q 3600Watt SV300iS5 2 30 4 2 0 6400Watt SV370iS5 2 37 4 2 Q 6400Watt SV450iS5 2 45 2 8 Q 9600Watt 5 SV550iS5 2 55 2 8 Q 9600Watt SV008iS5 4 0 75 900 100Watt 600 Q 150Watt SV015iS5 4 1 5 450 Q 200Watt 300 Q 300Wat SVO22iS5 4 2 2 300 Q 300Watt 200 Q 400Watt SV037iS5 4 3 7 200 2 500Watt 130 Q 600Wai SV055iS5 4 BE 120 Q 700Watt 85 Q 1000Watt SV075iS5 4 75 90 Q 1000Watt 60 Q 1200Wat SV110iS5 4 11 60 Q 1400Watt 40 Q 2000Watt SV150iS5 4 15 45 Q 2000Watt 30 Q 2400Wat SV185iS5 4 18 5 35 Q 2400Watt 20 Q 3600Watt SV220iS5 4 22 30 Q 2800Watt 20 Q 3600Wat SV300iS5 4 30 16 9 Q 6400Watt z SV370iS5 4 37 16 9 Q 6400Watt SV450iS5 4 45 11 4 Q 9600Watt SV550iS5 4 55 11 4 Q 9600Watt s SV750iS5 4 DE 8 4 0 12800Watt z Above table is based on 100 braking torque Peripheral Devices Invert
36. ime 02 0 to 6000 0 1 20 0 sec Yes DRV 03 Drive Mode Run Stop method Drive mode 03 Keypad 0 1 1 Fx Rx 1 No Fx Rx 1 1 Fx Rx 2 2 DRV 04 Frequency Mode Freq setting method Freq mode 04 Keypad 1 0 1 0 keypad 1 No Keypad 2 1 VI 2 I 3 Vi l 4 DRV 05 Step Frequency 1 Step freg 1 05 FU1 22 to Fu1 20 0 01 10 00 Hz Yes DRV 06 Step Frequency 2 Step freq 2 06 Starting freq to Max freq 20 00 Hz DRV 07 Step Frequency 3 Step freg 3 07 The load current in RMS 30 00 Hz DRV 08 Output Current Current 08 The motor speed in rpm A gt DRV 09 Motor Speed Speed 09 The DC link voltage inside inverter rom DRV 10 DC link Voltage DC link Vtg 10 Selected in FU 73 User disp HIV 2 DRV 11 User Display selection User disp II s Yes DRV 12 Fault Display Fault 12 Not available 0 Forward None nOn DRV 13 Motor Direction set Not displayed 13 1 reverse 0 DRV 14 Command output freqency Tar Out Freq 14 Command output frequency Hz Yes DRV 15 Command feedback fregency Ref Fdb Freq 15 Command feedback frequency Hz Yes DRV 20 FU1 Group selection Not displayed 20 Not available Press 1 Yes DRV 21 FU2 Group selection 21 Prog ENT key 1 Yes DRV 22 I O Group selection 22 1 Yes DRV 23 EXT Group selection 23 1 Yes DRV 24 COM Group selection 24 1 Yes DRV 25 APP Group selection 25 1 Yes 2 Function 1 Group FU1 FU1 00 aJump to desired code Jump code Not displayed 11099 Not available 1 1 Yes FU1 03 Run Preventio
37. n Run Prev 3 None 0 1 0 None No Forward Prve 1 Reverse Prve 2 FU1 05 Acceleration Pattern Acc pattern 5 Liner 0 1 0 Linear No S curve 1 U curve 2 Minimum 3 Optimum 4 FU1 06 Deceleration Pattern Dec pattern 6 Liner 0 1 0 Linear No S curve 1 U curve 2 Minimum 3 Optimum 4 FU1 07 1 Stop Mode Stop mode 7 Decel 0 1 0 Decel No DC brake 1 Free run 2 FU1 08 DC Injection Braking Frequency DCBr freq 8 FU1 22 to 60 Hz 0 01 5 00 Hz No FU1 09 DC Injection Braking On delay DCB1k time 9 0 to 60 sec 0 01 0 1 sec No FU1 10 DC Injection Braking Voltage Debr value I0 0 to 200 sec 1 50 No FU1 11 DC Injection Braking Time DcBr time ia 0 to 60 sec 0 1 1 0 sec No FU1 12 StartingDC Injection Braking Voltage DeSt value 12 0 to 200 sec 1 50 No FU1 13 StartingDC Injection Braking Time DeSt time 13 0 to 60 sec 0 1 0 0 sec No FU1 20 Maximum Frequency Max freq 20 40 to 400 Hz 0 01 60 00 Hz No FU1 21 Base Frequency Base freq 21 30 to FU1 20 0 01 60 00 Hz No FU1 22 Starting Frequency Start freq 22 0 01 to 10 Hz 0 01 0 50 Hz No FU123 2 Frequency Limit selection Freq limit 23 No 0 1 0 No No Yes FU1 24 Low Limit Frequency F limit Lo 24 FU1 22 to Fu1 25 0 01 0 50 Hz No FU1 25 High Limit Frequency F limit Hi 25 FU1 22 to Fu1 25 0 01 60 00 Hz No FU1 26 Manual Auto Torque Boost selection Torque booth 26 Manual 0 1 0 Manual No Auto 1 FU1 27 Torque Boost in Forward Direction Fwd booth 27 0 to 15 Pel 0 01 2 0 20 No FU1 28 Torque Boos
38. ncoder Pulse selection F pulse num 16 e EXT 17 Filtering Time Constant for pulse Input Signal F filter 17 e EXT 18 Pulse Input Minimum Frequency F pulse xl 18 e EXT 19 Frequency Output corresponding to Pulse f freq yl 19 e input Minimum Frequency EXT 20 Pulse Input Maximum Frequency F pulse x2 20 e EXT 21 Frequency Output corresponding to Pulse freq y2 21 e input Minimum Frequency EXT 22 P Gain for PG Option PG P gain 22 e EXT 23 Gain for PG Option PG I gain 23 e EXT 24 Slip Fequency for PG Option PG Slip freq 24 e EXT 30 Multi function Output Terminal Q1 ql define 30 e e EXT 31 Multi function Output Terminal Q2 q2 define 31 e EXT 32 Multi function Output Terminal Q3 q3 define 32 e EXT 34 LM Load Meter Output selection LM mode 34 e EXT 35 LM Load Meter Output Adjustment IM adjust 35 e EXT 40 AM1 Analog Meter1 Output selection AM1 mode 40 e EXT 41 AM1 Analog Meter1 Output Adjustment AM1 adjust 41 e EXT 42 AM2 Analog Meter2 Output selection Am2 mode 42 e EXT 43 AM2Analog Meter2 Output Adjustment AM2 adjust 43 e 17 Code FU1 08 through FU1 11 appears only when FU1 07 is set at DC brake Code FU1 24 through FU1 25 appears only when FU1 23 is set at Yes Code FU1 30 through FU1 37 appears only when FU1 29 is set at User V F Code FU1 51 through FU1 53 appears only when FU1 50 is set at Yes Code FU2 11 through FU2 16 appears only when FU2 10is set at Yes The rated motor is automatically set acco
39. ng Resistor Mode selection DB mode 75 None 0 1 1 Int DB R Yes Int DB R 1 Ext DB R 2 FU2 76 11 Duty of Dynamic Braking Resistor DB ED 76 0 to 30 10 FU2 79 Software Version S W version 79 ver 1 05 0 1 Ver 1 05 Yes FU2 81 12 27d Acceleration Time 2nd Acc time 8I 0 to 6000 sec 0 1 5 0 sec Yes FU2 82 2nd Deceleration Time 2nd Dec time 82 0 to 6000 sec 0 01 10 0 sec No FU2 83 2nd Base Frquency 2nd Basefreq 83 30 to FU1 20 1 60 0 Hz No FU2 84 2nd Pattern 2nd V E 84 Liner 0 0 1 0 Liner No Square 1 User V F 2 FU2 85 2nd Forward Torque Boost 2nd F boost 85 0 to 15 0 1 2 0 No FU2 86 2nd Reverse Torque Boost 2nd R boost 86 Oto 15 1 2 0 No FU2 87 2nd Stall Prevention Level 2nd Stall 87 30 to 150 1 150 Yes FU2 88 2nd Electronic Thermal Level for 1 minute 2nd ETH 88 FU2 89 to 200 1 150 Yes FU2 89 2nd Electronic Thermal Level for continuous lmin 89 50 to FU2 88 maximum150 0 1 100 No FU2 90 2nd Rated Motor Current 2ndETH cont 90 1 to 200 A 1 3 6 A No FU2 91 Read Parameters into Keypad from inverter 2nd R Curr 91 No 0 1 0 No No Para Read Yes 1 FU2 92 Write Parameter to inverter from Keypad 92 No 0 1 0 No No Para Write Yes 1 FU2 93 Intialize Parameter 93 No 0 1 0 No Yes Para Init All group 1 DRV 2 FU1 3 FU2 4 VO 5 EXT 6 FU2 94 Parameter Write Protection 94 0 to 255 1 0 Yes FU2 99 Return Code Para Lock 99 Not available PROG ENT 1 Yes or SHIFT ESC 4 Input Output I O en
40. ning PID control Inverter trip Overvoltage undervoltage overcurrent fuse open ground fault inverter overheating motor overheating output phase loss Protective MC fail over 30kW only overload protection external fault 1 2 communication error loss of speed command hardware fault option fault etc function Inverter alarm Stall prevention overload alarm Momentary power loss Less than 15 msec continuous operation over 30kW drives excluded more than 15 msec auto restart possible Display Operation information Output frequency output current output voltage frequency value setting operating speed DC voltage Keypad Trip information Indicates the fault when the protection function activates memorizes up to 5 faults Ambient temperature 10 C 40 Storage temperature 20 65 Environment Ambient humidity 90 RH max Non condensing Altitude Vibration Application side Below 1 000 m below 5 9m sec 0 69 No corrosive gas combustible gas oil mist or dust 05 Wiring DC BUS CHOKE OPTION DC Bus Choke a Specifications amp Wiring Dynamic Braking Unit DB UNIT OPTION DB Resistor 2 N Pi P Output Frequency Meter 0 10V pulse output MCCB OPTION 34 O_O 230 460V O_O 50 60Hz O Forward Run Stop 3 C FX merene Run Stop 5 C RX Invert Disable 5 BX Fault Reset 5 C RST Jog 5 C JOG Multi function Input 1 Multi function Input 2
41. nnnn p I J DRV FUL FU2 I O EXT DRV FUL FU2 1 0 EXT DRV FUL FU2 1 0 e O 0 Q Oo Oo o LJ o oO O O LJ vo II I 1 I 17 oc oo U I I JE uses gt gt Operation method Function Function setting Keypad Run Stop command and frequency are set only through the keypad DRV 03 Keypad Closing FX or RX terminal performs Run Stop Frequency reference is DRV 04 Keypad set through keypad Terminal Run Stop command and frequency are set only through the terminal DRV 03 Fx Rx 1 or 2 Closing FX or RX terminal performs Run Stop Frequency reference is DRV 04 Vi or I or Vi set through V1 or I or V1 l terminal DRV 03 Keypad 1 or 2 DRV 04 Vi or I or Vi Keypad and Terminal Closing Fx or RX terminal performs Run Stop DRV 03 Fx Rx 1 or 2 Frequency reference is set through keypad DRV 04 Keypad 1 or 2 Option board Operation using additional sub or option board Sub board SUB A SUB B SUB H Option board Device Net Synchro Profibus DP Digital in RS485 Modbus RTU Program Parameter Descriptions Program parameter descriptions 1 Drive Group DRV we Keypad Display Setting Range i Factory Adjustable Code Description LCD 7 segment LCD 7 segment Unite Default during run DRV 00 Output Frequency or Reference Frequency Cmd freq F or r DRV 13 Oto FU1 20 Max freq 0 01 0 00 Hz Yes Output Current LCD DRV 01 Acceleration Time Acc time OI 0 to 6000 0 1 10 0 sec Yes DRV 02 Deceleration Time Dec t
42. ons FF Series Footprint FE Series Standard IE i i Fog gt F VV 3 al pelea J FS Series output chokes Type D W H X O FS 1 21 85 46 70 5 fo H FS 2 285 105 62 90 5 FS 3 48 150 110 125x30 5 5 FS 4 58 200 170 180 x 45 SL FP l W RFI Filter FF Series Footprint INVERTER SHIELDED CABLE MOTOR FILTER FE Series Standard INVERTER SHIELDED CABLE MOTOR 22 LG Industrial Systems M HEAD OFFICE LG TWIN TOWERS 20 Yoido dong Youngdungpo gu Seoul 150 721 Korea Tel 82 2 3777 4640 4649 Fax 82 2 3777 4648 http Awww igis com NG A Specifications in this catalog are subject to change without notice due to continuous product development and improvement A Safety Instructions For your safety please read user s manual thoroughly before operating e Contact the nearest authorized service facility for examination repair or adjustment e Please contact qualified service technician when you need maintenance Do not disassemble or repair by yourself e Any maintenance and inspection shall be performed by the personnel having expertise concerned Global network H Dalian LG Industrial Systems Co Ltd China e Address No 15 Liaohexi 3 Road economic and technical development zone Dalian China o Tel 86 411 731 8210 e Fax 86 411 730 7560 e e mail youngeel am
43. p gis com El LG VINA Industrial Systems Co Ltd Vietnam e Address LGIS VINA Congty che tao may dien Viet Hung Dong Anh Hanoi Vietnam o Tel 84 4 882 0222 e Fax 84 4 882 0220 e e mail srjo hn vnn vn El LG Industrial Trading Shanghai Co Ltd China e Address Room1705 1707 17th Floor Xinda Commerical Building No 318 Xian Xia Road Shanahai o Tel 86 21 6252 4291 e Fax 86 21 6278 4372 e e mail hgseo lgis com El LG Industrial Systems Beijing Office China e Address Room 303 3F North B D EAS 21 XIAO YUN ROAD Dong San Huan Bei Road Chao Yang District Beijing China Tel 86 10 6462 3259 4 e Fax 86 10 6462 3236 e mail sclim mx cei gov cn El LG Industrial Systems Shanghai Office China e Address Room1705 1707 17th Floor Xinda Commerical Building No 318 Xian Xia Road Shanahai China e Tel 86 21 6278 4370 e Fax 86 21 6278 4301 e e mail sdhwang lgis com El LG Industrial Systems Guangzhou Office China e Address Room 303 3F Zheng Sheng Building No 5 6 Tian He Bei Road Guangzhou China e Tel 86 20 8755 3410 e Fax 86 20 8755 3408 e mail Igisgz public1 guangzhou gd cn El LG Industrial Systems New Jersey Office USA e Address 1000 Sylvan Avenue Englewood Cliffs New Jersey 07632 USA e Tel 1 201 816 2985 e Fax 1 201 816 2343 e e mail younsupl lgisusa com E LG Industrial Systems Tokyo Office Japan e Address 16F Higashi Kan Akasaka Twin Towers 17 22 2 chome Akasaka Minato ku Tokyo 107 0052
44. rding to the inverter model name If different motor is used set the rated motor capacity connected This value is automatically entered according to the rated motor set in FU2 30 If different set the correct value as the motor The setting range of carrier frequency is decided depending on drives capacity over 30kW This value is automatically entered according to the rated motor set in FU2 30 If different set the correct value as the motor 10 Code FU2 47 through FU2 60 appears only when FU2 39 is set at PID 11 Code FU2 76 appears only when FU2 75 is set at Ext DB R 12 Code FU2 81 through FU2 90 appears only when one of 1 0 12 1 0 14 is set at 2nd function 13 Codel O 46 through I O 49are used in Option Board like RS485 Device Net and F net etc 14 The Seqi of code 1 0 53 through I O 60 varies according to the sequence number selected in 1 0 51 The paramenter code may be extented to I O 84 dependon the number of steps set in I O 52 because the steps can be set up to 8 Dimension mm 1 SV008iS5 2 SV015iS5 2 SV022iS5 2 SV037iS5 2 SV055iS5 2 SV075iS5 2 SV008iS5 4 SV015iS5 4 SVO22iS5 4 SV037iS5 4 SV055iS5 4 SV075iS5 4 2 SV110iS5 2 SV150iS5 2 SV185iS5 2 SV220iS5 2 SV110iS5 4 SV150iS5 4 SV185iS5 4 SV220iS5 4 3 SV300iS5 2 SV370iS5 2 SV450iS5 2 SV550iS5 2 SV300iS5 4 SV370iS5 4 SV450iS5 4 SV550iS5 4 SV750iS5 4
45. rminals to motor VV P Positive DC Bus Terminals DC Bus Choke reactor connection terminals These terminals are available for 5 5 to 7 5kW inverter with optional DB unit when an application need braking torque over 30 ED P1 Positive DC Bus Terminals DC Bus Choke reactor connection terminals These terminals are available for 11 to 22KW inverter with optional DB unit P2 These terminal are shorted when DB unit is not applied B1 Dynamic braking resistor connection terminals These terminals are available for 0 75 to 3 7kW inverters in order to connect an external braking resistor B2 N Negative DC Bus terminal G Chassis ground The ground terminal G may be located on heat sink instead of terminal strip depend on the model type Control terminal configuration Type Symbol Name Descripton Starting Contact P1 P2 P3 Multi function input 1 2 3 Used for multi function input Factory default is set to step frequency 1 2 3 2 Function FX Forward run command Forward run when closed and stop when open Slection RX Reverse run command Reverse run when closed and stop when open JOG Jog frequency reference Runs at jog frequency when the jog signal is ON The direction is set by the FX or BX signal BX Emergency stop When the BX signal is ON the output of the inverter is cut off When the motor uses an electrical brake to stop BX is used to cut off the output signal When the BX signal which does not cut off by latching is
46. sec Yes 1 0 29 Acceleration Time 3 Acc time 3 29 0 to 6000 sec 0 1 40 0 sec Yes 1 0 30 Deceleration Time 3 Dec time 3 30 0 to 6000 sec 0 1 40 0 sec Yes 10 31 Acceleration Time 4 Acc time 4 31 0 to 6000 sec 0 1 50 0 sec Yes VO 32 Deceleration Time 4 Dec time 4 32 0 to 6000 sec 0 1 50 0 sec Yes 1 0 33 Acceleration Time 5 Acc time 5 33 0 to 6000 sec 0 1 40 0 sec Yes 1 0 34 Deceleration Time 5 Dec time 5 34 0 to 6000 sec 0 1 40 0 sec Yes VO 35 Acceleration Time 6 Acc time 6 35 0 to 6000 sec 0 1 30 0 sec Yes VO 36 Deceleration Time 6 Dec time 6 36 0 to 6000 sec 0 1 30 0 sec Yes 1 0 37 Acceleration Time 7 Acc time 7 37 0 to 6000 sec 0 1 20 0 sec Yes 1 0 38 Deceleration Time 7 Dec time 7 38 0 to 6000 sec 0 1 20 0 sec Yes 1 0 40 FM Frequency Meter Output selection FM mode 40 Frequency 0 1 0 Frequency Yes Current 1 Voltage 2 DC link voltage 3 0 41 FM Output Adjusment FM adjust 41 10 to 200 1 100 Yes 1 0 42 Frequency Detection Level FDT freg 42 0 to FU1 20 0 01 30 00 Hz Yes 10 43 Frequency Detection Bandwidth FDT band 43 0 to FU1 20 0 01 10 00 Hz Yes 0 44 Multi function Auxiliary Aux mode 44 FDT 1 0 1 12 run Yes Contact Output define AXA AXC FDT 2 1 FDT 3 2 FDT 4 3 FDT 5 4 OL 5 IOL 6 Stall 7 OV 8 Program Parameter Descriptions 4 Input Output I O er Keypad Display Setting Range 3 Factory Adjustable Code Description LCD 7 segment LCD 7 segment Units Default during run LV 10
47. t in Reverse Direction Rev booth 28 Oto 15 1 2 0 No FU1 29 3 Volts Hz Pattern V F pattern 29 Linear 0 0 01 0 Linear No Square 1 1 User V F 2 FU1 30 User V F Frequency 1 User freq 1 30 0 to FU1 20 0 01 15 Hz No FU1 31 User V F Voltage 1 User volt 1 3I 0 to 100 1 25 No FU1 32 User V F Frequency 2 User freq 2 32 0 to FU1 20 0 01 30 00 Hz No FU1 33 User V F Voltage 2 User volt 2 33 0 to 100 1 50 No FU1 34 User V F Frequency 3 User freq 3 34 0 to FU1 20 45 Hz No FU1 35 User V F Voltage 3 User volt 3 35 0 to 100 75 No FU1 36 User V F Frequency 4 User freq 4 36 0 to FU1 20 60 00 Hz No FU1 37 User V F Voltage 4 User volt 4 37 0 to 100 100 No FU1 38 Output Voltage Adjustment Volt control 38 40 to 110 0 100 0 No FU1 39 Energy Save Level F39 Energy save 39 0 to 30 0 Pe Yes FU150 4 Electronic Thermal selection ETH select 50 No 0 0 No Yes Yes 1 10 Starvert iS5 2 Function 1 Group FU1 Keypad Display Setting Range g Factory Adjustable ode D seription LCD 7 segment LCD 7 segment Units Default during run FU1 51 Electronic Thermal Level for 1 minute ETH lmin ST FU1 52 to 200 1 150 Yes FU1 52 Electronic Thermal Level for continuous ETH cont 52 50 to FU1 51 1 100 Po Yes FU1 53 Electronic Thermal Characteristic selection Motor type 53 self cool 0 1 0 self cool Yes FU1 54 Motor type Forced coo 1 FU1 55 Overload Warning Level OL level 54 30 to 150 1
48. turn Code 99 Not available PROG ENT 1 1 Forward Yes Not Disp or 1 layed SHIFT ESC 5 External Group EXT EXT group appears only when the corresponding option boards are installed tone Keypad Display Setting Range 3 Factory Adjustable Code Deseription LCD 7 segment LCD 7 segment Units Default during run EXT 00 Jump to desired code Jump code Not displayed 0 to 99 Not available 1 1 Yes EXT 01 Sub board Type display I None 0 1 0 None Automatically SUB A 1 set SUB B 2 SUB C 3 SUB D 4 SUB E 5 EXT 02 Multi function Input Terminal P4 define Sub B C 2 SUB F 6 1 3 XCEL L Yes SUB G 7 SUB H 8 Speed L 0 Speed M 1 Speed H 2 XCEL L 3 XCEL M 4 XCEL H 5 Dc brake 6 2nd Func 7 Exchange 8 Reversed 9 Up 10 Down 11 3 Wire 12 Ext Trip A 13 Ext Trip B 14 Reversed 15 Open loop 16 Main Drive 17 Analog hold 18 XCEL stop 19 Reversed 20 SEQ L 21 SEQ M 22 SEQ H 23 Manual 24 Go step 25 Hold step 26 Trv Off Lo 27 Trv Off Hi 28 14 Starvert iS5 5 External Group EXT EXT group appears only when the corresponding option boards are installed i Keypad Display Setting Range Factory Adjustable Code Description LCD 7 segment LCD 7 segment Unite Default during run EXT 02 Interlock1 29 Interlock2 30 Interlock3 31 Interlock4 32 EXT 03 Multi function Input Terminal P5 define P5 define 3 Same as above 4 XCEL M Yes EXT 04 Multi function Input Terminal P6 define P6 define 4 Same as above 5 XCEL H Yes
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