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MITSUBISHI Motor FR-A500 Manual(1)(1)

1. PU FR DU04 FR PU04 7 Pr 9 Pr 71 Pr 80 Pr 81 Pr 95 156 98 0009 0099 mA a ot e o E 82 83 84 91 92 93 94 os 9999 0 9999 9999 gt 0 4kW 120Hz Pr 96 101
2. 10 2 gt N
3. Pr 902 Pr 905 PU 122 gt 1 2 5 0V 0 2 Pr 902 0 0Hz 3 2 5 5V 100 4 Pr 903 100 50Hz gt 1 4 5 4mA 0 2 Pr 904 3 4 5 20mA 100 4 Pr 905 Pr 904 Pr 905 Pr 902 Pr 903
4. 1 FR BIF o 7 2 FR BLF FR BSFO1 A Pr 72 1 10 1 100 1kHz 30cm 1 2 Pr 240 PWM 1 3 FR BSF01 BLF
5. FA DT A eii 1C PLC PLC PLC PLC 1 FORARE 2 CC Link Control amp Communication Link 3 FR A5AX 12 PLG 3 FR A5AP 189 3K 1
6. 8 4 2 PU CPU DC24V E 10 C 50 C FR A5CV 10 C 40 0 3 90 RH UT PAR 20 C 65 C BA HE 1000m 5 9m s JIS C 0911
7. 9 VY 3 4 Se SB ETA p mae i x x 5cm FREQROL ee Som 3 7K 1cm RF Fl He A 8 4 1 22K 1 EWER AHIR SA RPHE J hiki x x o 2 gt 2 2 fe Re Ze Fl fz e 2 2 1 O NFB Oo LOO OR
8. H3 o oe y Hp atha Se va eb haley tr DREGE LERNER e AT E CR LF 0 9 A F 115 bs 6 RS 485 i aes z ae Aaa sk 7 AN ay PU 4 4 3 staat eee 4 FL 3 J _ 1 1 2 RS 485
9. 400V O 5 6 OTZAN RK 7 8
10. 20m 15 6 500 1 5K SL 300m 300m 600m 7 P PR 8 AM FR BIF FR BSF01 FR BOF 9 FR BIF
11. 0V 10V PID 192 Br Z 7F FF CD CD N CD i OIloCI Im IalR I2I m CD m 2 gt N gt CD 1D 0 22 23 24 gt P a gt a 2 D gt D N gt N gt Co N gt gt gt w gt N ojjj Vj jN N N N D o ojoj fo gt 32 N CD CD oO a a D 37 w N w 38 39 3A 2 0 Co Oo Co B Co a Co gt CD CD lt CD o o N CD CD _ gt
12. 170 p T 9 1 3 THES CDE SAVES LT CIE ee ee a T7000 8 S008 CoD ed OD a a 171 5 1 4 Pr 76 4 oe were FR DU04 ene peg tise Sr aaa REN SR Ra a Ne eT a Se Ps EE 00 0C3 E OV2 OV3 ET M sdu 1 E C ARE O D 0LT EE ne E B GE 0 OFF 1 ON SE Pr 195 99 HIRE 5 1 5
13. K 1 1 P FUP 4mA 0 20mA 100 4mA 0 20mA 100 PU PU PU 2 5 Pr 902 0 Pr 903 100 Pr 128 Pr 133 AY PID IZE 1 0 PID Pr 128 10 11 20 21 121 7 PID
14. 62 4 2 7 Pr 10 Pr 12 Pr 10 Pr 11 Pr 12 Pr 13 Pr 71 FEE A 9999 Pr 13 8888 X13 ON E Hz Pr 10 gt A Pr 12 L gt Pr 11 gt Pr 10 Pr 10 9999 Pr 13 Pr 11 Pr 11 8888 X13 ON Pr 180 Pr 186 X13
15. Pr 270 Pr 275 Pr 276 Pr 271 Pr 274 0 2 AGE ES RAE 146 4 2 61 Pr 271 Pr 274 Pr 271 4 Pr 5 Pr 6 2 Pr 59 a ae Pr 270 Pr 272 Pr 273 Pr 274 Pr 270 2 3
16. 1 FR Du04 2 OS 2 BAN 3 RES 172 5 2 5 2 1 1 P1 P 2 4 20mA AU MRS RES Pr 57 9999 CS 3 Pr 78
17. x 400V sic wei Sap mo E LEA R NF30 NV30 5A NF30 Wao A 4 5 NF30 NV30 10A NF30 NV30 15A FR A540 3 7K CH 37 9 NF30 NV30 20A 17 NF30 NV30 30A NF100 NV100 60A NF100 NV100 75A NF100 NV100 60A NF100 NV100 100A NF100 NV100 75A NF225 NV225 125A NF100 NV100 100A FR A540 37K CH 37 66 NF225 NV225 150A NF225 NV225 125A FR A540 45K CH 45 80 NF225 NV225 175A NF225 NV225 150A NF225 NV225 200A 33 RF Fl fe k e Progressive Super Series SP CF SF CP An gt 10x lgi lgn g2 gm NV 91 CA CS SS 1An gt 10x lgt lgn 3x lg2 gm lg1 1g2 gn lgm lt H gt 5 5mm x5m 1 NV
18. 17 RF Fl fe A 3 4 SD SE AX40 RUN naked RUN 1 TR oles sop i DC24V PC SD 0V PC SD D024V
19. 400V 24 RF Fl fe A 3 BU THO HB 7 5K PR PX 2m 5m 400V FR HC RE Pr 30 2 FR HC FR A500 N P Y1 Y2 RDY YMC2 pea MC2 Asa R2 s2 r2 FR HCLO1 NFB ST 34 R st 6 To es 25 RF Fl fe A
20. RES 1 a jt RES SD Err 1 E 001 rc HE f FR PU04 OC During Acc ae TEER 200 AN R1 S1 R S T e E 001 E 0C1 e R S T E 002 pm 4 HA lt FR PU04 Stedy Spd 0C fo
21. 1 Pr 72 PWM Pr 240 Progressive Super Series 2 400V 7 5kW 50m
22. f e E OdB 1 nV FR A520 3 7K 1120dB 1V WM FR JR 4P 3 7kW oct 30H FR A220E 3 7k fc 14 5kHz EES 5cm d en PERA Qa FR BLF r FR BSFO1 A 41 40 50 d cm FR BLF FR BSF01 ee Pa FR BLF FR BSF01 AN 4 BBA FR BIF 1 30cm 10cm LR 6 RF Fil HH 2 3 3
23. 1 4 1 5 0 150ms 10ms 1 10ms 2 20ms Hos HOS H06 HA Hp T 0 Al J x10ms 12ms ena Y WG Pr 123 9999 te 1 110 6 ASC11 8 2 ASC11 1 EN i 0 1 E 1 1 0 7 A D F 4 H45 H31 H30 H37 H41 H44
24. 1 2 L L A B A i 2 fis lag 3 179 5 3 9 DVI we ag apy bee Soi wall t e o a Ee amp 180 TRER R S S T T R 183 3 zz 2 2 EA oy cas z Pi Wit Wi2 Wis
25. 1 1 Ps Rn de 1 A E e a a E ta eE 7E 1 2 2 2 E a ee A se me E S 3 1 5 ee ed he et 3 E Aes EE E DD aha Sees GSS oS Fe Be 4 1 3 3 EEEE EEEE EEEE EEEE EEEE EEEE EEEE EEEE 6 2 0 a aa a a a a a a 7 Des E E a A 5 AE en ed 7 2 FI AE ten A E E EAE EE E E EEE E E 9 A ge ace dest dt N A eA awa be A 4 baa 9 Se De a AE TAE E ETE 12 DDS Pe E EE EE E 17 20 2N2 5 E EE A oe Pee ee te ee teas othe eke ct ihe eo a Sete ane ole ol abe aie rie ane ja 23 27 2 28 28 2 3 2 9 cece cece cence EE 29 De BBN A TIN ES E AA E i Mi Dea ta basa Pace Me a ae nal A come Sc ac leah Li das aN a ae eae 31 2 3 4 L E A00V ee E S 32 SnD Ea Es Ve Ee e a dd a th a estas a E EAE A rent ORN 33 230 ARUL CULT Fee MEU a a Aa r ee a ee A 35 23 T FF GN ABBY PA i eeror apoda be bdgaeagy heed et eni egaa rend at paaien ta EDES aA gas 36 3 37 es De da EEE 37 3 1 1 n beer ebb e bbb bent beens 37 5 39 3820 40 3 2 1 FR DU04 eee cee b tee r ee tee ene ens 40 3 2 2
26. 500ms RUN RUN Pr 79 5 4 Pr 96 Pr 82 105 4 2 40 V F Pr 100 Pr 109 Pr 100 V F1 Pr 101 V F1 Pr 102 V F2 19 47 2V F Pr 103 V F2 i 60 Pr 104 V F3 71 Pr 105 VY F3 Pr 113 3VF Pr 106 V F4 Pr 107 V F4 Pr 108 V F5 Pr 109 V F5
27. 71 79 RL CD a 81 83 84 reat j A 95 AU J0G 100 191 103 V F2 VF3 VF3 A B 0 3 Pr 77 1 92 4 2 35 Pr 78 Pr 78 MIN Ro PU gt Pr 78 1 2 1 F a 93 Pr 79 4 2 36 Pr 79 Pr 79 15 4
28. Ja gt FR RC E 0V3 L n i FR PU04 OV During Dec FR RC E THM H l FR PU04 Motor Overload 1 85 TH
29. read error E rE1 write error E rE2 verify error E rE3 ver ify error E rE3 s FR A500 model error E rE4 45 3 3 2 fy fe fe 3 3 1 46 3 3 2 1 50Hz ON
30. 5 Pr 9 35 XE Fl HR CE 2 3 7 FAR 1 EMC 1 EMC CE CE CEMEP 2 EMC EMC CE EMC BCN A21041 202 EMC
31. 100 5s IP00 182 e JH amnesia AB gt mer 5 0 015Hz 60Hz 2 12 0 10V 11 0 5V 1 12 10 10V 11 5 5V 0 2 25 C 10 C 0 01 0 400Hz 0 5Hz 150 Bee o ee a a a y 0 3600
32. poe ei ee EMC BCN A21041 202 3 VY 2 1 2 CE 3 400V 380V 415V 50Hz 60Hz 2 EN 10E EN 1EC 11 2
33. 3 A Pr 66 Pr 22 Pr 70 Pr 30 85 x 4 2 28 Pr 71 Pr 71 0 12 19 60 80 81 96 71 0 8 13 18 20 23 24 7 o _100 pr 109 V F BE gt o E OO aS SS ee a V F 5 OO oO SHE BAL
34. Mc2 MC3 1 MC2 ON MC3 OFF 0 60 0Hz STF STR 9999 1 Pr 135 0 Pr 139 2 STF STR gt y ON OF Wm o e eO MRS 0FF OFF ON ON IE BAS IAERWRON
35. EMC 3 zol EMC EN50081 2 A a O i 4K 7 5K 4K 55K 4K 55K RESE 4K 55K 7 po gt w T ke gt O G1 FR ASF H FR BEL H 95 1 FR BAL H 90 1 3 7kW AR ee FR BLF BU ek os SOO FR BU 15K 2 55K H15K H55K FR BR 15K 55K i 2a o
36. 0 5V 0 10V Pr 133 4 20mA PI1D 9999 133 out 0 01 10 00s 9999 9999 gt 1 PI1D x fi PID Kp 1 ts Tass Kp Ti 6S Td 2 _P1D 1 Pl Pl P 1 P1 p 1 re 117 S 2 PD PD P D PD P D 3 P1D P1 PD PID Pp 1 D 4 X
37. 79 GE2 166 E UVT FL f b f FR PU04 Under Voltage 300V P P1 zas P P1 P P1 E FIN pa E k m FR PU04 H Sink 0 Temp el d
38. ee ce Re f k FR HC SHRED R FR HC R R1 S S1 P PR PR PX P PR FR ABR P N FR BU FR RC FR HO P P1 FR BEL PX PR 7 5K STF 0N 0FF STF STR j ON 0OFF ON
39. 30m 30m gt 1 Pr 80 Pr 81 V F X18 V AF V AF 81 12 14 16 Pr 180 Pr 186 X18 a 12 2 14 4 16 6 SF JRCA Pr 71 1 SF JRC SF JR 4 1 5kW Pr 71 20 97 V F FR ASF H P
40. 3 4 5 5 3 4 1 2 3 500V DC500V 175 5 3 5 5 3 6 vee es zA BERR a ANSE i 1 ARRE E E 2 3 1 2
41. R1 S1 R1 S1 MC e FR A540 0 4K 3 7K gt D 2 3 4 1 S1 4 oS e FR A540 5 5K 55K gt j D s 1 cee ete 3 MHR 4 R1 S1 4 R S T ON R1 S1 OFF R R1 S S1 MC FR A540 5 5K 55K R1 S1
42. em a e 7 0 oaa o o ESE OL ZZ OL se gt Pr 157 A 0 5 Pr 158 Pr 54 132 4 2 49 Pr 160 Pr 173 Pr 176 Pr 160 Pr 173 Pr 174 Pr 175 Pr 176 Pr 160 32 ake 1 0 olbt1 O _173 os 14 0 0 999 9999 a ogg 17 0 0 999 9999 9999 lt gt 1 1 Pr 3 Pr 173 PE 773 SET me z SET E e dide is 2 ais w iiie A is oe e e e J J e
43. E OLT T ik 4 FR PU04 St11 Prev STP 0 0L FAL Ge te Makes MER PESAR 167 E OPT E Hy pa i FR PU04 Option Fault Ene i Ge Uae ne see rea ea R S T EAP 0 1 ption Fault ea E OP1 0P3 m D FR PU04 Option Fault 3 1 3 E PE E pa pa FR PU04 Corrupt Memry ZR SALLATA EPROM E PUE
44. Pr 180 Pr 186 148 A 120Hz X19 3 RH RM RL O ON 2 5 4 5 1 5 12 FR A5AX 12 Pr 270 O Pr 270 1 3 Pr 270 1 3 PU PU P1D FR A5AP Pu
45. H9696 H9966 H9669 H80 HES 1 ne OTR HOO H6C H80 HEC H00 Pr 0 Pr 96 H01 Pr 100 Pr 158 Pr 200 Pr 231 Pr 900 Pr 905 H02 Pr 160 Pr 199 Pr 232 Pr 287 H03 Pr 300 Pr 342 H09 Pr 990 H3D H5A HBD HDA H00 H01 Sao 8 18 H02 F Gb FF H5E H6A HDE HED 1 HOO HO1 H02 114 gt Th e HO NAK
46. J Pr 162 1 0Hz SU FU MC1 MC2 A 80 4 2 24 Pr 59 Pr 59 1 7 FR Fk 8 18 o
47. AY40 Teas ones f Wie RR og pe ee A RF Fl fe A 5 uh R T PC SE PC Q 4 RUN LR PH nc on SD tim IAY 80 1 1 r Pee H 1 DC24V 1 STE we SD gt l i 2i JSTR 4 STOP CS PC 1 STOP ES 2 CS gt CS SD Pr 57 9999 CS SD EE PC
48. mA oh 20 gt 1gX10 34 Z ke F fk tk 2 3 6 UL cUL 1 183 2 5 000A UL 3 K5 V A FR A540 1 5K CH 10 FR A540 3 7K CH 35 45 25 25 FR A540 5 5K CH FR A540 15K CH 110 FR A540 18 5K CH 1 FR A540 22K CH 150 FR A540 30K CH 2 FR A540 37K CH 250 FR A540 45K CH 300 FR A540 55K CH 350 4 R S T U V W 75 C
49. RT 9999 RT ON Pr 48 RT OFF Pr 22 Pr 49 9999 Pr 48 0 RT ON Pr 49 9999 Pr 48 0 Pr 49 0 Pr 22 9999 Pr 49 9999 RT ON 1 Pr 48 3 RT X9 SRT X9 ON B Pr 180 Pr 186 ob BE o A FE AEE Pr 50 Pr 42 75 4 2 21 FM AM Pr 52 Pr 54 Pr 158 Pr 52 DU PU Pr 53 PU 37
50. FR BIF E UVT 10 10 12 RF Fl fe A e 4 3 5 as 8 18 5KWEI37kW 45kW 55kW 13 RF Fl fe A 2 400V FR A540 0 4K 0 75K 2 2K 3 7K CH FR A540 30K CH R1 s1 M4 O R S p1 P WM6 Bu Rot M BETH axe M4 N FR A540 5
51. 150 GEN 150 150 4 120 150 GEN 150 Pr 22 Pr 156 GED 150 oL 7 H FR PU04 oL CI
52. Pf pf P1 m V3 Vie H x 100 z ip yewa wi GEI 1 12 U V W GES o K ie ant Snares x P2 Wat W22 Pf2 Pf2 pP2 _ x100 V3 V2 12 POWER i 1 35 x Vi 760V 1 CD 5 i TET PEROT amare aes 5VDC T1 gt FM 4 SD 50kQ focs E Tes T1 Pr 900 T2 Pr 55 A 10DVC STF STR RH RM RL JOG RT AU STOP CS SD 20 30VDC ON 1V iik HERE JAR 2 lt OFF gt ON gt 1 2 Pr 195 A B C 3
53. 5 0 or 1 104 gt SF JR SF JRCA Pr 96 101 gt 1 Pr 96 3 103 2 Pr 95 1 3 4 PU MRS Pr 13
54. mi ats Att Pa m V Ho 2 101 2 PU ww E e Pr 96 101 MRS RES ae 1 0 STOP OH RUN OL 4 SARNASE AM AE Tee NV R S T MRS RT CS RES STF STR IPF FM AM A B C 100 3 FR PU04 Pr 96 FR DU04 PU FR PU04
55. 0 5VDC 0 10VDC 10KQ 20VDC 2 1 4 AM 10 RF Fl fe A ai AC200V 0 3A A B C 30VDC 0 3A B C A C B C vi A C 0 5Hz RUN 2 Wy es TLALE EE ES 5 Pr 19021 ae 10 Bai ele 2 DC24V 0 1A ae a i RRP Se A sn sh DC24V 0 1A a 2 DC24V 0 1A 2 DC 24V 0 1A
56. 1 2 MRS Pr 52 0 SHIFT PU FR PU04 k Pr 56 100 Pr 52 23 Pr 171 0 Pr 53 0 Pr 53 1 2 5 6 11 17 18 Pr 55 Pr 56 0 65535 0 FR DU04 R 9999h 9999h
57. 4 2 32 PU PU Pr 75 Pr 75 PU PU PU FR DU04 FR PU04 PU PU PU FR DU04 FR PU04 1 E PUE PU PU SS gt 0 mE ERP AERA SRA qe a ets Pu SST PU 1 SLI H o re Were aiiai N PU PU ee Te Fi Se ie aaa ee eae K PU 8 89 PU mse BEES 1 FR DU04 1 STF STR 2 2 oos
58. 1 Pr 60 7 STF BOF RI on A 2 Pr 60 8 Pr 278 Pr 280 ON STF ON Eee BOF Pe FE Be 154 2 gt 1 1 Pr 80 Pr 81 A 9999 2 Pr 60 7 8 Pr 60 7 3 1 0Hz Pr 278 SPr 282 50 90 100 0 2s 0 1 0 3 Pr 60 7
59. gt 0 200 100 0 200 le OA TIA O 3 ut oe 9999 0 400Hz 9999 1 4000 ae es nen lt gt I Il Pr 186 19 MC D 380 480VAC NFB olo OR UG ojo OS VG OT we o STF Ba lacie rte Pr 180 Pr 186 147 gt X19 ON Pr 5 Pr 5 Pr 4 Pr 5 1 Pr 4 2 Pr 5 Pr 4 120Hz Pr 5 60Hz
60. FR PU04 gt gt 16 5 187 mm mm ARS RUA mA aa fe H tak ys UE 1 1 te ee 188 w 1 Hk 7 1 7 1 1 EN glee LOD 8 FR_PU04 RA E ee j FROROO FR ASCNOO 1P40 FR A5FN 5K 55K AK 22K ols T gt a gt
61. antic mala TL mt Ue a a x7 E G x9 fe SET ann a 1 d va 1 1 0 9 0 9 ser set 1 5s Ee STF STR ON ON OFF D AT jf Pr 79 ah PU AP ART 1 5 GE ale 161 3 Pr 903 Pr 902 Pr 904 Pr 905 e REV FWD gt 4 Xx9 a xE 4 Pr 903 2 5 A D 80Hz Y 1 5s SET 2 5 A D 5 7 A D 5
62. zost pr lt TENT 24VDC 0 1A Se cs awa XK 2 0k o MRS OL 9 DC24V FR_A5AR 230VAC 0 3A FU 1 MC2 O we He 30VDC 0 3A oo OH 3 4 oo RES SE 2 FR A5AR SD OENE 10 3 Pr 180 Pr 186 E ils SE _____T 24V MC1 MC2 MC3 ET ary J Wi 124 lt 1 0 1 Pr 135 1 a a F as Mca O ON x OFF Tie Dae Ea eae ON MRS MRS OFF Pr 18
63. 96 4 2 37 Pr 80 Pr 81 Pr 89 Pr 80 Pr 81 Pr 71 6 Sos PRE PAE 3k Pr 83 Pr 89 Pr 84 Pr 89 Pr 90 Pr 94 Pr 95 Pr 96 Pr 180 Pr 186 0 2000 V F gt SF JR0 4kW SF JRCA 200V 0 4kW 45kW 4 2 4 6 4
64. Pr 60 7 8 Pr 285 Rete 0 30Hz 130 0 200 280 os 0 2s 24 ee 01 ef gt Pr 184 15 Pr 190 20 BOF ibe 24VDC 0 1A JE 1 Pr 180 Pr 186 2 Pr 190 Pr 195 153 gt Pr 278 Pr 279 Pr 280 BOF BR1 Pr 281 AR Pr 282 BO OFF BR1 Pr 283 4Pr 60 8
65. E GF pa F ie FR PU04 Ground Fault E OHT T h I a FR PU04 OH Fault 3 saga oes e Pr 180 Pr 186 7 OH 3 Pr 180 Pr 186 0H E BE E h E FR PU04 Br Cot Fault A J
66. FNL oe te Makes MER fas o HS65B BNL 4EPr 718E SHE BAL E THT H f FR PU04 Inv Overload 1 150 200 150 60s 1 E IPF iio FR PUO4 inste Pwr Ness 2 15ms B 0 MAA AC 2 100ms ON 15ms
67. 33 33 1000kVA 10m 9 30 1 1 3 4 3 1 1 2 FR DU04 k PU RS 485
68. RT E 0V3 1 150 oe 2 180 2 4 Pr 0 Pr 7 Pr 8 Ss ee eee 5 150 a so 6 180 a BRR slated a E
69. 5 3 1 10 P N 30V 5 3 2 1 1 2 3 4 5 2 FR DU04 FR PU04 5 3 3 D AJAH See eee 2
70. PU PID SBR PID P1D MC1 2 Pak I o 230VAC 0 3A 30VDC 0 3A 4 bit E 1440 s 0 10VDO PU FR DU04 FR PU04 PU FR DUO4 FR PUO4 FR PU04
71. U V W U V W 1 10C C ENEE 90 ee anes ee is 1 5MO 2 3 RAF o 500VDC JEER 0 2 REF o fe 10 1 1 2 REF Gg 1 5MQ 500V JERE gt 1 R S T U V 2 X100Q gt R S T U V W P N
72. 3 2 aee ster esia asten sT eais 1 1 3 3 a 3 ASC11 1 3 ee oe 8 9 10 11 12 13 1 10 11 3 Bile 9 H00 H1F 0 31 3 4 CR LF CR LF
73. STF Pr 79 5 PU STF RH 1 2 f5 0 H IK ij INE T ca tt 3 t4t5 t STR bbe spa aS SU 2 1 2 3 1 2 1 2 2 SU A ANANAAAAAAAANSAS FR DSSS RH ge III RM P7 f2 3 f5 f2 ofr fofL ro 0 i t1 t2 t3 t4 t5 t1 t2 3 t
74. RAM EPROM 71 wa Rh y yS 1 2 7 3 4 w FA O Fe 1 6 FA fF pp iw ojm mj o 2 I IT Im m gt Co yojo ojm 195 Appendix2 Instructions for compliance with U S and Canadian Electrical Codes 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 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 Ambient temperature Constant torque 10 C to 50 C non freezing Ambient humidity 90 RH or less non condensing Storage temperature 20 C to 65 C 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 Design the enclosure so that the ambient temper
75. 3 Ne 10 C 50 0 3 4 VY 150 C 5 6 1 FR A5CN 2 7 8
76. 2 37 3 7 4 ee nn 1 2 1 2 1 ELB NFB FR BAL FR BEL 182
77. Pr 124 CR LF 5 Pr 123 ee ie dl 1 109 2 C la eee 4 D 1 2 3 4 3 E F EE 3 3 sTx ETX 1 2 3 4 5 6 7 8 9 FFK 4 6 3 4 H 3 4 ACK NAK 1 2 3 4 FRA 3 4 NAK 1 2 3 4 5 4 1 ascia E X H03 H05 K HOA 15 Ex Ena ac tr LF oR I 2 3
78. FR HC X10 MRS Pr 79 7 PU X12 MRS X17 RT V F X18 RT FR A5AX 12 135 4 2 52 Pr 190 Pr 195 Pr 190 RUN Pr 192 1PF Pr 193 0L Pr 194 FU Pr 195 A B C 1 RN Cd RT 0 199 9999 0 199 9999 195 ABC 99 0 199 9999 gt Can enea EE ER E EATE AA Tl o Pr 41 pe FBT EE TRIS ARLE E Pr 22 Pr 23
79. PWM PWM arie Bem 0 is 0 0 7kHz 15 14 SkHz 20 1 0 1 i Rewe gt 0 15 PWM kHz 0 0 7kHz 15 14 5kHz 240 0 atem Pr 72 0 5 PW PWM 87 4 2 30 Pr 73 Pr 73 0 5V 0 10V Pr 22 Pr 903 Pr 905 0 5 10 15 2 1 4 Ts ob ss 4 20mA RYE RTE i 0 10V 0 10V 0 5V 0 10V 0 10V 0 5V 0 10V 0 10V 0 5V 0 5V Se 0 10V 0 10V 0 5V 5 5 5V 5 5 ij 5 5 0
80. SD CS SD gt oe 0 5s 162 1 0s 3 0s J MEE 0 1 5s 13 0o 20s kts ee 16y oes 0 1 5s T 0 200 79 We Ss UVT 1PF 00CT Pr 57 9999 CS 0FF Pr 162 0 Pr 162 0
81. FM 24V 0 1A PC 3 Eem TRONER acer moet GRRALTEDRINH MEANA seo op 24V 0 1A 10VDC 10mA 10 5VDC 10mA 10E 2 0 0 5VDC 0 10VDC 5V 10VDC 0 5V 0 10VDC 1OK 9 20V DC4 20mA 20mA AU ON 250Q 30mA 0 5VDC 0 10VDC 2 4
82. ON PU we AO C 50Hz Meoe WO TE h e WS ARE jefo i Se 2 PU Et T o a ee 1 Pr 15 Pr 16 2 PU ose Jj PU 3 mo mev Pr 13 48 3 3 4 PU PU Pr 79 3 PU Pr 79 3
83. Oo Do ez 1 AIR_ FLOW FR A540 5 5K gt gt 2 3 YP ood DUPA aiii TMt oe 178 2 10 aS T 1 2 3 4 85 3 5 3 8
84. Pr 149 10V 115 156 AZ Pr 154 Be Pr 66 50Hz Pr 23 100 Pr 154 1 sz f 150 0 1 Pr 2214 Pr 23 9 SARA ROR 0 60 100 200 300
85. 0 100s 9999 1 Pr 250 9999 OFF ON OFF OFF Pr 8 Hz DC gt 2 Pr 250 9999 0FF OFF OFF Pr 250 Hz gt RUN OFF 1 RUN OFF 2 ON 0Hz 143 4 2 57 Pr 251 Pr 73 0 5V 0 10V pr 251 3 U V W 1 E LE 3 a ay i 0 1 4 2 58 Pr 252 Pr 253 Pr
86. RJ45 E1A568 10BASE T 3 Pr 79 PU FR DU04 FR PU04 7 0 5VDC 2 5 0 10VDC 2 5 4 20mADC 4 5 Pr 4 6 24 27 AmE Pr 15 4 RS 485 PU FR A500 RJ45 E1A568 10BASE T e gt Windows3 1 Windows95 1MB AE icc Ss dion sn ter S 3 5 38 3 1 2 7 9 POWER
87. 3 4 1 10 C 5
88. 70 2 AN Pr 70 4 2 16 Pr 31 Pr 36 Pr 31 1A Pr 32 1B Pr 33 2A Pr 34 2B Pr 35 _ 3A Pr 36 _ 3B 1A 2A 3A TE pa 3000 35 36 Pr 34 9999 9999 aq 35 9999 9999 m 36 9999 l 9999 Pr 31 Pr 32 lt gt Pr 33 Pr 34 30Hz 35Hz 30Hz Pr 34 35Hz Pr 33 Pr 34 35Hz of 30Hz Pr 33 30Hz 30Hz 35Hz 35Hz Pr 33 35Hz Pr 34 30Hz Pr 33 35Hz See Pr 34 30Hz 2 71 4 2 17 Pr 37 Pr 144 Pr 37 Pr 144
89. Pr 60 8 0 1 0 2 BOF OFF 0 30Hz Pr 278 3 4Hz Pr 282 Pr 278 Pr 60 7 0 1 Pr 60 8 0 2 0 3 E MB2 BOF 0 30Hz PLG Pr 285 E MB1 BOF 9999 1 0 5s 0 5s 2 Pr 180 Pr 186 Pr 190 Pr 195 __ Pr 60 7 Pr 60 8
90. 1 2 Pr 84 3 4 Pr 96 1 FR ASF H gt 1 Pr 80 Pr 81 1 Pr 96 1 101 CREJ V eei iena ue ow eaters een Gace wea eas SURE MOV I sc saslon tf dais te Madore ota id 2 Pr 9 A 3 Pr 83 V 4 Pr 84 Hz 5 Pr 71
91. EXT PU ON STF STR ON 0N Pr 250 9999 60Hz REV FWD 0FF STF STR GE Pr 75 PU 14 17 49 RL RM RH RT AU J06G 0S RUN SU 1PF 0L FU E
92. Pr 79 3 3 weos v 3 Iwo 40 3 e ser He 4 STF STR ON 2 FR PU04 1 STF STR 2 5 Be E E gt 3 STF STR ON aean e p STOP 1 STR OFF L Rat Bat RES PU 1 PU PU PU PU 4 PU PU PU PU Pr 75
93. RES ye PU PU E LF erie FR PU04 V ete re e gt ERE Pr 251 mL E MB1 7 LII a FR PUO4 i Pr 278 Pr 285 2 E FN E FR PU04 Fan Failure Pr 244 FN 169 3 OL ee FR PU04 OL StI Prev STP
94. fa at ZHE SF JR4P 1 5kW AT ac en ZAE SF JR4P 1 5kW DO O Sea a 18 E4556 BAL 5 5K 7 5K Pr 0 Pr 12 Pr 71 0 2 3 8 20 23 24 1 13 18 Pr 19 lt 9999 Pr 71 2 Pr 71 2 Pr 19 9999 Pr 71 2 Pr 100 Pr 109 FR PU04 Pr 100 Pr 109 Default parameter ist Set parameter ist Pr 96 3 7 8 13 17 18 A 86 4 2 29 PWM Pr 72 Pr 240 Pr 72 PWM Pr 240 PWM
95. P1 P FR BEL gt P1 P 1 5m 2 R S T 26 ce P f tk 2 2 6 1 Mc1 MC2 2 3 R1 S1 R S TXE 4
96. 4 di Wi X lt 0 5 X X lt 0 AEA 118 3 Pr 183 14 Pr 192 16 Pr 193 14 Pr 194 15 2 3 po orange 24V AC10 i 200 220V 50 60Hz SE 1 2 Pr 191 Pr 194 3 Pr 180 Pr 186 119 4 1 0 RT 1807 poy ah ae Pr EIR E SRA __ HH E ee Pr 191 195 Hi FWD Low Pr 128 10 11 REV STOP 20 21 X14 P1D
97. 120Hz sR He 0 120Hz Pr 1 Pr 18 E ae Spree Prezi v MERE Yy 1 gt 0 5 10V 4mA 20mA SJL r E gt Pr 1 120Hz Pr 18 Pr 18 Pr 1 Pr 18 Pr 1 Pr 18 Pr 1 Pr 2 50Hz Pr 903 Pr 905 Pr 1 Pr 18 Pr 2 Pr 13 58 4 2 3 Pr 3 Pr 19 Pr 47 Pr 113 Pr 3 Pr 19 Pr 14 ke GE Pr 47 V F Pr 71 Pr 80 Pr 113 VWF Pr 81 Pr 83 Pr 84
98. Pr 59 0 Pr 4 Pr 6 Pr 24 Pr 27 Pr 232 Pr 239 Pr 59 1 2 ERRE PA Pr 79 Pr 200 Pr 201 Pr 210 Pr 211 ai errs i KENS Pr 220 Pr 221 Pr 230 Pr 231 Pr 270 1 3 0 Pr 270 Pr 275 Pr 276 1 3 Pr 59 0 Pr 4 Pr 6 Pr 24 Pr 27 Pr 232 Pr 239 Pr 59 1 2 EBRE 79 a Pr 79 Pr 200 Pr 201 Pr 210 Pr 211 Des o ie Oe ae Pr 19 Pr 220 Pr 221 Pr 230 Pr 231 2 Pr 44 Pr 50 Pr 270 1 3 1 Pr 270 Pr 275 Pr 276 Pr 59 1 2 Pr 79 Pr 200 Pr 201 Pr 210 Pr 211 ET Pr 220 J0G Pr 15 Pr 16 1 2 3 4 5 7 Pr 59 0 Pr 4 Pr 6 Pr 24 Pr 27 Pr 232 Pr 239 A J R REX 15 RL RM RH 3 Pr 4 Pr 6 Pr 24 Pr 27 Pr 232 Pr 239 EAE 4 m 5 s 6 cs 8 RE 9 x 3 FR H0 15 BR pr278 pr25 S C FR A5AP X22 11 FR A5AP LX P 12
99. 4 e 5 MRS PU MRS PU Pr 79 7 RS MRS Pr 79 7 MRS PU MRS PU Pr 17 Pr 17 2 AERA iH A RONE HOFF OFF ON 4 1 Pr 79 8 Pr 180 Pr 186 X16 PU Pr 180 Pr 186 134 2 PU X16 X16 PU Oo PU OFF PU
100. 1 2 1 2 1 2 1 2 1 LED 2 1 Bo 2 1 176 sesmmeatsce ol Re Sb AME Ae Ze Je R S T E 1 R S T U V W 2 3 1 2 emits O R S ToP N U V We N 177 x100Q
101. 1 2 RE Tm 1 TMNT 1 TUNE 2 TUNE 3 COMPIETION TOUT STOP PU STF FWD PU STF STOP PU TUNE ERROR 9 WH HNL STF STOP PU TUNE TUNE 103 101 102 COMPIETION TOR PU STF FWD PU STF STOP PU 1 25 40 2 30 4 1 Pr 96 3 103 9 91 92 93 8 2 PU Sec STF STR PU 3 4 ee
102. GER PU 1 PU 1 PU D PU 1 PU 3 _PU PU PU 1 Pr 79 7 PU Pr 180 Pr 186 X12 PU
103. V F 5 V AF Pr 60 V F 5 Pr 3 Pr 19 Pr 19 Pr 19 9999 Pr 71 2 5 V F Pr 71 2 Pr 47 Pr 113 Pr 71 2 Pr 110 Pr 111 Pr 7 Pr 112 Pr 0 Pr 113 Pr 3 Pr 114 Pr 115 Pr 48 Pr 116 Pr 42 4 2 41 Pr 117 Pr 124 Pr 117 Pr 118 Pr 119 Pr 120 Pr 121 Pr 122 Pr 123 Pr 124 CR LF RS485 FR SWO SETUP WE PU RS 485
104. E 001 16 RF Fl fe A 2 2 3 1 1 SD SE 5 1 0 2 200V 3 4 0 75mm 1 25mm 2 M3 5 1 2N m A e po a ioe 10 2 s 4 A 3 1
105. OHz OFF ON Pr 30 2 A Pe a 145 4 2 60 Pr 270 271 Pr 272 Pr 273 Pr 274 Pr 275 276 PWM
106. 6 7 162 5 2 5 A D ax O a Oe ch a mag e REV FWD 21 5s SET 6 2 5 B 4 5 5V 2 5 jay 5v 2 5 ri pi 1 TN i JR 2 e Se REV FWD y al cece w 100 7 2 5 4 5 4V 80 5V 100 2 5 E OEI S OU 0 Ad OV OmA 0 5V 10V 20mA 100 cog S S oe 1 5s REV FWD SET TA 8 9 Pr 79 Pr 903 Pr 905 Pr 20
107. O ON 2 12 FR A5AX RL RT ON Pr 6 Pr 180 Pr 186 152 4 2 63 Pr 278 Pr 285 44 ee 3 z7 eer DEERE P 7 44 Zz i EAA _60 Pr 280 80 Pr 281 81 180 Pr 186 Pr 282 190 Pr 195 Pr 283 Pr 284 Pr 285
108. P1D 2 5 Pr 133 4 5 1 5 Pr 128 10 11 0V 0 5V 100 Pr 73 1 3 5 11 13 15 2 5V Pr 73 0 2 4 10 12 14 2 0 7 i 0V 0 10V 100 10V Pr Pr 73 2 3 5 12 13 15 5V 10V 100 0V 0 10V 100 RE ge O 1 4 10 11BR14 R GAFN F 4mA 0 20mA 100 5V 100 0V 0 5V 100 120 REE 0 1211000 PID 9999 0 1 3600s 0 100 0 100 9999 PU PID 0 100 33 9999 P1D 132 1 6 1 4
109. Pr 71 3 IE Pr 71 13 e SF JR 4 1 5kW Pr 71 23 Pr 83 Pr 84 Pr 80 Pr 81 400V 50Hz 99 71 G1 0 500A oa N N N 16 N 17 0 1000V 50 120Hz 9999 0 9999 0 9999 0 9999 94 96 2 1 9999 0 100 A V F 5 SF JR4P 1 5kW Seine Seine SF JR4P 1 5kW SF JR4P 1 5kW a ji
110. Pr 22 170 A A Pr 24 Pr 27 Pr 4 Pr 6 4 2 13 Pr 28 Pr 28 Pr 59 Pr 73 0 5V 0 10V 1 2 1 Pr 73 0 5V 0 10V 2 Pr 73 4 5 14 15 2 68 4 2 14 Pr 29 Pr 140 Pr 143 Pr 29 Pr 140 Pr 141 Pr 142 Pr 143 3
111. Pr 54 FM 55 ui i 56 Pr 158 AM 170 171 900 FM 901 AM o FR DU04 FR PU04 FR PU04 FM AM e FM AM Pr 54 Pr 158 gt 8 ew Pr 70 Pr 56 800V 13 x 2 14 x 2 xe 6 8 oa x x x Ze FW ih 1440n2 east AW 5 x on 2 w ss x x x 76 Pr 52 100 Hz LED
112. E 6 h FR PU04 Fault 6 CPU CPU ne TERA fas E 7 cof FR PU04 Fault 7 CPU os CPU Ne see PENETER E P24 cio 0 FR PU04 24V PC 24V 0FF RES ye PC E CTE FR PU04 PU P5S PU RS 485
113. RS 485 1 N 32 ASCI I 7 8 1 2 CR LF ENEE 107 enee RERE O O oo 0 2 31 192 48 96 8 0 1 2 Pr 122 z0 gt 117 artes PU 0 2 31 19200 7 a 2 4800
114. S 0 120Hz 0 10s 0 30 0 200 0 5VDC 0 10VDC 0 10VDC 4 OmADC 3 BCD 12 FR A5AX 15 0 400Hz 0 3600s GEI 4 20Madc 4 E PID RS 485
115. STR ON 0FF lt STOP ON FRH RM RL aS X k JOGAS ON STF STR Pr 180 Pr 186 wa Gn dengan RT ON 2 2 2 g CESS WF RT ON MRS ON 20ms RES 0N 0 1 AU ON 4 20mA Pr 180 Pr 186 FERRER CS ON F
116. Pr 278 Pr 285 30 01Hz Pr 80 Pr 81 3 0V3 Pr 8 REA 4 82 4 2 26 Pr 61 Pr 64 Pr 61 Pr 62 Pr 63 Pr 64 Pr 60 9999
117. 2 120Hz 3 2 Al D 10Q 3 400V60Hz 2 0 1 0 0 7 0 5 32s mt 9 3 A mA 63 04 JAJA L LL 1 5 3 7 7 5 15223755 2 2 5 5 11 18 53045 kW CV 1km 3 3 400V60Hz 120 100 80 60 ma 4 20 0535 8 142238 80 150 5 5 30 60 100 mm 1 3 5 5mm x70m 30 400V2 2kW 1g1 mA lgn mA 1g2 mA Progressive Super Series NV SP CF SF CP CA CS SS 5m ay i 0 11 3 1000m 0 70m x66x 1 54 1000m Lan mA 4
118. 52 DU PU Pr 53 PU Pr 80 81 PU FR DU04 FR PU04 PU 0 y o 0 2 4 6 8 10 102 gt Pr 37 50Hz Pr 144 2 4 6 8 10 100 102 104 106 108 110 Pr 37 Pr 144 Pr 144 102 110 gt Pr 37 1 9998 gt Pr 144 2 10 PU Pr 37 Pr 144 ek eas Santas Serge f Pr 37 Pr 144 4 r min Hz oo E 2 10 r min rm 0 mamn tz 1 998 lO daii
119. 6 9 200 9999 63 9 200 9999 64 9 200 9999 lt gt 1 Pr 61 9999 2 Pr 62 mm 150 180y 9999 100 0 200 0 200 3 Pr 63 on 150 180 9999 100 7 0 200 4 Pr 64 9999 2Hz 0 10Hz Pr 60 1 6 Pr 61 Pr 64
120. NB i gt _ o CLIO 1a TO Fa 28 RF Fl fe A 2 3 2
121. 1 2 FR A540 11K 55K 3 183 6 1 3 FR A540 0 4K 0 75K 1 5K 2 2K 3 7K CH FR A540 0 4K 1 5K CH mm 184 FR A540 5 5K 7 5K CH 2 06 FL 400V H m p m mm FR A540 11K 15K 18 5K 22K CH gt 400 i SY mm 185 FR A540 30K 37K 45K 55K CH 400V w m w n Wi he p m c mm 186 FR DU04 gt a
122. FR DU04 39 3 2 FR DU04 3 2 1 FR DU04 Snir Hz A LEDX4 e V pele ee O REV OJ FWD vone 4 rev rwo PE st ee pee t N FWD REV 3 2 2 40 3 wi 3 2 3
123. Pit Nas IILPr16 y L kL See STF ON STR FT S A Pr 3 3 Pr 15 Pr 13 65 4 2 11 MRS Pr 17 Pr 17 MRS MRS MRS ON ange o o2 ziS ul Pr 171 0 NMXC gt 0 CEMRE 2 Pr 18 Pr 1 Pr 2 Pr 19 B Pr 3 Pr 20 Pr 21 Pr 15 Pr 16 66 4 2 12 Pr 22 Pr 23 Pr 66 Pr 148 Pr 149 Pr 154 Pr 22 Pr 23 48 Pr 66 49 73 0 5V 0 10V Pr 148 OV TAB 7 ye 114
124. Pr 136 MC Pr 137 Pr 138 Pr 139 Pr 11 Pr 57 r 58 Pr 180 Pr 186 Pr 190 Pr 195 Uv EE 0 0 1s 0 100 0s 0 100 0s 1 o os 0 0 9999 0 60 0Hz 9999 0 Pr 185 7 Pr 186 6 Pr 192 17 Pr 193 18 Pr 194 19 R1 S1 MC1 e MC2 MC3 R S T 1 RI FA Pr 190 Pr 194 s1 sul ieli Pr 190 Pr 195
125. Pr 1802Pr 186 134 X12 MRS MRS PU 2 PU PU PU OFF PU lt FAX12 MRS gt wo eh Gang PU PU mE 3 gt gt gt gt 95 Pr 79 7 X12 MRS STF STR ON PU STF STR ON OFF STF STR ON X12 MRS
126. RUN SU OL IPF FU i ik TEP Pee 1 mA 16 60Hz 1440 s A ll J AA 1 mA R RS 485 gl S EIA_RS 485 a PU 8 19200bps 5 500m 1 PR PX FR A540 0 4K 7 5K 2 ON OFF 3 11 RF Fl fe A 2 2 2 1 1 2 22K 3 U V 4 5 2
127. lt gt Pr 90 Pr 94 E gt 1 Pr 77 801 Pr 80 Pr 81 9999 Pr 90 Pr 94 Pr 90 Pr 94 2 Pr 71 CPR REAL tu arma Rat ieni oe Di ap Pr 71 4 ESE nice sgnes Genie Do Omi Pr 71 14 SF JR 4 1 5kW 20 Pr 71 24 3 1 4 Pr 77 102 Pr 80 Pr 81 9999 Pr 90 Pr 94 Pr 90 Pr 94 9999
128. we 2 5 k TO Pr 202 se Se FR PU04 Rew RO 1 0 9999 2 4 80 59 59 3 KER 1 2 3 4 5 6 35Hz 20 Hz iol 0 1 3 6 7 30 9 4 y a 4 ic 10mA V He FEA ec lt 0 5V STR 0 STF 5 wR _ KET SU 24VDC 0 1A Pr 76 3 FU OL IPF 140 6 1 RH GHI RM H2 RL 3
129. 7 5K 1 3 2 FR A540 0 4K 7 5K e rE 1 2 PU FR DU04 FR PU04 1 2 FR A540 11K 22K e 1 2 3 PU FR DU04 FR PU04 Sy FR A540 30K 55K RED 1 1 2
130. STF STR STF STR 2 Pr 79 Pr 79 0 2 jos FR PU04 BE PU 1 8 5 2 9 FR DU04 5 2 10 5 2 11 STF STR ON BARD se He mee 1 5 Pr 77 174 5 3
131. 4 3 159 Pr 903 Pr 902 Pr 904 Pr 905 lt gt FR DU04 1 FR DU04 CONTROL PANEL MON EXT 2 PU Mone PU FR DU04 CONTROL PANEL FR Duo4 CONTROL PANEL 0009 5 DOU iON EXT PU PREV FWD FR DU04 CONTROL PANEL PU CONTROL PANEL FR DU04 FR DU04 moran HEL MON EXT MON EXT PU PU PG _ 2 ARDET BOAO RE EU p PY Pr 79 Pr 79 1 160 Pr 79 1 PU Pr 79 2 PU Pr 79 1 0
132. Pr 190 Pr 195i Pr 190 Pr 195 SU IPF 0L FU Pr 76 1 3 Pr 278 Pr 285 Pr 190 20 gt BOF RUN 91 2 4 2 34 Pr 77 Pr 79 7 0 1 2 Pr 77 PU GED Pr 75 Pr 77 Pr 79 1 Pr 72 Pr 240 2 Pr 77 2
133. oe Hz mA 0 100 PID X14 OFF Pr 128 20 21 1 5 2 5 Pr 79 5 P1D Pr 79 6 P1D Pr 22 9999 1 1 P1D Pr 22 9999 Pr 95 1 PID Pr 180 186 Pr 190 195 P1D Pr 902 Pr 903 Pr 1 Pr 2 123 4 2 43 Pr 185 Pr 139 Pr 135
134. wem ee H 3 5 Pr 77 Pr 80 Pr 81 9999 Pr 90 Pr 94 Pr 90 Pr 94 9999 Pr 71 103 mH Pr 92 Pr 93 gt 1 Pr 77 801 Pr 80 Pr 81 9999 Pr 90 Pr 94 HS Pr 90 Pr 94 Pr 82 Pr 99 2 Pr 71 PERI ienai Hoe Re aa Meee Di na ee Ae Pr 71 0 U a SA PRR eet ee a Pr 71 1 SF JR 44K 1 5kW ee Pr 71 20 3 90 Ri R2
135. 149 4 2 62 Pr 275 Pr 276 Pr 275 Pr 276 PWM Pr 4 Pr 5 Pr 6 Pr 48 Pr 72 PWM Pr 180 Pr 186 Pr 270 Pr 270 1 3 20 o 0 1 2 3 9999 0 1000 9999 9999 0 15 9999 gt gt TRR Cost Pr 4 Pr 5 H 4 eae Pr 6 Es N 3 lt gt lt a a b c ON RH OFF NFB ON She ps E Tee OFF 380 480VAC bol bd 9 RL ON s L DT Wh OFF RT oN so STF oe SARE I J T a RL RT 2 o o 1 sob RL O RL RT wih ieee 9 so LRT mene 2 SD a
136. V F V F V F V F1 V F2 V F3 V F4 V F5 V F 100 9999 0 400Hz 9999 101 0 0 1000V 102 9999 0 400Hz 9999 Pr 71 2 103 0 0 1000V Pr 19 9999 104 9999 0 400Hz 9999 105 0 0 1000V Pr 60 1 8 106 9999 0 400Hz 9999 107 0 0 1000V 108 9999 0 400Hz 9999 109 0 0 1000V a JE A Pr 19 Pr 0 i 0 V F Pr 3 lt i E gt 1 Pr 19 Pr 60 Pr 71 9999 106 2 Pr 100 Pr 109 FIAF2AF3AF4AF5 lt Pr 19 9999
137. GE 1 0L E 0LT E OLT Pr 156 Pr 154 0 101 100 131 4 2 48 0L Pr 157 Pr 157 0L RUN SU 1PF 0L FU A B C0 0L
138. mA SF JR 4P 50m 100m 14 5Hz 2mm 4 Pr 9 PWM Pr 240 31 H of 2 3 4 400V PWM 400V 400V 1 400V 1 400V 2 2 FR ASF H 32 RF Fl fe A 2 3 5 1
139. 1440 s Pr 56 o AM 10V Pr 901 10V 1 FM 1 FM SD FM 2 0 3 Pr 54 1 3 5 14 17 18 21 Pr 55 Pr 56 1440 s 1440 s 2 AM 1 0 10VDC AM 5 AM 2 Pr 158 1 3 5 14 17 18 21 Pr 55 Pr 56 10V 3 100 Pr 158 21
140. ASC11 Pr 123 9999 ARR RRRDL 2 STX ETX pe 0 1 1 7 7 0 3 0 ASC11 H02 H30 H31 H31 H37 H37 H30 H03 H33 H30 gt L H H H H H H 30 31 31 37 37 30 130 L 7 NAK 115 EA A Pr 0 Pr 99 Pr 100 Pr 905 Pr O Pr 96 Pr 100 Pr 158 Pr 200 Pr 231 Pr 900 Pr 905 Pr 160 Pr 199 Pr 232 Pr 287 Pr 300 Pr 342 Pr 990 Pr 991
141. PLG RUN FU FU2 FU3 2 Pr 190 Pr 195 Pr 44 Pr 45 Pr 7 Pr 46 Pr 0 Pr 47 Pr 3 4 2 20 Pr 48 Pr 49 Pr 114 Pr 115 Pr 48 Pr 49 Pr 22 l 23 Se arene Tuer Pr a Sa aes x 3 Pr 66 Pr 154 Pr 180 Pr 186 R Hh gt 0 200 f 0 400Hz 9999 Te mn 0 400Hz ite Pr 49 Pr 115 74 2 gt Pr 48 Pr 114 Pr 49 Pr 115 X9 ON Pr 114 Pr 115 Pr 180 Pr 186 9 X9 EE EET
142. 0 1A 0 400Hz 9999 0 01Hz 9999 1B 0 400Hz 9999 0 01Hz 9999 2A 0 400Hz 9999 0 01Hz 9999 3A 0 400Hz 9999 0 01Hz 9999 3B 0 400Hz 9999 0 01Hz 9999 29 30 31 32 33 34 35 36 37 JE Z JE Z JE Z 0 400Hz 9999 9999 JE Z JE Z kl 0 1 9998 N N N CD 1 0 100 10 4 0 3600s 0 360s 5s 1 1 1 1 1 45 0 3600s 0 360s 9999 0 1s 0 01s 9999 1 1 1 1 1 N CD 46 GE 0 30 9999 9999 V F 1 0 400Hz 9999 0 01Hz 9999 0 alo olin 8 0 200 150 9 0 400Hz 9999 on O 50 0 400Hz ooz 52 0 20 22 23 24 25 100 1 53 PU 0 3 5 14 17 18 1 1 54 FM 1 3 5 14 17 18 1 1 1 55 0 400Hz 50Hz 56 0 500A 0 01Hz 30Hz al wy WIN CO D ID Q o N N N CD ea a 78 50 57 58 59
143. 3 Pr 75 4 Pr 77 7 wae ALL i PU giii 4 aja ABS Rell Rely Pell eed el N 2 Ne x x Ned ed SS z xX AA ajja xg AA i z x ezl at x PU i ica as Bi z ki 5 6 8 HRES 116 4 2 42 PID tl Pr 128 Pr 134 Pr 128 P1D Pr 129 PID Pr 73 0 5V 0 10V Pr 130 PID Pr 79 pr 131 EBR Pr 180 Pr 186 Pr 190 Pr 195 Pr 132 Pr 902 Pr 905 Pr 133 PU P1D Pr 134 P1D
144. 5 D 2 111 3 10 OPEN COM1 9600 E 8 2 HD AS 1 20 COMST1 1 1 COMST1 2 1 RS ER ON OFF 30 ON COM 1 GOSUB REC 40 COM 1 ON 60 S 0 70 FOR 1 1 TO LEN D 80 A MID D 1 1 90 AASC AS 100 S S A 110 NEXTI 120 D CHR amp H5 D R IGHT HEX S 2 130 PRINT 1 D 140 GOTO 50 1000 REC 1010 IF LOC 1 0 THEN RETURN 1020 PRINT RECEIVE DATA 1030 PRINT INPUT LOC 1 1 1040 RETURN 10 7 o 1000 9 _ WA
145. 1 FR PU04 FR PU04 A 0V 0 163 4 2 67 Pr 990 Pr 990 1 90 i 0 0 1 164 H A HO 5 T ee a EEEE 165 DD HA ee a es 173 5 3 175 5 1 PU
146. 2 Pr 199 9999 ET HEI 5s 1 Pr 902 Pr 905 2 3 FR DU04 4 Pr 201 Pr 231 137 4 2 54 Pr 200 Pr 231 Pr 200 Pr 201 Pr 210 1 1 10 Pr 76 Pr 211 Pr 220 2 11 20 Pr 221 Pr 230 3 21 30 Pr 231 Pr 79 5 10 1 Pr 201 P
147. 1 oo 1 2 ER w r tam 9999 65535 an 9600 1 n 0 150ms 9999 gt 1 MRE MRS RES LF Pr 190 Pr 195 s CR LF CR LF 2 ved RT e eaea u Ea l 108 1 2
148. 4mA 0 C 20mA 50 C 25 C 2 5 0 5V es 25 C Pr 128 X14 PID re 4mA 0 C 20mA 50 C 4mA 0 20mA 100 25 C 50 ane 0 SV 4 20mA 50 2 OV 0 5V 100 2 5 FMEA Z SV EIRE see PU Pr 133 0 100
149. 6 H 29 RF Fl fe A BERERE 1 2 3 4 5 6
150. EXT PU PU EXT PU PU FR DU04 corre CPANEL FR DU04 CONTROL PANEL LOLOL e Mon EXT PU FR pias CONTROL PANEL e000 uu MON EXT LEE 3 2 4 GE 3 1 1 1 5 2 2 se 1 5 4 3 3 2 4 PU N FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL rt aa zma mnm i NR wiht SDD A FR DU04 CONTROL PANEL Hz MON EXT PU MON EXT PU MON EXT PU REV FWD REV EF nev Fw EXT Pu REV Pwo fre AG 5 3 2 5 41 3 2 5 v
151. Pr 158 2 157 gt FR DU04 1 PU 2 3 Ser 4 Pr 900 FM Pr 901 AM 5 FWD 6 C O 7 4 Set 1 5 8 mr Pr 900 50Hz 1mA FM 1440 s FM 2400 s FM SD 100Hz FM Pr 55 FR PU04 FR PU04 158 Pr 902 Pr 903 Pr 20 Pr 73 0 5V 0 10V Pr 904 Pr 79 Pr
152. 0 Pr 1 Pr 18 2 ON Pr 44 Pr 45 Pr 7 Pr 8 3 STF STR OFF RH RW ON A 81 4 2 25 Pr 60 Pr 60 0 7 8 13 19 80 Pr 81 278 Pr 285 V F o eae ler
153. 1 SD 2 AY 30 3 ES Saal ARH REE A 4 8
154. 1E6664 a 11 EN 1EC b 2 1P54 EN60204 C A B C 30VDC 0 3A BCN A21041 203 36 3 1 IRERE i 37 3 2 i 40 3 46 Ar amp Hk 3 a HOH 3 1 3 1 1 pa i aia PU FAAS TF 1
155. 2000 5 IB NA 66851 C 8 tn Pr 251 Pr 252 Pr 253 e Instructions for compliance with U S and Canadian Electrical Codes Appendix 2 Pr 156 101 E 6 E 7 UL cUL
156. 4 1 1 We FEIRA GEI 0 30 ee 0 120Hz 120Hz 0 120Hz OH 0 400Hz 50Hz 0 400Hz 60Hz 0 400Hz 30Hz 0 400Hz em N alo lt oo 0 3600s 0 360s 5s 15s 5 0 500A z l 0 10s 8888 0 5s wz i O CD D D Zz IZZ H 0 60Hz 0 5Hz 0 5 0 400Hz 5Hz 0 3600s 0 360s 0 5s 120 400Hz 120Hz 0 1000V 8888 9999 9999 20 1 400Hz 50Hz 21 22 0 200 9999 150 67 67 0 3600s 0 360s 5s 15s 5 0 120Hz 9999 3 D a 12 13 14 15 17 z 0 30 4 2 GES lt 2 oS N ala fon fo ala ye a Co Go a A Me N wo D 0 400Hz 9999 0ollz 9 eo 5 0 400Hz 9999 oollz 9 eo 0 400Hz 9999 ooz 99 e 0 400Hz 9999 ooz 999 e o e 24 25 26 27 28 1 0 1 2 3 2 Esc ooz Oo
157. FR A5AP r 80 Pr 81 Pr 359 Pr 369 Pr 370 9999 aS eae eee Pr 59 1 2 Pr 79 5 FOPr 270 1 3 RL RM RH RT RH RM RL AU HC MRS VAF RT 7 165 Ep ieee Pr 270 1 3 RT
158. Pr 140 2 Pr 143 1 Pr 3 Pr 20 Pr 7 Pr 8 2 Pr 29 3 Pr 140 Pr 143 3 69 4 2 15 Pr 30 Pr 70 Pr 30 Pr 70 180 RL Pr 181 RM Pr 182 RH Pr 183 RT Pr 184 AU Pr 185 J0G Pr 186 CS 7 5K FR ABR FR HC so o oa 0 15 0 4K BI 1 5K 70 o 0 30 2 2K 7 5K 11K gt 1 Pr 30 0 Pr 70 FR A540 0 4K
159. STF STR ZG 2 PU PU FR DU04 FR PUO4 FR DU04 FR PU04 FR CB2 RJ45 E1A568 10BASE T 3 PU PU 1 PU 2 PU FR DU04 FR PU04 37 SS 1 e MEIERS 0 5V 0 10V 4 20mA 2 FR DU04 FR PU04 FR CB2
160. EXT Y STF STR ON FWD REV ON 0N 50 00Hz 0 00Hz STF STR 2 STF STR 1 Pr 15 Pr 16 2 3 STF STR Pr 180 Pr 186 47 3 3 3 PU FR DU04 1 50Hz 2 3
161. O 0 99 100 199 136 PLG FR A5AP SU Fu FU2 FU3 SU FU PLG FU FU3 Pu gt Y SU 0s Pr 79 lt 5 0 99 100 199 Pr 190 Pr 195 Pr 76 1 3 SU 1PF 0L FU Pr 76 RUN Pr
162. Pr 79 Pr 902 Pr 905 Pr 13 Pr 1 4 5 ALARM Pr 15 Pr 13 9 2 2 U V W 5 2 3 Pr 1 Pr 2 Pr 902 Pr 905 Pr 19 5 2 4 Pr 0 Pr 46 Pr 112 173 5 2 5
163. R R1 S S1 R1 S1 R S T RIE Bah IESE FERN P R S T R4 S4 T4 X10 X11 Pr 180 Pr 186 FR HC FR HC 5 FR RC GEE FR BAL FR RC RAAN P N FR RC Pr 30 0 FR RC NFB FR BAL 2 SE 1 7 5K PR PX 2 FR BAL en ay
164. o Lo o S PU Oo OO OT _ RS 485 si R1 24V C FR BEL FR ABR O STF CSTR PR PX 0 4K 7 5K O STOP 4 DC4 20mA t 1 ORM ORL DJG i CORT RUN i MRS SU l ORES i IPF OAU i OL AE I i OCS FU GRE SD SE Pe Re a ee AR O10E t0 i Swen ere FM Goce a ae DCO 5V gta nooo ma oo Em E 1 amkoL i tory 5 AM DCO 10V DCO 5V Wo C 1 DC0 10V FR DU04 FR PU04
165. 9 gt le ECIN P a rR 177 5 3 7 TASH an OD EAFREXRN WARE HERFRA 10 000 35 000 2 3 HHEN gt s y godd MAUN TY D t oii MPN Oy RS nt Ann E RN 1 NN 1 A he 2 z 3 ETARA i
166. Pr 150 SE 1 100ms 2 3 Pr 190 195 128 4 2 45 Pr 152 Pr 153 Pr 152 Pr 190 Pr 195 0 0 Pr 152 Pr 153 Y13 Pr 190 Pr 195 Y13 0 200 0 OFF ON Pr 152 Tooms GE 0 A OFF ON oFF on Y13 re Pe Pr 153
167. Pr 71 2 V F 5 Pr 47 Pr 113 RT X9 Pr 180 Pr 186 134 59 4 2 4 Pr 4 Pr 6 Pr 24 Pr 27 Pr 232 Pr 239 Pr 4 Pr 5 Pr 6 Pr 24 Pr 27 4 7 Pr 232 Pr 239 8 15 Pr 1 r 2 Pr 15 r 28 Pr 79 r 180 Pr 186 me Uv v RH RM RL REX Pr 15 Pr 1 Pr 2 18 PU Pr 79 3 4 a 6 oga 24 HE 4 5
168. 0 0 1 5s 9999 9999 79 0 60s 0 1s 1 eo 0 500A 9999 0 01A 9999 Qjo 3 9999 9999 0 200 0 200 0 10Hz 9999 64 65 0 5 0 400Hz 0 01Hz 1 1 0s 79 2 9999 9999 0 01Hz 67 EE 70 0 15 0 30 0 9 no o 8 13 18 20 23 24 1 o 0 15 1 73 0 8 PU PU 0 3 14 17 2A 0 10 101 110 0 2 10s 0 1 2 3 2 zx CED 0 0 GES 75 76 77 78 79 N N it 95 o ono 1 o fa 100 101 102 103 105 106 107 108 V F1 GE V F1
169. 4A 4E PWM 58 283 BOT BST 2 5 oe s b a Lo ee e ee ZOE taea BCD N BC CD Co N a ajajajaja aje lt SLO RloOlsms o m DINID N N z Ij Fn gt 3 mo 40 we 81 82 83 84 85 8 A C 0 Y2 Y6 8 8 8 FE iad HSE FE SS 93 lt co Co Os n m 194 7F FF RA2 24 al gt gt gt gt gt gt gt gt j oj o yjojajAjvjnNnj lojln m gt gt mm gt E PROM FM AM LCD
170. LI1 L2 X 4 Pr 84 arte 84 50 120Hz 5 Pr 77 Pr 80 Pr 81 9999 Pr 90 Pr 94 Pr 90 Pr 94 9999 Pr 89 Pr 80 4 2 39 Pr 95 Pr 95 Pr 71 Pr 80 Pr 81 Pr 83 Pr 84 Pr 89 Pr 90 Pr 94 96 Pr 80 Pr 81 Pr 95 o
171. Pr 180 Pr 186 aa 0 400Hz 19 9999 0 1000V 8888 95 8888 9999 9999 9999 0 400Hz 9999 9999 9999 0 400Hz 9999 9999 gt Pr 19 Hz gt Pr 3 Pr 47 Pr 113 lt i E gt Pr 3 Pr 47 Pr 113 RT ON Pr 47 VF X9 ON Pr 113 VAF Pr 180 Pr 186 X9 4 Pr 19 Pr 3 50Hz Pr 80 Pr 81 Pr 3 47 113 Pr 19 Pr 84 Pr 838 RL
172. 0 3mm BA SG Sib SG FG 2 RS 485 n 1 OBASE T 25 2 ean PU 100Q 22 of W att 2 2 5 1 P PR PR PX
173. 59 99 59 0 Pr 231 2 STR Pr 231 0 3 Pr 201 Pr 231 No 1 Pr 201 2 Pr 202 3 Pr 203 4 Pr 204 10 Pr 210 No 11 Pr 211 20 Pr 220 No 21 Pr 221 30 Pr 230 0 1 2 o 99 59 0 201 230 139 gt No 1 30Hz 4 30 1 Pr 201 2 Pr 201 1 GERE ser FR PU04 we 3 30 30Hz gt lt FR PU04 we 1 4 4 30 FART Ser FR PU04
174. 83 4 2 27 Pr 65 Pr 67 Pr 69 Pr 665 Pr 67 Pr 68 Pr 69 a a a eT Ga TL el o ow i 101 110 0 10s 1s gt Pr 65 84 Pr 67 pT Pr 68 0 10 Pr 69 0 1 4Pr 69 Pr 68 4 1 2 Pr 68 FR DU04 FR PU04
175. PU e e e REV Fwo LU REV Fwo B REV FWD F 3 2 7 GE 174 42 3 2 7 CONTROL PANEL FR DU04 IZ 3 2 3 1 asaz ial GA E ier FR DU04 controL PANEL FR DU04 contor panEL EH isp MON EXT PU Rev FWD FR DU04 contor PANEL FR DU04 EnH FR DU04 E MON CONTROL PANEL FR DUQ4 covrrorPaner CONTROL PANEL FR DU04 corrorPaner O FR DU04 contor panEL Ei PFE FR DU04 contor PANEL fy 2 2 CONTROL PANEL FR DU04 r Hz SET ANS FR DU04 MON CONTROL PANEL 43 CONTROL PANEL FR DU04 CONTROL PANEL iz fy te ME 3 Pr 77 1 FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL moms e Hz He miro me LL MON EXT PU ON EXT PU Rev Fwo PREV IF
176. Pr 71 3 13 23 1 5kW Pr 71 4 4 24 kkk Pr 90 Pr 90 2516 2642 2516x1 05 2641 8 Pr 92 Pr 93 Q mH Qj Pr 92 Pr 93 gt 1 Pr 77 801 Pr 80 Pr 81 9999 Pr 90 Pr 94 HS Pr 90 Pr 94 2 Pr 71 A
177. 2 a bi SC bi 0 10V 0 60Hz 0 01Hz JES E 0 10V 1 400Hz 0 01Hz OHz 905 mm 990 ol 1 FR PU04 Pr 80 8149999 Pr 60 7 8 Pr 80 8149999 Pr 77 801 Pr 270 1 3 Pr 80 81 9999 Pr 29 3 Pr 77 0 Pr 72 Pr 240 0 4K 0 75K 1 5K 3 7K 5 5K 7 5K 11K 0 4K 1 5K 2 2K 7 5K 11K 54 4 1 2
178. 4 Appendix 2 Instructions for compliance with U S and Canadian Electrical 1 Mt 7 RBG RAE ua il ERT TED mS we od eA 0 0 0 7 13 14 15 17 18 22 24 4 25 26 28 29 30 20 22 DM FE gE SS MN FS Bk SS Co wo 2 03 4 5 07 on 00 E F 92 0 0 25 41 43 2 AC 45 H 2 Ap 0 46 Ie VF bo oR a a 0 30 B 0 31 1 o ose 0 52 Du PU 34 0 LES 54 FM 3 B 57 31 32 33 34 35 36 37 gt gt w gt w N NIN N m a et es lt
179. O O ie E PUE RES sf 1 Bo 112 a H0000 H7B H0001 H0002 PU H0000 H0001 H0002 PU H0000 HFFFF 0 01Hz DE Pr 37 1 9998 Pr 144 2 10 102 110 1r min H0
180. se 1 5 Pr 79 2 1 PU Pr 79 94 ong Nn nm UL I CO Le Sens a x72 4 xE Q lt Q 3 2 6 minute UNI 6 a 600 ser ib I 0 0 9 0 9 ser 1 5s og fe E 4 FwD REV zoe k aa REV FWD EG F Bk A248 STR 0FF v Pr 79 1 PU _3 ALP Gc Ser 1 5 ES 3 2 6 PU
181. 5V 5V ba ae ov ose 1 2 4 1 4 2 50 150 0 5V 0 10V 1 4 2 4 Pr 903 Pr 905 Pr 73 Pr 22 9999 1 88 4 2 31 Pr 74 Pr 74 0 8 1ms 1s
182. Pr 0 Pr 46 Pr 112 5 2 6 Pr 1 Pr 0 Pr 46 Pr 112 P P1 5 2 7 0 2Hz 1 2 3 Pr 80 Pr 81 30m V F 5 2 8 1
183. 0 100 0 100 e Pr 41 gt 4 2 19 Pr 42 Pr 43 Pr 50 Pr 116 Pr 42 Pr 43 Pr 116 FU FU2 FU3 8s arie o e o ogs 50 soz osm S O 9999 0 400Hz 9999 9999 73 gt Pr 434 9999 Bt Pr 42 Pr 43 pr 42 if Pr 50 Poa Pr 116 4 gt th ae A Pr 43 Hz Rae Pr 50 out Fu Fuz Fua EEL on forF on OFF Pr 190 Pr 195 FU2 FU3 1
184. 200 AZ Saaee E 003 a TA FR PU04 0C During Dec 200 E OV1 E Er i f FR PU04 OV During Acc 165 E 0V2 ti Ww FR PU04 Stedy Spd OV
185. Co w Co m ojo oln Im gt CD Co mal i Ii At Re Si i et Be BS WO a 7F FF 180 181 182 183 184 AU 185 JOG 186 CS 190 191 192 193 194 195 199 ul 2 2 2 2 2 2 2 2 2 2 210 211 212 213 215 216 218 219 35 11 236 37 13 238 239 15 FF F F F FF F F F F F F F F F 214 F F F F F F F F F F F F F F F 3 217 mo a mo mo mo mo E 3 LJ BIZ er jet BIZ E ra BIZ 00 01 02 03 04 05 06 07 08 09 20 21 22 23 24 25 26 27 28 29 30 31 2 33 34 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 N N 193 Soa ee 20 PW TP 244 C 251 3 8 2 3 253 262 TST 263 o co 2 OE 1 2 4 2 f
186. FR A5AP Pr 60 758 Pr 285 4 2 64 Pr 286 Pr 287 Pr 286 i fn a Pr 287 Pr 9 Pr 71 Pr 84 PLG FR A5AP XxX eg ge ie x DN Eee 100 1 FR A5AP Pr 286 0 2 3 120Hz 4 Pr 9 ea REE Fes 286 0 0
187. Pr 7 Pr 8 Pr 20 Pr 44 Pr 45 Pr 110 111 FHA Eh 23 o 0123 3 0 1 2 3 S A S B A f2 Pr 142 font Pr 140 Pr 141 At2 60Hz fb S S A G1 S B f2 f1 S 2 3 nite
188. a r Oi 0 20Hz Pr 263 0 120Hz Pr 262 Pr 263 263 EN a Pr 262 Pr 266 Pr 20 0Hz ce Pr 266 Pr 20 0Hz 265 Pr 21 1 0 Se 360s 9999 Pr 264 266 0 400Hz Pr 264 Pr 265 Pr 263
189. bMone 40 35259 ey Cu Cl tt cl the E E ee RS Ee 41 BS DEAR AG FE Ss er EE ed ded E oes ed Be bette E ote 41 0 00 BN VS ey Bae ecb cco thos a cota etn e a esa op peat i co Ol Sh ech Shs ga ala es a 42 eE S AES EE S E E E E E E N AA SA AA 42 NEE ET E E EE cos a EE Te en ne Ae 43 PAA ALY E A A EE E E SEEE E E E 45 OB FETE EEE E E E E E E E etn a E E EE Ba ee 46 325301 FE EP AIE E atan a e a nn N 46 3 3 2 47 3 3 3 PU FR DU04 cece cece net e tect eee e ens 48 3 3 4 PU EEEE EEEE EEEE EEEE 49 WN BBN E oe oe ts a Sous Boa dead ee ole Beatle Sues oT Res ee be ee Pee Be 50 50 4 0 Se 55 x3 pis le ctl o er E 56 ADS IU BETA Sin oN an a ei al ee ees i OR RA et RAs ed a ka es 57 4 2 1 Pr 0 Pr 46 Pr 112 20 0 cece eee een e nent ete tent ent eneens 57 4 2 2 Pr 1 Pr 2 Pr 18 0 0 cece eee e eet tert este tnt enteneees 58 4 2 3 Pr 3 Pr 19 Pr 47 Pr 113 i 59 4 2 4 Pr 4 Pr 6 Pr 24 Pr 27 Pr 232 Pr 239 eee eee eee eens 60 4 2 5 Pr 7 Pr 8 Pr 20 Pr 21 Pr 44 Pr 45 Pr 110 Pr 111 i 61 4 PE oe cece eee eee b
190. n cS 0FF OFF ON 1 1 1 1 RB 1 1 1 1 1 MC1 OFF ON MC3 OFF EEE ON MC R gt Fil ep ae al A Pr 136 MC B Pr 137 MC3 Pr 57 Pr 58 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 126 3 1 e Pr 135 1 e Pr 136 2 0s e Pr 137 1 0s MC3 Pr 57 0 5s e Pr 58 0 5s 2 A OFF OFF OFF 2 i a lee sta OFF OFF OFF OFF ON OFF OFF ON
191. ser 4 FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL mee 1 oom mae N MON EXT PU MOI EXT PU REV FWD REV FWD 5 AD FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL ul bs E Hz LI BR dr MON JON EXT PU EXT PU Rev Fwo REV rwo 44 te ME wi 3 2 8 FR DU04 FR A500 1 FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL Pr e og MON EXT PU MON EXT PU REV Fwo FEV E Fw FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL MON EXT PU MON EXT PU MON EXT PU MON EXT PU REV rwo REV Fwo REV FW REV FWo 1 1 5s ser 1 1 5s G 1 FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL FR DU04 CONTROL PANEL
192. 400 Hz 170 130 iE Pr 149 WW oe 106 V V 1 5 67 gt Pr 22 150 Pr 22 0 Pr 66 Pr 23 ME Ty Pr 22 A Pr 23 100 A Bx ETETE x _ Pr 66 Hz x Pr 22 _ Pr 66 Hz x Pr 22 AR A abae Hz eS 400Hz Pr 23 9999 400Hz Pr 22 Pr 22 9999 0 5V 0 10V 1 Pr 73 10V 5V Pr 148 Pr 149 Pr 154 0 1 Pr 22 9999 1 1 2 Pr 156
193. 5 STF 6 A B 0 7 1 4 Es gt 27 2 3 Zs Fl few 2 3 1 RF RF 40 50 3kHz kHz WMHz aa EEE Lhd eee L F
194. P PR Es P PR 14 HE 1 2 PR PX FR A540 0 4K 3 7K 1 EI Tim PRAOPX_ EL AYR 22 2 P PR FR A540 0 4K 3 7K FR A540 5 5K 7 5K 1 0 Tim T PRAAPXEAJIR 22 2 P PR FR A540 5 5K 7 5K 23 Z ke PU f k 2 FR BU FR BU FR BR H FR BU H P N FR BU 7 5K PR PX 5m 10m
195. PU X12 ON PU X12 OFF PU X16 ON X16 OFF PU 3 4 PU 1 10 Pr 200 Pr 231 94 2 2 PU FR A5NR PU 1 PU GER D
196. Pr 136 Pr 137 PU STF CS MRS 0H PU Pr 79 7 Pr 180 186 Pr 190 195 Pr 140 Pr 143 Pr 29 Pr 144 Pr 37 Pr 148 Pr 149 Pr 22 127 4 2 44 Pr 150 Pr 151 Pr 150 Pr 151 Pr 190 Pr 195 o Pr 150 Pr 151 Y12 Pr 190 Pr 195 Y12 0 200 0 151 o 0 10s 100ms E I ON OFF gt lt gt 100
197. 0 1s 1 0 360s 0 01s RT ON Pr 44 Pr 45 X9 ON Pr 110 Pr 1 Pr 180 Pr 186 X9 Pr 110 9999 61 Pr 7 Pr 44 Pr 110 0Hz Pr 20 Pr 8 Pr 45 Pr 111 0Hz Pr 20 11 RT X9 ON Pr 110 Pr 111 Pr 45 Pr 111 9999 Pr 44 Pr 110 SE 1 S A 69 Pr 3 T Pr 3 s f REMA Hz 60 pase ye cre 0 Hz 5 2 Xf 91 120 200 400 s gt Pr 20 Pr 903 Pr 905 Pr 903 Pr 905 Pr 7 8 44 45 110 111 lt 0
198. 1 3 3 RED 1 2 A 3 PU 20 GE AR ob F Pr A a et ae Aa te 7 DD 9 2 3 Hee ccc cee ee 28 7 W 1 i gt 3 CC Hk Hk 2 1 2 1 1 1 2 VY 5 9m s
199. 180 ou do of ee PWM E T GERERE 0 400Hz RL RT RT RL lw ll mw a 2 0 5V d iis eee N AOA Pr 6 RL RT ON Pr 49 Pr 22 Pr 48 RL RT Pr 275 0 1000 Pr 72 PWM Pr 276 PW 0 15 O 15 9999 SA As a 151 Pr 270 1 3 RH RM RL RT JOG wt ee aT oe o eea pl C po eer ea pr o ees Pro a ov oam o i es Poe ee nr TY Too ee o o ra r 25 9999 Ee f fo pr e e e ool 1oOl PH Wr O PEE y Pre E e o S O
200. 6 Pr 24 27 Pr 232 Pr 239 76 180 Pr 186 200 Pr 231 PU FR DU04 FR PU04 PU PU PU FR A5NR ange fe ip ee 0 8 pu IP PU PU FR Duo4 FR_PU04 7 STF STR PU 2 ii 2 4 1 PU FR DU04 FR PUOA me ke 3 10 STF RH RM RL PU FR A5NR
201. FR PU04 1 FR DU04 Hz V A FR A5AP Pr 52 2 2 0 77 4 2 22 Pr 55 Pr 56 Pr 55 Pr 56 Pr 37 Pr 53 PU Pr 54 FM Pr 158 AM Pr 900 FM 901 AM FM AM PU 1440 s FM 1440 s FM 10VDC AM 10VDC AM PU PU Pr 56 gt Pr 55 Pr 56 a PU FM AM ee n Hz Pr 55
202. Hz ey Hz 64 RT Pr 80 Pr 81 RT ON 4 5 X17 RT Pr 180 Pr 186 X17 4 2 10 Pr 15 Pr 16 Pr 15 Pr 16 20 21 79 180 Pr 186 ON STF STR PU PU FR DU04 FR PU04 0 400Hz 0 3600s Hz Pr 20 e Pr 15 WEST gt
203. RT RT 155 155 9 owo E gt Pr 155 RT 4 2 47 Pr 156 Pr 156 22 23 48 49 114 115 154 157 0L ON OFF OL 15 o 9 3110010i 130 gt Betts OL Pr 156 _ O
204. 0 100 0s 0 100 0s 0 60 00Hz 9999 ERENT Ci oa os o fe ea 0 2 4 6 8 10 102 4 FR PUO4 OV 10V 0 i 1 RT 0 31 100 101 QL 0 25s 9999 i 3 D 130 130 132 1 N AM 124 3 5 2 14 17 18 21 0 1 10 11 BP ah Ee 0 Os 164 0 100 0 79 0 200 EE om ee o e AES ASHEN sam fi m RAS EE O o o 175 0 999 0 133 E Em O 1 0 133 N lt N lt 52 SEMEN SE mp EC Gr RL 0 99 9999 RM 190 191 193 A B 6 Ses ae 0 2 200 1 3 EES 0 2 0 400 9999
205. 0 4K 0 75K 6 1 5K 3 7K 4 5 5K 2 Pr 80 Pr 81 Pr 71 5 5K 7 OK Pr 0 1 Pr 0 3 Pr 71 0 2 8 20 23 24 1 13 18 Pr 0 2 2 Pr 0 2 Pr 71 1 13 18 0 2 8 20 23 24 Pr 0 3 zw AIL o RTX Pr 180 Pr 186 134 57 4 2 2 Pr 1 Pr 2 Pr 18 Prat Pr 2 Pr 18 Pr 13 Pr 903 Pr 905
206. 120Hz RK B FR SW0 SETUP WJ H15K H55K Po x CD N a HH a a 400V H FR 200VAC 50Hz 200V 220VAC 60Hz 115VAC 60Hz 2 3 FR A5AT 4 188 7 1 2 3 BCD 12 12 RE 26 7 EE FR A5AY FM AM 16 20mADC 5V 10V DCH 26 3
207. 2 o e 7 za G 1 i a pa 7 T n 71 fo x N a CD oS A au jen gt oe are Lilo Dayz CD a Ajax a HH oa a Be Gis h7 5k H55K 0 SVDC O 10VDC 1VA 2 1 5VA 5 3VA PG 2VA 35 5VA BVA 5VA MV 3VA 90VAC 90 2N1kQ B
208. 24V SD 18V 26V 0 1A 30m PC SD PC 24y 3 we 19 H of at 2 2 4 PU 1 gt FR CB2 GEE RJ45 5 554720 3 Nippon AMP E1A568 10BASE T SGLPEV O 5mmx4P 20m 2 RS 485 PU ee E PU gt SG SDA PIS RDB RDA SG SDB PSS 1 PU 2 2 8 PSS RS 485
209. 56 4 2 4 2 1 Pr 0 Pr 46 Pr 112 Pr 0 meen Pr 46 Pr 112 Pr 3 Pr 19 Pr 71 Pr 80 Pr 81 Pr 180 Pr 186 0 4K 0 75K 1k EK 5 5K 7 5K ee TIK DLE 9999 9999 9999 9999 Pr 0 Pr 46 pr 112 RES gt 0 Hz gt 100 0Hz 10 RT ON Pr 46 X9 ON Pr 112 X9 Pr 180 Pr 186 5
210. 5K s1 M4 M4 S P1 P M8 M8 M4 FR A540 11K 15K 18 5K 22K CH R1 s1 M4 O R S P M6 M6 14 3 R S T U V W ju by calle mS eae TE 1 75 C 2 4 BALES U V W U VW R S 15 RF Fl fe A 5 MO
211. 7 5K 2 2 FR ABR Pr 30 1 Pr 70 10 3 FR HC F 1 Pr 30 2 2 Pr 180 Pr 186 X10 FR HC FES FR HC RDY X11 FR HC FR A5NR 3 Pr 70 Pr 180 Pr 186 10 11 X10 X11 11K Pr 70 Pr 70 ED X10 MRS Pr 180 Pr 186
212. 76 4 2 53 Pr 199 Pr 199 Pr 77 16 FR PU04 19 0 0 999 9999 Pr 199 gt 1 Pr 7 1 Pr 8 2 FR DU04 1 Pr NEE 2 Pr 8 2 3 r 199 4 81 5s 5 Pr 7 Pr 8 Eik E 1 5 s o sit Laas pr 7 Pr 8 anelee Pr 199 Pr 7 1 Pr 8 2
213. HJA EHE BRI Pr180 Pr186 Co 1 Pr 60 7 BRI P 2 Pr 1802186 r 190 Pr 195 155 2 3 BOF FR DU04 LED FR PU04 PLG gt Pr 285 Pr 284 BOF ON 2 BOF 2 BR1 ON E WB6 BOF BRI OFF BOF OFF 2 BR1 OFF PLG
214. PU PS PU RS 485 PU PU PU Pr 75 A 90 4 2 33 Pr 76 Pr 76 Pr 79 Pr 190 Pr 195 Pr 200 Pr 231 4 PLC I as 0 3 gt sf ts 0 Pr 190 Pr 195 1 0 1 2 Pr 76
215. Pr 20 Pr 21 Pr 44 Pr 45 Pr 110 Pr 111 Pr 7 Pr 8 Pr 20 Pr 21 Pr 44 Pr 45 Pr 110 Pr 111 7 5K 7 0 3600s 0 360 EJ TIK e as 0 3600s 0 360s 7 5K eR 5 ik WE EE ee aaa E 7 5K TIK BLE 5s 0 3600s 0 360s 7 5K TIK BLE 9999 0 3600s 0 360s 9999 9999 0 3600s 0 360s 9999 9999 0 3600s 0 360s 9999 Pr 3 Pr 29 180 Pr 186 P r pO ea pe Se 0 0 3600s 1 0 360s is PP SS i PO 9999 9999 9999 Pr 20 T lt Hz Pr 7 Pr 8 Pr 44 Pr 45 Pr 110 Pr 111 gt Pr 21 0 0 3600s
216. Pr 271 Pr 272 50 100 100 60Hz 50 120Hz gt gt 1 Pr 270 2 3 2 FAPr 180 Pr 186 X19 3 Bik SH ea i a lie ea Pr 273 X 1 2 Hz Pr 273 Hz 273 Pr 5X1 2 Hz Pr 5 Hz 1 4000 msj 0 75XPr 274 12ms HX Pr 59 1 2 120Hz 120Hz 120Hz
217. 1 V F2 G V F3 V F3 1 V F4 V F5 V F5 1 0 400Hz 9999 0 01Hz 9999 106 0 1000V ov o 0 400Hz 9999 0 01Hz 9999 106 V F2 1 0 lv ow o0 w 0 400Hz 9999 0 01Hz 9999 106 0 1000V ow o 1 0 400Hz 9999 0 01Hz 9999 106 V F4 1 0 400Hz 9999 0 01Hz 9999 106 0 1000V ov o 1 1 0 3600s 0 360s 9999 0 1s 0 01s 9999 61 0 3600s 0 360s 9999 0 1s 0 01s 9999 61 0 30 0 9999 9999 113 115 V F GE Po 40H oom 0 x 51 K el tat H 0 31 48 96 192 Lye send 0 1 8 10 11 7 0 0 10 9999 0 0 1 999 8s 9999 0 150ms 9999 0 10 11 20 21 N N 0 1 1000 9999 0 1 3600s 9999 0 100 9999 0 100 9999 0 100 0 01 10 00s 9999
218. 100 287 0 3s 0 00 1 00s 100 E gt 286 0 287 156 4 2 65 Erit SUIT Pr 900 Pr 901 Pr 900 FM Pr 901 AM 54 FM 55 56 158 AM FM e FM Pr 900 FM Pr 54 1440 s Pr 55 FM ImA T1 DC8V k T2 T1 FA Pr 900 50Hz 1mA 12 Pr 55 FM
219. 252 os Pr 253 Pr 73 0 5V 0 10V 50 150 0 200 252 0 200 0 1 50 253 0 200 0 1 150 200 ee ai I OR a a ik PbO RSA Hee aS eee ees sar ar Pr 252 a Pr 253 50 150 50 0 i OV 2 5V 5V 5V 10V 2 5 144 4 2 59 Pr 261 Pr 266 Pr 261 ES r 26 ee o Pr ak aa Pr 12 Pr 263 Pr 20 Pr 264 1 Pr 265 2 Pr 266 R R1 S S1 R1 P 1 N ae 0 Joi S 4 l 0 20s t sen 0 120Hz 9000 Pr a2 0 3600 0 360s F Pr 264 1 Pr 265 9999 0 3600 0 360s 9999 a ce ge Pena fs 0 400Hz
220. 28 RH RM 44 PU RH RM PU 45 a 0o ong s Pr 59 1R s AA Pr 58284 NA ie ae ae OHz RH ON RW RL STF ON ON ON ON ON ON PU gt SR Eee CARED EPR 0 PC BA CT FAPr 59 RH RM RL RH RW RL RH RWM Pr 59 1 gt STF STR OFF RH AMR RM OFF 1 1 RH RM
221. 4 2 55 Pr 244 Pr 244 2 2K oa 0 01 FN FAN LF Pr 190 Pr 195 FAN LF 1 Pr 244 0 2 Pr 244 1 ON OFF Pr 190 Pr 195 142 4 2 56 Pr 250 7 Pr 8 Pr 44 Pr 45 Pr 110 111 Pr 250 STF STR OFF
222. 5KHz 181 H tak 6 1 i 182 w 1 Hk 6 1 kS Bs 6 1 1 400V kVA 2 1 5 19 3 46 69 917 13 17 5 236 29 328 43 4 54 65 84 25 4 6 9 12 17 23 31 38 43 57 7 86 _ 10 150 60s 200 0 5s 380V 480V 50Hz 60Hz BAG A ae aes mise athe te GD 380V 480V 50Hz 60Hz 323 528V 50Hz 60Hz 5 co 15 z5 4s ss im 2 2 oe oo JEM 1030 1P20 NEMA1 G7 1P00 AS IY kg Dy 3 5 35 135135 35 60 60 13 0 13 0 13 0 13 0 24 0 35 0 35 0 36 0 4 2 400V 440V
223. 905 0 5V 0 10V 4 20mA DC 0 5VDC 0 10VDC 4 20mADC Pr 902 0V Pr 903 Pr 73 Pr 904 4mA Pr 905 20mA 4 20mA 0 10V x 60Hz 0 10V 1 400Hz 0 20mA 0 60Hz 0 20mA 1 400Hz A 50Hz f 2e 2 i 1a Pr 903 Pr 905 Pr a Pr 904 i 2 0 100 Pr 73 73 0 sy 0 10V 4 20mA gt 1 3 1 2 5 2 2 5 3 2 3 1 4 2
224. Blo aje 190 i BA 7F FF 62 a CD 64 65 67 R DN 76 77 78 79 81 82 83 RE Abs in PWM 10V aa 70 71 72 73 74 75 100 101 INF 84 91 92 93 94 95 102 103 V F2 104 V F3 106 V F4 107 108 109 110 111 112 113 VF 114 115 116 FE aE HE Si I mW lt ae I HB 60 62 63 64 65 66 67 68 69 70 Oon 72 73 74 75 77 78 9 80 st 82 83 84 89 90 ot 92 93 94 95 96 100 tor 102 103 104 106 107 108 109 no e n2 13 ma 115 ne 191 164
225. Hz 0 4olz 10 A 3 is i edie i oan 8 1 1 1 14 15 1 N N Se Se de isi o gt RH ON ON ON ON y RM ON on oN ON R or or or on pex LON on on on on on Ton on gt 0 400Hz v BAG ser FR PU04 Pr 180 Pr 186 REX 2 5 4 5 PU 3 2 Pr 24 Pr 27 Pr 232 Pr 239 Pr 180 Pr 186 60 E ZF 4 2 5 Pr 7 Pr 8
226. PU MC3 MC2 enc ON OFF OFF ON ON OFF 2 MC2 MC3 OFF ON ON OFF OFF ON 4 3 fie ee mW oo oor o o om R1 S1 MC1 Pr 135 0 cael eee Pr 135 0 MC1 MC3 MRS CS STR MC3 Pr 137 MRS STF CS MRS CS STF STR IF MC2 MC3 MC2 MC3 Pr 136 Pr 135 0
227. Pr 13 Pr 13 5Hz 5Hz A Pr 13 Pr 2 ON 4 2 9 Pr 14 Pr 14 0 V F Pr 60 4 81 180 pr 186 o ona 0 os Pr 14 0 Pr 14 1 Pr 14 2 Pr 14 3 Pr 0 0 0 pr 0 A 100 100 100 100 R E p Pr of Prof EEIE i Hz
228. Pr 64 9 83 4 2 27 Pr 65 Pr 67 Pr 69 2 iaaeao 84 td deat coe esd Lak bone te beaig Sead lt 86 4 2 29 PW Pr 72 Pr 240 se eo e AA e eee eee enees 87 Ai 030 FAI AICP re 180 ee eds 88 4 2 31 A GEAR ATE BL Pr 74 rio aaa pei eee e e bbe een bet teenaeees 89 4 2 32 PU PU Pr 75 occ cece eee cee eee e eee eeeen evens 89 4 2 33 Pr 76 4 91 4 2 34 Pr 77 eee e een ebb teeter teeter ententees 92 4 9 35 see Dyk CREP 18 hed wise E oad we aga Ua Pade wheats Sadek mason ade peta EET 93 4 2 36 Pr 79 EEEE een eben eee b ben b teen ent EE 94 4 2 37 Pr 80 Pr 81 Pr 89 0 0 ccc eee eee e tenet eee eees 97 4 2 38 Pr 82 Pr 84 Pr 90 Pr 94 Pr 96 i 98 4 2 39 Pr 95 alll EEEE EEEE EEEE 104 4 2 40 V FH ISTE FREE Pr 100 Pr 109 op e ete e et ene tenes 106 4 2 41 Pr 117 Pr 124 eee eee e beeen eet en tent eney 107 4 2 42 PIORA Pr 128 Pr 134 00 cence ene eer 117 4 2 43 Pr 135 Pr 139 2 0 cence cnet ee bette eben eens 124 4 2 44 Pr 150 Pr 151 0 0 ccc ec eee cece eter eet b tee bte renee 128 4 2 45 TEAM Pr 152 Pr 153 ea a aa eee bene pi aia a een e
229. RRE H 5 5 5 Pr 37 6 6 6 a 1 A A A pr SE Pe 56 PU FM AM ule oo eee 1440 s 10V 1 FM 2400 s Pr 55 FM Pr 55 2 AM 10V 78 4 2 23 Pr 57 Pr 58 Pr 162 Pr 165 Pr 57 Pr 58 Pr 162 Pr 163 Pr 164 Pr 165 UVT 1PF arge Re a 0 0 1 a 9999 9999 Pr 164 gt es NOs CSF
230. TRREHSES Pr 7 Pr 8 Pr 20 Pr 21 Pr 3 Pr 1 Pr 2 Pr 18 50Hz Pr 903 Pr 905 Pr 73 Pr 902 Pr 903 Pr 904 Pr 905 Pr 0 Pr 80 Pr 81 Pr 10 Pr 11 Pr 12 a OR ae Pr 26 Pr 27 Pr 232 Pr 233 Pr 234 Pr 235 Pr 15 Pr 16 Pr 31 Pr 32 Pr 33 Pr 34 Pr 35 Pr 36 Pr 57 Pr 58 Pr 60 Pr 135 Pr 139 Pr 42 Pr 28 Pr 73 Pr 80 Pr 81 A Pr 7 Pr 8 Pr 44 Pr 45 Pr 46 Pr 47 Pr 110 Pr 111 Pr 112 Pr 100 Pr 109 i Pr 117 Pr 124 T PID Pr 128 Pr 134 Zs Pr 140 Pr 143 Pr 150 Pr 153 Pr 200 Pr 231 Pr 271 Pr 274 Pr 275 Pr 276 Pr 286 Pr 287 Pr 72 Pr 240 Pr 54 Pr
231. V F Pr 80 Pr 81 PLG PLG Pr 37 0 Pr 144 0 4 60Hz 1800r min PU PU PU PU Pr 52 Pr 53 4 9999 A 72 4 2 18 Pr 41 Pr 41 Pr 190 RUN Pr 191 SU Pr 192 1PF Pr 193 0L Pr 194 FU Pr 195 A B 0 SU
232. ce ie FR PU04 PU Leave Out PU Pr 75 PU PU 2 3 16 17 PU Pr 121 9999 RS 485 PU DU PU 9 Pr 75 DU PU E RET r pa r FR PU04 Retry No Over E CPU E r D H FR PU04 CPU Fault CPU ie od ee RAR BEZA i i FATER 168
233. gt 1 RS 485 RS 485 10BASE T 2 20 Z ke P f k GE 1 0 RJ45 Nippon AMP 5 554720 3 2 Yk E1A568 10BASE T SGLPEV 0 5mmx4P 2 RS 2320 1 RS 232C 0 15m RS 232C RS 485 10BASE T 2 3 GE 1 RJ45 Nippon AMP 5 554720 3 2 Yk E1A568 10BASE T SGLPEV 0 5mmx4P FA T RS40 3 21 RF Fl fe A gt 1 RS 485 aS 1 0BASE T F344 PU RDA 4 SDA RDB lt SDB SDA gt RDA SDB gt RDB RSA RARE panees 7 RSB TON A ME a CSB kk
234. 0 0 0 Pr 174 Pr 176 9999 Pr 162 Pr 165 Pr 57 133 4 2 50 Pr 170 Pr 171 Pr 170 et x BE Pr 171 Pr 52 DU PU we 0 om o o gt 0 Pr 173 Pr 176 Pr 160 4 2 51 Pr 180 Pr 186 Pr 180 RL Pr 181 RM Pr 182 RH Pr 183 RT Pr 184 AU Pr 185 J06G Pr 186 CS 181 RY TSR 099 9999 RH 0 99 9999 RT 0 99 9999 AU J06 186 o 6 CS 134 2 gt
235. 0 04 Pr 20 120Hz RT X9 ON J FOR ALES RE 4 2 6 Pr 9 Pr 9 Pr 71 j5 FR BAL 0 4K 0 75K gt A 50Hz 0 SAS BSS SB BAL Pr 71 1 13 18 100 Pr 9
236. 0 C pene 10 C 40 0 1000m 5 9m s JIS C 0911 2 U V W 3 4 O STOP
237. 0 18 5K CH me 44 16 8 u 8 6 8 RM me 44 26s e 2 t 4 e FR 540 30K CH RON me rs se 20 o o o FR 540 45K CH Ma 78 3s 3s 3 3 2 2 FR 540 55K CH ma 78a 08 8 6 e w 1 Terminal Screw Tightening Applicable Inverter Type 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 M3 5 Cables 0 75mm 19AWG Tightening torque 1 2N m RT AU STOP MRS RES SD FM SE RUN SU IPF OL FU SD STF STR JOG CS 201 7 Motor overload protection These inverters provide solid state motor overload Set parameter 9 or 48 using the following instructions Pr 9 electronic overload protection Pr 48 second electronic overload protection lt Setting gt Set the rated current A of the motor Setting of 0 makes the electronic overcurrent pro
238. 000 HFFFF 0 1A Ho000 HFFFF HF3 HO1 HOE i i H0000 HFFFF H30A0 RERE H74 H77 TESS STF STR 1 1 H02 2 H00 113 b7 RUN 0 0 0 1 SU 1 H02 0L 2 H80 1PF FU Pr 190 Pr 195 OM RAM E PROM H0000 H2EE0 0 01Hz PROD HO000 H9C40 0 01Hz 0 400 00Hz RAM HED H9696 hr4 O BREA heo Ees H9696
239. 028 Sey ON STR STR eat es OFF Pr 180 ON PE ON MC MC1 MC2 MC3 MC1 MC2 MC3 MRS CS MRS CS STF STR MC1 MRS RES Pr 75 xix IIx x O x 2 MC1 Pr 190 pr 195 WG2 T Mc3 125 We Ss 2 pete su 2 utg Pr 190 Pr 195 MC1 MC3 i as FR ASAR MC3 0 3 0 5s
240. 1 10 0 99 59 0 2 1 211 220 11 20 0 400 9999 0 1Hz 0 99 59 aes 0 2 HEA o 0 400 9999 0 99 59 2 231 232 8 233 201 210 2 2 9 10 11 12 13 14 15 ph 2 0 100s 9999 2 2 0 200 2 2 2 2 2 2 2 0 3600 0 360s 9999 2 2 2 0 1 2 3 264 1 2 2 2 2 275 ese PWM 31 32 33 34 35 36 37 38 39 0 44 50 51 52 53 61 62 63 64 65 66 70 71 72 73 74 75 76 53 G25 oy art pies 5 Z Were ee 2 G 2 2
241. 3 ae foo Pr 66 Pr 148 Pr 149 Pr 154 4 FU Pr 42 Pr 43 Pr 50 6 16 Fu 8 108 THP 3 PU PU 1 RY Pr 150 Pr 151 Pr 152 Pr 153 Pr 152 Pr 153 15 Pr 128 Pr 134 PID Pr 128 Pr 134 RL PID Pr 135 Pr 139 Pr 135 Pr 139 IR A MC3 20 120 Pr 278 Pr 285 Pr 278 Pr 285 Pies ee TAT EH BAR AT 85 27 127 ORA ee OENE 78 ae FR A5AP TER ger hee ee ile ae ae FR A5AP o 198 IF TREAT AREND LORS HEMEL S FS LOS bn 9999
242. 4 t5t6 4 ag 5 per a x ECRI BTERE t1 at t3 TA ipo hatd4 et CT e1 EAT 0 FU i O SU 7 1 2 STF o o STF RH RH RM RM RL RL STR STR sD SD SU SU SE SE 1 STF 2 AU STOP 2 4 1 JOG 3 STF STR PU Pr 232 Pr 239 Pr 4 Pr 240 Pr 72 141 2
243. 55 Pr 56 Pr 158 Pr 900 Pr 901 Pr 54 Pr 55 Pr 56 Pr 900 z pr 37 Pr 52 Pr 53 Pr 171 Pr 76 iz Pr 77 fe Pr 78 Pr 160 Pr 173 Pr 176 X Pr 199 Pr 261 Pr 266 Pr 180 Pr 186 Pr 190 Pr 195 z Pr 244 Pr 9 Pr 65 Pr 67 Pr 68 Pr 69 Pr 990 Pr 75 55 4 1 3 aia een eee 9 2 5 alsV 0 10y 20wAD0
244. EE TERA Wa Pr 8 PS pa Z FR PU04 PS PU Pr 75 PU PU ee BE ERRE 89 Err 1 RES ON PU e STF SRF ON Pr 77 5 1 2 Wo
245. IlBNFERRUIBE Pr 278 Pr 285 ee ccc eet e eee b ete b bebe tee bentenenes 153 4 2 64 Pr 286 Pr 287 4 156 4 2 65 Pr 900 Pr 901 oo cece cece ete ee even ee ten enes 157 4 2 66 Pr 902 Pr 905 ce eee ee 159 4 2 67 Pr 990 4 164 5 165 Bel Hee Ce te AE EI EELEE EEA ETARE SES EE RN RAs mah eh Rees 165 Bead SECS FE os a tad nde daca ate achsd ob are dicate Sante E A N E E E eet 165 5 1 2 i 170 5 1 3 cece eee been e bebe ebb bbe b bent eb bee benn bees 171 i BE A LE T E A A A eR EEE EE 172 Bde 2 ae pe A ee E dll dv eb dt EE EE EE 172 ETI a bees Reena i 173 E E E IREE 27 173 522 ese AE aa r a a a a bebe E E ecce 173 Rp es Sc E E BAEAN e RO AA E A A A TA 173 A DA S AS TEER EEEE E E E 173 WE A E e TEE E EAA EE E E A E E AE E EET E 174 ROEDE Bete N A a tt Cd hb td he be E E EET 174 E S AEn E ESES EA AEE E E E E E ET 174 5 2 8 EEEE EEEE EEEE EEEE EEEE EEEE 174 5 2 9 FR DU04 cece EEEE EEEE EEEE EEEE 174 SDA Os EY 3 As ANE PE EARE IE ERREN IETEN mann ital imine Sarita ahead tena mim ATTAN ATER 174 Be DT E NA a od E E A 174 Eaa ARS BS TAYE EM Soc ca EE EE bad bed oda heeded aedeeeas 175 Be Be di HEE SRR ES BASE ee SS ct it Ba tear a te tains chee a eat ha
246. Pr 12 Pr 12 3 7K 4 5 5K 2 1 1 Pr 71 5 5K 7 OK Pr 12 1 Pr 12 4 Pr 71 0 2 8 20 23 24 1 13 18 Pr 12 2 2 Pr 12 2 Pr 71 1 13 18 0 2 8 20 23 24 Pr 12 4 2 Pr 11 0 Pr 12 0 A Pr 11 0 8888 Pr 12 0 A 63 a 4 2 8 Pr 13 Pr 13 Pr 2 0 60Hz ON 0 60Hz CD
247. Pr 153 gt Pr 152 Y13 E 1 100ms 2 3 Pr 190 195 A A Pr 154 Pr 22 129 4 2 46 RT Pr 155 Pr 155 RT 14 Pr 44 Pr 49 Pr 81 180 Pr 186
248. Pr 7 A b Pr 8 c 2 Pr 44 Pr 180 Pr 186 RT RL ON Pr 6 3 150 Pr 275 56 PAULA RES AH IRS E OCT PU PU PID ene gt 1 Pr 270 1 3 2 2Hz 30Hz 30Hz PLG PLG 0 1000 130
249. R A500 s Pr gt PU PU FR DU04 FR PU04 PU FR DU04 FR PU04 FR A200E FR A200 lt EXCELLENT gt W a 1 1 1 1 1 FR A500 FR PU04 O 1 MITSUBISHI INVERTER MODEI FR A540 0 4K FR A540 0 4K gt INPUT 20000 QuTPuT _xxxxx Se es a i rt 3 2
250. a MITSUBISHI F DMR FR A500 RAD E 9 A ae ek gt e000 Hoong wye EEn JEH BX ial E Be SE MAE o
251. abs Ep ry enn aa 75 3 5 AS BASES STF STR 101 STF STR Pr 11 8888 MRS 4 OHz A A o T
252. ad alarm prevention to be activated Switched high when stall prevention is reset 2 Permissible load 24VDC 0 1A IPF Switched low when instantaneous power failure or undervoltage failure protection is activated 2 Permissible load 24VDC 0 1A Switched low when the output frequency has reached or exceeded the detection frequency set as appropriate Switched high when below the detection frequency 2 Permissible load 24VDC 0 1A Open collector output common to the RUN SU OL IPF and FU terminals common Factory setting of output item For meter One selected from 16 Frequency monitoring items such as Permissible load current 1mA output frequency is output 3 1440 pulses s at 60Hz The output signal is Factory setting of output item proportional to the magnitude of Frequency each monitoring item Output signal 0 to 10VDC Permissible load current 1mA Frequency setting power supply 5VDC permissible load current 10mA F N D z Frequency setting current Analog frequency setting 5 A B C Inverter running Output terminal function selection Pr 190 to Pr 195 change terminal functions Up to frequency RUN t G Q O re ay Q O Frequency detection SE FM Analog signal output With the operation panel connector communication can be made through RS 485 Conforming Standard EIA Standard RS 485 PU connector Transmission format Multi drop link Communica
253. ature humidity and ambience of the inverter will satisfy the above specifications 4 Short circuit ratings Suitable For Use in a Circuit Capable of Delivering Not More Than 10 kA rms Symmetrical Amperes 500 Volts Maximum 5 Fuse On the input side use any of the UL Class K5 fuses having the ratings as listed below Rated Applicable Inverter Type Voltage V Rated Current A FR A540 7 5K CH 60 196 6 Wiring 1 Terminal connection diagram NFB 2 9 a 3 phase AC power supply O O O OS Oo O O OT R1 Jumper Q S1 24VDC power output and external transistor common pc Contact input common for source logic Forward rotation start STF Reverse rotation start C STR Start self holding selection C STOP High RH Multi speed selection MiddleC RM Low RL Second acceleration deceleration time selection CY RT Output stop MRS Reset RES Current input selection C AU Selection of automatic restart after instantaneous power failure j 1 Jog mode JOG 1 i 1 Contact input common for sink logic IT ica ste Poca cnt eal roe ns tg EEE ne ee an ae War oe BHR Sie ee ley Bae aps Vo ae re er wh Si Control input signals no voltage input allowed Frequency setting signals analog 10E 10V pe ee E a ie cee ee 3 10 5V Frequen
254. cy setting 2 poy i 0 to 5VDC potentiometer Pen i 0 to 10VDC I A 1 2W1kQ i Auxiliary input 1 Current input 0 to 5VDC 1 0 to 10VDC PU connector RS 485 Seiso 5 Analog common Soleca 4 4 to 20mADC Jumper Remove this jumper when using FR BEL Te PG R Note PX o Jumper Remove this jumper when using FR ABR Note Terminals PR PX are provided for FR A540 0 4K to 7 5K Alarm detection RUN Running SU Up to frequency IPF nstantaneous power failure Open collector OL Overload outputs FU o Frequency detection sE Open collector output common Common to sink and source Meter e g frequency meter TTF Q eee 1mA full scale Analog signal output 0 to 10VDC 197 Main circuit terminal O Control circuit input terminal Control circuit output terminal Not needed when the operation panel FR DU04 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 operation panel or parameter unit together to make calibration D escription of main circuit terminals Symbol Inverter output C
255. e e J J J REV FwD REV FWD REV FWD REV FWD REV FWD HOT pr 3 1 MOO HAIRS 2 1 Pr 5 IAS Pr 174 m ee SET ae cre SET mom tule ce ro 11g Ig I 1 1 Ce e e e e e e e e e e REV FWD REV Fwo REV FwD REV FwD REV Fwo Pr 5 1 AOG 3 Pr 160 _Pr 160 1 2 2 Pr 77 Pr 160 Pr 991 Pr 173 Pr 174 Pr 175 Pr 176 Pr 160
256. ebe e bbb eben eben tbe t eet ent eneeas 62 7 Wa EO A at 7 Bell Pr 2a gt a a ee a 63 42 I aE PHB once adie cdg dado tah ba diteet opt adie Ma tbedidasd Medes lan Svd Sakae chen we dens Cota 64 BO GT itera ee Pre lA csc EA EEEE AA A EN ESAEREN lated lass 64 422 40 PASE Pr TO PROAG SY ye es cutotctee ae a heats hth euchialer see etleace skal set 65 66 4 2 12 Pr 22 Pr 23 Pr 66 Pr 148 Pr 149 Pr 154 i 67 4 22 PP 28 wich 8 eke a ele Cb ae Le ba RD be La EE be ta 68 4 2 14 Pr 29 Pr 140 Pr 143 ooann 69 4 2 15 Pr 30 Pr 70 022 eee ee eee wees bebe ee bees baees 70 42 to MEME Prai A 21 ce Oe eee a 71 4 2 17 SiR aE Pr 37 Pr 1 72 4 2 18 Pr 41 4 73 4 2 19 Pr 42 Pr 43 Pr 50 Pr 116 ounan aaao 73 4 2 20 Pr 48 Pr 49 Pr 114 Pr 115 i 74 4 2 21 FM AM Pr 52 Pr 54 Pr 158 unuau uuaa a naaca reer 76 A999 JIE Te ELE ProB APP ADO sooo tn Se Behe ule ody Bes odode ee ee aa 78 4 2 23 Pr 57 Pr 58 Pr 162 Pr 165 0 uoo cece cee cence tent e tent e eens 79 4 2 24 Pr 59 4 81 4 DUO SO aE Heth oct Pre OO ian ovis Onn RE eh Dt a Masai otitis oe Os gel e Wane aa On aal dal Olas 82 4 2 26 Pr 61
257. in veh ate td ines eee te 175 iis GeO ipa GIN ince tsi ee EAR E ac a E Sa i eo cea os ee 175 De On E on hide oot Aine A au Pat enc ae ins Pon noah ay Pah cenit Cetin Jaa So 175 5 3 4 9 175 oiee E EEE ofa i det oa or Sel Sat Sab ale Deo Suit alo Cea Dae lee ae oak tay 176 5 3 6 VE eR TE HA r gt rn yeh cata abbr valae intake abew len tke erate at adhe et nt a 176 GY ey BL T eo Se 2 PEE AAE er TEE EEEE TEEN T EEE ce eee eek ee eee eer ee eee 178 LS Se i ta TE EEEE EEE EEEE EE Re eg E EE A 179 5 3 9 oona 180 6 182 6 182 Gadi Pe Val cera ketch g Wiad nett dts Vidcat Mee Ne hd rte drains tn eats NE tig thle 182 GTR NE ros fat Sta 2 a ed ae hl NO oe et a E Ee tee Fe OG he ee Fe 183 e e loch ee TE A TOE ee Oe Ue er ne 184 7 188 ee A EATA ETSE EAEE 188 TAR Ee N Ina E ET E AA E E I a ee ed odes de ea 188 S00 E E ade eer haste gic E E E E EE 189 190 Wises E sE a E oo Saree tee arte ten ree ial SM Le oe aes Ee Mo ge oe See i oon oe 190 Appendix 2 Instructions for compliance with U S and Canadian Electrical Codes 196 se Be gt a ng gt DU FR DU04 PU FR DU04 FR PU04 ant sS RA Z3 F
258. onnect a three phase squirrel cage motor B D Power supply for control circuit Brake resistor connection Brake unit connection Power factor improving DC reactor connection Built in brake circuit connection Ground Connect to the commercial power supply Keep these terminals unconnected when using the high power factor converter FR HC Connected to the AC power supply terminals R and S To retain the alarm display and alarm output or when using the high power factor converter FR HC remove the jumpers from terminals R R1 and S S1 and apply external power to these terminals Disconnect the jumper from terminals PR PX and connect the optional brake resistor FR ABR across terminals P PR Connect the optional FR BU brake unit power return converter FR RC or high power factor converter FR HC Disconnect the jumper from terminals P P1 and connect the optional power factor improving reactor FR BEL When the jumper is connected across terminals PX PR factory setting the built in brake circuit is valid Provided for 7 5K or less For grounding the inverter chassis Must be earthed escription of control circuit terminals Symbol o 2 o QA O a CD Noe 2 2 L 0 il oe SIT Pe D 2 ale c amp o oO 2 is S O STR STOP Forward rotation start Reverse rotation start When the STF and STR signals are turned on simultaneously the st
259. op command is given Turn on the STF signal to start forward rotation and turn it off to stop Acts as a programmed operation start signal in the programmed operation mode Turn on to start and turn off to stop Turn on the STR signal to start reverse rotation and turn it off to stop E aa Turn on the STOP signal to select the self holding of the start signal RH RM RL Multi speed selection miei RH RM and RL signals as appropriate to select multiple JOG RES C JOG mode selection Second acceleration deceleration time selection Output stop Current input selection Automatic restart afte instantaneous power failure selection Contact input common sink 24VDC power and external transistor common Contact input common source Turn on the JOG signal to select jog operation factory setting Jog operation can be performed with the start signal STF or STR Turn on the RT signal to select the second acceleration deceleration time When the second functions such as second torque boost and second V F base frequency functions have been set these functions can also be selected by turning on the RT signal Used to shut off the inverter output to bring the motor to a stop by the magnetic brake Used to reset the protective circuit activated Turn on the RES signal for more than 0 1 second then turn it off Only when the AU signal is turned on the inverter can be operated with the 4 20mADC frequency set
260. pa 129 4 2 46 RT Pr 155 EEEE EEEE EEEE 130 4 2 47 Pr 156 i 130 4 2 48 QL Pr 157 4 132 4 2 49 Pr 160 Pr 173 Pr 176 2 0 00 e tenet ee tenes 133 4 2 50 Pr 170 Pr d71 00 cece cet e eee eee ney 134 4 2 51 Pr 180 Pr 186 ounou unaii oo eee tent eb ee eee en tenes 134 4 2 52 Pr 190 Pr 195 0 eee eee cence EEEE EEEE 136 A059 FA ee eee Pre 199 De ete ole Biol Meson od ABs sulted deci Sole le Bless denn hy ae 137 4 2 54 Pr 200 Pr 231 00 eee eee ete e bebe b ten eb tent enteney 138 655 Pr AA occ DG CoN og facd ee oe det De cts 142 A956 PEE HE Pr2250 en a Ged ec cad delat aed nec aya dead ac aa A E a a os 143 4 2 57 7 th RAB GRIAUEEE Pr 251 ccc di bbb e renter enes 144 4 2 58 Pr 252 Pr 253 00 ene e tebe nent ee een teney 144 4 2 59 Pr 261 Pr 266 uoi eect eee eben ene ee tent ens 145 4 2 60 Pr 270 onnaa EEEE EEEE 146 4 2 61 Pr 271 Pr 274 eo cece eee e beet ere b bebe e A 147 4 2 62 Pr 275 Pr 276 2 0000 e eee eee en tenet enes 150 4 2 63
261. panel Input resistance 10kQ Maximum permissible voltage 20V By entering 4 to 20mADC the maximum output frequency is reached at 20mA and I O are proportional This input signal is valid only when the AU signal is on Input resistance 250Q Maximum permissible current 30mA By entering 0 to 5VDC 0 to 10VDC this signal is added to the frequency setting Auxiliary frequency signal of terminal 2 or 4 Switch between input 0 to 5VDC and 0 to 10VDC factory setting setting from the operation panel Input resistance 10kQ Maximum permissible voltage 20V Frequency setting Common to the frequency setting signal terminal 2 1 or 4 and analog output terminal input common AM Do not earth Change over contact output indicating that the output has been stopped by the inverter protective function activated Alarm output 200VAC 0 3A 30VDC 0 3A Alarm discontinuity across B C continuity across A C normal continuity across B C discontinuity across A C Switched low when the inverter output frequency is equal to or higher than the starting frequency factory set to 0 5Hz variable Switched high during stop or DC dynamic brake operation 2 Permissible load 24VDC 0 1A Switched low when the output frequency has reached within 10 of the set frequency factory setting variable Switched high during acceleration deceleration or stop 2 Permissible load 24VDC 0 1A Switched low when the stall prevention function has caused stall Overlo
262. r 180 186 Pr 89 FR A500 FR A200E fn aS St Rit 4 2 38 Pr 82 Pr 84 Pr 90 Pr 94 Pr 96 Pr 82 Pr 83 Pr 84 Pr 90 _ R1 Pr 91 R2 Pr 92 _ L1 Pr 93 L2 Pr 94 O Pr 96 e Pr 80 Pr 81 9999 o PU FR DU04 FR PU04
263. r 210 2 Pr 211 Pr 220 3 Pr 221 Pr 230 Pr 231 200 Pr 79 201 210 0 9999 0 221 230 f 400 9999 400 9999 99 59 231 gt Pr 79 5 Pr 76 3 1 OL 4 2 1TH las 5 SU SE 9 138 co lt I E 1 Pr 200 3 1 Pr 200 2 3 2 Pr 200 Pr 201 Pr 231 2 RAM Pr 231 1 Pr 200 Pr 231 Pr 231 0 99 59 RA 99 59 99
264. tection motor protective function invalid The inverter s output transistor protective function is valid When Mitsubishi s constant torque motor is used set 1 or any of 13 to 18 in Pr 71 to select the 100 continuous torque characteristic in the 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 When a 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 A special motor cannot be protected by the electronic overcurrent protection Use an external thermal relay The RT signal serves as the second function selection signal and makes all second functions valid 202 1998 2 1998 10 IB NA 66851 A IB NA 66851 B 2 an e Pr 286 Pr 287 gt E E6 E E7 RS 485 RS 2320
265. ting signal With the CS signal on restart can be made automatically when the power is restored after an instantaneous power failure Note that this operation requires restart parameters to be set When the inverter is shipped from the factory it is set to disallow restart Common to the contact input terminals and terminal FM Common output terminal for 24VDC 0 1A power PC terminal When transistor output open collector output such as a programmable controller is connected connect the external power supply common for transistor output to this terminal to prevent a fault caused by leakage current This terminal can be used as a 24VDC 0 1A power output When source logic has been selected this terminal serves as a contact input common Input terminal function selection Pr 180 to Pr 186 change terminal functions Input terminal function selection Pr 180 to Pr 186 change terminal functions r 198 Symbol Input signals Output signals Communication 3 10VDC permissible load When the frequency setting potentiometer is current 10mA connected in the factory set state connect it to terminal 10 When it is connected to terminal 10E change the input specifications of terminal 2 By entering 0 to 5VDC 0 to 10VDC the maximum output frequency is reached at 5V Frequency setting or 10V and I O are proportional Switch between input 0 to 5VDC factory setting voltage and 0 to 10VDC from the operation
266. tion speed Maximum 19200 baud rates Overall length 500m Terminals PR and PX are provided for the FR A540 0 4K to 7 5K CH Low indicates that the open collector outputting transistor is on conducts High indicates that the transistor is off does not conduct Not output while the inverter is reset 199 2 Terminal block layout of the power circuit In the main circuit of the inverter the terminals are arranged as shown below A 400V class FR A540 0 4K 0 75K 2 2K 3 7K CH FR A540 30K CH TY U e er S1 Screw size M4 el rain 3s Screw size M4 Charge lamp Screw size M6 Jumper Q D Screw size M4 amp Screw size M6 ae FR A540 5 5K 7 5K CH FR A540 37K 45K 55K CH Screw Size MA i SELT wy eerie S Bs O Charge lamp T Ulviw P1 P Screw size M8 e Screw size M8 Jumper Screw size M4 D amp Oo Jumpers Screw size M5 Screw size M4 Charge lamp O Screw size M6 Screw size M6 200 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 ad Cables Note 2 Crimping Terminals R S T U V W R S T Fokoa Wr FR 540 5 5K CH Mm 15 554 24 35 2 2 FR 540 15K CH me 44 146 8 14 8 6 8 IFR 54

MITSUBISHI Motor FR-A500 Manual(1)(1)

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