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V6 Series

1. 2 C D
2. 3 7
3. c9 F02 H96 STOP o9 ON OFF
4. 7
5. 2 C D
6. 2 3 10 2 20 RS485 LAN 2 20 2 3 11 1
7. Lu P09 F26 F27 F26 0 75kHz 15kHz 5 Mo
8. 3 4 i MO 8 2 aS H 3 Ss ForE 170 4 do 5 HE 1 6 5 7 arPg 34
9. 60Hz 120Hz
10. CPU CPU STOP o9 LED ON LE RS485 RS485
11. 0 V W PG NC PI N PG P1 DB N P1 DB UU V W
12. 50m EN OFL 1 a 1
13. 7 1 2 2 1 7 2 7 1 7 1 7 1 1
14. 2 1 2
15. V6 NEMA1 NEMA1 UL TYPE1 9 4 10 V6 10 3 200V a 5 6 1 V6 01 4 0 2 V6 02 4 0 4 V6 04 4 DCR2 0 4 0 75 V6 07 4 DCR20 75 15 V6 15 3 DCR2 1 5 2 2 V6 22 3 DCR2 2 2 37 V6 37 3 DCR2 3 7 10 1 5kW V6 10 DCR
16. 2 3 7 1 LE 2 8
17. 2 1MQ 3 7 6 7 5 7 4 7 4 5 5 7 7 6 1
18. 3 3 1 4 7 LED 6 LED a e 0 STOP 3 1 4 LED
19. 6 3 2 2 6 3 19 2 eo9 3 12
20. DC400V 7 7 7 DC200V F14 4 5
21. RS485 5 PG N DC 25V RS485
22. F05 lt P02 P03 P99 F37 5 15 60Hz
23. 1 1 3 1 4 xii 1 2 3 4 5
24. 2 3 1 000m 2 2 2 1 1 3 V6 Series 4 M4 2 3
25. F00 6c9 o9 F01 C30 1 2 Sa F01 C30 0 3 1 12 DCO 10V DC 10V 2 C1 DC 4 20mA DC 20mA 3 12 DCO 10V DC 10V C1 DC 4 20mA DC 20mA
26. 1 2 3 3 10 5
27. 3 3 IGBT Insulated Gate Bipolar Transistor ON 0OFF 2 9 1 bo
28. 2 12 2 8 1 gt 5kQ DC 10V eo 1 DCO 10V 0 100 DC 10 0OV 0 100 2 PID 3 22 kQ DC 15V DC 10V DC 10V 1 DC 4 20mA 0 100 DC 2
29. 3 4 y08 y08 0 5 6 y01 lt y10 7 RS485 RS485 17 amp r
30. 1 2 PID LED V6
31. H04 1 2 FO07 E10 H54 S 107 3 2 F08 E11 H54 H69 1 3 FO5 0
32. 0 H 60 0 Hz h 1 5 00 1 8 4 2 4 1 4 4 1 1 4 1 3 6
33. 0 75kHz 15 H98 F27 F26 7kHz F30 F31 FMA FMA FMA
34. F37 P09 H70 F43 lt gt H80 F26 F27 0 F27 0 F26 F27 O F27 0 5 F26 F27 F26 F27 1 6 1 S H07 HO7 0 2
35. nb IGBT 7 EE PTC PTC C1 11 PTC 13 C1 1 kQ 7 77 7 30A B C
36. 3 11 3 19 yl LR RG la OO gt 1 5 0 0D 58 OQ 1 99 TQ 0 BD A ag 4 mu sp 3 11 E52 2 1 2
37. 30A B C ON OFF ON OFF 0 Rm RN ON OFF Y1 Y1 30A B C 0ON RUN 0 ON IFARJ 1 2 5Hz ON FDT 2
38. 6 7 8 9 V6 10
39. V6 xiii 3 i iss i X Xiii 1 1 1 1 1 1 1 1 2 1 2 RE 1 2 1 4 1 3 1 4 1 1 3 1 4 2 1 3 2 2 1 2le 2 1 2 2 2 3 2 3 1 2 2 2 3 2 2 3 2 3 3 2 4 2 3 4 2 6 2 3 5 2 7 2 3 6 E Cs 2 12 2 3 7 2 12 2 3 8 2 1
40. Short circuit rating Suitable for use on a circuit capable of delivering not more than B rms symmetrical amperes A volts maximum B Amperes A Volts Inverter type Power supply max voltage Power supply current A Volts B Amperes 100 000 A or less 100 000A AC240V 1 5kW Viii UL cUL 1 6 Install UL certified fuses between the power supply and the inverter referring to the table below UL Required torque Wire size Power lb in N m AWG or kcmil mm 4 Inverter type Control circuit Control circuit Main 2 Main terminal 1 TERM2 1 terminal ERM1 TERM2 2 Class J fuse current
41. 3 4 5 0FF ON 6 4 1 2 SG LI R L2 S L3 T U 4 1 2
42. F15 F16 F15 F16 F03 F15 F16 0 100 F15 F15 F03 5 18 F03 F15 gt F16 F23F25 F03 F15 gt F16 F25F23 F23 F25
43. 1 1 1 1 30 60 2 2 2 1 V6 2 1 2 1 2 2 1 000m 0 01 mg cm 10 50 C 1 1 000 1 500m 0 97 5 95 1 500 2 000m 0 95 2 000 2 500m 0 91 2 2 500 3 000m 0 88 NEMA1
44. H96 2 H96 2 3 H96 OFF 16 RS485 RS485 1 2 RS232C RS485
45. 3 3 gt RS485 14 CPU RS485 CPU 1 15 6 6c9 H96 1 3 6c9
46. E50 min x E39 r min E50 x Hz m min E50 x Hz PID AB E40 E41 PID E52 3 3 11 E52 0 1
47. 2 18 SINK 2 18 2 17 2 RS485 3 9 RS485 RS485 2 19 RS485 RS485 5 PG N DC 25V RS485
48. 7 8 8 9 V6 MCCB L1 R L2 S L3 T MCCB 2 ELCB ELCB MCCB 2 6 MCCB ELCB MCCB ELCB A 3 04 200V 1 5 V6 15 3 22 V6 22 3 10 6 37 3 20
49. 1 2 1 2 1 2 1 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 2 3 1 2 3 1 7 5
50. 2 3 1 1 PULL 2 2 2 2 2 2 3 2 2 6 1 2 1 2 3 42 kW Hm 0 1 V6 01 4 0 2 V6 02 4 0 0 4 V6 04 4 3 200V 0 75 V6 07 4 1 5 V6 15 3 2 2 V6 22 3 M4 1 8 B 3 7 V6 37 3 IO
51. FWD REV 6 o9 i OFL 1
52. 1 1 C30 0 2 LED E48 4 5 6 3 5 LED LED E48 xE50 xE50
53. 8 2 25 0 400Hz 25 0 400Hz 3 0 1 60 0Hz 3 0 75 15kHz 7kHz 2 0 2 25 10 C 0 01 10 50 C 1 1000 0 06Hz 60Hz 0 4Hz 400Hz 0 01Hz 99 99Hz 0 1Hz 100 0Hz CO 2 1 20000 0 003Hz 60Hz 0 02Hz 400Hz 0 01Hz V f
54. 9 2 J DBR DCR 1 500kVA 10 0N OFF 2 V
55. 0 05 0 7 5 12 V f H50 V f 0 0 V f V f
56. F50 F51 0 0 000 7 100 100 kWs kW ED 1 X3 FWD REV
57. 5 3 16 3 11 HEX 16 r min r min m min m min Hz x E50 10 000 r min m min 9999 E50 PID E40 E41 PID
58. LED RST LE H97 o9 1 H98 ON OFF 7
59. 3 3 ACR DCR 6 9 4 5 3 5 1 2 3 4
60. 3 8 3 2 3 8 F E C RF H y Ss 1 0 5 4 4
61. 2 5 2 1 2 8 P1 PG 1 P1 PG 2 P1 PG EE 10m P 2 6 2 9
62. A HP P99 P02 1 P 1 0 01 lt 0 10 0 1 0 44 0 11 lt 0 12 0 12 0 68 0 13 0 25 0 25 1 40 3 0 26 lt 0 50 0 5 2 00 200V 0 51 lt 1 00 1 3 00 1 01 lt 2 00 2 5 80 2 01 lt 3 00 3 7 90 3 01 5 00 5 12 60 230V 60Hz HO4 HO5
63. 4 5 FO5 0 6 8 6 HO4 3 1 F14 4 5
64. S H12 OFF F43 F44 F43 F44 F43 F44
65. DCO 10V DCO 5V 0 lt 100 12 _ DC 4 20mA 0 100 C1 CIVS DC 10 0OV DC 5 0OV 0 100 12 DC 20 4mA 0 100 C1 8 0 7 RS485 1 1 1 0 00 lt 3600 s 0 00 s 4
66. 4 5 V6 F Fundamental Functions F00 sr O x 0 5 10 1 V x 4 5 10 12 C1 12 C1 4 F02 0 x O 2 5 11 FWD REV 3 F03
67. PID 1 PID 2 PID 3 M
68. 1 3 1 3 1 4 1 4 1 1 1 1 1 25 170 C 5 95 2 0 01 mg cm 86 106 kPa 70 106 kPa 1
69. ACR DCR IP2X IP4X 6 EMC EMC EMC 7 8 9 2 000m 3 000m Vi
70. 2 P1 P P1 P 6 3 1 7n 1 U V W 2 U V W
71. 1 LED 0 00 2 5Hz LED 3 LED 4 c9 gt eu 4 2 4 3 5 5 1
72. 3 ZZ 4 5 1 7 6 3 19 LED a i lat HEX 16
73. PTCO 5 LU Er CPU E 5 E 8 RS485 Er 8 5 4 4 OFF r8 5 2 2 1 1 1 4 8 3 8 3 8 3 1 2 2 3 5 2 3 7 2 8 8 3 2 MCCB 1 ELCB
74. 3 gt 6 77 6 6 1 OFF ON L1 R L2 S L3 T
75. ON 7 7 2 7 2 RUN2 35 ON OLP 36 H70 ON 100ms H70 ID 37 E34
76. 2 5 1 0 3 15 I 0 LED ON OFF RS485 ON OFF LE 12 12 V 7 7 C1 C1 mA 4 FMA V 7 Ei 7 77 7 47
77. V6 Series 3 200V 3 7kW 1994 9 1997 1 1
78. E35 ON 100ms E34 E35 ID OL IDL IDLJ 41 E34 E35 ON 100ms E34 E35 IDLJ OL ID ALM 99 ON E50
79. OFF FWD REV E98 E99 FWD REV 1 0 F02 0 F02 2 3 5 1 0
80. 16 16 ON OFF 4 1 1 2 2 LED 16 16 RS485 ON OFF 4
81. 2 3 G AA 1 200V D 2 2 7 2 7 200V D 1009 2 4 U V W 1 3 U V W 2 50m
82. 7 3 5 7 2 Y1 E20 0ON 7 2 85 0 61 000
83. MC 1 1 MC FWD REV 2 U V W 2 IGBT MC
84. X1 X3 FWD REV ON OFF 2 16 2 16 a SINK b SOURCE 4 X1 X3 FWD REV ON OFF PLC CM nr gt ep PLC SINK SOURCE 1 SOURCE 1 1 X1 X3 X1 X3 FWD REV 4 FWD REV
85. 1 2 3 4 5 6 MFG No ROM 3 2 2 5 2 18 12 1 2 3 4 2 7 7 8 8 1 3 200V
86. ON OFF ON X1 X3 FWD REV FWD REV FWD REV 0ON SS1 SS2 SS4 0 1 2 SS1 SS2 SS4 ON OFF 8 SS1 SS2 SS4 1 FO1 2 C30 X3 E03 X2 E02 X1 E01 2 FSS4 1 SS2 0 FSS1 OFF OFF OFF OFF OFF ON CO5 1 OFF ON OFF CO6 2 OFF ON ON C
87. F14 4 5 1 LE
88. 2 3 2 3 LED 3
89. F26 H27 PTC F09 F09 F09 V f F04 F05 9 cb
90. 2 3 3 6 F01 0 1 2 2 2
91. 220V 4kHz F 25 75 40 C nl ily 904 V V 3 VJ 2 3 ACR JEMA 85 DCR AVR OFF F 95 9 x67 IEC 61800 3 5 2 3 10 11 UL TYPE1 NEMA1 NEMA1 10 40
92. THRJ 2 3 8 gt 4 PTC 3 E34
93. 1 E34 FO7 F08 E10 E11 H54 3 gt P99 FI0 F12 4 F11 11 2
94. 4 2A VW 8V 5 0 8 2x 70 0 00 190 4 5 42 190 _ oo gt 0 7 98 F43 F44 F43 F44 F43 1 F43 2 F43 1 lrer A liimit A liinit A rr A
95. 15kHz F04 F05 H50 H51 V f V f H50 H51 V f V f F04 FO5 0 0
96. 3 2 3 1 2 V6 o c9 3 2 5 F00 HO3 H97 3 2 V6 3 mm m
97. 3 8 S OO OS oe 0 259 W DE nn gg a oO PID CD 38 E52 2 1 2 3 ZZ7 4
98. 6 1 0 F23 F25 F23 F25 13 12 11 C1 1 0 6 2 8 F15 F16
99. F14 1 F14 4 ke ES OA Cy
100. 1 W ON ey KY 1 8 SN 5 _ 6 jfe Fg QO a F020 5RE g 3 6 3 14 2 2 LED 3 7
101. SE CO5 16 OQ Ga 16 ni OO LED i OO OO5 16 OO 7 16 59 5 12 V L 1 C1 mA gg 5 V 3 9 0 E52 2 1 2 0 3 1 0 27 0 1 0
102. E52 0 1 1 2 2 1 6 7 C21 1 gt LED LED E43 13 e 1 LED ku9
103. nn SS es a mn n on mm 5 algHSRLSLWL SLI uw Lu LU us LJ LJ a a mn A 1 1 Y Y Y Y 1 1 1 1 1 1 1 1 1 1 1 1 a 3 51 3 5 3 6 F01 F01 4 F01 0 2 3 5 6 _
104. 2 2 EMC 500V 7 7 4 20m Xi
105. F14 4 5 2 OFF 1 0 6 2 2 1 1 2 F00 F00 1 0 3 WE KP E01 E02 E03 E98
106. 1 9999 s 2 LED 0 3 LED FWD 0 FWD OFF P02 PO03 P09 100 100 HP kW HP Hz H2 0 06 0 1 1 77 2 50 0 1 0 12 1 77 2 50 0 2 0 25 2 33 2 50 0 4 0 5 2 40 2 50 0 75 1 2 33 2 50 1 5 2 2 00 2 50 2 2 3 1 80 1 17 3 7 5 1 93 1 50
107. H12 0 2 H69 3 1 3
108. Y1 0 Y1 Y1E 1 0 30ABC 8 30A 30C 1 30B 30C 0 Y1 ON 30A 30C LED4 LED1 7 0 15 7 LED 16 3 17 7 LED 16 15 10 RST 0 0 0 0 0 LED4 LED3 LED2 LED1 XF XR RST RS485 LED 16 2
109. 3 2 3 3 Hz r min 3 2 1 1 2 3 4 1 7 E43 3 3 LED a 8 Hz rmin mmin min 3 4 A W 7 7 V kW LiF kW PID 1 Z
110. FWD REV FWD REV FWD ON REV ON eV F02 1 FWD REV FWD REV FWD ON REV ON FWD REV ON F02 6vy 9 F02 FWD REV E98 E99 98 FMD 99 REV OFF OFF ON OFF SE OFF ON 0 ON ON OFF OFF co ON cell n oFF OFF oN ON ON
111. U V W 5 PG N DC 25V 1 2 2 3 5 2 LED LED 6 2 1 gt 6 2 2 e LED 6 3 e LED 6 4 Li PTC a
112. 1 F14 4 5 1 E50 10000 E50 7 5 5 P N DC 25V
113. 7 i AE MF Ey de nA HO4 HO5 gt lt 2 ll hal sl 1 2 3 4 a A 0 H07
114. 60Hz F05 P02 P03 P99 F09 F37 F370 2 Fo9 0 0 20 0 Na F37 1 65 F09 0 020 0 F37 3 2 Fog 0 0 20 0
115. 65 53 ON 1 000 1 000 0 001 lt 9 999 1 0 001 10 00 65 53 10 0 01 65 535 0 RS485 RS485 9 999 0 RS485 RS485 10 ROM ROM 4 ROM ROM 4 6 6 4
116. RS485 It RS485 EE 2 3 8 5 PG N DC 25V
117. 1 SDD a TS 1 ni ion a 1 M a 1 0 1 OO JO 2 a 3 3grg 3 12 4 4 1 4 1 1 1 L1 R L2 S L3 T 0 V W OG 2 7 2 3 U V W
118. 3 4 F02 F02 2 3 1 0 C33 C38 2 6 4 3 P09 P09 4
119. Y1 2 17 2 17 4 b gt 227 gt Y1 2 0 YIE 2 17 2 8 1C AC250V 0 3A cos 0 3 DC 48V 0 5A Y1 30A 30C ON 30B 30C ON
120. 2 1 2 2 1 2 1 2 1 2 1 2 3 4 5 o 1 o 2 3 4 5 1 2 3 5 1 2 3
121. 2 ACL 1 3 20m 1 20m 2 100V 100V 3 200V 9 3 J 11 13 V6
122. 10V 20mA 100 C32 C37 F18 C50 C34 C39 1 1 F18 2 gt x x _ C32 F18 Fl18x0C34 C32xC50 634 650 34 C50 1 x 1 5 V A 1V 0 Hz F18 0 1V 10V 10
123. 5 16 F12 F11 150 5 0 5 75 0 F14 F14 0
124. F43 2 F44 4 F43 FO07 F08 E10 E11 3 H69 F08 E11 4 5 F09 F09 6 6 5 7 1 F14 0 1
125. C50 10 B 5V C32 100 5V 10V 50 C34 50 F20 F22 H95 OFF F20 F20 F21 F22 H95 Hz F20 1 1 F22 i 0
126. 0 5 0 5 OFF 2 2 2 2 BX F14 4 5
127. 4 PID PID PID PID PID PID SS4 ON J02 0 lt PID PID PID
128. F15 F16 F15 F16 F15 F16 F18 C32 C37 C34 C39 1 1 12 C1 1 FO01 1 F18 C50 A 12 C32 C34 C1 C37 C39 B F18 C32 C37 100 C50 C34 C39
129. OFF THR 9 THR 0FF JOG J0G 10 J0G ON 6e0 FWD REV ON 9 C20 H54 69 F02 0 2 3 J0G amp o9
130. V6 3 1 2 F E C P 1 y 7
131. F05 P 5 32 P99 H03 2 P03 P09 HP P99 1 1 HO3 HO3 o9 2 5 TW a 0 1
132. La Ll CPU RS485 14 0 ____ or Pr PI omM MM on 6 1 6 2 6 2 1 1 2 1 0
133. S S PID ON OFF Al V kW PID PID Hz Hz Hz r min Im min min E48 CF C3 Ln PL 7 J U3
134. 11 EN60204 Appendix C 8 2 MCCB m 2 TL1 R L2 S L3 T ROD ELGB 41 jP gt 06 1 0 3 3 0 1 V6 01 4 0 2 V6 02 4 6 6 0 4 V6 04 4 8s 2 5 2 5 0 75 V6 07 4 10 2 5 2 5 0 5 1 5 V6 15 3 16 2 2 V6 22 3 20 3 7 V6 37 3 20 35 4 4 1 5kW MCCB RCD ELCB 2 70 C 600V PVC 40 3 500 kVA 5
135. r min Hz xE50 m min Hz xE50 E50 min x E39 10000 LED 2 PID E48 F01 4 1 F01 0
136. PG N P N L1 R L2 S L3 T 1 MCCB MC OFF 2 L1 R L2 S L3 T OG 3 L1 R L2 S L3 T MCCB ELCB MC ES 2 11 2 3 6 1 2 11 2
137. FO09 2 F37 0 F37 1 V V 100 100 0 Hz2 0 Cin F09 F37 07 1 3 4
138. RS485 RS485 USB 5m 3m Im 3 RS485 RS485 lt RS485 USB RS485 USB GUI Windows RS485
139. 3 1 0 001 9 999 1 0 001 1 10 00 lt 65 53 10 0 01 65 535 0 ON 1 000 1 000 0 001 lt 9 999 1 0 001 10 00 65 53 10 0 01 65 535 0 LED 3 19 V C LED
140. P03 P02 2 P99 P09 0 0 HO3 1 2 0 gt 1 PO02 kW 2 P99 P99 3 HO03 H03 2 4 PO03 P02 P99
141. 4 12 C1 F18 12 C1 C33 C38 1 2 Hz2 Hz1 Hz2 Hz1 E01 E03 E98 E99 X1 X3 FWD REV F02 9 6c9 F02 0 F02 2 3
142. gm 8 8 5 3 1 7 Z Z A 7 7 rE 7 Z 7 Z 3 1 3 2 1 2 3 4 MM 0 catia
143. THR 2 1 6 100 100 s kWs kW ED 10 ED 100 100 kWs kW ED DB0 75 2GC DB2 2 2C DB3 7 2C 1 5kW E01 E03 E98 E99 X1 X3 FWD REV X1 X2 X3 FWD REV E01 E03 E98 E99
144. eo9 0 ee eV F02 F02 6v9 3 7 F02 F02 IEC F02 0 1 5 4 LED 1 3 2 2 c9 LED 1 2
145. P DB 1 P DB 2 5m 2 0 2kW P NC Pl NC PG P1 DB NC P1 DB 1 P1 PG 2 P P 3 P1 4 DP DB 2 7 1 P 2 P
146. W O Yl RD ONO i argP eork 4 HT ym SALUE 9 1 OO F055 00 OO E5g k 0 6 3 7 FO1 F05 E52 2 E52 1 2 3 11 3 15 3 3 3 11
147. 2 5 F 500 KVA 5 DCR 1 2 3 4 2 3 5 L1 R L2 S L3 T 3 1 2
148. m min min H 3 1 E48 Hz Hz r min m min min 2 PID E43 10 12 PID J01 0 3 C21 E43 13 C21 0 3 3 3 5 E48 3 4 Hz Re Hz Hz
149. 2 13 11 2 14 C1 DC 7 5V gt gt 0 022F 50V 12 1k lt 5kQ 7 11 2 3 2 13 2 14
150. F15 3 a 1 0 13 12 11 C1 4 tia Ta 1 0 5 F07 F08 E10 E11 H54 6 3 6
151. 7 F43 2 F44 F44 F43 F09 F09 V f F04 F05 H50 H51 V f 8 3 1 F18 C50 C32 C34 C37 C39 U V W U V W 2 FWD REV E98 E99
152. IOL 6 1006 IPF 7 1007 OL 26 1026 TRY 30 1030 LIFE 35 1035 RUN2 36 1036 OLP 37 1037 ID 41 1041 IDL wn 99 1099 ALM x x OIO olo oo 99 5 29 E31 FDT 0 0 400 0Hz 0 1 Hz O 60 0 E34 0 1200 0 01 O 1 A A2 E35 0 01 600 00s 0 01 O 10 00 E39 0 000 lt 9 999 0 001 O 0 000 E40 PID A 999 0 00 999 0 01 O 100 E41 3 5 9 5 1 PID B 999 0 00 999 5 4
153. s C21 0 C21 1 LED C21 1 2 C21 0 3 RS485 RS485 2 ___ e9 FWD REV 5 5_01 DC200V
154. E50 xE39 PID PID J01 1 2 PID LED LED E43 0 PID 3 7 PID 1 E60 3 PID 1 2 J02 1 PID 1 PID 1 J02 0 2 LED E43 0 3 2 PID LED PID
155. 3 3 2 2 5 3 4 E34 F26 H70 5 FO07 F08 E10 E11 H54 6 12 amp 1
156. 5 LED PG NC DC 25V V6
157. H o 8 7 H LED aoA go THR gt RST gt 4
158. 5 5 2 2 Y1 Y1E 0N OFF lt gt gt ON Y1 OFF ON 50mA OFF 0 1mA 31 35V Y1E 2 17 DC 24V 50mA Y1E CM DC 24V CM 11
159. P1 PG THR 1 X3 FWD REV E01 E03 E98 E99 9 5 12 11 DCO 10V DCO 5V 13 12 11 10cm 8 4 8 4 80 D 6 5 _ 67 6 5 2 D1 5p2 6 1 B Io EG de la es D
160. 4 5 5 9 5 1 Automatic Voltage Regulator FO1 1 ho 5 2 F15 0 0 400 0Hz 0 1 z il H RT 70 0 5 18 F16 0 0 400 0Hz 0 1 0 0 5 18 F18 100 00 lt 100 00 0 01 1 0 00 5 19 F20 0 0 60 0Hz 0 1 0 0 5 20 F21 0 100 1 5 20 F22 0 00 0 01 30 00s 0 01 0 00 5 20 F23 0 1 60 0Hz 0 1 1 0 5 21
161. 7 F10 F12 E34 E34 F11 80 90 E34 OL ID WIDL TRY 26 HO4 HO5 ON HO4 HO5 LIFE 30
162. DC 24V 50mA CM 11 Y1E gt X1 X3 FWD REV ON OFF 2 15 2 15 a SINK b SOURCE gt 1 PLC or Ki T Re souRcE SOURCE OF PLC X1 X3 X1 X3 FWD REV FWD REV CM CM a 5 2 15 S 2 8
163. H12 1 4 1 Sr 0 F14 5 F23 0 5
164. Three phase 200V 3 200V 1 5kW Nm mW 1 30A 30B 30C 2 30A 30B 30C 2 60Hz
165. 04 0 1 O O 0 5 36 05 0 5 lt 20 0s 0 1 s O oO 5 0 5 36 06 ON OFF 0 Oo O 0 1 5kW 07 0 O O 0 5 37 2 S 3 12 0 TO O 1 5 37 26 0 O oO 0 PTC 27 0 00 5 00V 0 01 vV O O 1 60 a 30 O O 0 0 O x x RS485 x 2 O x RS485 3 RS485 RS485 RS485 RS485 RS485 x 42 se 43 a 6 50 V f 0 0 0 1400 0Hz 0 1 Hz x O 0 0 5 12 51 0 240V AVR 200V 1 V x A2 0 5 12 54 0 00 3600s 0 01 s O 6 00 a 64 0 0 F16
166. 10 lt 40 1 000m 3 2 86 106 kPa 3mm 29 Hz 9 8 m s 9 20 Hz 2 m s 20 55 Hz 1 m s 55 200 Hz 2 2 1 90C 2 2 1 2 40 C
167. 2 8 1 E01 E03 E98 E99 1 2 5 5 2 2 3 CM ON OFF 3 4 FWD REV lt gt gt ON SINK OFF SOURCE oFF ON 2 0V CN OFF
168. F50 F51 2 FO8 E11 H54 F50 F51 3 F50 F51 F50 F51 H H F50 F51 F50 F51 10
169. OFL H03 gt 2 1 3 H03 gt CPU 13 1
170. 1 2 7 3 3 M0 x 100 J3x V x A i 7 3 1 2 AR AS AT VR Vs VT 7 AU Av AM a AC 7 1 7 5
171. 1 5kW 9 1 J H MC MC 1 2 1 1 MC 1 2 3 1 MCCB OFF OFF MC
172. 2 F14 1 1 3 4 6 ON lt 4 1 2
173. CM CM b 2 16 2 3 8 FMA DCO 10V F31 PID 5kQ CM Y1E 2 8 1 E20
174. 0 3 A KW P99 PO2 0 3 4 kW 0 3 0 01 0 06 0 06 0 38 0 38 0 38 0 07 0 10 0 1 0 61 0 61 0 61 0 11 lt 0 20 0 2 1 16 1 18 1 16 3 0 21 0 40 0 4 2 13 2 13 2 13 200V 0 41 lt 0 75 0 75 3 36 3 36 3 36 0 76 1 50 1 5 5 87 5 87 5 87 1 51 2 20 2 2 8 80 8 80 8 80 2 21 lt 3 70 14 38 14 38 14 38 P99 1 HP HP HP
175. CPU 6 15 6 4 1 1 PID E43 10 12 J01 0 LED E43 10 E43 10 12 PID PID PID J01 1 PID J01 0 2 LED PID J01 1 2 PID PID J01 0 2 E43 13 C21 0 LED E43 13 E43 13
176. a 0 Phil 2 3 2 11 12 13 11 CM FWD REV CM M2 0 2 Nrm M2 5 0 4 Nrm 2 4 fl W JIS AWG22 AWG18 1 30A 30B 30C No 1 0 34 0 75 mm2 6 8mm 2 Tmm W x1 8mm H AWG24 AWG18 JCIS 5 7mm 1 Tmm W x1 6mm H No 0 0 25 0 75 mm 2 5 2 5 216 AWG24 0 25 mm AWG22 0 34 mm M2 5 AMG20 0 50 mm AWG18 0 75 mm 322 302 152 132 221 201 121 101
177. 1 1 3 13 LED3 LED2 LED1 16 2 4 16 3 14 2 16 Ni I i NN Ly IN F Ln i nn oololocolocl lolol oo 4 0 4 0 LED 3 15 0 3 9 0 Dl Yl TF GE 1 0 1 0 OO OO LED UU
178. 33 WPID RST ON PID PID PID HLD 34 PID HLDJ ON PID FWD E98 E99 98 FWD 0N OFF REV E98 E99 99 REV 0N OFF E20 E27 Y1 30A B C Y1 30A B C 0ON 0OFF 1 30A B C 30A 30C 30A 30C
179. 0 75kW Iiimit A 4 2A 4 2 A 5 0 A F20 F22 x100 x100 84 43 F44 H12 1 F50 F51 F50 F51 a
180. 3 H12 4 F37 0 1 3 4 F09 F09 6 7 5 FO7 F08 E10 E11 H54 F43 6 2
181. H70 47 7 H12 F43 H12 1 F430 H96 STOP STOP STOP 6o9 LED
182. PID F01 0 1 LED lt 3 6 LED 1 Link PID ai PID PID PID 6 3 8 3 ev
183. V6 3 V6 1 LL E
184. Vii UL cUL UL cUL UL cUL Solid state motor overload protection motor protection by electronic thermal overload relay is provided in each model Adjust function F10 to F12 decide the protection level F10 F12 Connect the power supply satisfying the characteristics shown in the table below as an input power supply of the inverter Short circuit rating Use 75 C Cu wire only 75 C Use Class 1 wire only for control circuit Class 1 Field wiring connection must be made by a UL Listed and CSA Certified closed loop terminal connector sized for the wire gauge involved Connector must be fixed using the crimp tool specified 4 the connector manufacturer UL CSA
185. E52 0 2 V6 LED 7 3 10 V6 F00 F51 Fundamental functions E E01 E99 xtension termina functions C CO1 lt C52 Control functions of frequency P P02 P99 Motor parameters H HO3 lt H98 High performance functions JO01 lt J06 PID
186. gt C20 H54 J0G eo9 1 euy eu9 1 ec9 3 9 3 2 2 0
187. 0 0 1 Hz oO 2 0 OHz 69 0 ho O 0 5 37 1 70 0 00 0 01 Hz s O O 999 5 37 0 01 100 00Hz s 999 71 1 80 0 00 0 20 001 O O 0 20 95 O O 0 5 20 1 96 STOP STOP 29 O O 0 5 38 0 1 2 3 97 097 1 O x 5 38 98 ee oO 3 5 38 Application Functions 01 PID 0 x O 0 1 2 02 0
188. 30A B C ON RUN ALM 3 4 5 6 LED 7 5 2 1 000 3 1 000 7 4 7 3
189. 6 7 7 V6 3 1 2 3 3 2 2 5 3 4 E34 F26 H70 6 10 7
190. 0 01 65 535 0 V C A 1 1 100 7 65 535 65 53 ON OFF HO6 65 535
191. 3 200V 200V 100V 80 240 V 3 400V 160 500 V AVR ON OFF OFF V f 1 F09 F37 0 1 3 4 F37 150 5Hz 6uW 6 5 RS485 lt 1 lt 5 kQ 13 12 11
192. Application functions A _y y01 y99 Link functions 5 F00 HO03 H97 6o9 6 o 5 5 1 3 13 Ui
193. CE TUV 73 23 EEC 1 OG RCD Residual current operated protective device ELCB Earth Leakage Circuit Breaker 2 MCCB RCD ELCB MC EN IEC 3 RCD ELCB B RCD ELCB 1 4 2 3 4 IP54 5
194. E31 ON 1Hz OFF LU 3 ON IOL 5 F43 F44 ON 100ms 5 29 IPF 6 ON IPF F14 4 5 OL
195. o 1 2 3 1 2 3 1 2 1 2 1 2 1 2 3 7 2 1 2 3 1 2 3 7 1 1 2 1 2 1 2 10
196. 25 0 400 0Hz 0 1 Hz x O 60 0 5 12 F04 25 0 400 0Hz 0 1 Hz x 2 60 0 5 12 F05 0 1 V x A A2 0 5 12 80 240V AVR F07 1 0 00 3600s 0 00 0 01 Ss O O 6 00 5 14 F08 1 0 00 3600s 0 00 0 01 s O O 6 00 5 14 F09 0 0 20 0 F05 0 1 O O 5 15 F37 0 1 3 4 F10 ME 0 1 5 3 O O 1 5 16 2 F11 0 00 0 01 A O 1 5 16 1135 A2 F12 0 5 75 0 min 0 1 mn O O 5 0 5 16 F14 0 0 6 O O 1 5 17 1
197. 5 0mm 8 0mm 4 206 204 2 3 3 2 6 50C HIV 75C IV 60C 2 4 2 6 mm 1 L1 R L2 S L3 T QG 2 0 2 0 1 5kW 1 2 3 U V MW Pt1 PC 2 2 0 2 0 2 0 2 0 2 03 5 2 0 3 5 PG DB IV 60C 1 0
198. X1 CM X1 PLC X2 CM X2 PLC 3 CM X3 PLC XF XR RST CM PLC 16 16 2 0 15 0 LED 4 16 V6 FWD REV 0 1 X1 X3 2 4 CM PLC 1 0 FWD X1 ON OFF LED4 LED1 CM PLC
199. V6 Se 7es 2003 12 URL http www mikipulley co jp 211 8577 461 211 8577 461 370 0046 1449 1 120 0001 4 1 2 462 0044 2 10 564 0062 3 3 23 331 0812 3 294 2F
200. 2 3 2 4 5 F43 0 a 5 O O 0 5 24 1 2 F44 20 200 5 1 O O 200 5 24 F50 0 1 kWs O O 999 0 5 24 AM 1 lt 900kWs 999 F51 0 000 0 001 kW O O 0 000 5 24 0 001 lt 50 000kW 0 75kW 999 1 5kW 0 5 3 E Extension Terminal Functions E01 E02 E03 X1 X2 X3 ww 5 26 90
201. 7 7 8 2 8 1 8 1 8 1 8 2 8 2 8 3 8 4 8 3 1 8 4 8 3 2 8 4 8 4 8 5 8 5 8 7 9 Fan 9 1 10 Se St 10 1 1 1 1 1 2 3 V Series Inverter TYPE Rg 3PH 200 240V 50 60Hz 1 1A 150 min eR BNO3Z01 001 ce BNO3Z01 001 E371100R0001 a b 1 1 TYPE V6 01 4 Ve V6 01 0 1 kW 02 0 2 kW 3
202. A PID B PID x A B B PID PID E40 E41 PID A PID B PID x A B B PID 16 3 12 0 15 3 13 LED 3 14 4 2 16 3 12 1 0 gt 1 0 1 1 1 1 1 1 1
203. ON GF F02 1 eo9 2 1 Hz2 Hz1 11 1 FO1 2 C30 Hz2 Hz1 ON 2 WE KP 19 WE KP WE KP OFF ON 00 F00 WE KP 0 ON 1 F00 OFF WE KP WE KP ON PID
204. 3 3 4 5 9 5 1 H High Performance Functions 1 H71 7 7 0 fs 2 3 4 5 6 7 5 7 Ts 03 0 a x x 0 5 33
205. 61 000 1 5 3 7 kW 40C 1 1 RS485 PG N 25C 10C 2 FWD REV X1 X3 OFF 13 Y1
206. 0 1 i 0 1000 1 1001 0 3 2 1002 0 BO SS4 004 2 RT1 006 HLD 007 BXJ 008 oo nr 9 10 11 S 009 TH 010 0 011 2 Hz2 WE KP 2OPID WHz PID 021 19 20 21 iys 24 1024 RS485 33 1033 PID PID RST 34 1034 PID 5 26 PID HLD x x x olololrr 5 26 E10 2 0 00 3600s 0 01 6 00 E11 2 0 00 3600s 0 01 6 00 E20 E27 Y1 30A B C Ry 5 29 1000 0FF 0 1000 FRUNJ 1001 FFAR 1002 T 1003 LU 1005
207. E52 1 3 9 E52 0 1 1 2 2 1 6 7 3 11 CE 1 1 1
208. LED 16 2 LED 3 16 LED1 a e FWD REV X1 X2 X3 CM PLC LED3 a Y1 Y1E LED4 a 30ABC 30C 30A LED4 a CM PLC LED1 LED4 g 5 LED4 LED3 LED2 LED1 7 7 7 7 7 7 7 mm dp 3 16 FWD CM FWD PLC REV CM REV PLC
209. _ 1 F07 5 F03 1 F08 HO7 F09 F37 2 V f F37 V f 2
210. 1 LED 0 00 0Hz 4 2 LED 0 00 0 00 2 1 5kW 4 2 LED 4 1 4 1 3 4 1 3 2 2 1 5 HO3 4 1 60 0 Hz 0 Re ba
211. 196 0014 568 1 3F 920 0064 430 0812 733 0013 812 0016 205 102 I 1328 23 11 7 1F 1 11 15 504 TEL 044 733 5151 TEL 027 321 5521 TEL 03 3606 4191 TEL 052 911 6275 TEL 06 6385 5321 TEL 048 661 7671 TEL 042 549 2431 TEL 076 238 5588 TEL 053 463 2523 TEL 082 235 1156 TEL 092 474 3631 2003 12 L03 L03 10CM
212. 1 A2 x x 1 ON OFF ON OFF 1000 E01 E03 BX 7 BX ON 1007 BX OFF
213. O 100 0 5 19 12 C33 0 005 00s 9 01 s O O 0 05 C34 0 00 100 00 001 oO 100 0 5 19 C37 0 00 200 00 001 O 100 0 5 19 C1 C38 0 005 00s 0 01 s O O 0 05 C39 0 00 100 00 001 oO 100 0 5 19 C50 1 0 00 100 00 001 O 0 00 5 19 C51 PID 1 100 lt 0 00 lt 100 0 001 O 0 00 C652 0 00 100 00 001 oO 0 00 P Motor Parameters 3 P02 0 01 10 00kW P99 0 3 4 0 01 kW x 1 5 32 0 01 10 00HP P99 1 0 01 HP A2 P03 0 00 99 99A 001 A x 1 5 32 A2 P09 0 0 200 0 01 8 O 0 0 5 32 100 P99 0 0 x Ai 0 533 A 1 HP
214. 7 4 1 1 DC500V 2 3 7 2 4 6 5 5MG Pl PG NO U 7 2 2
215. EL EE a mm DD A B V6 01 4 3 200V L602 4 a V6 04 4 95 25 Ve6 07 4 120 50 8 5 130 180 110 D 5 97 e5 2 Di p2 4 5x7 So a8 gh n Ve Series D H 1 HHEEE 3 200V WR EE HL 140 139 m 6 128 6 2 75 _ 64 2 5 a D 888Q Err 0 F 1 1 3 200V V6 37 3 8 6 8 5
216. F30 10V 1 se F30 200 F31 OV ee 0 F30 100 100 0 200 MK i F30 50 SW 0 50 100 F31 FMA FMA F31 2 FMA FMA F30 100 A 200 10V FMA F30 1 A FMA V V Ir V XX IA 10 Iref A A F20 F22 2x 100 i 1 F30 A 00 0 75kW
217. H51 V f FTO5 0 H50 H51 0 25Hz V f F04 F05 H50 H51 V f F0O4 F05 V f H50 H51 V f F05 0 Hz FO3 F04 V f V F05 V f H51 H
218. V 3 V 9 x 67 2 DCR DCR 90 95 P1 PG DCR OFL 1 2 2 0 400m 3 2 F26
219. 0 01 OIOIO O O 0 00 E43 LED 12 13 E48 PID PID E45 E46 E47 E48 LED E50 0 01 30 00 5 31 E52 5 31 E60 0 1 2 4 5 6 0 01 lt 200 00 0 1 2 0 1 2 1 2 D 5
220. 2 1 2 1 1 3 1 4 2 1 3 10 30 C 2 70 3
221. 8 77 7 4 7 gt
222. E61 E62 12 C1 0 1 23 3 5 1 2 D D E98 E99 FWD REV 1000 0 1 2 4 6 7 8 9 10 11 1 2 2 2 3 3 3 98 99 1000 0 lt 1 1001 03 SS21 0002 7 1004 2 RTI 1006 PLD 007 PBX 0008 1009 FTHRI 1010 JOG 1011 2 1 Hz2 Hz1 1019 WE KP 020 PID Hz 021 1024 RS485 PI IVS 1033 PID PID RST 1034 PID
223. F25 0 1 lt 60 0Hz 0 1 0 2 5 21 olololololo olololololo olololgi w NIN NN F26 0 75 15kHz 1 kl 2 5 22 F27 0 0 9 ws 5 22 1 1 2 2 3 3 O O F30 FMA 0 200 100 FMA DC 10V 1 O 100 5 22 FS F31 FMA O O 0 5 22 0 1 FS 2 200 FS 3 250V FS 6 200 FS 7 PID 100 FS 9 DC500V FS 14 F30 100 DC 10V FS F37 0 2 x oO 1 5 15 1
224. 0 F3 4 F09 0 0 20 0 F10 F12 F10 F12 F11 F10 F12 F10 sei 1 2 F11 P03 1 0 1 1 0 00
225. 0 V f Hz H50 FO4 F04 V f H50 F07 F08 1 1 OHz OHz F03 1 F07 1 F08 F03 1 FO7 1 F08 F03 1 F07 1 F08 F03 gt F15 F03 rs N F15 NN 0 1 FO7 1 F08
226. 04 0 4 kW 4 07 0 75 kW 15 1 5 kW 22 2 2 kW 37 3 7 kW SOURCE OUTPUT MFG No BN03 Z01 001 2 1 lt 9 1 lt 9 X 10 Y 1 Z 12 1 2 1 1 2 2 RS485 4 a DB P1 PG NC L1 R L2 S L3 T UL V W A L1 R L2 S L3 T P1 PG N C DB U V MW a V6 07 4 LAN b V6 15 3
227. 2 PID PID x A B B 3 PID A B E40 E41 1 4 1 PID J01 1 2 C21 1 PID 2 3 4 PID 5 1 lM 3 4 3 3 1 ee EE 1 Hz Hz 5999 Hz SGA Hz E48 r min
228. E99 1 0 F00 1 0 4 2 1 E52 E52 6 6 3 1
229. F15 F16 9 E01 E02 E03 E98 E99 1 0 10 IN 11 12 2 1 F09 F09 F04 F05 H50 H51 V f F03 03 2 F15
230. OFF OFF 1 ON OF 3 OFF ON oN mm 2 WT a 3 WT GE FO2 1 FID REV FWD REV FWD CM REV CM F02 F02 1 FWD REV FWD REV FWD CM REV CM FMD REV FWD REV F03
231. V 02 04 KW 1 02 04 0 75 KVA 2 0 57 11 1 9 V 3 3 200V 50Hz 200V 220V 230V 60Hz 0 8 1 5 3 0 5 0 7 d 5 42 1509 6 Imin 2009 4 0 5s Hz 50 60Hz 3 200 240V 50 60Hz Se 10 15 5 296 5 596 165V 165V 6 15ms A OCR 0 57 093 16 3 0 5 7 8 3 14 0 7 OR 11 18 31 5 3 9 5 13 2 22 2 CRVA 8 02 03 06 1 1 2 0 2 9 4 9 9 150 100 100 100 10 150 0 0 60 0Hz 0 00 30 00s EE 0 1009 IEC60529 IP 20 UL open type 11 A a 1 2 3 4 5 6 7 8 9 kg 0 6 0 6 4
232. x O 0 1 PID E60 E61 E62 4 03 P 0 00010 000 0 001 O O o ioo 04 1 0 0 lt 3600 0s 01 s o O 0 0 05 D 0 00 600 00s 0 s Oo O 0 00 06 0 0 lt 900 0s 01 s Oo O 0 5 y LINK Functions yO1 RS485 1 255 x O 1 y02 0 O O 0 1 2 3 y03 0 0 60 0s 01 s Oo O 2 0 y04 0 2 400bps Oo O 3 4 800bps 2 9 600bps 3 19 200bps y05 0 8 bits O O 0 7 bits y06 0 O O 0 2 y07 0 2 bits O O 0 1 bit y08 0 1 60s 1 s oO O 0 y09 0
233. Hz PID 20 Hz PID ON PID IVS 21 PID IVS 0N PID IVS 0N PID 001 1008 0 0 10 V 4 20 mA LE 24 LE ON H30 RS485 LE LE ON PID PID RST
234. MC 3 gt 200 240V 1 50 60Hz gt 1 lt Me ST 2 13 1 12 6 DCO 10V 1 Hi DC 4 20mA 7 SINK DCR ELCB MC SOURCE MCCB np IE y a _ 1 MCCB ELCB 2 3 4 5 6 MC MCCB ELCB 9 2
235. XF XR RST 5 5 3 10 3 18 MK O O SCE 5 00 W OO OO 5_g7 gg Pa O ROW FT ek 0 a FR ry 3 1
236. i 1 OT RS K Ec 2 LEP 3 arE 1 0 4 gq 1 2 PID 1 gg _ a OE PID na 5AL 4 1 5 Ne 0 7 ONQ 1 Iue 1g 3 130H97 E48 Hz m min min PID C21
237. my H95 H95 H95 0 he 1 ls A a a 0 75kW 4 2 Irer A lpg lpg A 4 2A 0 x100 84 0 kW 0 1 0 2 0 4 0 75 1 5 2 2 3 7 A 0 8 1 5 3 0 5 0 8 0 11 0 17 0 F23 F25
238. 0 E52 2 1 2 5 77 3 ZZ7 4 8 5 3 23 3 18 1 0 001 lt 9 999 1 0 001 1 10 00 65 53 10
239. 0 4mA 0 100 2 PID 3 PTC Positive Temperature Coefficient 4 250 DC 30mA DC 20mA DC 20mA gt gt DC 10V 5 DC 10V G1 H27 C1 11 CM Y1E SS 20m 11
240. 0 V W PG NC PI N P P1 DB N P1 DB 2 6 2 3 5 2 3 6 0 V W P1 P PPG DB PC NC L1 R L2 S L3 T FRNO 75C1S 2J P 3 a 2 3 2 7 V6 07 4
241. 00 1 00s 001 s o O 0 01 y10 0 Nodbus RTU oO O 1 SX 2 V6 y99 O x 0 0 H30 H30 1 RS485 H30 2 H30 RS485 3 RS485 RS485 5 8 5 1 V A kW F09 F11 E34 PO03 P02 5 9 5 2 V6 F00 F00 1 FOO
242. 0C 2 2 1 MCCB 1 MCCB ELCB 2 MC 2 1 MC 1 1 1
243. 7 2 3 9 RS485 2 18 2 3 10 Z 2 19 2 3 11 2 20 3 3 1 3 1 3 1 3 2 2 3 4 3 0 3 1 4 1 1 4 1 4 1 2 4 1 4 1 3 4 2 4 1 4 4 3 4 4 3 5 5 1 5 1 5 1 5 2 5 10 xiv 6 6 1 6 1 ST 6 1 6 2 A Na NS 6 2 6 2 1 6 2 6 2 2 ss Ns 6 6 6 3 6 7 6 4 6 16 7 7 1 Sn 7 1 7 2 7 1 7 3 7 5 7 4 7 6 7 5 7 7 7 6
244. 98 5 26 PID HLD lFWD WREV E45 E47 5 5 99 5 26 C Control Functions of Frequency CO1 1 0 0 400 0Hz 01 o O 0 0 CO2 2 O 0 0 C03 3 O 0 0 CO4 0 0 30 0Hz 01 o O 3 0 CO5 1 0 00 400 00Hz 0 01 Hz oO O 0 00 CO6 2 O 0 00 C07 3 O 0 00 CO8 4 O 0 00 CO9 5 O 0 00 c10 6 O 0 00 ct1 7 O 0 00 C20 0 00 400 00Hz 0 01 Hz O 0 00 C21 0 x 0 5 32 1 C30 2 0 V x O 2 0 1 12 2 C1 3 12 C1 4 C32 0 00 200 00 001
245. G P 3 DB DB 4 2 8 PG DB 2 PG DB 1 5kW 2 9 V6 15 3 gt PG NC P1 NC PG P1 DB NC P1 DB PG NC
246. MIKI PULLEY V6 Series Series 3 TRS IV2 008 Copyright 2003 MIKI PULLEY Co Ltd All rights reserved
247. O7 3 ON OFF OFF CO8 4 ON OFF ON C09 5 ON ON OFF C10 6 ON ON ON C11 7 RT1 4 1 FO7 F08 2 E10 E11 WRT1 0N 2 HLD 6 lFWD REV HLD 3 HLD ON FWD REV OFF HLD FWD REVJ 2 BX 7 BX ON RST 8 RST ON OFF ON 10ms

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