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Starvert iP5(E)
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1. REV Reverse key STOP RESET Stop Reset key Lc 200 FWD Forward key REV HEV run gt ie 2 display o Je LED STOP RESET disola E i Forward run FWD i display m LED 7 segmentloader Segment Display Name ENCODER JOG JOG PROG ENT Set key SHIFT ESC Shift ESC key KEY STOP RESET Stop Reset key RUN Run key PROG ENT Setting mode display Stop Fault STOP RESET display RUN Run display DRV Drive group LE 200 i LED FUN Function group1 FU2 Function group2 VO Input Output group EXT Sub group e A VO EXT Option group VO HEXT Application FU2 group 14 LG Industrial Systems Description For shift between groups and upper codes within a group Parameter setting alteration Saving the altered parameter values Code shifts or Parameter setting value increase Code shifts or Parameter setting value decrease Use the shift key in case of setting mode and the ESC key other cases Reverse run Stop key during run Fault reset key Forward run Turns on during reverse run Blinks during ACC DEC and turns on with normal run Turns on with stop and blinks at fault Turns on during forward run Blinks during ACC DEC and tums on with normal run Description Used for the code shifts and the parameter value up down For group shift between DRV and others Parameter setting value changes and saves Shift right with the shift key in case of setting mode and use ESC key in other cases Shift to D
2. i N solution Leader in Electrics 8 Automation Uniquely designed for the Fan amp Pump STARVERT iP5 An eptimum selutien f r the VT applicatien centrel and energy savings 5 5 30kW 7 5 40HP 3Phase 200 230Volts 5 5 30kW 7 5 40HP 3Phase 380 460Volts aa LG Industrial Systems www Igis com Building up a clean and productive industrial society became possible by offering our superb Total Solution LGIS is the leader of the industrial Electric and Automation business The Starvert iP5 series is optimally designed for the use of the VT Fan amp Pump applications and the energy savings Its powerful performance easy to use and highly considered safety are the core product development spirit of LG Starvert iP5 series Contents Special features Models Basic specifications Specifications Wiring Main circuit terminals Control circuit terminals Loader LCD Loader and shifts between the groups amp codes Shifts between the groups and segment loader Function code table 25 Peripheral devices 26 Dimension 28 Braking unit 29 Installation notice Memo The powerful sensorless vector control and the optimized functions forthe VT applications fully satisfy our customers needs The iP5 series specifically designed for VT applications provide various distinctive functions such as Auto tuning PID control Flying Start Sleep and 10 10V inputs Inverter Starvert iP5 Series 3 The
3. Aux mode 4 45 Relay mode 45 Note20 O 74 75 appears by setting the parameter values among O 76 79 as FDT 1 FDT5 These hiding codes are only displayed in case of setting those related codes LG Industrial Systems Setting range LCD 7 segment Oto 6000 sec Oto 6000 sec Oto 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec 0 to 6000 sec Frequency 0 Current 1 Voltage 2 DC link Vtg 3 Torque 4 10to 200 Frequency 0 Current 1 Voltage 2 DC link Vtg 3 Torque 4 10 to 200 OtoFU1 30 OtoFU1 30 FDT 1 0 FDT 2 1 FDT 3 2 FDT 4 3 FDT 5 4 OL 5 IOL 6 Stall 7 OV 8 LV 9 OH 10 Lost Command 1 Run 12 Stop 13 Steady 14 INV line 15 COMM line 16 Ssearch 17 Step pulse 18 Seg pulse 19 Ready 20 MMC 23 Same as I O 76 Same as I O 76 Same as I O 76 000 to 111 Bit set Factory default 20 0 sec 30 0 sed 30 0 sec 40 0 sec 40 0 sec 50 0 sec 50 0 sec 40 0 sec 40 0 sec 30 0 sec 30 0 sec 20 0 sec 20 0 sec Frequency 100 Frequency 100 30 00 Hz 10 00 Hz None 010 010 010 010 Adj during run Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes E Input Output group I O u Keypad display Setting range Adj during En sk jaa LCD 7 segment LCD 7 segment EO oa run 1 0 81 T
4. Ltd China LG TWIN TOWERS 20 Yoido dong Youngdungpo gu Address No 15 Liaohexi 3 Road economic and technical development zone Dalian China Seoul 150 721 Korea Tel 86 411 731 8210 Fax 86 411 730 7560 e mail youngeel amp Igis com LG VINA Industrial Systems Co Ltd Vietnam Tel 82 2 3777 4643 4649 Address LGIS VINA na che tao may dien Viet Hung Dong Anh Hanoi Vietnam Fax 82 2 3777 4879 780 4885 Tel 84 4 882 0222 Fax 84 4 882 0220 e mail srio hn vnn vn LG Industrial Trading Shanghai Co Ltd China http www Igis com Address Room 1705 1707 17th Floor Xinda Commerical Building No 318 Xian Xia Road Shanahai China Tel 86 21 6252 4291 Fax 86 21 6278 4372 e mail hyseo amp Igis 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 amp mx cei gov cn LG Industrial Systems Shanghai Office China Address Room 1705 1707 17th Floor Xinda Commerical 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 Bei Road Guangzhou China Tel 86 20 8755 3410 Fax 86 20 8755 3408 e mail Igisgz amp public1 guangzhou gd cn LG Industrial Systems New Jersey Office USA Address 1000 Sylvan A
5. P1 Short P2 SV iP5 A Setting 3 Phase input power put p G switch we Sourcing E G E g mode NPN g Sinking 24P 55 Factory default Speed L A Mi e mode NPN A vs Factory default Speed M A v Factory default Speed H actory default Speed H Vi Factory default RST 10 10 V O Analog input Multi function Factory default BX input 58 Factory default JOG 4 20 MA ome Factory default FX 5G ome Factory default RX 2 59 Analog Maximum output 12V Q S1 output Source Max 30mA A1 0 O5G Sink Max 20mA C1 A2Q c2 Q Q 3A Multi function Fault relay output Suput A30 C 3C y outpi c3 Q 3B AAO C40 OAO 7 e Pulse input type A B A e Input frequency 0Hz 100kHz Bo Paseinput Matching frequency of input O5G frequency From 0 to maximum frequency C _ RS 485 C Q NT Motor temperature CMO 5G detection part Note1 CM NPN common terminal relay input 24 PNP common terminal relay input 11 Main circuit terminal E 5 5 30kW 200V 400V R 5 Terminalsymbol R S T G P1 P2 P2 N U V W 12 LG Industrial Systems TG PT P2 N U TV W er Short Terminalname Description ACinput AC Line voltage input Earth ground Inverter chasis earth ground DC Reactor connection External DC reactor connection terminals Jumper must
6. Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes 21 22 Function codes table E Input Output group I O Code 1 0 51 1 0 52 1 0 53 1 0 54 1 0 55 1 0 56 1 0 57 1 0 58 1 0 59 1 0 60 1 0 61 1 0 62 1 0 63 1 0 70 1 0 71 1 0 72 1 0 73 Note20 x 1 0 74 x 0 75 1 0 76 1 0 77 1 0 78 1 0 79 1 0 80 Description Deceleration time 1 for step freguency Acceleration time 2 Deceleration time 2 Acceleration time 3 Deceleration time 3 Acceleration time 4 Deceleration time 4 Acceleration time 5 Deceleration time 5 Acceleration time 6 Deceleration time 6 Acceleration time 7 Deceleration time 7 AM1 analog meter output selection AM1 output adjustment AM2 analog meter output selection AM2 output adjustment Frequency detection level Frequency detection bandwidth Multi function auxiliary contact output define Aux terminal Multi function auxiliary contact output define Multi function auxiliary contact output define Multifunction auxiliary contact output define Fault output relay setting 30A 30B 300 Keypad display LCD 7 segment Dec time 1 51 Acc time 2 52 Dec time 2 53 Acctime 3 54 Dectime 3 55 Acctime 4 56 Dec time 4 57 Acctime 5 58 Dec time 5 59 Acctime 6 60 Dec time 6 61 Acctime 7 62 Dec time 7 63 AM1 mode 70 AMladjust 71 AM2 mode 72 AM2 adjust 73 FDT freq 74 FDT band 75 Aux mode 1 76 Aux mode 2 45 Aux mode 3 45
7. 1 EAT ORV E I m EN JAS Function 1 1 ni A TA 1 group2 77 PEAL AD rv 55 I my Fui Fue Ve ERT 0 ORY au Er mi ERT De re j A EN ies 22 TE ag Vg oq N VO group i GI it gt i DRV FUL FUB 1 0 EXT 1 Code shift by JOG Oo Oo 11 Wwe Lif LILI DRV Fut FU2 170 EXT 2 Pressing the PROG ENT key let the higher digit number blink and then shift an AA digit by pressing SHIFT ESC key then change the setting value by JOG LL 1 IILI Na 3 After changing the setting value save by pressing the PROG ENT key Fy I HET Lif I hr Note Blink Tumon O Tumoff 16 Function codes table E Drive group DRV Code Description Keypad display I Factory default ues Command freguency output freguency during Note1 DRV 00 motor run Reference frequency during motor stop Cmd freq Oto FU1 30 Max freq 0 00 Hz Yes Output current DRV 01 Acceleration time Acc time Oto 6000 20 0 sec Yes DRV 02 Deceleration time Dec time Oto 6000 30 0 sec Yes Keypad 0 DRV 03 Drive mode Run Stop method Drive mode Pl 1 Fx Rx 1 No Fx Rx 2 2 Int 485 3 Keypad 1 0 Keypad 2 1 VI 2 Frequency mode VIS 3 DRV 04 ee feie Freg mode 4 Keypad 1 No VI 5 Pulse 6 Int 485 7 DRV 05 Step frequency 1 Step freq 1 10 00 Hz DRV 06 Step frequency 2 Step freq 2 Oto FU1 30 0 to Max freq 20 00 Hz Yes DRV 07 Stepfrequency 3 Step freq 3 30 00 Hz DRV 08
8. Auto Op Time 42 Nbr Aux s 43 Start freq 1 44 Start freq 2 45 Start freq 3 46 Start freq 4 47 Start freq 5 48 Start freq 6 49 Start freq 7 50 Stop freq 1 51 Stop freq 2 52 Stop freq 3 53 Stop freq 4 54 Stop freq 5 55 Stop freq 6 56 Stop freq 7 57 Aux start DT 58 Aux stop DT 59 Pid AccTime 60 Pid DecTime 61 Regul Bypass 62 Sleep Delay 63 Sleep Freq 64 WakeUp Level 65 AutoCh Mode 66 AutoEx intv 67 AutoEx level 68 Inter lock 69 Actual REF FBK 70 Aux Pr Diff 71 Prs 1 Bar n Prs 0 0000pa Scale Disp 73 Note23 APP 40 73 appears by setting the parameter value as MMC at APP 01 x These hiding codes are only displayed in case of setting those related codes a EES Kan Oto 15 2 0 30to 150 100 FU2 28 to 200 130 50 to FU2 27 120196 Maximum 150 1 to 200 A 3 6 A 1to4 1 0to7 4 0 Maximum Frequency 49 99 Hz 0 Maximum Frequency 49 99 Hz 0 Maximum Frequency 49 99 Hz 0 Maximum Frequency 49 99 Hz 0 Maximum Frequency 49 99 Hz 0 Maximum Frequency 49 99 Hz 0 Maximum Frequency 49 99 Hz 0 Maximum Frequency 20 00 Hz 0 Maximum Frequency 20 00 HZ 0 Maximum Frequency 20 00 Hz 0 Maximum Frequency 20 00 HZ 0 Maximum Frequency 15 00 Hz 0 Maximum Frequency 15 00 Hz 0 Maximum Frequency 15 00 Hz Oto 9999 sec 60 0 sec Oto 9999 sec 60 0 sec Oto 600 0 sec 0 5 sec 0t0600 0 sec 0 5 sed No 0 No Yes 1 Oto 9999 sec 60 0 sec OtoFU1 30 0 00 Hz Oto 1
9. E FU2 group FU2 Code x 1 0 19 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 1 0 31 1 0 32 1 0 33 1 0 34 x 1 0 35 x 1 0 36 x 1 0 37 x 1 0 38 x 1 0 39 x 1 0 40 x 1 0 41 x 1 0 42 1 0 50 Description Waiting time after loss of freq reference Multi function input terminal M1 define Multifunction input terminal M2 define Multi function input terminal M3 define Multifunction input terminal M4 define Multi function input terminal M5 define Multi function input terminal M6 define Multi function input terminal M7 define Multi function input terminal M8 define Terminal input status Filtering time constant for multi function input terminals Jog frequency setting Step frequency 4 Step frequency 5 Step frequency 6 Step frequency 7 Step frequency 8 Step frequency 9 Step frequency 10 Step frequency 11 Step frequency 12 Step frequency 13 Step frequency 14 Step frequency 15 Acceleration time 1 for step frequency Keypad display LCD 7 segment Time out 19 MI 20 M2 define 21 M3 define 22 M4 define 23 M5 define 24 M6 define 25 M7 define 26 M8 define 27 In status 28 Ti Filt Num 29 Jog freq 30 Step freg 4 31 Step freq 5 32 Step freg 6 33 Step freg 7 34 Step freq 8 35 Step freq 9 36 Step freq 10 37 Step freq 11 38 Step freq 12 39 Step freq 13 40 Step freq 14 41 Step freq 15 42 Acctime 1 50 Note18 I 0 19 appear by se
10. Inverter By pass Speed searching Contact output 30A 30C 30B AC250V 1A DC30V 1A Choose 2 from output frequency Output current Output voltage DC voltage Output torque Output voltage 0 10V DC Braking Frequency limit Frequency jump Second function compensation Reverse rotation prevention Auto restart pass Auto Tuning PID control Over voltage Under voltage Over current Ground fault Inverter overheating Motor overheating Output phase loss Overload protection External fault1 2 Communication error Loss of speed command Hardware fault Option fault etc Stall prevention Overload alarm NTC fault Continuos operation Above 15msec Auto restart active failure Output frequency Output current Output voltage Frequency value setting Operating speed DC voltage Indicates a fault when the protection function activates retains upto 5 faults 10 C 40 C 20 C 65 C Less than 90 RH Max non condensing Below 1 000m or 3 300ft Below 59 0 69 No corrosive gas Combustible gas Oil mist or dust Note1 About 20 of regenerative braking torque means the deceleration stopping average braking torque of motor loss Note2 The overload capacity 120 1 minute bases on 25 C of ambient temperature Wiring Braking unit Braking resistor Maximum distance between option inverter terminal and braking resistor is 5 meters The wiring between inverter terminal and braking unit should be twisted form
11. Output current Current Load current in RMS A DRV 09 Motor speed Speed Motor speed in rpm rom DRV 10 DClink voltage DC link Vtg Inverter DC link voltage M DRV 11 User display selection User disp Output voltage DRV 12 Fault display Fault NonenOn DRV 13 Motor direction set be i Notavailable pr 0 Yes DRV 14 Target Output frequency display Tar Out Freg 0 00 Hz Yes DRV 15 Reference Feedback frequency display Ref Fbk Freq gt 0 00 Hz Yes A Hzdisp 0 DRV 16 Speed unit selection Hz Rpm Disp Randa 1 Yes Note2 DRV 17 Drive mode 2 Drive mode 2 Fx Rx 1 1 1 No Note3 DRV 18 Frequency mode 2 Freqmode 2 Keypad 1 0 1 No DRV 20 FU1 group selection FU2 group selection DD vo ET Not displayed in i Press ka DRV 23 EXT group selection LCD keypad Notavailable PROSENT DRV 24 COM group selection key 1 Yes DRV 25 APP group selection 1 Yes Note1 Speed unit is changed from Hz to when DRV 16 is set to Rpm Note2 DRV 17 appears by setting the parameter as Int485 at DRV 04 Note3 DRV 18 appears by setting the parameter as main drv at 10 20 x These hiding codes are only displayed in case of setting those related codes H FU1 Group FU1 K Keypad displa Setting range Adj durin oe Desto on SE LCD 1 me eo Sata ne FU1 00 Jumpto desired code Jump code Not displayed 1t074 Notavailable 1 Yes None 0 FU1 01 Run prevention RunPrev 01 Forward Prev 1 None No Reverse Prev 2 Linear 0 FU1 02 Acceleration patter
12. during run No No No No No No No No No No No No No Yes No No No No No No No No No No No No Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes No No No No Yes Note9 FU1 52 appears by setting the parameter value as Manual at FU1 51 Note10 FU1 61 appears by setting the parameter value as Yes at FU1 60 x These hiding codes are only displayed in case of setting those related codes m FU2 group FU2 Er Keypad displa Setting range Adj durin gt De pen rs en LCD 1 a Ben en 3 FU2 00 Jumpto desired code Jumpcode Not displayed 1to99 Notavailable 30 Yes FU2 01 Previous fault history 1 Last trip 1 01 By pressing PROG and FU2 02 Previous fault history 2 Last trip 2 02 A key the frequency FU2 03 Previous fault history 3 Last trip 3 03 current and operational None FU2 04 Previous fault history 4 Last trip 4 04 status at the time of FU2 05 Previous fault history 5 Last trip 5 05 fault can be seen FU2 06 Erase fault history Erase trips 06 No Yes FU2 07 Dwell time Dwell time 07 Oto 10 sec 0 0 sec No Note11 x FU2 08 Dwell frequency Dwell freq 08 FU1 32 to FU1 30 5 00 Hz No FU2 10 Frequency jump selection Jump freq 10 2 No No Note12 x FU2 11 Jump frequency 1 low Jumplo1 1 OtoFU2 12 10 00 Hz Yes x FU2 12 Jump frequency 1 high Jump Hi 1 12 FU2 11 to FU1 30 15 00 Hz Yes x FU2 13 Jump frequency 2 low Jumplo2 13 OtoFU2 14 20 00 Hz Yes x FU2 14 Jumpfr
13. iP5 series basically provides the V F control operation and shows a remarkably improved sensorless vector control mode which used to generate motor speeds change problems that occur from the load changes and also the newly adopted Sleep function among LG Starvert series boosts the energy saving function KS z z Zz A z A Z A A Z FA A 7 The external NTC input and the flying start provide much more improved protection functions and the built in PID and Auto tuning functions bring the optimal control features for airflow and oil volumes RN ocak N N N NS Dynamic braking Speed reduction generates the regenerative voltages which are burnt down as thermal energy at the 2nd resistor of motor and this procedure generates the braking power Note1 Do not use in case of unasval thermal generation Built in RS485 communication The built in RS485 communication enables the long distance communication controlling between the PLC and PC and the inverter Sensorless vector control Our sensorless vector control method improves the torque inefficiency at low speeds and the motor speed variations according to the application changes Flying start As one of the Fan exclusive functions it protects inverter from trips when the Fan rotates reversely due to external influences Note1 The Flying Start function shows its normal operation only in the case that the directions of motor rotation and command are ident
14. optimum control performance for Fan 8 Pump STARVERT iP5 Series LG STARVERT iP5 for Fan amp Pump exclusive use inverter guarantees its powerful performances and optimum control features PID control PID control can be defined as a tool of maintaining the volumes of controlled objects such as the oil volume temperature pressure degree etc in a certain and precise level by operating the Proportion and Integral processes of the inverter with detected signal values Dual direction loader Reducing the default parameters by 37 enables dual direction shifts between the groups and easy searching and operation of various functions High performance processor Adoption of the high performance digital signal process chip enhances the efficiencies of process speeds flexibility stability and the internal noise reduction functions Multi function input terminal setup Selective use of needed functions and a maximum 16 steps of multi step speed controlling became possible To make an optimum performance VT application exclusive inverter our iP5 series enhances its safety and a NDERES SSEN Eneee ege r defendability by stably controlling nom A the loads fluctuations during uaa i long time operation Our Fan amp Pump application exclusive inverter STARVERT iP5 E series improves the process speeds flexibility defendability and internal noise by adopting the high performance digital signal processor STARVERT
15. 00 35 0 M_FRLS 0 M_FRFS 1 M FRLS Auxch FRFS 2 Mainch FRFS 3 00 00 to 99 00 72 00 Oto 100 20 No 0 No Yes 1 Hz Oto 100 21 Barl Pa Oto 50000 1000 Adj during run No No Yes Yes No Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Peripheral devices Voltage Motor kW 0 75 15 22 37 55 200V class 75 1 15 18 5 22 30 0 75 15 22 37 5 5 400V class 75 11 15 18 5 22 30 Voltage Motor kW 0 75 15 2 2 37 55 200V class 75 1 15 18 5 22 30 0 75 15 22 37 55 400V class 75 11 15 18 5 22 30 Note Correct capacity fuses and reactors must be selected for safe use Inverter type SV055iP5 2 SV055iP5 2 SV055iP5 2 SV055iP5 2 SV055iP5 2 SV075iP5 2 SV110iP5 2 SV150iP5 2 SV185iP5 2 SV220iP5 2 SV300iP5 2 SV055iP5 4 SV055iP5 4 SV055iP5 4 SV055iP5 4 SV055iP5 4 SV075iP5 4 SV110iP5 4 SV150iP5 4 SV185iP5 4 SV220iP5 4 SV300iP5 4 Inverter type SV055iP5 2 SV055iP5 2 SV055iP5 2 SV055iP5 2 SV055iP5 2 SV075iP5 2 SV110iP5 2 SV150iP5 2 SV185iP5 2 SV220iP5 2 SV300iP5 2 SV055iP5 4 SV055iP5 4 SV055iP5 4 SV055iP5 4 SV055iP5 4 SV075iP5 4 SV110iP5 4 SV150iP5 4 SV185iP5 4 SV220iP5 4 SV300iP5 4 MCCB or ELCB ABS33b EBS33b ABS33b EBS33b ABS33b EBS33b ABS33b EBS33b ABS53b EBS53 ABS103b EBS103 ABS103b EBS103 ABS203
16. Installed do not use it for the purpose of starting or stopping Otherwise it could lead to reduction in product life ACreactor The AC reactor must be used when the power factor is to be improved or the inverter is installed near a large power supply system 1000kVA or more and wiring distance within 10m Installation and wiring To operate the inverter with high performance fora long time install the inverter in a proper place inthe correct direction and with proper clearances Incorrect terminal wiring could result inthe equipment damage DC reactor To motor Itis required forinverters Do not connect a power factor 5 5KW 22KW 200 400V capacitor surge suppressor or radio A noise filter to the output side Not necessary for inverters below 3 7kW of the inverter Ground Inverter Starvert iP5 Series 29 Memo 30 LG Industrial Systems Inverter Starvert iP5 Series 31 Leader in Electrics 8 Automation 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 Safety Instructions Any maintenance and inspection shall be performed by the personnel having expertise concerned CL LG Industrial Systems E HEAD OFFICE H Global Network Dalian LG Industrial Systems Co
17. PP 68 x APP 69 x APP 70 x APP 71 x APP 72 x APP 73 Description 2nd reverse torgue boost 2nd stall prevention level 2nd electronic thermal level for 1 minute 2nd electronic thermal level for continuous 2nd rated motor current Number of auxiliary motor run display Aux motor start selection Operation time display on auto change The number of aux motor Start frequency of aux motor 1 Start frequency of aux motor 2 Start frequency of aux motor 3 Start frequency of aux motor 4 Start frequency of aux motor 2 Start frequency of aux motor 3 Start frequency of aux motor 4 Stop frequency of aux motor 1 Stop frequency of aux motor 2 Stop frequency of aux motor 3 Stop frequency of aux motor 4 Stop frequency of aux motor 2 Stop frequency of aux motor 3 Stop frequency of aux motor 4 Delay time before operating aux motor Delay time before stopping aux motor Accel time when the number of pump decreases Decel time when the number of pump increases PID bypass selection Sleep delay time Sleep frequency Wake Up level Auto change mode selection Auto change time Auto change level Inter lock selection Feedback freg percentage display Aux motor pressure difference between starting and stopping Actual value pressure display Pressure display scale Keypad display LCD 7 segment 2nd R boost 25 2nd Stall 26 2nd ETH 1min 27 2nd ETH cont 28 2nd R Curr 29 Aux Mot Run 40 Starting Aux 41
18. RV 00 Stop key during run Fault reset key Run Key Turns on in setting mode Turns on in stop and blinks in ACC DEC Turns on at drive group Turns on at function group 1 Turns on at function group 2 Turns on at Input Output group Turns on at sub group Turns on at option group Turns on at application group shifts between each group each code by LCD loader Drive group Function group 1 Function group 2 I O group al m gt EI i gt El 5 a mj EI H E Parameter use instruction 2 3 4 Shift tothe Press PROG key Move the cursor Data value change Save the changed codeyou then the setting by using the by using the UP data value by move to mode appears SHIFT ESC and down keys the ENT key d Inverter Starvert iP5 Series 15 Shifts between each group each code by LCD loader DRY FUL FUZ 170 EXT Oo 0 SIM m l L DRY FUL FU2 1 0 EXT O q I LU I HEILI DRY FUL FU2 TO EXT oO e fe O ae tell 200 DRY FYL FUR 1 0 EXT PROG DRY FUL FUE I 0 EXT DRY Fu Fue 170 EXT PROG i ENT ENT Function 1 m R 1 l AA 90 G00 tg 70 group 1 L I UI Al gt BE ay a i 2 Eat ies wy a E
19. U2 62 Stator resistance of motor Rs 62 un es 12 40 7 No x FU2 63 Leakage inductance of motor Lsigma 63 en en a on FU2 40 7 No x FU2 64 Pre excitation time PreEx time 64 Oto 60 sec 1 Yes x FU2 65 P gain for sensorless control SLP gain 65 0to 9999 1000 Yes x FU2 66 I gain for sensorless control SLI gain 66 0to 9999 100 No FU2 67 Manual Auto torque boost selection Torque boost 67 pea A Manual No FU2 68 Torque boost in forward direction Fwd boost 68 Oto 15 2 0 No Note11 FU2 8 appears by setting the dwell time as 1 10sec at FU2 7 Note12 FU2 11 appears by setting the parameter value as Yest at FU2 10 Note13 FU2 23 24 appears by setting the speed search as 0001 1111 bits at FU2 22 Note14 FU2 26 appears by setting the retry number as 1 10 at FU2 25 Note15 FU2 61 66 appears by setting the parameter value as Sensorless at FU2 60 These hiding codes are only displayed in case of setting those related codes Function codes table m FU2 group FU2 Code FU2 69 FU2 80 FU2 81 FU2 82 FU2 90 Note16 FU2 91 x FU2 92 x FU2 93 FU2 94 x FU2 95 FU2 99 Description Torque boost in reverse direction Power on display User display selection Software version Parameter display Read parameter Write parameter Initialize parameters Parameter write protection Parameter save Return code Note16 FU2 91 95 appears by setting the parameter value as YES at FU2 90 x These hiding codes are only dis
20. b EBSb03 ABS203b EBS203 ABS203b EBS203 ABS203b EBS203 ABS33b EBS33b ABS33b EBS33b ABS33b EBS33b ABS33b EBS33b ABS33b EBS33b ABS33b EBS33b ABS53b EBS53 ABS103b EBS103 ABS103b EBS103 ABS103b EBS103 ABS203b EBS203 ACinput fuse 10A 15A 25A 40A 40A 50A 70A 100A 100A 125A 190A 6A 10A 10A 20A 20A 30A 35A 45A 60A 70A 90A MC LG GMC 12 GMC 12 GMC 18 GMC 22 GMC 22 GMC 32 GMC 50 GMC 65 GMC 85 GMC 100 GMC 150 GMC 12 GMC 12 GMC 22 GMC 22 GMC 22 GMC 22 GMC 22 GMC 25 GMC40 GMC 50 GMC 65 ACreactor 2 13mH 5 7A 1 20mH 10A 0 88mH 14A 0 56mH 20A 0 39mH 30A 0 28mH 40A 0 20mH 59A 0 15mH 75A 0 12mH 96A 0 10mH 112A 0 07mH 160A 8 63mH 2 8A 481mH 4 8A 3 23mH 7 5A 2 34mH 10A 1 22mH 15A 1 14mH 20A 0 81mH 30A 0 61mH 38A 0 45mH 50A 0 39mH 58A 0 287mH 80A RS T N N N N N N Cable mri U V W 2 2 2 3 5 55 8 14 22 30 DCreactor 7 00mH 54A 4 05mH 9 2A 2 92mH 13A 1 98mH 19A 1 37mH 29A 1 05mH 38A 0 74mH 56A 0 57mH 71A 0 49mH 91A 0 42mH 107A 0 34mH 152A 28 62mH 2 7A 16 14mH 4 6A 11 66MH 7 1A 7 83mH 10A 5 34mH 14A 4 04mH 19A 2 76mH 29A 2 18mH 36A 1 79mH 48A 1 54mH 55A 1 191mH 76A Ground 35 3 5 35 35 55 55 14 14 22 25 Dimension m SVO55iP5 2 4 200V 400V Inverter type w1 w2
21. be removed Braking unit connection DB unit P2 N connection terminals Inverter output 3 Phase power output terminals to motor ER woh A den Adda r00000000000000000 00000000000000000 MMO IMO RP Control circuit terminal H Control circuit terminal Type Starting contact function selection Input signal Analog freguency setting Built in type RS 485 terminal Voltage Output signal Contact Symbol M1 M2 M3 FX M7 RX M8 JOG M6 Note BX M5 V V VI A0 BO 5G GC CM 50 51 3A 3G3B Al 4 C1 4 Name Multi function input 1 2 3 Forward run Reverse run Jog frequency reference Emergency stop Fault reset Sequence common Sequence common Frequency setting power 12V 12V Frequency reference Voltage Frequency reference Current Frequency setting Pulse Frequency setting common terminal RS 485 signal High and Low RS 485 common For external monitoring Fault contact output Multi function output relay Description Used for multi function input terminal Factory default is set to Multi step frequency 1 2 3 Forward run stop terminals by ON OFF operations Reverse run stop terminals by ON OFF operations Runs at jog frequency when the jog signal is ON The direction is set by the FX or RX signal When the BX signal is ON the output of the inverter is turn
22. d current A rating Output frequency Output voltage Input rating en Frequency Weight kg m 400V class Type SV 1iP5 4 Maximum Note1 HP motor rating kW Capacity Note2 KVA Output Rated current A rating Output frequency Output voltage Input rating ers Frequency Weight kg Note1 Indicates the maximum applicable capacity when using 4 pole LG motor Note2 Rate capacity 3 x V x 1 is based on 220V for 200V class and 440V for 400V class 055 75 55 9 1 24 49 055 75 55 9 1 49 075 75 12 2 32 75 075 7 12 2 5 110 150 185 15 20 25 11 15 18 5 17 5 229 28 2 46 60 74 0 120Hz 200 230 V 39 200 230 V 15 10 Note3 50 60 Hz 5 77 143 194 110 150 185 15 20 25 11 15 18 5 18 3 229 29 7 24 30 39 0 120Hz 380 480 V 3 380 480 V 15 10 Note3 50 60 Hz 5 77 144 20 Note3 Maximum output voltage will not be greater than the input voltage Output voltage less than the input voltage may be programmed MAA Inverter Starvert iP5 Series 220 300 30 40 22 30 33 5 45 88 115 20 20 220 300 30 40 22 30 343 45 45 61 20 20 ITEE NANRKARANARKKAKAA ss specification E Common specification Regenerative Maximum braking braking torque Time Rate Cooling Protection E Control Control type Frequency setting resolution Frequency accuracy V Frate Overload capacity Torque boost E Operation Type Frequency Setting Start si
23. e6 FU1 24 27 appears by setting the parameter value as DC break at FU1 23 Note7 FU1 34 35 appears by setting the parameter value as Yes at FU1 33 Note8 FU1 41 48 appears by setting the parameter value as User V F at FU1 33 18 Setting range LCD 7 segment Accel 0 DC start 1 Flying start 2 Oto 60 sec Oto 150 Decel 3 DC brake 4 Free run 5 Oto 60 sec 0 1 to 60 Hz Oto 60 sec Oto 200 No 0 Yes 1 40to 120 Hz 30toFU1 30 0 01 to 10 Hz No 0 Yes 1 OtoFU1 35 FU1 34 to FU1 30 Linear 0 Square 1 User V F 2 Oto FU1 30 Oto 100 9 OtoFU1 30 Oto 100 OtoFU1 30 Oto 100 9 OtoFU1 30 Oto 100 9 73 to 115 0 40 to 110 None 0 Manual 1 Auto 2 Oto 30 No 0 Yes 1 FU1 62 to 200 50 to FU1 61 Maximum 150 Self cool 0 Forced cool 1 30to110 Oto 30 sec No 0 Yes 1 30to 150 Oto 60 sec 00 to 11 Bit set 000 to 111 Bit set 30to 150 OtoFU1 30 Max freq 0 Delta freq 1 0 01 sec 0 1 2 1 0 1 sec 1 sec Not available Factory default Accel 0 0 sec 50 Decel 0 1 sec 5 00 Hz 1 0 sec 50 No 60 00 Hz 60 00 Hz 0 50 Hz No 0 50 Hz 60 00 Hz Linear 15 00 HZ 25 30 00 Hz 50 45 00 Hz 75 60 00 Hz 100 100 0 100 0 None 0 No 130 120 Self cool 110 10 0 sec Yes 120 60 0 sec 00 000 100 0 00 Hz Max freq 0 1 sec 1 Adj
24. ec 10 0 sec Yes APP 09 D gain for PID control PID D time 09 Oto 1000 msec 0 0 msec Yes APP 10 High limit frequency for PID control PID limit H 10 Oto 300 00 Hz 60 00 Hz Yes APP 11 Low limit frequency for PID control PID limit L 11 Oto 300 00 Hz 0 00 Hz Yes APP 12 PID output scale PID Out Scale 12 0 1 to 999 9 100 No x APP 13 PID P2 gain PID P2 gain 13 0to999 9 100 No x APP 14 Pgain scale P gain Scale 14 Oto 100 94 100 9 No x APP 17 PID U curve feedback select PID UFbk 17 AE I No No APP 20 2nd Acceleration time 2nd Acc time 20 0 to 6000 sec 5 0 sec Yes APP 21 2nd Deceleration time 2nd Dectime 21 0 to 6000 sec 10 0 sec Yes APP 22 2nd base frequency 2nd BaseFreq 22 30 to FU1 20 60 00 Hz No Linear 0 APP 23 2ndV F pattern 2nd V F 23 Square 1 Linear No User V F 2 APP 24 2nd forward torque boost 2nd F boost 24 Oto 15 2 0 No Note22 APP 03 17 appears by setting the parameter value as Yes at APP 02 x These hiding codes are only displayed in case of setting those related codes Inverter St Function codes table E Application group APP Code APP 25 APP 26 APP 27 APP 28 Note23 gt APP 29 APP 40 x APP 41 x APP 42 x APP 43 x APP 44 x APP 45 x APP 46 x APP 47 x APP 48 x APP 49 x APP 50 x APP 51 x APP 52 x APP 53 x APP 54 x APP 55 APP 56 x APP 57 x APP 58 x APP 59 x APP 60 APP 61 APP 62 x APP 63 x APP 64 x APP 65 x APP 66 x APP 67 x A
25. ed off When motor uses an electrical brake to stop BX is used to turn off the output signal When BX signal is off Not turned off by latching and FX signal or RX signal is ON motor continues to run Used for fault reset Common terminal for NPN contact inputs Common terminal for PNP contact inputs Used as power for analog frequency setting Maximum output 12V 100mA 12V 100mA Used for DC 0 1 0V or 10 10V input frequency reference input resistance is 20 Kd Used for 4 20mA input frequency reference input resistance is 250 Kd Used for pulse input frequency reference Common terminal for analog frequency reference signal and FM for monitoring RS485 Signal Outputs one of the followings Output frequency Output current Output voltage DC link voltage Default is set to output frequency Maximum output voltage and output current are 0 12V and 1mA 500Hz Activates when protective function is operating AC 250V 1A or less DC 30V 1A or less Fault 30A 30C closed 30B 30C open Normal 30B 30C closed 30A 30C open Use after defining multi function output terminal AC 250V 1A or less DC30V 1A or less Note The multi function input terminals M1 M4 and M6 M8 excluding M5 BX are modifiable those function into others Inverter Starvert iP5 Loader m LCD loader Segment Display Name MODE Mode key PROG Program key ENT Ente key AUP Upkey GN k i v Down Down key SHIFT ESC Shift ESC key
26. equency 2 high JumpHi2 14 FU2 13 to FU1 30 25 00 Hz Yes x FU2 15 Jump frequency 3 low Jumplo3 15 OtoFU2 16 30 00 Hz Yes x FU2 16 Jumpfrequency 3 high Jump Hi3 16 FU2 15 to FU1 30 35 00 Hz Yes FU2 20 Power ON start selection Power on run 20 va A No Yes No 0 FU2 21 Restart after fault reset RST restart 21 Yes 1 No Yes FU2 22 Speed search selection Speed Search 22 0000 to 1111 Bit set 0000 No Note13 FU2 23 P gain during speed search SS P gain 23 0t09999 100 Yes FU2 24 I gain during speed search SS I gain 24 Oto 9999 200 Yes Note14 FU2 25 Number of auto restart attempt Retry number 25 0to 10 0 Yes FU2 26 Delay time before auto restart Retry Delay 26 Oto60 sec 1 0 sec Yes 0 75kW 0 1 5kW 1 2 2kW 2 3 7kW 3 5 5kW 4 FU2 40 Rated motor selection Motor select 40 7 5kW 5 4 No 11 0kW 6 15 0kW 7 18 5kW 8 22 0kW 9 30 0kW 10 FU2 41 Number of motor poles Pole number 41 2to12 4 No FU2 42 Rated motor slip Rated Slip 42 0to10 Hz 5 No FU2 43 Rated motor current RMS Rated Curr 4B 1 to 200 A No FU2 44 No load motor current RMS Noload Curr 44 0 5 to 200 A No FU2 45 Motor efficiency Efficiency 45 70 to 100 No FU2 46 Load inertia Inertia rate 46 0t01 0 No FU2 47 Gain for motor speed display RPM factor 47 1 to 1000 100 9 Yes FU2 48 Carrier frequency Carrier freq 48 0 7 to 15 kHz 5 kHz Yes V F 0 FU2 60 Control mode selection Control mode 60 Slip comp 1 V F No Sensorless 2 Note15 x FU2 61 Auto tuning Auto tuning 61 2 H No No x F
27. erated during sleep and the Wake Up function is initiated in case the real value of control volume is dropped below the wake up level Note The Sleep function is not operated if the sleep delay time is set to 0 Real value A Wakeup level 7 Frequency Sleep frequency Inverter Starvert iP5 Series Basic information Motor rating 200V class 400V class 5 5kW 7 5HP SV055iP5 2NU SV055iP5 4NU 7 5kW 10HP SV075iP5 2NU SV075iP5 4NU 11kW 15HP SV110iP5 2NU SV110iP5 4NU 15kW 20HP SV150iP5 2NU SV150iP5 4NU 18 5kW 25HP SV185iP5 2NU SV185iP5 4NU 22kW 30HP SV220iP5 2NU SV220iP5 4NU 30kW 40HP SV300iP5 2NU SV300iP5 4NU SV 055 iP5 2 N U LG Inverter Starvert series A Motor rating iP5 series Input voltage 2 220V class 4 400V class NO loader UL conformity r SV150iP5 2NU SV150iP5 4NU Inverter type It power rating INPUT 200 30V 3phase Input pi 69A Input current and frquency INPUT 380 460V 3phase 50 60Hz 35 50 60Hz Sphase OUTPUT 0 Input V 60A 0 120Hz 3phase utput power rating Oi OUTPUT 0 Input V 0 120Hz Output current and frequency 30A 20HP 15kW Capacity 20HP 15kW KIDMANI Dr N A 0010222100155 Serial number 0010222100155 he LG Industrial Systems Co Ltd A C LG Industrial Systems Co Ltd Basic specification E 200V class Type SV 1iP5 2 Maximum Note1 HP motor rating kW Capacity Note2 KVA Output Rate
28. erminal output status Out status 16 00000000 to 11111111 00000000 1 0 90 Inverternumber Inv No 90 1t031 1 Yes 1200 bps 0 2400 bps 1 1 0 91 Baud rate Baud rate 91 4800 bps 2 9600 bps Yes 9600 bps 3 19200 bps 4 None 0 Note21 gt 1 0 92 Operating method at loss of freq reference COM Lost Cmd 92 FreeRun 1 None No Stop 2 x 10 93 Waiting time after loss of freq reference COMTime Out 93 0 1 to 120 sec 1 0 sec Yes 1 0 94 AorBcontact In No Nc set 94 00000000000 11111111111 00000000000 No 1 0 95 Input time In CheckTime 95 1 to 1000 1 msec Yes 1 0 96 OH Trip sel 96 000 to 111 bit 111 bit Yes 1 0 97 Return code Not Displayed 99 1 1 Yes Note21 I 0 92 93 appears by setting the parameter value as Int485 at DRV 04 x These hiding codes are only displayed in case of setting those related codes E Application group APP ex Keypad display Settingrange Adj during cock Dee co se DD e ei rt APP 00 Jumpto desired code Jumpcode Notdisplayed 0to99 Notavailable 1 Yes APP 01 Application mode selection App Mode 01 Ne F None No APP 02 PID operation aelection Proc PI mode 02 D No No Note22 APP 03 PID F gain PID F gain 03 Oto 999 9 0 Yes None 0 Keypad 1 1 x APP 04 PID auxiliary reference mode selection Aux Ref Mode 04 82 3 None Ko 4 v2 5 0 x APP 06 PID feedback signal selection PIDF B 06 i Ne Pulse 4 APP 07 P gain for PID control PID P gain 07 Oto 999 9 1 0 Yes APP 08 I gain for PID control PID Hime 08 Oto 32 0 s
29. 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 Input voltage adjustment Output voltage adjustment Energy save Energy save Electronic thermal selection Electronic thermal level for 1 minute Electronic thermal level for continuous Electronic thermal characteristic selection motor type Overload warning level Overload warning time Overload trip selection Overload trip level Overload trip delay time Input Output phase loss protection Stall prevention mode selection Stall prevention level Accel Decel change frequency Reference frequency for Accel and Decel Accel Decel time scale Return code Keypad display LCD 7 segment Start mode 20 DcSt time 21 DcSt value 22 Stop mode 23 DcBlktime 24 DcBr freq 25 DcBrtime 26 DcBr value 27 Dynamic B 28 Max freq 30 Base freq 31 Start freq 32 Freq limit 33 F limit Lo 34 F limit Hi 35 V F pattern 40 User freq 1 41 User volt 1 42 Userfreg 2 43 User volt 2 44 Userfreq 3 45 User volt 3 46 User freq4 47 User volt 4 48 VAC440 0V 49 Volt control 50 Energy save 51 Manual save 52 ETH select 60 ETH 1 min 61 ETH cont 62 Motor type 63 OLlevel 64 OL time 65 OLT select 66 OLT level 67 OLT time 68 Trip select 69 Stall prev 70 Stall level 71 Acc DecchF 72 Acc Dec freg 73 Time scale 74 Not displayed 99 Note5 FU1 21 22 appears by setting the parameter value as DC start at FU1 20 Not
30. gnal Multi step s Multi step Acc Decel Input signal Acc Decl pattern Emergency stop JOG Fault reset Operating status Output signal Fault output Indicator Operation function E Protection Inverter trip Inverteralarm Mom entary power Below 15 msec failure ven Operation information Trip information E Environment Ambient temperature Storage temperature Ambient humidity Altitude vibration Application site 20 Continuous Note1 Option braking unit braking resistor Forced cooling NEMA1 UL Type1 for 5 5 11kW as standard Option for 15 30kW V F Slip compensation Sensorless vector control Digital 0 01Hz below 100Hz 1Hz over 100Hz Analog 0 01Hz 60Hz Digital 0 01 of maximum output frequency Analog 0 1 of maximum output frequency Linear Squared pattern User V F 110 1minute 120 1 minute Note2 Manual torque boost setting as 0 15 Auto torque boost Key Terminal Communication operation Analog 0 10V 10V 10V 4 20mA Pulse Digital Loader Forward Reverse Maximum 16 steps Multi function terminal 0 1 6 000Seconds Up to 4 types can be set and selected for each setting use multi function terminal Selectable among Linear U and S shapes Momentary output blocking Jog operation Trip status is removed when protection function is active Frequency detection level Overload alarm Stalling Over voltage Under voltage Inverter overheating Running Stopping Constant speed running
31. gy1 VI y1 2 V1 volt x2 04 VI freqy2 V1 y2 a Ifilter 06 curr x1 07 Ifregy1 1 y1 2 curr x2 09 Ifregy2 I y2 j P pulse set 11 Pfilter 12 P pulse x1 13 P pulse y1 14 P pulse x2 15 P pulse y2 16 Wire broken 17 Lost 18 command Setting range LCD 0t015 7 segment 0to 12 Voltage Watt Ver XXX No Yes No Yes No Yes No All Groups DRV FU1 FU2 VO EXT au WN gt gt 0O gt o gt o gt o Oto999 No Yes Not available 0 1 PROG ENT or SHIFT ESC Setting range LCD 7 segment 1to99 Not available Oto 9999 ms 0to12M OtoFU1 3 0 150 0 Hz 0to12M OtoFU1 0 150 30 Oto 9999 ms Oto20 OtoFU1 0 150 Oto 20 OtoFU1 0 150 A B A 0t0 9999 mA 30 mA 30 0 1 msec Oto 10 kHz Oto Maximum freq Hz Oto 10 kHz Oto Maximum freq Hz None half of x1 below x1 None FreeRun Stop NN 4 ONO Factory default 2 0 0 Voltage No No No No No Factory default 1 10 ms 0 00 M 0 0 Hz 01 10 00 M 60 00 Hz 100 10 ms 4 00 mA 60 0 Hz 0 20 00 mA 60 00 Hz 100 A B 10 msec 0 kHz O Hz 10 kHz 60 Hz None None Adj during run No Yes Yes No No No No Yes Yes Adj during run Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Note18 Note19
32. ical Note2 This function is not available in the sensorless mode Inverter Starvert iP5 Series 5 The best ofthe best choice for Fan 8 Pump exclusive use STARVERT iP5 Series Auto energy saving Depending on the application conditions at normal speed operation iP5 searches its parameter setting values and this enables to perform the energy saving function The auto energy saving function guarantees an optimum energy use efficiency in the applications like Fan Pump and HVAC where require a constant operation speed and long time operation Damper control Electricity consumption 100 Inverter control Oil Volume Wind volume Speed 100 80 Reduction rate 60 40 20 Note In case of heavy loads or requiring a frequent speed Acc Decelerations the efficiency of 0 auto energy saving may decrease 0 10 20 30 40 50 60 70 V FMode 1 15 Manual Sensorless mode 30 Manual 3 Sensorless Auto Recommended 6 LG Industrial Systems MMC Multi motor control In case the oil volume or its pressure degree is lower or higher than its usual level controlling those degrees through the main motor may not be strong enough considering its capacity then operating a sub motor with the main motor enables to maintain those degrees in a definite level Controlling maximum 4 sub motors is possible with one main motor Main power Sub motor4 Enha
33. n Acc pattern 02 S curve 1 Linear No U curve 2 Linear 0 FU1 03 Deceleration pattern Dec pattern 03 S curve 1 Linear No U curve 2 Note4 FU1 04 Start side for S curve Accel Decel pattern Start Curve 04 Oto 100 50 No x FU1 05 End side for S curve Accel Decel pattern End Curve 05 Oto 100 50 No Note4 FU1 4 5 appears by setting the parameter value as S curve at FU1 2 x These hiding codes are only displayed in case of setting those related codes Inverter St Function codes table m FU1 group FU1 Code FU1 20 Note5 x FU1 21 FU1 22 FU1 23 Note6 FU1 24 x FU1 25 x FU1 26 FU1 27 FU1 28 FU1 30 FU1 31 FU1 32 FU1 33 Note7 FU1 34 x FU1 35 FU1 40 Notes x FU1 41 FU1 42 FU1 43 FU1 44 FU1 45 x FU1 46 FU1 47 FU1 48 FU1 49 FU1 50 FU1 51 Note9 x FU1 52 FU1 60 Note10 FU1 61 x FU1 62 x FU1 63 FU1 64 FU1 65 FU1 66 FU1 67 FU1 68 FU2 69 FU1 70 FU1 71 FU2 72 FU2 73 FU2 74 FU1 99 Description Start mode Starting DC injection braking time Starting DC injection braking voltage Stop mode DC injection braking on delay time DC injection braking frequency DC injection braking time DC injection braking voltage Dynamic braking Maximum frequency Base frequency Starting frequency Frequency limit selection Low limit frequency High limit frequency Volts Hz pattern User V F frequency 1 User V F voltage 1 User V F
34. nced energy efficiency 8 Fan and Pump exclusive functions Newly adopted auto energy saving function of iP5 solved the energy shortage problems of previous inverters More good news of iP5 is the realizations of speed search improvement MMC and sleep functions These functions help to make iP5 as a optimum solution of VT applications such as Fans and Pumps e Auto energy saving o MMC e Improved speed search Sleep Improved speed search The speed search function basically works by controlling the output voltage and frequency in order not to give any unusual impact to the inverter and this allows proper rotation of the motor according as users needs under unexpected situations such as instantaneous power failure The speed searching of inverter was performed controlling the output voltages and frequencies in order yet iP5 controls those factors simultaneously which results in a prompt response and bi directional speed search becomes possible Previous inverter pattem Speed search of iP5 Light load Heavy load ss Light lload Heavy load Voltage 100 Voltage 100 Frequency 100 Frequency 100 Sleep The Sleep function can be defined as one of the energy saving functions When the flow demand is low if the inverter operates during sleep delay time at below fixed sleep frequency it stops the motor so that the consuming energy is saved However the control and monitoring functions are being op
35. played in case of setting those related codes E Input Output Group I O Code 1 0 00 Note17 gt 1 0 01 x 1 0 02 1 0 03 x 1 0 04 1 0 05 x 1 0 06 x 1 0 07 x 1 0 08 x 10 09 x 1 0 10 x 1 0 11 x 1 0 12 x 1 0 13 x 1 0 14 x 1 0 15 x 1 0 16 x 1 0 17 x 1 0 18 Description Jump to desired code Filtering time vonstant 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 I Input minimum current Frequency corresponding to input minimum current I Input maximum current Frequency corresponding to I input maximum current Pulse input method Pulse input filter Pulse input minimum frequency Frequency corresponding to l O 13 Pulse input maximum frequency Frequency corresponding to l O 15 Criteria for analog input signal loss Operating selection at loss of freq reference Note17 O 1 18 appears by setting the parameter value as V1 V1S V1 1 at DRV O x These hiding codes are only displayed in case of setting those related codes 20 LG Ind Keypad display LCD 7 segment Rev boost 69 PowerOn disp 80 User disp 81 SAW version 82 Para disp 90 Para Read 91 Para Write 92 Para Init 93 Para Lock 94 Para Save 95 Not displayed 99 Keypad display LCD 7 segment Jumpcode Not displayed VI filter 01 V1 volt x1 02 VI fre
36. raking and the braking resistor as a built in option the Stand alone type braking unit and resistor should be used solely The basic use rate ED of below table shown is 5 and in case of 10 use rate the rated watt of stand alone type resistor should be doubled Inverter capacity Use rate 100 Braking 150 Braking Voltage KW ED Continuous operation OHM WATT OHM WATT 55 5 15sec 30 700 20 800 75 5 15sec 20 1 000 15 1 200 1 5 15sec 15 1 400 10 2 400 200V class 15 5 15sec 11 2 000 8 2400 185 5 15sec 9 2400 5 3 600 2 5 15sec 8 2800 5 3 600 30 5 15sec 3 5 000 55 5 15sec 120 700 85 1 000 75 5 15sec 90 1 000 60 1 200 1 5 15sec 60 1 400 40 2 000 400V class 15 5 5sec 45 2 000 30 2400 185 5 15sec 35 2400 2 3 600 2 5 15sec 30 2800 20 3 600 30 5 15sec 12 5 000 p 28 LG Industrial Systems Basic configuration Proper peripheral devices must be selected and correct connections made to ensure proper operation An incorrectly applied or installed inverter can result in system malfunction or reduction in product life as well as component damage You must read and understand this manual thoroughly before proceeding AC source supply Use the power supply within the permissible range of inverterinput power rating MCCB or Earth leakage circuit breaker ELB Select circuit breakers with care A large inrush current may flow in the inverter at power on Magnetic contactor Installit if necessary
37. tion terminal of inverter terminal N 200V k B1 Connection terminal of braking unit B1 inca 85 20 SV220DBU 2 B2 Connection terminal of braking unit B2 30kW SV037DBH 2 G Ground terminal 5 5 15kW SV150DBU 4 Below OH OHTrip output terminal open collector output 20mA 27V DC eat 18 5 22kW SV220DBU 4 22w CM Common terminal of OH terminal class 30kW SV037DBH 4 IN Continuous operation connection terminal For SLAVE MODE Below IN Continuous operation connection terminal For SLAVE MODE 30kW OUT Continuous operation connection terminal For SLAVE MODE OUT Continuous operation connection terminal For SLAVE MODE 30A B C Thefault signal of braking units protection function is released via these terminals 5 Wi ri n g Koch Inverter oR Single use of braking unit Peace T Within 6 0 0 0 30B G 10 meters eG 9300 OTH2 i i Braking unit Braking resistor E Below 22kW braking unit E Over 30kW braking unit 4 M5 Mounting Weight 2 45kg 0 unit mm r MTT NM 2 455 7 455 EJ e T 3 n a a 177 s Dynamic Braking 1 CUTE Dynamic Braking Uniit lg T Main circuit terminal ail i Control circuit terminal i ar lal 19 x x x x e ra om on i K ae 5s a G N 82 PB OHT POWER RUN N x x x x Main circuit terminal 8 i ka 2 3 LA fate si DN al vile L ad 125 jag la a a N IN OUT OUT 308 300 30A 150 123 130 E Stand alone type braking resistor As our iP5 series does not provide the B
38. tting the parameter value as V1 VIS V1 1 at DRV 0 Note19 O 35 42 appears by setting one of parameter values among I O 20 27 as SPD X x These hiding codes are only displayed in case of setting those related codes Setting range LCD 7 segment 0 1 to 120 sec 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 Reserved 9 Up 10 Down 11 3 Wire 2 Ext Trip A 3 Ext Trip B 4 iTerm Clear 5 Open loop 6 Main drive 7 Analog hold 8 XCEL stop 9 P Gain2 20 Reserved 21 Interlock1 22 Interlock2 23 Interlock3 24 Interlock4 25 Speed X 26 Reset 27 Reserved 28 JOG 29 FX 30 RX 31 Ana Change 32 Pre excite 33 Same to 0 20 Same to 0 20 Same to Q 20 BX Same to l O 20 Same to I O 20 Same to I O 20 000000000 to 111111111 2to50 0 Maximum Frequency Maximum Frequency 0 Maximum Frequency 0 Maximum Frequency 0 Maximum Frequency 0 Maximum Frequency 0 Maximum Frequency 0 Maximum Frequency 0 Maximum Frequency 0 Maximum Frequency 0 Maximum Frequency 0 Maximum Frequency 0 Maximum Frequency 0 to 6000 sec Factory default 1 0 sec Speed L Speed M Speed H Speed M Speed H Speed M Speed H Speed M 15 10 00 Hz 40 00 Hz 50 00 Hz 40 00 Hz 30 00 Hz 20 00 Hz 10 00 Hz 20 00 Hz 30 00 Hz 40 00 Hz 50 00 Hz 40 00 Hz 30 00 Hz 20 0 sec Inverter Starvert iP5 Series Adj d ru n Yes Yes Yes
39. venue Englewood Cliffs New Jersey 07632 USA Tel 1 201 816 2985 Fax 1 201 816 2343 e mail younsupl lgisusa com LG Industrial Systems Tokyo Office Japan Address 16F Higashi Kan Akasaka Twin Towers 17 22 2 chome Akasaka Minato ku Tokyo 107 0052 Japan Tel 81 3 3582 9128 Fax 81 3 3582 0065 e mail snbaek igis com Specifications in this catalog are subject to change without notice due to continuous product development and improvement 2004 03 Starvert iP5 E 2004 03 01 2004 03 Printed in Korea STAFF
40. w3 H1 H2 D1 SV055iP5 2 4 150 130 6 284 269 156 5 m SV075iP5 2 4 SV110iP5 2 4 200V 400V Inverter type w1 w2 w3 H1 H2 D1 SV075iP5 2 4 200 180 6 284 269 182 SV0110iP5 2 4 200 180 6 284 269 182 26 LG Industrial Systems m SV150iP5 2 4 SV185iP5 2 4 200V 400V ung Inverter type w1 w2 SV150iP5 2 4 250 230 SV185iP5 2 4 250 230 m SV220iP5 2 4 SV300iP5 2 4 200V 400V Inverter type w1 w2 SV220iP5 2 4 304 284 SV300iP5 2 4 304 284 H2 D1 370 201 370 201 H2 D1 445 234 445 234 Inverter Starvert iP5 Series 27 Braking unit Voltage Inverter Braking Terminal name Description 9 capacity unit P Connection terminal of inverter terminal P2 orP 55 15kW SV150DBU 2 N Connec
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