STARVERT iV5 - Ana
Contents
1. DC has a same dimension as AC Drive Model Wi W3 H1 D1 1200 1330 1260 550 brea 30 39 44 90 43 70 17 40 8 7 5 11kW MRL 680 666 AEG MRL Elevator Drive WARNING 53 Dimension 9 15kW MRL MRL Elevator Drive 700 686 108 5 75 7 O U U gt GS Cc gt lt IS IS gt I I cc C gt E ZA WARNING2. 355 p 375 10 22kW MRL 7 LZ N T MRL Elevator Drive poo 2 8 N 3 s 3 Were S Y 355 375 54 u Fault Display Drive faults activate its protection functions which enable the alarm operation and each fault status is displayed in the loader Refer to table shown below for the LCD loader displays Protection function LCD Display Description OC U l l ment OC V Drive uris off its output when the output EL OC W of the drive flows more than 200 of the drive rated current Drive turns off its output when a ground fault occurs and the ground Ground fault protection Ground Fault fault current is mare ian the internal seting value of the drive Over current trip function may protect the drive when a ground fault occurs due to a low ground fault resistance Drive turns off its output if the DC voltage of the main circuit increases higher than the rated value 200V series 400V DC 400V Series 800V DC when the motor Over voltage protection Over Voltage decelerates or when regenerative energy flows back to the drive due to a regenerative load This fault can also occur due to a surge voltage generated at the power supply system Drive turns off its output if the DC voltage is below the rated level 200V Series Low voltage protection Low Voltage 200VDC 400V Series 400Vdc because insufficient torque or over heating of the motor can oc
3. Code Comm l Setting Data Adjustment Code Name LCD Display s No Addr Range Unit Default During Run AIO_00 Select code number Jump Code 1 83 Yes 00 Not Used 01 Speed Ref 02 Proc PID Ref 03 Proc PID F B 04 Draw Ref 05 Torque Ref 06 Flux Ref AIO 01 7701 orde Ait Define s Toe 0 No l i E input Ai1 definition 09 Line SPD Ref 1 Not Used 10 Tension Ref 1 11 Dancer Ref 1 12 Taper Ref 1 13 Tension F B 1 14 Diameter 1 15 Diam Preset 1 B 0 10 10V te 1 10 gt 10V AIO 02 7702 Source definition Ali Source denn i No E 3 10 OV Not Used 4 0 20mA 5 20 0mA AIO_03 7703 Minimum Voltage Ail In X1 0 00 Ai1 In X2 0 00 Yes AIO 04 7704 Minimum Voltage Bias Ai1 Out Y1 10 00 Ai1 Out Y2 0 00 Yes AIO 05 7705 Maximum Voltage Ali In X2 0 00 100 00 100 00 Yes AIO 06 7706 Maximum Voltage Gain Ait Out Y2 0 00 250 00 100 00 Yes AIO 07 7707 Minimum Voltage Ail In X1 Ai1 In X2 0 00 0 00 Yes AIO 08 7708 Minimum Voltage Bias Ai1 Out Y1 Ai1 Out Y2 10 00 10 00 Yes AIO 09 7709 Maximum Voltage Ai1 In X2 100 00 0 00 100 00 Yes AIO 10 770A Maximum Voltage Gain AIT Out Y2 250 00 0 00 100 00 Yes AlO_11 770B LPF time constant Ait LPF 0 2000 ms 0 None AIO 12 770C e ommend Ait Wbroken 1 Half of x1 0 None No Criterion select 2 Below x1 Multi function Analog input AIO 13 770D a Ai2 Define Ai2 D
4. amp Extreme precise m SIN COS encoder option With SIN COS encoder option users can control With synchronous motor sensorless control more precisely than normal encoder functions including initial stimulus position estimation it perfectly controls SPM IPM motor without additional sensor e SPM IPM motor e Within 5 error estimation e Sensorless 30 000rpm driving Fast reponse so within 100msec 2 siak e A variety of applications such as hydraulic wo 2 120 xR pumps high speed compressor turbo blower a 60 p The actual angle MH The estimated angle leca 0 30 60 90 120 150 180 210 240 270 300 330 Please contact us for SPM IPM motor drive 07 User Friendly Interkice Easy to maintain drive motor parameter via PC m Drive View Through DriveView program drive system can be monitored with PC and managed to maintain drive motor parameters Window based Graphic User Interface GUI e LS485 Modbus RTU e Max 31 drives connection Reporting Event logging e Integrated control console Offline editing Data upload download 4ch oscilloscope Trigger function 08 m Easy to use keypad By adopting a user centered operation keypad parameter setting becomes easier and when applying to system a variety of required information can be monitored m Int
5. STARVERT iV5 Drive Model wi w2 we L1 L2 L3 L4 D1 D2 D3 D4 P1 P2 REAR 540 649 680 922 9685 998 150 1002 271 343 403 38 12 21 26 25 55 26 77 36 3 88 13 39 29 5 91 3 94 10 67 13 5 15 87 149 0 47 6 280 375kW 400V 280 375kW DC Input Type e Dimensions of each capacity mm inches Drive Model W W2 W3 WA D1 H1 H2 772 500 13 500 1140 5 1110 442 AS 80 39 19 69 0 51 19 69 44 90 43 70 17 40 SV3150iV5 4 922 580 14 580 1302 5 1271 5 495 SV3750iV5 4 6 30 22 83 0 55 22 83 51 28 50 06 19 49 52 7 500kW 400V 500kW DC Input Type HIH AT CN 000 e Dimensions of each capacity mm inches
6. V5 provides the optimum system operating environment with various function and superior control performance Continuous line Winding Unwinding System of Metal processing Paper amp Paperboard Textile Cable line Continuous line control To set the line speed Customized function for continuous line Diameter operating u Diameter operating Taper function e Splicing control e Flux Tension control ES Mn Inertia compensation within 5 estimation Bobbin random set function Quick stop To use Dancer Load cell Online set Winding Unwinding Squared Linear a 2 Quadratic e Over Under winding Breakage detecting function Core fault detecting function 04 Motor m Tension control Input A Tension Hyperbolic Tension Linear 100 Taper 100 Taper 0 Taper us xm 096 Taper 10096 Taper 10096 Taper Core Size 10096 Diameter Core Size 10096 Diameter amp VB guarantees system safety and m Crane system iV5 can operate crane system with load balancing speed position control brake control of harbor crane overhead crane tower crane parking system and automation warehouse Brake control At stop PR m At start Motor 4 speed NEW PWM output Output current Brake output LIH 38 B gt r Yammmmmu mmmmmmmet 000000 ummummummmmmmmet 2
7. Bias AO1 Bias 100 0 AIO_77 0 0 No AIO_77 774D Gain AO1 Gain 0 0 500 0 100 0 No AIO 78 TIAE Bias AO1 Bias AIO 79 0 0 0 0 Yes AIO 79 774F Multi function Analog Input AO1 Gain AO1 Gain 0 0 500 0 100 0 Yes AIO_80 7750 Absolute value setting AO1 ABS 0 No 1 Yes 0 No No 42 Code Comm i Setting Data Adjustment Code Name LCD Display No Addr Range Unit Default During Run AIO 81 7751 5 Definition AO Define AIO 82 7752 E Source Definition AO2 Source AIO 83 7753 9 Bias AO Bias AIO 84 7754 8 Gain AO2 Gain Refer to AIO 74 78 AIO_85 7755 8 Bias AC Bias AIO 86 7756 2 Gain AO Gain AIO 87 7757 Absolute value setting AO2 ABS Note 1 Displayed only when WEB mode setting 2 It is available when Extension I O EXTN 1 0 is applied 3 It will be displayed when CON 01 is set to Sensorless Sensorless control Group SLS_ Code Comm Setting Data Adjustment Code Name LCD Display No Addr Range Unit Default During Run SLS_00 Function code selection Jump Code 1 23 Yes SLS 01 7D01 ij Flux BD Time 100 60000 ms 500 Yes SLS_02 7D02 P gain for flux estimation FlxEst PGain 0 1 999 9 100 0 Yes SLS 03 7D03
8. 17 Encoder Line drive BO Encoder output A Phase Encoder output common terminal Encoder output B Phase Encoder output common terminal Analog output Analog output2 Common out Analog output 10 10V Fault digital output AC 250V 1A DC 30V 1A Multi function digital output AC 250V 1A DC 30V 1A Multi function open collector output 24V 50mA AC Input Type 500kW 400V B2 DB resistor G DB unit option optional Bi p N i MCCB ACR MC P1 P2 N U R TT A 3Phase WB S A V AC input um W O T G Power source FAN1 me TO 220V 50 60Hz FAN2 Note 2 Insulated transformer G shielded cable Power supply 5V PE Note 2 Insulated C ov 5G transformer 24V A Encoder Line drive Aux Power source AC1 Encoder APhase A for control circuit GE input p 220V 50 60Hz AC2 l M FX Encoder B Phase Bt FWD run stop command Q mut pg O REV run stop command RX RA Y A Phase encoder pulse output Emergency stop BX Open collector GE 4 Encoder output common Fault reset 4 RST output RB Ay B Phase encoder pulse output GE Encoder output common Multi function input ea AO 9 Analogouputt eet Multi function input2 C P2 MM1 10 10V ZE AO2 Analog output2 Multi function input3 Y P3 ATO Vard 5G Common out 10 0V Multi function input Multi function input4 9 P4 FHM 30A Eau rel EU Multi function inputS PS BAT oe Multi functio
9. 5 38400 bps 38 Code Comm Setting Data Adjustment Code Name LCD Displa No Addr s Range Unit Default During Run 0 8None 1 Stop ee Ne 1 8None 2Stop EXT 34 7622 Built in 485 communication mode Int485 Mode A z Yes 2 8Even 1Stop 3 8Odd 1 Stop EXT 35 7623 SEDIT TET DUNES Int485 Delay 2 1000 0 None Yes communication response 0 None EXT 36 7624 Mon metod when the commandot acoso 1 FreeRun Yes built in 485 is lost 2 Stop Decision time for losing the 5 E Yes EXT 37 7625 re Int485 LostT 1 0 30 0 Decision time for losing the EXT_99 7663 ana ay Comm UpDate 4 0 No 1 Yes 0 No No Note 1 It will be displayed when RS 485 communication option board is installed 2 It will be displayed when PLC GF communication option board is installed 3 It will be displayed when DeviceNet communication option board is installed 5 From EXT_11 to EXT_18 Option ouput are displayed according to the number from EXT_11 6 From EXT_20 to EXT_27 Option input are displayed according to the number from EXT_19 4 It will be displayed when Profibus communication option b oard is installed 7 Refer to the appropriate option manual 39 Function Codes Table u Analog AIO Group AIO 1 1
10. High Precision amp Torque Control LS Vector Drive STARVERT iV5 2 2 37kW 3 Phase 200 230V 2 2 800kW 3 Phase 380 460V 5 5 500kW DC Input type IS Our lives with STARVERT 5 The UDO solution 195 5885 provides full sodsiuc don Optimized Solution for System Drive Control the Crane Elevator amp Continuous line system based on powerful performance High Performance Control system Speed Torque control SIN COS encoder PM Sensorless Auto tuning Endat encoder Draw Droop Process PID Control Built in brake control User friendly Interface User friendly keypad Various field bus option DriveView management Various Option for System Application Synchronize SIN COS encoder Endat encoder Extension I O EL I O option 00500 We guarantee your satisfaction will be beyond your expectation IV5 series realizes the high precision vector control in entire operational area and its highly precise speed control guarantees a superb control stability in the crane continuous line and elevator system controls 006 220kW UL Certification ISO 14001 ISO 9001 a Contents 04 Features 26 Shifts between each 12 Model amp Type groups and codes 13 Standard Specification in the Loader 16 Wiring 27 Function Codes Table 22 Terminal Function 47 Braking Unit and Resistor Board 49 Dimension 2 54 Fault Solution a 55 Basic configu 2410 25 Loader Use 0 Vel
11. e Display functions Displayed item Description Main power in braking unit turns on the POWER LED Generally the braking unit is wired to Drive so once the input main power of drive is on the POWER LED of braking unit turns on While braking unit operates its normal operation by the motor regenerative energy the RUN LED blinks During the braking operation if the braking unit heat sink is overheated and exceeds its limited value OHT the overheat protection function operates This blocks the braking unit signal and then turns on the OHT LED During the braking operation if over current flows in the main circuit of braking unit inside then the over OCT current protection function is operated in order to prevent the circuit from over current The TURN ON signal of braking unit is blocked and then turns on the OCT LED POWER RUN Terminal Block and Braking Unit m Wiring mm 1 Single use of Braking unit R U Power S V Motor T W 231 5 D I 3 2 within 10m TL IT 3 S Braking unit Braking resistor 30B mia Lj TH2 130 2 Double use of Braking unit Weight 2 45k9 Power lt A s im Motor RO P1 B2 B2 B1 Note 1 OUT P2 Lee n N N ed l Main circuit terminal block Control circuit terminal to xl H YL ee M m M M M M M dedo 5660008 mai Ka eo e 6 IN IN OUT OUT
12. 0 None CON_31 751F S Reference source selection Trq Ref Src bu 0 None No o 2 Keypad 3 Option CON_32 7520 Reference keypad Torque Ref 180 0 180 0 0 0 Yes 35 Function Codes Table Code Comm Setting Data Adjustment Code Name LCD Display No Addr Range Unit Default During Run 0 Kpd Kpd Kpd 1 Kpd Kpd Ax 2 Kpd Ax Kpd 3 Kpd Ax Ax n CON 33 7521 Limit source selection Trq Lmt Src pa SNE Kod Kod Kod No 6 Ax Ax Kpd 7 Ax Ax Ax Q 8 Opt Opt Opt CON 34 7522 5 Limit in forward run Pos Trq Lmt CON 35 7523 S Limit in reverse run Neg Trq Lmt 0 0 250 0 150 0 Yes CON_36 7524 Limit in regeneration Reg Trq Lmt 0 None 1 Analog CON_37 7525 Bias source selection Trq Bias Src 2 Keypad 0 None No 3 Option CON_38 7526 Bias quantity Trq Bias 150 0 150 0 0 0 Yes CON 39 7527 Bias feedforward Trq Bias FF 150 0 150 0 0 0 Yes CON 40 7528 Balance quantity Trq Balance 0 0 100 0 50 0 Yes CON 54 7536 Speed Search selection Speed Search 0000 1111 Bit setting 0100 No CON 75 754B S Speed Search time 4 SS Time 10 60000 ms 300 No CON 76 754 2 Speed Search P gain 4 SS P Gain 1 0 300 0 100 0 Yes CON 77 75D 8 Speed Search I gain 4 SS I Gain 1 0 300 0 100 0 Yes CON 78 754E Speed Search LPF 4 SS LPF 0 1 300 0 ms 33 3 Yes CON 79 754F pei
13. 19 Brake Output 25 WEB Break 1 26 Up To Spd 1 27 False Core 1 Definition of 0 DOE ZA AX2 SSL Same as the range of i Not Used ps iti DIO 41 Definition of 0 DIO_43 722B OCH OC1 Define Not Used Yes DIO_46 722E Fault relay mode selection Relay Mode 000 111 bit 011 Yes Function Codes Table Code Comm Setting Data Adjustment No Addr a doi Range Unit Default During Run DIO_47 722F Zero speed detection level ZSD Level 0 0 480 0 rpm 10 0 Yes DIO_48 7230 Zero speed detection band ZSD Band 0 1 10 0 0 5 Yes DIO_49 7231 Speed detection level SD Level 3600 3600 rpm 0 Yes DIO_50 7232 Speed detection band SD Band DIO_51 7233 Speed arrival band SA Band 0 1 10 0 0 5 Yes DIO_52 7234 Speed deviation band SEQ Band DIO_53 7235 Torque detection level TD Level 0 0 250 0 0 0 Yes DIO_54 7236 Torque detection band TD Band 0 1 10 0 0 5 Yes DIO_55 7237 Timer On delay time TimerOn Dly 0 1 3600 0 sec 0 1 Yes DIO_56 7238 Timer Off delay time TimerOff Dly 0 1 3600 0 sec 0 1 Yes DIO_57 7239 Warning level OL Level 30 250 150 Yes DIO 58 723A 3 Warning time OL Time 0 30 sec 10 Yes DIO_59 723B E Trip selection OLT Select 0 No 1 Yes 1 Yes Yes DIO_60 72330 O Trip level OLT Level 30 250 180 Yes DIO_61 723D Trip time OLT Time 0 60 sec 60 Yes DIO_62 723E warning temp Temp 50 85 deg 75
14. 1A 1B 2A 2B Fault digital output 1channel 30A 30C 30B 30C 1channel OCI EG Protection function Over current Over Low voltage Drive overheat Drive thermal sensor open Motor over heat Motor thermal sensor open Over speed IGBT gate blocking BX Fuse open Trip by unusual external signal Encoder error Communication error Electronic thermal Stall prevention V F Over load V F Drive over load Environment Installation environment Ambient temperature Ambient humidity Cooling method Altitude Vibration Indoor free of corrosive gas and direct sunlight 10 40C Non frozen condition Below RH90 Dew free Forced cooling by FAN Below 1000 meters above sea level 5 9 2 0 6G 15 AC Input Type 2 2 22kW 200V 400V MD MCCB 3phase AC input 220V 440V 50 60Hz Forward run Stop command Reverse run Stop command Emergency stop Fault reset Multi function input1 Multi function input2 Multi function input3 Multi function input4 Multi function inputb Multi function input6 Multi function input7 Common terminal Multi function input Variable resistor 10 KO 1 2W Standard voltage Analog input 10V 10V Analog input1 4 20mA Analog input2 0V 10 ane 4 20mA Analog input3 Motor NTC Common terminal Brake resistor option Supply power PE Encoder B Phase input B Open collector output Note e Power terminal O control terminal 16 Rd O
15. 30B 30C 30A Haas B2 B2 Bi ES A ij F TH1 T IN lee T Save Braking unit Braking resistor m Combination of the Braking units and Braking resistors 30 37kW 200V 400V 45 55kW 200V 45 75KW 400V 90 160kW 400V l SV0037DBH 2 SV0075DBH 4 ZIEMIA SV0037DBH 4 Braking Braking Braking Braking Braking unit unit unit unit unit unit SV0075DBH 4 SV0037DBH 2 Braking Braking Braking Braking Braking resistor resistor resistor resistor resistor 3 Q5kWA2 Q5kW 3 25kW 3 25kW 1225kW 1225kW 1205kUW 1225kW 1225kW 12 25kW A8 Peripheral Device MCCB Molded Case Circuit Breaker and MC Magnetic Contactor Voltage Motor kW Drive Model MCCB MC 2 2 SV022iV5 2DB UTS100N EBS33c MC 12a 12b 3 7 SV037iV5 2DB UTS100N EBS33c MC 18b 55 SV055iV5 2DB UTS150L EBS33c MC 22b 32a 75 SV075iV5 2DB UTS150L EBS53c MC 40a 200V 11 SV110iV5 2DB UTS150L EBS63c MC 50a Class 15 SV150IV5 2DB UTS150L EBS63c MC 50a 18 5 SV185iV5 2DB UTS150L EBS103c MC 65a 75a 22 SV220iV5 2DB UTS150L EBS208c MC 85a 100b 30 SV300iV5 2 UTS150L EBS208c MC 130a 150a 37 SV370iV5 2 UTS400L EBS203c MC 185a 2 2 SV022iV5 4DB UTS100N EBS33c MC 9a 9b 3 7 SV037iV5 4DB UTS100N EBS33c MC 12a 12b 5 5 SV055iV5 4DB UTS100N EBS33c MC 18b 15 SV075iV5 4DB UTS150L EBS33c MC 22b 11 SV110iV5 4DB UTS150L EBS33c MC 32a 15 SV150iV5 4DB UTS150L EBS53c MC 40a 18 5 S
16. 50 Stall Enable 1 51 Boost Enable 1 52 Quick Stop 1 53 Jog Web Fwd 1 54 Jog Web Rev 1 55 Under Wind 1 56 Unwinder 1 28 Code Comm Gots Naina LCD Disola Setting Data Adjustment No Addr id Range Unit Default During Run T 0 DIO 02 7202 P2 definition P2 define Not Used No G ee 0 DIO_03 7203 E P3 definition P3 define Not Used No E 0 DIO 04 7204 El P4 definition P4 define Same asterio Not Used No DIO_05 7205 5 P5 definiti P5 defi aad N H 5 etinition EINE Not Used gt E 0 DIO_06 7206 P6 definition P6 define Not Used No m 0 DIO_07 7207 P7 definition P7 define Not Used No DIO 08 NUDY RU 0000000 1111111 bit 0000000 No of multi function input terminal In Multi function Input Terminal 0 2000 is i LPF time constant LPF 2 is DIO 10 E Negative function of multi Neg Func 00000 11111 bi 00000 No function auxiliary output terminal Out 0 Not Used 1 INV Ready 2 Zero Spd Det 3 Spd Det 4 Spd Det ABS 5 Spd Arrival 6 Timer Out 7 LV Warn 3 8 Run o 9 Regenerating 3 10 Mot OH Warn T DIO 41 7229 2 sa al AX1 Define 11 Inv OH Wam M y Yes S 12 Spd Agree Not Used O 5 13 Trq Det 2 14 Trq Lmt Det 15 OverLoad 16 Stop 17 MC on off 18 Steady
17. 82 2 2034 4901 bonseongk Isis biz Asia Pacific 82 2 2034 4375 bkkooQlsis biz Specifications in this catalog are subject to change without notice due to continuous product development and improvement 2014 04 E Global Network e LSIS Middle East FZE gt Dubai U A E Address LOB 19 JAFZA VIEW TOWER Room 205 Jebel Ali Freezone P O Box 114216 Dubai United Arab Emirates Tel 971 4 886 5360 Fax 971 4 886 5361 e mail jungyongl lsis biz e Dalian LSIS Co Ltd gt Dalian China Address No 15 Liaohexi 3 Road Economic and Technical Development zone Dalian 116600 China Tel 86 411 8273 7777 Fax 86 411 8730 7560 e mail lixksis com cn e LSIS Wuxi Co Ltd gt Wuxi China Address 102 A National High amp New Tech Industrial Development Area Wuxi Jiangsu 214028 P R China Tel 86 510 8534 6666 Fax 86 510 522 4078 e mail xuhgOlsis com cn e LSIS VINA Co Ltd gt Hanoi Vietnam Address Nguyen Khe Dong Anh Ha Noi Viet Nam Tel 84 4 882 0222 Fax 84 4 882 0220 e mail srjo lsisvina com e LSIS VINA Co Ltd gt Hochiminh Vietnam Address 41 Nguyen Thi Minh Khai Str Yoco Bldg 4th Floor Hochiminh City Vietnam Tel 84 8 3822 7941 Fax 84 8 3822 7942 e mail sbpark lsisvina com e LSIS Tokyo Office gt Tokyo Japan Address 16th Higashi Kan Akasaka Twin Tower 2 17 22 Akasaka Minato ku Tokyo Japan Tel 81 3 3582 9128 Fax 81 3 3582 2667 e mail jschuna lsis biz e LSIS Shanghai Offi
18. SV370iV5 2 4 10 6 10 6 12 5 13 7 25 0 26 0 267 472 7 76 10 1 12 4 0 66 0 31 SV450iV5 4 svssoys4 275 275 396 375 7306 7585 780 823 1893 250 326 245 105 SV750iV5 4 10 8 10 8 14 1 147 287 29 8 80 7 3 24 745 102 12 8 0 90 0 41 4 90 160kW 400V 90 160kW DC Input Type e Dimensions of each capacity mm inches Drive Model W W2 W3 L1 L2 L3 D1 D2 D3 D4 P1 P2 SV900iV5 4 430 507 530 729 760 780 83 2 2346 2862 335 235 85 SV1100iV5 4 169 19 9 20 8 287 299 307 3 27 923 112 132 0 92 0 33 SV1320iV5 4 430 507 530 949 980 1000 952 2316 298 34 235 85 SV1600iV5 4 169 19 9 208 873 885 893 875 8 12 117 135 0 92 0 33 51 Dimension 5 220kW 400V 220kW DC Input Type e Dimensions of each capacity mm inches WE VECTOR INVERTER
19. 7508 LPF time constant 2 ASR LPF2 0 20000 ms 0 Yes CON_09 7509 Ramp time for ASR gain ASR RAMP 10 10000 ms 1000 Yes CON 10 750A Target Spaad attor ASR gain S E Tarana 0 0 3600 0 rom 0 0 No switch over CON 11 750B Reference Loader Proc PID Ref 100 0 100 0 0 0 Yes CON 12 750C Ramp time PID Ramp 0 00 600 0 sec 0 00 No CON 14 750E P gain Proc PID Kp 0 0 999 9 0 0 Yes CON_15 750F gain Proc PID Ki 0 0 100 0 0 0 Yes CON_16 7510 D gain PROC PID Kd 0 0 100 0 0 0 Yes CON 17 7511 2 Positive limit Proc Pos Lmt 100 0 100 0 100 Yes CON 18 7512 Negative limit Proc Neg Lmt 100 0 100 0 100 Yes CON 19 7513 Output LPF time constant Proc Out LPF 0 500 ms 0 Yes CON 20 7514 Output gain Proc OutGain 250 0 250 0 96 0 0 Yes 0 Base Speed CON 21 7515 Type selection Proc PID Src 1 Ref Speed Base d No 2 SpeedSet CON_22 7516 Speed Set setting 3 PID SpeedSet 1 00 FUN_04 rom 100 0 No 0 Disable CON_23 7517 Output Enable Proc PID Enb 1 Enable RAT No 2 Terminal CON 24 7518 Hold Time PIDHoldTime 0 10000 ms 1000 No CON_25 7519 Draw quantity Draw 100 0 100 0 0 0 Yes CON 26 751A Control quantity Droop 0 0 100 0 0 0 Yes CON 27 751B Base speed Droop Src A No 5 8 1 Ref Spd Ref Speed CON 28 7510 4 Ramp time Droop Time 0 00 600 0 sec 2 00 Yes CON 29 751D Minimum speed Droop MinSpd 0 0 3600 0 rom 0 0 Yes CON 30 751E Minimum torque Droop MinTrq 0 0 100 0 0 0 Yes
20. Analog output 2 channel Encoder power fault detection Elevator master function with on board option Optimum speed pattern no creep speed Battery operation during blackout Load cell optimum compensation Machine tools press Cart Hydraulic pump high speed compressor tower blower and so forth Other functions are same as SIO board SIN COS Endat encoder option Selectable Endat amp Sin Cos Option Max 3 600rpm speed Enhanced Comfortable feeling in Car Other specifications are same as SIO Compatibility with Heidenhain Encorder ECN413 ECN1313 ERN487 ERN1387 Note1 Please contact us to control continuous lines with open loop control Note1 For more than 4 analog inputs users need to additionally purchase expansion I O 11 00V Series 00V Series M MoldType PressType SV220iV5 2 DB Inverter type INPUT 200 230V 3phase Input power specification 69A 50 60Hz Rated capacity OUTPUT 0 Input V 3phase Output power specification 60A 0 1 400Hz Operation frequency and rated output 20HP 15kW ODW Bar code Cont Boar NEW New control board ANA Serial number Blank Old control board Blank 5V Line Drive 15V Open Collector MD Mold Type 2 2 22kW 24V ENC 24V Line Drive Open Collector MRL MRL Type 7 5 22kW Input voltage specification 2 220V 4 440V STARVERT Displays if DB circuit is built in Input Voltage Maximum applicable motor capa
21. DIS_01 Terminal In Yes Process PID Output PID Output 0 0 E d ud MS Ref FB oo 0 0 DIS_05 Faulty Display Faults 5 DIS 06 7106 Display Setting Disp 2 Display ALL Used Yes Note 1 It is effective only when you use Extended I O EXTN_I O 2 It is displayed on WEB control Mode 27 Function Codes Table u Digital DIO Group DIS_ Code Comm Setting Data Adjustment Code Name LCD Display No Addr Range Unit Default During Run DIO_00 S Jump for quick view Jump Code 1 98 Yes 0 Not Used 1 Speed L 2 Speed M 3 Speed H 4 Jog Speed 5 MOP Up 6 MOP Down 7 MOP Clear 8 MOP Save 9 Analog Hold 10 Main Drive 11 2nd Func 12 Xcel L 13 Xcel H 14 3 Wire 15 Ext Trip B 16 Prohibit FWD 17 Prohibit REV 18 Proc PID Dis 19 Timer Input 20 SoftStriCncl 21 ASR Gain Sel 22 ASR P PI Sel P1 definition P1 define AUKE SEL Not er i 24 PreExcite 25 Spd Trq Sel 26 Use Max Trq 27 Use Trq Bias 28 AuxSpdEnable 30 Battery Run 2 39 Synch Disable 3 40 Synch Hod 3 41 LVT Disable 42 Dia Hold 1 43 Dia Preset 44 CoreSize L 1 45 CoreSize H 1 46 TensionDisable 1 47 PI Gain Sel 1 48 PID Term Cir 1 49 Taper Disable 1 1 DIO_01 7201 Multi function Input t Terminal
22. LPF time constant 1 Aib LPF AIO 60 773C Command loss criterion select 1 Ai5 Wbroken Function Codes Table Code No Comm Addr Code Name LCD Display Setting Data Range Unit Default Adjustment During Run AIO_73 7749 Multi function Analog input command loss time Time out 0 1 120 0 Sec 1 0 No AIO_74 774A Multi function analog Output AO1 Definition AO1 Define Not Used Ai2 Value 0 1 AI Value 2 3 Ai3 Value 4 Ai4 Value 2 5 Ai5 Value 2 7 PreRamp Ref 8 PostRamp Ref 9 ASR Inp Ref 11 Motor Speed 12 Motor SpdEst 3 13 Speed Dev 14 ASR Out 15 Torque Bias 16 PosTrq Limit 17 NegTrq Limit 18 RegTrq Limit 19 Torque Ref 20 lqeRef 21 lqe 22 Flux Ref 23 IdeRef 24 Ide 25 ACR_Q Out 26 ACR_D Out 27 VdeRef 28 VqeRef 29 Out Amps RMS 30 Out Volt RMS 31 Power 32 DC Bus Volt 33 Proc Pl Ref 34 PROC PI F B 35 Proc PI Out 36 Line Speed 1 37 Tension Out 1 38 Diameter 1 39 MotNTC Temp 40 Inv Temp 41 Inv i2t 0 Not Used No AIO 75 774B Source Definition AO1 Source 0 10 gt 10V 1 10 gt 10V 2 0 gt 10V 3 10 gt 0V 0 10 gt 10V No AIO 76 774C
23. Note e Power terminal O control terminal SIO terminal indication for SV2800 3750iV5 PE PENT GE G24X Note 1 It is used when drive control circuit is energized from auxiliary power source 220 VAC without main power supply Use insulated transformer to separate from main power supply Transformer capacity above 100VA recommended 19 DC Input Type 500kW 400V Warning FAN and MC Power 220V 50 60Hz DC input 540 680VDC E Insulated transformer Aux Power source REM for control circuit E a Insulated 220V 50 60Hz Ea transformer FWD run Stop command REV run Stop command Emergency stop Fault reset Multi function input 1 Multi function input 2 Multi function input3 Multi function input 4 Multi function input5 Multi function input 6 Multi function inout7 Common Potentiometer Power supply 1 0V Y 10kohm 1 2W Analog input Analog input 1 C 10 10V 10 10V 10 104 Analog input2 10 0V oan Analog input3 20 0mA Motor NTC PTC Common P N FAN FAN2 AC1 AC2 FX Al Al2 AI3 5G Note e lt VIII III Power supply 5V Common 0V Encoder A Phase input Encoder B Phase input RA of Open collector output GE D RB C GE 1 AO1 AO2 5G Q 30A C a La 5 4 30B 0 0 1A lt 1B 2A O 2B O Power terminal O control terminal Warning It must be
24. Spd Lmt Sro 0 1 Max Speed rom 1800 0 No CON_80 7550 Speed bias of speed torque SpdLmtBias 100 0 Max Speed rpm 100 0 No Note 1 It will be displayed only when the E L_IO board is installed 2 It will be displayed only when the SYNC_IO board is installed 5 It will be displayed when CON_21 Process PID type is set to SpeedSet 6 It will be displayed when CON_01 is set to Sensorless User group USR_ 1 Code Comm Name LCD Display Setting Data Adjustment No Addr Range Unit Default During Run USR_00 Select Code number Jump Code 1 67 Yes USR 01 E Initialize to the mtia vane adequate Mac User Define E L E Mad No to the application Define USR 02 User data save User Save No Yes No No USR_03 Recall saved User Data User Recall No Yes No No USR_04 User Group Data User Grp No 36 u Second motor Group 2nd_ Code Comm Code Name LCD Display Setting Data Adjustment No Addr Range Unit Default During Run 2nd_00 Jump for quick view Jump Code 1 37 Yes l 1 Speed 2nd_01 7801 Control mode setting 2nd Ctl Mode 1 Speed No 2 Torque 2nd_02 7802 Max speed 2nd Max Spd 400 0 3600 0 rom 1800 0 No 2nd_04 7804 Multi step speed 0 2nd Spd 0 0 0 2nd_02 rom 0 0 Yes 2nd_05 7805 S ratio 1 i
25. Voltage Ai3 In X2 AIO 34 7722 Maximum Voltage Gain Ai3 Out Y2 AlO 34 7723 Input LPF time constant Ai3 LPF AIO 36 7704 Multi function Analog input Command AS Wbroken loss criterion select AIO 37 oe o aes Aid Define Refer to AIO_03 12 input Ai4 Definition 1 5 AIO 38 7726 Source Definition 1 Ai4 Source AIO_39 7727 Minimum Voltage 1 Ai4 In X1 AIO 40 7728 Minimum Voltage Bias 1 Ai4 Out Y1 AIO_41 7729 Maximum Voltage 1 Ai4 In X2 AIO 42 772A Maximum Voltage Gain 1 Ai4 Out Y2 AIO 43 772B Minimum Voltage 1 Ai4 In X1 AIO 44 772C Minimum Voltage Bias 1 Ai4 Out Y1 AIO 45 772D Maximum Voltage 1 Ai4 In X2 AIO 46 772E Maximum Voltage Gain 1 Ai4 Out Y2 AIO 47 TT2F Output LPF time constant 1 Ai4 LPF AIO_48 7730 Command loss criterion select 1 Ai4 Wbroken Refer to AIO 01 Multi function Analo 0 AIO 49 7731 input AI5 Definition a Aid Define When using EXTN_I O motor NTC Not Used No PTC function is available at Ai5 T 17 Use Mot NTC El 0 10 10V AIO 50 7732 3 Source Definition 1 Aid Source 205 a 10 b 10V No 3 10 0V AIO 51 7733 Minimum Voltage 1 Aib In X1 AIO 52 7734 Minimum Voltage Bias 1 Ai5 Out Y1 AIO 53 7735 Maximum Voltage 1 Aid In X2 AIO 54 7736 Maximum Voltage Gain 1 Ai5 Out Y2 AIO 55 7737 Minimum Voltage 1 Aib In X1 AIO 56 7738 Minimum Voltage Bias 1 Aid Out Y1 7 AIO 57 7739 Maximum Voltage 1 Ai5 In X2 AIO 58 773A Maximum Voltage Gain 1 Ai5 Out Y2 AIO 59 TT3B Input
26. Yes No The 2nd motor encoder 2nd 15 LPF Time Constant 2nd Enc LPF 0 100 ms 1 Yes 2nd_17 The 2nd motor rated speed 2nd RatedSpd 300 0 3600 0 rom 1800 0 No 2nd_18 The 2nd motor rated volt 2nd R Volt 120 560 V No 2nd_19 The 2nd motor number of poles 2nd Pole 2 12 4 No 2nd_20 The 2nd motor efficiency 2nd Mot Eff 70 100 Yes 2nd_21 The 2nd motor rated slip 2nd R Slip 10 250 rom Yes 2nd_22 The 2nd motor rated current 2nd R Curr 1 0 450 0 A Yes 2nd_23 The 2nd motor flux current 2nd Flx Cur 70 of 0 0 2nd 22 A Yes 2nd 24 The 2nd motor 2nd time constant 2nd Mot Tr 30 3000 ms Yes 2nd 25 Ke aa 2nd Mot Ls 0 00 500 00 mH Yes inductance The 2nd motor stator 2nd_26 leakage factor 2nd Mot sLs 0 00 100 00 mH Yes 2nd_27 The 2nd motor stator resistance 2nd Mot Rs 0 000 5 000 ohm Yes 2nd 32 EA 2nd Eth 1min 100 150 150 Yes thermal 1 minute level ond 33 The 2nd motor electronic thermal continuous ond Eth cont 50 150 100 Ves operation level Note The auto furing method of the 2nd motor should be Same with the PAR_22 and PAR_23 46 Braking Unit and Resistor 1 SV0055iV5 2 4 SV0220iV5 2 4 Built in Brake Unit 1 Braking resistor specifications in capacity Resistance values in the table shown below are calculated based on the 150 5 ED standard In case of 10 ED use resistor with double rated value should be used resistors rated watt Capacity 5 ED Type Appl
27. estimation FluxEst Fbk 0 0000 6 5535 0 0000 No SLS 23 7D17 Rs scale Rs Scale 100 0 200 0 120 0 Yes Note 1 It will be displayed when CON_01 is set to Sensorless 43 Function Codes Table Function Group FUN_ FUN Code LCD Display Setting Data Group No gone Message Range Unit Default i FUN_00 Function code selection Jump Code 1 62 Yes Terminal 1 Terminal 2 FUN_01 RUN STOP Command selection RUN STOP Src Keypad Terminal 1 No Option Analog l Keypad 1 FUN_02 Speed reference selection Spd Ref Sel Keypad 2 Keypad 1 No Option FUN_03 Stop mode Stop Mode gt Decel No Free run FUN_04 Motor Maximum speed Max Speed 400 0 3600 0 rpm 1800 0 No FUN_12 Multi step speed0 Speed 0 0 0 Max speed rom 0 0 Yes FUN 13 Multi step speed1 Speed 1 0 0 Max speed rom 0 0 Yes FUN_14 Multi step speed2 Speed 2 0 0 Max speed rom 0 0 Yes FUN_15 Multi step speed3 Speed 3 0 0 Max speed rom 0 0 Yes FUN_16 Multi step speed4 Speed 4 0 0 Max speed rom 0 0 Yes FUN_17 Multi step speed5 Speed 5 0 0 Max speed rom 0 0 Yes FUN_18 Multi step speed6 Speed 6 0 0 Max speed rpm 0 0 Yes FUN_19 Multi step speed7 Speed 7 0 0 Max speed rom 0 0 Yes FUN_20 JOG speed JOG Speed 0 0 Max speed rom 100 0 Yes FUN_21 Dewell speed Dewell speed 0 0 Max speed rom 100 0 Yes FUN_22 Dewell time Dewell time 0 00 30 000 rom 100 0 Yes FUN_36 S curve rate 1 in acceleration Acc S Start 0 0 50 0 0 0 No FUN_37 S curve rate 2 in acce
28. gain for flux estimation FlxEst IGain 0 0 999 9 100 0 Yes SLS 04 7D04 cut off frequency for sensorless ASR ASR Cut Off 1 0 600 0 20 0 Yes SLS 05 7D05 Sensorless ASR P gain 1 ASR P Gain1 0 1 999 9 100 0 Yes SLS 06 7D06 Sensorless ASR gain 1 ASR Gain 0 1 999 9 100 0 Yes SLS 07 7D07 Sensorless ASR LPF 1 ASR LPF1 0 20000 ms 0 Yes SLS 08 7D08 Sensorless ASR P gain 2 ASR P Gain2 0 1 999 9 50 0 Yes SLS 09 7D09 Sensorless ASR gain 2 ASR Gain2 0 1 999 9 50 0 Yes SLS 10 7D0A Sensorless ASR LPF 2 ASR LPF2 0 20000 ms 0 Yes SLS_11 7D0B Switch over ramp for sensorless ASR ASR RAMP 10 10000 ms 1000 Yes SLS_12 7DOC Sensorless ASR target speed ASR TarSpd 0 0 3600 0 rom 0 0 No SLS 13 7D0D Sensorless P gain SpdEst PGain 0 1 999 9 100 0 Yes SLS 14 7D0E Sensorless gain SpdEst Gain 0 1 999 9 100 0 Yes SLS_15 7DOF Cut off frequency for sensorless ACR ACR Cut off 10 0 3000 0 1200 0 Yes SLS_16 7D10 Regerneration avoidance selection ZeroAvd Sel 0 No 1 Yes 1 Yes No SLS 17 7D11 P gain of sensored speed controller SensoredKp 0 10 0000 0 0000 No SLS_18 7D12 gain of sensored speed controller Sensoredki 0 10 0000 0 0000 No SLS 19 7D13 P gain of sensorless speed controller SensorlessKp 0 10 0000 0 0000 No SLS 20 7D14 gain of sensorless speed controller SensorlessKi 0 10 0000 0 0000 No SLS 21 7D15 Command of flux estimation FluxEst Ref 0 0000 6 5535 0 0000 No SLS 22 7D16 Feedback of flux
29. groups m Shifting from group code to the upper code B Function code shift E Shift to next function code E Data increase in set up mode m Reverse run command key m Only available with loader operation B LED is turned ON with reverse run m Blinks during Acc Deceleration of reverse run m Shift to function code m Shift to previous code E Data is decreased in set up mode m Loader Use Instruction m Data set up start m Data set up completion M Decimal point shift E Only available in case of data setup m Forward run command key m Only available with loader operation B LED is turned on with forward operation B Blinks during Acc Deceleration of forward operation RESET m Stop command m Available with the loader operation m LED is turned on when drive stops its operation B Blinks when fault occurs m Reset B Fault reset Classification Display Function Name Function MODE Mode Key Sun between groups shift from a group code to upper code PROG Program Key Parameter setting value change ENT Enter Key Saving altered setting values KEY A up Up Key Shift between codes and increase the parameter value y down Down Key Shift between codes and decrease the parameter value Shift ESC Shift ESC Key In case of set up mode it is operated with the shift key Operation with ESC key in non set up mode REV Reverse run Reverse run key STOP RESET Stop Reset Key Stop key when drive is on operation FWD
30. is set 2 It will be displayed when CON_01 is set to Sensorless 3 A default value of a time of acceleration and deceleration is different from the setting capacity of drive 4 Minimum Maximum values are different from the capacity of drive 5 It will be displayed when FUN 03 Stop method is set to Free run 6 It will be displayed when the definition of DIO_41 to DIO_43 Auxiliary output terminal of multi funtion is set to Brake Output 8 34 It can set for only 5 5 22 kW 2 4 products in case Battery Run of multi function input terminal P1 P amp is turned On Control group CON_ Code Comm Setting Data Adjustment Code Name LCD Display No Addr Range Unit Default During Run CON_00 Jump for quick view Jump Code 1 80 Yes 1 Speed CON 01 7501 Control mode setting Control Mode 2 Torque d No 3 Sensorless General Vect CON_02 Application mode setting Application Elevation sa No Synchro 2 Vect WEB Control CON 03 7503 P Gain 1 ASR P Gain 0 1 200 0 50 0 Yes CON_04 7504 Gain 1 ASR Gain1 0 50000 ms 300 Yes CON 05 7505 LPF time constant 1 ASR LPF1 0 20000 ms 0 Yes CON_06 7506 P Gain 2 ASR P Gain2 0 1 200 0 5 0 Yes CON 07 7507 amp Gain 2 ASR I Gain 0 50000 ms 3000 Yes CON 08
31. torque detection Torque limit feature Motor overheating Digital un signal Drive overheating signal Low voltage feature Drive run signal Drive Output a Multi function open collector output regeneration signal Drive run function Timer output 30A Fault signal A contact point e Activates when the faults occur 30B Fault signal B contact point e Not available in emergency stop 30C COMMON e Common for A and B digital output Control Circuit Terminal Control Terminal Feature e Control Terminal Panel Arrangement Standard Type SIO Non insulated type 900000000 90000000000000 9000000000000060 A B C 1A 1B 2A 2B 3A 3B FX RX BX RSTCM P1 P2 P3 P4 P5 P6 P7 CM VREF AIM AI2 AIS 5G A01 A02 5G PWR 5G A A B B NTC PA PB 23 o z N EIE S SV iV5 SIO NEW REV1 10110001574 Ver1 0 EM SV iV5 SIO NEW REV1 10110001574 Ver2 0 CN1 T An CNT 6666666666 Es 6666666666 6666666666 6666666666 Al2 AS se He a ca NTC x rs CN2 15V Open collector A iis 15V Open collector iis p gle Pe Z zle OC NE OC CN6 P15 id P15 P5 CN7 P5 JP1 LD JP2 JP1 LD JP2 NTC Or 30A 30B 30C 1A 1B 2A 2B OC1 EG E o O XV 3 Zoli TOT OM OS e 00000000 ZARAZ AE CARE E SSS 000000 OG CN4 e CN3 H E 30A 308 300 1A 18 2A 28 Jocifeel FXTRX TRS RST
32. unit 10 Built in brake control Load balance function Dedicated DB unit Zero velocity control Precise control through VB Option u Synchronization option Speed Position synchronizing operation Consuming current 300mA Input frequency 100kHz Open collector output Multiple band operation Elevator I O Position sensor Safety switch input Car position output E L position and sequence control MC Brake operation signal output E L exclusive connector CC Link Max 10Mbps speed Customized LS profile CC Link customized cable Built in termination resistor Remote I O each 32 point Remote register 4 words LS485 Modbus RTU e 1200 2400 4800 9600 19200 38400 bps speed Bus Multidrop link system Max 31 node Max 1200m period recommended 700m SIN COS encoder 605000 Device Net Profibus DP gror E e 125 250 500kbps speed e Max 12Mbps speed synchronous operation Load balance function Precise control through SIN COS encoder Zero velocity control s Smooth acceleration and deceleration Elevator dedicated control mode Geared gearless Bus topology Max 64 node Max 500m 125kbps Enhanced online diagnosis function Max 32 station Bus topology Enhanced online diagnosis function Extension I O 24V Encoder I O elevator operation Precise control through Analog input 5 channel e 24V encoder SIN COS encoder
33. 0 00 2 00 sec 0 00 No FUN_66 7442 Open Time 6 BKOpen Time 0 00 30 00 sec 0 00 No FUN 67 7443 Open Speed 6 BKOpen Spd 0 0 500 0 rom 0 0 No FUN 68 7444 Open Current 6 Release Curr 0 0 150 0 20 0 No FUN_69 7445 Close Time 6 BKClose Time 0 00 30 00 sec 0 00 No FUN_70 7446 E Close Speed 6 BKClose Spd 0 0 500 0 rom 0 0 No FUN 71 7447 m Run selection RegenAvd Sel 0 No 1 Yes 0 No No FUN 72 7448 Run voltage level 7 RegenAvd Lvl 600 300 800 400 V 700 350 No FUN_73 7449 Speed limitation 7 CompFreq Lmt 0 0 500 0 rom 100 0 No FUN_74 744A Speed P gain 7 RegenAvd P 0 0 300 0 50 0 Yes FUN_75 744B Speed gain 7 RegenAvd 20 30000 ms 500 Yes FUN_76 744C Speed in battery operated mode 8 Batt Speed 2 5 200 0 rom 50 0 No FUN_77 744D Battery input voltage 8 Batt Volt 12 PAR 18 V 48 No FUN_78 744E Check of input phase open PhlnOpenChk 0 No 1 Yes 1 Yes No FUN_79 7450 Check level of input phase open PhinOpenLvi 2 0 100 0 V 3 0 Yes FUN_80 7451 Check of output phase open PhOutOpenChk 0 No 1 Yes 1 Yes No FUN_81 7452 Max auxiliary speed AuxSpeedMax 0 0 500 0 rpm 10 0 Yes FUN_82 7453 Calculation method of auxiliary speed AuxSpeedType 0 1 0 No FUN_83 7454 Acc time of auxiliary speed AuxAccTime 0 00 600 00 sec 2 00 No FUN_84 7455 Dec time of auxiliary speed AuxDecTime 0 00 600 00 sec 2 00 No i 0 punas ne EEE Maga MAM da Na Note 1 It will be displayed when WEB control mode
34. 00 ms 0 100 No Note 1 When PAR_07 is set to User Define PAR_08 will be displayed 2 If PAR_24 Auto tuning type selection is set to No 1 Standstill the order of display in PAR_25 Auto tuning range setting will be None gt ALL Rs Tuning Lsigma gt If Tr Ls Tune 3 Caution PAR_33 Enc Scale Code is necessary only in the case of installation of SIN COS Encoder option board Don t modify the default value X1 when not using SIN COS Encoder board If you modify the value the normal operation isn t possible For any extra information in detail refer to the option dedicated manual 4 It will be displayed when PAR_35 Selection for motor inertia tuning sets as Yes 32 Function group FUN_ Code Comm Gade Nand LCD Display Setting Data peusiment No Addr Range Unit Default During Run FUN_00 Jump for quick view Jump Code 1 85 Yes 0 Terminal 1 FUN_01 7401 AAA PNE Run Stop Src em No source selection 2 Keypad Terminal 1 3 Option 0 Analog 1 Keypad l 2 Keypad2 1 FUN_02 Speed setting source selection Spd Ref Sel 3 Option Keypad No 6 Line SPD Ref 1 7 Line SPD Opt l 0 Decel 0 FUN_03 7403 Stop mode selection Stop mode 1 Free run a Decel No FUN
35. 4 325 482 614 731 960 Rated output Output speed 0 3600 rpm Output voltage 380 460V Note3 460V 10 10 Note4 Rated input Voltage 30 380 460V 10 10 Note Frequency 50 60Hz 5 Weight Kg Ibs 63 63 68 98 98 122 122 175 380 380 476 Note1 It represents the output capacity 05 maximum applicable motor in case LG OTIS 4pole motor is used Note2 Rated capacity v3VI is calculated based on 220V for 200V class 440V for 400V class Note4 Derate the rated current by 1096 when the input voltage is in the range above 480V Note3 Maximum output voltage cannot be generated greater then specified input voltage Note5 Rated current is derated by 10 96 above 680 VDC of input voltage 13 gt u m 2 a AS Standard Specifications Mold type products electric specifications are same as upper parts 2 2 3 7kW follow below table Type SV iV5 2 4DB MD 055 075 110 150 185 220 Weight Kg Ibs 7 7 7 7 13 7 13 7 20 3 20 3 m 400V Class DC power input type SV iV5 4DC 055 075 110 150 185 220 300 370 450 550 Maximum applicable HP 7 5 10 15 20 25 30 40 50 60 75 motor ranges Note kW 55 7 5 11 15 18 5 22 30 37 45 55 Capacity kVA Note2 9 1 12 2 183 229 29 7 343 46 57 70 85 Rated current A 12 16 24 30 39 45 61 75 91 110 output Speed 0 3600 rpm Voltage 0 380V 480V Note3 Input rated Voltage DC 540 680V 10 Notes Drive weight
36. CM CM ICML_ REF AM a2 Als 56 T Aot A02 t NQ O Oo W ore 4m 7 Pi P2 P3 P4 P5 P6 Pr a gt 22228 4 LO t ktm e 6 6 66 6 e HWS aro ema sar sno Luce 5G PE 5G A PA A B PBJ B 0000000000000 s o o o o o 6 0 o o so CN3 CNB CN4 CN5 e o o o 6 6 0 9 9 o Shield Wire VOPCBversion ViO VOPCBversion V20 m 2 Encoder wiring and Jumper setup 5V Line drive ME CN2 EM SV iV5 SIO NEW REV1 10110001574 Verl 0 EN SV iV5 SIO NEW REV1 10110001574 Ver2 0 GN1 2 ER 6666666666 AM 6666666666 EN ro 6666666666 Z 6666666666 3 fs LN co o NTC aml 6666666666 AB Ye 666666666 v wj p Ne 666666666 CN2 eee 1 H TRE 5V Line drive uo E 5V Line drive p ale i a T re re ue te lo P15 us t CN6 P15 P5 CN7 P5 JP1 LD JP2 JP1 LD JP2 NTC Or o Ha E O B 30A 30B 30C 1A 1B 2A 2B OC1 EG xxx B53 8 CF ET U a Os wi kd 30A 308 soc 1A 18 2A 28 oc1 EG FX RX BX RST CM CM CM REF AM A2 als 56 A01 A02 6 6 6 0 9 on gt gt see E gt gt gt veces 6 90999090909 yere Les soul sar seo mcc 5G PE 5G A PA A BHPBJ B NA w e o o o 6 6 6 6 6 6 6 CN4 CNS pha CNS Shield Wire VOPCB version V1 0 VOPCB version V2 0 m Analog Input J
37. Code 1 38 Yes 0 No 0 No 2 DIS 2 DIS 4 PAR 4 PAR m s 6 CON 6 CON PAR_01 7301 Initialize parameters Para init 8 AIO 8 AIO 0 No No 10 2ND 10 2ND 12 SYN 12 SYN 14 SLS 14 SLS PAR_02 E Read parameters Para read 0 No 1 Yes S O No No PAR_03 Write parameters Para write 0 No 1 Yes 0 No No PAR_04 E Parameter write protection Para lock 0 255 0 Yes PAR_04 Password Password 0 9999 0 Yes 0 2 2 1 3 7 2 5 5 3 7 5 4 11 0 5 15 0 6 18 5 7 22 0 8 30 0 9 37 0 PAR_07 7307 Motor capacity selection Motor select NOZE kW No z 12 75 0 13 90 0 14 110 0 15 132 0 16 160 0 17 220 0 18 280 0 19 315 0 20 375 0 21 User Define 1 PAR_08 7308 Motor cap selection of USER UserMotorSel 0 7 500 0 kW 55 No PAR_09 7309 Motor cooling type Cooling Mtd AW 1 Forced cool Yes E 1 Forced cool PAR 10 730A Pulse no Enc Pulse 360 4096 1024 No TED l l 0 A Phase Lead 0 PAR_11 730B z Direction setting Enc Dir Set VIS Eisler A Phase Lead No PAR 12 730C 8 Error check enabling Enc Err Chk 0 No 1 Yes 1 Yes No PAR_13 730D 0 LPF time constant Enc LPF 0 100 ms 1 Yes PAR_14 730E Error detection time EncFaultTime 0 00 10 00 Sec 0 00 No PAR 15 730F speed EncFaultPerc 0 0 50 0 25 0 No PAR_17 7311 Base speed Base Speed 100 0 3600 0 rom 1800 0 No PAR_18 7312 Rated voltage Rated Volt 120 560 V No PAR_19 7313 8 Number of poles Pole
38. Forward Key Forward run key Turns on at reverse operation REY PTSS TUNEN Blinks while the drive is on Acc Deceleration and then turns on the constant speed operation STOP RESET Stop Fault display ie off when drive stops operation LED Blinks when faul Occurs Turns on during forward operation FWD Forward Run Display Acc Deceleration running modes blink the lamp and it is turned on in the forward operation 25 m Shifts between each groups and codes in LCD loader The MODE key is used for transfer to the other group and the AUP and the wdown keys are used to move up and down in the same group Display group HD group Parameter group Function group Control group MODE A Dram L 70 K Jump code Gey BEI DISK Mil va Fi define Bd A Hot User DIS Out Ames FPS Fe define E eem Hot User Power a F3 define AA Ek 3 Mot Used FIDOLT A a Elst F4 define a et 3 01 e Hot Used PS define Hot Used DIS Lizr Gre Disp U FREE Define BE Not Used so Mot Used MODE MODE MODE MODE MODE FAR gt Tune code E 1 aj y PAR b Fara init gd Mo FAR gt Fara read B2 No PAR gt Fara Write 23 Mo PAR b Fara Ed El Ez A dz ohm e The user group and the second group are omitted between shifts of each group 26 FUN b E Jump code FUN K Rurnr Stop Sec E Ter
39. MD 200 180 11 18 10 69 8 15 SV055iV5 2 4DB MD 7 87 7 09 355 340 202 SV075iV5 2 4DB MD 13 97 13 38 7 95 SV110iV5 2 4DB MD 250 230 385 370 221 SV150iV5 2 4DB MD 9 84 9 06 15 16 14 57 8 70 SV185iV5 2 4DB MD 304 204 460 445 254 SV220iV5 2 4DB MD 11 97 11 18 18 11 17 52 10 00 Wi W2 o w E W2 2 5 5 22kW 200V 400V DC Input Type HL W3 ite e Dimensions of each capacity mm inches Drive Model W1 W2 W3 W4 W5 L1 L2 L3 D1 D2 D3 H1 H2 H3 SV055iV5 2 4DB 234 4 180 180 21 2 27 2 4062 3912 75 221 1 2095 75 6 T 4E SV075iV5 2 4DB 9 22 7 08 7 08 1 07 1 07 15 9 154 029 8 7 8 24 2 95 0 23 SV110iV5 2 4DB SV150iV5 2 4DB 335 284 284 25 5 25 5 526 509 10 248 6 237 100 7 07 adi SV185iV5 2 4DB 13 1 11 1 11 1 1 00 1 00 20 7 20 0 0 39 9 78 9 33 8 93 0 27 SV220iV5 2 4DB 50 3 30 37kW 200V 30 75kW 400V 30 75kW DC Input Type e Dimensions of each capacity mm inches Drive Model Wi W2 W3 WA L1 L2 L3 D1 D2 D3 D4 P1 P2 SV300iV5 2 4 270 270 319 2 350 635 660 680 120 197 2566 3082 169 8
40. N OFF simultaneously Clears the fault condition only when the fault state is removed e Selectable among the following 27 functions Multi step speed selection 1 2 83 JOG run MOP up down Save Clear Analog hold Main drive Second function Speed Acc Dec time selection 3 wire operation External default signal B contact point Forward rotation prevention Process PI disable Timer input Soft start cancellation ASR PI Gain selection ASR P PI selection Flux reference selection Pre excitation Speed Torque control selection Torque limit use Torque bias e ON in case of connection between CM and digital Analog input Alt Al2 Analog setting power voltage input Current input e Variable resistor use standard voltage 10V 10 KQ e Voltage input 10 10V current input 4 20mA The motor NTC input is selectable e Selectable among following 9 functions Speed reference Torque reference Torque bias Torque limit Process PI control reference Process PI controller feedback Draw reference Motor NTC input e Jumper set up use AC voltage input AM Al2 Open Al3 Left of switch Al voltage input Motor NTC input e Jumper set to use as voltage input gt Al1 Al2 Short e With motor NTC OTIS LG Motor input switch direction setup AlB Right of switch 5G COMMON e Analog input COMMON terminal 22 Control Circuit Terminals Classification Display Name Desc
41. O Encoder A BO Shielded cable Encoder line drive Encoder output A Phase Encoder output common terminal Encoder output B Phase Encoder output common terminal Analog output1 Analog output2 Common out Analog output 10 10V Fault digital output AC 250V 1A DC 30V 1A Multi function digital output AC 250V 1A DC 30V 1A Multi function open collector output 24V 50mA AC Input Type 30 37kW 200V 30 375kW 400V Brake unit option B2 Brake resistor option G P B1 N Short part a MCCB ACR MC P1 P2 N O T s 3Phase AC G ZA 24V Supply power PE 50 60Hz Common terminal 5G Forward run Stop command Reverse run Stop command Emergency stop Fault reset Multi function input1 Multi function input2 Multi function input3 Multi function input4 Multi function input5 Multi function input6 Multi function input Multi function input7 Common terminal Variable resistor 10 KQ 1 2W Standard voltage Analog input 10V 10V Analog input1 4 20mA Analog input2 OV 10 4 20mA Analog input3 Motor NTC Common terminal Y RX Encoder B phase O Bx input B Y RST RAG Open collector GE w V P1 MMO e RBG Q P2 MM1 GE P3 ATO d P4 FHM AO1 Y Q P5 BAT A02 Y Y P6 BRC 5G g Y PYUMCC ang A yo 300 E 30B 00 1A e 1B 8 VREF 2A Y O AM 2B Y O Alo OCH w AB Tap co EG Note e Power terminal O control terminal
42. Soe E 5 gt en Ed Ej per a SV iV5 4DC 750 900 1100 1320 1600 2200 2800 3150 3750 5000 Maximum applicable HP 100 120 150 175 215 300 373 420 500 666 motor ranges Note kW 75 90 110 132 160 220 280 315 375 500 Capacity kVA Note2 116 140 170 200 250 329 416 468 557 732 Rated current A 152 183 223 264 325 432 546 614 731 960 nid Speed 0 3600 rpm Voltage 0 380V 480V Note3 Input rated Voltage DC 540 680V 10 Note5 Drive weight Ko lbs 55 79 79 985 985 1545 206 343 343 466 121 174 174 217 217 840 454 756 756 1028 m 400V MRL Specifications SV iV5 A4 MRL 075 110 150 220 Maximum applicable HP 10 15 20 30 motor ranges kW 15 11 15 22 Capacity kVA Note 13 7 20 6 27 5 39 6 REAN Rated current A 18 97 36 59 Output speed 0 200 rpm Output voltage 380 480V Note3 Rated input Voltage 30 380 480V 10 10 Frequency 50 60Hz 5 Weight Kg Ibs 14 30 8 14 30 8 18 7 41 19 41 8 Note1 It represents the output capacity 05 maximum applicable motor in case LG OTIS 4pole motor is used Note2 Rated capacity v3VI is calculated based on 220V for 200V class 440V for 400V class Note3 Maximum output voltage cannot be generated greater then specified input voltage Note4 Derate the rated current by 10 when the input voltage is in the range above 480V Note5 Rated current is derated by 10 above 680 VDC of input voltage 14 Common Specif
43. V185iV5 4DB UTS150L EBS53c MC 40a 22 SV220iV5 4DB UTS150L EBS63c MC 50a 30 SV300iV5 4 380V UTS150L EBS103c MC 65a 75a 400V 37 SV370iV5 4 380V UTS150L EBS103c MC 85a Class 45 SV450iV5 4 380V UTS150L EBS203c MC 100a 130a 55 SV550iV5 4 380V UTS400L EBS203c MC 130a 150a 75 SV750iV5 4 380V UTS400L EBS203c MC 185a 90 SV900iV5 4 380V UTS400L EBS203c MC 185a 110 SV1100iV5 4 380V UTS400L EBS403c MC 225a 132 SV1320iV5 4 380V UTS400L EBS403c MC 265a 160 SV1600iV5 4 380V UTS400L EBS403c MC 330a 220 SV2200iV5 4 380V UTS600L EBS603c MC 400a 280 SV2800iV5 4 UTS800L EBS803c MC 500a 315 SV3150iV5 4 UTS800L EBS803c MC 630a 375 SV3750iV5 4 UTS800L EBS803c MC 800a 49 Dimension lt E 1 2 2 22kW 200V 400V Mold Type VECTOR INVERTER D1 gt NL EN RT ACA 4 7 A U 4 L 0 Y 7 R 0 R 000000000000000000000000000 000000000000000000000000000 JE ES EZ a lt gt Y SY EI R TINE W2 e Dimensions of each capacity mm inches Drive Model Wi W2 H1 H2 D1 SV022iV5 2 4DB MD 284 269 207 SV037iV5 2 4DB
44. VB guarantees comfortable and stab m Elevator system iV5 guarantees stable driving and monitoring the elevator with both optimum speed pattern and position control a Synchronized operating with speed position Master speed Slave speed Master speed Slave speed Power source Speed position sync operating Brake command amp brake control Load balancing with droop control Starting speed command Speed command Droop Torque Droop Starting Torque 100 Torque Power Source Counter weight Speed L Speed M Speed H Car control Sensor input Hall call Cage call 8 Rollback Prevention Anti Rollback Function without external load cell Time Chart for Anti Rollback Function FX Brake Brake actual Output Rollback Prevention Integral Gain of Speed Controller Proportional Gain of Position Controller 05 u Before Anti Rollback Algorithm Green Posion Error between Command amp Actual Spd wv Before Anti Rollback Algorithm Features A Precise speed torque control Accurate control with SIN COS encoder PM Sensorless control Aut to tuning at standstill Draw Droop Process PID Control Brake Control A u Speed Position Synchronized operation m Speed synchronous operation e Speed Position synchronizing operation Precision
45. Yes DIO_63 723F Drive overheat warning band IH Warn Band 0 10 deg 5 Yes DIO 64 7240 Motor overheat warning temp MH Warn Temp 75 130 deg 120 Yes DIO_65 7241 Motor overheat warning band MH Warn Band 0 10 deg 5 Yes DIO_67 7243 Me EN MC Timer Off 100 50000 msec 1000 No delay time 4 DIO_68 7244 He OFF MC Timer Off 100 50000 msec 1000 No delay time 4 DIO_95 725F Drive station address Inv Number 1 250 1 No 0 1200 1 2400 2 4800 DIO_96 7260 485 BaudRate 485 BaudRate bps 9600 No 3 9600 4 19200 5 384000 0 None DIO_97 7261 How to Run at Lost command Lost Command 1 FreeRun T No 2 Stop DIO 98 7262 4 Timer 10 300 Sec 10 No Note 1 Displayed WEB Control mode setting 2 It can be set at 5 5 22 kW 2 4 class 4 It will be displayed when the definition of multi funtion output sets as MC On Off 3 It will be displayed as CON_02 sets to Synchro when Synchronization option board is installed 5 It will be displayed RS 485 communication option board is installed Refer to the user manual for RS485 Modbus RTU option board iP5A iV5 30 Parameter group PAR_ Code Comm Setting Data Adjustment No Addr ale as Range Unit Default During Run PAR_00 Jump for quick view Jump
46. _04 7404 Max motor speed Max Speed 400 0 3600 0 1800 0 No FUN_05 7405 Min motor speed Min Speed 2 0 0 500 0 0 0 No FUN 12 740C 0 Speed 0 0 0 Yes FUN_13 740D 1 Speed 1 0 0 Yes FUN_14 740E 8 2 Speed 2 0 0 Yes FUN 15 740F o 3 Speed 3 0 0 Yes FUN 16 7410 5 4 Speed 4 0 0 Yes FUN_17 7411 2 5 Speed 5 nee Pere Ll 0 0 Yes FUN_18 7412 6 Speed 6 0 0 Yes FUN_19 7413 7 Speed 7 0 0 Yes FUN_20 7414 JOG speed Jog Speed 100 0 Yes FUN_21 7415 Dwell Speed Dwell Speed 100 0 No FUN_22 7416 Dwell Time Dwell Time 0 00 100 00 sec 0 00 No FUN_33 7421 Acc Dec reference Speed Acc Dec Ref NE No gt 1 Ref Speed Max Speed FUN 36 7424 7 RA m Acc S Start 0 0 No FUN 37 7425 o A Acc S End 0 0 No in acceleration start 0 0 50 0 FUN 38 7426 NEL Dec S Start 00 No in acceleration start FUN 39 7427 NELLO Dec S End 0 0 No in acceleration start FUN 40 7428 Time scale of acc dec time Time scale gele 0 0 No 1 0 1 sec FUN_41 7429 Acceleration time 1 Acc Time 1 2 00 2 Yes FUN 42 742A Deceleration time 1 Dec Time 1 2 002 Yes FUN_43 742B Acceleration time 2 Acc Time 2 3 00 2 Yes FUN 44 742C Deceleration time 2 Dec Time 2 sep ences 3 00 2 Yes FUN_45 742D Acceleration time 3 Acc Time 3 4 00 2 Yes FUN_46 742E Deceleration time 3 Dec Time 3 4 00 2 Yes FUN_47 742F Acceleration time 4 Acc Time 4 5 00 2 Yes FUN_48 7430 Deceleration time 4 Dec Time 4 5 00 2 Yes FUN 49 7431 dicio ad Use 0 Dec T 0 No 1 Ye
47. ce gt Shanghai China Address Room E G 12th Floor Huamin Empire Plaza No 726 West Yan an Road Shanghai 200050 P R China Tel 86 21 5237 9977 609 Fax 89 21 5237 7191 e mail jinhkOlsis com cn e LSIS Beijing Office gt Beijing China Address B Tower 17FL Beijing Global Trade Center B D No 36 BeiSanHuanDong Lu DongCheng District Beijing 100013 P R China Tel 86 10 5825 6025 7 Fax 86 10 5825 6026 e mail cuixiaorongOlsis com cn e LSIS Guangzhou Office gt Guangzhou China Address Room 1403 14F New Poly Tower 2 Zhongshan Liu Road Guangzhou P R China Tel 86 20 8326 6764 Fax 86 20 8326 6287 e mail linsz Isis biz e LSIS Chengdu Office gt Chengdu China Address Room 1701 17Floor huanminhanjun internationnal Building No1 Fuxing Road Chengdu 610041 P R China Tel 86 28 8670 3101 Fax 86 28 8670 3203 e mail yangcf lsis com cn e LSIS Qingdao Office gt Qingdao China Address 7B40 Haixin Guangchang Shenye Building B No 9 Shandong Road Qingdao 26600 P R China Tel 86 532 8501 6568 Fax 86 532 583 3793 e mail lirjQlsis com cn STARVERT iV5 E 2004 06 16 2013 10 Printed in Korea Pacomkorea
48. city 380V 380V Input Voltage 30 220kW 400V 022 2 2kW 5000 500kW Blank Below 22kW 200V 400V 280 500kW 400V iV5 Series 12 m 200V Class Specifications Type SV iV5 2 DB 022 037 055 075 110 150 185 220 300 370 Maximum applicable HP 5 7 5 10 15 20 25 30 40 50 motor ranges Notei kW 2 2 3 7 55 7 5 11 15 18 5 22 30 37 Capacity kVA Note2 45 6 1 9 1 12 2 17 5 22 5 28 2 33 1 46 55 Rated current A 12 16 24 32 46 59 74 88 122 146 Rated output Output speed 0 3600 rpm Output voltage 0 200V 230V Notes Vol 200 230V 10 10 Rated input oltage 30 200 230V 10 10 Frequency 50 60Hz 5 Weight Kg Ibs 6 6 14 14 28 28 28 28 42 42 m 400V Class Specifications Type SV 1 V5 4 DB 022 037 055 075 110 150 185 220 300 370 Maximum applicable HP 3 5 7 5 10 15 20 25 30 40 50 motor ranges kW 2 2 3 7 5 5 7 5 11 15 18 5 22 30 37 Capacity kVA 45 6 1 9 1 12 2 18 3 22 9 29 7 34 3 46 57 Rated current A 6 8 12 16 24 30 39 45 61 15 Rated output Output speed 0 3600 rpm Output voltage 0 380V 480V Notes Weight Kg Ibs 6 6 14 14 28 28 28 28 42 42 Type SV 1 V5 4 DB 450 550 750 900 1100 1320 1600 2200 2800 3150 3750 5000 Maximum applicable HP 60 75 100 120 150 175 215 300 420 500 666 motor ranges kW 45 55 75 90 110 132 160 220 315 375 500 Capacity kVA 70 85 116 140 170 200 250 329 468 557 732 Rated current A 91 110 152 183 223 26
49. coefficient 2nd Mot sLs 0 00 100 00 mH Yes 2nd_30 781E Stator resistance 2nd Mot Rs 0 000 5 000 ohm Yes 2nd 35 7823 aa 2nd ETH min 100 150 150 Yes level for 1 minute 1 Electronic thermal 2nd_36 7824 2nd ETH cont 50 150 100 Yes continuous level 1 2nd_37 7825 Inertia coefficient Inertia 0 001 60 000 kg m2 0 072 Yes Note 1 It will be displayed when FUN 55 ETH Select is set to Yes 37 Function Codes Table a Option Group EXT_ Code Comm me LCD Display Setting Data Adjustment No Addr Range Unit Default During Run EXT_00 Function code selection Jump Code 1 99 Yes 0 None 1 DeviceNet 2 Synchro EXT_01 7601 Mounted option board type Opt B D 3 PLC GF 0 None No 4 PROFIBUS 6 RS485 1 7 MODBUS EXT_02 7602 Mounted option board version Opt Version 1 0 Ver No EXT_03 7603 Book d Station ID 2 0 63 Yes EXT 04 7604 DeviceNet baud rate Baud Rate 3 0 125 1 250y 2 500 kbps 0 125 EXT 05 7605 DeviceNet MAC ID MAC ID 3 0 63 63 0 20 1 21 EXT 06 7606 Read object setting for DeviceNet Out Instance 3 2 100 3 101 0 20 EXT_07 7607 Write object settinf for DeviceNet In Instance 3 AD 0 70 2 110 3 111 EXT 09 7609 Profibus MAC ID Profi MAC ID 1 127 1 Yes EXT 10 760A Number of option output Output Num 0 85 3 Yes EXT_11 760B Option output 1 Outp
50. curs when the input voltage of the drive drops Drive turns off its output if the output current of drive is over 180 of Over load trip Over load protection Over Load motor rated current and over load trip time only applicable to over 90kW drives and also V F control mode Drive turns off its output by opening the fuse when something is wrong with ruse Open Fuse DDE the main circuit IGBT to protect the wiring from being damaged from short currents Drive turns off its output if the heat sink over heats due to a damaged cooling Drive over heat InvOver Heat fan or an alien substance in the cooling fan by detecting the temperature of the heat sink Drive turns off its output if the NTC Thermister which measures Drive NTC thermister open InvThem OP NE the temperature of drive is open Drive turns off its output if the motor is over heated to protect the motor Motor over heat MotOver Heat i This protective function prevents the motor from over heat l Drive turns off its output if the NTC Thermister which measures the Motor NTC thermister open MotThem OP motor temperature is open Internal electronic thermal of the drive determines the over heating of the motor If the motor is overloaded the drive turns off the output Electronic thermal E Thermal Drive cannot protect the motor when driving a multi pole motor or when driving multiple motors so consider thermal relays or other thermal protective devices for each motor External fault Ext Tri
51. d VO Option Setting Data R Group No gue dede Message Vector WF SIO EIO Range Unit Default USR 00 Function code selection Jump Code 1 67 Yes Initializing as applicable field s E O O o o User Define User mental initial value Macro Init EIL Define N USR 02 User data save User Save O O OE ee No No USR_03 Recall saved user data User Recall O O O O n No No USR_04 User group data User Grp O O o No a 2nd function group 2nd_ 2nd Code LCD Display Setting Data Group No oU Dame Message Range Unit Default 2nd 00 Function code selection Jump Code 1 33 Yes 2nd_01 2nd motor control mode 2nd Ctl Mode Speed Speed No Torque 2nd_02 2dn motor maximum speed 2nd Max Spd 400 0 3600 0 rom 1800 0 No 2nd_04 2nd motor multi step speed 0 2nd Spd 0 0 0 2nd_02 rom 0 0 Yes 2nd 05 dd ITO 2nd Acc S St 0 0 50 0 0 0 No acceleration 2nd 06 ve EGER 2nd Acc S Ed 0 0 50 0 0 0 No acceleration 2nd 07 sd amo ond Dec S St 0 0 50 0 0 0 No deceleration 2nd 08 A ee omens 2nd Dec S Ed 0 0 50 0 0 0 No deceleration 2nd_09 The 2nd motor acceleration time 2nd Acc time 0 00 6000 0 sec 10 00 Yes 2nd_10 The 2nd motor deceleration time 2nd Dec time 0 00 6000 0 sec 10 00 Yes If cool 2nd 11 The 2nd motor cooling method 2nd Cool Mtd ala Self cool Yes Forced cool 2nd 12 NOC 2nd Enc 360 4096 1024 No pulse of 2nd motor The 2nd motor encoder A Phase 2nd_13 KR 2nd Enc dir A B Phase Lead No The 2nd motor encoder Yes 2nd_14 grr 2nd Enc chk No
52. efinition AIO 14 770E 2 Source definition Ai2 Source AIO 15 770F 2 Minimum Voltage Ai2 In X1 AIO 16 7710 Minimum Voltage Bias Ai2 Out Y1 AlO 17 7711 8 Maximum Voltage Ai2 In X2 AIO 18 7712 Maximum Voltage Gain Ai2 Out Y2 Alo 19 7713 X Minimum Voltage Ai2 In X1 AAA ME AIO_20 7714 8 Minimum Voltage Bias Ai2 Out Y1 AIO 21 7715 S Maximum Voltage Ai2 In X2 AIO 22 7716 a Maximum Voltage Gain Ai2 Out Y2 AIO 23 7717 LPF time constant Ai2 LPF AIO 24 7718 Loss command Ai Wbroken Griterion select Note 1 Displayed only when WEB mode setting 40 Code Comm RE LCD Display Setting Data Adjustment No Addr Range Unit Default During Run Refer to AIO 01 Multi function Analog l E 0 AO ee input Ai3 Definition ARE Possible to ER NTC motor Not Used Me 17 Use Mot NTO lt 0 10 gt 10V AIO 26 771A a Source Definition Ai3 Source da No 5 2 0 10V 10 10V 2 3 10 0V AIO_27 771B Minimum Voltage Ai3 In X1 AO 28 771C 5 Minimum Voltage Bias Ai3 Out Y1 AIO 29 771D 9 Maximum Voltage Ai3 In X2 AIO 30 771E Maximum Voltage Gain Ai3 Out Y2 AlO 31 771F 3 Minimum Voltage Ai3 In X1 AIO 32 7720 Minimum Voltage Bias Ai3 Out Y1 AIO 33 7721 Maximum
53. el Overspd level 100 0 130 0 120 0 No FUN_64 Overspeed error detect time Overspd time 0 00 2 00 sec 0 00 No 44 Control Group CON_ CON Code LCD Displa Setting Data Group No 100e Name dein j Range Unit Default CON 00 Function code selection Jump Code 1 47 Yes CON_01 Control mode selection Control Mode speed Speed No Torque CON_02 Drive application mode selection Application ge SUSEN No Elevator Vect CON 03 ASR P Gain1 ASR P Gain 0 0 200 0 5 0 Yes CON_04 ASR I Gain ASR I Gain 0 50000 ms 3000 Yes CON_05 ASR input LPF time constanti ASR LPF1 0 20000 ms 0 Yes CON_06 ASR P Gain2 ASR P Gain2 0 0 200 0 50 0 Yes CON_07 ASR Gain2 ASR Gain2 0 50000 ms 300 Yes CON_08 ASR input LPF time constant 2 ASR LPF2 0 20000 ms 0 Yes CON_09 Ramp time in gain switching ASR Ramp 10 10000 ms 1000 Yes CON_10 Gain switching speed ASR TarSpd 0 0 3600 0 rom 0 0 No CON_11 Process PID command Loader Proc PID Ref 100 0 100 0 0 0 Yes CON_12 Process PID position standard Proc Posi Ref 0 65535 0 No CON_13 Process PID P gain Proc PID Kp 0 0 999 9 0 0 Yes CON_14 Process PID gain Proc PID Kt 0 0 100 0 0 0 Yes CON_15 Process PID D gain PROC PID Kd 0 0 100 0 0 0 Yes CON_16 Process PID positive limit Proc PID Lmt 100 0 100 0 100 Yes CON_17 Process PID negative limit Proc Neg Lmt 100 0 100 0 100 Yes CON_18 Process PID output LPF time constant Proc Out LPF 0 500 ms 0 Yes CON_19 Process PID output
54. energized AC220V 50 60Hz to terminal of FAN1 and FAN2 because 30 500kW 4DC series have a cooling fan for AC power drive and MC If not Trip 30 160kW FAN MC PWR 220kW FAN PWR will be occurred The drive is not operated unless trip is released after AC220V inputs The recommended order of power input and cutoff is as shown below The order of power On 220VAC P N gt Run The order of power Off Stop gt P N 220VAC Encoder Line Drive Type A phase encoder pulse output Encoder output Common B phase encoder pulse output Encoder output Common Analog output 1 Analog output 10 10V Analog output 2 10 10V 0 10V Common 10 0V Fault relay output AC 250V 1A DC 30V 1A Auxiliary relay output AC 250V 1A DC 30V 1A Open collector output 24V 50mA Note 1 It is used when drive control circuit is energized from auxiliary power source 220 VAC without main power supply Use insulated transformer to separate from main power supply Transformer capacity above 100VA recommended 20 7 5 22kW MRL DB Resistor optional Q Orra_0 AE 3P AC in p ut 27777777 220 440V O O SO 50 60Hz Encoder A Phase input Encoder B FWD run Stop command Phase input REV run Stop command Emergency stop Common 0V Fault reset Multi function input 1 Open collector output Multi function input 2 Multi function input 3 Multi function Multi function i
55. ernational standard removable terminal block Wiring maintenance become easy by international standard acquired terminal block and use also becomes easy by choosing various input out options depending on intended use amp Various fieldbus communication or Providing a variety of fieldbus communication options p such as LS485 Modbus RTU Device Net Profibus DP CC Link and so forth users can monitor and operate drives connected with PLC HMI and other controllers m Drive View Drive View Se SS ee ea m u a m E inputting detail information a 0 09 Features ENTE sated VO and mn 7 EY h a ge of options and lic LA Variety Metal y Processing 7 Automated Warehouse and Parking Machines m LJ Paper Paperboard l and Textile e Diameter operating zy Taper function e Splicing control Inertia compensation Stage Breakage detecting function Zero velocity control e Quick stop Equipment Closed Open loop Y gt continuous line control L e Flux Tension control with PID function Diameter operating Taper function e Splicing control Inertia compensation Breakage detecting function Jog operation at low speed Quick stop Elevators Built in brake control Speed Position synchronous operation Load balance function Dedicated DB
56. gain Proc OutGain 250 0 250 0 0 0 Yes Disable CON_20 Process PID output enable Proc PID Enb Enable Disable No Terminal CON_21 Process PID Hold time PID Hold time 0 10000 ms 0 No CON_22 Draw set up percentage Draw 100 0 100 0 0 0 Yes CON_23 Droop control percentage Droop 0 0 100 0 0 0 Yes CON 24 Droop control minimum speed Droop MinSPd 0 0 3600 0 rpm 0 0 Yes CON 25 Droop control minimum torque Droop MinTrd 0 0 100 0 0 0 Yes None CON_26 Torque reference value selection Trq Ref Src Analog None No Option CON 27 Torque reference Loader Trq Ref 180 0 180 0 0 0 Yes Kpd Kpd Kpd Kpd Kpd Ax Kpd Ax Kpd Kpd Ax Ax Kpd CON 28 Torque limit definition Trq Lmt Src Ax Kpd Kpd Kpd No Ax Kpd Ax Kpd Ax Ax Kpd Ax Ax Ax Opt Opt Opt CON 29 Forward torque limit Pos Trq Lmt 0 0 250 0 150 0 Yes CON_30 Reverse torque limit Neg Trq Lmt 0 0 250 0 150 0 Yes CON_31 Regenerative torque limit Reg Trq Lmt 0 0 250 0 150 0 Yes None CON_32 Torque bias selection Trq Bias Src Analog None No Keypad Option CON 33 Torque bias volume Trq Bias 150 0 150 0 0 0 Yes CON 34 rue bias ani yalume oi metion Trq Bias FF 150 0 150 0 0 0 Yes CON_35 Torque balance percentage Trq Bias F 0 0 100 0 50 0 Yes CON_49 Speed search selection Speed search d d 0100 No Bit set up 45 Function Codes Table User Group USR_ User Code Code N LCD Display Control Metho
57. icable Drives xo IW BR0800W020J SV 0055iV5 2 DB 20 800 BR01200W015J SV 0075iV5 2 DB 15 1200 BR2400W010J SV 0110iV5 2 DB 10 2400 BR2400W008J SV 0150iV5 2 DB 8 2400 BR3600W005J SV 0185iV5 2 DB 5 3600 BR3600W005J SV 0220iV5 2 DB 5 3600 BR1000W085J SV 0055iV5 4 DB 85 800 BR1200W060J SV 0075iV5 4 DB 60 1200 BR2400W040J SV 0110iV5 4 DB 40 2400 BR2400W030J SV 0150iV5 4 DB 30 2400 BR3600W020J SV 0185iV5 4 DB 20 3600 BR3600W020J SV 0220iV5 4 DB 20 3600 ED 100sec standard K Resistance value is based on the self cooling standard 2 Brake resistor wiring Brake resistor has attached a temperature detectable sensor for fire protection See below when in use Brake resistor terminal blocks Drive terminals Operation B1 B2 P BR One of the multi function input terminals l P7 CM out of P1 P7 of control Ee board is The contact is ON in normal temperature and used as defining External trip signal contact B Pons in overheat 2 SV0300iV5 2 4 SV0370iV5 2 4 SV0450iV5 4 SV3750iV5 4 D SV037DBH 2 37kW 200V Class Braking Unit 10 ED 2 SV037DBH 4 37kW 400V Class Braking Unit 10 ED 3 SV075DBH 4 75kW 400V Class Braking Unit 10 ED 4 SV075DB 4 75kW 400V Class Braking Unit 100 ED 5 SV220DB 4 220kW 400V Class Braking Unit 100 ED The Combination of two braking unit for 400V class is possible for more than SV900iV5 4 capacity When ED is more than 10 Use the braking unit for 100 ED Ex vertical load such as ca
58. ications Item Specification Circuit type IGBT adopted voltage type drive o Speed sensor use vector type control a Open loop control V F control 90 220kW Frequency Speed Analog 0 2 of maximum command speed 25 10 C control accuracy Digital 0 01 of maximum command speed 0 40 C Frequency Speed Analog 0 05 of maximum command speed resolution Digital 0 0196 of maximum command speed Control T Response speed 50Hz torque control 3 VIF V F pattern Linear Square User V F torque Boost Manual torque boost 0 20 Automatic torque boost Speed Time setup 0 00 6000 0 sec Time unit can be set ACC DEC Combination TE of Acc Dec eleration time Pattern Linear S Curve Braking type Dynamic braking using external resistor Braking Braking torque 150 Braking resistor An external braking resistor is required Digital setting l Multi step speed setup by digital input Speed setting Analog input setting of 10 10V or 4 20mA Setting by options Input 3Channels Al1 Al2 Al3 Analog input 10 10V 4 20mA 10 OV 20 4mA motor NTC selectable Selectable among 9 different multi function analog inputs FX RX BX RST P1 P7 OT e Multi function input terminal P1 P7 can be selected among 27 functions 2 Channel AO1 AO2 Analog output 10 10V output Selective among 31 multi function analog output functions Output Digital output Open collector output Multi function digital output 2channels
59. leration Acc S End 0 0 50 0 0 0 No FUN_38 S curve rate 1 in deceleration Dec S Start 0 0 50 0 0 0 No FUN_39 S curve rate 2 in deceleration Dec S End 0 0 50 0 0 0 No FUN_40 Acc time Acc Time 1 0 00 6000 0 Sec 2 00 Yes FUN_41 Dec time Dec Time 1 0 00 6000 0 Sec 2 00 Yes FUN_42 Acc time2 Acc Time 2 0 00 6000 0 Sec 3 00 Yes FUN_43 Dec time2 Dec Time 2 0 00 6000 0 sec 3 00 Yes FUN_44 Acc time3 Acc Time 3 0 00 6000 0 sec 4 00 Yes FUN_45 Dec time3 Dec Time 3 0 00 6000 0 sec 4 00 Yes FUN_46 Acc time4 Acc Time 4 0 00 6000 0 sec 5 00 Yes FUN_47 Dec time4 Dec Time 4 0 00 6000 0 sec 5 00 Yes FUN_48 o AL Use 0 Dec T Ne No Yes dec time use No FUN 49 Zero speed dec time 0 Dec Time 0 00 6000 0 Sec 0 00 Yes FUN_51 Emergency stop dec time BX Time 0 0 6000 0 sec 0 0 Yes FUN_52 Initial motor magnetizing time PreExct Time 0 10000 ms 0 No FUN_53 Hold time Hold Time 100 10000 ms 1000 No Electronic thermal No FUN_54 selection ad Yes ds is FUN 55 Electronic thermal 1 minute level ETH 1 min FUN 54 200 150 Yes Electronic thermal o FUN_56 successive operation level did PASA i gt i FUN 57 Drive switching frequency PWM Freq 2 5 10 0 kHz 10 0 No FUN 58 Selecting power on start Power on Run ee Yes Yes FUN_59 Selecting run after trip reset RST Restart A Yes Yes FUN_60 Number of auto restart Retry Number 0 10 0 Yes FUN_61 Auto retry delay time Retry Delay 0 0 60 0 sec 1 0 Yes FUN_62 iid ano PED Restart time 0 00 10 00 sec 0 00 No FUN_63 Overspeed error detect lev
60. minal 1 FLH b Sed Ref Sel FUN b Er FUH b gea FUH K 12 nal oa Sho E TAC de Dezel Function Codes Table mark of communication adrress indicates communication exclusion Setting during Drive operation Yes possible No impossible u Display Group DIS_ Code Comm Setting Data Adjustment Code Name LCD Display E No Addr Range Unit Default During Run 1 s Motor Speed Control Mode 0 0rpm SPD DIS_00 S Output Torque Output Current Tq 0 0 0 0A Ali Value Ai2 Value Ai3 Value Ai4 Value 1 Ai5 Value 1 PreRamp Ref rpm PostRamp Ref rpm ASR Inp Ref rpm Motor Speed rpm Motor SpdEst rpm Speed Dev rpm ASR Out Torque Bias PosTrq Limit NegTrq Limit Do RegTrq Limit Torque Ref IgeRef A lge A Flux Ref Ide Ref A Ide A ACR_Q Out V DIS_01 E User Display 1 ACR D Out V PreRamp Ves VdeRef V Ref VgeRef V Out Amps RMS A Out Volt RMS V Power KW DC Bus Volt V Proc PI Ref Proc PI F B Proc PI Out MotTemp NTC deg Inv Temp deg Inv i2t MP Output Ctrl Mode S W Version s Run Time Terminal In Terminal Opt B Terminal Out Run Status 3 Diameter 2 Line SPD CMD 2 Reel SPD 2 PhinOpenLvi V DIS 02 User Display 2 Same as the range of 5 DC Bus Volt Yes DIS_03 User Display 3
61. n acceleration start 2nd Acc S St 2nd_06 7806 S ratio 2 in acceleration end 2nd Acc S Ed 2nd_07 7807 S ratio 1 in deceleration start 2nd Dec S St pe 5 a ng 2nd_08 7808 S ratio 2 in deceleration end 2nd Dec S Ed 0 0 01 sec 2nd_09 7809 Acc Dec time scale Time scale 2 0 0 01 sec No 1 0 1 sec 2nd_10 780A PESEL uime 2nd Acc ume 0 00 6000 0 10 00 Yes 2nd 11 780B Deceleration time 2nd Dec time 2nd_12 780C 3 Cooling method 2nd Cool Mtd y Papas S M ool Yes 2nd 13 780D Encoder pulse no 2nd Enc 360 4096 1024 No 2nd_14 780E o Encoder direction setting 2nd Enc Dir vade z No 5 1 B Phase Lead A Phase Lead 2nd 15 780F Encoder error check enable 2nd Enc chk nd 1 Yes No 2nd 17 7811 Encoder LPF time constant 2nd Enc LPF 0 100 ms 1 Yes 2nd_18 7812 Base speed 2nd BaseSpd 300 0 3600 0 rpm 1800 0 No 2nd_19 7813 Capacity selection Motor select Refer to PAR_07 kW 2 5 5 No 2nd_20 7814 User defined motor selection UserMotorSel 1 0 7 500 kW 5 5 No 2nd_21 7815 Rated voltage 2nd R Volt 120 560 V No 2nd_22 7816 Number of poles 2nd Pole 2 12 4 No 2nd_23 7817 Efficiency 2nd Mot Eff 70 100 Yes 2nd_24 7818 Rated slip 2nd R Slip 10 250 rom Yes 2nd_25 7819 Rated current 2nd R Curr 1 0 450 0 A Yes 2nd_26 781A Flux current 2nd Fix Cur 0 0 70 of 2nd_22 A Yes 2nd_27 781B Motor time constant 2nd Mot Tr 30 3000 ms Yes 2nd_28 781C Leakage inductance 2nd Mot Ls 0 00 500 00 mH Yes 2nd 29 781D Leakage
62. n input6 P6 BRC OIG W Multi function input p7mcc 278 A Common O CM 1A 1B A Multi function output Potentiometer 10kohm 1 2W Power supply 10V VREF DA e AC 250V 1A Analog input l DC 30V 1A 10 10V Analog input Alt 2B 10 10V 9 101 Analog input Al2 oe OCT Mutti function AN Analog input3 AI3 i 4M open collector output 20 0mA Common 5G C 24V 50mA Motor NTC PTC Note e Power terminal O control terminal 18 DC Input Type 5 5 375kW 400V lt lt VIII II III DC input 540 680VDC Encoder Line Drive Type Aux Power source for control circuit 220V 50 60Hz E y Insulated gt Power supply M d X Common 0V l transformer ACZ k L Encoder A Phase At FWD run Stop command ER BE A REV run Stop command ike Emergency stop Fault reset A phase encoder pulse output OZ Owo ledor whii Encoder output Common x j wig S Wan B phase encoder pulse output nen Encoder output Common Multi function input 3 Multi function input 4 Analog output 1 Analog output 10 10V l 0 10V Multi function input 6 Common 10 0V Multi function input 7 Common Fault relay output AC 250V 1A Power supply 10V DC 30V 1A 10kohm 1 2W Analog input Analog input 1 Auxiliary relay 410 101 output A Analog input 2 AU AC 250V 1A 0 20mA Analog input 3 DC 30V 1A 20 0mA Motor NTC PTC Common Open collector output 24V 50mA
63. nput 4 input Multi function input 5 Multi function input 6 Multi function input 7 Common Potentiometer 10 k ohm 1 2W Power supply 10V Analog input Analog input 1 10 10V 4 20mA Analog input 2 10 OV 20 4mA Analog input 3 Motor NTC Common Note e Power terminal O control terminal 21 RX Power supply 5V Bt Encoder Line Drive Type A phase encoder pulse output Encoder output Common B phase encoder pulse output Encoder output Common Analog output 1 Analog output Analog output 2 10 10V Common Fault relay output AC 250V 1A DC 30V 1A Auxiliary relay output AC 250V 1A DC 30V 1A Open collector output 24V 50mA Terminal Function Power Terminal Display Name Description 3Phase AC input connection R S T AC Input 1 200V 200 230V 50 60Hz 2 400V 300 460V 50 60Hz U V W output Cable connection of 3 phase induction motor G Earth Drive frame earth terminal B1 B2 Braking resistor Braking resistor connection P1 P2 DC reactor and Braking unit DC reactor braking unit and DC link common connection terminal P DC Link terminal DC Link common connection terminal m Control Circuit Terminals Item Display Name Description Digital input FX RX RST P1 MMO CM VREF Forward run command Reverse run command Fault reset COMMON e ON when tied to CM terminal e Stops when FX and RX are O
64. number 2 12 4 Yes PAR 20 7314 Efficiency Efficiency 70 0 100 0 z Yes PAR_21 7315 Rated slip Rated Slip 10 250 rom Yes PAR_22 7316 Rated current Rated Curr 1 0 1000 0 A Yes 170 230 PAR_23 7317 Input power source selection AC In Volt V No 320 480 PAR_24 7318 Auto tuning type selection 2 Auto Tune Type ed 7 Y E 1 Standstill Rotational 31 Function Codes Table Code Comm Setting Data Adjustment Code Name LCD Display No Addr Range Unit Default During Run None ALL1 ALL2 Encoder Test Rs Tuning PAR_25 Auto tuning range setting 2 Auto Tuning Lsigma None No Flux Curr Ls Tuning Tr Tuning Inertia Tuning 4 PAR_26 731A Tuning Torque Tune Torque 10 0 100 0 70 Yes PAR_27 731B Motor flux current Flux Curr 70 to 0 0 PAR_22 A Yes PAR_28 731C _ Motor time constant Tr 30 3000 ms Yes PAR_29 731D 3 Leakage inductance Ls 0 00 500 00 mH Yes PAR_30 731E Leakage coefficient Lsigma 0 00 100 00 mH Yes PAR_31 731F Stator resistance Rs 0 000 5 000 ohm Yes PAR_34 7322 Encoder pulse multiplication 3 Enc Scale x1 x16 x32 x64 x 1 No PAR_35 7323 Selection for motor inertia tuning Inertia Tune 0 No 1 Yes 0 No No PAR_36 7324 Factor of motor inertia Inertia 0 001 60 000 kd me Yes PAR_37 7325 Acc Dec time of Inertia tuning J Spd Time 0 500 10 000 Sec 0 500 No PAR_38 7326 Inertia LPF Inertia LPF 0 010 50 0
65. o not use it for the purpose of starting or stopping Otherwise it could lead to reduction in product life AC reactor The AC reactor must be used when the power factor is to be improved or the drive is installed near a large power supply system 1000kVA or more and wiring distance within 10m o O Installation and wiring To operate the drive with high performance for a long time install the drive in a proper place in the correct direction and with proper clearances Incorrect terminal wiring could result in the equipment damage 0000000000 000000000000000000000000 DC reactor To motor It is required for drives Do not connect a power factor 5 5kW 22kW 200 400V capacitor surge suppressor or Not necessary for drives radio noise filter to the output side below 3 7kW of the drive Ground 56 57 58 Green Innovators of Innovation Safety Instructions LSIS Co Ltd For your safety please read user s manual thoroughly before operating Contact the nearest authorized service facility for examination repair or adjustment Please contact a qualified service technician when you need maintenance Do not disassemble or repair by yourself Any maintenance and inspection shall be performed by the personnel having expertise concerned 2004 6 LSIS Co Ltd All rights reserved WWW ISIS com 8 HEAD OFFICE LS Tower 127 LS ro Dongan gu Anyang si Gyeonggi do Korea EMEA
66. p B This is used if the user wants to turn off the drive output due to external fault signal Arm short U Arm short V l l l IGBT short Arm Short W Drive turns off its output if IGBT Arm or output shorts occur Arm Short DB Encoder error Encoder Err This is displayed if there is a problem of encoder signal BX Protection Instant cut off Motor over speed Communication error BX Over Speed COM Error CPU Error Used for the emergency stop of the drive The drive instantly turns off the output when the BX terminal is turned ON and returns to regular operation when the BX terminal is turned OFF Take caution when using this function The motor runs exceeding 120 of its maximum default speed This is displayed if there is any types of communication errors between the drive main and loader 55 Basic configuration gt Proper peripheral devices must be selected and correct connections made to ensure proper operation An incorrectly applied or installed drive 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 drive input power rating MCCB or Earth leakage circuit breaker ELB Select circuit breakers with care Alarge inrush current may flow in the drive at power on Magnetic contactor Install it if necessary Installed d
67. ription PE Encoder power 5V Line drive power Jumper set required 5G OV A e and B phase signals of line drive encoder Encoder A phase signal A e To use the line drive type encoder the P5 pin of I O PCB JP2 should be Encodar shorted and then the JP1 switch should be pulled down to LD direction Input S Encoder B phase signal e Jumper setup factory default PE Encoder power 15V Open collector power Jumper setup is required 5G OV PA Encoder A phase signal e Aand B phase signals of complementary and open collector type signals PB Encoder B phase signal e Short the P15 pin of l O PCB JP2 and then pull up the JP1 switch to OC RA Encoder output phase A Encoder GE Encoder output common terminal output RB Encoder output phase B e Encoder phase A and B output signal Open collector type GE Encoder output common terminal AO1 Analog output Output 10V 10V e Selection among following 31 items Analog A02 Analog output2 Motor speed Speed reference1 2 Torque reference1 2 Torque current Output volume Flux reference Flux reference volume Drive output current Drive output voltage Motor temperature DC voltage 5G COMMON e COMMON terminal for analog output US Multi function digital outputt contact pointA e Selectable among following 14 items Zero speed detection speed us detection polarity valid speed detection rotation direction invalid Speed reach ae Multi function digital output2 contact point B Speed matching arbitrary
68. rne hoist When the drive capacity is more than 220kW use the braking unit for SV2200DB 4 100 ED Refer to description manual included in braking unit product for the use of 100 ED braking unit 1 Combination of braking unit 2 Braking resistor for braking unit Drive SWIUUIIN52 SV LL v54 Braking Unit I 100 of Braking Torque 10 ED Braking unit 0300 0370 0300 0370 0450 0550 0750 0900 1100 1320 1600 2200 2800 3150 3750 9 Resistance 2 Rated Power kW 200V 37kW 1 37KW 200kW 3 5 37kW 1 37KW 400kW 12 5 400V 75kW 1 2 75KW 400kW 6 10 Refer th ext li 220KW 2 75KW 400W 6 fe hea renun Note 1 Example Combine two braking units of 75kW 400V Class for SV 900iV5 4 90kW Class 200kw 400kW 2 braking unit 2 Refer to the Braking Unit user manual that came with the braking unit e Terminal functions Terminal name Description P B1 Connection to drive terminal P2 or P and B2 of braking resistor N Connection to drive terminal N B2 Connection to brake resistor B2 G Ground terminal IN Control connection lint used when SLAVE MODE IN Control connection lint used when SLAVE MODE OUT Control connection lint used when MASTER MODE OUT Control connection lint used when MASTER MODE Fault signal output terminal when the protection function of 30A 30B 30C braking unit operates 30A Contact A 30B Contact B 300 COMMON 47 Braking Unit and Resistor jum
69. s 0 No Yes zero speed time FUN 51 7433 Dec time of zero speed 0 Dec Time 0 00 6000 0 sec 0 00 Yes FUN 52 7434 Dec time of emergent stop BX Time 0 0 6000 0 sec 0 0 Yes FUN_53 7435 Initial excitation time of motor PreExct Time 0 10000 ms 0 No 33 Function Codes Table It will be displayed when FUN 71 is set to Yes Code Comm Setting Data Adjustment Code Name LCD Display No Addr Range Unit Default During Run FUN 54 7436 Hold time Hold Time 100 10000 ms 1000 No FUN_55 7437 Electronic thermal level for 1 minute ETH Select 0 No 1 Yes 0 No Yes FUN_56 7438 Electronic thermal level for continuous ETH 1 min FUN_56 200 150 Yes FUN_33 7439 Switching frequency select ETH Cont iaa 50 100 Yes FUN 58 743A selection PWM Freq 25 10 04 kiz SUBE os es elt No FUN 59 743B Restart after fault reset Power on Run 0 No 1 Yes 0 No Yes FUN 60 743C Number of auto restart try RST Restart 0 No 1 Yes 0 No Yes FUN 61 743D Delay time before Auto restart Retry Number 0 10 0 Yes FUN_62 743E Wait time for Restart upon Stop Retry Delay 0 0 60 0 sec 1 0 Yes FUN_63 743F Overspeed Detection Level Restart Time 5 0 00 10 00 sec 0 00 No FUN_64 7440 Overspeed Detection Time OverSpdLevel 100 0 130 0 120 0 No FUN_65 7441 Electronic thermal level for 1 minute OverSpd Time
70. synchronizing operation in 5 e Synchronizing in driving Synchronizing in starting e Synchronous operation with multiple motors with synchronized option card m Standstill autotuning u Rotation autotuning This unique technology of LS allows the autotuning operation to be performed This type of autotuning has been widely used for even with the motor shaft directly connected to the load the vector control drive As the name implies Especially this standstill type autotuning is very useful in the lift application this requires the motor shaft to be free of because it does not require removal of brake coupling connected to the motor the coupling for a proper operation im Draw Droop Process PID control Draw control u Process PID control Draw Droop Process PID control is provided for precise control such as tension control linear velocity control temperature and pressure control and useful functions easily implemented like Load balancing INVERTER2 INVERTER1 Draw setting Line speed setting Line speed setting m Droop control Speed command A Speed command Droop max speed E 1 Torque Droop setting 100 Droop starting torque 9 Built in brake control for vertical loading safety m Brake Control Draw control For applications which have a risk of dropping for instance elevator and crane system brake control is built in 4 At start At stop
71. umper setup Voltage Current Motor NTC inputs er o N7 Oo U ba Baj Of Z lt N U gt 29 mN SV iV5 SIO NEW REV1 10110001574 Ver1 0 SV iV5 SIO NEW REV1 10110001574 Ver2 0 AH CN1 O V Al z oo 6666666666 AI 6666666666 Alo 6666666666 D 6666666666 6666666666 NTC ee Ye 666666666 y Ye 666666666 CN2 AIS cee m AAA B AHA Voltage input Open Voltage input Open Current input Short E Current input Short AR Switch B AB Switch Voltage input Left JP1 LD JP2 Voltage input Left JP1 LD JP2 Motor NTC input Right Motor NTC input Right 5G PE Me EE o o 30A 30B 30C 1A 1B 2A 2B OC1 EG e e e RA GF RB GF p o z o RA GF RB GF z 5 oc ee 30A 30B 30C 1A 1B 2A 28 oc1 EG FX RX BX TRSTI CM CM CM PI P2 P P4 P5 P6 P7 0 000 0000 20 Mol ms aro Lei Bar enc ucc 990909 CN3 CN3 e Do not change the jumper set for the encoder type during operation The Jumper type change during operation results in a serious system damage Jumpers should be set properly before the drive operation e The NTC input of the analog input 3 AI3 is only available with OTIS LG motors Use of different type of NTC may cause the motor damage due to overheating Warning 24 Loader Use m Data and status display m Shift between function
72. ut 1 5 0000 FFFF HEX 0020 Yes EXT_12 760C Option output 2 Output 2 5 0000 FFFF HEX 000E Yes EXT 13 760D Option output 3 Output 3 5 0000 FFFF HEX 000F Yes EXT 14 760E Option output 4 Output 4 5 0000 FFFF HEX 000A Yes EXT 15 760F Option output 5 Output 5 5 0000 FFFF HEX 0000 Yes EXT_16 7610 Option output 6 Output 6 5 0000 FFFF HEX 0000 Yes EXT 17 7611 Option output 7 Output 7 5 0000 FFFF HEX 0000 Yes EXT_18 7612 Option output 8 Output 8 5 0000 FFFF HEX 0000 Yes EXT_19 7613 Number of option input Input Num 0 86 2 Yes EXT_20 7614 Option input 1 Input 1 6 0000 FFFF HEX 0502 No EXT_21 7615 Option input 2 Input 2 6 0000 FFFF HEX 0500 No EXT_22 7616 Option input 3 Input 3 6 0000 FFFF HEX 0000 No EXT_23 7617 Option input 4 Input 4 6 0000 FFFF HEX 0000 No EXT_24 7618 Option input 5 Input 5 6 0000 FFFF HEX 0000 No EXT_25 7619 Option input 6 Input 6 0000 FFFF HEX 0000 No EXT_26 761A Option input 7 Input 7 6 0000 FFFF HEX 0000 No EXT_27 761B Option input 8 Input 8 6 0000 FFFF HEX 0000 No 0 8None 1 Stop EXT_30 761E 485 communication mode Parity Stop 1 U dei Yes E 2 8Even 1Stop 8None 1 Stop 3 8Odd 1 Stop EXT 31 761F eM dass Delay Time 1 2 1000 ms S us communication response 2 Yes EXT 32 7620 Station address for built in 485 Int485 St ID 1 250 Yes 0 1200 bps 1 2400 bps EXT 33 7621 Built in 485 baudrate Int485 Baud O 3 Yes B 3 9600 bps 9600 bps 4 19200 bps
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