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FR-E520-0.1K&sim;7.5K(C)

1. P N A 2 3 Ait amp O O
2. 1 1kW 5 7 1 13 17 19 23 23 6 6kV 3 5 25 16 13 10 09 0 76 0 70 22kV 1 8 13 0 82 0 69 053 0 47 0 39 0 36 33kV 1 2 0 86 0 55 0 46 0 35 0 32 0 26 0 24 1
3. 222 FR E540 1 5K 7 5K 5 A BA
4. SuamiG TARN Rk CEMI D Pr 66 60Hz Pr 23 100
5. 225 RF ATR DB T AORME HOVE te a ot S gt f RS 5 L
6. 47 CA BA 8 CLC any 1x ERO S ae Bane E
7. g PU TNE _a 17 0 31 1 48 4800bps 18 96 19600bps 192 192005ps 8 0 1 19 eure 2 7 10 1 11 2 0 20 1 2 0 10
8. 2 BAM 3 7 4 a
9. 400V
10. E OV1 is FR PU04 on A h DRPOABEERE a RECS T ROR MICE LY SEEK UAE SSB E D a FRPUO4 Be E OV2 m
11. RB 14 O
12. J 6 1 4 il T DC500V CR Una UL ge aes kiN aT W wow L Ol PZF 6 1 5
13. A 5 1 1 1 NE NIR 2 JI pr 2 153 OGA 3 1 1 3 2 3 3 3 4 3 5 ee 10 62 2 10 2 13 Od EE ER AE OA OENE EESE EAEE IE 14 2 1 1 14 2 2 16 2 2 1 ma 16 2 2 2 a2 2 2 3 26 2 2 4 PU S 2 2 5 xs 5 226 40 23 23 3
14. PU FR PU04 PU FR PU04 TREES 82 9999 O 500A 9999 9999 83 200V 400V 0 1000V
15. 1 U T 1 2 3 4 1 oy
16. Co RAH Pr 240 Soft PWM Soft PWM 75 E SEF 3 3 2 PU 1 6OHz 4 mag Pr 79 Pr 146 Es sane E a BS PU S 1 PU SM PU
17. As EMC Installation Guidelines BCN A21041 202 60 2 O DIN VDE 0160 200V EN50178 400V 100V CE 400V 3 380V 415V 50Hz 60Hz
18. TREES z 80 9999 0 1kW 7 5KW 9999 9999 V F BEB 9999 400V 0 2kW7 5kW V F ids elites 1 gt 1 2 4 6 4 1 1
19. GE 1 2 Bee 1 3 3 FR E520 0 1K 7 5K FR E520S 0 1K 0 75K FR E510W 0 1K 0 75K O FR E540 0 4K 7 5K A fi
20. E 3 FhPuo4 3 ARR OAZA EIS SS ORE RIESIT ees HH ma g 5 3 400V 6 E 5 6 FR PU04 E7 I 7 CPU ws CPU
21. 5 Pr 180 Pr 183 pa 3 6 AU ON 73 4 2 44 Pr 190 Pr 192 Pr 190 RUN Pr 191 Pr 192 A B C TRER Boe 190 RUN 0 0 99 191 FU 4 0799 192 ABC 99 SBE 0 99 lt gt pees 0 RUN aga eSEE
22. RT 2 ee TEAR mean fi z GE FR E510W 0 1K 0 75K lox 6 4 s FR 520 8 0 1K 7 5K g G 0730 FR E540 0 4K 3 7K FR E540 5 5K 7 5K 4 46 9999 0 30 9999 9999 Pr 0 a Pr 46 E 0 EPARKIO gt 100 0Hz 46 2 RT ON 3 _ ere R E520 S 0 1K 0 75K FR E540 0 4K 0 75K FR E510W 0 1K 0 75K 6 R E520 1 5K 7 5K FR E540 1 5K 3 7K 4 R E54025 5K TBK Pr 71 0 1
23. 1 No 25 PRON CAB 14 FEEBS 174 RY unseen STF STRES 46 RUNES ry n zemae STF STRES 16 EAE
24. 2 23 2 He O 20m Pr 156 1
25. E Sa Lid 4 eR oy 44 HET II E ACER O SD 1
26. 217 RF MR 6 16 y R f SORE 1112 ia 14 10C M CRAE KEAN yee aa OREI FSR 5 T O 1E 230 OD 1 MATL 5MQ WR ST U V W 2 3 Ahn aA BDO A al E lto
27. Pr 2 Pr 13 ON 92 4 2 3 Pr 3 Pr 19 Pr 47 Pr 3 Pr 19 a os an So te Pr 47 2V F Pr 80 Pr 83 Pr 180 Pr 183 BE 50H
28. ORE 1 MC E JEM1038 AC3 m n EEES ROWS ect F 10 STF STR
29. n a e BENE 900 FMEFRE 85 0 oo1Hz ov okz 187 903 PERBERE 0x dv 001Hz 5v eoHz 187 g 904 O ON oo1Hz 4mA OHz 187 pa 0 1 g 905 jy ia 20mA 400Hz 001Hz 20mA 60Hz 187 012 ov okz 187 923 ARARE 0 dv oo1Hz Sv eoHz 187 FR PU04 GE 1 2 60Hz 3 Powe 100Hz 0 1Hz 0 01Hz 4 1K 3 7K 5 5K 7 5K 5 0
30. Pr 71 1 100 Pr 9 Pr 48 2 RT ON 4 1 2 y RT Sid 2
31. 2 147 2 os _ _ saa sE
32. gt TAAIE ane tt TAAIE aea R P R J5 g E 21 FP rR ae 0 R K S P 8 i 2 D2 pP fs aa D9 S RS T P ASA T Se D3 pr Meee T UU P PA RU sa M U eas LV li The v ae 8 V 738 LWP oR OW Se RS Pe W cee ol W SE FR E520S 0 1K 0 75K FR E510W 0 1K 0 75K T D3 D6 D gt o 220 6 RF ATR 1 7
33. 57 5 KVA Gt 0 5 0 9 1 5 2 5 JEM1030 IP20 A ks 0 6 0 6 1 0 1 CE 1 4 BR 50Hz 230V 100 4 100V 2 2
34. 3 saznas lt I lt ams CRE BE 58 FELT IT EACER 2 3 9 UL cUL UL 508C CSA C22 2 No 14 1 200V B 50C 00V LISTED al mm
35. U E EGF GE rieuoa th a g Pr 249 i 400V E EOHT ENHE FR PU04 3 PAREDES BEHE BAD LEER
36. 10C 50C 10C 40 C 90 RH faHO BUS E 200 650 ia 1000m 5 9m sZ A 3 2 A FR BIF U V W 3 Z 4
37. EEPROM Pr 342 1 RAM EZPROM EPROM Pr 342 EZPROM Pr 146 1 9999 EZPROM Pr 342 1 ee eee EEPROM gt O 1 1x l Lee kena ae he 1
38. 1 2 21 23 40C EN60204 C 5 EN IEC B 2 IEC664 I 2 a TI EN IEC
39. FR BIF 2 FR BLF FR BSF01 5 Fo 46 HET E Che ZCAT3035 1330 TDK ESD SR 250 NEC ZCAT3035 1330 0 kz mm 10 100MHz 100 500MHz 80 150 Ef
40. EN 1m 14407 8L R s TI ERRE kl fx SDO u T2 TI Pr 900 a 12 Pr 55 CE 60Hz 1mA Pr 56 FM 1440 s FR PU04 1 FM FM SD FM
41. pee l ER i t ian i l ilom 1em i l UE x i Som FREQROL feel Som ms gt 4 om on ase i l gi 10cm 5 5K 7 5K 5cm Pra ral Tes k j l O IL 7 RT a D 2 2 2 2 1 3 200V MC 6 To OR Uo DC LL isin PIO aE p 1
42. PrO Pr 12 TERS za 01356 13 15 16 23 100 101 103 105 106 113 115 116 123 lt x gt Pr 71 es A zy 0 100 O 1 101 EREMO AC ebtARE O 3 103 O 13 113 O SF 23 123 JR4P 1 5KWILE 5 105 Sears Ne 16 115 O 6 106 Sora ay e NLS 16 116 oO 124 100 123 RT ON OFF RT
43. 06 6911 1419 TME BT1 25 10 1 0 25N m 0 49N m 0 GE 27 4 se SOURCE a lt 100V 200V HEITIT EACER
44. Pr 22 400Hz lt gt or or iso Roe gaera GAS lcis k apra pare BENE ae O TERE BUEN 0 O OTO TOT O 16 O O1OIO 1 OVOLOJ O 17 J OOIO 2 O ee OO O 18 OO 3 J OO O 19 J OO 4 O Oe O O 20 O Ol O 5 Oe O O 21 o Ol O 6 O ee Oo O 22 g 1 7 ee oO O 23 e Ol 8 O ol ol e O 24 O O01 9 OO O 25 e OO 10 O ee Oe O 26 O Oe 11 ee Oe O 27 J Oe 12 O Oe O 28 Oe 13 Oe O 29 ol 14 O ee O 30 O 6 15 ee 31 Q o2 ale O lololol o 3 el o gt 104 1 Pr 156 OL E OLT
45. Fi ae A Z nE 14 Bae 71 73 O 5V 0 10V 2 5 Er ge 146 gelik a 156 X
46. 39 AE 2 2 6 MC1 MC2 1 ON
47. DC0O 5V 0 10V 4 20mA FR PU04 1 PU FR E5P 1 PU 65 5 Pr 79 0 1 RS 485 PU FR E500 FR SW LTSETUP WJ RJ45 EIA568 10BASE T PINT VA ack atte RS 485
48. ae yam iy TATR REN 555 1 0s 0 1 1s 556 0 0s 0 20s 557 1 0A 0 1 999A lt gt Y93 I I A 1 20s Y93 1 1 Pr 556 Y93 ls Hi Pr 555 0 5 9s 10 180 rsso SS 182 1 16 5s Low Pr 503 2 9s 16000
49. FR PU04 Pr 75 E FR PU04 ERET FR PU04 m 2 Loe A R pe SOBER 1 E CPU EL Dt FR PU04 CPU m CPU OR CPU A RIF LET ORB HERE
50. Pr24 Pr27 gt Pr 4 Pr 6BHA 105 4 2 12 Pr 29 Pr 29 Pr 3 Pr 7 Pr 8 Pr 20 Pr 44 2 Pr 45 2 T RETK 29 0 0 1 2 Esau Eaa kaa S A Hy _ S 8 a A ae z Hz Hz lt x gt Pr 29 be oe Be A A 0 senna ZE RSLS EER NBL LOR SME CONN CHNMET 1 Op ERA fp ERARI SPOR
51. 4 1 O
52. 212 5 2 8 STF STR OFF STF STR ON Pr 79 Pr 79 0 ON U em 2 lt PU 1 8 Pr 79 132 5 2 9 PC SD
53. mn a RES BARIVN FR HC FR CV ETHM EL FRPUO4 1 ia Pr 71 E THT EL HI FRJPU04 m 1 1 50
54. 5 1 1 EL 6 7 A 8
55. He f1 2 S B S A Pr 20 Pr 3 106 IIX 4 2 13 Pr 30 Pr 70 Pr 30 Pr 70 0 4K TREES BEIE 30 0 0 70 0 0 30 lt i E gt 1 MRS BU FR HC
56. 2 STF ON OFF STF STR S F _ F N RH RM 2088 RH RM RL RL KYU MRS ON 20ms Pr180 Pr 183 RIMRS X F RES 0 1s ON OFF S IRES TR ApH CAL Td 5 Pr 75 eee 129 15 As BEL ee DWF BLOM IEMOIEV HS DC24V 0 A BH C PR eg
57. RUN CPU RUN
58. Wo O ou 5 9m s2 10 50C 10C 40C a o 150
59. BE ASF H FR W Pr 71 3 103 Pr 71 13 113 F JR4 1 5kW Rise Pr 71 23 123 GE Pr 83 Pr 84 200V 60Hz 400V 60H z Pr 9 138 i 9 0 50
60. A BEM 42 6Hz 0 400Hz 43 9999 0 400Hz 9999 9999 Pr 42 111 lt x E gt Pr 43 9999 Pr 42 Pr 43 FU Pr 19O Pr 192 Pr 190 Pr 192 174 Pr 190 Pr 192 Pr 44 Pr45 gt Pr 785p Pr 46 gt Pr OSH Pr 47 gt Pr 3B Pr 48 gt PLOHA 4 2 20 Pr 52 Pr 54 Pr 52 PU Pr 54 FM FM ee
61. 1 COW ESEN Pr 72 Soft PWM Pr 240
62. P PBAOMDED RE Sete a a l we PI ee PD PD P D PD P D me am PID PID Pl PD PID P i Date Tt Sie 1g o Pp fe y at bt c 160 sin X gt 0
63. EUC CE CE CE CEMEP TH EMC EMC CE oe EMC EMC Installation Guidelines BCN A21041 202
64. 10 15 40 Pr 72 PWM 2kHz TEBE BREADS 100V 10 15 pogo Wh F PRERA gu 233 t 7 1 2 Sof PWM
65. RS 485 EIA 485 RS 485 PU MAX 19200bps IEE 500m oul oo L ON H OFF 2 2 2 2 1 FELT IT ERCER O UU V W
66. 141 lt gt lt gt 1 Pr 71 5 105 6 106 15 115 16 116 105 116 RT ON 2 Pr 77 801 Pr 80 9999 Pr 82 Pr 90 Pr 82 Pr 90 3
67. 6 40 30 C Pr 72 PWM R Z2kHz EREL CAREERS IOS DC280V 10 DC300V 3 wen DC300V 8 C PERI 230 hk 2 3 400V Bat FR E540 ot 04 o75 15 22 37 55 75 kW 1 04 075 15 22 37 55 75 KVA 2 12 20 30 46 72 91 13 0 16 26 40 60 95 WN EO DGD GD Ga en 12 1 GCE 150 60s 200 0 5s g
68. 42 TEER R OF 5 Bek 1 3 1 3 1 1 100V 200V 400V7 3A gt 9S S 2 100V0 200V 400V7 3A 400V Y L MRD i 3 100V 200V POWER 38 ALARM Gs
69. Tamm 74 1 0 8 128 4 2 30 PU PU Pr 75 Pr 75 PU PU PU FR PU04 PU PU PU FR PU04 1s E PUE L PU PU TANTE am 75 14 0 3 14 17 lt x gt Tr75 PU PU 0 WO 1 OR lt
70. MAN Pr79 Pr 146 Pr7 Pr 8 Pr 20 Pr 21 Pr 29 Pr 3 Pr 14 Pr 19 Pr 1 Pr 2 Pr 18 60Hz Pr 1 Pr 18 Pr 38 Pr 39 Pr 903 Pr 905 Pr 923 aes Pr 39 Pr 73 Pr 902 Pr 905 Pr 922 Pr 0 Pr 80 Pr 10 Pr 11 Pr 12 Pr 1 Pr 2 Pr 4 Pr 5 Pr 6 Pr 15 Pr 24 Pr 25 Pr 26 Pr 27 Pr 232 Pr 233 Pr 234 Pr 235 Pr 236 Pr 237 Pr 238 Pr 239 OGE Pr 15 Pr 16 Pr 31 Pr 32 Pr 33 Pr 34 Pr 35 Pr 36 Pr 57 Pr 58 Pr 60 Pr 245 Pr 247 Pr 250 Pr 3 Pr 19 Pr 71 IPr 156 Pr 80 Pr 42 Pr 190 Pr 192
71. HB GE 1 ese Ne FAX 3 aie OS 2 OBEY P5S Os OS Tal P5S RDB RDA SG lA SDB P5S O RS 485 3 44 31 FELT IT EACER lt gt 1 1 1 0 0 RS 2326 RS 485 RS 232C RS 485 RS 485 15m RF x RS 2320RS 485 MM 45 RJ 45 10BASE T 10BAS
72. 3 244 A A 1 E PUE RES ON
73. 900 FM FM SD 902 DCO 5V 0 10V 903 4 20mA 904 ee 905 59 ARE REE 922 MED Eee 923 90 42 4 2 1 Pr O P46 PrO Pr 46 2 ma a Pr 71 3 Pr 80 A Ss Pr 180 Pr 183
74. 11 94 NON Cr EE iH 9H AE A OFF Pr 58 116 4 2 23 a E Pr 59 Pr 59 Pr Pr 7 Pr 8 Pr 18 Pr 44 2 FR FK Pr 45
75. PC a BRK a m PC SD DC24V ae 0 1A 10 ARIRE ov 10mA DCO 5V 0 10V 5V GOV 2 DC0 5V DCO P ly 10V Pr 73 Flee 10kO 20V ae DC4 20mA 20mA pE AU GE ON 4 2500 30mA 5 G2 15 4 GE AU Pr 180 Pr 183
76. 2 CGE PREY 3 216 RF ATR 6 1 3 Fo
77. 3 a 1 Pr 75 2 Pr 77 GE RS 485 6 RO g aE PU ae FIE FE AN ARN PU W i PU PU FE FE 3 7 RREN Z e a nee E PUE 158 4 2 37 PID Pr 128 Pr 134 Pr 128 PID Pr 73 O 5V 0 10V Pr 129 PID Pr 79 Pr 130 PID Pr 1807 P183 Pr 131 ERY 3 v b Pr190 P 192 Pr 132 Pr902Cr905 fea INS Pr 133 MM ih RERE Pr 134 PID
78. as 223 RF AT FR E520 0 75K 7 5K FR E520S 0 75K AIR FLOW SD SSN _ LAIR FLOW r 5 5K 7 5K 224 FR E540 1 5K 7 5K AIR FLOW
79. PU FR PU04 IPUI PU EX 1 Pr 340 2 Pr 340 10 Pr 340 0 Pr 340 0 1 250 Appendix 3 Instructions for UL and cUL Standard to comply with UL 508C CSA C22 2 No 14 1 General Precaution The bus capacitor discharge time is 10 minutes Before starting wiring or inspection switch power off wait for more than 10 minutes and check for residual LISTED voltage between terminal P and N with a meter etc to avoid a hazard of electrical shock 2 Environment Before installation check that the environment meets following specifications Measurement position Avabignt temperature Constant torque
80. ii a ael a ee hee n g S FR PU04 146 ki 0 1 9999 1 0 67 a 150 EDERE 0 200 01 150 68 151 0 10s OTs Os 68 152 HOMBRE 0200 0 01 5 0 69 H 153 0 05 1s 001s 05s 69 me 156 ah EBE 031 100 1 0 03 0 1 18 10 11 1 0 70 iS a3 171 A ae 0 0 72 173 0 999 0 70 1 0 909 174 9999 9 70 175 0 999 0 70 2 0 999 176 wpe 9999 0 70 RL 0 8 16 190 6 18 0 72 RM 0 8 16 18 G6 18 1 72 RH 0 8 16 go 182 6 18 2 72 3l MRS 0 8 16 93 6 18 6 72 n 190 oN 0 99 0 74 191 FUR TREER 0 99 4 74 A B C i iso O 0 99 99 74 86
81. LED MC OS BR Roc Ce Ao RES 0 1s ON RES ON Err PETTEE ee O KUT 5 5 1 1 1
82. 244 244 150 0 150ms 10ms 1 10ms 2 20ms nee WY RL 8 2 x10ms 12ms SR l GE Pr 123 9999 1 ji aaa
83. EOC1 ETL FRH POo4 JEE OZO eae A g EOC2 FR PU04 0 EE Fry TRAD be 202 E EOC3 EIT FR PUo4 th PRPS RM SA ay 8 200
84. Pr 180 Pr 183 ee ae 7 OH ie GES Pr 180 183 OH EOLT Efi FR PU04 g 0 a OL u E 205 EOPT EMPEY FR PU04 m NET
85. F Ene poten 0 500A 82 0999 0 01A 9999 0 500 90 fen Shes 0 001 9999 4 Pr 77 5 Pr 84 th 84 50 120Hz 0 01Hz 60Hz GE 1 Pr 90 2 Pr 90 T 9999 3 Pr 71 142 SF HR SF HRCA 1 Pr 9
86. 61 MEMO 62 3 1 T i eae aie eens E tee ae 64 2 3 2 j 3 3 ET a ee e eenaa at W n W a n W n W N iat 63 a 3 1 3 1 1 PU 70 1 PU Pr 79 1 Pr 146
87. oa H2 mee P5 1 120Hz 0 120Hz prt 2 OHz 0 120Hz ri 8 120Hz _ 120 400Hz j 0 5 10V 4mA 20mA lt x gt Pr 1 120Hz Pr 18 Pr 18 Pr 1 Pr 18 Pr 1 Pr 18 Pr 1 Pr 2 2 5 60Hz Pr 38 4 5 Pr 39 Pr 146 0 60Hz Pr 923 Pr 1 Pr 18 60Hz
88. 21 Pr 7 Pr 8 Pr 16 Pr 44 Pr 45 gt Pr 21 0 Pr 7 5 0 stb Pr 21 1 Pr 7 0 5 s RS 97 4 2 6 Pr 9 Pr 48 Pr 9 Pr 48 2 Pr 71 Pr 180 Pr 183 Ed eee z 9 0 500A 48 9999 0 500A 9999 9000 0 1K 0 75K 85 lt x gt A 50Hz 0
89. D 2 IP54 EN60204 C A B C DC30V 0 3A 16 10 C 50 C 20 C 65 C 20 C 65 C 90 RH 90 RH 90 RH 1000m 1000m 10000m AWENE BCN A21041 203
90. eee z 0 0 7kHz 72 1 0 15 15 14 5kHz 240 1 0 1 10 11 Pr240 10 11 400V lt x gt eee g PWM 72 O 15 kHzJ KEL 0 0 7kHz 15 14 5kHz 1 40C Pr 72 2kHz E 230 2 PWM E AREISERLETD 44 49 SER Go 126 lt x gt As Pr240 SoftPWM 0 lt f PL72 05 7 10 GP EE 400V 11 GE GE Pr 240 10 11 1 Pr 72 PWM 2
91. 187 76 wo RTE 2 60Hz 2 h sic Pr 79 Pr 146 ON ON PU ry 1 PU PU 70 Pr 79 1 SEEMA COHERE 71 Pr 146 1 2 oe
92. Uo ee TASH RESIS z 2 0 1K lt 37K 5s 7 SEK 7ER 10s 0 3600s 0 360s O 1K 3 7K 5s 8 55K 75K 10s 0 3600s 0 360s 20 60Hz 1 400Hz 0 0 3600s 21 9 0 1 1 0 360s 44 5s 0 3600s 0 360s 0 3600s 9999 45 9999 0 360s 9999 FR E540 5 5K 7 5K 10s 5 APOPA a Hz Pr 7 Pr 8 Pr aa Pr 45 96 lt 8 E gt Pr 21 0 0 3600s 0 1S ee O 360s 0 01s Pr 21 5 Pr 7 Pr 44 0Hz Pr 20 Pr 8 Pr 45 Pr 20 0Hz Pr 44 Pr 45
93. 400V 200V NFB gTa a H F 1M sy On Soft PWM 49 2 3 5 400V PWM
94. 0 Pr 54 0 2 Pr 55 Pr 56 1440 s 1440 s 185 lt gt PU Vv Pr 900 FW Y mp
95. 28 18 TET IH E ACR ETRE 1 A B gep Z AC230V 0 3A DC30V 0 3A C IN B C A C W B C ACA PR 0 5Hz Pr 192 RUN L bo CH H 1 Frac nas DC24V 0 1A ON 34V Ke RS u 3 N 5 FU 1 DC24V 0 1A SE RUN FU SEY PE FM 2 1mA 60Hz 1440 s
96. RUNES Pr190 Pr 192 ABC 99 RY 1 1 ia 190 Pr 192 RUN 0 Y12 12 Pr 190Pr 192 57 EIT Ut E BERR 2
97. en Pr 41 PER a4 4 0 0 lt 100 3 Hz met SU OFF ON OFF SU Pr 190 Pr 192 Pr 190 Pr 192 174 GE Pr 190 Pr 192 4 2 19 Pr 42 Pr 43 Pr 42 Pr 43 see Pr 190 Pr 192 r 43 CHF AREER 4 FU P
98. R or Se TA TEAR FR LAUT ORAL U V W 3 p PR ZE FHM RrP PRELCATY 5 VO 7U SEE ad 0 1K 0 2K _ ae PN FR HC Sev eROLH BIT NAS FR CV P P1 P P1 DC DC 100V ORG em GE RS FETT E AHR
99. 3 Pr 57 9999 184 4 2 52 Pr 900 Pr 900 FM Pr 54 FM Pr 55 Pr 56 FM FM Pr 900 FM Pr 54 1440 s FM Pr 55 1mA
100. 8 X16 ON X16 OFF PU 4 Pr 146 1 FU 3 4 2 2 PU PU FR PU04 PU 129 133 1 PU ane Fo BES PU GE PCR OFF
101. O A 153 Pr 152 Y13 152 1 100ms 2 3 Pr 190 Pr 192 169 AER A
102. 119 4 2 24 Pr 60 Pr 61 Pr 62 Pr 63 EFZ f Pr 22 Pr 60 Pr 63 ORES Pr 8 V F Pr 61 Pr 63 Pr 60 1 2 1 aX cE 12 Pr 7 Pr 8 Pr 22
103. Be Z 1 3 4 OFF FR E5P A B at CO Bek
104. FR E5P PU FR E5P FR E5P 31 PU RS 485 RNAI EBM ti CREAT SRS FR E5P Be 1 3 5 O 90 O En a gt Q m U Os U Qs 90 1 3 6 FR E520 0 1K 7 5K FR E520S 0 1
105. 1 4 CR LF CR G LF CR LF Pr 124 149 4 STX H02 Start Of Text ETX H03 End Of Text ENQ H05 Enquiry ACK H06 Acknowledge LF HOA Line Feed CR HOD Carriage Return AK H15 Negative Acknowledge at PME eee DAAN a SEDDI
106. 121 REUSEA MRS RES 9999 L REDRAR LF Pr 1QO Pr 192 0 o1 S 122 goog 9999 123 0 150 ms ae 9999 146 ee met ind l 0 CR FSL 124 0 1 CR LF BAR 2 CR LF 2 342 NM 0 EZPROM aR 1 a RAM RAM
107. D AV JER 1 D OFF
108. 1 2 MRS GE 3 PU 4 Pr 52 23 2 Pr 52 0 E Pr 171 0 5 0 7 10 6 RE 1 99990h H
109. E as BA Pe ee 2 16 1 N 0 7 A D H30 H37 H41 H44 TEDER H46 H34 o H30 H31 H45 H31 H31 HO5 30 31 45 31 31 30 37 41 44 0_1 117 gt AeA OH AA A H CH H H 1F4 2 5 Bi F EN x x ae o 1 3 01 HO2 H30 H31 H31 H37 H37 H30 H33 H30 30 314 31 37 37 30 130 157 H H H HHH H NAK 152 GE 1 2 F SR
110. Pe IY REDNI YYA RHAOHI YA A A wes A 1 7i HE us s teu Axm x 4B x 6H Ea p 7 CC Cr wy ie a ee 0 lt 9 0 9 rr RUN ay GBs STF STR OFF Pr 146 1 P E 1 5s 1 sr 191 3 Pr 903 Pr 902 Pr 904 Pr 905 2 eg m GE Pr 146 0 Pr 902 Pr 903 ro Er
111. SN z 60 0 0 1 2 11 12 61 9999 o 500a 9999 9999 KEAN E 62 9999 0 200 9999 63 9999 0 200 9999 lt E gt Pr60 1 sane 11 150 Pr 7 Pr 8 Pr 22 I 11 12 12 180 GD E OV3 120 1 Pr 61 A De ROR eee REBSRE REC LIEV EL SICBELE
112. hs 73 5 1 3 RMS KR 7N KR w F w 7 D F D m a B o T a G o p 4 j B 5 B 8 a D D p o 2 8 J D m m D 5 1 4 BH 1s
113. A 1 153 gt No A B a FF 1 H0002 1 BEE ae HO001 aw H0002 HOOOO HFFFF 16 ee 0 01Hz AK 16 min Pr 37 0 01 6 9998 nae C EA any enan po NOOOO HFFFE EREE TE ie O HFFFF Hpac Pint OC WATE 10E at HOOOO HFFFE 2 H74 b15 b8b7 b0 01111IOIOIOIOI11OI1IOIOIOIO10
114. 9999 58 0 60s Be R S T STF STR _ i Ve r min EN _ ane M N i W van Pr 57 Pr 58 115 GCE 1 FREQROL A024 044 BHBAT 0 2s 0Hz 2 SU FU
115. Pr 3 Pr 19 Pr 47 Pr 83 Pr 84 Pr 29 S Pr 3 Pr 47 RT 2 2 Pr 180 Pr 183 172 w 4 93 4 2 4 Pr 4 Pr 5 Pr 6 Pr 24 Pr 27 Pr 232 Pr 239 Pr 4 3 Pr 5 3 z E e Pr 6 3 Pr 29 Pr 24 Pr 27 Pr 79 Pr 146 438 738 J Pr 180 Pr 183 Pr 232 Pr 239 838 1 538 RH RM RL REX ON OFF
116. Pr 96 1 140 o E RA 9 90 Pr 156 1 92 75 93 B SM L E 93 STF
117. 9999 0 500A 2 Pr 62 Pr 61 100 9999 150 180 0 200 0 200 3 Pr 63 Pr 61 100 9999 150 180 0 200 0 200 121 NFX 2B 4 2 25 Pr 65 Pr 67 Pr 69 Pr 65 Pr 67 Pr 68
118. 400V 400V 1 400V 400V 40m Pr 240 Pr 240 Soft PWM 126 2
119. FR E520 0 1K 0 2K 0 4K 0 75K FR E520 1 5K 2 2K 3 7K My Py PR My AA3 ulvlw PR So m m esis u v w 08 5 ALY AM QQ Bi M3 5 REAA M4 FR E520 5 5K 7 5K easan ld pr Ul Vv Ww Q amp Q WI G5 FR E540 0 4K 7 5K My P1 P Pr RWLIs aT s u v TB oe 04 M4 FR E520S 0 1K 0 2K 0 4K FR E520S 0 75K FR E510W 0 1K 0 2K 0 4K FR E510W 0 75 Pi fp Pe n p 2 ulvlw er Pl ae m 7 2 ulvlw RUY Xd ea ia M8 5 gt ETET 2 22 3 R S D BAU V W FR E520 0 1K 7 5K Et ra PVC mm2 AWG mm N m RSTIUVWIR S T IUV WI R S T U V W R S T U V W FR E520 aiggk M35 12 2 35 2 35 2 2 14 14 26 25 FR E520 sk 22kl M4 15 24 24 2 2 14 14 25 25 FREGLO M4 15 55 4 55 4 35 35 12 2 4 25 FRES2C M5 25 55 555 5 55 55 10 10 6
120. 51 lo 500kVA fe ea 10m AC R BAL f DC a BED Q BARA Efe E TAL _ 9 48
121. 94 Pr 146 ie O 1 ON 70 Pr 79 DEEE KER 3 PU EXT STF STR ON ON 3 ON A 4 60Hz CD lt 4 E Pr 146 Pr 146 0 Pr 146 1 71 ST
122. RUN RUN STF STR RUN RUN ROAR Y12 STF STR Y12 Y12 150 Pr 150 20
123. 2 50000h B 180 4 2 51 Pr 555 Pr 557 400V Pr 555 Pr 556 Pr 557 Pr 57 Pr 503 Pr 190 Pr 191 lan Pr 503 Y93 I O Y93 205 1 ER
124. SD 5 400V 5 PC Mo PREC 6 FR PU04 fates hi bee 16 FELT IT ERER 200V 100V NFB NC Ber an oo 08 D W Tye GE 1 2 3 200V 1
125. 25 aa 2 BERR yfi A 0 1 l 1 Pr342 gt Pr 11785 179 4 2 50 Pr 503 Pr 504 400V Pr 503 eaa Pr 504 ee Pr 190 Pr 192 p aes MERE EE Pr 504 sow nes Y95 1 503 504 500 E0000 0 9998 9999 lt E gt g fe z 4A 100h Jo 503
126. E E As AE 2 MDD PDAS REALE as 420mA N 4 4 E EDN Pr 190 192 nw FWD Hi wh REV STOP Low 2 5 Pr 133 4 5 Pr 128 20 21 B 0V 0 5V 100 Pr 73 0 2 5 2 5V 2 5 OV 0 10V 100 Pr 73 1 CHF 2 10V Pr 133 Pr 133 Wee RASA 4mA 0 20mA 100
127. Y 400V 1 XE 2 3 ON SD
128. 5V gi ea z ares 9 Fe im 0 toi OT 5s SET MAX IO 00 3 m 6 5 1 gig op p AD 700 ioe a B 5 4V 80 DS 5V 100 ii 1 Oe TOV OmA 0 5V 10V 9 20mA
129. SE TINS wae LRN _JSTF ae RR LHe q 1 SD 28 FELT IT ERCER PC SD OV PC SD DC24V QY40P 4 1 pc2ay aie GD hg Lo E iron fo v ON
130. 2 o STF A B C 40 FELT IT ERCER 2 3 2 3 1 BENE E
131. 4 MRS _ mF Pr 183 FR HC Pr 183 f 6 6 P N P P N P N DC P P1 FR HC 2 R S T RS NFB 37 4 DC FR BEL DC FR BEL P1 P
132. Pr 146 71 Pr 146 0 1 2 z FR PU04 FR PU04 R CB2 FR E5P 2 Pr 79 2 io t ak DCO 5V 0 10V 4 20mA
133. Tamm 73 0 0 RE 2 0 DC0 5V 1 DCO TOVA DOR GE 1 Pr 38 Pr 73 2 10 2 5 0 4 2 29 Pr 74 Pr 74 0 8 1ms 1s
134. Pr 1 Pr 2 17 Pr 79 3 4 We ae 4 60Hz 0 400Hz 5 30Hz Q 400Hz 6 10Hz 0 400Hz 24 27 9999 0 400Hz 9999 9999 232 239 9999 0 400Hz 9999 9999 gt 94 lt 3 E gt ERE 0 400Hz a xJ FR PU04 FART REX Pr 180 Pr 183 CE 1
135. 1 PU PU 2 7 DT PURE EAPO OME SOT MER EF a PU PU 10 EET 6 PU MRS ON qa PU PU MRS OFF gx X16 ON X16 OFF PU Pr 79 7 8 1 249 Pr 340 0 E ar Pr 340 10 CPr 79 0 6 DES FR PU04 PU
136. Pr 8 PS ao FR PU04 PS th PU g Pr 75 PU PU PEER A LORD TER THESE TIED 129 Er ker RES ON B STF STR ON Pr 77 at oy YJ pa Ka M 1 RU fil amp 4 a 5 w E 209 EE 5 1 2
137. ee P P1 P1 PR 5 2 7 0 2Hz gt gt 29 Pr 80 L 30m V F
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142. 0 0 0 Pr 152 P 53 Y13 Y13 Pr 190 Pr 192 TREES BEG 152 5 0 0 200 0 153 0 5s 0 05 1s smes FION Pr 152 i Pr T92 16 OFF ijo 1 a Y13 Pr 153 Pr BIRHEN Se 0 A lt i E gt
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145. Pr 251 2 Pr 190 Pr 192 98 174 FN FR PU04 m Pa Rode ae ee g Pr 244 FN 221 OER OL I FR PU04 OL Za 150 6 nee STS 50
146. Pita 3 7K 0 1K 0 2K 0 4K 0 75K 1 5K 2 2K SHEER 100VZ24 200m 200m 300m 500m 500m 500m 500m Z 400V 200m 200m 300m 500m 500m 100V ERE 30m 100m 200m 300m 500m 500m 500m ERT 200V SN 400V 30m 100m 200m 300m 500m 3 7K 300m 300m 600m 20 JETT IT E ACHR ORTE PRAE GA al ar 0 1K 0 2K P PR O AM FR BIF FR BSF01 FR BLF
147. REA tet o POWER R S D YIN Be 1 3 2 FR E520 0 1K 3 7K FR E520S 0 1K 0 75K FR E510W 0 1K 0 75K A B A B A F B FR E520 5 5K 7 5K A B C A B C Teed El A gt B i gt lt gt Bs ZF U NS Bee g E540 0 4K 7 5K A B C A B C
148. L H8 lt H9 a a FARTIS ERE FTOR HA HB B HC I5 HD HE Es HF 157 5 RS 485 E PU a sa PU Cit i EKA 2
149. A 3 261 Pil x E A 1997 8 IB 67349 A 1997 9 IB 67349 B
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152. PU RS cia PU PU A 130 4 2 31 Pr 77 Pr 77 Pr 79 TOUM seem 77 0 OF hee lt x gt Pr 77 0 PU 1 2 1 Pr 22 Pr 75 Pr 77 Pr 79 2 3 1 82 CT
153. Pr 902 Pr 903 Pr 1 Pr 2 4 PID 1 PID OHz Ns PID DUE baie a we n gt ON PID MPT PID BREN PID 166 4 2 38 Pr 146 Pr 146 TREES mete 146 0 0 1 9999 lt x gt Pr 146 5 WER a Law
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155. 72 1 2 1 PU Ly me Ox ms 2 4 2 PEME oe GRESTE STR L 3 PU 1 OX STF STR Sy we 4 il 2 4 55 SRR E va mesJ 8 PU PU 7 IMRS ON PU MRS OFF PU
156. 9999 246 0 01 10s 0 ALU EWA Pr3 T VELEABHEU FORRA 247 Pr 245 9999 9999 9999 Pr 245 E A OVD SE d o 176 4 2 47 Pr 249 400V Pr 249 PEW
157. Pr 68 0 1 360s Pr 69 0 1 Pr 69 Pr 68 5 1 2 5 DS FR PU04 1 1 PREE ae 3
158. 0 3mm2 0 75mm lt 2 M2 5 400V RH A RM B A RL 6 MRS 10 RES 2 SD 5 FM 4 PC SD FETT IT E ACER 3 E RI SONS CRIA ER Emm O 0 9mm
159. FR HC 3 Eai 2 A 30 4 12 5 AC o 2 3 3
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161. P1 P lt FR E520 0 lt o 75K 5 5K 7 5K FR E520 1 5K 3 7K FR E540 0 4K 7 5K FR E520S 0 75K FR E520S 0 1K 0 4K Nlpmlplpm Pie i CE FR BEL a pez i FRBEL tl aa ca 1 5m 2 Ee eee R S D 38 IIT AT E AIR 5 FR CV FR CV Aims P N FR CV FR CV R Uo S 2 1 O FR CV NEB MCI FR CVL
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163. 1 EEFT EY ht gt 2 OFF L POWER 3 RES ON 210 5 2 5 2 1 P1 P 4 20mA AU ON MRS
164. F lt gt RJ45 5 554720 3 EIA568 10BASE T SGLPEV T 0 5mmx4P 4 Ii FR E5P gt 20m FR PU04 2 RS 485 PU PU gt 20m PU FA 3
165. J al I D fm gll 1 64 73 6 208 6 7 148 220 AT L 1 nn pia U mm 241 MEMO 242 ft 1 244 2 249 Appendix 3 Instructions for UL and CUL 251 243 R z2 1 i inne tk Sa i WU AA 7F FF 0 00 80 0 1 01 81 0 2 02 82 0 3 03 83 0 4 3 04 84 0 5 3 PR 05 85 0 6 3 06 86 0 7 07 87 0 8 08 88 0 9 09 89 0 10
166. 5 Pr 245 Pr 247 9999 GE Pr 77 801 200V Pr 82 Pr 86 Pr 90 Pr 245 kW R1 0 2 4 0 59 130 9 46 6 7 0 4 4 0 93 130 4 41 6 7 0 75 4 1 44 130 1 92 6 7 15 4 2 82 130 0 72 4 2 4 3 44 130 0 44 4 2 3 7 4 5 95 140 0 34 3 9 5 5 4 7 73 140 0 16 2 8 7 5 4 10 0 140 0 11 2 8 143 400V Pr 82 Pr 86 Pr 90 Pr 245 kW R1 0 4 4 0 55 130 17 64 5 6 0 75 4 0 74 130 7 68 5 8 1 5 4 1 4 1 130 2 88 4 2 2 2 4 1 72 130 1 76 4 2 3 7 4 2 98 140 1 36 3 9 5 5 4 3 87 140 0 64 2 8 7 5 4 5 00 140
167. E r STF STR SD ax afte ON OFF ao we 18 STF STR SD 1 400V 2 2 ma OFFON 55 FELT IT ERCER 23 8 1 re
168. 50Hz 60Hz L Pr 14 1 EEA Sears 3 60Hz 0 400Hz O 1000V 8888 8888 95 19 9999 9999 9999 lt 47 9999 0 400Hz 9999 9999 1 FR E510W 0 1K 0 75K 1 9 2 FR E510W 0 1K 0 75kKl amp 2 Boris E Hz fer Pr 47 lt i E gt Pr 3 Pr 47 2 Pr 47 2V F RT ON 3 Pr 19 GE 1 Pr 3 60Hz 2
169. 2 REDRES SERIY 89D 3 400V 4 DC 2 Z P P1 36 FELT IT EACER 3 FR HC ESN By 3 FR HC FE RIVA gury RD O FRE Qk FR HCLO1 oT R2 6 LOR R2e_eR2e_ 4 per P y OS 2o o751e MC NO ON Si g ol a ett O R80 4 RES i 5 3 R S T R4 S4 T4
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172. BAIC ko TZE Yo 0 1K 0 2K BU 4 FR E540 0 4K 0 75K FR E520 S 0 1K 0 4K Fa 7 EA mH E Sa 4 f cr gt g 38 m at B x Q TS H N FR E510W 0 1K 0 75K 235 it tt 7 1 3 _ 1 200V 100V FR E520 0 1K 0 2K 0 4K 0 75K FR E520S 0 1K 0 2K 0 4K FR E510W 0 1K 0 2K 0 4K wal fet D1 a D D1 D2 ees FR E520 0 1K 76 10 55 FS FR E520 0 2K 76 10 55 a FR
173. SE 64 ea 3 1 Pr 79 3 Pr 146 Pr 146 71 Pr 146 0 1 lt n ZE SNES gt FR PU04 1 PU FR E5P 1 PU 4 2 Pr 79 4
174. POWER 10 200V 100V D 400V C O ai 2
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176. 3 PO0 gt Kix Pi KVA Ki 2 Pi kVA 5 HET BL Seas SA EAREN x X SMRSAK BOE X30 4 43 HETT IH E BRR 5 5
177. 5 2 8 5 2 9 5 2 10 POWER 5 2 11 6 21 6 1 6 1 1 6 1 2 6 1 3 6 1 4 6 1 5 ni 6 1 6 218 6 1 7 Pa 6 1 8 7 tt tk 229 243 1 244 2 249 Appendix 3 Instructions for UL and cUL 251 1 1 2 2 1 2 3 13 4 3 gt PU FR PU04 ay 4
178. Pr 69 TREE REO 65 0 3 67 O 10 101 110 68 0 1 360s 69 0 lt i E gt Pr 65 X T E OC E OC2 OZ clo Tu X TE 2 eee eeooooe Qa II U 1 mM I ee OC CEE mm N DIMIC NO Oo 122 mmm Pr 67 Pr 67 0 1 10 1 100 101 110 1 100
179. 200V 400V 4 00 00 00 A rms A rms A rms 132V 264V 59 528V Pr 9 2 3 10 CE 1 EMC EMC ee
180. 2 3 8 8 CE R 35C 1 20 1 300 8 50000h TY 2 3 1 1 3 5 FR E520 0 75K MMF 04C24DS _BKO CA1382HO1
181. ig Ki Pr 250 H Hz gt RUNES OFF 178 Pr 250 8888 STF STR STF STR STF STR OFF OFF OFF ON i ON OFF ON ON AM STF STR Pr 250 8888 OFF Pr 250 1000s 1 RUN OFF 2 ON 0Hz 3 Pr 250 0 4 2 49 Pr 251 Pr 251 3 U V W 1 E LF
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184. 8 1 1 n BE 80 80 226 6 18 fa oo ALU ERAMATE CA 3 200V 3 400V RF ATR Y
185. P P1 5 2 10 POWER POWER 5 2 11 STF STR ON kF m 1 5s oie hae Pr 77 2 131 Lp 77 213 MEMO 214 Om Ht n
186. STF STR OFF O H HLET STF STR ON gt STF ON STR OFF 1 RES is eas BR o 2 PU PU 1 PU P WS 3 PU 4 He cecal a cap es 5 PU PS
187. 163 5 eo 0 PID 20 p Oe ae PONE 21 PID O1 129 1000 PID K 1 9999 P O1 pppn 30 3600s a 128 9999 0 FUP 31 100 EE 4mA 0 20mA 100 999
188. gt STOP 129 3
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190. A 0 5V 0 10V Pr 133 4 lt 20mA PID Wo eee 0 20 21 128 0 50 51 60 61 129 100 _0 1 1000 9999 9999 130 Ts 0 1 3600s 0999 9999 131 9999 0 100 9999 9999 132 9999 0 100 9999 9999 133 0 0 100 134 9099 001 10 00s 9999 9999 60 51 60 61 400V FR E5NL lt i E gt 1 PID 2 EE i C4 20mA Kp Ti 159 S Td 2 PID Pl Pl P I
191. Pr 79 Pr 90 R1 Pr 96 Pr80 1 2 Pr 80 9999 SF JR0 4kW SF JRCA200V 4 0 4kW 7 5kW SF JRC
192. a lg1 mA 33x gt n17 1000m Ign mA 0 70m lg2 mA 33x 000m 2 3 Igm mA 0 18 MA 2 66 7 64 mA Sle x 10 ou 190 54 EL 2 3 7 MC 1 1 MC 1 MC 51
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206. FEBS EREE ERREENTS 7 Z EHO FETT E ACHR X R T 1 2 WEDS 3 4
207. FREQROL E500 FR E500 FREQROL E500 5 6 7 1 ae 1 1 1 1 1 FREQROL E500 FR PU04 1 7
208. fm2 5V 10V THREES 38 60Hz 1 400Hz GE Pr 922 Pr 923 187 4 2 17 20mA Pr 39 Pr 39 20mA my4 5 Pr 79 Pr 904 Pr 905 20mA y 2 Hz 20mA TREES BEB 30 60Hz 1 400Hz 110 4 2 18 Pr 41 Pr 41 Pr 190 Pr 192 SU 0 100
209. 1998 1 B 67349 C 131 9 14 18 32 39 49 50 62 81 83 84 01 102 107 110 116 119 129 130 132 50 152 155 aS 1998 2 IB 67349 D PE 200V 1998 4 IB 67349 E ein FR E520 5 5K 7 5K Pr 146 Pr 249 Pr 79 1998 10 IB 67349 F 1999 3 IB 67349 G TEH 400V 1999 5 IB 67349 H 100V 1999 8 IB 67349 J 1999 1 1 IB 67349 K nstructions for compliance with U S and Canadian Electrical Codes Appendix 2 UL cUL 2000 11 IB 67349 L Pr 251 Pr 342 EZPROM 400V E 6 E UL cUL nstructions for complian
210. 53 D3 0 84 54 D4 0 90 RI 5A DA 0 ae 96 60 Eo 0 245 ft R zai ma 7F FF 17 1 91 18 2 92 19 3 93 20 4 94 21 5 95 22 6 96 23 7 97 24 CR LF 8 98 28 PID G 9C P 29 PID D 9D 30 PID E 9E D 31 F 9F 32 20 AO PU PID 33 21 A1 34 PID 22 A2 45 P 2D AD 46 2E AE 50 32 B2 51 33 B3 52 34 B4 53 35 B5 bed 56 38 B8 ie 60 00 80 2 71 0B 8B 2 73 1 OD 8D 2 74
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212. 60 00Hz 2 5 4 5 A 4 Spo a 0 00Hz INUA STF STR OFF lt gt Pr 38 10V Pr 39 BOAT ESE 110 78 ae 3 3 4 1 Pr 79 3 PU CE
213. 6 EJF ZETE Pr 79 193 1 Pr 903 Pr 905 Pr 20 2 Pr 903 Pr 905 Pr 38 5V 10V Pr 39 20mA O A 0V 0 ON 194 Pr 923 Pr 922 1 2 PU
214. 6 6kV mA aan RRR eck 100 kW 200V 400V Pra kVA 5 7 11 13 17 19 23 25 04 161 081 49 057 3185 12009 14165 377312107 1519 11274 0882 0 75 274 137 83 097 3 95 34 03 7055 6 391 3569 2 573 2 158 1 404 15 1550 275 167 1 95 1086 68 47 1420 1286 7 181 5 177 4342 3006 22 793 396 240 756 0 98 40 2040 18 48 10 32 17 440 6240 4320 37 130 650 394 61 257 41 1615 3349 30 34 1694 1227 1024 7 092 55 191 955 579 677 376 1 237 4 49 22 44 68 24 90 1795 15 05 10 42 75 256 128 77 907 5044 3182 65 96 50 7 33 37 2406 20 18 1397 HRESOWE gt 1kW x O No A B DCL ACL JAC DER Ps
215. OFF ON A GM G GM D GM SY GM HY2 AF BG SBS 125 4 2 27 PWM Pr 72 Pr 240 Pr 72 PWM Pr 240 Soft PWM 400V Soft PWM Soft PWM O 400V 40m
216. PE 100 A jr ta ie 80 den ye a 60 E o sept z kHz YS dB BLE 40 20 FRCBSFO 20 NEE Po T 10 0 10 20 30 40 50 gt d cm MHz 47 FELT IT E ACHR FR BLF eg FR Bsr1 et 0 9 FR BIF N a l 10cm 1 6 miz FR BLF RSh0 IM 1 Z 4 1 48 FEIT II E ACER 2 3 4
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229. RES ON m moO Pr 78 Pr 79 Pr 146 Pr 902 Pr 905 Pr 922 Pr 923 Pr 13 EPS 3 Pr 1 gt ALARM gt RE E OC1 JOG
230. gt RHB BS B C lace W BCA Sh TIA GD 1 FFT 2 5kHz C OHS 5 400V 228 MER ee ml TA 230 eae 3 4 Lis 6 229 7 1 7 1 1 1 3 200V FR E520 o1 o2 o4 o75l15 z2 3 55 5 aes 01 02 04 075 15 22 37 55 75 CREE WA Dl03 106 12 20 132 44 70 1951131 sl ee 08115 3 5 1811111751 241 33 HERB A C0 0 8 25 an n 65 GD
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232. 200 oi 1 AR EFIN m FRPUo4 os a PPR 204 E EBE FR PU04 7 ee BB
233. EER CUA Pr 100 H00 H09 11 oe Yo BR 244 2 7 H61 HFF 1 z EY HOO HO H5E HDE HE1 HO02 2 HFF 0 156 HEC 8 lt gt
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235. PWM 7 V F 0 2 400Hz 0 60Hz 2 5 1 500 DC5V B 1 1000 0C10V DC4 lt 20mA 1 256 1 256 0 01Hz 100Hz 0 1Hz 100Hz 0 5 25 C 10 C estate ee AD Soo 0 01 Sa eae 0 400Hz a eee 150 1Hz 200 3Hz SN 030 Seas 0 01 0 1 3600s E S G3 0 1K 0 2K 150 0 4K 0 75K 100 2 5K 50 2 2K 3 7K 5 5K 7 5K 20 0 120Hz
236. Pr 244 1 ON Pr 190 Pr 192 75 A 4 2 46 Pr 245 Pr 247 Pr 245 Pr 246 Pr 247 StF R A fi 245 9999 0 50 9999 9999 246 0 5 0 01 10s 9999 Pr 245 9999 amp L NIS lt i E gt mpeg REAR OMDRE PRORRE TEINA TERRAE ORRE oe jp O50
237. RH R STF O Hz A G Pr 1 Pr 18 ie CID Pr 1 azg S Bic d 4 SH STF BDA ld DT E2 RM O Pr 59 Pr ON 1 59 PRO S n BAB OFF RH RM 1 EZPRO EPROM S Ud 0 G Pr 44 Pr 45 Fld Pr 7 Pr 8 ET STR OFF R H
238. FR BIF FR BIF T 10 200V 100V D 1000 400V C 100 oe
239. ON Y No ae Pr 902 Pr 903 2 Pr 904 Pr 905 4 PU 165 gt 2 5 0 0V 2 Pr 902 0 OHz 3 2 5 100 5V 4 Pr 903
240. 1 5s y ED L G 1 Pr 900 60Hz 1mA FM 1440 s FM 2400 s 2 FM SD 100Hz FM PANA RATE Pr 55 3 186 4 2 53 Pr 902 Pr 905 Pr 922 Pr 923 Pr 902 Pr 903 3
241. 84 60Hz 50 120Hz 90 9999 0 500 9999 9999 96 0 0 1 0 137 REETA 1 lt i E gt 1 Pr 80 Pr 96 1 Pr 9 A Pr 83 E V Hz Pr 84 Pr 71 RUT lt RSW
242. LED POWER an ALARM G 1 Bese D BAEN se BK ae oe A Dp Vinh GE4 PU Pe BER 400V 400V 400V DC24V 400V 10 50 SS 10C 40 90 RH i 2 20 C 65 C RENZ 1000m 5 9m s lt BH 3 60Hz
243. o ZCAT3035 1330 H 1 10 1 100 Pr 72 1kHz 30cm Soft PWM 1 2 1 3 FR BSFO1 BLF Pant w ge ree PA ee _ HTT 3 z 10kHz 80 1
244. oare QR oleate es On GOR 001Hz G3 9999 94 7 Pelee abe OOOH 001Hz G3 9999 94 29 0 1 2 1 0 06 30 0 1 1 0 07 31 0 400Hz corte G3 9999 08 ae So iS H a 32 0 400Hz nite G33 9999 08 0 400Hz Tae ad Soot 001Hz GF3 9999 08 0 400Hz TEPE 34 F Soot 001Hz GF3 9999 08 0 400Hz Tare 35 BY Soot 001Hz GF3 9999 08 0 400Hz se Bi Soot 001Hz GF3 9999 08 37 0 001 9998 0 001r min 0 09 38 YOY 1400Hz 001Hz 3 60Hz G2 110 1 400Hz 001Hz G3 60Hz 2 110 41 0 100 0 1 10 T 42 0 400Hz 001Hz GEJ 6Hz T ee Eo ae ae 43 0 400Hz 9999 11 fae 0 3600s 0 s 5s 10s 44 2 0 360s 001s 11 36 06 3600s 1 45 2 0 360s pee 9999 96 9999 2 2 0 30 ig 46 Gz1 9999 0 1 9999 91 2 V F a 47 GERREA 0 409Hz 001Hz G 3 9999 93 1 48 2 OSOA oora 9999 98 PU ge 52 0 23 100 1 0 112 R
245. po 1 2 at CIEE 6 oS eA D Ak 4 1 2 3 4 1 2 3 4 5 a Seen 1 2 RHL 1 E ls 1 2 3 4 5 6 7 8 9 10 11 F o itam 1 2 Az E ls EF F a Se pret 1 2 3 4 5 6 7 8 9 1 2 3 4 5 SUT ura 1 E ls Er 4 1 2 3 4 5 6 7 8 9 10 11 12 13 ee PP en Pe wa CA i tE ZHANG IE JACK pa MK Fae 1 2 3 4 1 2 3 4 oe ee 2 H00 H1F 16 3 Pr 123 E Re 1
246. 1 R2H2 1 3 BENT P S 7 22 eae 3 o AT me EE GE 1 FR CV 2 P N R S 3 R L11 S L21 T MC1 R2 L1 S2 L2 T2 L3 4 MRS Pr 183 MRS FR CV Pr 183 E THREE 6 172 R 5 P N P P L fl N N L NFB P N 6 R L11 S L21 T MC1 7 DC P P1
247. BEA SET ero 99 9 eo orm a ETE Tai oars 0 9 0 9 can LOLOL 4 Pr 903 2 5 80Hz coi TIA LE ho 4G r gt LAI e 1 5s 2 5 ao LL 5 5 5 5 5 192
248. E hit 748 gt a A E oare QR 232 8 ODON 001Hz 3 9999 94 400H 233 9 ODON 001Hz 3 9999 94 0 400Hz TE i aa ea dz 001Hz 3 9999 94 e Ea On 8 COHZ 001Hz G3 9999 94 EZ 0 400Hz ae a z za eaa egy 001Hz 3 9999 94 0 400Hz TR zn a ogg 001Hz GE3 9999 94 0 400Hz moe kalea og 001Hz 3 9999 94 0 400Hz ae 239 aa ogy 001Hz 3 9999 94 240 SoftPWM 9y 12 1 1 26 me 244 Am77 EER O 1 1 0 245 0 89 0 01 9999 76 246 Ta MEDE 0 01 10s 001s 05s 76 i 247 THORAT O 9999 9999 76 bs Macaa OP eet g 0 77 E O 100s ib matt 1000 250 ERR We 9999 78 8888 9999 ae ZO ARORA 0 1 1 79 342 ERROM 0 1 0 44 509 8 ooh 9 80 gt 504 oogy 200 80 A ARE 9999 00h 50000h 555 aaran 0 1 1 0s 0 1s TOs 81 556 Zam 7 0 0 20 0s os 0 0s 81 a E 557 noes 0 1 9994 001A 1 0A 81 87
249. ON OFF Pie een 22 150 0 200 23 9999 0 200 9999 9999 Pr 22 66 60Hz 0 400Hz 156 0 0 31 100 3 Pr_23 9999 Pr 22 150 Pr 23 100 Pr 66 60Hz oe s i R E 5 E p a R H i i W 0 400Hz Hz Hz 103 lt gt Pr 22 150 Pr 22 0 Pr 661 Pr 23 Pr 22 A Pr 23 100 A Bx Pr 22 B X 100 oe _ Pr 66 Hz xPr 22 _ Pr 66 Hz xPr 22 A Hz2 B 400Hz Pr 23 9999
250. Pr 82 Pr 84 Pr 90 Pr 96 a SR Pr 8 Pr 9 Pr 44 Pr 45 Pr 46 Pr 30 Pr 70 Pr 117 Pr 124 Pr 342 anai Pr 73 Pr 79 Pr 128 Pr 134 Pr 180 Pr 183 PID Pr190 Pr i92 Pr72 Pr 240 Pr 54 Pr 55 Pr 56 Pr 900 M FR PU04 4 Fr55 Pr56 P1900 Pr 37 Pr 52 IPr 171 Pr 77 ip EERO BAe Pr 78 pg NI A 2OFW THE LEW Pr 160 Pr 173 Pr 176 vy Pr 150 Pr 153 Pr 190 Pr 192 Pr 22 Pr 23 Pr 66 Pr 156 Pr 180 Pr 183 Pr 190 Pr 192 Pr 244 Pro Pr 71 IPr 65 Pr 67 Pr 68 Pr 69 Pr 249 Pr 75 Pr 251 IPr 503 Pr 504 89 4 1 3
251. Note 1 The cables used should be 75 C copper cables 2 Use the UL approved round crimping terminals Crimp the terminals with the crimping tool recommended by the terminal manufacturer 3 Tighten the terminal screws to the specified torques Undertightening can cause a short or misoperation Overtightening can cause the screws and unit to be damaged resulting in a short or misoperation 4 Wiring of the control circuit A Terminal block layout In the control circuit of the inverter the terminals are arranged as shown below Terminal screw size M2 5 Cables 0 3mm to 0 75mm 22 to 19 AWG Tightening torque 0 25 N m to 0 49 N m 200V class 100 V class RH A RM B RL C MRS 10 IRES 2 SD 5 FM 4 PC SD SE STF RUN ISTR FU SD 258 Terminal layout of control circuit 400V class 7 Motor overload protection These inverters provide solid state motor overload protection Set parameter 9 using the following instructions Pr 9 electronic thermal O L relay lt Setting gt Set the rated current A of the motor Normally set the rated current at 50Hz Setting 0 makes the electronic overcurrent protection motor protective function invalid The inverter s protective function is valid When using a Mitsubishi constant torque motor first set 1 in Pr 71 to choose the 100 continuous torque characteristic in the
252. OON OOIOI OFF SRO CE Rb RS O STF RS OFF SAE RS PU MRS M Pr 79 7 ON fe ST STR ON ST rE ST F OFF R O J IF STR PU ON RS PU Pr 79 7 3 O Pr 180 P Pr 79 8
253. 2 Pr 180 Pr 183 172 98 4 2 7 Pr 10 Pr 12 Pr 10 Pr 11 Pr 12 on wea PER 2 10 3Hz O 120Hz z 11 0 5s 0 10s Hz 12 6 0 30 5 Er 10 sit 1 ewe O 12 ieee T Je Pratt lt gt Pr 10 Pr 11 12 Pr 12 FR E520 S 0 1K 7 5K FR E510W 0 1K 0 75K 4 GE PRES ADO AAT BKK aed rnin ane 6 SF HR SF HRCA P
254. 902 ee 5E DE 1 903 5F DF 1 904 60 0 1 E T 905 eee 61 E1 1 922 165 3 3 923 9 9 990 PU 5A DA 9 991 PU 5B DB 9 400V DeviceNetrM ODVA Open DeviceNet Vendor Association Inc LONWORKS Echelon Corporation PU R 2 FR PU04 PU syg FET PU
255. BAC old 1 FREQROL A500 41 2 3 2 3 200V 3 7kW 200V 2 2kW 100V 0 75kW 2004 1 2004 9 6 REN
256. E RUN Taw ES e DD STF STR OFF Pr 146 0 P sr 1 5s 1 ERL 197 3 Pr 923 Pr 922 kcal ut rt oe bu S 8 A Heo Ou win O EHHH onn agan SLL rac ea ia x3 Ea i U CC 0 0 9 0 9 ska cae OL
257. UY o AI Pr22 3 OL jane Pr 23 Pr 66 uw Spe LY Pr 42 Pr 43 Pr 42 Pr43 1 1 hy AWESON CARIES RRT pP p ne Ww Pr 152 Pr 153 Pr 152 13 Y13 Lely Pr153 14 FON PID 15 FUP PIDERI sh eee Le PIDID P1297 16 RL PID AWE oe 93 Ygs BAPSETS 3 wie Url eeae 1 P5299 53 3 x aus mee fos F504 pr503 95 vos Pood 174 eg em Pr 121 9S ene SSSI Pr 244 99 ABC EH CE 1 2 Pr 190 Pr 192
258. lt 42 FETT IH E ACER 2 FREQROL E500 fi Ki Kk31 3 4 3 K32 1 8 K33 1 8 Ge BARD K34 1 4 5 K5 0 3 6 6kV 50kVA 22733kV 300kVA 66kV 2000kVA 4 100 5 7 11 13 17 19 23 25 65 41 85 77 43 31 26 18 38 45 TA 34 32 19 17 13 30 13 8 4 5 0 47 32 30 22 Ge BAM 28 9 1 7 2 4 1 32 2 4 1 6 14 O s PO 6
259. 100 60Hz gt 4 5 0 4mA 2 Pr 904 3 4 5 100 20mA 4 Pr 905 Pr 904 Pr 905 Pr 902 Pr 903 GBB Hz i 0 i 04 20 mA 0 100 1 RH RM RL JOG PID JOG 2 Pr 190 Pr 192 Yo 3 PID
260. A 4 2 41 Pr 160 Pr 173 Pr 176 Pr 160 Pr 173 1 Pr 174 1 Pr 175 2 Pr 176 2 2 32 Be meas 160 0 0 1 10 11 173 0 0 999 174 0 0 999 9999 9999 175 0 0 999 176 0 0 999 9999 9999 SEIS 170 gt 1 1 Pr 3 Pr 173 12 a emas ite Jaera i s 3
261. PU pes AANT G Ant 2 MeV Ey FADI PU PU ik anne wk Dl 14 FRIE Rear PUD TEX OS PU HB HBO 15 ERARA 16 PU PU PEDET 17 2 SRI Vey LAAT JRM 129 EE PU 1 STF STR OFF em 2 Fd G Pr 79 3 Em 3 PURMICLT lt K KS OL 68 STF STR ON 2 FR PU04
262. W N n 6 1 216 W alt W A n W a n at RL N 4A 215 6 1 6 1 1 10 P N DC30V 6 1 2 1 ORR ORRBA
263. 9998 999800h 504 PEELE is nes 9999 50000h 124 ON i 99800h Pr 503 Y95 OFF im 35C 1 20 1 300 8 50000h 2 10C 1 2 10 2 45C Pr 504 250 25000h 1
264. 2 RH RM PU RH RM PU 0 0 1 2 JRE Pr 59 1 a P a ay Ge Spr 59 2018 gt LEN Zh Ne Hz a l bh b RH LION RM 7 RL ON STF _ ON ON ON ON L J ON LT ON CE PU ae Pr 59 EZPROM 0 1 2 P 59
265. Ce n STR OFF 1 REK STF ST R ON 4 aJ E OHz A N
266. FR E510W 0 4K 0 75K DEUS P KWA RE w FR BEL FR BAL S N10 _ 3 Tig oo oa 4 1 oO AMIRO SAT Ae Remo UL cUL 51 JETT IT E ACR 1 NFB NFB
267. Pr 192 3 5s Hi 16 5s Low 1 wl BROS RRA 20 Y93 ss gt Ory Fes 3 5s Hi 16 5s Low 0A Y93 20s Low 1 1 2 Pr 57 9999 1
268. a pau PERA ES YID OFF OWL OF 150 150 0 200 0 spp i 151 Os 0 10s a gt lt x E gt 150 100 Pr 150 151 Y12 1 ON 100ms 2 3 Pr 190 Pr 192 168 4 2 40 Pr 152 Pr 153 Pr 152 Pr 153 Pr 190 Pr 192
269. clare win oman aS ALI PUAI 7 7 a x 9 g rc LE ee Pr 79 1 PU STF STR ON ON OFF P_ set 1 5s 1 mr 196 Pr 146 0 Pr 146 1 Pr 146 0 2 JH g 1 5s
270. X lt 0 oa BRE X30 T X lt 0 m 2 3 2 161 Pr 128 20 Pr 190 14 Pr 191 15 Pr 192 16 es MP aR Me a S WW P 10 RUN 2 SE PLF 5 A Mi i CDOO IG40 WEEE GHE H S 4 20m A 0 24V fd 14 AC1 200 220V 50 60Hz gt pad Pr 190 Pr 192 7 162 4
271. 0A 8A 0 11 0B 8B 0 12 0C 8C 0 13 OD 8D 0 14 OE 8E 0 15 JOG OF 8F 0 16 JOG 0 90 0 18 2 92 0 19 3 93 0 20 4 94 0 21 5 95 0 gz 22 6 96 0 7 uae E 24 PERRE 4 8 98 0 25 9 99 0 26 A 9A 0 es 27 B 9B 0 29 D 9D 0 30 E 9E 0 31 1A F 9F 0 32 1B 20 AO 0 33 2A 21 A1 0 34 2B 22 A2 0 35 3A 23 A3 0 36 3B 24 A4 0 37 25 A5 0 38 5V 10V 26 A6 0 39 20mA 27 A 0 41 29 A9 0 BE a2 2A AA 0 3 43 2B AB 6 244 ft R h ZA Hi
272. 11 1 2 GE 1 Pr 77 Pr 160 Pr 991 2 Pr 173 Pr 174 1 Pr 175 176 2 3 Pr 160 10 2 2 1 0 4 Pr 174 Pr 176 9999 171 4 2 42 Pr 171 Pr 171 Pr 52 PU Pr 52 23 nee 171 0 0 lt x gt
273. 174 Y12 ae sarat y ABC ABC e ABC wean ON OFF A a oF caw 19 ON ON OFF 56 E F RY OFF ON OFF 3 F 2 2 Vy yy cS Bee ypae ig i 2 i ef eae CE Q o pe im N RY F RRM ee eee w ml rr RN ow OF RUNES ld
274. 2 i E 4 3 400V EPE FRPUo4 m A amp al EZPROM E EPUE EJT IE FRPU04 PU m Pr 75 2 3 16 1728 pelea Bees Ay PU PU RS 485 Pr 121 9999
275. 4 1 3 4 2 4 2 1 4 2 2 Pr 1 Pr 2 Pr 18 4 4 23 BESRA Pr 3 Pr 19 Pr 47 2 4 Pr 4 Pr 5 Pr 6 Pr 24 Pr 27 RI2S2 Pre 39 aaaea aier en an a 2 5 Pr 7 Pr 8 Pr 20 Pr 21 Pr 44 Pr 45 26 Pr 9 Pr 48 2 7 Pr 10 Pr 12 2 8 ss 2 9 Pr ID 01 22 10 JOC PIE PE 02 2 11 Pr 22 Pr 23 Pr 66 Pr 156 103 2 12 Pr 29 2 13 Pr 30 Pr 214 Pr 31 Pr 36 2 15 Pr 37 2 16 5V 10V Pr 38 2 17 20mA Pr BQ oi neonain 2 18 P14 oecceccseccsneecseeessnecesecesscesneeennecennees 2 19 Pr 42 Pr 43 2 20 Pr 52 Pr 54 ae 2224 EAE PHO Dy PP DO 4 2 22 Bamet CPr 57 Pr 58 oc eececsesseesseess
276. FR E520 3 7K W H 255 x 192x218 D 1 55 3 2mm 2x0 59m min 400V oH 235 E ATA 3 2 National Electrical Code Canadian Electrical Code V W UL 75C RS T J E 3 100V
277. G F B 2400 s Pr 55 FM Pr 55 114 4 2 22 Pr 57 Pr 58 Pr 57 Pr 58 fi z 57 9999 0 5s 9999 9999 58 1 0s 0 60s lt x gt ae REM A g 0 1K 1 5K 0 55 2 2K 7 5K 1 0s5 BED 5 OBS VIN AICKS BRON T 57 0 1 5s J 0 1s 5s
278. Pr 15 JOG Pr 13 5 2 2 U V W 211 lt a E 5 2 3 Pr 1 Pr 2 Pr 19 Pr 38 Pr 39 Pr 245 Pr 902 Pr 905 5 2 4 _ h MAER 5 2 5 5 2 6
279. i i i Pr 0 ie oo Hz Hz CE 1 2 Pr 46 2 RT ON T 2 2 Yo Pr 180 Pr 183 172 D 101 4 2 10 JOG Pr 15 Pr 16 Pr 15 JOG Pr 16 JOG Ph Pr 20 1 JOG JOG F F DON T OFF JOG NZI TENAR ene 15 5Hz 0 400Hz 0 3600s Pr 21 0 re ga 0 360s Pr 21 1 Hz Pr_20 eee Pr 15
280. 1 DC EE ca BAG ORERE OSTR N i Z 2 ORH ORM CS BROR ID a HHSEN ORES 1 SD RUN eh ee sE cea a _ j GE 3 W10 T5W 14 i 8 ni i 72WIkoL pco 1ov i AO 5 ih 4 SER o C4 20mA wee 4 DC4 20m4 Pr 180 Pr 183 PU 4 RH RM RS 495 giy RL MRS AU AU ON GE 1 2W1kKO 2 0 1K 0 2K 3 SD SE 4 tmHFSD amp tm 5s E
281. 7F FF 44 2 2C AC 0 45 2 2D AD 0 46 2 2E AE 0 47 2 V F GERRI 2F AF 0 Fe 48 2 30 BO 0 PU 2 lt ee 9 A 54 FM 36 B6 0 bi 55 37 B2 0 He 56 38 B8 0 57 39 B9 0 58 3A BA 0 ie 59 3B BB 0 60 3C BC 0 61 3D BD 0 62 3E BE 0 63 3F BF 0 65 41 Cf 0 06 42 c2 0 a Ot ae 43 c3 0 68 44 C4 0 69 lak 45 C5 0 70 46 C6 0 71 47 C7 0 72 PWM 48 C8 0 73 0 5V 0 10V 49 C9 0 74 4A CA 0 75 PU PU P CB 0 77 4D CD 0 78 4E CE 0 79 4F CF 0 80 50 DO 0 gp 82 EMRS 52 D2 0 83
282. WIIT SHADE CREO Pf1 Pl Pf1 aon 11 100 Pf1 Vixlt x 100 GD Ve O UV VW W U 1 EDSA 2 U V WO G2 2 10 iow P2 W21 W22 P2 O UV WBEOU V V W o Ek BBAED Pf2 Pf2 AM2x 2 100 p veg FLED Bn 380V 760V 2 5 DCO 5V 0 10V 5 55 4 5 DC4 20mA J ERIBE 10 5 DC5V 2 DC5V I s 50KO 1pcwy D TEM FMC SD Fr a S T1 Pr 900 T2 a Pr 55 3 BRES BL MRS RESSO as Teor RE Tn 50KO ON VI MRS SD piety oz a SENE gags ACE
283. te _ gt iN e Pr 16 it vi ae eo ow m OW 1 ey nee eee E Pr 20 Pr 3 3 Pr 15 JOG Pr 13 2 JOGO eee 8 amp RBS FLA 4 Pr 79 4 DAH Be 1 PU FR PUO4 Pr 18 gt Pr 1 Pr2 km Pr 19 gt Pr3ZBHe Pr 20 Pr 21 gt Pr 7 PrBAZke 102 4 2 11 ae Pr 22 Pr 23 Pr 66 Pr 156 Pr 22 Pr 23 Pr 66 Pr 156
284. 2 5 0 5V 5V 4 20mA Dit Eees apeciy 50 ae ia n 2 0 0V 100 5V 50 2 5 2 5 VRETIEN DAR 0 4mA 50 20mA 4mA 096 20m 1009 25 C 50 Jew 25 C Pr 128 20 21 PID J qee Pr 133 O 100 prey seg 9999 9999
285. 3 380 480V 3 380 480V 50Hz 60Hz F 325 528V 50Hz 60Hz sa 5 KVA 5 15 25 45 55 95 12 17 JEM1030 IP20 IP40 kg 19 19 20 21 2 38 38 GE 1 4 2 440V 3 100 4 ETT KEL 2 5 40 30 C Pr 72 PWM 2kHz
286. Z5 Sa Y HO NAK sa H1 H2 rae a CR LF E PUE Ha Z H5 H6 ee 0 9 a H7 E
287. a NNN 3Kz a me 10kHz 1GHz ASB pe Pem sere A fo NE Cel sd Sa A ue arag akin 7 y es ee Meee peeeec 9 PRASE F500 E500
288. are Pr 180 PU PU Pea gt V F 5 V F E a AE 7 KER a PID RS 485 PID PID PID Hy SY amp 2 H 1c AC230V 0 3A DC30V 0 3A 1 E7 1 1440 s REAR 4
289. oH RISE SS OG S EME PU O 3 N Pr 146 0 9999 2 PU PU MRS OFF Pr 79 7 PU PU Pr 180 Pr 183 MRS
290. 1 2 2 120Hz 3 2 C 100 4 2 5 BV C1 BC V NVB NV L NV G2N NV G3NA V 2F NV ZHA 3 NV V C NV S MN NV30 FA NV50 FA BV C2 NF Z NV ZHA NV H FREQROL E500
291. 1 75C 2 E 20m 24 FELT IT EACER 4 3 3 200V RISITIUIVIWIL au 3 400V MMMMGSI EE I R s T ju jv jw SS LB CO R S T U V W V W 200V 100V LG R S R
292. 10 C to 50 C Inverter p non freezing 5cml 5cm 5 ar emf Measurement position Ambient humidity 90 RH or less non condensing Storage temperature Note 2 20 C to 65 C Ambience Indoors No corrosive and flammable gases oil mist dust and dirt Altitude vibration Below 1000m 5 9m s or less 3 Installation The above types of inverter have been approved as products for use in enclosure and approval tests were conducted under the following conditions 1 200V class 100V class Cabinet Inverter Type enclosure Vent Hole Area Cooling Fan Size Unit mm 5 h Installed at the enclosure top to wHD eee eee Cabinet Suck air from inside the enclosure E520 a to the outside FR E520 3 7K 255x192x218 To be provided on each of he oufside aa Fan air flow 2 x0 59m min or upper side areas more 2 400V class Design the enclosure so that the ambient temperature humidity and ambience of the inverter will satisfy the above specifications Branch circuit protection For installation in United States branch circuit protection must be provided in accordance with the National Electrical Code and any applicable local codes For installation in Canada branch circuit protection must be provided in accordance with the Canadian Electrical Code and any applicable provincial codes 4 Short circuit ratings 100V class Suitable For Use in A Circuit Capable
293. 60 00Hz on 2 5 5 0 00Hz o RUN 6 lt gt Pr 38 5V 10V 110 FR 80 A 3 4 1 82
294. A A A CA CA A B 1 2 ORA e E E E C C C E GE 1 2 aie D D D F F E E G G 4 4 H H S 2 a D ACK 10ms 151 1 Pr 37 0 01 9998 HFF 1 A E 400V o 200V 100V HFF A E 0 001r min FF
295. Beet Fi GE 400V 219 lt gt 1 R S T U V W 2 1000 gt R S T U V W P N CT WEG 2 co HEEL MOREO
296. MITSUBISHI 5 Ea I Mot FR E520 0 1K FR E520 0 1K ma dee x FR E520 0 1 K E520 3 200V0 E540 3 400V0 kW c E520S 200V IP40 E510W 100V0 REESE oc 2 TG DENRA 64 a eo eo 14 H Sige ones 16 yd IS 3a JR WTA Cosa AS T
297. es has 55 2 55 5 114 5 R 7 138 6 58 gt ot 70 gt ERAR A Seu a SS I mm 238 4 tt FR E520 5 5K 7 5K 2 6 a _ CD s A amp A fa yy a 6 68 46 1 10 8 164 wee 112 5 57 5 180 7 170 2 ee qa co i o A ain TL T T mm 239 A k 2 400V FR E540 0 4K 0 75K 1 5K 2 2K 3 7K 1 2 Ee a i Hill ee ll fi 7 iet l a oe oe D D1 FR E540 0 4K 0 75K 116 44 FR E540 1 5K 3 7K 136 64 FR E540 0 4K 0 75K Fi mm 240 a tt FR E540 5 5K 7 5K
298. o a 6 8 1 32 84 ii P ge se lace QR O1 5 80 6 7 5kW 001kW 9999 36 A 9999 8 0 500A m 82 OO 001A 9999 37 R 83 SERRE 0 1000V o v 200V 400V 137 ae o R 84 CBE 50 120Hz2 001Hz 83 60Hz 37 4 z 0 500 90 R1 9999 0 0010 9999 37 01 0 37 117 0 31 0 44 118 ase 192 44 0 1 119 RO 1 44 7 fe 120 ee 8o 4B 2 44 0 10 121 Cc0g 1 44 Es 0 0 1 122 a a 999 8s 0 1s 0 44 9999 123 ooo 9999 44 124 CR LF 0 1 2 1 44 128 PID 0 20 21 0 59 01 129 PID 1000 0 1 100 59 9999 01 130 PID 3600s 0 1s 1s 59 9999 D 131 070 0 1 9999 59 l Ne O 132 0 0 1 9999 59 133 0 100 0 01 0 59 001 134 PID 10 00s 001s 9999 59 9999 85
299. 1 OE 8E 2 75 2 OF 8F 2 76 2 10 90 2 i 80 RLF AREER 14 94 2 T 81 RM 15 95 2 82 RH 16 96 2 ie 83 MRS 17 97 2 90 RUN 1E OF 2 be 91 FURS REER 1F OF 2 92 A B C 20 AO 2 246 ar tf MR ER Mie APA 7F FF 232 8 28 A8 2 233 OB 29 A9 2 A 234 10 2A AA 2 235 11 2B AB 2 236 12 2C AC 2 237 13 2D AD 2 238 14 2E AE 2 239 15 2F AF 2 240 Sof PWM 30 B0 2 a 244 34 B4 2 T 245 35 B5 2 a 246 36 B6 2 Ae 247 Bee 37 B7 2 249 39 B9 2 g TE 250 3A BA 2 ERE R fi 251 3B BB 2 y 338 26 A6 3 339
300. 100 96 ale Ww aii av op ARIJ 5s a SET 199 6 tAE 7 Pr 79 A E aa TA ON ae LET aa 200 51 LoS ee DW Cardigan 202 5 2 kL 211 201 Ht At W N n W n W A n W W n W N iat lt r E 51 PU
301. 27 A7 3 ggl 340 28 AS 3 342 E2PROM 2A AA 3 DeviceNet w 345 SIM 3 pii DeviceNet SAO te per 2E AE 3 DeviceNet S 347 pat wae 3 a DeviceNet 348 30 BO 8 387 57 D7 3 w 388 58 D8 3 is SR 389 59 pg 3 S 390 5A DA 3 391 oa SZAR sg DB 3 8 35 392 5C DC 3 247 ar 248 ge th Pai aap Pe he ees 7F FF 500 00 80 5 501 01 81 5 mal 502 02 82 5 555 SATARA 37 B7 5 556 38 B8 5 557 ER sg gg 5 it 900 FM 5C DC 1
302. 4 2 GE RL RM RH MRS RUN FU A B Clk W at W DeviceNet FR E520 KND 81 CC Link FR E520 KN a a 4A W n W N iat 4 1 4 1 1 El y a e n Seth ia Peroa ee ee ate 6 4 Bi ee 0 30 0 1 eA T 1 0 120Hz 001Hz GE3 120Hz 92 2 O 120Hz 1001Hz 3 OHz 92 3 1 0 400Hz 001Hz GE3 60Hz 93 x 4 3 0 400Hz 001Hz 3 60Hz 94
303. O Ce LDS 1 1 ee ORB 2 JO Ol IC1 MESSE s ww SU 3 S88 V W 200V l a 400V kA 4V 8V p O 2 a AL eG a 1 1 Taa Thy To _ Gee po DRREOM mu CIDLED QO 1 gaT 2 2 O oO een O DORR DBA k Or uo ONU V W 5M 500V _
304. Pr 83 Pr 84 2 Pr 71 13 3 Pr 96 1 Pr 96 3 4 6 P 15 3 7kW 16 AQ ne Pr 77 801 6 Pr 82 Pr 86 7 Pr 77 8 Pr 245 Pr 247 9999 1 Pr 9 Pr 80 Pr 83 Pr 84 2 Pr 71 15 3 7kW 116 5 5kW Pr 77 801 3 Pr 82 Pr 86 Pr 90 4 Pr 77
305. mg mw 1 ON 1 MRS RES OFF 2 gt MRS RES STF STR RUN FM A B C 3 RUN 139 3 FR PU024 d bp Pr 96 PU 1 2 3 4
306. 0 44 2 8 GE nee a 4 2 36 Pr 117 Pr 124 Pr 342 Pr 117 Pr 118 Pr 119 Pr 120 Pr 121 Pr 122 Pr 123 Pr 124 CR ee Pr 342 EZPROM Pr 146 RS 485 FR SWLTSETUP WJ 144 PU RS 485 RS 485 1 N 32 19200 9600 4800bps
307. 1 1r min 4 2 Pr 37 E A 148 3 16 O 2 3 A 1 21 ZATIM eng SF ae 77 oat 1 2 3 4 5 6 7 8 9 10 11 12 13 FITI 3 A 1 ane ky m r gir 2 4 1 2 3 4 5 6 7 8 9 10 1 A 1 3 zane ee as Fle 224 4 123456 7 8 9 10 11 12 13 14 15 ees 182 83 ya B ling A 1 2 3 4 5 6 7 8 9
308. 2 5 5 5 5 5 5 5 5 5 TS 10 10 6 4 FR E520 7 5K M5 2 5 14 5 8 5 14 8 6 8 16 6 2 FR E540 0 4K to 7 5K i PVC insulated Terminal Tight Crimping Cables Cables Applicable Screw ening Terminals Inverter Type Size Torque mmz AWG mmz N m RST UVW RST UVW RST UVW RST UVW FR E540 0 4K M4 1 5 2 4 2 4 2 2 14 14 2 5 2 5 FR E540 0 75K M4 1 5 2 4 2 4 2 2 14 14 2 5 2 5 FR E540 1 5K M4 1 5 2 4 2 4 2 2 14 14 2 5 2 5 FR E540 2 2K M4 1 5 2 4 2 4 2 2 14 14 2 5 2 5 FR E540 3 7K M4 15 2 4 2 4 2 2 14 14 2 5 2 5 FR E540 5 5K M4 415 5 5 4 2 4 3 5 2 12 14 4 25 FR E540 7 5K M4 1 5 5 5 4 5 5 4 3 5 3 5 12 12 4 4 3 FR E510W 0 1K to 0 75K i PVC insulated R Terminal right Crimping Cables Cables Applicable ening H Screw Terminals Inverter Type Size Torque mmz AWG mmz N m RST UVW RST UVW RST UVW RST UVW FR E520S 0 1K to0 4K M3 5 1 2 2 3 5 2 3 5 2 2 14 14 2 5 2 5 FR E520S 0 75K M4 1 5 2 4 2 4 2 2 14 14 2 5 2 5 257 4 FR E510W 0 1K to 0 75K PVC insulated i Tight impi Cables Applicable vena ening bs aisle Cables Inverter Type Size Torque mm AWG mm Nm RST UVW RST UVW RST UVW RST UVW FR E510W 0 1K to0 4K M3 5 1 2 2 3 5 2 3 5 2 2 14 14 2 5 2 5 FR E510W 0 75K M4 1 5 5 5 4 2 4 3 5 2 12 14 4 2 5
309. 2K 0 4K 0 75K N Fis sats U v w TB1 a Screw size M3 5 Screw size M3 5 PR FR E520 1 5K 2 2K 3 7K Ni PR P1 Ta Pu stl u v w Screw size M4 QQ TB1 Screw size M4 Screw size M4 FR E520 5 5K 7 5K R L si ulvlw QQ TB1 Screw size Screw size M5 M5 FR E520S 0 1K 0 2K 0 4K FR E520S 0 75K FR E510W 0 1K 0 2K 0 4K FR E510W 0 75K n P1 P PR Ni Fis SLz ulvlw P1 an Tea Pu SLz ulvlw 8 A D Screw size M3 5 Screw size M amp amp m tea M Screw size M3 5 crew size M4 Screw size M4 B 400V class FR E540 0 4K to 7 5K Y TB1 D Screw size M4 Screw size M4 R L 256 3 Cables crimping terminals etc The following table lists the cables and crimping terminals used with the inputs R S T and outputs U V W of the inverter and the torques for tightening the screws 1 FR E520 0 1K to 7 5K i PVC insulated Terminal Tight Crimping Cables Cables Applicable ening H Screw Terminals Inverter Type Size Torque mm AWG mm Nm RsT UVW RST UVW RST UVW RST UVW FR E520 0 1K to 0 75K M3 5 1 2 2 3 5 2 3 5 2 2 14 14 2 5 2 5 Boe ete M4 1 5 2 4 2 4 2 2 14 14 2 5 2 5 FR E520 3 7K M4 15 5 5 4 5 5 4 3 5 3 5 12 12 4 2 5 FR E520 5 5K M5
310. 5 3 0 400Hz 1001Hz GE3 30Hz 94 6 3 0 400Hz 001Hz 3 10Hz 94 8 0 3600s 0 s 5s 10s 7 0 360s 001s G4 96 re 0 3600s 0 15 6s 10s 8 0 360s 001s G4 96 n 9 0 500A 001A ES 98 10 120Hz 001Hz 3 3Hz 99 11 0 10s 0 1s 05s 99 12 0 30 0 1 6 99 13 0 60Hz 001Hz 05Hz 100 x 14 ERS 0 3 1 0 101 15 J0G 0 400Hz 001Hz 3 5Hz 102 a 0 3600s 0 1s 16 JOG 023605 001s 05s 102 ie Ey 3 120 18 460Hz 01Hz 9 120Hz 92 amp 0 1000V ie 12 1 8888 9999 9 1V 9999 93 ae 20 1 400Hz 001Hz 3 60Hz 96 21 0 1 1 0 96 eee 0 200 01 150 103 _ 23 000 0 1 9999 103 6 24 a OOS 001Hz G3 9999 94 25 apaa ox oog 001Hz G3 9999 94 82 E hit 748 gt a BEH ae oe BE
311. 54 FM 0 1 2 1 0 112 ae 55 0 400Hz 001Hz CE 60Hz 114 56 0 500A OOTA 114 83 i pee ael ii Sah BR be ee ee R Bir Memo r pS 0 1s 9999 15 58 0 60s 0 1s TOs 15 RE so hammemear o 1 2 1 0 17 60 S 1 0 20 61 RS 0 01A 9999 20 62 OT 200 1 9999 20 63 Coo 1 9999 20 65 0 1 2 3 0 22 66 EMARE 0 400Hz OOTHe GE3 60Hz 03 7 0 10 67 101 110 0 22 68 a4 0 1 360s 0 1s 1s 22 eo gee 0 0 22 70 0 30 0 1 0 07 z 01 3 5 i 6 13 15 16 23 71 6 109 101 0 24 106 113 115 116 123 72 PWM 0 15 1 26 7a 95 0 10V o 1 0 28 74 0 8 1 28 PU 03 75 PU 14 17 14 29 aoe RE 0 31 78 0 1 2 0 32 79 FEE FER
312. 60Hz gt tke SD AU Pr 180 Pr 183 A RL RM RH MRS 18 ON ON 70 Pr 79 1 2 EXT STF STR ON RUN 2 GE ON ON OR ER 2 5 4 5 3 ae
313. ASCII 7 8 g 1 2 CR LF 244 8888 65520 HFFFO 65535 HFFFF 9999 TER 17 0 0 lt 31 18 192 48 96 192 6 1 10 11 20 2 0 1 2 21 1 0 10 9999 22 0 0 0 1 999 8s 9999 23 9999 0 150ms 9999 24 1 6 1 2 342 0 0 1 Pr 122 0 145 lt 3 E gt
314. CT RH RM RL RH RM DUP RL RH RM RL Pr 180 Pr 183 RH RM Pr 59 1 117 gt STFA RH R CRL 1 RL STR OFF OFF ON 1 Ud S 1 RH 3 RM Pr Saco OAL Al
315. FORE em 69 MECH E 3 RUN Ec 4 RUN 3 PU JOG w ms Fe Pr 15 JOG Pr 16 JOG PU JOG OAG J mg Om fe Pr 13 77 72 g S o 8 EF RTE 3 3 3 1
316. FR E520 1 5K 2 2K 3 7K FR E520S 0 75K MMF 06D24DS BKO C2461H07 FR E520 5 5K 7 5K MMF 06D24ES _BKO CA1027H08 FR E540 1 5K 2 2K 3 7K MMF O6D24ES FC4 BKO CA1027H09 FR E540 5 5K 7 5K MMF 06D24ES FC5_BKO CA1027H10 221 FR E520 0 75K 3 7K FR E520S 0 75K 7 FR E520 5 5K 7 5K A
317. Pr 180 Pr 183 X16 183 a 172 RBLUT lt KEV SE Pr 180 Pr 183 X16 ON PU 1 E OFF PU 1 E 1 135 4 2 34 Pr 80 Pr 80 Pr 71 Pr 83 BE J Pr 84 Pr 96 ee
318. RS 232C RS 232C 3 1 2 14 EO 16 LED POWER ART ALARM 66 3 2 ed 3 2 1 as RUN e LED4 ne
319. RT ON RT ON 2 2 Pr 45 9999 Pr 44 1 S A 106 Pr 3 i i 4 sf HN _ 9 Pr 3 2 T eee 1E s f Hz 60Hz OHz x fet 2 T Hz 60 120 200 400 s 5 5 12 27 102 15 15 35 82 305 Pr 20 Pr 903 Pr 905 do Pr 903 Pr 905 Yo 3 Pr 7 Pr 8 Pr 44 Pr 45 0 03s 0 04s SSS eae a Pr 20 120Hz 4 TRSA ADS
320. S F 10 0 5s 180 9s mo 7 u a uo a L H 15A 10Ax5s 7 5 7 5s Low Pr 503 BJ Low Hi ae Pr 503 x 100h 5s 40000h 100 5s 2 9s Pr 503 a 16000h 2s J 72000h 9s r i 16000 72000 h 183 w Y93 Pr 190 RUN Pr 191 FU F 93 ABC
321. a lt a BATS FR PU04 FM Pr 54 CBRE BEB 52 0 0 23 100 54 0 0 1 2 112 lt x gt Pr 52 Pr 54 Si Ts Pr 52 Pr 54 FM PU gz LED Hz 07100 07100 0 Pr55 A OZ100 0 100 1 Pr56 OZ100 07100 2 400V 800V ager 07100 0 100 5 BIBRA 10h 23 23 x Pr 52 100 Hz LED Pr 52 0 100 WwW ESN MEREEN
322. low speed range Then set the rated motor current in Pr 9 Note 1 When two or more motors are connected to the inverter they cannot be protected by the electronic overcurrent protection Install an external thermal relay to each motor 2 When the difference between the inverter and motor capacities is large and the setting is small the protective characteristics of the electronic overcurrent protection will be deteriorated In this case use an external thermal relay 3 A special motor cannot be protected by the electronic overcurrent protection Use an external thermal relay Reference Motor overload protection characteristics 50 setting 100 setting Note 1 2 Note 2 Protection activating range Range on the right of characteristic curve X ntl 30Hz or None Normal operating range 270 1 20Hz Range on the left of characteristic curve i Efso 10Hz Note 1 When you set the 50 value current 1 value of the rated inverter output current Electronic overcurrent Note 2 The value denotes the percentage of protection for transistor the current value to the rated inverter protection output current not to the rated motor current Note 3 This characteristic curve will be described even under operation of 6Hz or higher 9 50 100 150 180200 when you set the electronic overcurrent Inverter output current protection dedicated to the Mitsubishi to r
323. 0A A 0 100 1 101 3 103 Pe a 13 13 Ad 71 GE 23 123 B RE ASE JRAP 1 5kW 5 105 16 118 6 106 m 16 116 Ua HR 83 0 T000V V ERA 84 50120Hz Hz 8 gg ia 90 Moog 89 a 0 1 CE 100 123 RT ON 2 PU 2
324. 1 Pr 36 Pr 31 1Al Pr 32 1B Pr 33 2A Pr 34 2B Pr 35 3Al Pr 36 3B O 3 1A 2A 3A ee ee o z 31 9999 0 400Hz 9999 9999 37 9999 0 400Hz 9999 9999 ae Z 33 9999 0 400Hz 9999 9999 34 9999 0 400Hz 9999 9999 35 9999 0 400Hz 9999 9999 36 9999 0 400Hz 9999 9999 BAERS Pr 36 g Pr 35 Wo ee pr 4L E pr Bap gt ae Begh lt gt Pr 33 Pr 34 30Hz 35Hz 30Hz BI Pr 34 35Hz Pr 33 30Hz pr 39 30 lt 30 35Hz 35Hz E e
325. 1K0 75K 85 6 Pr 77 2 7 Pr 77 OJ Pr 72 Pr 240 PU 8 Pr 80 400V 0 2kW 7 5kW 9999 9 Pr 249 Pr 503 Pr 504 Pr 555 Pr 557 200V 100V 10 Pr 0 FR E540 5 5K 7 5K 4 FR E540 5 5K 7 5K 10s 11 12 8718 110 11 400V 88 1 2 8
326. 2 3 2 SARDANA 2 3 3 2 3 4 kk 2 3 5 400V 2 3 6 Awe 2 3 7 MC 2 3 8 56 2 3 9 UL cUL j 2 3 10 j 3 3 1 3 1 1 3 2 3 2 1 3 2 2 MODE 3 2 3 3 2 4 A oe 3 2 6 3 2 2 3 3 3 3 1 3 3 2 PU 3 3 3 78 3 3 4 1 3 3 5 2 4 81 4 1 ANA 4 1 2
327. 249 0 0 1 lt x gt 0 1 UC ee 2 Pr249 1 E GF 3 0 1kW 177 4 2 48 Pr 250 Pr 250 Pr 7 Pr 8 Pr 44 2 Pr 45 2 STF STR OFF CEH men 250 9999 0 100s 1000 1100s 8888 9909 1 Pr 250 9999 OFF ON OFF OFF Pr 8 Hz DC 2 Pr 250 0 100s OFF Pr 250 OFF y OFF
328. 4 FR E520 2pk M5 25 145 8 5 14 8 6 8 te 6 FR E540 0 4K 7 5K pae PVC HAm mm2 AWG mm2 ay 7 N m RS T IUVWI R S T U V W R S T U V W RS T U V W at 4 15 2 4 24 2 2 4 4 25 25 FR E540 Ae 4 5 24 2 4 2 4 25 25 eer 4 15 2 4 24 2 2 4 4 25 25 ae 4115 2 4 2 4 2 2 4 4 25 25 NN 4 15 12 412 4 2 2 4 4 25 25 FRE m4 15 554 2 4 365 2 12 14 4 26 FREON M4 15 55 4 55 4 35 35 12 12 4 4 23 FETT E ACER FR E520S 0 1K 0 75K amp PVC lees mm2 AWG mm2 2 N m RS IUVW RS IUVWI RS IUVWI RS IUVW RESAS M35 1 2 2 35 2 35 2 2 14 14 25 25 FR E520S aoe M4 15 24 2 4 2 2 14 14 25 25 FR E510W 0 1K 0 75K eee PVC mm2 AWG mm2 2 N m RS UVW RS IUVWI RS IUVWI RS IUVW REIM masi 12 2 35 2 35 2 2 14 14 25 26 FR E510W 55sk M4 15 55 4 2 4 35 2 12 14 4 25
329. 400V 177 248 PE25607 0 78 2 49 Pr251 79 250 Pr 503 Pr 504 400V 80 4 2 51 Pr 555 Pr 557 400V 4 2 52 4 2 53 Pr 902 Pr 905 Pr 922 Pr 923 187 5 201 KR BRKQR RAR HK 51 5 1 1 AS 5 1 2 5 1 3 5 1 4 5 2 5 2 1 5 2 2 5 2 3 5 2 4 2 5 2 5 5 2 6 2 2 5 2 7
330. 9 0 32 100 Eup 4mA 0 20mA 100 9999 PU PU PU o PU 33 PID 2 5 100 Jama Pr 902 0 Pr 903 100 O P 0 01 opg 34 10 00s p55 9999 6 Pr 128 Pr 134 PID Pr 190 Pr 192 164 COCTAMA 50C 20mA PID 25 HIS
331. 9 2 PU Pr 79 1 pa Ei TA E ain Comin LL ele tL STF il STR ON ON OFF P age 79 1 PU P g0 ABS sgr 1 5s 1 190 Pr 146 1 Pr 146 0 Pr 146 1 2
332. 9 OMANE Pr 904 Pe were cm Pr905 NTT Pr 922 Pr923 DCO SV 0 10V 4 20mA DC0 5V 0 10V DC4 20mA Pr 902 Pr 903 Pr 904 Pr 905 Pr 922 Pr 923 eomy d do i 903 i Pr 905 Pr 902 Pr 923 Pr 904
333. AS few 4 Pr 923 MAX 80Hz O Hood BOO QO 1 5s WINI 0 MAX 100 80 Go Hz O 6 See ie ee 5 5 5 198 D 5
334. E T t RS 232C RS232C RS485 06 9 2 FA T RS40L 1 03 3288 1729 DAFXIH CAB 06 4705 2100 DINV 485CAB 1 1 1 1 do Ke RS 232C RS 485 10BASE T RJ 45 HARS nN BOC 2 06 9 BR
335. E520 0 4K 108 42 55 Cams FR E520 0 75K 128 62 55 FR E520S 0 1K 76 10 55 I FR E5208 02K 76 10 55 rin FR E5208 0 4K 138 42 85 mi l n FR E510W 0 1K 76 10 55 FR E510W 0 2K 106 10 85 FR E510W 0 4K 138 42 85 GE FR E520 0 75K mm 236 tk FR E520 1 5K 2 2K FR E520S 0 75K FR E510W 0 75K a 4 osr J Je f a C1 cd tl elg l C la A y C sije D 29 68 1 di D2 l 6 96 RDG 7 D J 108 gee 1 MRAR LCP Se J D Di D2 D3 a FR E520 1 5K 2 2K 131 65 55 8 FR E520S 0 75K 131 65 55 8 ee ll FR E510W 0 75K 155 59 85 5 k GE FR E510W 0 75K Ol mm 237 A 3 FR E520 3 7K M 2 5 a 9 By _ 1 a oo 0 F 5 ses
336. EO 5 STOP 6 MRS CSS 7 OH 02 Pr 4 PT 6 8 REX 15 RL RM RH 3 Pr 24 Pr 27 Pr 232 Pr 239 16 X16 PUET Pr 79 V F OFF 18 X18 ON V F 3 80 2 RL RM RH 1 1 2 EE FINAN 2 RH RM RL REX AU 3 W E URERDIAAICTV FRAVERR LTRS LE 2 BEPC VF AAWROMAAAT tA VF 2 4 SAR TO
337. EV T een 0 5mmx4P 1 RJ 45 5 554720 3 PY DR RS 485 PMTS 03 5614 7585 i 1 10BASE T OBEY P5S 2 33 gt FELT IT EACER O RS 485 1 1 RS 485 BIG n 10 BASE T PU RDA le SDA RDB he SDB SDA gt RDA SDB gt RDB RSA RSB Pills CSA e i EN CSB lm SG je SG FG RDA 10 BASE T RDB SDA 2 FG 1 2 n
338. F STR OFF 5 gg RUN GE Pr 75 PU 14717 OBS Ah HELE 3 3 5 2 2 5 SS eed Aa Hl me mm Pr 79 4 55 94 O 1 ON a Pr 79 4 PU EXT l mg mwl RUN _ 2 5 4 1
339. H a Z 1 2 1 2 1 Bi KY wm Qa a 230 amora g fs J x wm gt 95 Aoees S ELB hg REEROT OLE JELTES 55 ee R e
340. IS 1 2 3 200V 25 HEITI E ARR 2 2 3 1 SD SE 5 SD 5 SE 5 400V SD 5 SE 5 200V 2 O
341. K 0 75K FR E510W 0 1K 0 75K S i ze FR E540 0 4K 7 5K a MEMO Om H n W OA KK 14 2 2 Pa DSC DD i LAR MEE EE EAE A OS PR EN 41 W n W A n W a n W n W N iat 2 1 2 1 1 FR E520 S 0 1K 0 75K FR E510W 0 1K0 4K
342. MITSUBISHI LUM Esoo AREORA FR E520 0 1K 7 5K C FR E540 0 4K 7 9K C EA FR E5208 0 1K 0 75K FRAESIOW 1K 0 75K Ewes EH
343. N25 FR E520 7 5K 7 5 17 100AF 60A 50AF 50A S N35 FR E540 0 4K 0 4 1 5 30AF 5A 30AF 5A S N10 3 FR E540 0 75K 0 75 25 30AF 5A 30AF 5A S N10 FR E540 1 5K 125 45 30AF 10A 30AF 10A S N10 6 FR E540 2 2K 2 2 5 5 30AF 15A 30AF 10A S N10 0 FR E540 3 7K 3 7 9 30AF 20A 30AF 15A S N20 S N21 VIFR E540 5 5K 6 5 12 30AF 30A 30AF 20A S N20 S N21 FR E540 7 5K 7 5 17 30AF 30A 30AF 30A S N20 S N21 FR E520S 0 1K 0 1 0 4 30AF 5A 30AF 5A S N18 S N20 S N20 6 FR E520S 0 2K 0 2 0 8 30AF 10A 30AF 10A S N18 S N21 S N21 0 FR E520S 0 4K 0 4 1 5 30AF 10A 30AF 10A S N21 S N25 S N50 v FR E520S 0 75K 0 75 25 30AF 15A 30AF 15A S N21 S N25 S N50 FR E510W 0 1K 0 1 0 5 30AF 10A 30AF 10A S N18 S N21 S N21 pi FR E510W 0 2K 0 2 0 9 30AF 15A 30AF 15A S N21 S N25 S N25 0 FR E510W 0 4K 0 4 15 30AF 20A 30AF 20A S N21 S N25 S N50 9 FR E510W 0 75K 0 75 5 30AF 30A 30AF 30A S N21 S N25 S N50 GE 1 NFB NEB GW 1 NFB1 NMFBHIINV 2 g Apaan 23 gg 972 i B CCCOBEMRS Boo MA g a FR E520 0 4K 1 5K FR E520S 0 4K 0 75K
344. O 10s Enem 0 30 0 200 TEs h MABE ax DCO SV 0 10V 4 20mA DAR AA BS 3 3 4 15 0 fe 400Hz 2 1g80 2 gear p 183 cern REGEES DC4 20mA 234
345. SGLPEV T 0 5mm x 4P 10BASE T XO OBEY PSS RJ 45 5 554720 3 em 32 2 1 n 0 1 n 32 RS 485 RS 485 RS 485 RS 485 122 K alu TT TT eases SN RJ 45 Seo 1 2 n RS 2326 RS ds a 2 ah eats R82326 Im Para BEM CO Co en 10BASE T RU 45 ii 06 9 2 10BASE T SGLP
346. TG 3 150 60s 200 0 5s GEA 3 200 240V GR 3 200 240V 50Hz 60Hz DC280V 7 55 nA qo om EE 70 264V 50Hz 60Hz DC252 310V 7 5 WA GB5 04108 15125145155 9 12 17 MEMS JEM1030 MEE P20 SREY AIPAOe GUST ke 06 06108 10119112 22 144149 ee Ald 4 2 230V 3 RU 100 4 are eae 2 5
347. VIFR E5208 0 75K FR BAL 1 5K GE1 FR BEL 1 5K GED FR E510W 0 1K FR BAL 0 75K GED G 2 FR E510W 02K FR BAL1 5K GET G 2 9 FR E510W 04K FR BAL 22K G31 G 2 VI FR E510W 0 75K FR BAL 3 7K GE1 2 GE Hl 2 100V DC 52 FELT IT ERCER 500kVA NFB FR BAL 10m m Dar i Taa ery FR BEL FR BAL AH FR BEL 100V 50kVA FR E510W 0 4K FR BAL 2 2K 2
348. age HEE RAM OD EPROM HED H9696 HFD 4 Bee HF4 H9696 ati 155 No AA 8 HFC 4 PEDA JVS PT Pr H9696 O H9966 O H5A5A x H55AA x Ox O x olololo O H9696 H9966 Pr 75 Pr 146 4 9 H80 HOO
349. ated inverter output current constant torque motor N 8 Operation ti g 259 MEMO 260 1 18 1 MACE 2 O O BHM DHARERSE CHE
350. ce with U S and Canadian Electrical Codes Appendix 2 2001 7 B 67349 M Pr 342 EPROM E 3 262 E 2003 6 IB 67349 N Pr 503 Pr 504 Pr 240 Soft PWM Pr 340 2004 3 IB 67349 P 100V 200V 2006 8 IB 67349 Q Pr 555 Pr 557 Pr 190 zih 93 2007 2 IB 67349 R 263
351. ched at 5V or 10V and I O are proportional Use voltage Pr 73 to switch between input 0 to 5VDC factory setting and 0 to 2 10VDC Input resistance 10kQ Maximum permissible voltage 20V g E By entering 4 to 20mADC the maximum output frequency is lt Frequen yseitin reached at 20mA and I O are proportional This input signal is valid 4 q y g only when the AU signal Note is on Voltage input is made invalid current j Sane Input resistance approximately 2509 Maximum permissible current 30mA 5 Frequency setting Common to the frequency setting signals terminal 2 1 or 4 input common Do not connect to the earth Note Assign the AU signal to any of the terminals using the input terminal function selection Pr 180 to Pr 183 source logic Used as a contact input signal common terminal for the 400V class by switching between sink logic and 254 Type Symbol Terminal Name Description Contact A B C Alarm output Change over contact output indicating that the output has been stopped by the inverter protective function activated 230VAC 0 3A 30VDC 0 3A Alarm discontinuity across B C continuity across A C normal continuity across B C discontinuity across A C Open collector Output signals RUN Inverter running Switched low when the inverter output frequency is equal to or higher than the starting frequency factory set to 0 5Hz variable Switched high d
352. e Pr 33 35Hz Pr 34 30Hz Pr 34 302 Uo CE 108 Zee 4 2 15 Pr 37 Pr 37 Pr 52 PU PU FR PU04 Z ee z 37 0 0 001 9998 0 t Bt Pr 1 Pr 37 97772 gt 60 Ho 9998 Pr 37 9998 lt i E gt Pr 37 60H2z 1
353. eesseeseeeseeneenseenee 2 23 Pr 59 3 2 24 Pr 60 Pr 63 120 2 25 Pr 65 Pr 67 Pr 69 ossis 22 2 20 AAEE RAPA Van a e i ai 24 PWM 4 3 Pr 74 2 30 PU PU Pr 75 29 2 31 Pr 77 Lun 181 2 32 Pr 78 el B2 233 BGR TE BAR CPI 9 a E EARNER A 32 2 34 CPr 80 Lui 36 2 35 PR82 SETB4 PT IO PREC da bs bk 37 2 36 Pr 117 Pr 124 Pr 342 44 2 37 PID Pr 128 Pr 134 maby 2 38 Pr 146 167 2 39 Pr 150 Pr 151 168 2 40 Pr 152 Pr 153 i 169 2 41 Pr 160 Pr 173 Pr 176 oe 70 2 42 Pr 171 ee 72 2 43 Pr 180 Pr 183 ee 72 2 44 Pr 190 Pr 192 2 45 Pr 2 46 Pr 245 Pr 247 cocccccccccccsesssessessessesseesesseeesees 2 47 PrL 249
354. er and use the magnetic contactor to switch power on off 2 The output is three phase 200V A Description of the main circuit terminals Symbol Terminal Name Description RST Connect to the commercial power supply Keep these terminals NG AC power input open when using the high power factor converter FR HC and Note k power regeneration common converter FR CV U V W Inverter output Connect a three phase squirrel cage motor P PR Brake resistor Connect the optional brake resistor across terminals P PR not for M connection 0 1K and 0 2K PN Brakeunitesniecion Connect the optional FR BU brake unit high power factor converter FR HC or power regeneration common converter FR CV Disconnect the jumper from terminals P P1 and connect the Power factor i j 0 n optional power factor improving DC reactor P P1 improving DC reactor x i h The single phase 100V power input specification product can not be connection connected Ground For grounding the inverter chassis Must be earthed Note R S terminals for single phase power input 253 B Description of the control circuit terminals Type Symbol Terminal Name Description STF Forward Turn on the STF signal to start forward When the STF and rotation start rotation and turn it off to stop STR signals are turned Reverse Turn on the STR signal to start reverse on simul
355. h 72000h Hi Pr 503 x 100h 0000h x5s lt gt Pr 556 SSS wa ee TRL Pr 555 18 Hi Pr 555 Pr 557 100 x 100 Pr557 5 100 5S Mt ce 0 5 9s Pr 557
356. ie Pr 922 9 Pr 73 4 20mA 902 OV 0Hz O 10V 0 60Hz 903 5V 60Hz 0 10V 1 400Hz 904 4mA 0Hz 0 20mA 0 60Hz 905 20mA 60Hz 0 20mA 1 400Hz 922 OV 0Hz O 5V 0 60Hz 923 5V 60Hz 0 5V 1 400Hz 187 lt i E gt 1 3 oX Al O RI SPICES T 4 5 2 5 4 5 2 3 188 Pr 903
357. of Delivering Not More Than 100 kA rms Symmetrical Amperes 132 V Maximum 200V class Suitable For Use in A Circuit Capable of Delivering Not More Than 100 kA rms Symmetrical Amperes 264 V Maximum 400V class Suitable For Use in A Circuit Capable of Delivering Not More Than 100 kA rms Symmetrical Amperes 528 V Maximum 251 5 Wiring 1 Terminal connection diagram 3 phase 200V power input 3 phase 400V power input NFB MC Motor 3 phase AC lo 8 aR Uo ams power supply oO HS W IM oO OT 24VDC power output and Ground external transistor common PC P1 J jumper Notes PO Remove this jumper when i Forward rotation start OSTF B using the OF PO i improving reactor 1 Reverse rotation stat OSTR N High ORH Note 1 Brake resistor connection Multi speed selection MiddleORM ooe 1 i B Alarm i Low ORL i aloe gt f c output f Output stop OMRS 0 i 1 Rese ORES Contact input common SD RUN i A Note 3 Running 7 aa i apenas i FU Frequency detection Open ontrol input signals No voltage input allowed N oF e Open collector collector outputs ote Frequency setting signals Analog output common J Heo Sete ey Meter 10 5V e g frequency meter Frequency 2 p to 5VDC selected Le RT FM E Jiii P setting eo 1 0 to 10VDC e af Moving coil type potentiometer 1 mont Sa 5 Common Calib
358. r 12 R E520 S 0 1K 3 7K FR E540 0 4K 3 7K 4 R E510W 0 1K 0 75K 6 R E520 5 5K 7 5K FR E540 5 5K 7 5K 5 P ee Pr 12 4 U 4 i T TI a Tn mM 99 4 2 8 Pr 13 Pr 13 Pr 2 z 0 60H ON ali Nee mee SER el O 13 0 5Hz 0 60Hz mr W Ee O Pr 13 Ald Pr 13 5Hz
359. ration 1mA full scale 1 2W1k o Current input Note 3 resistor Note 5 SD 4 to 20mADC 04 4 to 20mADC Seo PU connector Ground RS 485 A Main circuit terminal Control panel Control circuit input terminal With frequency setting Control circuit output terminal potentiometer Note 1 0 1K and 0 2K do not contain a transistor Terminals SD and SE are isolated Terminals SD and 5 are common terminals Do not earth them to the ground Terminals SD and 5 are not isolated Those of the 400V class are isolated When terminals PC SD are used as a 24VDC power supply be careful not to short these terminals If they are shorted the inverter will be damaged Not needed when the control panel or parameter unit FR PU04 is used for calibration Used when calibration must be made near the frequency meter for such a reason as a remote frequency meter However the frequency meter needle may not deflect to full scale if the calibration resistor is connected In this case use this resistor and the control panel or parameter unit together to make calibration 252 Single phase 200V power input Single phase 100V power input Power supply NFB MC lo Fro R o o OS Motor Uo VO IM w w L Earth a Note 1 To ensure safety connect the power input to the inverter via a magnetic contactor and earth leakage circuit breaker or no fuse break
360. taneously the STR 4 stop command is rotation start rotation and turn it off to stop given RH RM Multi speed Combine the RH RM and RL signals as 3 RL selection PE to select mule spots Input terminal function to stop tne inventer aupats calces Pr 180 to Pr 3 MRS Output stop Used to shut off the inverter output to jeanne terminal m 5 bring the motor to a stop by the i T Q electromagnetic brake 2 Used to reset the protective circuit activated Turn on the RES s signal for more than 0 1 second then turn it off 3 Factory setting is reset always enabled By setting Pr 75 reset can E RES Reset A be set to enabled only at an inverter alarm occurrence It takes about 1s from when reset is cancelled until operation is restored SD Contact input Common to the contact input terminals and terminal FM Common common sink output terminal for 24VDC 0 1A power output PC terminal Power Output and When transistor output open collector output such as a external transistor i programmable controller PLC is connected connect the external common h z ji PC C power supply common for transistor output to this terminal to ontact input common prevent a fault caused by undesirable current This terminal can be j used as a 24VDC 0 1A power output source 10 Frequency setting 5VDC permissible load current 10mA power supply 2 By entering 0 to 5VDC 0 to 10VDC the maximum output 2 Frequency setting frequency is rea
361. uring stop or DC dynamic brake operation 1 Permissible load 24VDC 0 1A FU Frequency detection Switch low when the output frequency has reached or exceeded the detection frequency set as appropriate Switched high when below the detection frequency 1 Permissible load 24VDC 0 1A Output terminal function choices Pr 190 to Pr 192 change terminal functions SE Open collector output commoni Common to the RUN and FU terminals Pulse FM For meter One selected from output frequency motor current and Factory setting output voltage is output 2 Frequency Permissible load The output signal is current 1mA 1440 pulses s at proportional to the magnitude 60Hz of each monitoring item of output item Communication RS 485 PU connector With the control panel connector communication can be made using the RS 485 protocol Conforming Standard EIA 485 RS 485 Transmission format Multi drop link Communication speed Maximum 19200 bps Overall length 500m 1 Low indicates that the open collector output transistor is on conducts High indicates that the transistor is off does not conduct 2 Not output during inverter resetting 255 2 Terminal block layout of the power circuit In the main circuit of the inverter the terminals are arranged as shown below A 200V class 100V class FR E520 0 1K 0
362. y ee ear ae E Cv p abak O a sovy RO 2 as AF RE ZES EJF Eea a ss eae E T Pr 52 PU 100
363. z A FR PU04 0 113 4 2 21 Pr 55 Pr 56 Pr 55 Pr 56 Pr 54 FM Pr 900 FM FM 6X cE 8 Ge TREES 55 60Hz 0 400Hz 56 0 500A 1440 s FM 1440 s FW i Le aaa i i g i Pr 55 TO lt 8 E gt Pr 55 Pr 56 Pr 55 Pr 54 0 Pr 56 Pr 54 1 Pr 55 Pr 56 FM 1440 s

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