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1. 3 ol GA 2
2. a 10 19 EST ON J FX RX ON EST OFF 117 124 18 a
3. F59 2 F4 F61 F59 2 i 9 18 A 182 0 180 0 50 0 183 0 10 00 1 00 184 0 400 1 00 Hz 185 7 0 400 1 00 Hz I86 0 10 00 1 00 I87 0 400 2 00 Hz 154 19 0 19 12 15
4. 200m 3 IMicro Sur ge Filter 100m 100m 15 kHz 3 7kW 100m Bl B2 Apply the rated torque to terminal screws LOosen Screws can cause of sho
5. F9 H37 0 10 1 10 2 10 H37 624 9 F12 0 200 50 1 0 m Fl2 F13
6. 1 H91 H91 2 0 1 0 3 4A 1 1 4 2 rd 5 H91 H91 1 H92 H92 2 1 0 3 4A 1 1 4 2 Wr 5 H92 H92 H91 624 9 9 25 2 ek 0 0 4 1
7. 4 624 SV110iG5A 2 SV150iG5A 2 SV185iG5A 2 SV2201G5A 2 SV110iG5A 4 SV150iG5A 4 SV185iG5A 4 SV2201G5A 4 2 9 ol IGA 6 lt 9VUU0410DA lt 1 8 4 n IN SVU551G5A Z 220 3 66 Ie Mmm hm miho he wimewz om mlm mimo leon ho wisoiesee 50 25 2i9 3 0 3 85 70 80 70 90 Ole4 40 0 8 8 5 85 45 45 45 18 WO55iGc4 5 80 al m4s s0 45 36 MBit 75 80 mM 2 ml4s s0 45 36 wioiee4 110 285 2 3 0 3 18 5 70 80 70 90 wisoiese4 150 285 2i9 3 0 3 185 70 80 70 90 0 0113 Heoleolss no K 0 624 3 3 3 1 MO i FX RX EST RST J0G J0G
8. SV G5A 3 2 SV004iG5A 2 SVO08iG5A 2 SV004iG5A 4 SVO08iG5A 4 SV015iG5A 2 SVO15iG5A 4 oO 1004 SV022iG5A 2 SVO37iG5A 2 SVO40iG5A 2 SV055iG5A 2 SVO75iG5A 2 SV022iG5A 4 SVO37iG5A 4 SVO40iG5A 4 SV055iG5A 4 SVO75iG5A 4 NNNNN 2
9. 2 WARNING Risk of injury or Electric shock Read the manual and follow the safety instruction before use Risk of Electric Shock More than one disconnect Switch may be required to de energ1ze the equipment before servicing Risk of Electric shock Before opening the cover disconnect all power and wait at least 10 minutes Risk of Electric shock Securely ground earth the inver
10. HH 64 KEB Select KEB H64 0 Low Voltage H64 1 L H 65 KEB H 66 KEB KEB Low Voltage H 65 H 66 37 KEB KEB 9 20 Draw
11. 17 124 18 A A 19 B ON B ES w MS s se se ww ww
12. 5 6 14 7 8
13. I DD 6 ll 13 6 624 14 14 1 200V SV 05A 2 om om os 022 05e 0 185 220 mm kVA 0 95 12 2 22 9 28 2 33 5 Llrlslelelslslwlelelsle V 3 200 230V LV 3 200 230 VAC 10 15 50 60 Hz 5 i 2 wan CC CCA ET CT ET EE EC EC EE EE TE 400V MO EC EM EE ER EI ENE 5 400 V 3 380 480V 9 LV 3 380 480 VAC 10 15 50 60 Hz 5 TT CE CCT TC EE OE 1 0TIS 4
14. e NE SU We we 50 C ww 624 13 GCD
15. 7 1 1 ol GA 1 2 STOP RESET CEW et lt No AS NN NN IN Y NN N NN S N NN NN NN Ne N 1 3 4 NPN PNP 77 NNNY WW N NN AA NN JI AN A RT 7 NN NN A
16. FX RX 1 2 F27 i N Te H34 0 1 50 A H41 2 0 1 0 H42 Rs 0 28 O 10 6 10 10 m 1 F27 1 m 624 8 8 6 3 0 3 10 1 F4 0
17. 17 I56 k I55 17 156 2 18 L H78 0 TCR 19 py 9 28 10 11 624 10 10 6 0 157
18. U V W R S T U V W 3 4
19. 624 9 9 17 Power Braking 7 HE 1 IE 0 F59 1 0 7 0 2 F61 0 1 0 m F59 2 1 F4 3
20. 10V 0 20mA 624 3 0 4 7 5kW CT 8R O DB 92 9 4 3 3 2 _ 04KW 15KW 22kW 40KW 3 EEC R S T P1 P2 N U V W L1 L2 L3 Ground 5 5KW 7 5kW mm AMG mm AMG mm AMG Kgf cm Ib in SV004iG5A 2 SVO08G5A SV015iG5A 2 SV022iG5A 2 SV037iG5A 2 SV040iG5A 2 SV055iG5A 2 SV075iG5A 2 _ 8 8 8 8 55 10 IM5 3228 SV110iG5A 2 _ 14 6 14 6 14 6 M6 30 7266 SV150iG5A 2 _ 22 4 22 4 14 6 M6 30 7266
21. 10 50C gt 624 gt mw
22. SV 1GoA 8 8 8 1 1 0 400 0 00 Hz 0 00 Frq 0 0 8 0 Frq 0 0 00 gk 10 00 Frq F21 kb 2 Frq 1 0 00
23. 15 msec 15 msec 90 RH 1 000m 5 9m sec 0 66 70 106 kPa 14 2 90 80 70 60 50 40 30 20 10 UL A NT BOTT 2 A TS 1 2 14 3 ol GA
24. RS F 24 0O No F 25 F 26 ee 5 SV G5 5 5 5 5 0 16 0 ACC 2 5 0 5 I 6 JU 5 Fn 5 0 0 5 4 rn 6 0 i TE 6 0 06 0 hf ll A 16 0 16 0
25. m dCL L 2 10 64 vOL 2 LH79 10 m 2 H73 vO0L m vOL Por tOr L H73 H73 V kW 2 kgf ml H36 2 0
26. 7 15 SV 1GoA 9 6 le ro Cg NV 0 10 V1 10V 0V V NV I 3 SS 1 0 400 Hz V1 10V 0V 12 es NV 0 10 V1 10V 0V V Eo 0 400 V1 10V 0V a Hz 14 V1 I 6 0 9999 V1 0 10V 10 V1 0 10 V V1 PE T 8 0 400
27. 0 00 A E 1 1 0 1 0 F25 0 400 60 00 HZz F26 0 400 0 50 Hz 1 F24 1 F25 F26 k i 1 9 624 8 A 2 0 0 1 0 H11 1 e 0 1 400 10 00 Hz H16 3 0 1 400 35 00 Hz m 2
28. 154 155 H33 1 1 F55 F54 F56 0 1 1 F57 es H33 F58 F57 F50 1 9 SV 1GoA 1 2 O Fs9 0 H33
29. 2 H 0 5 4 Oo C04 5 5 4 0 00 A rt 4 v 3 dEC AE ER A Peer 4 1 F 0 15 0 1
30. EE ER LED Say OME TE LN 6 oo 13 4 ON FPP w 13 5
31. eo _ Fl4 ki 6 4 0 400 OG F20 OG p 21 H70 40 400 Hz F22 2 NO 30 400 HR i i _ 1 H40 3 300Hz 7 3 SV iG5A 1 1 2 2 F23 8 21 Hz
32. yy 0 22 624 9 9 1 1 m 1 F4 1 aa 6 9 aa Fl0 NLl 9 F4 1 F 8 0 1 6015 00 F 9 0 60 0 1 F10 0 200 50 FI1 0 60 1 0 H33 0 F10 F11 0
33. 0Hz 1 F4 0 3 0 1 F4 1 9 1 Wi 0 3 0 1 F4 2 OFF 624 8 8 7 e rm F21 F23 F22 m
34. A 3 1 0 0 ry RUN A 1 0 A 3 3 3 Frq
35. e 10 DC 30V 624
36. A 1 2 SV G5 1 3 NN SS SS AS 1 SV G5 2 2 1
37. H33 40 50 L H42 H44 H41 L Fl4 H34 0 2kW Mi 624 me kW IA Hz Q mH 15 0 50 0 17 5 1 67 0 084 1 12 9 18 624 9 9 10 1 0 Si 0 30 10 F40
38. 5 a CD 1 ee gt gt LL 09 5 Al 4 CL DC vOL JL 0624 5 se STOP RESET 0 amp Y A
39. 8 6 624 8 8 2 0 0 5 0 0 400 0 00 Hz Frd 0 0 8 0 St1 1 0 400 10 00 Hz St2 2 20 00 St3 3 30 00 P6 0 25 5 P7 P8 130 4 0 400 30 00 Hz 131 5 25 00 132 6 20 00 133 7 6 15 00 m Pl P8 P6 P8 122 124 5 7 0 Frq 0 00 1 3 St1 St3 4 7 130 133
40. 50 oIGA 9 H36 H37 H37 0 10 1 10 2 10 9 624 9 9 7 PID H49 PID MN PID Feedback H50 0 2 0 H51 PID 6 0 999 9 H52 PID 1 0 1 32 0 1 0 H53 PID 0 0 30 0 0 H54 PID 0 1 0 H55 PID 0 1 400 60 0 Hz H56 PID 0 1 400 0 50 Hz
41. Draw 2 PWM 2 2 624 2 2 1 4 4 12 2 2 Co NN OT He CD DO 13 Se 3 3 13 4 13 5 14 14 1 14 2 15 15 1 195 2 15 3 DB RS485 MODBUS RTU LS BUS ASCII EN
42. H26 0 10 0 2 0 60 10 H26 m H26 H27 H26 1 STOP RESE T 30
43. 123 26 JOG FX J OG F21 F23 30Hz JOG 10Hz 2 3 JOG 123 26 A A 30Hz AAA P7 JOG FX IE 0 ui 4 624 9 9 3 UP DOWN Frq 8 0 8 0 17 Pl 0 0 27 0 122 Pe 25 5 I23 P7 15 6 124 P8 16 7 F63 Up Down 0 1 0 F64 Up Down 0 00 Frq 8 P1 P8 P7 P8
44. 2 H 1 1 H 5 5 H 6 0 1 0 m HH1 H5 5 ms H6 H1 H5 n0n STOP RESET H1 HI1 H 2 10 4 64 yk yk 10 k
45. 4 2 J CE ER 4 2 DW Eas 5 5 2 5 3 NE SE SN 5 AU 5 7 EO UHR RR 5 10 6 1 0 ED DR 8 1 RERUNREN agee 0 TE 8 8 M0ON2N NE SR 8 12 0 624 Co OT He CD DO Oo 0 0 0 0 0 So eo 0 2 Oo OT He CD DO rH 18 a 20 2 22 2 24 20 0 so 10 10 1 10 2 10 3 10 4 10 5 10 6 V F OG UP DOWN 3 WIRE PID 2 2
46. 4 A A 3 0 0 05 30 05 30 05 SV iG5A 4 5 7 30 05 O 0624 5 1 28 F 28 2 5 ED ll a 1 ll 1 MN 1 ein 1 A
47. 1 0 1 1 F64 30 200 0 1 60 F63 5 Edge a DLL F66 0 400 F65 1 2 Hz 0 V1 0 10V X 00 0 F70 Draw 0 3 1 0 20mA V1 10 10V F71 FE59 2 1 F63 1 0 SV 1GoA 2 1 2 H 1
48. 10 OLVI O 10 MI 10 10V 1 2 1 5 V1 10V 0V V1 2V 2V 10Hz 8V 50Hz V1 8 2 ol GA 8 L 16 110 V1 0 10V V1 2V 2V 10Hz VI 86V 50Hz 0 10 V i 0 00 0 400 0 00 Hz 0 8 0 16 V1 10 0 9999 10 7 V1 0 10 0 00 V V1
49. ON PID rEF PID FbK H50 il 624 9 PID H54 0 PID PID Gain H58 0 PID Func Group 2 H58 1 PID 9 H51 P Gain H52 1 Gain Kevpad i H53 D Gain PID Limit KS Pl D Pl D 7124 AnalogInput AnalogInput Filter Scale Func Group 2 H55 HLLimit V1 2 IO Group MO Group H 57 H56 L Limit 0 10M 11 6 11 12 115 1 PID REF PID 40 a PID 0UT Communi Keypad Setting 1 cation Keypad Setting 2 V1 2 0 10V 0 20mA Communication PID F B Select Analog Input AnalogInput Filter Scale Func Group 2 I O Group IO Group H50 PID F B V1 2 0 10M 11 6 11 12 H5 PID FBK 0 20 mAl Communi cation 1 0 20mA V1 2 0 10V Communication 3 RS485 PID 4 PID REF Drv rEF IHzlI H58 0 H58
50. Watt H 76 11 624 11 H76 15 15 1 76 CV xl00 g T_acc T _steady T _dec T _stop A T_acc T_steady T_dec T_stop 2 T_acc T steady T dec T stop 2 76 de xioorg
51. 2 H23 SV iG5A 15msec L 15msec Lvt 200V 200 2 30V AC 400V 380 480V AC 2 624 9 9 12
52. 4 F21 F23 15 00 39 00 HI17 S 1 100 S 40 X H18 S 1 100 S X H19 0 3 0 0 0 1 H10 1 H17 H18 F2 F3 1 S SV 1GoA 2 0 1 dry 1 2 FX RX ON 0
53. Lvt BST Oht HWt H27 H22 H25 2 4 MM HI I_ gt gd ps JU 4 EE 30 9 22 oIGA 9 9 13 Bee 2 EC 3 kHz H39 1 gt 9 14 2 H81 2
54. 64 13 Vl I V1 1 se Fe ES EEP HWT Err COM NIC NIC 7 Overload Protection IOLT IOLT inverter Overload Trip protection is activated at 150 of the inverter rated current for 1 minute and greater OLT OLT is selected when F56 is set to 1 and activated at 200 of F57 Motor rated Current for 60 sec in F58 This can be programmable w Not Provided With Overspeed Protection or equivalent 13 5 64 13 3
55. I87 e I86 0 184 185 183 4 V F 9 ol GA 9 9 19 Kinetic Energy Buffering 2 KEB 0 1 0 H65 KEB 110 0 140 0 130 0 H66 KEB 110 0 145 0 135 0 H67 KBB 1 100 100 H37 8 0 8 0 k DC Link Voltage Low Voltage
56. 10 00 Hz RUN RUN FWD E 10 Hz sn STOP RST RUN 0 Hz RUN FWD 10 00 10 Hz RUN STOP RST 6 4 624 60 5 624 7 A B EE EN ll
57. L STOP RESET BST ON 9 18 yy 9 16 624 9 9 9
58. V F V F 4 Hz ig 40 110 1 F24 F30 2 V F 4 SV 1GoA 1 F40 0 30 F50 1 50 150 1 Cr H33 F52 1 F51 1 1 1 30 150
59. 2 H72 14 17 2 0 00 ACC DEC drv Fro 1St1 2 St2 3 St3 CUr rPM dCL vOL 1 nOn drC 2 2 2 2 oIGA 10 10 2 e SS I25 ON OFF P1 P3 P4 ON J ON 4 4 OFF P8 P7 P6 P5 P4 P3 P2 P1
60. 4 5 05 5 0 A 1 15 2 15 2 DO 624 5 TRY 1 1 15 ne E 1 1 ii 4 2 1 2 4 W
61. STOP RESET OFF BX ON FLtL FLtL y STOP RESET RESET ON y co NI TU UN 13 14 1 IGBT U VPHF IGBT V WPHF IGBT W UWSF U W
62. H94 H94 2 2 0 3 123 123 4 Q 123 123 5 0 H94 9 34 oIGA 123 456 9 H94 H94 9 0 12 A 4 0 0 5 123 6 123 7 456 8 456 456 9 H94 2 Ss
63. 6 200V 220V 400V 440V 3 H39 3kHz 14 4 4 HMO 3 300Hz 5 Ci 14 1 ol GA V F 0 01Hz 0 06Hz 60Hz 0 01 0 1 2 V F 150 1 20 150 W2 1 20 2 15 4
64. 0 5 A PID H57 X VI 2 2 0 20 mA 4 RS 485 PID PID 0 Hz 1 1 H49 PID 1 SV 1GoA 2 0 WW H60 0 3 0 0 X 10 18 1 IGBT 2 3 11kW 0 2000 PID Sleep 60 0 X 0 400 PID 0 00 0 Hz 21 0 100 PID Wake up 35 0 0 90 KEB 0 1 1 KEB 0 4 KEB 110C LV KEB 125
65. 1 0 1 0 0 100 0 0 0 F70 F70 Draw 0 V1 0 10V 0 20mA V1 10 10V 9 30 624 9 F70 1 2 16 115 F71 F70 3 0V F71 L 30Hz F70 3 V1 10V 10V F71 10 0
66. F12 F12 F13 0 F13 EE Tra F12 Vt 2 A m Fl2 P1 P8 P3 119 11 A 2 624 9 9 2 JOG JOG 1 J OG 1 F20 J OG
67. gt RS485 0 0 MY 1 Frq 7 13 59 60 61 RS485 6 O 0 400 0 00 Hz 0 8 0 i 0 400 0 00 Hz 0 38 0 624 8 Up Down 0 00 Frq Frq 8 m 117 124 163 166 A a F 0 6 0 117 P1 0 27 0 2 1 124 P8 23 7 Frq 2 7 P1 P8 P8
68. 27Hz V1 10V 33Hz V1 10V 13 I15 e FRQ FRQ2 F70 e FRO 2 V1 F70 1 V1 9 21 2 PWM 2 PWM H48 0 PWM 0 1 0 1 2 PWM H48 1 2 PWM 9 22 ON OFF 0 931 624 9 k 1
69. S S lt gt H17 1 2 H17 L H18 1 2 H18 AN 6 N 1 2 6 15 624 8 H70 5
70. MO 3ABC F59 L F59 F59 a Nl 0 0 0 0 1 0 0 1 9 0 1 0 3 0 1 1 4 1 0 0 5 1 0 1 6 1 1 0 7 1 1 1 F59 3 tl t2 ACC dEC 1 3 oIGA 11 2 A tl
71. 9 11 2 0 15 H23 80 200 100 H24 P 100 0 9999 H25 1 200 154 15 0 19 12 155 15 SEE 624 9 4 H22 H20 H21
72. 0 00 Hz 4 NV 10 00 V 5 NV 5 00 Hz 17 V1 0 00 V 18 V1 0 00 Hz 19 V1 10 0 V I10 V1 5 00 Hz 112 4 00 mA 113 0 00 Hz 114 20 00 mA 115 60 00 Hz NV py V1 5V 12mA 32 5Hz 5V 12mA 27 5HzZ V1 0 gt 10IV 0 20 mA 0 00 5 0 Frq 6 m 16 10 111 115 10 10V 0 20mA
73. i 7 126 MO ON OFF MOO ON OFF ON OFF 3AC MO 10 3 oIGA 10 10 3 m n0n m 3 gt gt gt 5 11 10 5 Eh 13 1
74. BR 6 10 5 oIGA 10 10 4 0 3 10 200 1100 AM I50 AM T50 10V 200V 400V 0 21 1 150 2 282Vac 564Vac 3 400Vdc 800Vdc 151 10 6 64 10 10 5 HX 0 FDT 1 12 EDT 2 FDT 3 17 FDT 4 FDT 5 OLt 6 OL
75. 5 oO 1004 11 11 7 7 I16 0 2 0 gt 0 2 0 0 1 120 1 0 154 11 0 19 12 155 7 11 17 V1 1 16 1 a 0 1P 6 e 1 Frq 3 V1 I16 1 V1 17 2 Frq 6 V1 I I16 2
76. 50 er NU 1 H30 2 H32 H36 0TIS LG SV 1GoA 2 a MM 10 10 2 10 H39 1 15 kHz 1 RE H40 10 3 0 WF 8 17 10 6 2 10 8 10 11 H41 7 H42 H44 nS 2 OS a Rs 10 H44 0 300 0 Lo LmH 0 32767 1000 P rr 1 1
77. ON OFF 9 23 US HH 0 1 _ O 9 N 0 154 18 0 19 12 A 155 18 ET m HU78 H78 0 154 155
78. 10 101V 0 20 mAl 0 00 0 400 0 00 Hz es 0 8 0 m Frq 5 m m 12 IT5 I6 1I10 Il1 115 L V1 10 10V 0 20mA 8 4 624 8 NE NA 2 NV 0 V 3 NV
79. L 0 154 155 18 1 ER 154 155 17 gs 624 9 24 2 BX 9 H92
80. 2 RN 3 0 3 0 H30 0 2 22 0 kW H32 0 10 Hz H33 0 5 150 A H34 0 1 50 A H42 Rs 0 28 Q H44 Lo 0 300 00 mH 1 F14 0 0 60 0 0 1 m H40 3 H41 I H30 gt RE DR 9 9 L H33 L H34 H40 0 W F PC
81. ES 2 me 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 0 0 0 0 0 0 6 0 0 7 0 8 0 0 0 9 0 0 10 0 0 1 0 2 0 0 13 0 14 0 15 L H23 H33 L H24 H25 PI P 1I L 154 155 MO 3ABC 9 Z0 624 9 y Lvt PT tl H23
82. F57 U V W 1 1 200V 400Vdc 400V 820Vdc 200V 180Vdc 400V 360Vdc 3
83. hi rt res STOP RST n0n 3 7 77 77 4 7 9 1 624 2 H93 4 5 a nN Vy ee gt 2 1 A 3 3 4 3 0 A 9
84. ze O ACC 16 0 16 0 1 4 A WV 9 olV GA 5 30 05 IHz A 4 3 5 A A
85. 6 1 ol GA 6 S 0 0 0 el 3 00 00 0 LE A 10 00 10 00 10 00 10 00 Hz P1 FX CM ON RUN FWD J 10 Hz
86. 8 7 ol GA 8 8 3 RUN STOP RST 0 3 1 drC Fr F m drv 0 RUN STOP RST drC CC F drC FX RX 1 7 A Ab P1 yy P1 A 2 6 TH P2 P2 2 m drv
87. 9 10 11 12 RS485 RS4G5 13 14 15 MC 624 1 1 1 1 2 2 2 3 3 1 O02 2 J 4 4 4 4 2 4 3 5 D OR2 al 19 HV 8 9 3 ME A 3 6 INMNEUN III 3 3 7 4 1
88. VUSF V U kd W V UPGF U FS I T vPGF V W UPOF U VPOF V WPOF W 29 624 9 9 16 ry 1 0 3 1 Rrq 1 0 8 0 drv2 2 0 3 Frq2 2 0 117 Pl P8 22 0 27 124 1 117 I24 22 2 My 2 Pe 2 wii PN ldrv2 Frq2 1 2
89. 93 2 93 A y 2 9 12 624 1 6 6 1 rw 1 0 23
90. 2 600V 75 3 Pl lt P8 24V CA I2V 2 9 6 624 3 3 4 PNP NPN 1 DC 24V NPN SW SO NPN CM 2 DC 24V PNP 9 1004 5 5 5 1 AN SET RUN AN FWD REV A Y RUN STOP RESET 7 AN N_ V lt WwW lt RR AN TREE y e ENT Ne IENT I
91. To 2 4 N 1 1 hl H1 H16 H1 7 H16 5S HT7 HI1S8 5S HT7 HIS 2 ACC dEC 117 P1 0 27 0 124 P8 24 7 P1 P8 P8 124 24 6 16 624 8 8 5 V F V F 1 F22 30 400 60 00 Hz F23 0 1 10 0 10 50 Hz F30 M F 0 0 2 0 2 H40 0 3 0 1 F30 0
92. 1 2 H81 H90 2 k 2 L H81 H90 1 9 15 Self Diagnostic Self Diagnostic We H60 2 oo 117 P1 P8 20 0 27 0 7 124 2 H60 A P1 P8 P8 124 20 es vv
93. CPU yy ys 1 0 0 V 7 3 0 1 MO 2 3A 3B 3 10 12 oIGA 11 11 1 B 0 1 0 1 F51 1 50 200 150 F52 50 150 100 F53 0 1 0 m 1 F50 1 m F51 F
94. MO 1I54 5 NG 2 30 150 150 0 30 10 0 19 12 17 0 L k F54 6 0 1 1 F57 30 200 180 F58 0 60 60 gt SN eee 624 11 11 3 0 0 7 0 NK 1 60 30 200 150 I54 7 0 19 12 I55 7 17 F00 F60 F60 H33 I54 155
95. ON 20 124 19 b ON 0 10IV 0 20 mA RS485 162 nt NIC NTC 182 10 a b 13 2 oI GA 13 2
96. P1 P8 JOG P5 JOG 121 4 OG TOG F21 F23 NN Fx nm7 0 N ps uoo at x P JOG NE L JOG 3 Wire OG J OG NPN 0 oIGA 9 OG FX RX HH 1 0 400 10 00 Hz P7 26 0 27 6 P 8 0 27 7 1 F20 J OG Pl P8 JOG RX P7 JOG RX
97. P1 FX CM OFF RUN 0 Hz RUN FWD 10 00 10 Hz PI F CM _ ON OFF 06 2 ol GA 6 e 1 4 4 Se 0 0 A 3 3 Q 3
98. T 1 1 1 8 LE EE A I57 UN I59 13 0 Modbus RTU LS BUS LS S485 I60 1 250 I61 0 4 1200 bps 2400 bps 4800 bps 9600 bps 4 19200 bps 2U SV 1GoA H I62 0 2 V1 I RS485 0 I63 0 1 120 162 I64 2 100 ms T65 63 lo
99. 2 5 H93 gt CD gt L H93 H93 H94 0 FFFF m H95 m 0 9 A B C D BB PF 2 H95 k 0 0 L
100. UL 7 UL Unlock UL 8 H95 624 10 10 10 1 m CUr 2 H31 2 12 4 H49 PID 0 1 0 H74 1 1000 100 rPM H40 0 V F Ff rPM 120x 74 31 100 RPM L H49 PLD L H31 L H74
101. V F V F F28 F29 100 F38 F36 F34 F32 31 F33 F35 F37 e 1 2 40 110 100 70 100 70 8 18 ol GA 1 0 1 8 F28 F29 0 15 1 F27 0O F28 F29
102. 0 FFFF CC TTT UL OU L H94 1 H95 H95 2 0 UL 3 UL Unlock UL 4 0 5 H94 123 123 6 L L Lock L 8 H95 9 35 64 9 k H94 H95 H95 2 L 3 L Lock L 4 5 H94 123 123 6 0
103. V H73 drv 0 2 Q_Q TEA 0 RIN STOP FX X RS 485 75 2 V1 y Ol wo PF Po 1 0 20 mA 0 20 1 0 20 mA ii VI 1 V1 1 RS 7 dh rr PT F21 APP 100 1 PID H58 0 1 1T17 124 22
104. IM9 PD 1 PID PID SV 1GoA 1 Es RS 7 _ F 0 se en 1 5 5 1 F 1 hE X 8 10 2 2 Wa 1 X 8 20 Power Braking 0 1 60 Hz F23 OCG0 NR 8 1 a 0 200 H93 gt 0 200 H33 R13 0 60
105. 624 9 9 6 Slip H30 0 2 22 0 7 5 A H31 2 lt 12 4 H32 0 10 2 33 Hz H33 0 5 150 26 9 A H34 0 1 50 11 0 A H36 50 100 87 HS37 0 2 0 4 0 3 0 H30 H30 0 2 0 2kW 5 5 5 5kW 7 5 7 5kW L H31 L H32 pm P 60Hz 1740rpm 4 1740x4 120 60 H33 H34
106. P3 P4 P5 P6 P7 P8 g Ues 2 El GO OO NN OO Ol He OD DO HH FM FF FF FF FF G 1 pe CD CC 17 18 19 20 2 a2 2J 24 29 26 FX RX Emergency Stop Trip RESET J OG J0G 2 UP 3 DOWN 3 wire A EtA B EtB PID 2 JOG JO0G FX JO0G J0G RX 17
107. Hz V1 0 10 V a 0 0 Hz gggg I 0 20 ml 0 400 13 Ep ET Hz 2 0 20 mA I15 0 400 Hz 0 114 20 00 60 00 I16 0 2 0 7 16 SV 1GoA 17 18 119 120 121 2 129 124 P1 P2
108. 7 STALL 11 3 8 Ovt 200V 400Vdc 400V 820Vdc mm 9 Lvt 200V 180Vdc 400V 360Vdc 10 OHt 11 WV1 I RS485 10 10 624 12 MO Ta 13 MO 14 MO 15 9 19 16
109. FRQ 8 Up Down PID OUT1 PID OUT2 2 PID 3 PID OUT1 H55 PID 4 PID OUT2 F21 MaxFrq H55 PID PID 14 624 Sleep Wake up L PID H62 H61 PID REF PID FBK H63 Sleep Fred Wake up level PID Reference ER a
110. 1 2 1 2 PID 2 1 0 00 624 5 0 00
111. 150 AC 282V AC 564V A DC 400V DC 800V ea 7 18 SV 1GoA 0 151 10 200 10V 100 1 I52 0 400 154 Hz 155 0 4 F21 I53 I54 0 19 0 FDT 1 12 0 10 8 1 FDT 2 I55 2 FDT 3 17 10 9 3 FDT 4 4 FDT 5 10 10 5 OLt 6 IOLt 7 STALL 8 Ovt 9 Lvt 10 OHt 11 12 10 11 13 14 15 16 17 18 19 SV 1GoA I56 H26
112. 1 8 11 dry 1 2 FX RX ON H21 0 15 X 10 13 ES OT He oo DO OT ee OD a H22 BR 9 SV 1GoA 2 O H23 80 200 10 13 H33 H24 PI 100 10 15 200 0 H25 0 9999 PI
113. 4 624 SV iG5A SV iC5A 1 2 3 4 5 6 7 8
114. Sa 624 H52 100 100 1 100 1 100 H53 SV iG5A 0 01 0 01 1 100 10msec 1 H54 PID H54 0 1 H55 H56 PID H57 PID H58 PID PID Hz I17 124 Pl P8 21 PID
115. 1 IGBT 13 1 oI GA STOP RESET STOP RESET
116. 0 1 2 PWM PWM H H48 0 WW 1 12 PWM H40 3 H49 PID 1 7 1 0 SV 1GoA 2 H49 PID 0 PD 1 PID PID 0 1 0 20 mA 2 0 1 X V1 0 10 V PID 0 999 9 H51 p 300 0 oo PID H52 0 32 0 PID 1 0 PID H53 oo D 4 PID 0 PID PT PID H55 PID 60 00 PID Hz 21 23 H56
117. Hz F24 Hz 21 0 400 Hz F25 mm 23 F27 0 8 19 F28 i 0 15 me F29 4 F30 V F 10 2 V F ER F30 2 V F 1 Hz a 0 100 F21 1 2 2 V F 0 400 ul 2 Hz 0 100 V F 2 V F 0 400
118. 0 2 0 F66 Up Down 0 400 0 00 Hz Frq 8 Pl P8 F66 Lb F65 Bdge F66 0 1 F66 Bdge F65 0 MT NGE NNJ Pe 124 16 P7 UP NJ cw P8 DOWN EE FX P6 CLEAR P7 UP FX IE ER 9 6 oIGA L F6
119. 1 Pl P2 FX RX 117 118 0 1 FX RX FX RX ON OFF 8 8 ol GA 8 FX RX 2 4 6 0 3 1 P1 i 0 27 0 P2 1 drv 2 P1 P2 FX RX 17 118 ke 0 1 m RX OFF RX ON ge 15
120. 11 4 19 2 H19 1 3 0U V W 1 3 RS T 1 H33 H33 H19 0 1 2 3 11 4 624 11 11 5 I17 P1 Us 25 123
121. 2 ON Hz 2 0 2 U 15 1 2 2 2 1 2 2 2 TI17 I24 12 2 4 SV 1GoA 2 gt H93 X 10 23 ES 1 2 H94 0 FFFF 10 23 RE 16 H95 0 FFFF H94 10 25
122. 8 8 8 0 A 2 28 1 28 28 2 A 5 5 CC y 1 2 624 5 5 6 e
123. A m F21 6 1 624 8 10 10 V A NT 4 0 400 0 00 Hz Ms 0 8 0 2 NV 0 10 0 0 lv NV 1 3 0 400 0 00 H 1 4 NV 0 10 10 00 V NV 5 lt 400 60 00 1H SVK i Frq 2 0 00 V1 CM 10V 10V V1 10V 10V
124. ta 0 e 0 6000 5 0 0 6000 10 0 ACC dEC 2 ACC dEC 2 H70 1 1 5 10Hz A 30Hz 624 8 e ACC 0 6000 15 0 DP d
125. L IGBT 9 24 624 9 y 4 H60 0 IGBT 3 1 2 2 2KW 4 0KW 1 U V 3 H60 1 3 P1 P8 ON 2 H60 dIAG
126. I23 124 15 16 F63 1 OFF F64 F63 0 1 P6 0 I22 25 P6 ON F64 0 P6 CLEAR P7 UP EE X 624 9 BX Frq 8 0 8 0 117 P1 0 TO 1j23 P7 15 6 124 P8 16 7 F65 Up Down
127. 0 OV 10 ON FO 20ImI EAN PID 3 NPN PNP 3 7 W6 2 3 9 a b PID J0G 7 17 an DC 24V 50mA M R N 0 N C AC250V 1A 1 DC 30V 1A 0 10 Vdc 10mA RT 7 14 2 OVIGA 2
128. 3 ease 2 H 4 4 EE TI H 6 H 7 0 1 400 Hz 0 10 H10 0 1 1 2 2 3 3 DAE 0 1 400 1 Hz 1 19 non 1 1r0n 5 00 10 5 H8 F21 10 00 X 23
129. V F NG 2 V F B 1 7 0 2 0 1 F30 1 2 2 8 17 624 8 V F 0 2 0 0 400 15 00 Hz 1 0 F31 V F 1 F39 V F 4 0 100 100 1 F30 2 V F V F gt
130. 0 400 9_1 Hz 0 1 F 21 a ACC 0 6000 0 8 12 dEC ME 8 12 5 IS 8 9 V1 A 2 SPORE 2 8 1 1 8 9 10 10 V1 2 0 10 V mn rm Frq arteor 0 20 mA V1 1 8 5 1 V1 2 8 6 1 9 8 Digital Volume RS485 St1 rd 1 o 8 7 0 400 5t2 2 Hz o a St3 o 8 7 LE drv CUr a ea rPM rPM SV 1GoA 5 A N
131. 1 2 2 2 3 2 0 624 3 OOo mlelelrlelelrl M 1 LtO 5 0 4 CM M2 6 VR 5 M2 6 0 4 0 V1 2 6 0 4 A OE 1 0 lS MZ 6 0U 4 ZUmA es 250 Q AM MIF 11IV WW MO DC 26V 100mA TI MG 2 100mh 3A A 0 4 AC 250V 1A 3B B DC 30V 1A i 1 15cm
132. Frq 10 00 Hz P1 FX CM ON RUN FWD J 10 Hz P1 FX CM OFF RUN 0 Hz RUN FWD 10 00 10 Hz 6 O 624 10 11 12 6 RUN
133. 124 14 2 if SV 1GoA 6 7 10 3 8 10 2 10 16 NN 125 7 6 5 4 3 2 0 10 3 SI80 IMO IN IM IS Ta er 10 3 5 i 1 _ I30 4 20 00 0 131 5 0 400 oe 25 00 10 F21 8 7 32 6 LHz 20 00 133 7 15 00 0 34 1 35 1 36 2 I37 2 38 3 39 3 140 4 0e000 6 0 141 4 6 0 142 5 143 5 I44 6 8 0 I45 6 8 0 I46 7 Wo 147 7 9 0 10 V 200V 400V T50 ps 19
134. 2 22 OFF ON 2 P1 P8 2 ON drv2 F rq2 drv2 drv2 2 0 FX RX FX RX 3 RS485 k Frqg2 Frq2 2 0 1 2 V1 1 10 10 V VI 2 0 10 LVj 1 ee V1 1 1 TEST RS485 OT gt oo DO FH 9 26
135. 624 9 1 2 drv 1 0 3 1 Frq 1 0 8 0 drv2 2 0 3 1 Frq2 2 0 0 US ER 30 Hz 4 0 1 2 1 FX OO CO ee P8 30 00 1 FX 2 P8 FX ON 2 P8 OFF 1 ON 1 2 P8 ON 2 FX OFF
136. Even 0dd I66 1 0 42239 8 5 0 I67 16 I68 8 169 8 I70 I71 16 172 173 8 174 0 42239 8 I75 16 176 8 177 78 I79 16 16 180 181 8 8 7 21 SV 1GoA 0 180 0 H33 9 Te A Ms A 0 400 ee 0 400 70 0 10 154 155 19
137. GD7 Free Run IGBT GD e e s 2 H22 se IGBT
138. i dd FX oO RX PS8 3 VVire L 3 Wire latch L t 50msec 9 5 ep 0 1 400 15 00 Hz 0 10 0 0 ee PP dd
139. ol GA 1 1 1 1 SV008iG5A 2 INPUT 200 230V 3 Phase oUTPUT 0 V 3 Phase OA 1 400Hz gt Il TI TT Es oi LS Industrial Systems Made in KOREA a a ag SV 075 1G5A 2 N 004 0 4 KW 008 0 75 kW iG5A 015 1 5 kW N 022 2 2 kW 037 3 7 kW 200 230 V 040 4 0 kW 055 5 5 kW es 110 11 0 kW 150 15 0 kW 185 18 5 kW 220 22 0 kW
140. p 1 F 0 2 p 2 H 0 j 0 i 3 0 1 15 2 1 15 pe 1 F 0
141. 0 6000 5 0 2 H82 2 0 6000 10 0 H83 2 30 400 60 00 Hz H84 2 V F 0 2 0 H85 2 0 15 5 06 H86 2 0 15 5 H87 2 30 150 150 20 Te 50 200 150 0 50 150 100 H90 2 0 1 100 26 3 A 117 P1 P8 12 0 27 0 7 124 P1 P8 2 m P8 2 124 12 2 1 2 k 2 2 9 23 624 9 2 1
142. 1 5 PID FBK Drvy Fbk Hz H58 0 H58 1 6 P 1 P 8 PID 21 PID H58 1 Hz 7 Drv SPD 8 PID OUT H55 H Limi H56 L Limi 9 100 0 F21 MaxFreq 9 19 0624 9 PID H54 1 PID KeyPad 1 2 V1_1 10 10V V1_20 100W I 0 20mA V1_1 V1 2 1 Communication Main Frequency Command PID Gain Func Group 2 H51 P Gain H52 1 Gain Output Freq Limit H53 D Gain Func Group 1 gt ee D PID Limit F21 maxFreq 4 2 Func Group 2 Func Group 2 H55 H Limit H56 L Limit O KeyPad 1 2 PID wz V1_2 0 10V PID OUT1 PID OUT2 Communicatlon PID F B Select Func Group 2 H50 PID F B I 0 20mA V1 20 10V Communicatlon PID FBK H58 0 PID H58 1 PID 1 Main Frequency Command FRQ FRQ2
143. 18 ee 0 400 10 00 Hz 19 V1 0 10 10 001V V1 110 0 400 60 00 Hz Frq 3 m 0 10V VR V1 CM 16 110 0 10V 8 0 oO 1004 8 0 20 mAl 0 00 0 400 0 00 Hz 6 7 i 4 0 8 0 111 I 10 0 9999 10 I12 1 0 20 14 00 mA et EMI 0 400 0 00 Hz 114 1 0 20 20 00 mA 1 MM 0 400 60 00 Hz Frq 4 CM 0 20mA
144. H57 PID 0 4 0 H58 PID 0 1 0 H61 Sleep 0 0 2000 0 60 0 H62 Sleep 0 0 400 0 00 Hz H63 WakeUp 0 0 100 0 35 0 1 1 oo rFF DP22 0 400 0 00 Hz 0 100 0 0 FbK PID NIS 0 100 0 0 PID 2 H49 1 rEF FbK m PID H54 H54 0 1 L H50 PID H50 PID 1 0 20 mAj 1 V1 0 10 V k H51 P 50 50
145. P7 18 6 124 P8 19 7 m P1 P8 m P7 A P8 B 1 23 18 124 19 k A N 0 P7 CM OPEN k B N C P8 CM OPEN N NJ gm N O 123 18 154 6 0 19 12 155 6 17 L MO 3ABC
146. PID Feedback SS 1 Output freduency RUN command PID Active Sleep Delay 9 624 9 9 8 2 0 1 0 H42 Rs 0 28 Q H44 Lo 0 300 00 ml O m ME C 81 1 0 Tun H41 H42 H44 H93 H30
147. V1 1I7 1 112 k 162 163 I16 162 0 2 11 6 624 11 y I54 155 MO 3ABC 2 I16 2 162 2 163 5 0 I54 11 5 MO H75 0 1 1 2 0 lt s0 10 le H75 1 m H76 ED Enable Duty H75 0
148. 0 1 drv 0 3 H2 1 1 0 1 0 sa H21 1 ON RUN RS485 6 1 624 8 A H21 0 H21 1 8 4 0 6000 10 0 1 2 F21 H70
149. 0 X 140 KEB 110 LV KEB 130 0 X 145 KEB 1 KEB 1000 X 20000 H70 0 1 0 21 0 X 1 H71 0 2 0 0 01 0 1 0 1 2 1 H49 PID 1 J H64 KEB 1 10 KEB SV 1GoA 2 H72 mar 0 0 0 1 2 3 4 5 1 6 2 3 8 9 10 11 H73 12 13 14 2
150. 0 10 V 10 0 V ET F 1 1 m 0 E 1 2 6 10 624 8 e 0 3 1 1 2 H20 1 ON RUN RS485 A ERA aa al H20 0 H2
151. 15 2 16 2 17 2 H73 H7 Se 10 2 0 V kgf ml a H74 1 1000 9 CPM Re H75 a H76 Fa Fa RS 0 1 a 0 1 a 44 3 SV 1GoA 2 05 AN 2 0 6000 117 I24 12 2
152. 21 I53 10 0 40Hz 35Hz 15Hz lt 0Hz MO fl oa FDT 2 52 FDT 1 amp FDT 1 30 00 Hz I53 10 00 F21 yk 152 153 30 00 10 00 Hz 50Hz 30Hz 25Hz MO nu 10 6 64 10 2 FDT 3 L 2 5 3 40 30 00 I53 10 00 F21 ML I52 153 30 00 10 00 Hz ln 5 2
153. 5 7 19 0 19 17 154 155 19 182 TI87 9 28 624 9 ON 0OFF H40 0 V F 184 185 I82 183
154. 5 1 F66 F63 1 kb F65 2 1 3 0 1 Sa 4 ol GA 9 9 4 3 Wire 17 2 P1 0 0 27 0 0 P1 P8 3 Wire P8 3 Wire 1I24 17 3 Wire
155. 51 1 52 F52 F51 BY F53 Np F53 0 1 F51 F52 60 Hz oIGA 11 2 T 155 In lll NA J s lt MO 3ABC
156. 5Hz MO 3 FDT 4 gt 2 0 400 30 00 I53 10 00 F21 I52 153 30 00 10 00 Hz 30Hz 10 9 64 10 4 FDT 5 L FDT 4 B gt 2 I53 10 00 F21 I52 53 30 00 10 00Hz 25Hz aa EE 1 5 OLt 11 2 6 IOLt 11 6
157. 9 0 1 0 160 l 250 1 161 0 4 3 drv 3 m RS485 13 RS485 8 9 ol GA 8 V 10 10 V R_ 0 8 0 drv 0 3 1 frq 2 DrV a 0 10 VI 10 0 VI V1 CM 0 10 V V1 CM 10 O V V1 CM
158. EC 0 6000 10 0 117 P1 0 0 27 0 4 118 P2 1 1 119 P3 8 2 I20 P4 9 3 4 134 1 i 0 6000 3 0 147 7 9 0 P1 P8 m P3 P5 I19 1I21 8 9 10 0 ACC dEC 1 7 134 147 3 1 PS 6 EE EE P4 P5 I 6 4 624 8 H17 40 2 kE 539 40 1 F2 F3
159. H10 1 Hl11 H16 21 F23 yy 4 RS485 RS485
160. H26 0 10 dry 1 2 Oht Lvt EST HWt H27 0 60 1 10 15 6 5 x no 20 1 lt a H31 rPW H32 ea 0 10 Hz rPM H30 MM H33 ee 1 A H34 X UM
161. LS e LN SV iG54A
162. N 4 N W Q A RUN STOP RESET STOP RESET A 3 ENT 624 5 5 2 ay D gt os bk 3 W ap CD NO N 0 C Ya lt NG lt lt 9 2 5 6 1 7 8 g 5 9 64 5 5 3 SV iG5A 4
163. SV185iG5A 2 SV220iG5A 2 SV004iG5A 4 SV008iG5A 4 SV015iG5A 4 SV022iG5A 4 SV037iG5A 4 SV040iG5A 4 SV055iG5A 4 SV075iG5A 4 SV110iG5A 4 _ 5 5 10 55 10 8 8 M5 30 7266 SV150iG5A 4 _ 14 6 8 8 8 8 M5 30 7266 SV185iG5A 4 _ 14 6 8 8 14 6 M6 30 6265 SV220iG5A 4 _ 22 4 14 6 14 6 M6 306265 gt le 7 0mm SV1851G5A 2 SV220iG5A 2 UL 3 3 oIGA 3 10 U V W ARC 200m
164. T_dec T _steadyl T _acc T _ steady2 SA T dec T acc lt lt T_steady1 T_steady2 11 6 624 13 13 1 IGBT Arm 11 22kW Np py 5 Um 0_I_I 150 1
165. m ACC dEC 2 H70 0 2 H71 0 Hz 60Hz 5 30Hz 30Hz 2 5 A 8 12 624 8 SV iG5A 5 WW 0 01 600 00 H71 0 0 01 600 00 0 01
166. rt CIrcult And malfunction Tighting the Screw too much can damage the terminals and Cause Short CITCUIt and malfuction Use copper wires Only with 600V 75C ratings for wiring WARNING Power SUDDIy must be connected to the R S and T Terminals Connecting It to the U V W terminals causes Internal damages to the Inverter Arranging the phase sequence IS not necessary Motor should be connected to the U V and W Terminals If the forward command FX is on the motor should rotate counter clockwise when viewed from the load side of the motor If the motor rotates in the reverse switch the U and V terminals 3 4 624 3 200V 100 Q 3 400V 10 O 3 MG ES rw
167. t STALL Ovt Lvt OHt 6 9 4 tr H26 2 1 0 NII AI lt Il m MO 156 154 155 17 156 10 7 oI GA 10 0 FDT 1 y lt 2 F
168. ter 1 3 200V 3 400V PCB 2 ol GA 10 50 90 RH ie 1000m 5 9m sec 0 6g 70 106 kPa 2

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