LSIS_iG5_Leaflet.
Contents
1. 1 to 99 0 None Forward Prev Reverse Prev Linear 1 2 0 1 S 2 U 3 Minimum 4 Optimum 0 Linear 1 S curve 2 U curve 3 Minimum 4 Optimum 0 Decel 1 DC brake 2 Free run FU1 22 to 50 Hz 0 to 60 sec 0 to 200 96 0 to 60 sec 0 to 200 96 0 to 60 sec 40 to 400 Hz 30 to FU1 20 0 1 to 10 Hz 0 No 1 Yes FU1 22 to FU1 25 FU1 24 to FU1 20 0 Manual 1 Auto 0 to 15 96 0 to 15 96 0 Linear 1 Square 2 User V F 0 to FU1 32 0 to 100 96 FU1 30 to FU1 20 0 to 100 96 FU1 32 to FU1 20 O to 100 96 FU1 34 to FU1 20 0 to 100 96 40 to 110 96 0 to 30 96 0 No 1 Yes FU1 52 to 150 96 50 to FU1 51 0 Self cool 1 Forced cool Units 0 01 0 1 0 1 0 01 0 01 0 1 0 1 0 01 0 01 0 01 0 01 0 01 0 1 0 1 0 01 0 01 0 01 0 01 Factory Default 60 00 Hz 10 0 sec 10 0 sec 1 10 00 Hz 20 00 Hz 30 00 Hz A rpm V nOn F 5 00 Hz 0 5 sec 50 96 1 0 sec 50 96 0 0 sec 60 00 Hz 60 00 Hz 0 50 Hz 0 50 Hz 60 00 Hz 0 5 0 90 5 0 90 0 15 00 Hz 25 20 30 00 Hz 50 26 45 00 Hz 75 9 60 00 Hz 100 9 100 0 2 0 150 9 150 0 Adjustable during run Yes Yes Yes No No Yes Yes Yes No No No No No No No No No No No No No No No No No No No No No No No2. 17 iorwb RUN oi LOT OREV nuwoi LE gg jg O REV SET Oj ri aun Oid FUNC sroir Ai ano SET oi Al RUN o o IL FUNC seror PI RUN oi LM O FWD SET O 4 9 FWD O REV RUN of L1 M O REV FUNC O FWD SET ol 1 O FWD O REV RUN oil PENES E O REV O FWD BETON o FWD O REV RUN o A IL O REV FUNC O FWD STO iO FWD O REV RUN Ot n O REV 08 09 Program parameter descriptions 1 Drive Group DRV Code Description DRV 00 Output Frequency during running Reference Frequency during stop DRV 01 Acceleration Time DRV 02 Deceleration Time DRV 03 Drive Mode Run Stop method DRV 04 Frequency Mode Freq setting method DRV 05 Step Frequency 1 DRV 06 Step Frequency 2 DRV 07 Step Frequency 3 DRV 08 Output Current DRV 09 Motor Speed DRV 10 DC link Voltage DRV 11 User Display selection DRV 12 Fault Display DRV 13 Motor Direction set DRV 20 FU1 Group selection DRV 21 FU2 Group selection DRV 22 I O Group selection 2 Function Group1 FU 1 FU1 00 FU1 03 FU1 05 FU1 06 FU1 07 FU1 08 FU1 09 FU1 10 FU1 11 FU1 12 FU1 13 FU1 20 FU1 21 FU1 22 FU1 23 FU1 24 FU1 25 FU1 26 FU1 27 FU1 28 FU1 29 FU1 30 FU1 31 FU1 32 FU1 33 FU1 34 FU1 35 FU1 36 FU1 37 FU1 38 FU1 39 FU1 50 FU1 51 FU1 52 FU1 53 Jump to desired code Run Prevention Acceleration Pattern Deceleration Pattern Stop Mode DC Injection Braking Frequency DC Injection Braking On delay Time
3. Dalian LG Industrial Systems Co Ltd China Address No 15 Liaohexi 3 Road economic and technical fF development zone Dalian China Tel 86 411 731 8210 Fax 86 411 730 7560 e mail youngeel lgis com LG Industrial Trading Shanghai Co Ltd China Address Room 1705 1707 17th Floor Xinda Commercial Building No 318 Xian Xia Road Shanahai China Tel 86 21 6252 4291 Fax 86 21 6278 4372 e mail hgseo lgis com LG Industrial Systems Beijing Office China 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 Fax 86 10 6462 3236 e mail sclim mx cei gov cn LG Industrial Systems Shanghai Office China Address Room 1705 1707 17th Floor Xinda Commercial Building No 318 Xian Xia Road Shanahai China Tel 86 21 6278 4370 Fax 86 21 6278 4301 e mail sdhwang lgis com LG Industrial Systems Guangzhou Office China Address Room 303 3F Zheng Sheng Building No 5 6 Tian He J Bei Road Guangzhou China Specifications in this catalog are subject to change without notice due to Tel E uaa Fax 86 20 8755 3408 continuous product development and improvement e mail Igisgz Wpublic1 guangzhou gd cn http www fasolution com 2004 11 Starvert iG5 2003 7 02 2004 11 Printed in Korea STAFF
4. 015 4 022 4 037 4 040 4 o HP 0 5 1 2 3 5 5 4 Motor Rating kW 0 37 0 75 15 22 37 4 Capacity kVA 1 1 1 9 3 4 5 6 1 6 5 FLA A 1 1 2 5 4 6 8 9 Output ratings Frequency 0 400 Hz Voltage 380 460V Voltage 3 phase 380 460 V 10 Input ratings Frequency 50 60 Hz 596 Weight kg Weight kg 1 7 1 7 1 8 2 1 2 2 2 2 Braking circuit On board Brakina t Average braking torque 20 with optional external braking resistor 100 150 de bi hs Max continuous braking time 15 seconds Max duty 0 30 ED Cooling method Forced air cooling Enclosure IPOO 1 Indicates the maximum applicable capacity when using 4 pole LG standard motor 2 Rated capacity Y 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 Control method V F control Control Operation Operation function Protective function Display Keypad Environment Frequency setting resolution Frequency accuracy VIF ratio Overload capacity Torque boost Operation method Frequency setting Start signal Multi step Multi step accel decel time Input signal Emergency stop Jog Fault reset Operation status Fault output Indicator Output signal Drive trip Inverter alarm Momentary power loss Operation information Trip information Ambient temperature Storage temperature Ambient humidity Altitude Vibrat
5. 250VA 0 3A 18A 173 5 X 153 5 X 40 159 5 X 130 SV040iG5 2 4 0kW SV004iG5 4 0 4kW SV008iG5 4 0 8kW FFG5 T006 1 6A 380VAC 0 5A 27A 173 5 X 133 5 X 40 159 5 X 110 M4 FS 1 SV015iG5 4 1 5kW SV022iG5 4 2 2kW SV037iG5 4 3 7kW FFG5 T011 1 11A 380VAC 0 5A 27A 173 5 X 183 5 X 40 159 5 X 130 M4 FS 2 SV040iG5 4 4 0kW IG5 Series Standard Filter Tension Leakage Dimensions Mounting Output Drive Models Power Code Current Voltage Current LWH YX Weight Mount Chokes SINGLE PHASE max SV004iG5 1 O4KW FEG5 T010 X 10A 250VA 3 5A 150 5 X 55 X 45 140 X 45 FS 1 SV0081G5 1 0 8kW SV015iG5 1 15kW FEG5 TO15 X 15A 250VA 3 5A 150 5 X 55 X 45 140 X 45 FS 2 THREE PHASE max SV004iG5 2 0 4KW FEG5 T006 X 6A 250VA 0 3A 18A 250 X 110 X 60 238 X 76 FS 2 SVO008iG5 2 0 8kW SV015iG5 2 15kW FEG5 TO12 X 12A 250VA 0 3A 18A 250 X 110 X 60 238 X 76 FS 2 SV022iG5 2 2 2kW SV037iG5 2 3 7kW FEG5 T020 X 20A 250VA 0 3A 18A 270 X 140 X 60 258 X 106 FS 2 SV040iG5 2 4 0kW SV004iG5 4 0 4kW SV008iG5 4 0 8kW FEG5 T006 X 6A 380VAC 0 5A 27A 250 X 110 X 60 238 X 76 FS 2 SV015iG5 4 1 5kW SV022iG5 4 2 2kW SV037iG5 4 37kW X FEG5 TO12 X 12A 380VAC 0 5A 27A 250 X 110 X 60 238 X 76 FS 2 SV040iG5 4 4 0kW X 1 Industrial environment EN 50081 1 A class 2 Domestic and industrial environment EN 50081 1 B class FF Series Footprint FE Series Standard FS Series output chokes ERTITTETETITITTETITTETITIT f Orn Y 1 L LET i We UE Type D W H X O FS 1 21 85
6. 4 63 117 5 4 63 117 5 4 63 Adjustable during run Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes D1 130 9 5 15 130 9 5 15 150 9 5 94 130 9 5 15 155 6 10 150 9 5 94 155 6 10 155 6 10 155 6 10 150 9 5 94 150 9 5 94 150 9 5 94 155 6 10 155 6 10 155 6 10 12 Starvert G5 Dynamic Braking DB Resistors 1 Standard application Resistor capacity Average braking A Continuous Drive W Resistor value Q torquel Enable duty braking time sec SV004iG5 1 100 400 100 5 5 SV008iG5 1 100 200 100 5 5 SV015iG5 1 100 100 100 3 5 SV004iG5 2 100 400 100 D 5 SV008iG5 2 100 200 100 5 5 SV015iG5 2 100 100 100 3 5 SV022iG5 2 100 60 100 2 5 SV037iG5 2 100 40 100 2 5 SV040iG5 2 100 40 100 2 5 SV004iG5 4 100 1800 100 D 5 SVO0O8iG5 4 100 900 100 5 5 SV015iG5 4 100 450 100 3 5 SV022iG5 4 100 300 100 2 5 SV037iG5 4 100 200 100 2 5 SV040iG5 4 100 200 100 2 5 2 When the braking magnitude is high Resistor capacity Average braking Continuous Drive W Resistor value Q torque c Enable duty braking time sec SV004iG5 1 100 400 100 5 5 SV008iG5 1 100 200 100 5 5 SV015iG5 1 200 100 100 5 5 SV004iG5 2 100 400 100 5 5 SV008iG5 2 100 200 100 5 5 SV015iG5 2 200 100 100 5 5 SV022iG5 2 300 60 100 5 5 SV037iG5 2 500 40 100 5 5 SV040iG5 2 500 40 100 5 5 SV004iG5 4 100 1800 100 5 5 SV008iG5 4 100 900 100 5 5 SV015iG5 4 200 450 100 5 5 SV022iG5 4
7. DC Injection Braking Voltage Starting DC Injection Braking Time Starting DC Injection Braking Voltage Starting DC Injection Braking Time Maximum Frequency Base Frequency Starting Frequency Frequency Limit selection Low Limit Frequency High Limit Frequency Manual Auto Torque Boost selection Torque Boost in Forward Direction Torque Boost in Reverse Direction Volts Hz Pattern User V F Frequency 1 User V F Voltage 1 User V F Frequency 2 User V F Voltage 2 User V F Frequency 3 User V F Voltage 3 User V F Frequency 4 User V F Voltage 4 Output Voltage Adjustment Energy Save Level F39 Electronic Thermal selection Electronic Thermal Level for 1 minute Electronic Thermal Level for continuous Electronic Thermal Characteristic selection Motor type Keypad Display F nnnm LI LII dEL dru Fr nu on ca uui wn CON o fee rr B rr Em Bm LL ma S nm Mio 23 CC ieee 3 ge ru ra 3 co m lit Ca Tn al LA m on iat Lea mis 1 gi v1 Lu rt ao m T1 ra n ni Co T1 nai n na Lo wm m na Fi mou a a 1 o mM ni n wo ca E r Setting Range 0 to Max Freq FU1 20 0 to 6000 sec 0 to 6000 sec 0 keypad 1 Keypad 2 2 Fx Rx 2 3 ModBus RTU 0 Keypad 1 1 Keypad 2 2 V1 3 l 4 V1 l 5 ModBus RTU Starting freq FU1 22 to Max freq FU1 20 A rpm IV Selected in FU2 73 User disp F Forward r Reverse
8. sec 20 0 sec 30 0 sec 30 0 sec 40 0 sec 40 0 sec Adjustable during run Yes Yes Yes Yes Yes Yes NO NO NO NO NO Yes Yes NO NO NO NO Yes Yes Adjustable during run Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes NO No No Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Code 1 0 31 1 0 32 1 0 33 1 0 34 1 0 35 1 0 36 1 0 37 1 0 38 1 0 40 1 0 41 1 0 42 1 0 43 1 0 44 1 0 45 1 0 46 1 0 47 1 0 48 1 0 49 1 0 50 1 0 99 Note Parameters that are set by bit are ON 1 when the upper LED is lit F59 H19 H22 115 116 145 are the parameters that are set by bit Description Acceleration Time 4 Deceleration Time 4 Acceleration Time 5 Deceleration Time 5 Acceleration Time 6 Deceleration Time 6 Acceleration Time 7 Deceleration Time 7 FM Frequency Meter Output selection FM Output Adjustment Frequency Detection Level Frquency Detection Bandwidth Multi function Output define MO 15 16 18 19 20 Reserved Fault Output Relay setting 30A 30B 30C Inverter Number Baud Rate 47 Operating selection at Loss of Freq Reference Waiting Time after Loss of Freq Reference Communication Protocol selection Return Code Keypad Display LL Lit A oo nma Lit LLLI 1 Chi BH xs LL Lu wi LU Uri Li do Er Mu az Em LU JE Cc En JL rt Note marked default value changes depend on the main f
9. solution Leader in Electrics amp Automation Variable Frequency Drive Inverter Starvert 5 0 37 4 0kW 0 5 5 4HP 1 and 3 phase 200 230Volts 3 phase 380 460 Volts Automation Equipment FAB g n C R EQUp pa LG Industrial Systems Www lgis com Contents j Overview 02 04 ae F IET E Specifications amp Wiring 06 d aypad amp Parameter Navigation j 08 y EH im X ogram Parameter Descriptions iF 108 E 3 ad Dimension NE E d 7 g stor Options amp Peripheral Devices j 14 Compact iG5 is the best for a small and cost effective configuration Overview Standard features E kW Voltage Ratings e 0 5 2HP 200 230VAC 1phase e 0 5 5HP 200 230VAC 3phase 0 5 5HP 380 460VAC 3phase E Enclosure IPOO IP20 E Inverter Type PWM with IGBT E Control Method Volts Hertz with Space Vector Technology E Built in RS 485 E Built in ModBus RTU E Built in PID control E Removable keypad Able to read amp write parameter B 150 torque at 0 5Hz B Trip free operation algorithm E 8 preset speeds E 3 jump skip frequencies E 3 Multifuctional inputs B 1 Multifuctional output E Analog output 0 12V E PNP and NPN dual directional signals E Speed search E 3 wire operation B 1 to 10 kHz carrier frequency E Built in Braking transistor E Manual Auto torque boost Options E Cable for Remote Keypad Operations 2 3 and 5 meters E DI
10. 300 300 100 5 5 SV037iG5 4 500 200 100 5 5 SV040iG5 4 500 200 100 5 5 Resistor capacity Average braking d Continuous Drive W Resistor value Q torque Enable duty braking time sec SV004iG5 1 150 300 150 5 5 SV008iG5 1 150 150 150 5 5 SV015iG5 1 300 60 150 5 5 SV004iG5 2 150 300 150 5 5 SV008iG5 2 150 150 150 5 5 SV015iG5 2 300 60 150 5 5 SV022iG5 2 400 50 150 5 5 SV037iG5 2 600 33 150 5 5 SV040iG5 2 600 33 150 5 5 SV004iG5 4 150 1200 150 5 5 SVO008iG5 4 150 600 150 5 5 SV015iG5 4 300 300 150 5 5 SV022iG5 4 400 200 150 5 5 SV037iG5 4 600 130 150 5 5 SV040iG5 4 600 130 150 5 5 Options Option Description DIN Rail base Din rail mounting plate Remote keypad mounting fixture and cable 2 meter 3 meter and 5 meter cable and mounting fixture Peripheral devices Wire mm2 AWG AC Drive Models kW MCCB ELB Magnetic Contactor RST UVW Ground input AC Reactor DC Reactor SV004iG5 1 0 37 ABS33a EBS33 SMC 10P 2 14 2 14 3 5 12 10A 2 13MH 5 7A 7 00mH 5 4A SV0081G5 1 0 75 ABS33a EBS33 SMC 10P 2 14 2 14 3 5 12 10A 2 13mH 5 7A 7 00mH 5 4A SV015iG5 1 ie ABS33a EBS33 SMC 10P 2 14 2 14 3 5 12 10A 2 13mH 5 7A 7 00mH 5 4A SV004iG5 2 0 37 ABS33a EBS33 SMC 10P 2 14 2 14 3 5 12 10A 2 13mH 5 7A 7 00mH 5 4A SV0081G5 2 0 75 ABS33a EBS33 SMC 10P 2 14 2 14 9 5 12 10A 2 13mH 5 7A 7 00mH 5 4A SV015iG5 2 15 ABS33a EBS33 SMC 10P 2 14 2 14 3 5 12 15A 1 20mH 10A 4 05mH 9 2A SV022iG5 2 22 ABS33a EBS33 SMC 15P 2 14 2 14 3 5 12 25
11. 46 70 5 FS 2 28 5 105 62 90 5 FS 3 48 150 110 125 x 30 5 FS 4 58 200 170 180 x 45 5 ns GGG SIL DR 1 l I I I I I I I I I I I a SHIELDED CABLE FF Series Footprint i MOTOR FILTER INVERTER SHIELDED CABLE MOTOR Leader in Electrics amp Automation For your safety please read user s manual thoroughly before operating Contact the nearest authorized service facility for examination repair or adjustment Please contact qualified service technician when you need maintenance Do not disassemble or repair by yourself Safety Instructions e Any maintenance and inspection shall be performed by the personnel having expertise concerned e LG Industrial Systems ll Global Network LG Industrial Systems Tokyo Office Japan M HEAD OFFICE LG TWIN TOWERS 20 Yoido dong Youngdungpo gu Address 16F Higashi Kan Akasaka Twin Towers 17 22 2 chome Akasaka Minato ku Tokyo 107 8470 Japan Seoul 150 721 Korea Tel 81 3 3582 9128 Fax 81 3 3582 0065 e mail dongjins lgis com E LG Industrial Systems Dubai office UAE Tel 82 2 3777 4643 4649 Address P O Box 114216 API World tower 303B Sheikh Zayed road Dubai UAE Fax 82 2 3777 4879 780 4885 Tel 971 4 3328289 Fax 971 4 3329444 e mail Igindust emirates net ae LG VINA Industrial Systems Co Ltd Vietnam http www lgis com Address LGIS VINA Congty che tao may dien Viet Hung Dong Anh Hanoi Vietnam Tel 84 4 882 0222 Fax 84 4 882 0220 e mail srjo hn vnn vn
12. A 0 88mH 14A 2 92mH 13A SV037iG5 2 94 ABS33a EBS33 SMC 20P 3 5 12 3 5 12 3 5 12 40A 0 56mH 20A 1 98mH 19A SV040iG5 2 4 ABS33a EBS33 SMC 20P 3 5 12 3 5 12 3 5 12 40A 0 56mH 20A 1 98mH 19A SV004iG5 4 0 37 ABS33a EBS33 SMC 10P 2 14 2 14 2 14 6A 8 63mH 2 8A 28 62mH 2 7A SVO008iG5 4 0 75 ABS33a EBS33 SMC 10P 2 14 2 14 2 14 6A 8 63mH 2 8A 28 62mH 2 7A SV015iG5 4 15 ABS33a EBS33 SMC 10P 2 14 2 14 2 14 10A 4 81mH 4 8A 16 14mH 4 6A SV022iG5 4 22 ABS33a EBS33 SMC 20P 2 14 2 14 2 14 10A 3 23mH 7 5A 11 66mH 7 1A SV037iG5 4 9d ABS33a EBS33 SMC 20P 2 14 2 14 2 14 20A 2 34mH 10A 7 83mH 10A SV040iG5 4 4 ABS33a EBS33 SMC 20P 2 14 2 14 2 14 20A 2 34mH 10A 7 83mH 10A RFI Filters FE Series Standard FILTER DB Resistor Options Peripheral Devices IG5 Series Footprint Filter Tension Leakage Dimensions Mounting Output Drive Models Power Code Current Voltage Current LWH YX Weight Mount Chokes SINGLE PHASE max SV004iG5 1 0 4kW FFG5 MO10 1 10A 250VA 3 5A 173 5 X 103 5 X 40 159 5 X 80 M4 FS 1 SV008iG5 1 0 8kKW FFG5 M011 1 11A 250VA 3 5A 173 5 X 183 5 X 40 159 5 X 110 M4 FS 1 SV015iG5 1 1 5kW FFG5 M020 1 20A 250VA 3 5A 173 5 X 153 5 X 40 159 5 X 180 M4 FS 2 THREE PHASE max ee 0 4kW FFG5 T005 1 5A 250VA 0 3A 18A 1735X1035X40 159 5 X80 M4 FSA SV008iG5 2 0 8kW SV015iG5 2 1 5kW FFG5 T012 1 12A 250VA 0 3A 18A 173 5 X 133 5 X 40 159 5 X 110 M4 FS 2 SV037iG5 2 3 7kW FFG5 T020 1 20A
13. FU2 15 Jump Frequency 3 Low Hio FU1 22 to FU2 16 0 01 0 00 Hz No FU2 16 Jump Frequency 3 High Hie FU2 15 to FU1 20 0 01 0 00 Hz No FU2 19 Input Output Phase Loss Protection HIS 00 11 bit set 00 Yes Bit 0 Output phase loss protection Bit 1 Intput phase loss protection FU2 20 Power ON Start selection HEU 0 No 0 Yes 1 Yes FU2 21 Restart after Fault Reset Hel 0 No 0 Yes 1 Yes FU2 22 Speed Search selection Hee 0000 1111 bit set 0000 No Bit 0 during Accel Bit 1 after fault reset Bit 2 after instant power failure restart Bit 3 when FU2 20 is set to 1 Yes FU2 23 Current Limit Level during Speed Search He3 80 to 200 9 1 100 96 Yes FU2 24 P Gain during Speed Search HE 0 to 9999 1 100 Yes FU2 25 Gain during speed search Heb 0 to 9999 1 1000 Yes FU2 26 Number of Auto Restart Attempt Heb Oto 10 1 0 Yes FU2 27 Delay Time before Auto Restart HE 1 0 to 60 sec 0 1 1 0 sec Yes FU2 30 Rated Motor selection H30 0 4 0 37kW 0 8 0 75kW No 1 5 1 5kW 2 2 2 2kW FU2 31 Number of Motor Poles H3 2to 12 1 4 No FU2 32 Rated Motor Slip H3c 0 to 10 Hz 0 01 No FU2 33 Rated Motor Current in RMS H33 0 1 to 99 9 A 1 No FU2 34 No Load Motor Current in RMS H34 0 1 to 99 9 A 1 No FU2 36 Motor Efficiency Hb 50 to 100 96 1 No FU2 37 Load Inertia HS 0to2 1 0 No FU2 39 Carrier Frequency H33 1 to 10 kHz 1 3 kHz Yes FU2 40 Control Mode selection HH 0 V F 0 No 1 Slip Compen 2 PID FU2 50 PID Feedback Signal sele
14. N rail base for easy installation Application E Converting E Commercial washing machine B Fan E Grinder E Pump B Textile machine E Food processing machine W Material handling machine Bi Electric shutter E Centrifuge B Dryer E Elevator door B Running machine E Tooling machine E Overheat Conformity to global standards E UL and cUL listed for North America E CE marked for Europe E Quality process controlled by ISO9001 15014000 UL ISO9001 02 03 Starvert G5 Reduced size Enhancing its performance the G5 shows much smaller size compares to the previous model the G series Maximum 50 of total volume has been reduced in G5 in order to mount it easily on smaller control panel and DIN rail with less weight It allows more cost effective panel construction and system design Built in communication interface and PC monitoring software The G5 has built in the most popular communication interfaces such as Modbus RTU and RS232 485 The G5 has the small inverter features and standard medium drive features together The Driveview software offers Window based computer monitoring tool through RS485 interface with graphic capture keypad emulator parameter edit and text monitor It is applicable for all LG inverters RS 485 ModBus RTU es es ee Built in PID control It is valuable in process control The built in PID controller controls flow temperature pressure etc through the propo
15. No No No No No No Yes Yes Yes Yes Yes Program Parameter Descriptions Code Description Keypad Display Setting Range Units del purse FU1 54 Overload Warning Level FSA 30 to 150 96 1 150 Yes FU1 55 Overload Warning Hold Time r55 0 to 30 sec 0 1 10 0 sec Yes FU1 56 Overload Trip selection F56 0 No 1 Yes 1 Yes FU1 57 Overload Trip level FS 30 to 200 96 1 180 96 Yes FU1 58 Overload Trip Delay Time Foo 0 to 60 sec 1 60 0 sec FU1 59 Stall Prevention Mode selection Fog 000 111 bit set bit 000 No Bit 0 during Accel Bit 1 during Steady speed Bit 2 during Decel FU1 60 Stall Prevention Level FOU 30 to 150 1 150 No FU1 99 Return Code rE 3 Function Group2 FU2 FU2 00 Jump to desired code HO 1 to 99 1 30 Yes FU2 01 Previous Fault History 1 Hi 0 Yes FU2 02 Previous Fault History 2 He nOn Yes FU2 03 Previous Fault History 3 H3 nOn FU2 04 Previous Fault History 4 H4 nOn Yes FU2 05 Previous Fault History 5 Ho nOn FU2 06 Erase Fault History Ho 0 No 0 Yes 1 Yes FU2 07 Dwell Frequency H1 0 to FU1 20 0 01 5 00 Hz No FU2 08 Dwell Time HB 0 to 10 sec 0 1 0 0 sec No FU2 10 Frequency Jump selection HIC 0 No 0 No 1 Yes FU2 11 Jump Frequency 1 Low Hii FU1 22 to FU2 12 0 01 0 00 Hz No FU2 12 Jump Frequency 1 High Hic FU1 11 to FU2 20 0 01 0 00 Hz No FU2 13 Jump Frequency 2 Low Hi3 FU1 22 to FU2 14 0 01 0 00 Hz No FU2 14 Jump Frequency 2 High Hid FU2 13 to FU1 20 0 01 0 00 Hz No
16. ase the protective status when the protective circuit is active CM Sequence common Used for the common terminal for contact input terminals VR Frequency setting power 12V Used as power for the analog frequency setting Maximum output is 12V 100mA Analog Frequency V1 Frequency reference Voltage Used for frequency reference and uses 0 10V for input Input resistance is 20 kQ Setting l Frequency reference Current Used for frequency reference and uses DC 4 20mA for input Input resistance is 2500 CM Frequency setting common terminal Common terminal for the analog frequency reference signal and the FM for monitoring FM CM Analog digital output Outputs one of the followings output frequency output current output voltage DC link voltage Pulse For external monitoring Factory default is set to output frequency Maximum output voltage and output current is 0 12V 1mA S Output frequency is set to 500Hz 2 30A 30C 30B Fault contact output Activates when the protective function is operating AC250V 1A or less DC30V 1A or less 5 Fault 30A 30C short 30B 30C open Contact Nomal 30A 30C short 30B 30C open O MO MG Multi function output Used for multi function output Open collector output RS232 S S Communication port Communication ports for RS 485 Class Display Name Description FUNC Program key Press to change the parameter setting A UP Up key Press to move through codes or to increase the parameter values KEY Y DOWN Down ke
17. ction Hou 0 1 0 No 1 V1 FU2 51 P Gain for PID Control Hot 0 to 9999 1 3000 Yes FU2 52 Gain for PID Control Hoe 0 to 9999 1 300 Yes FU2 53 D Gain for PID Control H53 0 to 9999 1 0 Yes FU2 54 Limit Frequency for PID Control H54 0 to FU1 20 0 01 60 00 Hz Yes FU2 70 Reference Frequency for Accel and Decel HATO 0 Max Freq 0 No 1 Delta Freq FU2 71 Accel Decel Time Scale Hi 0 0 01 sec 1 Yes 1 0 1 sec 2 1 sec FU2 72 Power On Display Hic 0 Cmd Freq 1 Acc Time 1 0 Yes 2 Dec Time 3 Drv mode 4 Freq mode 5 Step Freq 1 6 Step Freq 2 7 Step Freq 3 8 Current 9 Speed 10 DC link Vtg 11 User disp 12 Fault Display 13 Motor direction 11 Code FU2 73 FU2 74 FU2 75 FU2 76 FU2 79 FU2 81 FU2 82 FU2 83 FU2 84 FU2 85 FU2 86 FU2 87 FU2 88 FU2 89 FU2 90 FU2 91 FU2 92 FU2 93 FU2 94 FU2 99 Starvert G5 Description User Display selection Gain for Motor Speed Display DB Dynamic Braking Resistor Mode selection Duty of Dynamic Braking Resistor Software Version 2nd Acceleration Time 2nd Deceleration Time 2nd Base Frequency 2nd V F Pattern 2nd Forward Torque Boost 2nd Reverse Torque Boost 2nd Stall Prevention Level 2nd Electronic Thermal Level for 1 minute 2nd Electronic Thermal Level for continuous 2nd Rated Motor Current Read Parameters into Keypad from Inverter Write Parameters to Inverter from Keypad Initialize Parameter Parameter Write Protectio
18. ion Application site Digital reference 0 01 Hz below 100 Hz 0 1 Hz over 100 Hz Analog reference 0 03 Hz 50 Hz Digital 0 01 of max output frequency Analog 0 1 of max output frequency Linear Square pattern User V F 150 of rated current for 1 min 200 of rated current for 0 5 sec characteristic is inversely proportional to time Manual torque boost 0 15 96 Auto torque boost Keypad terminal communication operation Analog 0 10V 4 20mA Digital keypad Forward Reverse Up to 8 speeds can be set use multi function terminal 0 6 000 sec up to 8 types can be set and selected for each setting use the multi function terminal Accel Decel pattern linear pattern U pattern S pattern Optimum Minimum Interrupts the output of the drive Jog operation Resets fault when protective function is active Frequency level detection Overload alarm stalling overvoltage undervoltage drive overheating running stop constant speed speed searching Contact output 30A 30C 30B AC250V 1A DC30V 1A Choose 1 from output frequency output current output voltage DC voltage Output pulse 500Hz Output voltage 0 10V DC braking frequency limit frequency jump second function slip compensation reverse rotation prevention auto restart PID control Overvoltage undervoltage overcurrent drive overheating motor over heating input output phase loss input output mis wiring overload protection communication error loss of s
19. j c3 J cen un 2 vu Cc lw nmi n ni oo Setting Range 0 Voltage 1 Watt 2 Torque 1 to 1000 96 0 None 1 None 2 Ext DB R 0 to 30 96 0 to 6000 sec 0 to 6000 sec 30 to FU1 20 0 Linear 1 Square 2 User V F 0 to 15 96 0 to 15 96 30 to 150 96 FU2 89 to 150 96 50 to FU2 88 maximum 150 0 1 to 99 9 A 0 No Setting Range 1 to 99 0 to 9999 ms 0 to I O 04 0 to FU1 20 1 O 02 to 10 V 0 to FU1 20 0 to 9999 ms 0 to 1 O 09 0 to FU1 20 l O 07 to 20 mA 0 to FU1 20 0 None 7 2nd Func 10 Up 11 Down 12 3 Wire 13 Ext trip A 14 Ext trip B 16 Open loop 17 Main drive 18 Analog hold 19 XCEL stop Same as above Same as above 00000000 11111111 bit set 0 1 bit set 2 to 50 FU1 22 to FU1 20 FU1 22 to FU1 20 FU1 22 to FU1 20 FU1 22 to FU1 20 FU1 22 to FU1 20 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec Units 0 1 0 1 0 01 Units 0 01 0 01 0 01 0 01 0 01 0 01 0 01 0 01 Factory Default 0 100 9 0 10 art 5 0 sec 10 0 sec 60 00 Hz 0 5 0 9 5 0 6 150 9 150 9 100 9 1 8 A 0 0 0 Factory Default 1 1 000 ms 0 00 V 0 00 Hz 10 00 V 60 00 Hz 1 000 ms 4 00 mA 0 00 Hz 20 00 mA 60 00 Hz 0 15 10 00 Hz 40 00 Hz 50 00 Hz 40 00 Hz 30 00 Hz 20 0
20. n Return Code 4 Input Output Group 1 0 Code 1 0 00 1 0 01 1 0 02 1 0 03 1 0 04 1 0 05 1 0 06 1 0 07 1 0 08 1 0 09 1 0 10 1 0 11 1 0 12 1 0 13 1 0 14 1 0 15 1 0 16 1 0 17 1 0 20 1 0 21 1 0 22 1 0 23 1 0 24 1 0 25 1 0 26 1 0 27 1 0 28 1 0 29 1 0 30 Description Jump to desired code Filtering Time Constant for V1 Signal Input V1 Input Minimum Voltage Frequency corresponding to V1 Input Minimum Voltage V1 Input Maximum Voltage Frequency corresponding to V1 Input Maximum Voltage Filtering Time Constant for Signal Input Input Minimum Current Frequency corresponding to Input Minimum Current Input Maximum Current Frequency corresponding to Input Maximum Current Criteria for Analog Input Signal Loss Multi function Input Terminal P1 define 8 9 15 20 21 22 23 24 25 26 Reserved Multi function Input Terminal P2 define Multi function Input Terminal P3 define Terminal Input Status Terminal Output Status Filtering Time Constant for Multi function Input Terminals Jog Frequency setting Step Frequency 4 Step Frequency 5 Step Frequency 6 Step Frequency 7 Acceleration Time 1 for Step Frequency Deceleration Time 1 for Step Frequency Acceleration Time 2 Deceleration Time 2 Acceleration Time 3 Deceleration Time 3 Keypad Display wal La ru H34 rE Keypad Display im Lu Fu om o oo CJ mi Tru m nu imi ru fm S e ar UA C LO m
21. ns CH3 0 00V Delay 0 0ns CH4 0 00V Hold Off MINIMUM CH4 0 00V Hold Off MINIMUM Traditional curve Optimum curve PNP and NPN switchable duals signals The G5 has both PNP and NPN signals in order to controlled by PLC or outside controller Regardless the type of PLC or type of control signal iG5 can work with positive 24Vdc and negative 24Vdc Inverter rating selection guide Application motor KW HP LG Starvert drive T 22kW 1 phase 200 230V 3 phase 200 230V 3 phase 380 460V iH drive has a different designation in kW 04 05 Starvert G5 Specifications 200 230V Class 0 5 5 4 HP Drive Type SV___i G5 _ 004 1 008 1 015 1 004 2 008 2 015 2 022 2 037 2 040 2 ND HP 0 5 1 2 0 5 1 2 3 5 54 Motor Rating kW 0 37 0 75 1 5 0 37 0 75 15 2 2 37 4 Capacity kVA 1 1 1 9 8 1 1 1 9 3 4 5 6 1 6 5 FLA A 3 5 8 8 5 8 12 16 17 Output ratings p 9 Frequency 0 400 Hz 3 Voltage 200 230V Voltage 1 phase 200 230 V 10 3 phase 200 230 V 10 mput ratings Frequency 50 60 Hz 5 50 60 Hz 5 Weight kg 1 2 1 8 2 1 1 2 1 2 1 8 2 1 2 2 2 2 Braking circuit On board Brakind t Average braking torque 20 with optional external braking resistor 100 150 teg torpe Max continuous braking time 15 seconds Max duty 0 30 ED Cooling method Forced air cooling Natural Forced air cooling Enclosure IPOO Specifications 380 460V Class 0 5 5 4 HP Drive Type SV___i G5 _ 004 4 008 4
22. peed command hardware fault Stall prevention overload alarm Less than 15 msec continuous operation more than 15 msec auto restart possible Output frequency output current output voltage frequency value setting operating speed DC voltage Indicates the fault when the protection function activates memorizes up to 5 faults 10 C 40 C 20 C 65 C 90 RH max Non condensing Below 1 000 m below 5 9m sec 0 69 No corrosive gas combustible gas oil mist or dust Specifications amp Wiring Wiring DB Resistor l B1 B2 MCCB 1s 230V e e U Or 3s O S V 230 460V LN 50 60Hz 5 T W G SUM 24 Tox D FM O y Forward Run Stop i Output Frequency Meter oo v p Y FX 0 12V pulse output Reverse Run Stop Lao O RX cu C Drive gate block LO OL BX Fault Reset i 5 6 O RST Jog io 5 LC JOG Multi function Input 1 e P1 Factory Setting Multi function Input 2 E A Speed L 27 Speed M Multi function Input3 i P3 Speed H d E 9 Q Fault output relay Common Terminal i O CM less than AC250V 1A LX less than DC30V 1A B O O e Shield Potentiometer 1kohm 1 2W Power supply for less than DC24V 50mA Ed U Multi function output gt z C VR speed signal Em pe V1 Speed signal input 0 10V 4 e A Cy Speed signal input S ModBus RTU ee wy 4 20mA 2500hm S RS 485 CM Common for DLL VR V1 Speed
23. requency setting in factory 50 60Hz Dimension mm inch TEE II 4509 Inverter SV004iG5 1 SV004iG5 2 SV008iG5 1 SV008iG5 2 SV015iG5 1 SV015iG5 2 SV022iG5 2 SV037iG5 2 SV040iG5 2 SV004iG5 4 SV0081G5 4 SV015iG5 4 SV022iG5 4 SV037iG5 4 gt UH SV040iG5 4 5 4 o a BRowonh oO fF OW mo n al Setting Range 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec O to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 Frequency 1 Current 2 Voltage 3 DC link Vtg 10 to 200 95 0 to FU1 20 0 to FU1 20 SAN i Search 000 111 bit set Bit 0 LV Bit1 All Trip Bit 2 Auto retry 1 to 32 0 1200 bps 1 2400 bps 2 4800 bps 3 9600 bps 4 19200 bps 0 None 1 FreeRun 2 Stop 0 1 to 120 sec 0 LG BUS 1 6 ModbusASCll 7 9 Modbus RTU w2 88 3 46 88 3 46 118 4 65 88 3 46 138 5 43 118 4 65 138 5 43 5 90 138 5 43 138 5 43 118 4 65 118 4 65 118 4 65 138 5 43 138 5 43 138 5 43 Units 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 01 0 01 0 1 Dimension Factory Default 50 0 sec 50 0 sec 40 0 sec 40 0 sec 30 0 sec 30 0 sec 20 0 sec 20 0 sec 0 100 9 30 00 Hz 10 00 Hz 12 010 1 0 sec 7 H2 117 5 4 63 117 5 4 63 117 5 4 63 117 5 4 63 117 5 4 63 117 5 4 63 117 5 4 63 117 5 4 63 117 5 4 63 117 5 4 63 117 5 4 63 117 5 4 63 117 5
24. rtional integral and differential calculus between the feedback value and reference value in closed loop Space vector PWM technology The Space vector technology is being adopted in all LG drives It features outstanding performance in its control characteristics It has low total harmonic distortion low current ripple low torque ripple low motor temperature rise and better voltage utilization It is a basic control platform of the iG5 drive The advantages of Space vector PWM technology are being proved in many applications Better Efficiency Low Iron Loss in Motor 7 Low Total Harmonic Distortic Low Motor Heat Extended Motor High Voltage Utilization 15 9 Low Torque Ripple Stable 8 Smooth Operation High and Stable Torque Features amp Selection Guide Optimum acceleration and deceleration To achieve a maximum torque during the acceleration and deceleration trip free function is activated The 32 bit DSP CPU monitors the current transition during the acceleration and deceleration to program an optimum curve that is under the trip triggering level 5V 2V 1 DC10 1 DC 104 1s div 1 Filter Offset Record Length Trigger Filter Offset Record Length Trigger Smoothing OFF Ch1 0 00V Main 10k de AUTO Smoothing OFF Ch1 0 00V Main 10k e AUTO BW FULL Ch2 0 00V Zoom 500 Type EDGE CH1 BW FULL Ch2 0 00V Zoom 500 Type EDGE CH1 H3 0 00V Delay 0 0
25. signal Input Note e display main circuit terminals O display control circuit terminals 1 Analog speed command can be set by Voltage Current and both of them 2 DB resistor is optional 06 Starvert G5 Power terminal configuration Symbol Function R S AC Line input 1 phase 200 230 Vac for 1 units 3 phase 200 230 Vac for 2 units and 380 460 Vac for 4 units T U V 3 phase output terminals to motor WwW B1 T B2 External additional dynamic braking resistor connection terminals G Chassis ground The gound terminal G may be located on heat sink instead of terminal strip depend on the model name Control terminal configuration Type Symbol Name Descripton P1 P2 P3 Multi function input 1 2 3 Used for multi function input Factory default is set to step frequency 1 2 3 FX Forward run command Forward run when closed and stop when opened RX Reverse run command Reverse run when closed and stop when opened W Starting Contact JOG Jog frequency reference Runs at jog frequency when the jog signal is on The direction is set by the FX or RX signal S Function Slection BX Drive gate block When the BX signal is ON the output of the drive is cut off When the motor uses an mechanical brake to stop 5 BX is used to cut off the output signal When the BX signal which does not cut off by latching is OFF and the 3 FX signal or the RX signal is ON the motor keeps running so be cautious lt RST Fault reset Used to rele
26. y Press to move through codes or to decrease the parameter values RUN Run key Use to operate the drive STOP RESET STOP RESET key Press to stop during operation Press to reset when a fault has occurred REV Reverse run During reverse run FWD Forward run During forward run se SET Setting When the user is setting the parameters using the FUNC key RUN Operating When in constant speed and blinks when accelerating or decelerating Parameter group SQUE see Drive Group Basic parameters of Command frequency Accel Decel time etc Function 1 Group Basic parameters of Max Frequency Torque boost etc Function 2 Group Application parameters of Frequency jump Frequency limit etc Input Output Group Multifunction terminal setting and Sequence operation parameters Terminal Configuration Keypad amp Parameter Navigation Parameter navigation 1 Drive Group SET Oi C T w w O FWD aun oi DOLI LI o ng MN SET O PUNT O FWD SET O 77 O FWD aun of MIEL opey RUN TE O REV SETO j Worm ior seTO II O FWD run of ee core RUN OL UL tor sro i O FWD SETO rig ior i OC i i B RUN Ot O REV RUN Ot Ul O REV SETO r nion SETO P LO FWD RUN of SLV O REV RUN of IL O REV SETO li OFW sTo Aoo O FWD l 1 RUN OL JL one run of Lll ioa seTO iorwb SETO fu iorwp RUN O 4 O REV RUN O uu i O REV SETO FO FWD sero j ITI O FWD pun of AL 2 tony pun of DEL iore seTO OFW seTO
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