FR-A800 取扱説明書(詳細編)
Contents
1. E BiH CD ROM 2 DUT 3S CD ROM PDF Ft CD ROM S8 CD ROM2. SF V5RU Pr9 0 5 28
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5. ZCAT3035 1330 TDK 2
6. 5 6 9 CA 2 3 4 5 6 7 8 0 FR A820 15K 007770 22K 01 250 FR A840 18 5K 00470 55K 01800 DC DC MM FRHEL 1 Lee ee ee FR HED 1 8 TEN Dom zo 3 O O 1 A O
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9. O FAX FAX FAX 050 3 3 0441 FR A800 IB 0600502 2 FAX 050 3737 0441 FAX
10. RI LIL S1 L21 Jat 2 FR A820 01540 30K P3 PR om NOTE R LI S L2 T L3 U V W U V W e FR A840 05470 220K ORRE o
11. FM SINK CA SOURCE NS Y Di 24V HF 24 SD 24V OFF ON OFF ON 24V
12. RUN CPU RUN OFF
13. 9 POST VATES 13 b FR A800
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27. AW CD ROM fal CD ROM S8 CD ROM Microsoft Windows Internet Explorer t Microsoft Corporation Adobe Adobe Reader Adobe Systems Incorporated Pentium Intel Corporation Sl CD ROM CD ROM
28. CD ROM A800 A FR A820 0 4K 00046 90K 04750 FR A840 0 4K 00023 280K 06830 E D ADE AE FEE E 3 2 NRRRRRRRRRRRRRRRRRRRRMRMMMMMMMMMMMMMMMMKRRRESRMRMMRBRERERERRRREREEEMEEEMMMMMMMM 4 MER Qo c OO O 5 4 kk 13 E ANa i I ODDE T 14 6 15 7 A CC OKT HRC OY MM 21 8 ft e 23 Eo o he PET E eee BIRD GT NTCOUCRAL TH 5
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40. 9 1 1 er FR A820 01870 37K 02330 45K 1 _ FR A820 03160 55K 1 PR _ S L2 TL3 IM NP Pre US VEN joel joe lelelel ONG oD ONONO OO OO T L Nr FR A820 03800 75K 04750 90K 1 FR A840 03250 110K 04810 185K 1 ps RILIFS L27T L3ia
41. 100m 400V 400V Pr 72 PWM 15 14 5kHz 9 9kHz 4 4kHz FR A840 01800 55K FR ASF H FR BMF H FR A840 02160 75K MT BSL MT BSC PM PM 100m PM 1 1 PM PM 400V 50m Pr 72 PWM 9 6kHz Pr 156 PM Pr 72 PWM EES
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50. 0 75 mm lt 30m FM 200m Ec 2 N 200V PC STF A1 B1 C1 A2 B2 C2
51. 2 LD ND HD 10 50 WE SHEIK 1000m C 9999 MITSUBISHI INVERTER CM MODEL FR A820 00046 1 INPUT XXXXX OUTPUT XXXXX gt SERIAL XXXXXXXXX DATE XXXX XX FR A820 00046 0 4K FR A820 03160 55K FR A820 03800 75K FR A840 01800 55K FR A840 02160 75K 1 20cm g 5cm 10cm 10cm 1 2 gt Hl jc ll 20cm x FR A820 00250 3 7K FR A840 00126 3 7K 1cm 2 FR A820 01250 22K FR A840 00620 22K 40 SLD 30 0cm 3 FR A840 04320 160K
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53. CD ROM CD ROM CD ROM Microsoft Windows Internet Explorer Microsoft Corporation Adobe Adobe Reader Adobe Systems Incorporated Pentium Intel Corporation CD ROM CD ROM Windows OS CD ROM CD ROM Microsoft Windows XP Professional Home Edition Windows XP Tablet PC Edition Windows Vista Windows 7 Windows 8 Intel Pentium 128MB RAM CD ROM Skah
54. DC DC NR1 L11 S1 L21 Rf 5 21 2 FR A820 30K 01540 P3 PR R L1 S L2 T L3 U V W U V W e FR A840 220K 05470 7
55. 11 3 LD ND HD 10 50 JH FRE T SLD 10 440 20 65 C 20 65 C Bet H A M N y N E 95 RH 95 RH 95 RH 2500m 2500m 10000m 25 wh TAR JR CC RAIZ BK UL489 MCCB V V 240V MD 20 30 40 150 175 200 A 1 LI zo 20 20 30 50 70 125 150 200 nee D 9 CN RC CR CC CR CN V 240V fusius 500 500 fusis 400 500 700 AMIE C 500V penas 40 70 110 150 175 A 1 x cum 70 100 125 150 re memes G de je e de le le e e e de d V 500V drains A 1 IUE zc 1000 BIET me US National Electrical Code 200V 100kA rms 264V 400V
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61. 2 CD ROM BI D 3 index html 4 3 PDF CD ROM AD MANUAL MITSUBISHI ELECTRIC CD ROM PDF FA PDF http www mitsubishielectric co jp fa FAX 1
62. FR A840 01800 55K or lower FR A840 02160 75K or higher i q 10cm 20cm End 3 94inches 1 7 87inches 15 E DOR f or more or more cm n8 pe 2 11 97 5cm 5cm inches mna ee 1 97inches 197inches 394inches E 394inches oo or more 1 2 or more 1 2 or more E or more Fix six positions for the FR A840 04320 160K f Vertical Allow clearance 4 10cm C 1 3 94inches 7 87inches or more or more Forthe FR A820 00250 3 7K or lower and FR A840 00126 3 7K or lower allow 1 cm 0 39 inches or more clearance 2 When using the FR A820 01250 22K or lower and FR A840 00620 22K or lower at the surrounding air temperature of 40 C 104 F or less 30 C 86 F or less for the SLD rated inverter side by side installation 0 cm clearance is available 3 For replacing the cooling fan of the FR A840 04320 160K or higher 30cm of space is necessary in front of the inverter Refer to the Instruction Manual Detailed for fan replacement Installation environment Before installation confirm that the following environment conditions are met Surrounding air LD ND initial setting HD 10 to 50 C non freezing Enclosure temperature 3 10 to 40 C non freezino Measurement position With circuit board coating 95 RH or less non condensing Inverter uw ene Without circuit board coating 90 RH or less non condensing 197 i
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65. 2013 12 IB 0600493 B FR A840 110K 03250 280K 06830 17 24 365 24 O T9830005 Ee 004 0041 2 1 18 1108 0022 3 19 22 3963 1 022 353 7814 011 890 7515 03 3454 5521 045 938 5420 zx PR 1338 0822 2 21 10 048 859 7521 1 2 4 10 6F jo o e T 950 8504 920 0811 531 0076 aly al 877 2 255 VA tUe HACERSE AT A CARER 025 241 7261 T461 8675 5 1 14 052 722 7601 T 422 8058 054 28 7 8866 076 252 9519 06 6458 9728 022 353 7834 011 890 7516 03 5440 7783 045 935 0066 048 858 5601 025 241 7262 052 719 1270 054 287
66. 2 20m 200V 220V 150 1 za orn OT ih 5 5 2 3 3 F i IM8 M6 78 38 M 0 10 0 10 M 6 6 14 fe pa Jes je ls j6 lo i6 14 60 5 14 8 6 6 M6 60 22 o II 50 5 25 80 100 14 2 3 3 7 7 FR A820 90K 04750 400V 440V 150 1 22 38 38 60 80 10 80 10 80 8 10 M8 M6 100 fioo 38 o 40 95 95 50 5 5 2 8 8 0 0 250 250 300 bo bE UN IFR A840 11K 00310 M5 25 55 5 555 55 X 55 55 55 MO II 6 6 J t0 IFR A840 15K 00380 IM5 25 8 5 85 le 8 8 X 5 8 8 lo li fo FR A840 18 5K 00470 M6 _ 44 146 86 i4 8 14 ls o lie he A MO f6 FR A840 2K 00620 IM6 44 M46 146 p4 14 22 M4 le 6 I16 22 38 FR A840 b6K 01800 IMB 78 X 60 8 608 60 60 60 22 jo IO 50 IFR A840 75K 02160 IM1O 147 60 10 60 10 60 feo feo 22 JIM IO 50
67. RIL1L2IDL3IULVJWLNIP1lP jason eee Ea RIILI E STILL jsp iE FR A820 11K 00630 FR A820 15K 00 770 22K 01250 FR A820 30K 01540 2 FR A840 11K 00310 15K 00380 FR A840 18 5K 00470 22K 00620 FR A840 30K 00770 m E ROL IRIS ML I
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69. 172 1 9999 0 16 174 178 STF 179 STR 180 RL 181 RM 182 RH 183 RT 184 AU 185 Joc 186 ICs 187 MRS 188 ISTOP 189 RES 190 IRUN ky 0 20 22 28 37 42 47 50 51 60 62 64 14 76 80 87 92 93 0990 412 gt i E N X i gt EC amp CC CU CC eec EC zz AN wl CO gt CD N TO Ol ol c CO NIje CO 0 8 10 20 22 20 28 30 36 38 54 56 57 60 61 63 64 68 70 79 84 85 90 99 100 108 110 116 120 122 125 128 130 136 138 154 156 157 160 161 163 164 168 170 179 184 185 190 199 200 208 300 308 9999 x13 E 8 15 BED 0 590Hz 9999 19999 240 Soft PWM 0 1 241 0 1 191 SU 192 IIPF 194 FU 195 ABCI 196 ABC2 32 39 17 mH N gt Te I mae Op
70. REE e PM PM Ka SE nia cT 2 moved 00023 06830 SLD A 0 4 280K ND P gt pR E kW FM FM iit FM M DCO 10V OFF x seb fae B CA DCO 20mA CA CA M DCO 10V eo NOTE FR A820 00046 1 SERIAL XXXXXXXXX FR A840 04320 160K 6 Mis dd
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72. 052 719 6762 QE8 084 926 8340 0574 61 1955 4E HEX res 084 926 8280 UPS 5kVA 084 926 8340 FA XO 7 8 9 00 17 00 9 00 16 30 34 INVERTER A800 FR A820 00046 0 4K 04750 90K FR A840 00023 0 4K 06830 280K INSTRUCTION MANUAL STARTUP ENGLISH CONTENTS CON OO RP WN This Instruction Manual Startup provides handling information and precautions for use of the equipment Please forward this Instruction Manual Startup to the end user Do not attempt to install operate maintain or inspect the product until you have read through this Instruction Manual Startup and appended documents carefully and can use the equipment correctly Do not use this product until you have a full knowledge of the equipment safety information and instructions Installation operation maintenance and inspection
73. LG 6 LER DLE ZU H H N 7i PLG LG H S 1 S 1 H S 2 S 2 f AN Ha THD BE f S AN BK rp EST E AN BK PE CEST AUR P D al lal S PE mE X a z M bet KE Er N 1 0 TAREA TO Te ARD 0 30Hz 0 10Hz 0 16383 T i N 1 ce o1 eo N 0 590Hz 9999 50 50 50 250 590Hz 10 590Hz 60 50Hz i0 o 1000 0 o 99 g 9 o oloo ol 1 9 9 co e o XO A NEN CO w o 999 B99 e 0 1000 0 2 fo 0 1 32767 N 1 32767 1 0 150sec 1 25sec 100 424
74. P1 PA Jumper N Power supply Power supply FR A840 02160 75K 02600 90K 1 FR A820 03800 75K 04750 90K 1 Q
75. PR PX FR A820 00046 0 4K 00490 7 5K FR A840 00023 0 4K 00250 7 5K PR FR A820 00046 0 4K 01250 22K FR A840 00023 0 4K 01800 55K Pr 195 Pr 196 17 Pr 190 Pr 194 17 o m mmmmmsmsmmmmmmm Pe NOTE uuummumuummuuumuum 10cm E uos M QNM M DAN 3 2 e FR A820 00046 0 4K 00077 0 75K FR A820 00105 1 5K 00250 3 7K FR A820 00340 5 5K 00490 7 5K FR A840 00023 0 4K 00126 3 7K FR A840 00170 5 5K 00250 7 5K N i JRIL1 SIL2 ITL3 NUL RI SL2 eS eS LED Her GSJ GSJ LOY AS I 7 A X i
76. 30cm 3H 5 2 PROB D 10cm 1l 10cm 95 RH 90 RH GAR x 20 65 COM ZA CHBDRZCIACRTETCUR FARRER MER 2500m 500m 3 4 NO ANE RYE FR A820 00046 0 4K 04750 90K FR A840 04320 160K 06830 280K FR A840 00023 0 4K 03610 132K 2 C mm 200V FR A820 00046 0 4K FR A820 00077 0 75K FR A820 00105 1 5K 110 150 220 250 ea 325 465 400V FR A840 00023 0 4K FR A840 00038 0 75K Le40 00052 L50 Le40 000e9G 90 R A810 00126 3 7K R A840 00170 5 5K Led0 00250m50 aosioug RAG40 00380 15 RAG40 00470 0185 Led 00620G20 msto 00770G9O me0 00530G740 Leo 0uie0 50
77. Dew 50 8 455 IE TUB TS S ERA 30Hz 10Hz 16383 F Vis 0 10 999 0 999 Bs CD AJ S 3 3 CD 150ms 9999 9999 CO CO CD CO CO o oo 3 CO I Co Gnd 0 ho Ed JIU Is w ITO tii zU 0 p pd err S5 CD 999 Hz 5Hz 1 19999 S SISISIS Re nO CD O1 OIO CD h 52 99 CD B 54 xs 0 8191 55 a 56 ss 16383 5 8 8 8 8 8 OIO no nmo on wm w CO CO NI OQ CD 8 i 58 xs 0 13 59 xsIPLG _ O 1 100 10 60 xs 16 0 127 8 zh 1 x 1 CD T CD C CO CD CD gt gt zO E EC 61 16383 62 xs 0 1 100 63 xs 0 5s 64 xsIPLG 65 xs 66 xs O 5s 9999 67 s 0 590Hz 9999 68 xsl 10 100 369 xsIPLG O 4096 74 590Hz 9999 376 xs 0 1 380 50 381 S 1 5096 38
78. SO OFF SO OFF NS X A0 BR LS E MB1 E MB7 JN2 X A 801838 X RS E PE2 E EP Bos S RS 485 E 13 BCN A23228 001 CD ROM PDF 48 CD ROM 30 4 ALM
79. 1B 999 999 c 9 x14 PU 2 CO CO AN I co on ejo Co yer UE FEL Hs 0 400Hz 9999 9999 073 14 17 100 103 114 117 3 i 8 10 12 500A 9999 2 3600A 9999 3 1000V 200 400V 7 9999 0 200 9999 9999 509 9999 2 0 400m2 9999 9999 3 50 Q 9999 2 0 400m2 9999 9999 3 0 6000mH 9999 2 9999 400mH 9999 3 0 6000mH 9999 2 9999 400mH 9999 3 T 0 2 4 6 8 10 12 102 104 106 dB d on 108 110 112 PU 7 0 590Hz 9999 9999 5 B uum 48 0V 50 10V i 0 400 0 400 1 RN 0 400 Wa l N CO c uum 50 0 N O1
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83. 10 2 PTC Pr 561 6 2W1kQ 7 PR PX FR A820 0 4K 00046 7 5K 00490 FR A840 0 4K 00023 7 5K 00250 PR FR A820 0 4K 00046 22K 01250 FR A840 0 4K 00023 55K 01800 8 Pr 195 Pr 196 17 9 Pr 190 Pr 194 17 10 F C FM Pr 291 11 9 m m mmmms3mmm mmm mm eS NOTE 10cm
84. ES D d m P 0 300 9999 9999 1Hz a ojo w CO mi a ra B P 1 1117 Vo 20 xg Eds t 9999 5 e ce CD CD c e e CO o CO CO CO CO Ke GEB ERI 9999 20Hz 2 OHz 3 00 00 Efl E EEE 134 PID PID 2PID 500 00 9999 1137 2PID 0 300 1138 2PID 0 500 9999 9999 1139 2PID 0 300 100 2 E 2PID 142 0 43 9999 143 0 100 9999 144 0 100 9999 145 2PID 100 08 9999 6 2PID 0 3 10 13 7 2 0 3600s 9999 2 0 590Hz 2 Tiense so p o 0 221 1222 1 1223 58 1 1224 1 1225 1 1226 2 227 2 1228 2 Jo 20000m
85. EMC 2004 108 EC EN61800 3 2004 Second environment PDS Category C3 BASEEAABDUERM CR SC a e d de X First environment Second aA a EMC EMC EMC 2 3 EMC Installation Manual BCN A21041 204
86. Pr 195 Pr 196 vods dq de Pr 190 Pr 194 17 eS NOTE pr 100m 3 2 4 FR A820 0 4K 00046 0 75K Q0077 FR A820 1 5K 00105 3 7K 00250 FR A620 5 5K 00340 7 5K O00490 FR A840 0 4K 00023 3 7K 00126 FR A640 5 5K 00170 7 5K O0250 SL2LITL3 UHV E JWL PR
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88. 24V EV 24V DC23 25 5V 1 4A 11 34 1 S1 SIC S2 SIC S2 1 2 SIC 4 51 S202 Evi OFF 2 gt ON o SO S1 PC S2 PC SIC SD 2
89. 29 4 ALM J 1 ES 25 EA an gt E YA Fey EL E J ee ALM 5 RY RY 5 5
90. EV 24V ee 11 3 4 1 S1 SIC S2 SIC 2 S1 S2 OFF 2 2 ON 2 S1 PC S2 PC SIC SD 2 SO S0 SOC FR A800 ib Logic al 24V 5z T RESET eaten Las te
91. P N EV 24V OFF 100 STF STR ON OFF 5 P PR
92. 1 9 38 087 831 3186 812 0007 3 12 16 092 483 8208 4 FE 4 4 612 8444 8 J 075 61 1 6330 079 224 3419 082 285 7773 086 242 5300 087 833 1240 092 483 8228 095 861 7566 095 818 0 700 FA FA FA FA FA MITSUBISHI ELECTRIC DO BRASIL COMERCIO E SERVICOS LTDA Rua Jussara 1750 Bloco B Anexo Jardim Santa Cecilia CEP 06465 070 Barueri SP Brasil TEL 55 11 4689 3000 FAX 55 11 4689 3016 FA MELCO CNC DO BRASIL COMERCIO E SERVICOS S A Acesso Jose Sartorelli KM 2 1 CEP 18550 000 Boituva SP Brasil TEL 55 15 3363 9900 FAX 55 15 3363 9911 FA MITSUBISHI ELECTRIC EUROPE B V Polish Branch 32 083 Balice ul Krakowska 50 Poland TEL 48 12 630 47 00 FAX 48 12 630 47 01 FA MITSUBISHI ELECTRIC EUROPE B V German Branch Gothaer Strasse 8 D 40880 Ratingen Germany TEL 49 2102 486 0 FAX 49 2102 486 1120 OXIFAt MITSUBISHI ELECTRIC EUROPE B V UK Branch Travellers Lane Hatfield Hertfordshire AL 10 8XB UK TEL 44 1707 28 8780 FAX 44 1707 27 8695
93. 4c 4 7c 4 4 D 47 048 T S5 e Y C pu 20 Olelelelele MININ CO CO J Od nr S5 Co O CD CO CD gt SIN HHE Fed ied 1 1034 IN a s C Nl MUM 7 OIOIO OIOIO WM 3 SS CD M IB WIN SIMI Sul pa C BK D MI M 1 8 M EE J O O1 YIM pur e min 20 SB DC 7 1073 0 05 3Hz 9999 1Hz i E 07 0 5s 9999 O8 0 1 S P 0 100 0 49 o o CD Sm o Jol Q J a atr ot ex IER Exi es SS
94. RCD RCM B RCD RCM _ 7 IEC664 ERORIA BOS TERTIA ee a a 400V 22A0 A SRE 2 A820 _ TRA KOTTO BE FR A840 36K 00720 IPOD ESAE PODES CER SLOG A A 3 IP54 FRE A820 22K 01250 FR A840 22K 00620 CIP20 2 AA FR A820 1 5KCO01 05 6 E FR_AB40 8 8KCO01 40 22K 01250 FR A840 2 2K 00083 3 7K 00126 FR A840 5 170 22K 00620 8 EN60204 C 9 Al
95. STF STR ASF 0 SCH ji e e PTC AR ABC FE BH DA BELT SET Pe e H ZEAN AE KE o e EHRE DEW Ar LAIRD BR FR BA n S RC REAN e e 400V Erih TR YER E Hs DOG 8 e e
96. gt J em 0 60Hz 9999 Q Q 27 5 SO 9 S CD CD CD C s gt at 590Hz mS Hz D O 360s ID Hz D D O1 147 0 9I9999 48 OV n haa APRN O 400 5096 10V 49 ECAN O 40096 200 50 152 153 co Bs 156 0 31 100 10110 157 OL 0 25s 9909 14 58 JAM a Be a 60 xi4al 0 1 9999 0 0 1 10 1 1 pm 162 0 3 10 130 164 1 0 9 ABs gt HE 0 1 10 11 0 _10 9999 _9999 6 60 0 fs RH O CO 1 NJ NI
97. PM U V W PM PM PM QU V W QUE PM PM U V W REA ETERA DEIN SOREL ah T erties e PM e PM CLX X13 o
98. w Linjo I O ND Yeo oe Oo OO cem IO Oe ho OO bed Y 39 Y 9 3 IO Is OO IO J Oo CO N Soll rl rR DINISGI D eoj o 3ji o CO R3 CO Co mB oN L eC O1 Go OO 88 SO oa PRSE Co OD 3 P udis N Sit 1 S c D G1 Wnt vol sv B TN OW RO CN O D CO OI 23560 Bead ma nO OO ao J S D CO EQ PO n Oo oOlao Co CC s O1 CO 53 CNS om suit On C1 o gt DO 0 LO C1 J CO 3 oo CO IJE e CN Qe SR NA N ull E SG nS CO O wa rois Ss ic Gi oO SA y O ND wI oo 16 soil 7 01 a GO On tn Wl as Co gt O ND J A302 38 C Ol eat CO 35 J Ca CO 88 Mc 3 CO kem d 0 ort 85 46 5 23 9 Me 13 5 18 25 5 46 5 10 60s 12096 3s 40 C 20 60s 15096 3s 50 C 5096 60s 20096 3s C 50 C 20096 60s 25096 3s C 50 C 3 18 380 500V AR FR BU2 7 100 296
99. 0 01 360s 1259 10 fr 0 01 360s ee a pe zx 0 1 10 11 100 1261 10 101 110 111 10 1262 11 0 01 360s 5s 1263 11 0 01 360s 5s 1264 11 0 20000ms h267 12 1268 12 dran poles pe fe 1270 13 0 01 360s 1271 0 01 360s 0 400Hz m e 100 100 ojo pui CO o CO o d 999 999 999 c aa Er dB a d o ojojo o o o N CO C N uum OA 000 CO ol eO c N N um 1274 14 1275 14 Ke 1277 as 1a 15 1279 15 1282 1285 4 0 9999 0 1286 4 0 9999 Eo o 1287 4 12 Z es EI
100. nus ae STF STR ee JF ze diui B IH Era un 5 RUN CPU RUN
101. AMIS GE 1O SEISE IRUNISUIIPF GE PCIRLI RMIRHIRTIAUISTPNRSRESISD ISDISTESTRUOGICS Theterminal functions as the terminal FM for the FM type and as the terminal CA for the CA type Wiring method Power supply connection For the control circuit wiring strip off the sheath of a cable and use it with a blade terminal For a single wire strip off the sheath of the wire and apply directly Insert the blade terminal or the single wire into a socket of the terminal 1 Strip off the sheath for the below length If the length of the sheath peeled is too long a short circuit may occur with neighboring wires If the length is too short wires might come off Wire the stripped cable after twisting it to prevent it from becoming loose In addition do not solder it Cable sheath stripping length S X 2 Crimp the terminals by inserting the wires into a blade terminal Insert wires to a blade terminal and check that the wires come out for about 0 to 0 5 mm from a sleeve Check the condition of the blade terminal after crimping Do not use a blade terminal of which the crimping is inappropriate or the face is damaged Unstranded wires Wires are not inserted Damaged into the sleeve Blade terminals commercially available as of February 2012 Phoenix Contact Co Ltd CRIMPFOX 6 Al 0 75 10GY A 0 75 10 Al 0 75 10GY GB A blade terminal with an insulation sleeve compatible with the MTW wire
102. P e Lone Q ihid RN 0 10 2 Q QE 0 4 O not aan O O EN dave sanae i yy a TAGES DC24V Ke 24V L BREES TTU 10ECHTOV ON i KI O l FEET A i J 1 tod E DCO 20mA 1 3 a I 1 C 1 2W1kO ie rg G 7 _ DC0 10V at V oCo MUN B id ES RS 485 EID ec INT en S NE gt eo ov cH SEG ZLIVEMEITOR lt wn 2 EAA i JER n ee re B a 100mA 1 IR EE 2 O EE S 9770 to FR A820 75K 03800 FR A840 75K 02160
103. a Frequency setting signals Analog 10E 10V on Al UT Anelog durent output 0 to 20mADC connector pee L SA 10 5V 2 4 Frequency Setting DC0 to 5V Initial value i 2 potentiometer Ber to 10V selectable 5 Safety stop input Channel 2 So circuit Safety monitor output Safety stop input common AOI sgg Safety monitor output common 172W1kO 6 DCO to 20mA 2E Analog signal output we Analog common I DCO to 10V Esset A connector E 1 i 0 ik DCO to 10V Initial value Auxiliary gt Jy Ge DCO to 5V selectable s5 input gt TxD ge RS 485 terminals TT pesce DC4 to 20mA Initial value e Terminal 4 input O4 DCO to 5V selectable s 9 DD ee Data l Current input DCO to 10V cm a transmission EE I i Connector for plug in option connection connector 1 connector 2 connector 2 Cl mxp r ey Data i P O Oe reception Bre aa ee PQ GND Safety stop signal Shorting m 1 wire m i Terminating VCCO 5V ra resistor Safety stop input Channel 1 _ _ A Des ee eu ee NS Re par CUD MN i Output shutoff For the FR A820 03800 75K or higher and FR A840 02160 75K or higher always connect an optional DC reactor FR HEL
104. 38 140 141 W BRIR E E LE E d N 43 0 100 9999 9999 0 100 9999 9999 0 01 10s 9999 9999 EMEN 0 100s lis 0 100s IO 5s EMEN 0 60Hz 9999 9999 0G OG RS TH B Hz Ds 2 1 6 DHz 0 3600A 3 0 120Hz 9999 0 10s 8888 0 30 0 e el x x ec SK zr m Ti c ED N e O 0 5 0 590Hz 0 590Hz 0 1000V 8888 9999 XM k 1 590Hz Q 400 9999 0 4 7 0 2 10 11 20 21 100 102 110 111 120 121 1A a ait 2 il T N 5s 20Hz 2 OHZ x3 a 10 0 50Hz x10
105. 44 45 246 p st BL AS jT s E 9999 bs 2 49 0 1 0 100s 1000 50 1100s 8888 9999 51 d 52 200 200 54 3600s 9999 55 0 15 0 100 258 0 100 259 0 1 l 262 263 65 2 0 3600s 9999 9999 66 Dor 4 o 68 269 71 272 274 1 4000 16 ah 2 Jy Fe oH ves 75 50 300 9999 9999 9 9999 2 PWM 9999 30Hz 400 0 2s AA 100 100 75 e 1 101 105 50 9999 01 10s 999 bs 9999 1 CD
106. MELSOFT GT 052 712 2417 MELSERVO 7 2 0 Tya A CPU 0 052 712 6607 Q173SCCF MELSOFT MT MR MELFA 052 721 0100 m BSE NE es 052 719 4170 MDU RP Res ACB 052 719 4559 052 719 4556 BIRRE EcoServer E Energy B NET 052 719 4557 3 UPS 5KVA FW S FW V FW A FW F 084 926 8300 3 4 1 X2 17 00 X3 4 9 00 16 30 5 9 00 17 00 9 00 16 30 FAX 6 9 00 16 00 TARE FAX
107. fot 554 PD D 3 10 130 0 500A2 0 3600A 61 PTC KO 65535 0 564 0 65535 0 70 571 73 4mA Oo KONKON oo O1 OO On O1 O1 NJ O1 O OO B O1 577 900 1100 il Pr 48 In Vf 7 0 400 9999 19999 02 10 2 s x oo O1 93 25 0 94 0 753 2PID 95 0 B O6 17 3600s 5s 97 1 3600s pone en ea 98 50 430V 900919909 754 2PID SURGIT RS O 590Hz 9999 9999 58 y 4 BASING 9998 55 2PID 0 100 9999 9999 ba PM 10 500A 9999 56 2PID 0 1 1000 9999 10096 ERU 9999 CO 1 4 0 200 100 5 2 8 K 1 I O1 O1 O1 1 C OOs 00 1s 100 O1 Oo CO 00 OO O1 JoJo oo
108. uem E co 10V i panki aman O y l HIE PUR RS 485 f 4 gt mem rm H3 UM Vue LL an qas GND i 2 5V 1 S NM 100nh T AE 2s 2 2 FR A820 03800 75K FR A840 02160 75K FR HEL 23 P1 P2 FR HEL RI1 L11 S1 L21 Pr 178 Pr 189 17 JOG J06 Pr 291 Pr 73 Pr 267 0 5V 0 10V OFF 4 20mA ON 10 2 PTC Pr 561 2W1kQ
109. 3 13 5 FR A800 U V W 2
110. CE Mitsubishi Electric Europe B V Gothaer 8trasse 8 40880 Ratingen Germany EMC CE EMC EMC CE EMC 2004 108 EC EN61800 3 2004 Second environment PDS Category C3 VE First environment Second environment EMC
111. CO CO OIOICO CP CHG T r Md 696 FR A820 0 4K 00046 0 75K 00077 FR A840 0 4K 00023 0 75K 00038 496 FR A820 1 5K 00105 3 7K 00250 FR A840 1 5K 00052 3 7K 00126 3 FR A820 5 5K 00340 7 5K 00490 FR A840 5 5K 00170 7 5K 00250 296 FR A820 11K 00630 55K 03160 FR A840 11K 00310 55K 01800 196 FR A820 75K 03800 FR A840 75K 02160 2 _ FR A820 55K 03160 FR A840 55K 01800 3 FR A820 75K 03800 FR A840 75K 02160 4 FR A820 7 5K 00490 FR A840 7 5K 00250 S FR A820 11K 00630 FR A840 11K 00310 6 496 FR A820 7 5K 00490 FR A840 7 5K 00250 296 FR A820 11K 00630 55K 03160 FR A840 11K 00310 55K 01800 1 FR A820 75K 03800 FR A840 75K 02160 E 7 200V 400V 2 8 FR A8AP 9 FR PU07
112. FR ASF H FR BMF H V F MT BSL MT BSC V F FR ASF H FR BMF HD QIT BSL MT BSC 400v PM EAS 5 R1 L11 S1 L21 M4 0 75 2mm 1 5N m 9 3 3 RS 485 1 L2 IL5 I4 1 IFc 24 SD SoSOCISD SICIS1 S2 Pc DL LE A E uad M EEEEBEEBU sv 0 3 0 75mm FM FM CA CA 1
113. MC MC 2 MC AC 3 OFF ON MC MC PM
114. T J CC UL489 MCCB V 240V A 1 RAE T fe A 1 V 1240V le m pem Sra MCCB A 1 NM 500V RE ep pp SET A 1 EZY e qe le T T e A 1 VV 1I500V ME mm 8 sia C e bo b gt be f fo eum bs pm jm jm pe A 1 US National Electrical Code 1 R L1 S L2 T L3 QU V W UL 75 C
115. 100kA rms 550V 600V 26 as 2 UL cUL UL 508C CSA C22 2 No 14 9 3 National Electrical Code T CC UL489 MCCB Canadian Electrical Code T 2 J CC UL489 MCCB JR 22 UE HL V 240V Mum WR A 1 MCCB A x V 240V A 1 0 ibis S MCCB c m fa A x V 500V geh Le KE A 1 ROUEN A x1
116. 2 20 22 35 38 19999 40 45 50 57 3 51 62 64 67 87 9999 0 400 IO 80 200 2008 77 UE AZ Ie Y TRE f0 590Hz 9999 9999 887 F717 p 1000 4mA A 78 DOR 0 10s 882 0 2 590Hz 9999 883 300 800V Uo 88 0 9999 999 z PS 91 3600s 9999 9999 884 DEGRBS OIA Ghar ANE O 5 885 0 590Hz 9999 6Hz 56 1 000 92 3600s 999919999 886 200 00 9 57 2 OO0 2S ES 15096 718 0 O oO Ce i o lolo o c co nm Go LT oo D lt OQ CD OO CO CO CD By CD oloo oa Tee EN lii CD CD 1 2 S 999 NI 3 WN J O 51 2 53 0 200 Eas eae Y lo 120Hz 20Hz 55 0 1 10 11 QO Ic NJN J O o O1 ee QO CD CD CO a
117. EXT ON NET PU EXT PU 1 2 MON 2 E 2 PRM ACRES IM PM PM Pr 52 Pr 774 Pr 776 FWD LED REV LED LED
118. LED LED US MRS Es STOP RESET Q i BE ME H Pr 992 pe e e Be J 2 Pr 161 0 us i D k SET SETH gt d TAME Pr 52 Pr 774 Pr 776 man as p ETE PU v PU EXT Move PU
119. FA MITSUBISHI ELECTRIC EUROPE B V Czech Branch Avenir Business Park Radicka 751 113e 158 00 Praha5 Czech Republic TEL 420 251 551 470 FAX 420 251 551 471 FA MITSUBISHI ELECTRIC EUROPE B V Russian Branch St Petersburs office Piskarevsky pr 2 bld 2 lit Sch BC Benua office 720 195027 St Petersburg Russia TEL 7 812 633 3497 FAX 7 812 633 3499 FA MITSUBISHI ELECTRIC TURKEY AS Umraniye Branch Serifali Mahallesi Nutuk Sokak No 5 TR 34775 Umraniye Istanbul Turkey TEL 90 216 526 3990 FAX 90 216 526 3995 W sh 7100 8310 2 7 3 ANE eee T100 8310 SERE EIOUODW 7 368 E JU IBS ttti 03 3218 6721 060 9693 2 4 T 1 011 212 3793 mats T9680 001 ESSERE EE ee eee eee eee emer nud aui 022 216 4546 T330 6034 11 Z 34 048 600 5845 T950 6504 2 4 10 025 241 7227 T220 8118 2 2 1
120. V F3 3 0 1000V 106 V F4 4 0 590Hz 9999 107 V F4 4 0 1000V OV 108 V F5 5 10 590Hz 9999 9999 109 V F5 5 0 1000V OV 110 3 3600s 9999 9999 3 3600s 9999 9999 O 1000V 0 590Hz 9999 O 1000V 0 590Hz 9999 OIOIO CO CO 590Hz 999 400 590Hz 31 he pisses VPE SUE FS 1 30 11 Z 121 10 9999 199 PU O 0 1 999 8s 999 PU 0 150ms 9999 D ole 5 Ce CO1 CO o NN 23 NN Oo CD C ej 9999 GEST CL Li AX Jj ras Hi PU CR LF EE T lo 590Hz 60 50Hz 10 0 590Hz 60 50Hz n Wr 4 PID 10 590Hz 9999 VERE 0 10 11 20 21 128 IPID 90 91 100 131 PID 132 IPID 0 100 9999 135 SER OB pi p i 136 MC 0 100s
121. a MCA SHEER EIE Dese ck oC XB 7 v 9 PRBS ABT ena e 400V pide sak Ws SA Ou Mia Cu E Bill SBE e
122. 1 C E OFF N 1 7 EA In n oo NH ae e PM e JT o HRR RTE DR CREN ARA m ZTAK K e ULP a a P N e
123. 6 e 4 FR A820 00490 7 5K FR A840 00250 7 5K 2 FR A820 00630 11K 03160 55K FR A840 00310 11K 01800 55K e 1 FR A820 03800 75K FR A840 02160 75K 7 200V 400V 8 UREA FR ASAP 9 C FR PU07 10 FM CA 11 4X CA 12 60 Pr 178 61 Pr 179 13 WA 92 93 192 193 Pr 190 Pr 194 14 15 4X 400V 7 PU 22 MC
124. 90 18 S1 025 8445 3228 025 8445 3808 568 1 46 18 027 8555 8043 027 8555 7883 9 B 4 401A 407B amp 408 028 8446 8030 028 8446 8630 25 2512 2516 0755 2399 8272 0755 8218 4776 1068 1609 020 8923 6730 020 8923 6715 0308 0769 8547 9675 0769 8535 9682 Wk http cn mi tsubishielectric com 200336 100005 300061 116600 710061 110013 210002 430022 610021 518034 510335 523859 a MITSUBISHI ELECTRIC CORPORATION FR A800 1A2 P50 Specifications subject to change without notice IB 0600493 B 1312 MEE
125. CO eo CO o wy N CO o 3l T A gt CO O1 CD c m bo Bo d d CO co Oc 2 2 32 RS 485 192 384 576 768 ibd 33 34 RS 485 RS 485 35 RS 485 36 IRS 485 RS 485 485 CR LF EEPROM 50 8 0 1 10 11 0 2 10 9999 0 999 8s 9999 150ms 9999 co CD S 9999 B ae NT c on BO ojlo bo 2 10 12 dnt 1 CII eR co co winyle olo o AAEE A i CD 1 9999 18 53 x8 w w j 56 x8 CD at at B E Xl CD 58 x8 5 co CO H CD g3 c Xx co 6 62 x8 63 x8 66 8 67 8 69 8 80 81 8 8 8 NM da e mr CD w ds CD bo CD CO w ujao CO o ex t SEC SI SS vi Im x 93 8 CD CD CD 15 il 17 Ew AI c ojlo ol B oO Ss Bo mn CD N O 21 ur ie m AE UT DEB
126. gt gt gt Oo eo CO J C BR CD N to 500A 9999 2 0 to 3600A Setting Initial range value 51 Second electronic thermal O L relay 9999 Operation panel main monitor selection N FM CA terminal function selection 10 Frequency monitoring HER du to 590Hz 60 50Hz wo Current monitoring 2 ioni reference E enit Restart coasting time 9999 9999 Restart cushion time to 60s Remote function selection Energy saving control selection B 5 c oO o o U O1 l C Ales Sle o eo o CD o CD A F to 500A 9999 2 0 to 3600A 9999 3 Reference value at Reference value at Starting frequency for elevator mode 0 to 10Hz 9999 Retry selection Stall prevention operation reduction starting frequency Number of retries at 0 to 10 101 to fault occurrence 110 Retry waiting time 0 1 to 600s Retry count display erase Special regenerative brake duty 0 to 100 0 to 6 13 to 16 20 23 24 30 33 34 40 43 44 50 53 54 71 Applied motor 70 73 74 330 333 334 8090 8093 8094 9090 9093 9094 PWM frequency 0 to 15 2 selection to 6 25 3 Analog input selection to 7 10 to 17 Input filter time constant O to 8 Reference current 9999 9999 9999 9999 to 5 0 to 590Hz 60 50Hz 10 A N N N N N N N TM O O o O O O OO
127. 0 590Hz 60 50Hz 10 100 E fom sect me 0 300 1 GRIE 1 CH B R 300 we k 0 0 0 0 1 CB 400 150 434 245 1 w 0 100 0 100 100 0 100 AREE CE a00 pa 24 p 4 GRIE 0 400 4 CAR R 0 300 0 500 9999 0 300 0 500 9999 300 o an X N 00 3 e pi ce oc CD 19 lcs 3 52 14 eas 17 20 22 M 35 38 40 45 50 1 100 9999 1 100 255 9999 0 3003 3103 8009 8109 9009 9109 999 1 2 10 13 20 21 9999 9999 O8 12 50Hz 0 0 3 o 1005 ooa 0 101 131 201 229 301 331 401 430 501 531 601 630 701 731 801 831 901 930 1001 1031 1101 1130 1201 1231 9 Di ZE PET IM ai 95 IPM 10096 98 1002 Eyi H PME 1007 359 400 459 500 599 600 659 100 759 800 859 900 959 1000 1059 1100 1159 1200 1259 1300 1359 1400 1459
128. F SF V5RU SF THY PM ON PLG PLG PLG MC MC 2
129. II D 2 J 2 1 50 0 1 0 01 360s 1 0 01 360s 1 0 20000ms 25 1 0 1 10 11 100 226 2 0 01 360s 2 0 01 360s 8 0 20000ms S 1230 3 0 01 360s S 1231 3 0 01 360s S 3 0 20000ms Oms 0 233 3 ine Tib ane 34 4 10 01 360s 5s 4 0 01 360s 5s 1236 4 0 20000ms 1238 5 0 01 360s 1239 5 0 01 360s 1240 5 0 20000ms 1242 6 0 01 360s 1243 6 0 01 360s 1244 6 0 20000ms 1246 7 0 01 360s 1247 7 0 01 360s 1248 7
130. PM PM 14 FR DU08 6 6 1 FR DU08 6 1 1 FR DU08 a b c M d ec ext PRw IN a f O SET ESC 7 5 d REV SIOR RESET h i FR DU08 PU PUI 47 BERN SEAT EXT ON NET PU EXT Ahk PUH AIST TAXI QI SEIT MON 2 PRM IM PM PM D Y T 2 e 5 LED UAR Pr 52 Pr 774 Pr 776 FDR IER Aa IER PLAN REVERSE
131. ave a lt M ININ O Q SN 1 1 YJ m m Kg Kg OIO JI CO 09 x CD CD 103 999 999 999 999 CD O CD NI I or D J ud C J E ht i S OO Xd o we CO 4 CD CD O1 B MR d d PO D Ru SEE XH tT P 1 0 300 9999 P 2 0 300 9999 120Hzg loon ID 0 100 00 0 100 136 E 10 500 9999 9999 2PID 0 300 20 D 500 9999 9999 5 5 oo I s N E hr ND o RU A Y xt C 138 PA E p 300 9999 9999 ID 00 2PID CO ONE 0 300 0 2PID 1 1 5 2PID 2PID 144 2PID 145 2PID EU S v Foo 100 0 146 E ER 3 10 1 3600s 999 65535 1 2 nw E au ho V O Cm C 1 D DO 999 999 999 9999 143
132. co BAIc mr o u o 9999 gt CO ol 0 0 4095 fo 0 9999 fo 0 3 boo 503 1 0 1 99989 0 pem Hu A lal 0 9998 9999 9999 505 516 S 518 S 522 Modbus RTU 0 999 8s P fas 9999 Ee u 47 USB 548 USB 999 8s 9999 9999 4 5 5 3 9999 5 30Hz 9999 7 an 0 0 100 53 PID 9999 a Dx il mec ET H 1 9998 o ei OI 1 CO o 999 999 9999 ol gt w 5 4 P 5 3 10 13 55 1 1 0s 56 0 20 0s 500A x2 3600A 3 60 2 32767 9999 9999 61 PTC uoo 9999 9999 63 0 65535 6 0 65535 2 0 200 9999 Eug 0 10 0s 9999 4 9999 2 94 AXIS on e x O1 O1 O O1 1O11O11 1 1 gt to 1 1 1 TH
133. 2 2V F 2 2 2 0 5 14 17 20 22 35 38 40 45 50 57 61 62 64 67 87 98 100 1 3 5 14 17 18 21 24 32 34 50 52 53 61 62 67 70 87 90 92 93 95 97 98 0 590Hz 0 50Hz 10 0 500A 2 0 3600A x3 0 0 1 d 30s 9999 9999 0 3 11 13 Jii i A 0 500A 9999 mW 0 3600A 9999x3 Ol ofja 99 99 999 99 50 Hz OHz Wlo rR olwo tO 999 FM CA 10 v D v v di Ex Pat H Hr i o Koj CO CO n CO co T xi 99 999 999 075 X C4 RN 0 590Hz YN OT 60 50Hz 10 102 V F2 2 0 590Hz 9999 9999 103 V F2 2 0 1000V 104 V F3 3 0 590Hz 9999 9999 105 VF3 3 0 1000V 106 V FA 4 0 590Hz 9999 9999 107 V F4 4 0 1000V 108
134. SRL CREE RAIA C FRE DR RIE SD BH 12 6 18 4
135. RILTIS L24T L3 gt o E ES Ho ta aN T FR A820 00630 11K FR A820 00770 15K 01250 22K FR A820 01540 30K 2 FR A840 00310 11K 00380 15K FR A840 00470 18 5K 00620 22K FR A840 00770 30K RS 21 em RIA BEI 6 et lt J DOD OO OT RILTISIL2 TILSA U W VI WN NI
136. s A A FR A840 03250 110K to 04810 185K 1 RIL1 Sn TIL3 J N P1 P RILI S L2 TILSIEN P1 l m U LL uf els 9o e P1 f A 95 Power supply Motor DC reactor quy Power supply Power supply DC reactor Motor For option RLL D Pi 2 The terminals P3 and PR of the FR A820 01540 30K are not equipped with screws Do not connect anything to these ER ee NOTE Make sure the power cables are connected to the R L1 S L2 T L3 Phase need not be matched Never connect the power cable to the U V W of the inverter Doing so will damage the inverter Connect the motor to U V and W Turning ON the forward rotation switch signal at this time rotates the motor counterclockwise when viewed from the load shaft The phase sequence must be matched The charge lamp will turn ON when the power is supplied to the main circuit When wiring the inverter main circuit conductor of the FR A840 05470 220K or higher tighten a nut from the right side of the conductor When wiring two wires place wires on both sides of the conductor Refer to the drawing on the right For wiring use bolts nuts provided with the inverter WIRING 7 Main circuit terminals Cable gauge of main circuit terminals and earth ground terminals Use an appropriate cable gauge to suppress the voltage drop to 296 or less If the wiring di
137. td e e e a e e e e a E o oq sm AN ZEREN E6357 e D ND HD 10 50 CCR SLD 10 40 c
138. 3A 3B al RENE We FR DU08 c T2 1 lt AJ E H fz zt BH ossos eus 120Hz 2 0 120Hz EET 0 120Hz IOHz 0 590Hz 60 50Hz 10 0 50Hz 10 OHz OHz 0 3600s PS 5 0 3600s Fe O 500A 2 3 0 3600A 0 120Hz 9999 Hz 5s 20Hz 0 1000V 9999 8888 9999 8888 10 1 590Hz 60 50Hz 10 3Hz 58 2 196 6 5Hz I 15096 O 200 9999 590Hz 9999 9999 1 Oo 2 11 O 12 999 1B 999 1 1 0 590Hz 9 3600s 9999 30 9999 590Hz 9999 9999 O 400 5096 0 590Hz 9999 0Hz 0 590Hz OHz 500A 9999 2 0 3600A 9999 3 CD 096 Hz 999 C 1 999 590Hz 3600A 3 0 1 30s 9999 60s 0 50Hz 10 N D CD OO So Aloo OO OO OO cO CO CcO CO CO OO OO gt CO CO CO CO ork ae s Vr 999 CD 500A 9999 2 O 3600A 9999 3 L B 2 3 5 0 590Hz 0
139. 427 429 30 51 453 s 54 59 Mis gt 56 5 ws gt 58 427 428 Hg 2 2 2 2 2 2 2 2 HALAS Ld 2 HALAS La 2 OO 2 0 400K 9999 40K 1 0 5 100 105 1000 1005 1100 1105 8888 9999 0 150sec 0 1 3 6 13 16 20 23 24 30 33 34 40 43 44 50 53 54 70 73 74 330 333 334 8090 8093 8094 9090 9093 9094 9999 10 14 20 110 114 9999 0 4 55kW 9999 x2 0 3600kW 9999 x3 2 4 6 8 10 9999 9999 eo ceo eo N ceo ceo ol eo CO n ceo ceo ceo Cc O 3 0 400m OQ 9999 9999 3 50 Q 9999 2 0 400m2 9999 9999 3 0 6000mH 9999 2 0 400mH 9999 3 oe 0 6000mH 9999 2 0 400mH 9999 3 add 0 100 9999 x2 99 0 100 9999 x3 0 1 11 101 0 360 Os 4 0 500K 999 Co 00 400V 7 999 o hm H 4 4
140. s TuS 21 pui d 552A Ce SUE FR PU07 tEsSREBESDTE IC CA 17 aOR SeSEHEZJUSX S e 9 NOTE SO COHKSTIUCOUT A RE 8 M
141. 2 20m 200V 220V 150 1 FR A820 00046 0 4K 00167 2 2K FR A820 00250 3 7K FR A820 00340 5 5K M5 M4 FR A820 00490 7 5K M5 MA FR A820 00630 11K 14 14 24 24 5 5 5 5 5 FR A820 00770 15K 7 7 5 5 2 5 4 8 5 14 8 22 6 FR A820 00930 18 5K M8 M6 FR A820 01250 22K M8 M6 B FR A820 01540 30K M8 M6 8 FR A820 01870 37K M10 M8 FR A820 02330 45K M10 M8 FR A820 03160 55K M12 M8 FR A820 03800 75K M12 M8 25 FR A820 04750 90K 50 400V 440V 150 1 FR A840 00023 0 4K 00126 3 7K FR A840 00170 5 5K FR A840 00250 7 5K FR A840 00310 11K FR A840 00380 15K FR A840 00470 18 5K FR A840 00620 22K FR A840 00770 30K FR A840 00930 37K FR A840 01160 45K FR A840 01800 55K FR A840 02160 75K FR A840 02600 90K FR A840 03250 110K FR A840 03610 132K FR A840 04320 160K FR A840 04810 185K FR A840 05470 220K bo Co lI N c COT OTTO1 e ce w NI I MT Ol CD COP RE
142. ioi 200V 100kA rms BUFODIESZGRESSXR RA 264V 400V 100KA rms 550V 600V 2 4 Pr 9 Pr 9 Pr 9 OS ec He Sls E 1 Pr71 1 13 16 50 53 54 sh _10 100 T 6H 2 Pr 9 T _
143. 5 Pr 73 Pr 267 0 5V 0 10V OFF 4 20mA ON 10 2 PTC Pr 561 6 2W1kQ 7 PR PX FR A820 00046 0 4K 00490 7 5K FR A840 00023 0 4K 00250 7 5K PR FR A820 00046 0 4K 01250 22K FR A840 00023 0 4K 01800 55K 8 Pr 195 Pr 196 17 x9 Pr 190 Pr 194 17 10 F C FM Pr 291 11 eS NOTE 10cm II p o
144. O1 J OO O li o J 99 X10 1 NT 5 xu p VE 10 590Hz 9999 9990 57 2PID 0 1 3600s 9009 Ts E Um 0 5008 9600 IN d 167 VIVRE 11 100 100 58 2PID BEA 10 005 9999 PM 0 3000A 0099 3 7 xu VE 10 590Hz 9999 9990 59 PID 0 43 9999 9999 64 40096 2 1 100 100 0 SUE 1 0 100 999 66 400 Lgs VEER Io S90H2 9999 9999 62 0 3600s 999 AM PID 1 5 63 0 100 999 68 mx 1 6 9999 ID 1 5 0 3600s 999 3600s 999919999 40 0 1 5 OO O1 CO S OA eg D e TJ NIN NJ O D CO E 15096 1 5Hz 5096 e ovi ons Se D Co Ju XS xT CO OIO O1 c 1 O 999 999 999 es 999 i
145. Pr 156 RAE 5 PM FR ASF H FR BMF H MT BSL MT BSC Pr 72 PWM ES 5 e FR ASF H FR BMF H V F MT BSL MT BSC V F 400V BB SAE PM ET 5 R1 L11 S1 L21 M4 0 75 2mm 1 5N m 9 3 9 4 2 5 4 1 IIF ClF24 SDISo ISOCISDISICI S11 S2 PC 0 3 0 75mm2 EE ie TE SSE SERN EISE MR Ea ST AUS PRESS
146. 0 5Hz 2 10 100 eC 7X Oc le 72 D 2 UTIS 99 j 9 E 1 7 y LAN 99 2 0 3600s 73 sl 400Hz 99 RA p 1 A 99 zs OIO Co aga O O O O O O O PO O1 O1 C ojo Oo CO CO O 0O0 3 O i 3 RB J MIO J N 3 3 3 3 3 3 Q O NJ JOUB O P oO 1 1 0 025 Hz go C Ju PO M C oro C O olo dE Go OHz 50 BK PID Oo 2 0 7 8 9999 00 O 9 Joo Oy QIN 2 Hz 2 0 40096 30 dr Rid 4 46 2 Hz 47 2 4 2 50 2 4 J O OO 7 OLT 40096 1 SIS 6 UT TERRENO CO 1OO1OO NJ TJ O5 OIO 2 0 3600s 9999 9999 774 1 1 lt 3 5 gt 14 17 9999 75
147. 2 4 8 4 8 EMME m m 16 m USB USB USB m 6 2 IN 14 14 14 14 14 14 14 14 14 14 o OO CO 24 60 j A
148. 5 ime os al a OT O1 oT oT oT oT oF oT To ol ol NINNI N R oO N N a wm Ol 98 15 Undervoltage level eo reduction frequency 1 First free thermal reduction Ou 5 ojo ojoo 9 S O a zo 0 TIO es D 53 Q 3 3 2 E D o amp e 3 2 3 3 22 o eg o il o 6 D usd E o D 3 v a c r o 5 c 3 c S D D e o 5 gu cag N 2 23 gt o o op 0 n ecc coo mI lt D zr J olo CD O O O O ol AR e Q e Q o 5 Ex D Q D 2 Q lt N E e 3 U aS m o Q On Qe O TD p ex lt fo cS D Parameter list Setting Initial range value Acceleration time ata 0 to 3600s Brake opening current e pe po Brake operation Second brake 41 sequence operation 0 7 8 9999 selection Second brake opening Second brake opening Second brake opening B etrentdeteciontime pez s Second brake operation Second brake operation Second brake operation Second deceleration 48 0 1 detection function selection Second brake opening Second brake operation 53 5 Speed smoothing Speed smoothing cutoff frequency 0 to 120Hz 20Hz 54 Analog remote output selection 0 1 10 11 Analog remote output 1 1000 Anal te output 2 10009 Analog remote o
149. IFR A840 90K 02600 IM1O 147 60 10 60 10 feo feo 860 22 30 370 50 IFR A840 110K 03250 M10M12 147 80 10 80 10 feo fso 80 22 3o 30 Jo 7O 35 50 FR A840 185K 04810 FR A840 220K 05470 M12M10 46 100 12 100 12 2x100 2x100 2x100 60 2x470 2x4 0 2x95 2x95 95 FR A840 250K 06100 M12M10 46 100 12 100 12 2x100 2x100 2x125 60 2x470 2x4 0 2x95 2x95 95 FR A840 280K 06830 M12 M10 46 150 12 150 12 2x125 2x125 2x125 60 2x250 2x250 2x120 2x120 120 1 FR A820 55K 03160 FR A840 55K 01800 75 C HIV 600V ABR 50 C 20m FR A820 75K 03800 FR A840 75K 02160 90 LMFC 50 2 200V FR A840 45K 01160 75 THHW 40 C 20m FR A840 55K 01800 90
150. Led0 01s00G5O O med 02e050 O RAG40 03600 90 med0 08250 i00 Rie40 05610320 Led 20 i600 RAG40 04810 185 FR A840 05470 220K 300 150 220 250 325 435 465 498 680 FR A840 06100 250K FR A840 06830 280K OO i x 3 1 FM FR A820 00770 15K 01250 22K FR A840 00470 18 5K 01800 55K FR HEL 1 FR HEL 1 CFR ABRO 7 a ae J 3 8 i 1 ene m 2 BUE Seems mes E i 9 2 Lee rcl Pr LEE agers i SE JERdE rt B th AI Ij I 1 1 1 i FERRA Z JR 1 1 1 1 1 a ES A cen pe Rt EE REN en eet ier mu
151. P N EV 24V OFF 100
152. V 500V A 1 MCCB A x US National Electrical Code R LI S L2 T L3 pH U V W UL 75 CO 200V 400V 100kA rms 264V 100kA rms 550V 600V Pr 9 27 50 1E XE 1 2 Pr 9 100 2 ao i 70 HY 30Hz 3 30Hz s3 20Hz 10Hz diis 3 5 v LH
153. When selecting a DC reactor refer to page 25 and select one suitable for the applicable motor capacity If a jumper is installed across the terminals P1 and P remove the jumper before installing the DC reactor When using separate power supply for the control circuit remove the jumper between R1 L11 and S1 L21 The function of these terminals can be changed with the input terminal assignment Pr 178 to Pr 189 Refer to page 17 Terminal JOG is also used as the pulse train input terminal Use Pr 291 to choose JOG or pulse Terminal input specifications can be changed by analog input specification switchover Pr 73 Pr 267 To input a voltage 0 to 5 V 0 to 10 V set the voltage current input switch OFF To input a current 4 to 20 mA set the voltage current input switch ON Terminals 10 and 2 are also used as a PTC input terminal Pr 561 Refer to the Instruction Manual Detailed It is recommended to use 2W1kQ when the frequency setting signal is changed frequently If connecting a brake resistor remove the jumper between PR and PX FR A820 00046 0 4K to 00490 7 5K FR A840 00023 0 4K to 00250 7 5K The terminal PR is equipped in FR A820 00046 0 4K to 02330 45K FR A840 00023 0 4K to 01800 55K Install a thermal relay to prevent overheating and damage of discharging resistors Refer to the Instruction Manual Detailed The function of these terminals can be changed with the output terminal assignment Pr 195 Pr 196 R
154. amp 9999 ol Oo f CO 100 100 j i 00 00 Ya bo a 1 1 1 1 pmi mE 5s 30Hz bs Ao Do Do Tee Ee Co co co 1 to 1 1 1 61 ui iw CO CD 284 N 85 0 30Hz 9999 100 0 22 P3 yE yb DN p lg ae 87 AU 0 1s 0 3s 288 0 1 2 10 11 O 9999 90 0 1 10 11 20 21 100 FM 1 CA 1 3 5 8 11 9999 iw afo N 91 N p 92 94 UV 95 97 d 0 31 0 247 Pur N CO CD N 200 10096 e pmi ce j NG Nd m Ss es e gt 96 p e eo CO cO CO CO Or co c coc 9999 0 5 1000 9999 9999 eo CO eo CO Md CO CO CO o 32767 9999 N CO Co
155. 1 AR 1 41 2 4 2 4 3 4 4 3 4 4 4 4 4 41 5 4 15 4 See gk O 00 I NO cO cO 69 Y 7 Y 7 7 y 76 7 ojx aje o 0 9999 gt gt FO1 OO CO OO CO CO CO 00 CO hl TE hid hys yaya a D CO Co CO ni EZ E a a ma m ay Ay a VC i EE cj Pu 0 1 10 11 1 4095 2 4095 la 498 o 9999 0 3 502 ESTEE 0 3 503 1 0a 9998 0 9999 505 18 S 22 gogg 9 2 9999 O COD O CO OD O1 BY CO PO CO i O1 O C Nh O1 O1 O1 O1 O1 O1 Or O1 39 547 USB 0 31 bo 548 USB AEFI VIRAR 549
156. 10 101 110 0 1 600s 0 0 0 100 eB 13 160 20 1 333 334 8090 9093 9094 PU PU 8 9 ni4 999 999 999 J 23 J J NIN N NI NJ OD 1 OD CD DD 60 50Hz 10 NJ 1s Nh o ojo PO lt E 6 7 J DO CD CO CO CO nS CD O do CO CO Oo OO CO CO Oo CD DO D O o 55kW 9999 9999 3 1 To bobo 9999 9999 2 0 3600A 1000V 200 400V 10 400Hz 9999 9999 9999 500 9999 R1 9999 3 500 9990 0 3600kW 0 500A 9999 9999 3 0 400mO 0 400mO 3 R2 9999 Ol CD co co m m 6000mH 9999 2 ho 9999 3 Q 6000mH 9999 2 0 400mF 9999 3 00 9999 me 9999 9999 1 m Fil E e olo MY e co co co CO 9999 OV 9999 OV 9999 OV 9999 N 100 V 0 590H 101 V F1 1 102 V F2 2 V F2 2 104 V F3 3
157. 1289 _ 0 200 1290 0 10s 1293 1294 4 0 9999 1295 _ 4 0 9999 2 1297 0 32767 2048 0 1 0 1 0 1 0 1 3 IPM 0 3003 Pr Md 0 1 2 6 FR A820 00046 0 4K 00077 0 75K FR A840 00023 0 4K 00038 0 75K 4 FR A820 00105 1 5K 00250 3 7K FR A840 00052 1 5K 00126 3 7K 3 FR A820 00340 5 5K 00490 7 5K FR A840 00170 5 5K 00250 7 5K 2 FR A820 00630 11K 03160 55K FR A840 00310 11K 01800 55K 1 FR A820 03800 75K FR A840 02160 75K 2 FR A820 03160 55K FR A840 01800 55K 3 FR A820 03800 75K FR A840 02160 75K 4 FR A820 00490 7 5K FR A840 00250 7 5K 5 FR A820 00630 11K FR A840 00310 11K
158. 6 RCD RCM B RCD RCM 7 IEC664 I 400V 2 FR A820 FR A820 01540 30K FR A840 00770 30K IP00 2 IP2X 3 IP54 Lp A E e A iui AE a T Ex Da a zie LII RS 2 FR A820 00105 1 5K 00250 3 7K FR A820 00340 5 5K 01250 22K FR A840 00083 2 2K 00126 3 7K FR A840 00170 5 5K 00620 22K 8 EN60204 C 9 A1 Bl Cl A2 B2 C2 30VDC 0 3A 10 5
159. 95 RH 3 RS EE DISS BH Ce SRD t 20 SHOE 2500m 5 9m sS 10 55Hz X Y Z CR 3 Ic b s ZKSRUS IAA ODE ES ED NN Ae BEOR io ame e Bu E Uy O ES RRY
160. E ECT Signal loss detection E Od po Excessive position fault E MB1 to ee Brake sequence fault E bE Es Brake transistor alarm detection E Sh E E USB USB communication fault communication fault RT rotation deceleration E 11 fault E 13 a E PBT Internal circuit fault SAF Sw Sea E LC i wm E PEH eaeg E Prd pm E 0 E 16 to E 20 User definition error by the PLC function Rating 8 SPECIFICATIONS 8 1 Rating 200 V class m fe see i fs ps fe fs fa a p e fe e orf SY oma pa qus ps pr far ps ps p e que jm m ars m ps e Bs quomo m pos om me en s mee E euren a E pe er er S p la lm ju jm le lw le Em 55 le7 M NIC a a a fa pr fet fe fe a a a 3 316 3 9 6 5 8 E 14 2 21 3 28 9 41 7 es 6 65 5 78 1 106 131 159 198 269 42 152 23 45 s8 705 14 140 170 212 288 s46 3 6 6 82 12 9 19 6 264 38 3 49 3 59 9 72 3 96 9 119 145 180 245 294 A 3 E l 3 2 11 17 5 24 33 46 61 76 90 115 145 175 215 288 ND Unita serma 4 5 7 5 16 5 26 3 36 49 5 E 91 5 us 135 um 218 263 323 432 1 5 5 11 17 5 24 46 76 115 145 175 245 4 5 75 12 des 26 3 36 49 5 i69 91 5 A 135 173 218 263 323 432 SLD 10 60 s 12096 3 s inverse time characteristics at surrounding air temperature 40 C Overload ENS 60 s 150 3 s inverse time characteristics at surroundi
161. M zu oH mj OG OG C ent S 4 MRS Pines od cm n ana O 400 4 R 7 XR 2 2 2 2V F 2 CINE 2 2 Ax FM CA 10 on St gt SIS if dE A EGRE D olo ole o o co GO GJ Po o o m D RU SAN 1A 2A 5 2B
162. MITSUBISHI ELECTRIC INVERTER A800 FR A820 00046 0 4K 04750 90K FR A840 00023 0 4K 06830 280K CD ROM CD ROM J 9 6 INSTRUCTION MANUAL STARTUP ENGLISH Thank you for choosing this Mitsubishi Inverter This Instruction Manual Startup and the enclosed CD ROM give handling information and precautions for use of this product Do not use this product until you have a full knowledge of the equipment safety information and instructions Please forward this Instruction Manual Startup and the enclosed CD ROM to the end user EAFA CFA P JE T RR E EF AE SEES o CD ROM
163. onn E 0 200 9999 9999 0 6000 u s 10000 16000 us 9999 9999 2 0 400Hz 9999 9999 A E BRAC Rr Sz 2 10 999 9999 9999 2 PE 7 9999 9999 CO oN CO CO CO CO CO CO o0 o0 Alw jw COIN OPO X Co a TAN CD Co 1 39 S CO 1 a Tl a d ol Hx N 2 2 2 1 46 100 500 9999 9999 0 9999 9999 0 10 11 20 21 50 51 60 61 70 71 80 81 90 91 100 101 1000 1001 1010 1011 2000 2001 2010 2011 zd A 2PID 0 590Hz 9999 2PID 0 100 9999 999 9PID 0 1 1000 9999 100 2PID 0 1 3600s 9999 1s dil 7 N p n 0 01 10 00s 58 2PID 9999 59 0 1 0 100 9999 765 2 PEPE 0 1 d 2PID on 99 56 5 9999 999 a TATATA CO w o Te eo CO CO Co Co ol ol o o jo jo jo ol ee N Pr Th d x 67 68
164. 0 5H2 tJ Ten dus Pr9 50 240 Pr SR ERE OCA Uc 2 IK 180 RI g 3 6Hz i I SE E j m E 60 B MJ 52 596 230 1 OCR
165. 04 10th Floor Vincom Center 72 Le Thanh Ton Street District 1 Ho Chi Minh City Vietnam TEL 84 8 3910 5945 FAX 84 8 3910 5947 FA MITSUBISHI ELECTRIC INDIA PVT LTD Pune Branch Emerald House EL 3 J Block M I D C Bhosari Pune 411026 Maharastra State India TEL 91 20 2710 2000 FAX 91 20 2710 2100 FA MITSUBISHI ELECTRIC INDIA PVT LTD Gurgaon Head Office 2nd Floor Tower A amp B Cyber Greens DLF Cyber City DLF Phase Ill Gurgaon 122002 Haryana India TEL 91 124 463 0300 FAX 91 124 463 0399 FA MITSUBISHI ELECTRIC INDIA PVT LTD Bansalore Branch Prestige Emerald 6th Floor Municipal No 2 Madras Bank Road Bangalore 560001 India TEL 91 80 4020 1600 FAX 91 80 4020 1699 FA MITSUBISHI ELECTRIC AUTOMATION INC 500 Corporate Woods Parkway Vernon Hills IL 60061 U S A TEL 1 847 478 2334 FAX 1 847 478 2253 FA MITSUBISHI ELECTRIC AUTOMATION INC Mexico Branch Mariano Escobedo 69 Col Zona Industrial Tlalnepantla Edo C P 54030 Mexico TEL 52 55 3067 751 1 670 0836 6 76 079 281 1141 052 719 4337 m ES 732 0802 4 3 26 082 285 21 11 700 0951 606 8 086 242 1900 760 0072
166. 1008 Se OU DLN x5 BAME FRE E BUR VERDE TRAH DUB A AH RUE UE SERERE OMS EE A 6 7 M MERERI 8 9 10 FR DU08 IP40 PU 11 480V Pr 977 12 24 Das 1 1996 EMC 1997 EMC
167. 12 0 01 360s 12 0 01 360s 12 0 20000ms 12 Dot Ol te 270 13 0 01 360s 13 0 01 360s 13 0 20000ms 14 0 01 360s 14 0 01 360s 14 0 20000ms 277 14 1 110 111 278 15 0 01 360s 15 1280 15 15 1282 1284 1285 4 10 9999 fO 1286 4 10 9999 4 th 415 1289 1292 0 1 O 1293 0 1 o 1296 a 1297 au ms NO O D W 3 mo ININ o ojo ool Su au o olo J au FOI TO RS O Su EF au o J du NJ ous W dir om J O Ju EF cm 3lo o W GG O C Ju i
168. 1500 1559 1600 1659 1700 1759 1800 1859 1900 1959 2000 2059 2100 2159 ojlo oje s e um oo ho Oo e ze 1021 1023 1026 1027 ch 1028 2ch 1029 3ch 1030 4ch 1031 Sch 1032 6ch 1033 Tch 238 240 247 1034 Sch 251 254 0 1 000 4 RCI INCI KSIINSI NGI INCI INSCI RYo AIN SISISISISI SIS ALA la EK S TIR 1 5e3 6145 li520 22 9 24 32 35 40 at AD 52 54 61 62 64 67 87 98 201 213 222 227 230 N CO 1041 Ach ass TER E 1046 jit 1047 a 1048 60min min mp 0 1 0 05 3Hz 9999 572 1074 1075 1076 1077 ATK 1 50m 1078 50000kg kg 103 0 3600s 5s 1107 1113 1115
169. 37 40 4 CO SOQ O us e WSS O S Mo IH SC co CO ic 3 M tu 8 8 S 9 600 140096 9999 44 ssl 0 5s 9999 9999 745 aD 0 79999 gggg 45 xs 0 5s 9999 9999 746 100 500 9000 9999 46 s I0 10V 9999 9999 746 p aa E o gogo 9999 im TN 7A iio ld cic Oo QO EA IR oo 10096 A UL dio BCP fo 400 150 toto co Co DR CX ie eo Ip 4 4 la 9 0 300 100 PID 0 500 9999 9999 PID a PID 500 9999 9999 a PID 10 30096 100 erc NNI SER a PU 1 PU 63 0 3 5 14 17 20 22 35 38 40 45 50 57 61 62 64 67 87 98 1 00 94 0 1 10096 9999 9999 9 0 1 100 0096 0 255 9999 9999
170. 4 3 4 3 4 4 4 4 4 5 4 5 4 6 4 6 4 7 4 7 4 8 4 8 4 9 4 9 4 10 4 10 4 11 4 11 4 12 4 12 4 13 4 13 4 14 4 14 4 15 4 15 4 1 2 e e dE TM Si Say mim zr mn sm D o BIVB Z Jr VAN In gt c ceo i NIN m EU P EF Img Im dn c CO 1 Nw 1 N Nw 1 w 1 d E 1 ol 2 x c E J CO Nw 1 o CO gt CO CO N CO gt CO on CO c CO eo Se ened Manel Caneel Masel Manet Manel aoe Ol
171. 69 2 774 1 3 5 14 775 2 YT 20 22 7 50 57 61 62 3 64 67 87 98 100 9999 0 590Hz 9999 9999 0 59007 9999 9999 3600s 9999 9999 3600s 9999 9999 9 io00kWh kih CRAM CRAM EEPROM 07 808 0 400Hz 60 50Hz 10 a M BUR 0 400Hz 9999 9999 1 REAR OL 999 3 999 4 999 999 999 9999 0 CO oid CO CO CO CO joo oo joo oo co CO CO COOININ NIe oloo co S 1 Bo AmA 4mA co 1 188 791 1 N 9 pui m e 8 9 9 ce o eo 1 Bo c c es l pm c P H 00 CO CO N N Ole c Ere l mm d E 1 10 11 lo
172. 697816 Fax 356 697817 e mail paul licari galfatrx com MALTA Getronics bv NETHERLANDS Control Systems Donauweg 10 NL 1043 AJ Amsterdam Phone 31 0 20 586 15 92 Fax 31 0 20 586 19 27 e mail infoautomation getronics com Beijer Electronics AS NORWAY Teglverksveien 1 N 3002 Drammen Phone 47 0 32 24 30 00 Fax 47 0 32 84 85 77 e mall MPL Technology SP Z 0 0 POLAND ul Wroclawska 53 PL 30 011 Krakow Phone 48 0 12 632 28 85 Fax 48 0 12 632 47 82 e mail krakow mpl com pl Sirius Trading amp Services srl ROMANIA Bd Ghica nr 112 Bl 41 RO 72335 Bucaresti 2 Phone 40 0 1 210 55 11 Fax 40 0 1 210 55 11 e mail sirius_t_s fx ro ACP AUTOCOMP a s Chalupkova 7 SK 81109 Bratislava Phone 421 0 7 592 22 54 Fax 421 0 7 592 22 48 e mall SLOVAKIA INEA d o o Ljubljanska 80 SI 1230 DomZale Phone 386 0 17 21 80 00 Fax 386 0 17 24 16 72 e mail inea inea si SLOVENIA EUROPEAN REPRESENTATIVES Beijer Electronics AB SWEDEN Box 426 S 20123 Malmo Phone 46 0 40 35 86 00 Fax 46 0 40 93 23 02 e mall ECONOTEC AG Postfach 282 CH 8309 Nurensdorf Phone 41 0 1 838 48 11 Fax 41 0 1 838 48 12 e mall SWITZERLAND GTS TURKEY Dar laceze Cad No 43A KAT 2 TR 80270 Okmeydani Istanbul Phone 90 0 212 320 1640 Fax 90 0 212 320 1649 e mall EURASIAN REPRESENTAT
173. 7 10 torque continuous hen he option is used 100 foraue 10 ED IE Rated input AC voltage frequency Three phase 380 to 500 V 50 Hz 60 Hz 11 SLD Ea Rated input LD Bo eurent A s ND Traisen BS w Tu MER 1 159 8 3 12 17 24 31 37 44 59 74 88 107 137 165 198 248 275 329 367 417 465 mwweylop fes pr s pr fe v fea ps foe fe fer les lor leo ne er res 1 oe rs oos per ar hos ia Noms 1 ps jer les ow hs fir ea fer er fes er feo fes roe vo ror es fros pes prs es per per amp a f fee far Jos fea fro lr fee lr lr je er les les los no por fres oo joe prs oos bm Es ps os pea pas B17 pos poa pea res pre v har ro rre peo pos pes eoa pev er ovo ss s ps or fis lz3 s pez axe pas rs eor ros Go ras eo ene eo as oov ez je oer oro Br pz ss pesa pas s qos pez pes fra fox ee roe raa en fere pen os per ae per ar ps pr ez Bs pus pra pues pes esa pes re pr os ro ree eo re peo es per ez pe re gs fe v pe m proe opa e ur par pes pes pes os pos pur jer fess Power supply Cooling Self cooling Forced air cooling Approx mas g 2a ps pa fsa OT ey s3 Jes qo 45 2a a1 at as i2 jos ri ee uz t7 fiee 166 jt66 The applicable motor capacity indicated is the maximum capacity applicable for use of the Mitsubishi 4 pole standard motor The rated output capacity indicated assumes that the output voltage is 440 V for 400 V class 3 When an operation is performed with the carrie
174. 9 00 19 00 9 00 17 00 J AR TX TE 052 722 2182 0536 25 0900 55 052 722 2182 MELSEC Q L Qn A A v 7 YA 052 711 5111 MELSEC FX F 052 725 2271 2 052 712 2578 052 712 2579 MELSOFT en v MELSOFT mecum MELSOFT TEE MELSOFT M amp S 7 o 79 SW DEE OSKPOLEM MOP EE en MELSEC QBUB C MES IQ Sensor Solution CPU MELSEC Q CPU 052 712 2830 MELSOFT PX MELSEC QS m MELSEC WS 052 712 3079 MELSEC Safety MERLY h QE8 052 719 4557 523 GOT F900 DU 052 725 2271 GOT2000 1000 A900
175. J NIN co O n5 Oo OO o Qolo 00 NI oO cr oot ami OO OO 2 OO 892 _ 30 150 100 0 1 55KW 2 UEM dive em EEEa e 5 x 3 000 9 gt 14 20 889 2 0 9999 9999 59 4 000 OO 0 1 Z5 E 4 CD cec OS 22 ee oy x sO 5 891 0 4 9999 9999 61 40 9999 9999 Ua a 662 O 300 100 0 3600KW 3 NSOBRESSED 0 1000 A OM 05 RAM 600 1400 1000 01 9988 665 0 20096 100 N o 600 1400 1000 B96 500 9999 9999 5 L EE T A 0 200 100 CRAM s EEPROM RE 897 0 1 1000h 9999 9999 07 E 64 auas 7 08 0 400Hz 0 50Hz 10 0 1 10 9999 9999 999 899 0 100
176. OFF si myl dS Sop ee o EA Urbs gm 0 OSA SAS CL S DIR BESI Re GL DE CU Et UEM
177. P 1 100096 0 Sees 0 590Hz boo Bam 3 0 590H2 9999 9999 21 20s EA 699 5 50ms 9999 9999 22 1 Bs 9999 9999 jo 300 702 0 400Hz 9999 9999 823 xs 1 0 24 CO 1OO1OO CO O O1 OOO NM CO CO CO CO CO CO Ol OO OT OO OO OO CO O CO CO CO CO CO I OD CO 1 CD CO CO CO NO 0 5000mv P 1 Blo G SS0e MSWMg 06 fog rad s 9999 9999 824 Jan kpr 5006 10056 4 acon DOW 707 GERBD t0 999 9999 9999 1 iili 6 711 LO 0 100 9999 9999 gt ms P INTA 72 Lq 0 100 9999 9999 826 1 0 5s 9999 o GERE 0 590Hz 0 200 827 1 i 717 ERI 9999 9999 823 Errazena 0 1000 60 AOTT APAE I Pe __ 9 8000us 830 P 2 0 1000 9999 9999 1 0 590Hz 60 50H l eee ies 31 2 0 20s 9
178. Stop position command 96 9999 97 9999 98 9999 D cr o Co 33 e A eo ER 1 5 5 J 1 e N SiS w z 38 CD CD CD CD CD CD CD CD CD CD CD CD CD N NM N N N N N N gt AR AB R CD CD CD CD CD CD CD CD N eo N O JI gt N AB CD N oo eo e e CD O o O N e N eo 350 Selection 0 1 9999 9999 351 s Orientation speed 0 to 30Hz 2Hz Setting Initial range value Creep speed 0 to 10Hz MEER eem Ro D NL GN 358 Servo torque selection io 13 16 bit data selection 0 to 127 0 Bets Postonsht pes Encoder stop check time 0 to 5s 0 5s 300 os100 hi 8 Number of encoder LE ud detection pio 590Hz 9999 9999 Encoder signal loss 376 ss detection enable 24 disable selection 380 Acceleration S pattern 1 0 to 50 381 Deceleration S pattern 1 0 to 50 382 Acceleration S pattern 2 0 to 5096 2 Deceleration S pattern 2 0 to 5096 Input pulse division CES for zero input 0 to 590Hz Frequency for maximum e uls z mode setting 1 Pre scale setting value 0 to 32767 19 Position command source selection 1 1 Command pulse scaling factor en numerator electronic to 32767 gear numerator Command pulse multiplication 421 denominator electronic 1 to 92767 gear denominator 2 00K 1 to 5 1 20 1 1 Position control gain 0 to 150sec 25sec 1 423 Positi
179. V wsroga pe pe p MN E EE N E N E NCE HIA MCCB 0 TF 0 0 0 00 30 3 US National Electrical Code 200V 100kA rms 264V 400V 100kA rms 550V 600V 26 2 UL cUL UL 508C CSA C22 2 No 14 prn V SORMB mE GE SHRM BET ed DaT UTSES 3 National Electrical Code J CC det MCCB Canadian Electrical Code
180. h9 h9 BA BA OO O ND FOI TO ORKON O POP DO TO NM O1 O1 CD 0 200 0 200 B OFF 0 3600s 9999 254 5 07 15 0 57 258 250 0 1 0 22 IS SEHR 0 62 263 264 1 0 3600s 5s 265 2 266 267 4 0 2 0 268 2690 11 18 o 273 590Hz 9999 SIS Ee e PWM 4 9999 3 79 13096 Nari y 56 O11 NM IN J 23 OO i h 3 C NO CD C CO CD 80 Hz 3s 0 1 0 30Hz 9999 0 1s 3S 1 2 10 1 ALIS 7 6 5 50ms 9999 9999 ELAV
181. measuring Eee NN i 0 to 2 11 12 selection 21 22 N oO e i cs c Sz 3 o gt cto OO otc a co gt lt o lt b 5 o D D o Dc Oo Aa E OD OQ no S O 5 o lt o EX 0 1 TS 0to 590Hz 9999 60 50Hz 10 Power failure 0 to 3600s Power fallure 0 to 3600s 9999 9999 0 to 590Hz 60 50Hz 10 hr b 64 a o O O D D Q o 2 3 o a 0 O O o D Q o 2 E o N e et D 36 oz o S 3 a zE 9g Do CD co go cO Oo amp eo o D 3 5 f A 5 c c selection N N N N N N N N O O O O O O O N O C1 CD N G o o Q o 2 m 9 m 2 ae Setting Initial range value Monitor decimal digits Parameter for manufacturer setting Do not set Stop on contact load torque high speed 2m frequency control Duos selection High speed setting Middle speed setting Current averaging 0 to 590Hz 9999 9999 Current averaging filter time constant Stop on contact 16 cr o A Q e eo 75 excitation current low 50 to 300 9999 9999 speed multiplying factor PWM carrier frequency 0 to 9 9999 2 at stop on contact 0 to 4 9999 5 Brake opening 79 Brake opening current O to 400 130 Brake opening current CD Brake operation time at Brake operation Brake operation time at D
182. o IM mmm mm 2 I ERRK KW TEE a apa iR EM 1 1 10 0 0 3 9 e QT IET 1 A GERI 0 9 p oe wht thee 0 JOG C f 10 2 0 Qt y 5 i VEM TFAU 4 e WM LLCS er IS q meu Q poe p DC24V O 24V DEM iy os an V wm R 10ECH1OV ONT MORR EN esee ANE CE i o BERE 3 D i Enen 1mA 2 1 2W1kO is so 1 183 OCO 10V gt gt C0 TON D Vu paaa RS 485 MEAD 4 0 ARAIYE d 388 Hees seh te fol ssf ny a ae ee E eee GND 5V CE NEM 100mAX
183. oS 5a o a 23 oo Qo Q og 2 lt s O D 2 a V UO a D lt m 2 143 144 146 second PID signal IO to 3 10 to 13 Second output 0 to 3600s 9 interruption detection 1s time 0 to 590Hz 0Hz 900 to 1100 1000 D EX o o 5 o D Q o 147 Second output 148 interruption detection Second output EN E E ER E x Z gt AB ol 2 D 5 G o Qo t 2 Q oO lt D 1150 to User parameters 1 to 50 0 to 65535 b 1199 Target position speed DRIVE THE MOTOR 21 Parameter list Setting Initial range value Start command edge First positioning First positioning 1224 Fst positioning dwell joto20000ms Oms 1225 First positioning sub O 1 10 11 100 function 101 110 111 Second positioning Second positioning 1228 MEC positioning dwell to 20000ms Second positioning 0 1 10 11 100 1233 Third positioning sub O 1 10 11 100 function 101 110 111 Third positioning 1230 acceleration time OMUOUA0S Third positioning Tet deceleration time Sup Uo SUE Fourth positioning 1232 T positioning dwell joto 20000ms oms 1 EIS Pes min e o s formo function 101 110 111 Os LR tor To 1 function 101 110 111 1259 Tenth positioning deceleration time 1260 tenth positioning dwell o to 20000ms oms 22 DRIVE THE MOTOR Pe Name Sange value range value fan ge Fo er
184. or higher and FR A840 02160 75K or higher always connect an optional DC reactor FR HEL When selecting a DC reactor refer to page 25 and select one suitable for the applicable motor capacity If a jumper is installed across the terminals P1 and P remove the jumper before installing the DC reactor When using separate power supply for the control circuit remove the jumper between R1 L11 and S1 L21 The function of these terminals can be changed with the input terminal assignment Pr 178 to Pr 189 Refer to page 17 Terminal JOG is also used as the pulse train input terminal Use Pr 291 to choose JOG or pulse Terminal input specifications can be changed by analog input specification switchover Pr 73 Pr 267 To input a voltage 0 to 5 V 0 to 10 V set the voltage current input switch OFF To input a current 4 to 20 mA set the voltage current input switch ON Terminals 10 and 2 are also used as a PTC input terminal Pr 561 Refer to the Instruction Manual Detailed It is recommended to use 2W1kQ when the frequency setting signal is changed frequently If connecting a brake resistor remove the jumper between PR and PX FR A820 00046 0 4K to 00490 7 5K FR A840 00023 0 4K to 00250 7 5K The terminal PR is equipped in FR A820 00046 0 4K to 01250 22K FR A840 00023 0 4K to 01800 55K Install a thermal relay to prevent overheating and damage of discharging resistors Refer to the Instruction Manual Detailed The function
185. 00620 40 CUF SLD 30 C Ocm 3 FR A840 160K 04320 30cm cia LD ND HD 10 50 mm 10 40 CRBOBUTE X Bom 471 5 5cmx 95 RH GEBORUTS ADEE 90 RH GEEDROZ E 20 65 Csi 2500m 5 9m s 10 55Hz X Y Z 1 2 1000m 2500m 500m 3 3 2 FR A820 0 4K 00046
186. 16 1 1s SiTOP OFF ON t H OFF RES 0 18 ON RES ON Err RES SD 21 V mn x wNIH 22 rE1 rE4 rE6 rE8 E
187. 300 C4 Terminal 4 gain 033 9 command torque 0 to 40096 150 magnetic flux C41 Terminal 4 gain torque 933 9 magnetic flux 0 to 300 100 C42 PID display bias 0 to 500 00 9999 934 9 coefficient 9999 C43 PID display bias analog 099 kaue RR foto 300 la Setting Initial range value C44 PID display gain 0 to 500 00 9999 935 9 coefficient 9999 C45 PID display gain analog Input voltage mode p ione pio poo gg Parametercopy alarm uer PU buzzer control 1 PU contrast adjustment 0 to 63 1 Ol Oo CD Operation panel setting dial push monitor selection 40 to 45 50 to 57 61 62 64 67 87 to 97 100 Droop break point gain 0 1 to 100 9999 9999 Droop break point Fauitiniation 102559995 5999 PM parameter 0 3003 3103 initialization 8009 8109 9009 9109 e C1 97 co Automatic parameter 1 2 10 to 13 9999 setting 20 21 9999 Lq tuning target current 50 to 150 003 Notch filter frequency 0 8 to 1250Hz 004 Notch filter depth 005 Notch filter width 006 Clock year 2000 to 2099 2000 y 301 to 331 401 to 430 501 to 531 E month day 1007 Clock 300 to 359 400 to 459 500 to 559 600 to 659 700 to 759 800 to 859 900 to 959 1000 to 1059 1008 Clock hour minute 2000 to 2059 2100 to 2159 2200 to 2259 2300 to 2359 Trace opera
188. 4 input selection Au Nh GR i nra Current em selection C kn a Frequency detection Selection of automatic restart CS i i i stterinstamaneods C cs 1 B O 0 collector output common power failure olo Sink source common Indicator Frequency meter etc fe type 1mA full scale sic circuit 5 Safety monitor output Safety stop input common SO C Safety monitor output common DCO to 20mA i 1 re ETA uns Analog common T AMO Analog signal output i i d 0 to 10VDC QU DCO to 10V Initial value a Auxil 71 ay t DCO to 5V selectable input NO TXD MN RS 485 terminals poc DC4 to 20mA Initial value i Terminal 4 input gt 4 pcot n TXD TERE Data 1 i pod o 5V i o TXD F d 1 Current input ET Selectable s li ave b 771 transmission Dae aaa ae as eee Ge eae NE ee eh cone ee d D ar 1 1 i Connector for plug in option connection connector 1 1 connector 2 2 i lt e Ta Ei pata i i L RxD 1 reception o u W da rd M ince Eu SS E gt F GND Safety stop signal Shorting E di wire 1 Terminating CCO 5V i resistor i i Safety stop input Channel 1 __ E eee __ _ _ Permissible load curent 100mA Safety stop input Channel 2 Output shutoff DEN For the FR A820 03800 75K
189. 5 Cul CO CD T i N ojojo 1 8 9999 30Hz 400 30 3 1000 4 1000 eoo 001 0 661 o 40 9999 9999 100 vd JE p Ay 63 ua lI 100 200 200 ojo e 3 2 2 fe 1 9998 9998 9999 1 9998 9998 9999 9999 9099 3600s 9999 Is ce co o co CO Op Re ol oO 0 590Hz 9999 9999 100 100 0 590Hz 9999 9999 100 100 0 590Hz 9999 9009 50ms 9999 9999 400Hz 9999 9999 0 5000nV 9999 HIE FA DR ER pe us rad s 9999 10 999 9999 9999 MER Ld cse il UE La 9999 717 e S das 200 9999 9999 UN aa 16000 n s 9999 0 7 9999 9999 25 100 500 9999 9999 2 of rad s 9999 2 Ld 999 999 2
190. 50 25 V X m0 m x mj x A 1000 2 em m NOTE E HBO AIT DRC XS SREDEOIRENICSU s d O 100m 2 2kHz 3 3kHz 400V 40
191. 8484 076 252 5458 06 6458 6911 FA FA FA FA FA MITSUBISHI ELECTRIC AUTOMAITON CHINA LTD 10F Mitsubishi Electric Automation Center No 1386 Hongqiao Road Changning District Shanshai China TEL 86 21 2322 3030 FAX 86 21 2322 3000 961 135 FA MITSUBISHI ELECTRIC AUTOMATION CHINA LTD Beijing Office Unit 908 Office Tower 1 Henderson Centre 18 Jianguomennei Avenue Dongcheng District Beijing China TEL 86 10 6518 8830 FAX 86 10 6518 3907 Before Service FAX 86 10 6518 2938 After Service FA MITSUBISHI ELECTRIC AUTOMATION CHINA LTD Tianjin Office Room 2003 City Tower No 35 Youyi Road Hexi District Tianjin China TEL 86 22 2813 1015 FAX 86 22 2813 1017 FA MITSUBISHI ELECTRIC AUTOMATION CHINA LTD Guangzhou Office Room 1609 North Tower The Hub Center No 1068 Xingang East Road Haizhu District Guangzhou China TEL 86 20 8923 6730 FAX 86 20 8923 6715 FA MITSUBISHI ELECTRIC AUTOMATION KOREA CO LTD B1F 2F 1480 6 Gayang Dong Gangseo Gu Seoul 157 200 Korea TEL 82 2 3660 9630 FAX 82 2 3663 0475 GBFAtyY4 SETSUYO ENTERPRISE CO LTD 3F No 105 Wugong 3rd Road Wugu District New Taipei City 24889 Taiwan R O C TEL 886 2 2299 9917 FAX 886 2 2299 99
192. 90K 04750 FR A840 160K 04320 280K 06830 FR A840 0 4K 00023 132K 0361 0 C 2 C 200V FR A820 0 4K 00046 FR A820 0 75K 000 77 dis FR A820 1 5K 00105 FR A820 2 2K 00167 150 1 FR A820 7 5K 00490 220 FR A820 18 5K 00980 2 FR AB20 75K 03800 4 400V 77A 150 125 140 260 245 m A FR A840 11K 00310 300 285 ii m 435 TUN aa FR A840 250K 061 00 680 300 FR A840 280K 06830 4 3 3 1 FM FR A820 15K 007770 22K 01 250 FR A840 18 5K 004 70 55K 01 800 DC DC FR HEL 1 J FR ABR 7 8 FR HEL 1 8 ONG DE Eoo a RE m eU pes 1 te a E rog 1 R st s iE 4 Xf Pd iun ta mom om m ls 4 a 1 Sag aah aie ay i oie Hn ni me 0 NFB MC L E o E ML a u Ot
193. A820 00630 11K FR A820 00770 15K to 01250 22K FR A820 01540 30K 2 FR A840 00310 11K 00380 15K FR A840 00470 18 5K 00620 22K FR A840 00770 30K RILTIStILM Charge lamp Charge lamp gt i Jumper RTL Jumper oe Jumper Charge lamp RIL1 SiL2 f mis U SU Lam a Lum us Power supply Motor 9 e a Power supply FR A820 01870 37K 02330 45K 1 FR A820 03160 55K 1 RII NII PTP Ll RL1
194. Adobe Systems Incorporated Pentium is a registered trademark of Intel Corporation of the United States and or other countries Other company and product names herein are the trademarks and registered trademarks of their respective owners e Warranty We do not provide a warranty against defects in the enclosed CD ROM and related documents S NOTED This is a personal computer dedicated CD ROM Do not attempt to play it on ordinary audio devices The loud volume may damage hearing and speakers B When playing the enclosed CD ROM on Windows OS Operating environment e The following system is required to read instruction manuals contained in the enclosed CD ROM OS Microsoft Windows XP Professional or Home Edition Windows XP Tablet PC Edition Windows vista Windows 7 Windows 8 CPU Intel Pentium or better processor 128MB of RAM Hard disk 90MB of available hard disk space CD ROM drive Double speed or more more than quadruple speed is recommended 800x600 dot or more Application Adobe Reader 7 0 or more i Internet Explorer 6 0 or more Operating method of the enclosed CD ROM How to read instruction manuals Step 1 Start Windows and place the enclosed CD ROM in the CD ROM drive Step 2 The main window automatically opens by the web browser Step 3 Choose your language by a language choice menu of the page left edge Step 4 Click a manual you want to read in the INSTRUCTION MANUAL list Step 5 PDF manual you clicked
195. BMC EMC BE 2 3 EMC Installation Manual BCN A21041 204 4 5m 5 EMC EN 61800 5 1 CE 1 2 2 3 8 40 C EN60204 C 5 l 4 8 PVC 5 EN TEC u u
196. CO CoO O CD N OO N O ol AR CD N Parameter list Setting Initial range value Remote output data 2 0 to 4095 p PLC function flash Stop mode selection at p02 eommunicaton PoS o 503 Maintenance tmer1 OCio9998 o Maintenance timer 1 505 Speed setting reference 1 to 590Hz 60 50Hz 10 S pattern time at a start S pattern time at a 517 completion of 0 1 to 2 5s 0 1s acceleration S pattern time at a start S pattern time at a 519 completion of deceleration 522 Output stop frequency 0 to 590Hz 9999 9999 Modbus RTU 539 communication check M E 9999 time interval USB communication P emmmeer poem e USB communication check EET to 999 8s 9999 9999 P rotocol selection Cis NET mode operation command source 0 1 9999 9999 1 to 3 9999 9999 selection 0 to 30Hz 9999 9999 99 0 1 to 2 5s 0 1s 548 549 Ol 50 ol BN Ol Ol N Ol CD PU mode operation 0 to 10096 9999 99 command Source 0 to 3 10 to 13 selection 0 1 to 1 0s 0 C1 O1 Ol o O O 5 D D m m o o lt lt D D o o a Q D D lt e 3 c D D O oa oO O O O O ol oO ES Gs o Qo S D Q 2 gt a gt o c 6 gt e lt D O EY c 8 CD N N oO N requency jump range ID deviation limit ID signal operation 0 to 500A 2 selection ZU ated 57 z D m D
197. CSE SD T e PM PM U V W PM A a aoc We V W PM _ PM E AX d N A079 QU V W _ l e STOP RESET e Seis A niii72 ep ans a
198. MITSUBISHI INVERTER GS MODEL FR A820 0 4K 1 INPUT XXXXX OUTPUT XXXXX SERIAL XXXXXXXXX DATE XXXX XX MAERT S71 YAREBA X4FHE S8cxtTetemleaeptse UL CsS3U CU xS Bl FR A820 0 4K 00046 dc purs 4 VA ATIBABX BS BRCSSSN SBMA TK KA GEB FR A820 55K 03160 FR A820 75K 03800 FR A840 55K 01800 FR A840 75K 02160 t 10cm T 20cm i 7 Z CT o FR A840 160K 04320 Zz 5cm 10cmt 6 1 2 E al 11 10cm Il 20cm FR A820 3 7K 00250 FR A840 3 7K 00126 1cm 2 FR A820 22K 01250 FR A840 22K
199. O 3003 3103 PM oe 8109 09 9109 bo 51 9998 9999 9999 0 005 0 co O C2 NYO D gt CO CO ODO CO I ol Rl wn 2 o6 m m no no no no no no co Rn RO olo Ey En pers NS m Oo olo o EEN o BS Co RO Oj s NO M co CO O CO J O1 Ce Ce NO OS 000 007 Bist CH BD 008 B 23 20 PTODF yale Ue 0 m 0 D JE OIOIO CD NO O 2 2 C CD NO 0 9 CEE 2 2 4 100 0 1 3 5 14 17 20 22 24 32 35 40 42 52 54 61 62 64 67 87 98 201 RE 213 222 227 230 238 240 7ch 247 251 8ch 254 000 3 1ch 3 4 4
200. OC c1 Ol 91 Ol co N o On wl N N oO A CD N CO N O ol AR 3 Reset selection disconnected PU detection PU stop selection so a ojl o o 14 A gt pim r Oo N 100 to 103 114 to 117 3 Fault code output Parameter write Reverse rotation prevention selection 0102 Operation mode selection 010 4 6 7 0 4 to 55kW 9999 2 0 to 3600kW 9999 9999 3 2 4 6 8 10 Number of motor poles 12 9999 9999 0 to 500A 9999 Motor excitation current E 9999 N 9 m dex Motor capacity 0 to 3600A 9999 3 Rated motor voltage 0 to 1000V 200 400V 7 Rated motor frequency ve UI 9999 Speed control gain 0 to 20096 9999 9999 Advanced magnetic flux vector N Setting Initial range value 0 to 500 9999 2 0 to 400mO ai 9999 3 0 to 500 9999 2 0 to 400mO xs 9999 3 0 to 6000mH 9999 2 0 to 400mH 9999 3 0 to 6000mH 9999 2 Teco 9999 5 0 to 100 9999 19999 0 1 11 101 00 VIFt first frequency eg 9 7 9999 oto1000V lov 0Oto1000V lov F3 third frequency Hee 0 to 1000V V V V Motor constant R1 Motor constant R2 Motor constant L1 d shaft inductance Ld N ce Cn CD o lt 22 89 8 o gt IE amp zum EN eum c Q O c 2 3 CS 9999 Motor constant L2 q shaft inductance Lq o lt Q o
201. ON OFF connector to minimize interference Refer to Chapter 3 of the Instruction Manual Detailed Do not install a power factor correction capacitor surge suppressor or capacitor type filter on the inverter s output side Doing so will cause the inverter to trip or the capacitor and surge suppressor to be damaged If any of the above devices is connected immediately remove it For some short time after the power OFF a high voltage remains in the smoothing capacitor and it is dangerous A smoothing capacitor holds high voltage some time after power OFF When accessing the inverter for inspection wait for at least 10 minutes after the power supply has been switched OFF and then make sure that the voltage across the main circuit terminals P and N of the inverter is low enough using a tester etc If EV is displayed on the operation panel turn OFF the 24 V external power supply before performing wiring Ashort circuit or earth ground fault on the inverter s output side may damage the inverter module Fully check the insulation resistance of the circuit prior to inverter operation since repeated short circuits caused by peripheral circuit inadequacy or an earth ground fault caused by wiring inadequacy or reduced motor insulationresistance may damage the inverter module Fully check the to earth ground insulation and phase to phase insulation of the inverter s output side before power ON Especially for an old motor or use in hostile
202. THHN 40 3 FR A820 15K 00770 FR A840 45K 01160 70 C PVC 40 20m FR A820 18 5K 00930 FR A840 55K 01800 90 C XLPE 40 CAT BERAD 4 R L1 S L2 T L3 U V W PR PX P N P1 P3 FR A820 5 5K 00340 FR A820 7 5K 00490 PR PX C FR A820 18 5K 00930 C FR A840 110K 03250 FR A840 132K 03610 P C FR A840 160K 04320 C 1 1 1 2 2 16 16 25 16 25 lt6 50 25 50 125 50 25
203. V F5 5 0 590Hz 9999 9999 109 V F5 5 0 1000V 110 111 112 113 115 16 117 18 119 120 121 22 PU U U 125 14 2 26 14 Bi 4 21 PU 3 3 3 BI 3V F 114 3 0 3 3 PU PU PU 0 CR LF 9999 400 150 590Hz 31 48 96 192 384 57 6 768 1152 0 1 10 11 o2 10 9999 0 0 1 999 8S 9999 150ms 9999 0 2 0 9999 2 9999 c 1 1 1 0 590Hz 60 50Hz 10 6 PID 29 129 Pm 0 590Hz 590Hz 9999 0 10 11 20 21 40 43 50 51 60 61 70 71 80 81 90 91 100 101 1000 1001 1010 1011 2000 2001 2010 2011 0 1 1000 9999 1 3600s 9999 100 9999 2 0 c 100 Ei 0 10s 9999 167 Jo 1 10 11 o0 168 LL eL LGS age scope met 0 10 9999 9999 0 9999 9999
204. When an operation is performed with the carrier frequency set to 3 kHz or more and the inverter output current reaches the value indicated in the parenthesis of the rated current the carries frequency is automatically lowered The motor noise becomes louder accordingly 4 The value of the overload current rating indicated is the ratio of the overload current to the inverter s rated output current For repeated duty allow time for the inverter and motor to return to or below the temperatures under 100 load 5 The maximum output voltage does not exceed the power supply voltage The maximum output voltage can be changed within the setting range However the maximum point of the voltage waveform at the inverter output side is the power supply voltage multiplied by about p 6 X Value by the built in brake resistor 7 Value for the ND rating 8 The rated input current indicates a value at a rated output voltage The impedance at the power supply side including those of the input reactor and cables affects the rated input current 9 The power supply capacity is the value when at the rated output current It varies by the impedance at the power supply side including those of the input reactor and cables 10 FR DUO08 IP40 except for the PU connector section SPECIFICATIONS 25 Rating 400 V class eee eee Ae aki oho arf hs he 0 HD 02 fot 075 15 22 37 55 5 t fis 185 22 fso 37 45 55 75 90 t0 132 160 1
205. a short circuit or malfunction due to the unit breakage Use crimping terminals with insulation sleeves to wire the power supply and motor 8 WIRING Main circuit terminals Total wiring length With general purpose motor Connect one or more general purpose motors within the total wiring length shown in the following table The wiring length should be 100 m or less under vector control When driving a 400 V class motor by the inverter surge voltages attributable to the wiring constants may occur at the motor terminals deteriorating the insulation of the motor In this case take one of the following measure Use a 400 V class inverter driven insulation enhanced motor and set Pr 72 PWM frequency selection according to the wiring length 15 14 5kHz or less 9 9kHZz or less 4 4kHz or less Connect the surge voltage suppression filter FR ASF H FR BMF H to the output side of the FR A840 01800 55K or lower and the sine wave filter MT BSL MT BSO to the output side of the FR A840 02160 75K or higher With PM motor Use the wiring length of 100 m or shorter when connecting a PM motor Use one PM motor for one inverter Multiple PM motors cannot be connected to an inverter When the wiring length exceeds 50 m for a 400 V class motor driven by an inverter under PM sensorless vector control set 9 6 kHz or less in Pr 72 PWM frequency selection 9 E BM MM M NN NA eS NOTE e Especially for long distance w
206. atmosphere securely check the motor insulation resistance etc e Do not use the magnetic contactor MC on the inverter s input side to start stop the inverter Since repeated inrush currents at power ON will shorten the life of the converter circuit 1 000 000 times for others frequent starts and stops of the input side MC must be avoided Turn ON OFF the inverter s start signals STF STR to run stop the inverter Refer to page 5 Across terminals P and PR connect only an external brake resistor Do not connect a mechanical brake Do not apply a voltage higher than the permissible voltage to the inverter I O signal circuits Application of a voltage higher than the permissible voltage to the inverter I O signal circuits or opposite polarity maydamage the I O devices Especially check the wiring to prevent the speed setting potentiometer from being connected incorrectly to short circuit the terminals 10E and 5 To use the commercial power supply during general purpose motor operation be sure to provide electrical and mechanical interlocks between the electronic bypass contactors MC1 and MC2 MC1 interlock When using a switching circuit as shown right chattering due to mis configured sequence or arc generated at switching may allow undesirable current to flow in and damage the inverter Mis wiring may also damage the inverter Semele The commercial power supply operation is not available with vector control dedicated
207. ce ol ce A ol kh ol ce N N CO ol X95 2X95 2X 120 X95 2X95 2X120 X100 X100 X100 2X125 X125 2X125 N N N w lv NINININI DO CO CO CO NINININI PO A CO ol CO ol eo ol bo to wsom o M FR A840 00170 5 5K MA FR A840 00250 7 5K M4 FR A840 0031001K MB FR A840 00380 15K MB FR A840 00470 18 5K M6 FR A840 00620 22K MG FR A840 00770 30K IMO FR A840 00930 37K IMB FR A840 01160 45K MB FR A840 01800 550 MB IFR A840 0216075K MO FR A840 02600 90 MO IFR A840 03250010K MIOQUZ FR A840 03610 132K IMIOOH2 FR A840 04320 160K IMI2OHOO FR A840 04810 185K M12010 FR A840 05470 220K M12 M10 FR A840 06100 250K M1210 FR A840 06830 280K m2 0m0 V 4 3x mQ m x m X A 1000 e NOTE 1
208. feros 2x95 fs FR A840 06830 280K MI2M10 46 15012 15012 2125 2 i25 2x125 60 250 z aso 2x20 peo la ForFR A820 03160 55K or lower and FR A840 01800 55K or lower this cable gauge is with the continuous maximum permissible temperature of 75 C HIV cable 600 V class 2 vinyl insulated cable etc Assumes that the surrounding air temperature is 50 C or less and the wiring distance is 20 m or less For FR A820 03800 75K or higher and FR A840 02160 75K or higher this cable gauge is with the continuous maximum permissible temperature of 90 C or higher LMFC heat resistant flexible cross linked polyethylene insulated cable etc Assumes that the surrounding air temperature is 50 C or less and the wiring is in enclosure 2 For all the 200 V class capacities and FR A840 01160 45K or lower this cable gauge is with the continuous maximum permissible temperature of 75 C THHW cable This is assumes a surrounding air temperature of 40 C or less and wiring distance of 20 m or less For FR A840 01800 55K or higher this cable gauge is with continuous maximum permissible temperature of 90 C THHN cable This assumes a surrounding air temperature of 40 C or lower and in enclosure wiring 3 ForFR A820 00770 15K or lower and FR A840 01160 45K or lower the cable gauge is with the continuous maximum permissible temperature of 70 C PVC cable This assumes a surrounding air temperature of 40 C or less and wiring distanc
209. for the CA type The output signals may be used in either the sink or source logic independently of the jumper connector position Jumper connector For sink logic When supplying 24 V external power to the control circuit Connect the 24 V external power supply across terminals 24 and SD The 24 V external power supply enables I O terminal ON OFF operation operation panel displays control functions and communication during communication operation even during power OFF of inverter s main circuit power supply During the 24 V external power supply operation EV flickers on the operation panel Applied 24 V external power specification Input voltage 23 to 25 5VDC Input current 1 4A or less wirinc 11 Safety stop function 3 4 Safety stop function Function description The terminals related to the safety stop function are shown below For input of the safety stop channel 1 Open between S1 and SIC and between S2 and SIC In safety stop mode For input of the safety stop channel 2 Short Other than the safety stop mode Common terminal for terminals S1 and S2 Outputs when an alarm or failure is detected f ircuit fai SO The signal is output when no internal safety circuit RE ema ue ia allure lid ON No internal safety circuit failure 2 failure 2 exists Terminal SO open collector output common In the initial status terminals S1 and
210. of these terminals can be changed with the output terminal assignment Pr 195 Pr 196 Refer to page 17 The function of these terminals can be changed with the output terminal assignment Pr 190 to Pr 194 Refer to page 17 The terminal F C FM can be used to output pulse trains as open collector output by setting Pr 291 Not required when calibrating the scale with the operation panel lt ee e 9 NOTE To Sven a malfunction due to noise keep the signal cables 10 cm or more away from the power cables Also separate the main circuit cables at the input side from the main circuit cables at the output side After wiring wire offcuts must not be left in the inverter Wire offcuts can cause an alarm failure or malfunction Always keep the inverter clean When drilling mounting holes in an enclosure etc take caution not to allow chips and other foreign matter to enter the inverter Set the voltage current input switch correctly Incorrect setting may cause a fault failure or malfunction WIRING 9 6 Terminal connection diagrams CA type x 2 3 4 5 6 7 8 9 FR A820 00770 15K to 01250 22k FR A840 00470 18 5K to 01800 55K DC reactor Brake resistor TE HEL 1 J FR ABR 7 CO Control circuit terminal iu Option DC reactor Brake resistor Sourse logic 1 LY Brake unit FR HEL 1 FR ABR 7 Main circuit terminal I CUN m Option Brake unit Mm Mom mmm kg 1
211. ol 999 His OLE KOLE KOLE KOLE KOLE KOLE KOLE KOLE KOLE KOLE O1 CHI OI c WIM ITN Dory cw Oyo 999 99 1 jt o OO Ol a OOOOINIC lOICIS ayn els e N ojlo 3600s 9999 590Hz 00 1100 000 N wlolololo cl ol ofo 2 N O1 ze 50 50 1 3600s 1 3600s 50 430V 9999 X10 97 999 e A 590Hz 9999 9999 100 0 590Hz 9999 9999 100 0 590Hz 9999 19999 609 PID 2 ce c c eR 405 fum IX AE 71 6 11 3600s 9999 9999 40 641 2 o 642 2 643 55 2 A AZ Bl Re 0 3s 645 82 648 2 0 1 fo 650 2 1 651 2 0 1 653 0 200 fo 654 655 on 11011 O 1 1000 657 2 200 1200 10005
212. only when both the inverter and motor are at a stop When the magnetic contactor is turned ON while the inverter is operating overcurrent protection of the inverter and such will activate When providing MCs to use the commercial power supply during general purpose motor operation switch the MCs after both the inverter and motor stop An PM motor is a synchronous motor with high performance magnets embedded inside High voltage is generated at the motor terminals while the motor is running even after the inverter power is turned OFF Before wiring or inspection confirm that the motor is stopped In an application such as fan and blower where the motor is driven by the load a low voltage manual contactor must be connected at the inverter s output side and wiring and inspection must be performed while the contactor is open Otherwise you may get an electric shock Countermeasures against inverter generated EMI If electromagnetic noise generated from the inverter causes the frequency setting signal to fluctuate and the motor rotation speed to be unstable when changing the motor speed with analog signals the following countermeasures are effective Do not run the signal cables and power cables inverter I O cables in parallel with each other and do not bundle them Run signal cables as far away as possible from power cables inverter I O cables Use shielded cables Install a ferrite core on the signal cable Example ZCAT3035 1330 TDK Ins
213. opens Manual opening of the enclosed CD ROM Step 1 Start Windows and place the enclosed CD ROM in the CD ROM drive Step 2 Select a CD ROM drive example D drive of My computer and click the right mouse button Then click open in the context menu Step 3 Open index html in the opened folder Step 4 The main window opens by the web browser Operates according to the steps from Step 3 of How to read instruction manuals e PDF data of the instruction manual are stored in MANUAL folder on the enclosed CD ROM MEMO REVISIONS The manual number is given on the bottom left of the back cover vi May 2013 IB 0600493 A First edition Addition No 2008 PP pense FR A840 03250 110K to 06830 280K NFor Maximum Safety Mitsubishi inverters are not designed or manufactured to be used in equipment or systems in situations that can affect or endanger human life When considering this product for operation in special applications such as machinery or systems used in passenger transportation medical aerospace atomic power electric power or submarine repeating applications please contact your nearest Mitsubishi sales representative Although this product was manufactured under conditions of strict quality control you are strongly advised to install safety devices to prevent serious accidents when it is used in facilities where breakdowns of the product are likely to cause a serious accident Please do not use t
214. p lo per hos los per hs es per ur es jedes er pe pe e ps p jn fn pe lu ho per pes e ps pes ps per 12 6 116 180 216 260 325 1361 432 481 547 T z P tt 4 1 10 7 t 5 a 3 os 4 amp 3 es 7 is 5 n 1 98 6 153 184 221 276 307 367 409 465 519 581 LD 2 1 J3 4 7 11 5 106 144 180 216 260 325 361 432 481 547 610 1 8 3 n 1 6 5 9 8 1 6 09 6 QA 7 0 8 E 6 m 5 5 5 3 90 1 122 153 184 221 276 307 367 409 465 519 A 3 ND 1 5 2 5 4 6 13 12 17 23 31 38 44 157 a T 144 180 260 1325 361 1432 481 547 HBE mss qq D 18 25 5 34 5 46 5 6D 66 85 5 107 129 165 216 270 184 22D 276 307 367 409 465 fi 0 8 110 144 180 216 260 325 361 432 481 9o on i i9 ae m ae n pum T ae 55 es 216 270 153 184 221 276 307 367 409 110 60s 120 3s 40 C ae 60s 150 3s 50 C 4 ND OUO 150 60s 200 3s 50 C HD 200 60s 250 3s 50 C 34H 380 500v m FR BU2 win 711009 FER 2 ED e 20 FRIE 10 F
215. v eee ae perm p vs emnes pores f vr emer NDW fo e pompes poese f 5s Oms 10 4 2Hz Fifteenth positioning Home position return spee Home position return 1284 Ee ee to 10Hz losHz Home position shift 1265 amount lower 4 digits 0 to 9999 P Home position shift 1286 amount upper 4 digits 0 to 9999 p Travel distance after 1287 proximity dog ON lower 0 to 9999 2048 4 digits Travel distance after 1288 proximity dog ON 0 to 9999 upper 4 digits Home position return Home position return Fifteenth positioning 1280 Fifteenth positioning 0 to 20000ms dwell time EISE ALLCL JAI parameter cear Fauthistoydear om P P P Initi itial value change list IPM initialization Automatic parameter ee setting Group parameter setting 0 1 2 CLR LL CL Err CL r CPY r CHG IPM r Md 2 3 4 5 6 7 8 9 10 1 12 13 14 15 Differs according to capacities 6 FR A820 00046 0 4K to 00077 0 75K and FR A840 00023 0 4K to 00038 0 75K 4 FR A820 00105 1 5K to 00250 3 7K and FR A840 00052 1 5K to 00126 3 7K 3 FR A820 00340 5 5K to 00490 7 5K and FR A840 00170 5 5K to 00250 7 5K 2 FR A820 00630 11K to 03160 55K and FR A840 00310 11K to 01800 55K 1 FR A820 03800 75K or higher and FR A840 02160 75K or higher For FR A820 03160 55K or lower and FR A840 01800 55K or lower For FR A820 03800 75K or higher a
216. we monitor signal output reference current PTC thermistor protection Energization time O o 3 gt Q o lt D fe D D zt 2 3 D 5 Data output mask time 0 to 65535 pu 0 to 65535 0 to 200 9999 9999 Ol 70 71 Multiple rating setting Holding time at a start 999 1 to 4 9999 9999 0 to 3600s 4 9999 detection level 0 to 590Hz 0 900 to 110096 100095 0 to 25 10 i f 0 to 50 10 i 0 to 50 10 AID ue acceleration 0 1 to 3600s ion 0 4 to 3600s 350 to 430V 9999 9999 0 to 590Hz 9999 9999 1 to 100 10096 ion 4 to 100 100 0 to 590Hz 9999 9999 em DRIVE THE MOTOR 19 0 to 10s 9999 55 i 9999 0 5 to 30kQ 9999 1 Q 6 o Oco 9 ve ilcoloz2 2915 QE O1o O EB rere 8 a o 3 mE pez e Seo DO lt a cr o O oc Q F D Ole S g 3 9 j D 76 O N O G D e o w 8 8 gl c SL 2D lt lad S38 cC ciloo c Q D 5 D enm m v S 93 8 o c o Qo D QO co 3 oS ego 8 D o oO o9 Em VY D o3 20 c 5 Q o gt ae o amp y D o 3 o c gt Q e 2 o Q O 4 D ES o o 2 S Hz S
217. which has a thick wire insulation 0 3 to 0 75 BT 0 75 11 VC 0 75 NICHIFU Co Ltd NH 69 3 Insert the wires nes a socket When using a single wire or stranded wires without a blade terminal push the open close button all the way down with a flathead screwdriver ang insert the wire gt Open close button Flathead screwdriver 10 WIRING Control circuit terminal Wire removal Pull the wire while pushing the open close button all the way down firmly with a flathead screwdriver e QL LIS Open close button Flathead screwdriver PPPLLLLLLLELELILLELL oon NOTE When using stranded wires without a blade terminal twist enough to avoid short circuit with a nearby terminals or wires During wiring pulling out the wire forcefully without pushing the open close button all the way down may damage the terminal block Usea small flathead screwdriver tip thickness 0 4 mm tip width 2 5 mm If a flathead screwdriver with a narrow tip is used terminal block may be damaged Commercially available products as of February 2012 Driver SZF 0 0 4 x 2 5 Phoenix Contact Co Ltd Place the flathead screwdriver vertical to the open close button In case the blade tip slips it may cause an inverter damage or injury Wiring precautions Itis recommended to use a cable of 0 75 mm for connection to the control circuit terminals The wiring length should be 30
218. 0 1 55kW 2 o 3600kW 3 0 7 3 0 1 9999 9999 0 500 9999 9999 897 898 899 HH SE N Ae He Sb HB Q c 292 UT 125 903 9 ca OF c ww ca lt 0 ME Fy 900 slPM CA 900 jer E z Df 2 0 300 0 1 V AI SIE s gt 1000h 9999 9999 BV e UE ER 0 1 10 9999 9999 0 100 9999 19999 2 0 590Hz OHz 0 2 60 50Hz 10 2 100 HT eo 2 x eo 4 0 590Hz H Bo woo DIS IT IT m 4 0 300 20 cor Bo cor d CS 9 DB WT i WT WT NT 9 pf 1 1 PU PU 0 100 9 WIRE EE RE l L aoo o ib i 49 PID PID PID PID
219. 0 4K FR A840 00038 0 75K FR A840 00052 1 5K FR A840 00083 2 2K FR A840 00126 3 7K x FR A840 00170 5 5K FR A840 00250 7 5K FR A840 00310 11K FR A840 00380 15K FR A840 00470 18 5K FR A840 00620 22K FR A840 00770 30K 4 ouruiE DIMENSIONS FR A840 00930 FR A840 01160 FR A840 01800 FR A840 02160 FR A840 02600 FR A840 03250 1 FR A840 04320 160K to 06830 280K 3 0C O gt O WI CS EE EE ESS CE IL JE JE JE JE IL JL 3 Unit mm odel 37K 45K 55K 75K 90K 110K FR A840 03610 FR A840 04320 FR A840 04810 FR A840 05470 FR A840 06100 FR A840 06830 132 160 498 185K 220K 250K 280K Terminal connection diagrams 3 WIRING 3 1 Terminal connection diagrams FM type 2 3 4 5 6 7 8 9 10 1 FR A820 00770 15K to 01250 22K DC reactor Brake resistor FR A840 00470 18 5K to 01800 55K FR HEL 1 cad FR ABR 7 DC reactor Brake resistor Sink logic X Brake unit FR HEL 1 FR ABR 7 Main circuit terminal i257 x Option E Aero d doen Brake unit O Control circuit ter
220. 00 to 800V DC380 DC760V 7 level Regeneration avoidance 884 lat deceleration detection O to 5 sensitivity Regeneration avoidance 885 compensation frequency 0 to 590Hz 9999 6Hz limit value Regeneration KNEES voltage gain 0 to 200 100 B88 Free parameter 1 Oo9999 9999 B89 Free parameter Oo9999 S599 Cumulative power monitor digit shifted times Dos 2299 9999 B92 oadfacior 3010 150 100 Energy saving monitor 0 1 to 55kW 2 Rated inverter 893 lreference motor inv capacity 0 to 3600kW 3 capacity Control selection during 894 commercial power 0 to 3 supply operation 3999 C0 FM CA terminal es ee o eo o D DE 9i S Terminal 1 bias speed C14 Terminal 1 gain 918 9 frequency speed 8 C15 i 5 918 o Terminal 1 gain speed 0 to 300 100 C16 Terminal 1 bias 0 to 40096 096 command torque 919 9 magnetic flux C17 Terminal 1 bias torque 919 magnetic flux 0 to 300 Terminal 1 gain 920 9 command torque 0 to 400 150 magnetic flux C19 Terminal 1 gain torque 920 magnetic flux 0 to 300 100 C8 930 Current output bias x9 11 C9 Current output bias fp paupe em C10 Current output gain 931 signal 0 to 100 100 89 1 i Current output gain 0 to 100 100 o current 9 8 Terminal 4 bias command torque 0 to 400 032 o orq magnetic flux 0 C39 Terminal 4 bias torque 932 9 magnetic flux 0 to
221. 0A 9999 3 500A 9999 x2 3600A 9999 3 400 590Hz 400 bs 6 9999 100 CO 50 5 8 ME 4 CO CD ol 5 CO ce 59 CO eo CO o CO i 60 2 64 65 866 ERES NUAESE 67 999 CO e 50 5Hz 50 CO CO Hi 8 11 7 m 5s 1 CO ce bo c Jl 400Hz 3 ERE UE His CS e E N sri 87 87 i 3 8 874 875 CO OLT RAN Urb IEEE 0 Its lOs il 0 400 150 200 f 1000 b lii DC380 83 CO 84 0 800V DC760V 7 885 ce 590Hz 0999 N i 86 88 CO 200 9999 9999 00 999 9999 0 4 9999 9999 892 _ RE 93 894 95
222. 0V Pr 72 PWM 15 14 5kH2 9 9kHz 4 4kHz FR A840 55K 01800 FR ASF H FR BMF H FR A840 75K 02160 MT BSL MT BSC PM PM 100m PM 1 1 PM 400V PM 50m Pr 72 PWM 9 6kHz
223. 1 Three phase x_ Inrush current Ly limit circuit a in p IL T L3 SUPPI EMC filter eo Earth Ground J 5 o o ON OFF T OFF connecter Fr NN L Relay output 8 Reverse rotation start Relay output 1 Terminal 4 input selection Current input selection Selection of automatic restart after instantaneous power failure US E Fault output Start self holding selection High speed i Multi speed Middle speed Relay output 2 selection n i Low speed rr Open collector output 9 Jog operation n i Running i Second function selection OUp to frequency Output stop Instantaneous z power failure Reset Overload fire i Sink source common Open oollector output 0 Contact input common 24V 24VDC power supply Common for external power supply transistor 24V mn power 24 PU supply input Common terminal O D 5 desee connector
224. 1 1 1 ol ol Jw m ol RT OL 16993 5814 17 18 21 24 32 94 50 52 54 61 62 67 70 87 98 0 10Hz 9999 0 1 9999 0 1 10 11 0 3 10 13 uum 56 um on x AM 1 ol ceo 60x14 c a 0 590Hz 9999 1 eio eo um fem Syn CO s AIM o Ajlo N 999 999 999 94 OO 100 9999 9999 95 10 2 96 OLlll101 1 165 OA 509 2A 2B 3A 3B Ram 0 1 9998 Hi WE ls 4 bo NN 2 60 61 100 c 100 v Fi 1 0 590Hz 9999 9999 101 V F1 1 0 1000V It OIOTIOTIO1 eo gt Ol EE CO O1 CO N a9 CO CO c CO WO eo co CO CO CO CO 0 2 0 3600s 2
225. 150 Output current detection signal delay time oia gt 0s Zero current detection Zero current detection 0 to 10s nee ime Voltage reduction selection during stall 0 1 10 14 1 prevention operation validity condition 0 10 selection Stall prevention operation selection 0 to 31 100 101 RT signal function OL signal output timer 0 to 25s 9999 S 47 48 EX E gt A ol Em EX A Ol On N Ol CD 54 55 n Ql O ER ol AM terminal function selection 32 to 34 50 52 to 54 61 62 67 70 87 to 90 Cn Oo Automatic switchover 59 frequency range from 91 to 98 bypass to inverter 0 to 10Hz 9999 9999 operation 60 User group read Frequency setting key 61 lock operation selection 0 1 10 11 Automatic restart after 62 linstantaneous power 0 to 3 10 to 13 failure selection First cushion time for First cushion voltage for Stall prevention 65 operation level for restart 0 to 400 150 Output current detection 66 signal retention time 0 to 10s 9999 0 1s Output current detection operation 0 1 10 11 selection O e eo o N A Se e Watthour meter clear p 10 9999 Operation hour meter User group registered display batch clear 9999 0 to 16 om User group registration 0 to 1999 9999 9999 User group clear 0 to 1999 9999 9999 o co U amp D D Sg amp ES o Q D 5 o
226. 2 9 2 0 status 01 VIF first frequency voltage V F2 second frequency V F2 second frequency voltage 04 F3 third frequency 02 03 lt 05 06 F4 fourth frequency uR RO frequency 08 VF5 fifth frequency 9999 09 E frequency 0 Third acceleration 0 to 3600s 9999 9999 deceleration time 0 to 30 9999 9999 0 to 590Hz 9999 ees 0 to 40096 150 0 to 590Hz OHz PU communication 48 96 192 384 192 spee 576 768 1152 PU communication stop bit length data length n 1s UO V PU communication parity 0 to 10 9999 1 0 0 1 to 999 8s 9999 9999 0 to 150ms 9999 9999 Ce 0 to 590Hz 60 50Hz 10 n 0 to 590Hz 60 50Hz 10 PID control automatic 0 to 590Hz switchover frequency 9999 0 10 11 20 21 40 to 43 50 51 lt 0 9999 0 ERO eo BS 11 12 hird deceleration time hird torque boost Third V F base frequency Third stall prevention operation level Third stall prevention operation frequency EN E EN ENS AB CD oO 4 z o o c me em E Q G D 9 S eo o ol eo aE N Ex x Cn detection PU communication station number N n ENS Oo x R N eo Q o 3 zi e 2 9 9 o 2 D E D o Z 3 o on D Oo Re c N Ex PU communication check time interval PU communication waiting time sett
227. 2 50 383 50 8 385 P 397 xs ala 4L PET I 1 D 18 399 xs 1000 0 2 Baa VIDA fake 2 23 25 hue 74 p a 27 28 29 46 1 376 13 6 20 23 24 30 33 34 40 43 44 50 53 54 70 73 74 330 333 334 8090 8093 8094 Bh ololojlolo Oi 5s DS 999 999 999 CD CD O1 60s 9999 CO oO CD i 024 999 ololololololojlo IO O1 590Hz 590Hz me 60 50Hz 10 CO CO CO P gt CO 386 393 8 CO Ke CD seg 20s Ce CD 8 IN CO CO OO CD e CD CD T I C o O PO O1 T 6 32767 O CD N J ey 3 32707 T i Oy COD M cO cO CO 25sec 0 0 150sec 100 5s T Co EM C O1 O 27 EM 32707 400K 9999 f
228. 40 01160 45K PVC 70 CC 40 C 20m FR A820 00930 18 5K FR A840 01800 55K XLPE 90 C 40 CUF HEE HEM 4 RAL1 S L2 T L3 U V W PR PX P N Pl1 P3 FR A820 00340 5 5K FR A820 00490 7 5K PR PX CO FR A820 00930 18 5K FR A840 03250 110K FR A840 03610 132K PA FR A840 04320 160K i ol c MIO MIO M10 M12 M10 M12 M12 M10 M12 M10 M12 M10 el Ol O1f DOP DOP Hs DO Bo ce olola oto 3 s ol C1 Ol ol oil O1 DOP DOJ 5 5 J DO OLN Of COP DOP DOT DOP DOP REP RP Rey Rey Rey Ay n 4 4 5 Q B jejm pnr n J Co DI DO COP RE POP ATHY M EE 4 4 8 8 4 4 4 4 ol ce ol c bo ce bo 25 ft j O1
229. 5 1173 1 218 10263 323 432 1519 10 60s 120 3s 40 2096 60s 150 3s C 50 ND 5096 60s 200 3s 50 D 20096 60s 25096 3s C 50 C 5 3 48 200 240V AR FR BU2 7 150 3 ED 110096 KJUZ 10096 ae 10 3 EDxe 2 ED 6 20 m FR ABR 150 10 ED 100 10 ED Mog bdo 3 200 240V 50Hz 60Hz em D ND D Oo I OI Se 1 w o COD Oo 2 1 SiS O oO SO I CO mi LD OO WS D ND ER O1 lt O FS D O x Ei zy Ox a gt m3 170 264V 50Hz 60Hz 5 Be so ss s ez es ws 51 628 pos pez us ie e pe pes Eie o 475 esan o s les ez es js we 502 pas leoo lie we ve 207 pss es Jase 432 SO hoga as les fios ai 226 s4 2 ons foo fees s wo ier ue 265 s ao HO fps kbo fos os a ms jasa laa2 pos
230. 63 MITSUBISHI ELECTRIC TAIWAN CO LTD No 8 1 Industrial 16th Road Taichuns Industrial Park Taichung City 40 768 Taiwan R O C TEL 886 4 2359 0688 FAX 886 4 2359 0689 FA MITSUBISHI ELECTRIC FACTORY AUTOMATION THAILAND CO LTD 12th Floor SV City Building Office Tower 1 No 896 19 and 20 Rama 3 Road Kwaeng Bangpongpang Khet Yannawa Bangkok 10120 Thailand TEL 66 2682 6522 31 FAX 66 2682 6020 FA MITSUBISHI ELECTRIC ASIA PTE LTD 307 Alexandra Road Mitsubishi Electric Building Singapore 159943 TEL 65 6470 2480 FAX 65 6476 7439 2 aly aly al 16 Jl Aly al 852 800 al 0 19 00 WB 9 00 17 30 19 00 32 9 00 24 FA FA AY FA FA PT MITSUBISHI ELECTRIC INDONESIA Gedung Jaya 11th Floor JL MH Thamrin No 12 Jakarta Pusat 10340 Indonesia TEL 62 21 3192 6461 FAX 62 21 3192 3942 FA MITSUBISHI ELECTRIC VIETNAM COMPANY LIMITED Hanoi Branch Unit 9 05 9th Floor Hanoi Central Office Building 44B Ly Thuong Kiet Street Hoan Kiem District Hanoi City Vietnam TEL 84 4 3937 8075 FAX 84 4 3937 8076 i7 37FAE2A2 MITSUBISHI ELECTRIC VIETNAM COMPANY LIMITED Unit 01
231. 85 220 250 Sip 18 29 je fes o f3 9 24 29 je ja 59 71 88 137 ftes 198 248 275 329 367 417 465 521 eee Se lee a ee ee Eee a ae s i bos car 11 t9 3 66 84 M10 137 275 329 367 TNIN a e EE e Ea 361 432 481 547 E Ea a 32 4a A 10 7 nae 213 254 i323 40 on 655 i 98 6 153 184 221 276 307 367 409 465 519 581 11 5 106 M44 180 216 260 325 361 432 481 547 610 wo L aS ai 6 5 9 8 Hm Aes 247 298 cal 485 59 723 90 1 122 153 184 221 276 307 367 409 465 519 curren r D initial setting 1 5 ae 4 le o 12 M7 23 391 110 444 180 216 260 325 361 432 481 547 9 9 13 5 18 25 5 34 5 465 5 n 855 167 129 165 216 270 184 221 276 307 367 409 465 e 6 2 i 23 31 110 M44 180 216 260 325 361 432 481 23 58 13 5 18 25 5 34 5 46 5 57 66 85 5 107 109 65 216 270 153 184 221 276 307 367 409 sD 10 60 s 12096 3s NIS time characteristics at surrounding air temperature 40 C ties 120 60 s 15096 3 s inverse time characteristics at surrounding air temperature 50 C current rating id ND initial setting 15096 60 s 20096 3 s inverse time characteristics at surrounding air temperature 50 C 200 60 s 250 3 s inverse time characteristics at surrounding air temperature 50 C Regenerative Maximum brake torque
232. 94 367 A 3 ND 3 5 8 Y 17 5 24 33 46 61 76 90 115 145 i75 215 288 8346 ded 4 5 7 5 12 os 5 26 3 36 49 5 69 91 5 114 135 173 218 263 323 432 519 1 5 3 5 11 17 5 24 33 46 61 76 90 115 145 175 215 288 4 5 7 5 12 i 5 26 3 36 49 5 69 91 5 114 135 173 218 263 323 432 6619 110 60s 120 3s 40 C E ipa 60s 150 3s 50 4 ND OU 150 60s 200 3s 50 E po 60s 250 3s 50 3 200 240V FR BU2 FR ABR 150 645 1 e UNUS em WW EEEEPLE 3 200 240V 50Hz 60Hz 170 264V 50Hz 60Hz Le m B9 12 15 7368 62 8 n IE i si si 28 5 58 2 e ND ERE lis hoe her h 22 6 44 2 mo o fer fe po pr pe fee es ho mp bs by ks qus a oe ee I M Sie i re ai ie p ee ei al is TRIS IE IER SS kVA ao ND 15 24 4 54 86 fB 7 m3 30 o7 43 57 69 82 ll ll 132 ie se ez des de else en D ii al per US or US 2L we fae MO MG 90 9 PR 2
233. 99 100 6 o A gt e e e Q L o adjustment Brake operation selection peed deviation time xcitation ratio Terminal 4 function assignment to 2 to 100s to 100 oo 2 5 i o e ES E D D eue Ol 53 54 8 j oo Co Co ol gt gt eo CO oo CO m co Cn Oo A 5 0 to 500A 9999 Torque current Rated PM motor current 0 to 3600A 9999 3 0 to 500A 9999 is 9999 0 to 3600A 9999 3 to 40096 50 to 590Hz 5Hz Torque monitoring TEETH to 40096 150 AM output filter to 5s Terminal 1 function 9 Current output filter 0 to 5s 9999 Second motor torque current Rated PM motor current Torque detection Low speed detection O eo CO 64 65 eo eo j o O 67 co O Co eo CO Ex op oO e Speed detection Input phase loss protection selection ill i to 400Hz 0Hz 74 OLT level setting to 40096 5096 75 Fault definition 1 Speed feed forward control 877 model adaptive speed control 0 to 2 selection filter Speed feed forward Load inertia ratio 0 to 200 times o SJ oN N 873 8 Speed limit A B Oo Setting Initial range value a feed forward 0 to 1000 Regeneration 882 lavoidance operation 0 to 2 selection Regeneration 883 lavoidance operation 3
234. 999 9999 9 GRE oe a 724 GERAD 0 7 9099 9999 Soc ELA I JM cos 0008 JS QUE 1 GRE 0 300 100 JEN pes p 833 xs 2 O 0 1s 9999 9999 725 00 500 9999 9999 yee SS NCE Da 834 P 2 0 500 9999 9999 738 2 E ARISE O 5000m V 9999 nE rad s 9999 835 2 0 500ms 9999 9999 1 739 2 Ld 0 100 999910909 836 2 0 5s 9999 9999 Eu ou 300 740 2 La 0 100 9999 9999 2 O 0 1s 9999 9999 a 4909 150 0 30096 10096 35 0 100 0 nai Bot sBENED 0 200 9999 0 3 24 25 9999 9999 60 00 0 60001 1 Egg 1400 gggg 742 2 10000 9999 73 16000 us 9999 e 7 l WU Pam 0 100 0 100 10096 0 14 99 2 Beeg 1400 9999 743 2 0 400Hz 999919999 43 5 14 19 01s ms 999 S T OleOle Om OM co oo 7 BO JIN x Mo wo dil M O1 Noo c 41 B
235. 9999 9999 86 0 400Hz 9999 wowmre X 87 Z 0 9998 9999 10 0 1 SRL TIES 9999 11 l 10 12 999 FRE BE s TREE TET BB C ho i gt OO OO o C CO CO CO CO 10 d OO OO OO OO Oo OO CO CD D Oo CO OO CO OO 9998 olole olo e v CO1 CO CO CO CO CO od 3 00 9098 ii iens m um 10 3600s 9999 1s E EE T 45 0 400 9999 m CET ILE 15 2 AT 0 590Hz 9999 9999 Bt6 roma FL DATEL WD 52 BB VIE RUX SEN c DUM 0 590Hz 0 Hz n 300 O O O O O CO OO ND CO O CO Ec 93 2 1 1 1009 100 17 Ec 0 590Hz 60 50H2 10 2 NN 0 590Hz 0 590Hz 9999 9999 200 m 05 2 2 1 100 100 E 10 2 2 conr 99oglgoo 20
236. A AUSTRIA Wiener Stra e 89 A 2500 Baden Phone 43 0 2252 85 55 20 Fax 43 0 2252 488 60 e mail office geva co at Getronics b v BELGIUM Control Systems Pontbeeklaan 43 B 1731 Asse Zellik Phone 32 0 2 467 17 51 Fax 32 0 2 4 67 17 45 e mail infoautomation getronics com TELECON CO 4 A Ljapchev Blvd BG 1756 Sofia Phone 359 92 97 44 058 Fax 359 92 97 44 06 1 e mail BULGARIA AutoCont Control Systems s r o Nemocnicni 12 CZ 70200 Ostrava 2 Phone 420 0 69 615 21 11 Fax 420 0 69 615 21 12 e mail CZECHIA louis poulsen DENMARK industri amp automation Geminivej 32 DK 2670 Greve Phone 45 0 43 95 95 95 Fax 45 0 43 95 95 91 e mail pia lpmail com UTU Elektrotehnika AS Parnu mnt 160i EE 10621 Tallinn Phone 372 6 51 72 80 Fax 372 6 51 72 88 e mail utu utu ee ESTONIA URHO TUOMINEN OY Hevoshaankatu 3 FIN 28600 Pori Phone 358 0 2 55 08 00 Fax 358 0 2 55 088 41 e mall FINLAND UTECO A B E E 5 Mavrogenous Str GR 18542 Piraeus Phone 30 0 1 42 10 050 Fax 30 0 1 42 12 033 e mall uteco uteco gr GREECE EUROPEAN REPRESENTATIVES MITSUBISHI ELECTRIC IRELAND EUROPE B V Irish Branch Westgate Business Park Ballymount IRL Dublin 24 Phone 353 0 1 419 88 00 Fax 353 0 1 419 88 90 e mail sales info meuk mee com ALFATRADE LTD 99 Paola Hill Paola PLA 08 Phone 356
237. AFABTIER O 7 0 JB OO NID CO PO C CD OO CD CD DO IR NO OO O1 C NO OO O O OO NI DOP PO PO 00 CO CO Ou CO Co lt _ gt gt 11 20 21 FM 91 M 0 0 1 3 5 8 11 0 2 UV 20096 100 Elta a mes 6 99 100 JINA i 199 9999 9999 97 Occo 1000 9998 9999 298 32767 9999 9999 299 0 1 9999 RS 485 31 0 247 _ 6 12 24 48 32 RS 485 96 192 384 576 768 1152 ND M CO h NM 93 CO i NM PMP no IM KO Oo gt Oo C 96 CD O MY CO CO Ko w co co 18 TF 1 OJOO CO CD Pol To ol oC oloso o On CO alol o 5 S 485 S 485 5 485 0 2 S 485 CR LF EEPROM SAA
238. B1 C1 A2 B2 C2 DC30V 0 3A 10 5 29 11 3 LD ND HD 10 50 map Li ee 95 RH 95 RH 95 RH J CC UL489 MCCB EL pe pe o po po lO vs IO s egemale 9 pe pe pe pe qus lm lm Wa 5 e 9 jo jo jo no so le A 1 V ee e e fo mm E S ERa m pm pm pm m m m lm MCCB A 1 350 450 500 700 900 1000 V 500V 500VBE S o o e p e p e lo p pe fo e e ro sim BEER e m p e fs I Im is hm perge e qe ls p p je lo fo lo m ho n A 1
239. D Q g o J o D ob o EX N N 18 DRIVE THE MOTOR Setting Initial range value STF terminal function STR terminal function 6 80 RL terminal function selection 81 RM terminal function 1 selection RH terminal function selection 0 to 20 RT terminal function 22 to 28 37 selection 42 to 47 50 51 60 to 62 selection 76 to 80 87 92 i i 93 9999 12 selection MRS terminal function selection CO CO CO AB CD N 2 S D 3 2 D h S 2 QO o z CO ol c o G D 5 3 E h c 2 QO o CO o O D 5 3 e Q o 2 EN co NJ 4 5 CO CO 4 5 D 3 Bu G Q o zx Oo RES terminal function selection RUN terminal function 0 to 8 10 to 20 22 1 i i 38 to 54 56 57 60 selection 61 63 64 68 70 e D E c Q E o 2 O D 5 3 EL h c Q o 3 4 5 62 2 3 4 n IPF terminal function 79 84 85 90 to 99 92 Saeco 100 to 108 110 to 116 120 122 93 i 125 to 128 selection 130 to 136 4 FU terminal function selection d Ast CEI CGY 164 168 170 179 ol gt UJ O D EX 3 2 h c Q lt o 2 i i 184 185 selection 190
240. D 10 to 40 C 14 to 104 F 20 to 65 C 4 to 149 F 20 to 65 C 4 to 149 F Ambient humidity 9596 RH or less 9596 RH or less 9596 RH or less Maximum altitude 2500m 8202 feet 2500m 8202 feet 10000m 32808 feet Wiring protection Class T Class J Class CC fuse or UL 489 Molded Case Circuit Breaker MCCB must be provided T or UL 489 Molded Case Circuit Breaker MCCB must be provided Rated fuse voltage V 240V or more Without power Fuse Maximum factor improving 15 20 30 40 150 175 200 allowable rating reactor A With power factor improving reactor 15 20 20 30 50 70 125 150 200 Molded case circuit breaker MCCB 15 15 25 40 410 150 Maximum allowable rating A 1 Rated fuse voltage V 240V or more 240Vormore o aaa Fuse Maximum _ factor improving 225 allowable rating reactor improving reactor Molded case circuit pid MCCB Rated fuse voltage V 500V or more 500V or more o O See eee ee ee Fuse Maximum _ factor improving allowable rating reactor oe reactor Maximum allowable rating 1 Rated fuse voltage V 500V or more Without power Fuse Maximum factor improving 200 allowable rating reactor A 1 A With power factor eo oo improving reactor Molded case circuit n MCCB Maximum allowable rating by US National Electrical Code Exact size must be chosen for each installation Short circuit ratings 200 V class Suitable For Use in A Circuit C
241. DC FR HEL DC UPA Pd 23 eg NE P1 PH DC lt R1 L11 S1 L21 Pr 178 Pr 189 17 JOG JOG Pr 291 Pr 73 Pr 267 0 5V 0 10V OFF BRAN 4 ee a el a 2W1kO PR PX FR A820 0 4K 00046 7 5K 00490 FR A840 0 4K 00023 7 5K 00250 PR FR A820 0 4K 00046 22K 01250 FR A840 0 4K 00023 55K 01800
242. ED 6 20 10 FR ABR 100 10 ED 100 6 ED 3 48 380 500V 50Hz 60Hz 11 J CD C o gt OO Do PE 8 89 Ney x C1 c J gt O1 J gt om ND kp _ f Xt ail SY ot 83 gt EA ct CO NO CO 550V 50Hz 60Hz 5 ee NO REE 3 62 fes frealiralzasfer pos jee ses pos oe 134 naa 160 ore peo os ses ase faex pa Cua NO Comm es ar fos loa s ho fea la7 la3 le7 foo las oe rro 197 res roe eas ens sao pen loro HP iat fr gs Jar jos joa pio ho fea lr la7 as for Jee les le 10 ror ves ioo ee ys ee Be7 NTE EC 60500 wn a ae es ps be bs s o7 ev fes es rs hs Tes Tor Jo fe Boh pre po o7 res ros fice 4 2 440V 3 ur m C 2 4
243. ED SD BESTS 1 FM FM CA CA 1 ROWE CRBC VTS cuc eee eer 2 2 Het Ji 201 2 2 e L Al 075 10GY A 025 10 Al 0 75 10GY GB 0 25 2 ALTWIN 2x0 75 10GY C MTW 3
244. EHR FR ABR ET l 100 OR 10 ED 100 648 6 ED idi 3 380 500V 50Hz 60Hzx11 323 550V 50Hz 60Hz ca nie sD 32 5 4 7 8 109 16 4 22 5 31 7 M0 3 48 2 58 4 76 8 97 6 115 141 180 216 260 325 361 432 481 547 610 683 EX L CM RI EA CC TER 3 EMI ES PCR EI GER S E POMPE FS ET SEC EM nv EM TO n ND 2 EE ER ETE ER FERE OW OM CO FENSTER FM EN E P PR Ecl po fa es piger fos fs freon ho ho pa ho as o pes pe er e sD H2 5 41 5 9 83 12 17 24 31 37 44 59 74 88 107 137 M65 198 248 275 329 367 417 465 521 pp ESI T a E S SN E S as aa FH TO SR 2 79388 kVA o ND 1 7 2 8 4 7 6 3 9 4 13 fiz 24 31 37 43 57 69 83 102 110 M37 165 198 248 275 329 367 417 wf er es qi du qn fer dr ds ho ly lo lo Te luw dr qs ue re prs fes or Siew ee ee ee ae ee ee mq mE eI 1 LEER Gl 3d pae 4 2 il 200V 220V 400V bom 440V 3 3kHz AREER Zs Fane UR A USER X a LRL EAD amp DER EBEN TRUE EERE CTL SE NOR BII DIE EPL
245. IVES MITSUBISHI ELECTRIC RUSSIA EUROPE B V 12 1 Goncharnaya St suite 3C RUS 109240 Moskow Phone 7 0 95 915 8624 02 Fax 7 0 95 915 8603 e mall STC Drive Technique RUSSIA Poslannikov per 9 str 1 RUS 107005 Moskow Phone 7 0 95 786 21 00 Fax 7 0 95 786 21 01 e mall JV CSC Automation UKRAINE 15 M Raskovoyi St Floor 10 Office 1010 U 02002 Kiev Phone 380 4 4 238 83 16 Fax 380 4 4 238 83 17 e Mail mkI csc a kiev ua SHERF Motion Techn LTD ISRAEL Rehov Hamerkava 19 IL 58851 Holon Phone 972 0 3 559 54 62 Fax 972 0 3 556 01 82 e mall i A Sons S A800 FR A820 00046 0 4K 04750 90K FR A840 00023 0 4K 06830 280k SAR 1 9922 e 3 2 2c eee 4 3 UU 5 4 i 13 5 i 14 6 15 7 Arr 21 ff 23 GARD PFPA O ELPA HA AER AH E BI sid AURERE KADRA P iay t Mta
246. PC S2 and PC and SIC and SD are respectively shorted with shorting wires To use the safety stop function remove all the shortning wires and then connect to the safety relay module as shown in the following connection diagram x2 Atan internal safety circuit failure the operation panel displays one of the faults shown on the next page e nunmmmmmmmmmmmm eS NOTE Usethe terminal SO to output a fault and to prevent restarting of the inverter The signal cannot be used as safety stop input signal to other devices Connection diagram To prevent automatic restart after a fault occurrence connect the reset button of a safety relay module or a safety programmable controller across the terminals SO and SOC The reset button acts as the feedback input for the safety relay module or the safety programmable controller FR A800 qi LE Js CPU ASIC RESETE qv JD Emergency stop button LE gt Safety relay module I Safety programmable controller Safety stop function operation Short Short ON Open Open 1 Atan internal safety circuit failure the operation panel displays one of the faults shown below 2 SAis displayed on the operation panel when both of the S1 and S2 signals are in the open status and no internal safety circuit failure exists 3 ON Transistor used for an open collector output is conducted OFF Transistor used for an open collector output is not conducted 4 N A denotes a condition whe
247. RLI SILA M IriL3 U FR A820 55K 03160 i FR A840 37K 00930 55K 01800 1 RIL1 SL2 TL3 NI 2e ee elelelelelele TILS N UP PI P3 FR A820 75K 03800 90K 04750 1 FR A840 110K 03250 185K 04810 PH Hd IRLHSL2HTIL3 Phim iU Vi Wig M apt e 90 9o 9
248. ROP RO e gt f em O1 ol 2 2 bo dx ol N T ol 4 EET 5 5 3 4 4 5 4 6 i 2 2 3 5 ill 5 5 2 2 8 i i O1 se 2 d 4 5 24 5 50 16 X100 FR A840 06100 250K M12 M10 46 2X 100 FR A840 06830 280K M12 M10 46 2X125 FR A820 03160 55K FR A840 01800 55K HIV 600V 2 75 C W 50 20m FR A820 03800 75K FR A840 02160 75K LMPC 90 C 50 2 200V FR A840 01160 45K THHW 75 C 40 C 20m FR A840 01800 55K THIN 90 C 40 C 3 FR A820 00770 15K FR A8
249. aed 6 00 1400 1000 CO 03 c 05 06 o CO CO XK CO 1400 1000 elo ld mI CO CO ce c CO o o 400 9999 16 17 o 0 2 1 21 1 20s 333s 22 5s 9999 9999 1 0 Is 001s ERREFE iil P 1 1 1 ce e ce i o 500 100 0 500ms MORBIS 1 2 2 2 2 2 2 8 24 25 9999 9999 x8 1 600 9999 1400 9999 PERE 2 600 1400 9999 pem Oo ooo 55 0 BENT s 101 ww PETERE ET 1 PEIPER ET 1 Jp 24 5ms Or CO CO CO FR ann CO NN Bo 9999 Co Co 3 9999 999 999 999 9999 CO Hx X CO CO CO CO NN on x CO os 1 X CO c 400 9999 CO NN CO x CO e 400 9999 9999 CO NN CO 200 Peg 100s 100 1 4 9999 500A 9999 2 360
250. al FM pulse train output OFF Sink ionic 60Hz 9999 terminal FM equipped model Terminal AM analog voltage output 0 to 10VDC 9 same as the power supply voltage CA Terminal CA analog current output 0 to 20mADC 8888 terminal CA equipped model Terminal AM analog voltage output 0 to 10VDC ON Source lagie ahiz 95 of the power supply voltage Capacity plate Rating plate A MITSUBISHI INVERTER C Inverter model MODEL FR A820 00046 Input rating INPUT XXXXX Output rating OUTPUT XXXXX Inverter model FR A820 00046 1 Serial number SERIAL XXXXXXXXX Serial number SERIAL XXXXXXXXX DATE XXXX XX Production year and month 9o Bm mm mmm m mm mmm mum eS NOTE Hereinafter the inverter model name consists of the rated current and the applicable motor capacity Example FR A820 00046 0 4K Inverter placement Installation on the enclosure Install the inverter on a strong surface securely with screws Leave enough clearances and take cooling measures Avoid places where the inverter is subjected to direct sunlight high temperature and high humidity Install the inverter on a nonflammable wall surface When encasing multiple inverters install them in parallel as a cooling measure Clearances front Clearances side FR A820 03160 55K orlower FR A820 03800 75K or higher
251. amp IJ ho O 20 22 28 37 42 47 83 IRT 50 51 60 62 AU 64 74 6 185 JOG 5999 90 86 88 ISTOP ES B 5 6 _ 62 17 TJ FF A ean T 0 8 10 20 22 25 28 30 36 38 54 56 57 50 81 63 64 68 70 79 84 85 90 0 IRUN H L CO SU PF tit FRESE aie ek ws FU ABC1 B ABC2 308 9999 13 8 15 0 590Hz 9999 9999 0 Soft PWM O 1 41 0 1 1 2 1 4 0 1 101 105 1 cO O1 200 208 300 96 9999 Is Po PO PO CD CO TO h O _ Is DO POT MI Is I 43 DO Is O1 1 O 50 9999 9999 0 01 10s 10 9999 9999 0 0 _ 4 NI 49 a 0 100s 1000 50 1100s 8888 9999 2999 1 51 DOP ho
252. apable of Delivering Not More Than 100 kA rms Symmetrical Amperes 264 V Maximum e 400 V class Suitable For Use in A Circuit Capable of Delivering Not More Than 100 kA rms Symmetrical Amperes 550 V or 600 V Maximum Appendix 2 Instructions for UL and cUL Standard to comply with UL 508C CSA C22 2 No 14 General precaution CAUTION Risk of Electric Shock 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 ATTENTION Risque de choc lectrique La dur e de d charge du condensateur de bus est de 10 minutes Avant de commencer le c blage ou l inspection mettez l appareil hors tension et attendez plus de 10 minutes Installation The below 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 surrounding air temperature humidity and ambience of the inverter will satisfy the above specifications Refer to Wiring protection For installation in the United States Class T Class J or Class CC fuse or UL 489 Molded Case Circuit Breaker MCCB must be provided in accordance with the National Electrical Code and any applicable local codes For installation in Canada Class T Class J or Class CC fuse o
253. art and RUN signals no fault signal will be output and the RUN signal will be kept ON because the inverter CPU is down Provide a speed detector to detect the motor speed and current detector to detect the motor current and consider the backup system such as performing a check as below according to the level of importance of the system Start signal and actual operation check Check the motor running and motor current while the start signal is input to the inverter by comparing the start signal to the inverter and detected speed of the speed detector or detected current of the current detector Note that the current is flowing through the motor while the motor coasts to stop even after the inverter s start signal is turned OFF For the logic check configure a sequence considering the inverter s deceleration time In addition it is recommended to check the three phase current when using the current detector Command speed and actual operation check Check for a gap between the actual speed and commanded speed by comparing the inverter s speed command and the speed detected by the speed detector Inverter Controller Sensor speed temperature air volume etc System failure To the alarm detection sensor WIRING 13 9 PRECAUTIONS FOR USE OF THE INVERTER The FR A800 series inverter is a highly reliable product but incorrect peripheral circuit making or operation handling method mayshorten the product life or damage the pro
254. as 2 GET 4 MEAN Ait 800x600 Adobe Reader 7 0 Internet Explorer 6 0 CD ROM ER 1 Windows CD ROM CD ROM 2 3 4 5 PDF CD ROM ER 1 Windows CD ROM CD ROM 2 CD ROM Cf D HF 3 index html 4 3 PDF CD ROM MANUAL MEMO Y dd x N
255. ce that will turn OFF power when a fault signal is output must be configured Otherwise the brake resistor may excessively overheat due to damage of the brake transistor and such causing a fire Do not connect a resistor directly to the DC terminals P and N Doing so could cause a fire Be sure to perform daily and periodic inspections as specified in the Instruction Manual If a product is used without any inspection a burst breakage or a fire may occur Injury Prevention The voltage applied to each terminal must be the ones specified in the Instruction Manual Otherwise burst damage etc may occur The cables must be connected to the correct terminals Otherwise burst damage etc may occur The polarity and must be correct Otherwise burst damage etc may Occur While power is ON or for some time after power OFF do not touch the inverter as it will be extremely hot Touching these devices may cause a burn Additional Instructions The following instructions must be also followed If the product is handled incorrectly it may cause unexpected fault an injury or an electric shock Transportation and Mounting Any person who is opening a package using a sharp object such as a knife and cutter must wear gloves to prevent injuries caused by the edge of the sharp object The product must be transported in correct method that corresponds to the weight Failure to do so may lead to in
256. cidents such as damage to the machine when the inverter fails for some reason Also at the same time consider the system configuration where a failsafe from outside the inverter without using the inverter is enabled even if the inverter fails Interlock method which uses the inverter status output signals By combining the inverter output signals to provide an interlock as shown below an inverter failure can be detected Chapter 5 of the Fault output signal ALM signal Instruction Manual Detailed Inverter protective function Operation check of an alarm contact operation Circuit error detection by negative logic Chapter 5 of the Inverter operating status Operation ready signal check Operation ready signal RY signal Instruction Manual Detailed Chapter 5 of the Instruction Manual Detailed Logic check of the start signal and running Start signal STF signal STR signal vertes manne stats signal Running signal RUN signal Start signal STF signal STR signal Chapter 5 of the Output current detection signal Y12 Instruction Manual signal Detailed Logic check of the start signal and output Inverter running status current Backup method outside the inverter Even if the interlock is provided by the inverter status signal enough failsafe is not ensured depending on the failure status of the inverter itself For example if an inverter CPU fails in a system interlocked with the inverter s fault st
257. ctor MC provided on the input side of the inverter at a fault occurrence shuts off the control power to the inverter therefore the fault output will not be retained Fault or alarm indication When a fault or alarm occurs the operation panel display automatically switches to a fault or alarm indication Resetting method When a fault occurs the inverter output is kept stopped Unless reset the inverter cannot restart Refer to page 23 When any fault occurs take an appropriate corrective action then reset the inverter and resume the operation Not doing so may lead to an inverter fault and damage Inverter fault or alarm indications are roughly categorized as below Error message A message regarding operational fault and setting fault by the operation panel FR DU08 and parameter unit FR PU07 is displayed The inverter does not trip Warning The inverter does not trip even when a warning is displayed However failure to take appropriate measures will lead to a fault Alarm The inverter does not trip An alarm can also be output with a parameter setting Fault When a protective function activates the inverter trips and a fault signal is output For the details of fault displays and other troubles also refer to the Instruction Manual Detailed The past eight faults can be displayed using the setting dial Refer to page 16 7 1 Reset method for the protective functions The inverter can be reset by perfor
258. duct Before starting operation always recheck the following points Use crimping terminals with insulation sleeves to wire the power supply and the motor Application of power to the output terminals U V W of the inverter will damage the inverter Never perform such wiring After wiring wire offcuts must not be left in the inverter Wire offcuts can cause an alarm failure or malfunction Always keep the inverter clean When drilling mounting holes in an enclosure etc take caution not to allow chips and other foreign matter to enter the inverter Use an appropriate cable gauge to suppress the voltage drop to 2 or less If the wiring distance is long between the inverter and motor a voltage drop in the main circuit will cause the motor torque to decrease especially during the output of a low frequency Refer to page 9 for the recommended cable gauge Keep the total wiring length within the specified length In long distance wiring charging currents due to stray capacitance in the wiring may degrade the fast response current limit operation or cause the equipment on the inverter s output side to malfunction Pay attention to the total wiring length Refer to page 9 Electromagnetic wave interference The input output main circuit of the inverter includes high frequency components which may interfere with the communication devices such as AM radios used near the inverter In this case activate the EMC filter turn ON the EMC filter
259. e control Real sensorless vector control may start the motor running at a low speed even when the start command STF or STR is not input The motor may run also at a low speed when the speed limit value 0 with a start command input It must be confirmed that the motor running will not cause any safety problem before performing pre excitation Do not modify the equipment Do not perform parts removal which is not instructed in this manual Doing so may lead to fault or damage of the product e Since pressing key may not stop output depending on the Usage The electronic thermal relay function does not guarantee protection of the motor from overheating It is recommended to install both an external thermal and PTC thermistor for overheat protection Do not use a magnetic contactor on the inverter input for frequent starting stopping of the inverter Otherwise the life of the inverter decreases e The effect of electromagnetic interference must be reduced by using a noise filter or by other means Otherwise nearby electronic equipment may be affected Appropriate measures must be taken to suppress harmonics Otherwise power supply harmonics from the inverter may heat damage the power factor correction capacitor and generator When driving a 400 V class motor by the inverter the motor must be an insulation enhanced motor or measures must be taken to suppress surge voltage Surge voltage attributable to the wiring cons
260. e of 20 m or less For FR A820 00930 18 5K or higher and FR A840 01800 55K or higher this cable gauge is with continuous maximum permissible temperature of 90 C XLPE cable This assumes a surrounding air temperature of 40 C and in enclosure wiring 4 The terminal screw size indicates the size of the terminal screw for R L1 S L2 T L3 U V W PR PX P N P1 P3 and the screw for earthing grounding The screw size for PR and PX terminals of FR A820 00340 5 5K and FR A820 00490 7 5K is indicated in parentheses The screw size for earthing grounding of FR A820 00930 18 5K or higher is indicated in parentheses The screw size for P terminal for connecting an option to FR A840 03250 110K or FR A840 03610 132K is indicated in parentheses The screw size for earthing grounding of FR A840 04320 160K or higher is indicated in parenthesis Ho p js s m lo e e f 2s ps 9 5 The line voltage drop can be calculated by the following formula Line voltage drop V 8 x wire resistance mO m x wiring distance m x current A 1000 Use a larger diameter cable when the wiring distance is long or when it is desired to decrease the voltage drop torque reduction in the low speed range e m m mmmmmmmmmmwmw eS NOTE Tighten the terminal screw to the specified torque A screw that has been tightened too loosely can cause a short circuit or malfunction A screw that has been tightened too tightly can cause
261. e the UL listed copper stranded wires rated at 75 C and round crimping terminals Crimp the crimping terminals with the crimping tool recommended by the terminal maker Short circuit ratings 200 V class Suitable For Use in A Circuit Capable of Delivering Not More Than 100 kA rms Symmetrical Amperes 264 V Maximum 400 V class Suitable For Use in A Circuit Capable of Delivering Not More Than 100 kA rms Symmetrical Amperes 550 V or 600 V Maximum Motor overload protection When using the electronic thermal relay function as motor overload protection set the rated motor current in Pr 9 Electronic thermal O L relay Operation characteristics of electronic thermal relay function This function detects the overload overheat of the motor stops the operation of the Pr 9 50 setting of Pr 9 100 setting inverter s output transistor and stops the output The operation characteristic is shown on inverter rating 1 2 of inverter rating 1 2 the left c T i m gt e 30Hz or more 3 When using the Mitsubishi constant torque motor aa 25g 20Hz Operation range 1 Set one of 1 13 to 16 50 53 54 in Pr 71 This provides a 100 continuous E og 10Hz Range on the right of h istic in the Eos A characteristic curve torque characteristic in the low speed range IJS 9 Non operation range 2 S t th t d t f th t P 9 c 5 0 5Hz Range on the left of 2 Set the ra
262. e wiring cover removed Otherwise you may access the exposed high voltage terminals or the charging part of the circuitry and get an electric shock Even if power is OFF do not remove the front cover except for wiring or periodic inspection You may accidentally touch the charged inverter circuits and get an electric shock Before wiring or inspection LED indication of the operation panel must be switched OFF Any person who is involved in wiring or inspection shall wait for at least 10 minutes after the power supply has been switched OFF and check that there are no residual voltage using a tester or the like The capacitor is charged with high voltage for some time after power OFF and itis dangerous e This inverter must be earthed grounded Earthing grounding must conform to the requirements of national and local safety regulations and electrical code NEC section 250 IEC 536 class 1 and other applicable standards A neutral point earthed grounded power supply for 400 V class inverter in compliance with EN standard must be used Any person who is involved in wiring or inspection of this equipment shall be fully competent to do the work The inverter must be installed before wiring Otherwise you may get an electric shock or be injured e Setting dial and key operations must be performed with dry hands to prevent an electric shock Otherwise you may get an electric shock Do not subject the cables to scratches excessive s
263. eceleration detection 0 1 function selection 6Hz 0 3s 85 N N N N N N RM N N N N N Co CO CO Co Co N N N N gt CD N eo CO O A CD Overspeed detection frequency Excessive speed O to 30Hz 9999 9999 deviation detection frequency 286 Iproopgan Oo100 IO Droop filter time constant Droop function 288 activation selection Oina WO 289 Inverter output terminal 5 to 50ms 9999 filter Monitor negative output 0 1 10 11 20 21 100 FM type 1 CA type Automatic acceleration Acceleration deceleration separate selection UV avoidance voltage N 91 Pulse train I O selection e e Ze Oo N a 0 to 200 100 Frequency change 95 lincrement amount TT setting 0 to 6 99 Password lock level 100 to 106 199 9999 0 to 5 Password lock unlock 1000 to 9998 9999 Frequency search gain 0 to 32767 9999 Rotation direction detection RS 485 communication 010247 RS 485 communication UA 2 speed gt 576 768 1152 RS 485 communication stop bit length data length RS 485 communication parity check selection RS 485 communication retry count RS 485 communication 0 to 999 8s check time interval RS 485 communication to 150ms 9999 9999 waiting time setting Communication operation command 1 source Communication speed Communication startup RS 485 communication CRILF selection Communication EEPROM 0 4 write selection 7 Communication error count
264. eed maximum jo to 590Hz 120Hz 2 frequency Base frequency voltage nen pod x dd 8888 Acceleration deceleration reference 1 to 590Hz 60 50Hz 10 frequency 0 to 40096 15096 Acceleration 9999 0 14 0 to 120Hz ud N N N N CD N deceleration time increments Stall prevention operation level Torque limit level Stall prevention operation level compensation factor at double speed to Multi speed setting 4 0 to 590Hz speed to 7 speed 9999 Multi speed input 0 1 compensation selection Acceleration TE deceleration pattern 111 120 121 0 to 200 9999 NO SA ce wj OO C2 CD N N N Co selection Regenerative function selection Frequency jump 1A Frequency jump 1B 3 Frequency jump 2A 0 to 590Hz Frequency jump 2B 9999 Frequency jump 3A Frequency jump 3B 7 Speed display Up to frequency sensitivity Output frequency detection Output frequency 999 999 999 999 999 999 0 1 to 9998 0 to 100 10 0 to 590Hz 6Hz detection for reverse 0 to 590Hz rotation 9999 Second acceleration Second deceleration 0 to 3600s Second torque boost 0 to 30 9999 9999 Second V F base 0 to 590Hz 9999 frequency 9999 Second stall prevention econd stall prevention 0 to 590Hz 0Hz operation frequency 9999 Second output 0 to 590Hz 30Hz frequency detection Cc R R
265. efer to page 17 The function of these terminals can be changed with the output terminal assignment Pr 190 to Pr 194 Refer to page 17 e lt NOTE To a malfunction due to noise keep the signal cables 10 cm or more away from the power cables Also separate the main circuit cables at the input side from the main circuit cables at the output side After wiring wire offcuts must not be left in the inverter Wire offcuts can cause an alarm failure or malfunction Always keep the inverter clean When drilling mounting holes in an enclosure etc take caution not to allow chips and other foreign matter to enter the inverter Set the voltage current input switch correctly Incorrect setting may cause a fault failure or malfunction WIRING Main circuit terminals 3 2 Main circuit terminals Terminal arrangement and wiring FR A820 00046 0 4K 00077 0 75K FR A820 00105 1 5K to 00250 3 7K FR A820 00340 5 5K 00490 7 5K FR A840 00023 0 4K to 00126 3 7K FR A840 00170 5 5K 00250 7 5K Jumper Jumper RILIS FD EE OO SILZITILS UL VW NE 1 P 65 Jumper IU RAIL SA L21 ae M Charge lamp Power supply Charge lamp Power supply FR
266. em 1 100 40K c co co o 9999 gt gt A CO CD CD gt O 5sec WS 450 2 51 2 O114 9999 9999 0 4 55kW 9999 2 O 3600k W 9999 3 x 2 4 6 8 9999 3 2 2 54 55 2 t bti es O 5 Sy 00 400V 999 T 9999 0 500 9999 2 0 400m 9999 3 DOO 9999 x 0 400m OQ 9999 3 0 H 2 R1 2 2 R2 9999 6000m 9999 2 0 400mH 9999 3 Q 6000mH 9999 2 0 400mH 9999 3 2 2 X O 10099999 9999 S26 fel 1 4 1 4 2 4 2 4 3 4 3 4 4 4 4 495 5 4 5 4 6 4 6 4 7 4 78 7 416 79 8 416 80 8 4 ti 81 9 4 82 9 4 10 4 4 0 4
267. foo pes 113 so la pne 216 ee AO NO s la a pe s v ps po wy pe p e je fo uo hs HO po hs pa ls a les ps ho ls lo lr ls lr leo e e lo mali EC 60500 maco lt O hem BERETS 20 74 4 2 220V 3 A c Emo E C 2 4 100 5 2 6 7 ND 8
268. gt ao 6Hz sime TH cL min so _ 2 0FF Pr 9 0 A 180 El s i T SNR c Pa Aad es i a d Gay 60 Qe 52 596 105 50 100 150 230 96 o m m mmm mmm mmm mmm eS NOTE ta mmm m m m m m m mmm GLAD HEAR Ai arim h m E SET IER 1 Pr 71 1 13 16 50 53 54 100 2 Pr 9 x 2 3 Pr 9 50 6Hz 1
269. gth 0 1 to 50m 1078 Trolley weight 1 to 50000Kg 1079 Load weight 1 to 50000Kg Deceleration time at os Deceleration tme at o to 3600s 1106 Torque monitor filter 0 to 5s 9999 9999 1107 R 999 1108 i 0 to 5s 9999 9999 lt R wo 0 to 2 10 9999 9999 reverse selection b rol i 0to9998ms los unning speed monitor filter O to 5s 9999 E EM 4 A lt EN EN C1 O 6 o m o 2o o oOx 3 30 a 00 5 c D clooj izc j oa O VY a o 5ioo emm 90 46 7 3 5 Om zz zg 13GIG3 3 ED ied D D 2 52 Si E gt ae Q A o D O 5 Q G g CO O Ov 3 oe 2 Q oo oD E Oo 9 Q D 0 to 100 0 0 to 300 9999 9999 0 Lom 0 om Q 5 Q U Q 5 per unit system gain Der unit system Speed control P gain 2 VIE urne ut to 300 9999 9999 1119 Model speed control 0 to 300 9999 9999 DT TATE ae 1138 SD display gain 1139 Second PID display pesoo oo Q 8 g CL 2 hd S C lt o t cte o o c 140 nao Oo Os OD eer oo zum 3 c c res p me 0 to 43 9999 9999 0 to 100 9999 9999 0 to 100 9999 9999 0 0 to 100 0 anit 9999 9999 999 Second PID unit selection econd PID upper limit econd PID lower limit BA A A NO lt 9 co
270. herwise the inverter may be damaged The inverter must be used indoors without corrosive gas flammable gas oil mist dust and dirt etc Otherwise the inverter may be damaged The inverter must be used at an altitude within 2500 m or less above sea level within 5 9 m s vibration at 10 to 55 Hz directions of X Y Z axes Otherwise the inverter may be damaged Refer to page 3 for details e If halogen based materials fluorine chlorine bromine iodine etc infiltrate into a Mitsubishi product the product will be damaged Halogen based materials are often included in fumigant which is used to sterilize or disinfest wooden packages When packaging prevent residual fumigant components from being infiltrated into Mitsubishi products or use an alternative sterilization or disinfection method heat disinfection etc for packaging Sterilization of disinfection of wooden package should also be performed before packaging the product To prevent a failure do not use the inverter with a part or material containing halogen flame retardant including bromine Wiring Do not install a power factor correction capacitor or surge suppressor capacitor type filter on the inverter output side These devices on the inverter output side may be overheated or burn out The output side terminals terminals U V and W must be connected correctly Otherwise the motor will rotate inversely PM motor terminals U V W hold high
271. his product for loads other than three phase induction motors 33 HEADQUARTERS MITSUBISHI ELECTRIC EUROPE EUROPE B V German Branch Gothaer Stra e 8 D 40880 Ratingen Phone 49 0 21 02 486 0 Hotline 49 2102 1805 000 765 766 Fax 49 0 21 02 4 86 1 12 0 e mail megfa mail meg mee com www mitsubishi automation com MITSUBISHI ELECTRIC FRANCE 25 Boulevard des Bouvets F 92741 Nanterre Cedex Phone 33 1 55 68 55 68 Fax 33 1 49 01 07 25 FRANCE e mail factory automation fra mee com MITSUBISHI ELECTRIC EUROPE B V Italian Branch C D Colleoni P Perseo Ing 2 Via Paracelso 12 I 20041 Agrate Brianza MI Phone 39 0 39 60 53 1 Fax 39 0 39 60 53 312 ITALY e mail factory automation it mee com MITSUBISHI ELECTRIC EUROPE B V Pol Ind Can Magi C Calle Joan Buscall 2 4 AC 420 E 08190 Sant Cugat del Vall s Phone 34 9 3 565 31 31 Fax 34 9 3 589 29 48 SPAIN MITSUBISHI ELECTRIC UK EUROPE B V UK Branch Travellers Lane Hatfield Hertfordshire AL10 8 XB Phone 44 0 1707 27 61 00 Fax 44 0 1707 27 86 95 MITSUBISHI ELECTRIC CORPORATION Tokyo Bldg 2 7 3 Marunouchi Chiyoda Ku Tokyo 100 8310 Phone 81 0 3 32 18 31 76 Fax 81 0 3 32 18 24 22 JAPAN MITSUBISHI ELECTRIC AUTOMATION 500 Corporate Woods Parkway Vernon Hills Illinois 60061 Phone 1 0 847 478 21 00 Fax 1 0 847 478 03 27 USA EUROPEAN REPRESENTATIVES GEV
272. ing E N N lt N CD c Q 3 3 c O m 5 QO EU N AR d O N 25 A oles d ES 2 od ol T ct m3 o 53 53 8 Qe 5 0 5 o Lje L g DNS S S ces 02 00 oo COOCOO 05 05 30 30 o o c lt lt PID action selection 1011 2000 2001 2010 2011 EMIT proportional band Ta 1000 100 PID integral time s 3600s 131 PID upper limit 0 to 100 9999 9999 132 PID lower limit 0 to 100 9999 9999 DRIVE THE MOTOR 17 Parameter list Setting Initial range value PID action set point 0 to 100 9999 9999 xe 0 01 to 10s PID differential time 9999 9999 Electronic bypass hs Sequence sekecon P EN d interlock o to 4005 37 Star wating time oio 700s Bypass selection at a m geen hi p O Automatic switchover 139 Ifrequency from inverter 0 to 60Hz 9999 9999 to bypass operation Backlash acceleration stopping frequency 0 to 590Hz Backlash acceleration Backlash deceleration stopping frequency 0 to 590Hz 1Hz Backlash deceleration stopping time 0 0 5s EN X A AR wo N Speed setting switchover CER A A PU display language selection Acceleration deceleration time switching frequency CNN 0 to 590Hz 9999 9999 Stall prevention level at 0 V input 0 to 40096 15096 Stall prevention level at 10 V input 0 to 40096 096 Output current 50 detection level 0 to 400
273. ions WW 9 To display a set frequency in the monitoring mode the setting can be changed using Pr 992 To display the present setting during calibration To display a fault history number in the faults history mode Switches to different modes PU MODE key Switches to the easy setting mode by pressing simultaneously with EXT Holding this key for 2 seconds locks the operation The key lock is invalid when Pr 161 0 initial setting Refer to the Instruction Manual Detailed hse sre setting TEM HT When the initial setting is set EN pressed during operation the monitored item changes Output frequency k ETk Output frequency Output current Output voltage 2 Using Pr 52 and Pr 774 Pr 776 the monitored item can be changed ESC ke Goes back to the previous display y Holding this key for a longer time changes the mode back to the monitor mode Switches between the PU mode and the External operation mode E3 Be PU EXT key Switches to the easy setting mode by pressing simultaneously with mone Cancels the PU stop also Operation mode indicator FWD key REV key DRIVE THE MOTOR Operation panel FR DU08 6 1 2 Parameter setting Function E 2 LL 2 3 4 5 Basic operation factory setting Operation mode switchover Frequency setting External operation mode 1 At po
274. iring the inverter may be affected by a charging current caused by stray capacitances of the wiring leading to an activation of the overcurrent protection malfunction of the fast response current limit operation or even to an inverter failure If the fast response current limit function malfunctions disable this function Pr 156 Stall prevention operation selection Refer to RE Chapter 5 of the Instruction Manual Detailed The optional surge voltage suppression filter FR ASF H FR BMF H or sine wave filter MT BSL MT BSC cannot be used under PM sensorless vector control Do not connect it For details of Pr 72 PWM frequency selection refer to Chapter 5 of the Instruction Manual Detailed The FR ASF H are FR BMF H can be used under V F control and Advanced magnetic flux vector control The MT BSL and MT BSC can be used under V F control For details refer to the Instruction Manual of the option Refer to The carrier frequency is limited with a PM motor Refer to EE Chapter 5 of the Instruction Manual Detailed Cable size for the control circuit power supply terminals R1 L11 and S1 L21 Terminal screw size M4 Cable gauge 0 75 mm to 2 mm Tightening torque 1 5 Nem WIRING 9 Control circuit terminal 3 3 Control circuit terminal Terminal layout 2 L5 4 1 IF ClF24 SDISo SOCISDISICIIS1 S2 PC A2 Recommended cable gauge 0 3 to 0 75 mm
275. juries Do not stand or rest heavy objects on the product Do not stack the boxes containing inverters higher than the number recommended When carrying the inverter do not hold it by the front cover it may fall off or fail During installation caution must be taken not to drop the inverter as doing So may cause injuries The product must be installed on the surface that withstands the weight of the inverter Do not install the product on a hot surface The mounting orientation of the inverter must be correct The inverter must be installed on a strong surface securely with screws so that it will not drop Do not install or operate the inverter if it is damaged or has parts missing Foreign conductive objects must be prevented from entering the inverter That includes screws and metal fragments or other flammable substance such as oil As the inverter is a precision instrument do not drop or subject it to impact The surrounding air temperature for LD ND initial setting and HD models must be between 10 and 50 C non freezing The surrounding air temperature for SLD must be between 10 and 40 C non freezing Otherwise the inverter may be damaged e The ambient humidity must be 95 RH or less non condensing Otherwise the inverter may be damaged Refer to page 3 for details The storage temperature applicable for a short time e g during transit must be between 20 and 65 C Ot
276. lower 4 digits Fourth target position upper 4 digits Fifth target position lower 4 digits Fifth target position upper 4 di di Sixth target position lower 4 digits Sixth target position upper 4 digits Seventh target position lower 4 digits Seventh target position upper 4 digits A A A A A A A A A A A A A A A A A NI NIN NY WN NIE NI NI ON O e ess Nlol ol Rl oo ton ie co N a w X Eighth target position lower 4 digits 0 to 9999 A 80 Eighth target position upper 4 digits Ninth target position lower 4 digits el t on g Second target position er 4 dig er 4 dig git Ninth target position upper 4 digits t m 0 7 Tenth target position lower 4 digi Tenth target position upper 4 digits r Thirteenth target position upper 4 digits Fourteenth target position lower 4 digits S d targe lowe Fourteenth target position upper 4 digits t ce e arg 4 digit digit digit its S Eleventh target position lower 4 digits Eleventh target position upper 4 digits Twelfth target position lower 4 digits Twelfth target position upper 4 digits Thirteenth target position lower 4 digits targ targ out ime t position S S Fifteenth et position lower 4 digits Fifteenth target position upper 4 digits Remote output selection 0 1 10 11 Remote output data 1 0 to 4095 95 A gt R R R gt gt R R R R R gt gt co Co Oo Co co Co CO
277. m 200 m for the terminal FM at the maximum Use two or more parallel micro signal contacts or twin contacts to prevent contact faults when using contact inputs since the control circuit input signals are micro currents To suppress EMI use shielded or twisted cables for the control circuit terminals and run them away from the main and power circuits including the 200 V relay sequence circuit For the cables connected to the control circuit terminals Micro signal contacte Twin contacts connect their shields to the common terminal of the connected control circuit terminal When connecting an external power supply to the terminal PC however connect the shield of the power supply cable to the negative side of the external power supply Do not directly earth ground the shield to the enclosure etc Do not apply a voltage to the contact input terminals STF etc of the control circuit Always apply a voltage to the fault output terminals A1 B1 C1 A2 B2 C2 via a relay coil lamp etc Control logic sink source change Change the control logic of input signals as necessary To change the control logic change the jumper connector position on the control circuit board Connect the jumper connector to the connector pin of the desired control logic The control logic of input signals is initially set to the sink logic SINK for the FM type The control logic of input signals is initially set to the source logic SOURCE
278. m Q lt Q S e 3 Sj a Co m j Oo OO N N gt O CO proportional gain Torque control integral time 1 current loop integral time Torque setting filter 1 O to 5s 9999 999 27 Torque detection filter 1 2 odel speed control gain 0 to 100096 30 peed control P gain 2 0 to 1000 9999 9999 Speed control integral 0 to 20s 9999 9999 0 peed setting filter 2 to 5s 9999 999 peed detection filter 2 0 to 0 1s 9999 9999 Torque control P gain 2 0 to 500 9999 999 Torque control integral 0 to 500ms 9999 19999 time 0 to 5s 9999 999 0 Torque setting filter 2 999 25 5ms CO Co CO O CO N e o Oo E co b CD ay co 32 33 8 3 co O Q eo o o A e i e O ol OO CD O 3 co 37 Torque detection filter 2 O to 0 1s 9999 O CD N AR N O1 40 8 Torque bias selection Se T 0 9999 600 I 1400 agag Done 1400 9999 999 to 5s 9999 to 5s 9999 999 9999 to 10V 9999 41 8 Torque bias 1 42 8 Torque bias 2 Co 43 8 Torque bias 3 Co 44 8 Torque bias filter 45 8 Torque bias operation time Torque bias balance compensation Fall time torque bias terminal 1 bias Fall time torque bias terminal 1 gain Co Qo A O e Co 47 e um o RB 0 9999 9999 x oo 9999 99
279. minal Ls 0 i LN 4 oe Earth wumper iR Ground I Ground fy Pi qe PS PR N MCCB MC Three phase x Motor AC power x m Contact input common C 24VDC power supply PC Common for external power supply transistor mm 24V external power CH supply input D Common terminal e _ 5 Voltage current connector E input switch Frequency setting signals Analog 10E 10V NIRE D Fc USB A Es els 2 9 i C 0 TE jure Frequency setting DCO to 5V ue eA i ard potentiometer IMS to 10V selectable s Buss resistor 11 1 2W1kO 6 supply iE Unies O Earth Ground Jumper 1 2 GO d roun Control input signals Control circuit Relay outputes No voltage input allowed 3 i STF Dear i i Forward rotation start C GQ Lc1 e i STR UZ i i Reverse rotation start Anas Relay output 1 STPSTOP EN Fault output Start self holding selection O 1 C a 1 1 l RH 5 EE C2 i High speed C LET EE Lez e Multi speed Middle speed ALRM E Q Relay output 2 selection n 1 RL i i Low speed C F Po eee EL JOG 4 RUN Open collector output 9 Jog operation C a Running E 1 RT LI 1 1 k 1 Second function selection ALRT Up to frequency MRS E is Output stop Aves E Instantaneous RES E power failure Reset C rd E Ea Overload i Terminal
280. ming any of the following operations Note that the internal thermal integrated value of the electronic thermal relay function and the number of retries are cleared erased by resetting the inverter The inverter recovers about 1s after the reset is released STOP e Using the operation panel press to reset the inverter p This may only be performed when a fault occurs oun Switch power OFF once then switch it ON again ON t Hii OFF Inverter the inverter is in a reset status RES SD Turn ON the reset signal RES for 0 1s or more If the RES signal is kept ON Err appears flickers to indicate that OFF status of the start signal must be confirmed before resetting an inverter fault Resetting an inverter fault with the start signal ON restarts the motor suddenly TROUBLESHOOTING 23 List of fault displays 7 Error Warning Aam 2 LL 24 2 List of fault displays HL HOLD Operation panel lock LUE LOCD Password locked Er1 to Er4 Parameter write error Er8 rE1 to rE4 rE6 to TE8 Copy operation error Stall prevention overcurrent Stall prevention overvoltage Regenerative brake pre alarm Electronic thermal relay function pre alarm PU stop MT1 to MT3 Maintenance signal output 24 V external power supply operation Home position return setting error Home position return uncompleted Home position return parameter setting error E OC1 Overcurren
281. motors SF V5RU SF Undesirable current THY nor with PM motors f the machine must not be restarted when power is restored after a power failure provide an MC in the inverter s input side and also make up a sequence which will not switch ON the start signal If the start signal start switch remains ON after a power failure the inverter will automatically restart as soon as thepower is restored Vector control is available with an encoder equipped motor And such an encoder must be directly connected to a motor shaft without any backlash Real sensorless vector control does not require an encoder MC on the inverter s input side On the inverter s input side connect an MC for the following purposes For the selection refer to Chapter 2 of the Instruction Manual Detailed To disconnect the inverter from the power supply at activation of a protective function or at malfunctioning of the driving system emergency stop etc To prevent any accident due to an automatic restart at power restoration after an inverter stop made by a powerfailure To separate the inverter from the power supply to ensure safe maintenance and inspection work If using the MC on the inverter s input side for emergency stop during normal operation select an MC by regarding the rated motor current as the AC 3 class rated current Handling of the magnetic contactor on the inverter s output side Switch the magnetic contactor between the inverter and motor
282. munication 0 9999 9999 91 Acceleration time in 0 to 3600s 9999 9999 low speed range Deceleration time in 92 low speed range 0 to 3600s 9999 9999 error Low speed range torque characteristic selection N 88 Pulse increment setting 0 1 1 10 1kWh for output power 100 1000kWh 99 0 to 6 9 to 14 800 N 20 100 to 106 20 109 to 114 Pre excitation selection Constant power range 803 torque characteristic selection Torque command Torque command value RAM 600 to 140096 1000 Torque command value 806 RAM EEPROM 600 to 140096 1000 peed limit selection Forward rotation speed limit speed limit 0 to 400Hz 60 50Hz 10 Reverse rotation speed 809 limit reverse side speed 0 to 400Hz 9999 limit Torque limit input method 811 Set resolution switchover 0 1 10 11 Torque limit level 812 regeneration 0 to 400 9999 9999 0 1 10 11 Setting Initial range value Torque limit level 3rd quadrant 9999 Torque limit level 4th quadrant 9999 815 Torque limit level 2 999 Torque limit level during Torque limit level during Ie response level setting 2 19 asy gain tuning selection 2 peed control P gain 1 O to 1000 0 pee control integral 333s 0 2 Speed setting filter 1 to 5s 9999 999 23 s Speed detection filter 1 001s Torque control P gain 1 24 0 to 500 100 current loop 0 to 500ms 0 to 400 9999 Co Co
283. must be performed by qualified personnel Here qualified personnel means personnel who meets all the conditions below A person who took a proper engineering training Such training may be available at your local Mitsubishi Electric office Contact your local sales office for schedules and locations A person who can access operating manuals for the protective devices e g light curtain connected to the safety control system A person who has read and familiarized himself herself with the manuals In this Instruction Manual Startup the safety instruction levels are classified into WARNING and CAUTION Incorrect handling may cause hazardous conditions resulting in death or severe injury Incorrect handling may cause hazardous caution conditions resulting in medium or slight injury or may cause only material damage The A Caution level may even lead to a serious consequence according to conditions Both instruction levels must be followed because these are important to personal safety INVERTER INSTALLATION AND PRECAUTIONS cene O OUTLINE DIMENSIONS pp FAILSAFE SYSTEM WHICH USES THE INVERTER pp 13 PRECAUTIONS FOR USE OF THE INVERTER 14 TROUBCE SHOOTING 2 Electric Shock Prevention A Warning While the inverter power is ON do not open the front cover or the wiring cover Do not run the inverter with the front cover or th
284. n Use a thermal protector or a motor with built in thermistor When the difference between the inverter and motor capacities is large and the setting is small the protective characteristics of the electronic thermal relay function will be deteriorated In this case use an external thermal relay A special motor cannot be protected by the electronic thermal relay function Use an external thermal relay Set Pr 9 0 for vector control dedicated motors SF V5RU because they are equipped with thermal protectors Electronic thermal relay may not operate when 5 or less of rated inverter current is set to electronic thermal relay setting Motor over temperature sensing is not provided by the drive B About the enclosed CD ROM e The enclosed CD ROM contains PDF copies of the manuals related to this product E Before using the enclosed CD ROM The copyright and other rights of the enclosed CD ROM all belong to Mitsubishi Electric Corporation No part of the enclosed CD ROM may be copied or reproduced without the permission of Mitsubishi Electric Corporation Specifications of the enclosed CD ROM are subject to change for modification without notice We are not responsible for any damages and lost earnings etc from use of the enclosed CD ROM Microsoft Windows Microsoft WindowsNT Internet Explorer are registered trademarks of Microsoft Corporation in the United States and or other countries Adobe and Adobe Reader are registered trademarks of
285. nches 1 97 inches Measurement 5cm Storage temperature 20 to 65 C 1 position x 1 97 inches Atmosphere Indoors free from corrosive gas flammable gas oil mist dust and dirt Altitude Maximum 2 500 m above sea level 5 9m s or less at 10 to 55Hz directions of X Y Z axes Temperature applicable for a short time e g in transit x2 For the installation at an altitude above 1 000 m 3280 80 feet up to 2 500 m 8202 feet derate the rated current 3 per 500 m 1640 40 feet 3 Surrounding Air Temperature is a temperature measured at a measurement position in an enclosure Ambient Temperature is a temperature outside an enclosure INVERTER INSTALLATION AND PRECAUTIONS 3 2 OUTLINE DIMENSIONS FR A820 00046 0 4K to 04750 90K FR A840 00023 0 4K to 03610 132K 2 C 200 V class 0 4K 110 95 0 75K FR A820 00105 1 5K FR A820 00046 FR A820 00077 FR A820 00167 2 2K 150 125 FR A820 00250 3 7K FR A820 00340 5 5K FR A820 00490 7 5K FR A820 00630 11K FR A820 00770 15K FR A820 00930 18 5K 250 230 37K 550 435 380 525 45K 250 FR A820 01250 22K FR A820 01540 30K FR A820 01870 FR A820 02330 FR A820 03160 55K 410 700 675 75K 465 740 90K 400 V class FR A820 03800 FR A820 04750 FR A840 00023
286. nd FR A840 02160 75K or higher For FR A820 00490 7 5K or lower and FR A840 00250 7 5K or lower For FR A820 00630 11K or higher and FR A840 00310 11K or higher Differs according to capacities e 4 FR A820 00490 7 5K or lower and FR A840 00250 7 5K or lower 2 FR A820 00630 11K to 03160 55K and FR A840 00310 11K to 01800 55K e 1 FR A820 03800 75K or higher and FR A840 02160 75K or higher Differs according to the voltage class 200 V class 400 V class The setting is available only when the FR A8AP is mounted The parameter number in parentheses is the one for use with the parameter unit FR PU07 Differs according to types FM type CA type The setting is available only with the CA type The setting value 60 is only available for Pr 178 and 61 is only for Pr 179 The setting values 92 93 192 193 are only available for Pr 190 to Pr 194 Simple mode parameters Initially set to the extended mode The setting is available only with the 400 V class Reset method for the protective functions 4 4 TROUBLESHOOTING When a fault occurs in the inverter the protective function activates and the PU display automatically changes to one of the fault or alarm indications on page 24 If the fault does not correspond to any of the following faults or if you have any other problem please contact your sales representative Retention of the fault output signal Opening the magnetic conta
287. ng air temperature 50 C current rating 4 ND initial setting 150 60 s 200 3 s inverse time characteristics at surrounding air temperature 50 C 110 475 404 432 367 346 519 288 519 200 60 s 250 3 s inverse time characteristics at surrounding air temperature 50 C Rated voltage 5 Three aiias 200 to 240 V Maximum brake 10096 torque 100 torque 1096 torque Regenerative torque 7 150 torque 3 ED 6 3 ED 6 2 ED 6 20 torque continuous continuous k meee AR 150 torque when the option is o 100 torque 10 ED 100 torque 6 ED used 10 ED Pared Input Three phase 200 to 240 V 50 Hz 60 H AC voltage frequency ell ta 2 s Permissible AC voltage fluctuation AC Permissible AC voltage fluctuation fluctuation 170 to 264 V 50 Hz 60 Hz sas les hm iro UN eo pes m sos m es Rated input D ss fe a qua 18 fee ps fe lv a yim fe bo fa he am he hm ns E Power supply Gn 0 8 v ii eig O ge Je lo pm jm e je far m jm per pm he nr p ba qs ls qu je lo lr ls lr e le Se hm Protective structure IEC 60529 10 Enclose type IP20 Open type IP00 Cooling Self cooling Forced air cooling Approx messi 22 fas a3 jas jer jer 89 fs je is 2 ja jp jm 74 The applicable motor capacity indicated is the maximum capacity applicable for use of the Mitsubishi 4 pole standard motor E The rated output capacity indicated assumes that the output voltage is 220 V for 200 V class 3
288. ng standard EN 61800 5 1 and affix the CE marking on the inverters Outline of instructions Do not use an earth leakage current breaker as an electric shock protector without connecting the equipment to the earth Connect the equipment to the earth securely 2 Wire the earth terminal independently Do not connect two or more cables to one terminal 3 Use the cable sizes on page 8 under the following conditions Surrounding air temperature 40 C 104 F maximum If conditions are different from above select appropriate wire according to EN60204 Appendix C TABLE 5 4 Use a tinned plating should not include zinc crimping terminal to connect the earth ground cable When tightening the screw be careful not to damage the threads For use as a product compliant with the Low Voltage Directive use PVC cable whose size is indicated on page 8 5 Use the moulded case circuit breaker and magnetic contactor which conform to the EN or IEC Standard 6 This product can cause a d c current in the protective earthing conductor Where a residual current operated protective RCD or monitoring RCM device is used for protection in case of direct or indirect contact only an RCD or RCM of Type B is allowed on the supply side of this product 7 Use the inverter under the conditions of overvoltage category II usable regardless of the earth ground condition of the power supply overvoltage category III usable with the earthed neutral system
289. of inverter failure When the breaker on the inverter input side trips the wiring must be checked for fault short circuit and internal parts of the inverter for a damage etc The cause of the trip must be identified and removed before turning ON the power of the breaker When a protective function activates take an appropriate corrective action then reset the inverter and resume the operation Maintenance inspection and parts replacement Do not carry out a megger insulation resistance test on the control circuit of the inverter It will cause a failure Disposal The inverter must be treated as industrial waste e Many of the diagrams and drawings in the Instruction Manual show the product without a cover or partially open for explanation Never operate the product in this manner The cover must be always reinstalled and the instruction in the Instruction Manual must be followed when operating the product For more details on the PM motor refer to the Instruction Manual of the PM motor 1 INVERTER INSTALLATION AND PRECAUTIONS Inverter model FR A8 Symbol Voltage class Symbol 200V class 00023 to 06830 SLD rated inverter current A 400V class 0 4 to 280K ND rated inverter capacity kW Symbol Type 1 Symbol Circuit board coating 3C2 Plated conductor Without Without Without 60 With Without Specification differs by the type as follows FM Termin
290. on feed forward gain 0 to 100 0 Position command acceleration 424 deceleration time 0 to 50s Os constant S 2 O O Position feed forward 25 command filter 0 O In position width 0 to 32767 pulse 100 pulse 428 Command pulse selection 29 Clear signal selection 0 430 50 1 Model position control 4 applied motor N ol n oO O 9093 9094 9999 Setting Initial range value Second motor control 10 to 14 20 0 4 to 55kW 9999 2 453 Second motor capacity 0 to 3600KW 9999 3 9999 454 Number of second 2 4 6 8 10 motor poles 12 9999 to 500A 9999 2 0 to 3600A 9999 3 Rated second motor voltage 0 to 1000V 200 400V 7 Rated second motor frequency 10 to 400Hz 9999 9999 0 to 500 9999 2 0 to 400mQ 9999 Second motor 9999 excitation current Second motor constant R1 0 to 500 9999 2 Second motor constant 9999 R2 j 9999 Second motor constant L1 d shaft inductance Ld Second motor constant L2 q shaft inductance Lq 9999 2 0 to 400mH 9999 3 a ond motor constant 0 to 100 9999 9999 Second motor auto 0 1 11 101 0 to 360s tuning setting status Digital position control sudden stop de ration t 64 C First target position lower 4 digits 66 First target position upper 4 digits ec upper 4 Third target position lower 4 digits Third target position upper 4 Fourth target position
291. power supply 400 V class only and pollution degree 2 or lower specified in IEC664 An insulating transformer needs to be installed in the input side of the FR A820 series inverters To use the inverter of FR A820 01540 30K or higher and FR A840 00770 30K or higher IP00 under the conditions of pollution degree 2 install it in the enclosure of IP 2X or higher To use the inverter under the conditions of pollution degree 3 install it in the enclosure of IP54 or higher To use the inverter of FR A820 01250 22K or lower and FR A840 00620 22K or lower IP20 outside of an enclosure in the environment of pollution degree 2 fix a fan cover with fan cover fixing screws enclosed Fan cover fixing screw fixing screw Fan cover 5 5K to 00250 22K FR A820 00105 1 5K to 00250 3 7K FR A820 00340 0 00170 5 5K to 00620 22K 1 5K FR A840 00083 2 2K 00126 3 7K FR A84 8 On the input and output of the inverter use cables of the type and size set forth in EN60204 Appendix C 9 The operating capacity of the relay outputs terminal symbols A1 B1 C1 A2 B2 C2 should be 30VDC 0 3A Relay output has basic isolation from the inverter internal circuit 10 Control circuit terminals on page 5 are safely isolated from the main circuit 11 Environment For the detail refer to the Instruction Manual Detailed LD ND initial setting HD 10 to 50 C 14 to 122 F 5 Surrounding air temperature SL
292. r UL 489 Molded Case Circuit Breaker MCCB must be provided in accordance with the Canadian Electrical Code and any applicable local codes Rated fuse voltage V 240V or more TET power Fuse Maximum factor improving 30 40 150 175 200 allowable rating reactor A 1 With power factor improving reactor 20 30 50 70 125 150 200 Molded case circuit cata MCCB Rated Rated fuse voltage V Rated fuse voltage V 240V or more TET power Fuse Maximum factor improving 225 350 400 500 500 allowable rating eactor A 1 With power factor improving rea ctor 2 300 350 400 500 700 Molded case circuit breaker MCCB 225 300 350 450 500 700 Maximum allowable rating A 1 40 Rated fuse voltage V 500V or more Without power Fuse Maximum factor improving allowable rating reactor A 1 With power factor improving reactor Molded case circuit breaker MCCB Maximum allowable rating A cae ee ek ee ee Rated Rated fuse voltage V voltage Rated fuse voltage V 500V or more Without power Fuse Maximum factor improving 200 allowable rating reactor A A With power factor 2 cu improving reactor Molded case circuit breaker MCCB Maximum allowable rating by the US National Electrical Code Exact size must be chosen for each installation Wiring to the power supply and the motor For wiring the input R L1 S L2 T L3 and output U V W terminals of the inverter us
293. r frequency set to 3 kHz or more and the inverter output current reaches the value indicated in the parenthesis of the rated current the carries frequency is automatically lowered The motor noise becomes louder accordingly 4 The 96 value of the overload current rating indicated is the ratio of the overload current to the inverter s rated output current For repeated duty allow time for the inverter and motor to return to or below the temperatures under 100 load 5 The maximum output voltage does not exceed the power supply voltage The maximum output voltage can be changed within the setting range However the maximum point of the voltage waveform at the inverter output side is the power supply voltage multiplied by about es 6 Value by the built in brake resistor 7 Value for the ND rating 8 The rated input current indicates a value at a rated output voltage The impedance at the power supply side including those of the input reactor and cables affects the rated input current 9 The power supply capacity is the value when at the rated output current It varies by the impedance at the power supply side including those of the input reactor and cables 10 FR DUOS8 IP40 except for the PU connector section 11 For the power voltage exceeding 480 V set Pr 977 Input voltage mode selection For details refer to the Instruction Manual Detailed 12 The braking capability of the inverter built in brake can be improved with a comme
294. rcial brake resistor For the details please contact your sales representative 26 SPECIFICATIONS Appendix Appendix 1 Instructions for compliance with the EU Directives The EU Directives are issued to standardize different national regulations of the EU Member States and to facilitate free movement of the equipment whose safety is ensured in the EU territory Since 1996 compliance with the EMC Directive that is one of the EU Directives has been legally required Since 1997 compliance with the Low Voltage Directive another EU Directive has been also legally required When a manufacturer confirms its equipment to be compliant with the EMC Directive and the Low Voltage Directive the manufacturer must declare the conformity and affix the CE marking The authorized representative in the EU The authorized representative in the EU is shown below Name Mitsubishi Electric Europe B V Address Gothaer Strasse 8 40880 Ratingen Germany Note We declare that this inverter conforms with the EMC Directive in industrial environments and affix the CE marking on the inverter When using the inverter in a residential area take appropriate measures and ensure the conformity of the inverter used in the residential area EMC Directive We declare that this inverter conforms with the EMC Directive and affix the CE marking on the inverter EMC Directive 2004 108 EC Standard s EN61800 3 2004 Second environment PDS Catego
295. re circuit fault does not apply 12 WIRING Safety stop function Internal safety circuit failure At an internal safety circuit failure the terminal SO turns OFF The following faults can cause the internal safety circuit failure terminal SO OFF Jl T IQ ication ry i e l adic Option fault E OPT Speed deviation excess E OSD detection Communication option fault E OP1 Signal loss detection E ECT Parameter storage device fault Excessive position fault E OD Retry count excess E RET Brake sequence fault E MB1 to E MB7 Parameter storage device fault E PE2 E EP Encoder phase fault Operation panel power supply short circuit E CPU RS 485 terminals power supply EE short circuit E 5 CPU fault 24 VDC power fault E P24 E 6 Safety circuit fault E SAF E 7 Overspeed occurrence Internal circuit fault E 13 For more details refer to the Safety stop function instruction manual BCN A23228 001 A PDF copy of this manual can be found in the enclosed CD ROM For how to use this CD ROM refer to page 31 4 FAILSAFE SYSTEM WHICH USES THE INVERTER When a fault is detected by the protective function the protective function activates and output a fault signal ALM However a fault signal may not be output at an inverter s fault occurrence when the detection circuit or output circuit fails etc Although Mitsubishi assures the best quality products provide an interlock which uses inverter status output signals to prevent ac
296. ry C3 This inverter is not intended to be used on a low voltage public network which supplies domestic premises Radio frequency interference is expected if used on such a network The installer shall provide a guide for installation and use including recommended mitigation devices Note First environment Environment including residential buildings Includes buildings directly connected without a transformer to the low voltage power supply network which supplies power to residential buildings Second environment Environment including all buildings except buildings directly connected without a transformer to the low voltage power supply network which supplies power to residential buildings Note Set the EMC filter valid and install the inverter and perform wiring according to the following instructions This inverter is equipped with an EMC filter Enable the EMC filter For details refer to the Instruction Manual Detailed 2 Connect the inverter to an earthed power supply 3 Install a motor and a control cable written in the EMC Installation Manual BCN A21041 204 according to the instruction 4 The cable length between the inverter and the motor is 5 m 16 4 feet maximum 5 Confirm that the inverter conforms with the EMC Directive as the industrial drives application for final installation Low Voltage Directive We have self confirmed our inverters as products compliant to the Low Voltage Directive Conformi
297. s IO 5s ms ae 10 1 10 11 100 229 2 101 110 1H 10 1230 3 0 01 360s 5s 1231 3 0 01 360s 1232 3 0 20000ms 1233 mo 1234 58 4 1235 4 1237 4 1238 5 1239 5 1240 5 1241 5 1242 6 0 01 360s fes 1243 6 1244 6 0 200000 ms 6 9 rt 9 oC 1246 7 0 01 360s lss 1247 7 0 01 360s lss 1248 7 1249 7 1250 8 1251 8 1252 8 ass pea 1254 9 1255 9 ae ee nt ODN OO 1257 9 hor 110 1 1258 10
298. stance is long between the inverter and motor a voltage drop in the main circuit will cause the motor torque to decrease especially at a low speed The following table indicates a selection example for the wiring length of 20 m 200 V class 220 V input power supply 150 overload current rating for 1 minute FR A820 00046 0 4K to 00167 2 2K FR A820 00250 3 7K IMM o FR A820 00340 5 5K 145 as 26 226 226 225 M4 M5 M5 M6 M8 d 7 FRA820 01870 37K mome i47 8040 e00 a 358 FR A820 03800 75K po FR A820 04750 80K MTZ amp 0 400 V class 440 V input power supply 150 overload current rating for 1 minute FRA820006301KO mg 25 we i4 4 7 ABETO MM aie 1335 e Je s Je FRA840 00860 15 ws 25 lss fes s ls ls 55 he 44 us es a js h ls jl FRA8400062062K me faa us a fa e a je jp 22 FRA84001800 65K me rs feos lo lo lo j2 o jo jo ls RA84002160075K Mio 147 somo e010 lo leo j2 io fo fo jo FR AB40 02600 90K m0 i somo e010 lo leo 8o j2 so so fo jo ls FR AB40 03250 110K moma iz 8010 510 s0 o 8o j2 so so ro lm FR ABA0 05470 220K V12M10 46 100 12 100 12 2x100 zx100 2x100 60 0 2x40 lax95 mes 95 FR AB40 06100 250K V12M10 46 100 12 100 12 2x100 zx100 2x125 60 eao 2x40
299. sts is displayed For the details of operation modes refer to the Instruction Manual Detailed Monitored items can be changed Refer to the Instruction Manual Detailed For the details of the trace function refer to the Instruction Manual Detailed For the details of faults history refer to the Instruction Manual Detailed The USB memory mode will appear if a USB memory device is connected Refer to the Instruction Manual Detailed for the details of the USB memory mode 16 DRIVE THE MOTOR ERN Z Faults history 8 4 V 6 2 Parameter list Parameter list For simple variable speed operation of the inverter the initial values of the parameters may be used as they are Set the necessary parameters to meet the load and operational specifications Parameter setting change and check can be performed from the operation panel FR DUOS Setting Initial range value Torque boost 0 to 3096 6 4 3 2 1 Maximum frequency Minimum frequency 0 to 120Hz 5 Base frequency po590Hz 0Hz 60 50Hz 10 5s 8 14 Deceleration time 0 to 3600s sil 15s 5 9 4 Electronic thermal O L 0 to 500A 2 Rated rt relay Oto coan current 10 DC injection brake 0 to 120Hz 3Hz operation frequency 9999 DC injection brake DC injection brake 13 Starting frequency 0 to 60Hz 0 5Hz Load pattern selection 0 to 5 0 15 Jog frequency 0 to 590Hz Jog acceleration 17 IMRSinputselection 024 O 8 High sp
300. t trip during acceleration E DEB E OC2 Overcurrent trip during constant speed E OC3 Overcurrent trip during deceleration or stop E OV1 Regenerative overvoltage trip during acceleration E OV2 Regenerative overvoltage trip during constant speed E OV3 Regenerative overvoltage trip during deceleration or stop E THT Inverter overload trip electronic thermal relay function E THM Motor overload trip electronic thermal relay function E FIN E FIN Heatsink overheat E IPE E IPF Instantaneous power failure E ET E UVT Undervoltage ete E ILF Input phase loss TROUBLESHOOTING Name Stall prevention stop Output side earth ground fault overcurrent E SOT aa oer E LF ir onus E BHT Eom Exemarterna lay eto E PIC EPIS _ Prctemioroperaton E BPF omr aa o RULES BORA E 1to E 3 Option fault EPE 4 PE Parameter Parameter storage device fault device fault E UE RE E PUE RN disconnection E REF E RET Retry count excess E PEE E PE2 Parameter storage device fault E 5lo E 7 E CPU CPU fault Operation panel power supply short circuit ride RS 485 terminals power supply short circuit E Per IEP24 P24 24 24 VDC power fault 24 VDC power fault fault E CDO e d output current detection E POH E IOH Inrush current limit circuit fault E amp ER E SER Communication fault inverter ERE E AIE Analog input fault E DS E EOS Overspeed occurrence occurrence E OSD A deviation excess detection E EEF
301. tants may occur at the motor terminals deteriorating the insulation of the motor When parameter clear or all parameter clear is performed the required parameters must be set again before starting operations because all parameters return to their initial values The inverter can be easily set for high speed operation Before changing its setting the performances of the motor and machine must be fully examined Stop status cannot be held by the inverter s brake function In addition to the inverter s brake function a holding device must be installed to ensure safety Before running an inverter which had been stored for a long period inspection and test operation must be performed e Static electricity in your body must be discharged before you touch the product Only one PM motor can be connected to an inverter An PM motor must be used under PM sensorless vector control Do not use a synchronous motor induction motor or synchronous induction motor Do not connect a PM motor in the induction motor control settings initial settings Do not use an induction motor in the PM sensorless vector control settings It will cause a failure In the system with a PM motor the inverter power must be turned ON before closing the contacts of the contactor at the output side Emergency stop A safety backup such as an emergency brake must be provided to prevent hazardous conditions to the machine and equipment in case
302. ted current of the motor in Pr 9 E es Characteristic when electronic thermal relay function for motor protection is 1 When a value 50 of the inverter rated output current current value is set in Pr 9 turned off When Pr 9 setting is O A 2 The value denotes the percentage to the rated inverter current It is not the percentage to the rated motor current 3 When you set the electronic thermal relay function dedicated to the Mitsubishi constant torque motor this characteristic curve applies to operation at 6 Hz or higher Range for Operation time s transistor protection s unit display in this range 52 5 a SS 50 100 150 230 Inverter output current to the rated output current o m m mmmmmm mmm mmm eS NOTE The internal accumulated heat value of the electronic thermal relay function is reset by inverter power reset and reset signal input Avoid unnecessary reset and power OFF When multiple motors are driven with a single inverter or when a multi pole motor or a special motor is driven install an external thermal relay OCR between the inverter and motors Note that the current indicated on the motor rating plate is affected by the line to line leakage current details in the Instruction Manual Detailed when selecting the setting for an external thermal relay The cooling effect of the motor drops during low speed operatio
303. tion selection 1021 Trace mode selection Oto2 1022 Samping ce Number of analog 024 Sampling auto start 1025 Trigger mode selection 026 Number of sampling 0 to 100 90 before trigger 01 Analog source selection 09 Analog source selection Analog source selection 029 lach Analog source selection 4ch 52 to 54 61 62 Analog source selection 64 67 87 to 98 5ch 201 to 213 222 to 227 230 to 238 240 to 247 251 to 254 N N 1 to 3 5 to 14 02 17 to 20 22 to 24 32 to 35 40 to 42 N 03 030 N 04 N 05 Analog source selection 6ch Analog source selection 7ch Analog source selection Analog trigger channel 03 Analog trigger operation selection 037 Analog trigger level N 06 033 N 07 N 08 0 1 600 to 1400 000 Parameter list Setting Initial range value Digital source selection Digital source selection 1039 2ch Digital source selection Digital source selection 1041 Ach Digital source selection US 1042 5ch Digital source selection Digital source selection 1044 7ch Digital source selection 1046 Digital trigger channel Digital trigger operation Wey selection 0 1 1048 Display off waiting time 1049 USBhostreser o1 p DC brake judgment time 1072 lfor vibration control 0 to 10s 3s operation Vibration control Vibration suppression 0 05 to 3Hz Vibration suppression Vibration suppression 1077 Rope len
304. to 100 99999999 Second starting 0 to 200 9999 9999 41 resistance tuning 20 DRIVE THE MOTOR compensation Setting Initial range value Second motor magnetic 0 to 6000s 41 10000 to pole detection pulse width 16000us 9999 Second motor 0 to 400Hz Second motor inertia e 10 to 999 9999 9999 Second motor inertia exponent 0 to 7 9999 9999 742 9999 N Second motor Second motor low speed gu range torque characteristics 0 9999 9999 Second PID action 193 selection Second PID control 754 automatic switchover d 9999 frequency CN PID action set jo to 100 99999999 Second PID 0 1 to 100095 proportional band 9999 100 57 Second PID integral 0 1 to 3600s 4s time 9999 Second PID differential 0 01 to 10 00s PID unit selection 0 to 43 9999 9999 Pre charge fault po pao pp pp Pre charge ending level 0 to 100 9999 9999 62 Pre charge ending time AS SCO upper detection o to 100 9999 9999 T 0 to 3600s Pre charge time limit 9999 9999 Second pre charge fault Second pre charge res oan eve O to 100 9999 9999 67 Second pre charge 0 to 3600s ending time 9999 Second pre charge VESTES detection level 0 to 100 9999 9999 69 Recond pre chargetime 0to 3600s 9999 9999 N N N NAN NIN ON N N N N N N 76 4 mA input fault TT operation frequency 0 to 590Hz 9999 9999 Current input check 0 Operation frequency to 590Hz 9999 9999 during com
305. to 199 200 to 208 ABC2 terminal function i 300 to 308 9999 13 9999 ENS O NN CD CD ON N N N N N R gt gt gt gt gt CD N N 45 oz 5l L ol 3 2 Q zj 3 D o CM 5 e 50 DI N N N N N N C1 gt R AR gt Co N o 52 53 NO Oo lt 6 a D Q 9 N Cn A D Q Q O O TI ET eo e o CD e e to Multi speed setting 8 speed to 15 speed 0 to 590Hz 9999 9999 switchover 0 to 100 100 terminal 2 compensation amount Ratedsip Oto50 9999 9999 Constant power range slip 0 9999 9999 selection 0 to 100s top selection 1000 to 1100s 8888 9999 0 0 Overidegain Do2009 50 9 Soft PWM operation 0 1 1 selection INN NN Terminal 1 added 0 to 100 15 terminal 4 compensation selection peep Earth ground fault ooo Output phase loss 1 1 protection selection N Ol c1 Analog input display unit b compensation amount Terminal 1 added Cooling fan operation Cooling 0 1 101 to 105 Er OTT CNN Self power management detection at start 0 1 9999 io 200 9 Reap status 0 to 15 p Inrush current limit circuit life display 0 to 100 100 display Ferd 0 to 10096 100 N N N c Ol o1 co N o Q o 8 2 3 Q D o e e T Main circuit capacitor life Main circuit capacitor life 0 1
306. toring mode Quickly flickers twice intermittently while the protective function is Operation panel status activated indicator Slowly flickers in the display off mode PRM ON to indicate the parameter setting mode T IM ON to indicate the induction motor control c iu Control motor indicator PM ON to indicate the PM sensorless vector control The indicator flickers when test operation is selected d 2 Frequency unit indicator ON to indicate frequency Flickers when the set frequency is displayed in the monitor T T Shows the frequency parameter number etc ej mum emis s Ge LEE Using Pr 52 Pr 774 to Pr 776 the monitored item can be changed P PRUN PLC function indicator ON to indicate that the sequence program can be executed FWD key Starts forward rotation The LED is on during forward operation REV key Starts reverse rotation The LED is on during reverse operation The LED flickers under the following conditions When the frequency command is not given even if the forward reverse command is given When the frequency command is the starting frequency or lower When the MRS signal is being input BE Stops the operation commands BE SERERA S88 Resets the inverter when the protection function is activated The setting dial of the Mitsubishi inverters The setting dial is used to change the frequency and parameter settings fiy Setting dial Press the setting dial to perform the following operat
307. tress heavy loads or pinching Otherwise you may get an electric shock Do not change the cooling fan while power is ON It is dangerous to change the cooling fan while power is ON Do not touch the printed circuit board or handle the cables with wet hands Otherwise you may get an electric shock When measuring the main circuit capacitor capacity the DC voltage is applied to the motor for 1s at powering OFF Never touch the motor terminal etc right after powering OFF to prevent an electric shock An PM motor is a synchronous motor with high performance magnets embedded in the rotor Motor terminals holds high voltage while the motor is running even after the inverter power is turned OFF Before wiring or inspection the motor must be confirmed to be stopped In an application such as fan and blower where the motor is driven by the load a low voltage manual motor starter must be connected at the inverter s output side and wiring and inspection must be performed while the motor starter is open Otherwise you may get an electric shock Fire Prevention Inverter must be installed on a nonflammable wall without holes so that nobody touches the inverter heatsink on the rear side etc Mounting it to or near flammable material may cause a fire e If the inverter has become faulty the inverter power must be switched OFF A continuous flow of large current may cause a fire When using a brake resistor a sequen
308. tructions for overload operation When performing frequent starts stops by the inverter rise fall in the temperature of the transistor element of the inverter will repeat due to a repeated flow of large current shortening the life from thermal fatigue Since thermal fatigue is related to the amount of current the life can be increased by reducing current at locked condition starting current etc Reducing current may extend the service life but may also cause torque shortage which leads to a start failure Adding a margin to the current can eliminate such a condition For a general purpose motor use an inverter of a higher capacity up to 2 ranks For an IPM motor use an inverter and IPM motor of higher capacities Make sure that the specifications and rating match the system requirements 14 PRECAUTIONS FOR USE OF THE INVERTER Operation panel FR DU08 6 DRIVE THE MOTOR 6 1 Operation panel FR DU08 6 1 1 Components of the operation panel FR DU08 a b c Hz e d ex PU EXT NET Te ESC o 7 g Q REV j e MODE SET k 72 I m EXT PU ON to indicate the PU operation mode EXT ON to indicate the External operation mode ON at power ON in the initial setting NET ON to indicate the Network operation mode PU and EXT ON to indicate the External PU combined operation mode 1 or 2 MON ON to indicate the moni
309. utput lang to 1200 10006 65 56 657 658 59 Analog remote output 3 1000 Analog remote output 4 1000 Increased magnetic excitation deceleration 0 1 operation selection Magnetic excitation 61 E ME to 40 9999 9999 Increased magnetic Regeneration 665 avoidance frequency 0 to 200 10096 gain Power failure stop Be gain 0 to 200 100 Tuning data unit pet oer pl PD o O 1 to 9998 IO Maintenance timer 2 O 1 to 9998 0 Maintenance timer 3 S 0 to 3600s Deceleration check time 9999 1 Second free thermal 0 to 590Hz reduction frequency 1 9999 9999 Second free thermal EE ratio 1 1 to 100 100 Second free thermal 0 to 590Hz reduction frequency 2 9999 9999 Second free thermal Second free thermal 0 to 590Hz 9999 reduction frequency 3 9999 699 Input terminal filter 5 to 50ms 9999 9999 Maximum motor 0 to 400Hz Induced voltage 0 to 5000mV constant f rad s 9999 9999 Motor inertia integer 10 to 999 9999 9999 Motor Ld decay ratio 0 to 100 9999 9999 Motor Lq decay ratio 0 to 100 9999 9999 Starting resistance tuning Starting magnetic pole 0 to 6000us 21 position detection pulse 10000 to 9999 width 16000us 9999 Motor inertia exponent O to 7 9999 9999 Motor protection current 100 to 500 38 Second motor induced 0 to 5000mV 9999 voltage constant phi f rad s 9999 739 Second motor Ld decay 0 to 100 99999999 ratio ES motor Lq decay o
310. voltage while the PM motor is running even after the power is turned OFF Before wiring the PM motor must be confirmed to be stopped Otherwise you may get an electric shock Never connect an PM motor to the commercial power supply Applying the commercial power supply to input terminals U V W of an PM motor will burn the PM motor The PM motor must be connected with the output terminals U V W of the inverter Test run Before starting operation each parameter must be confirmed and adjusted A failure to do so may cause some machines to make unexpected motions Warning Usage Everyone must stay away from the equipment when the retry function is set as it will restart suddenly after a trip SOL RESET function setting status separate circuit and switch that make an emergency stop power OFF mechanical brake operation for emergency stop etc must be provided OFF status of the start signal must be confirmed before resetting the inverter fault Resetting inverter fault with the start signal ON restarts the motor suddenly Do not use a PM motor for an application where the PM motor is driven by its load and runs at a speed higher than the maximum motor speed Use this inverter only with three phase induction motors or with a PM motor Connection of any other electrical equipment to the inverter output may damage the equipment Performing pre excitation LX signal and X13 signal under torqu
311. wer ON 7 74073 LL GL MON PRM P RUN IM PM Parameter setting mode At power ON 2 J PU Jog operation mode 1 7 7407 LL LI MON PRM P RUN eiM PM UN PU MON EXT PRM NET P RUN M Example Flicker IM PM Frequency setting has been written and completed Output current monitor 2 jt C SET E Output voltage monitor 2 UN Display the present setting Parameter setting mode Ie Parameter clear PRM P RUN zi Long press Group parameter setting Value change All parameter clear P E Example Flicker Parameter write is completed HU Automatic parameter setting Ei Faults history clear Trace function 3 MIERS Example S Flickering g EET Faults history 1 Example S Flickering a IPM parameter initialization E Parameter copy Initial value change list Example S Flickering ENSIS Faults history 2 4 Operation for displaying faults history Past eight faults can be displayed The latest fault is ended by When no fault history exi
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