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TECO E510 series alternating Motor driver Manual

1. 1 2 gt gt gt gt 5 5 1 5 gt 10 C 40 C 95 RH
2. Wl 2 1 Br FF i Fa A J dual oe a Wo 2 Q2 W i T WIS 1 1 mm inch m e gt 224 6 207 207 303 5 3309 198 3 187 5 192 5 8 84 8 15 8 15 11 95 13 03 7 8 7 38 7 58 3 40 Frame4 Pj amp EMC 4H 400V 20 25HP Wi 2 Q H H2 ae Pi D2 lt D1 mm inch E510 420 H3F p EH EN WR EM E ES E EN 10 5 EIL 8 15 8 84 15 78 12 63 15 98 7 81 7 38 7 58 3 39 3 7 7 58
3. HV 08 18 1 Frame3 4 gt 09 01 RTU ASCIl 0 RTU 11 ASCII f pps s 0 4800 1 9600 2 19200 3 38400 1 215 0 0 25 5 Sec COT gt
4. DX te ux 5 5
5. 5cm n ot ik Sl Xr Us 3 2 3 Frame1 2 3 4 200V 0 5 3HP 200V 0 5 3HP 200V 2 20HP 400V 1 25HP In 100 ee aie 90 2 4 6 8 10 12 14 16 KHz Im 40 C 50C 3 16 3 3 3 3 1 gt
6. 5 A AS Bose JL ooo oo nz a 0065000 2 _ 0 00 650 00 oossoo H 0 00 650 00 oo Hz 000 65000 000 Hz 000 6500 oo Hz 00065000 000 Hz 000 6500 amp 000 Hz 000 05000 oo Hz 00065000 Hz 00005000 oo Hz 00065000 000 Hz 00005000 oo Hz 00065000 000 Hz 00 3600 00 Sc 00 36000 00 Se 00 3600 00 sec 00 36000 5 00 Sec 00 3600 amp 00 Sc 00 36000
7. od Hz 11 144 300 800V gt Ya 0 00 15 00Hz gt 0 200 gt 11 16 11 17 gt WR 11 16 11 17 0 0 8 0 1
8. Wl 2 Q za _ IM I f fc Ll 4 E L E J L El _ i Ne b x gt Hi mm inch ow liz m a 10 5 E510 220 H3 10 5 ee 420 H3 224 6 207 350 1 355 1 198 3 187 5 192 5 86 174 10 9 425 H3 8 84 8 15 13 78 13 98 7 81 7 38 7 58 3 89 6 85 0 p 11 eae 420 H3F eee 425 H3F 3 45 3 8 EMC Wt IT TN m dT
9. gt 12 11 12 15 Han Yl n BE Z E RE Ke lt SE 4 E 4 68 13 00 13 00 13 00 E510 2P5 XXX 2P5 E510 401 XXX 401 E510 201 XXX 201 E510 402 XXX 402 E510 202 XXX 202 E510 403 XXX 403 E510 203 XXX 203 E510 405 XXX 405 E510 205 XXX 205 E510 408 XXX 408 E510 208 XXX 208 E510 410 XXX 410 E510 210 XXX 210 E510 415 XXX 415 E510 215 XXX 215 E510 420 XXX 420 E510 220 XXX 220 E510 425 XXX 425 13 01 gt 2 xxx 3 xxx 1 xxx 2 xxx 1 xxx 3 xxx 1 xxx gt 13 02 1 XXxXx 2 xxx3 xxx1 xxx di W BE 3 xxx2 xxx 41 xx
10. RY1 RY2 t i i 4 03 13 03 14 3 13 3 14 03 13 03 14 1 gt 3 13 03 13 03 14 2 lt 3 13 03 13 03 14 07 00 OL2 03 15 03 16 03 17 03 18 PID 3 22 23 3 22 23 PLC 00 02 PLC 1 03 11 03 12 1 2 03 11 03 12 2 RUN RUN gt 9n ON 4 03 11 03 12 3
11. gt 07 04 1 00 02 00 03 1 STP1 0 10 10 00 Hz 0 0 150 0 0 0 25 5 Sec gt 07 08 07 06 07 08 gt Run Stop gt 07 09 0 OHz 07 09 1 gt 07 10 0
12. OL1 0 1 700 0VDC 780 0VDC 400V 08 04 ETT IN 0 4 OLA gt 08 067 0 OL1 RESET gt 08 06 1 OL1 OL1 H 0 1 RUN 21 31 08 07 0 08 07 1 vy v v v gt 408 07 3
13. 4 4 1 S1 S2 E S3 E S4 E S5 S6 2502H G ooo ooo 2603 251FH BAM QE Bit 0 DATA 4 2 Ae 0 E s 2 5 DATA LV C OH OV C 02 OC OH C LV STPO STP2 06 BB bb 29 Err1 CPU CTER Err2 PDER 31 Err4 09 EEPROM EPR Err5 2521H ATER i Err7 OL2 Err8
14. ASCII Mode Boas 3AH STX 3AH STX 3AH STX 30H u 30H N 30H 31H 31H 31H SLAVE 30H m 30H ns 38H Dem 33H RAE 33H RAE 33H 41H 30H P 35H Eu SH En DATA 32H 31H LRC 33H 37H CHECK 30H 37H ODH 30H PO 30H OAH END 30H 2 n LRC CHECK LRC ODH 2 CHECK OAH END ODH OAH RTU Mode H4 uu SLAVE 01H SLAVE 01H SLAVE 01H 03H 03H 83H AOH DATA 02H 52H 23H O7H COH E 48 RC xp 00H DOH CRC 16 CDH 01H ier BBH GRO 57H E8H COH 4 4 08H
15. ASCII Mode Eus 3AH STX 3AH STX 3AH STX 30H 30H N 30H 31H 31H 31H SLAVE 30H IU 30H mem 38H NN 38H RAE 38H RAE 38H RAE 30H 30H 32H EN 30H 30H 30H T 30H 30H SUE dran es 30H 30H 35H A1H A1H OAH END 35H DATA 35H DATA 33H 33H 37H 37H 31H 31H ou LRC CHECK ou LRC CHECK ODH OAH END OAH END RTU Mode SLAVE 01H SLAVE 01H SLAVE 01H 08H 08H 88H Kum OOH eum OOH 20H Jil HI yl H OOH y 00H 4TH DATA ABH DATA D8H 37H 37H DAH DAH RC 1 RC 1 am ORES 4 5 06H B 1 E510 60 0Hz ASCII Mode STX STX
16. 24v Or 10V IEC 61800 3 IEC 61800 5 1 1 1 1 2 Afk 00 02 00 03 07 04
17. 7 Xe pz XE BEA UE BLUE 8 e 3 3 4 LC RC YE X1 2 v v V v 3 18 3 3 5
18. Ei DAL YEAS EE M FWD LED 5 8 5 3 4 MCCB ENAR MARA Fe 18 UN UVW f 5 9 5 3 5 5 PORE s 5 f 5 3 6
19. WI _ 24 Of TEM E pm i ah Y E La W zl m io Hi mm inch oom eee 510 203 et 202 H1F Lene 128 7 118 3 210 6 213 6 147 8 133 8 141 8 46 1 121 1 yz 5 06 4 66 829 841 5 82 527 558 1 81 477 E510 403 H3 UM 405 H3 403 H3F 405 H3F 3 43 Frame3 NEMA1 200V 7 5 10HP 400V 7 5 15HP F Wh WI TM TU ig i EK M mm inch w w H w E1 E510210 H3 Ses 408 H3 08 410 H3 186 9 175 291 296 195 i Se 415 H3 7 36 6 89 11 47 11 65 7 67 7 0 17 ae 408 H3F eee 410 H3F m 415 H3F 3 44 Frame4 NEMA1 200V 15 20HP 400V 20 25HP
20. 0 11 21 3 gt gt 00 04 0 1 03 00 03 05 0 1 00 04 0 03 00 03 05 0 1 00 04 1 03 00 03 05 0 1 gt 00 04 2 S1 S2 S3 03 00 03 01 03 02 Al2 UPIDOWN PID gt 00 05 00 06 6 PID 00 05 00 06
21. 1 H 2 3 4 dads ie TI AL p LUE A EE UR REG IET PINO Ne i 2 5 4 5 3 5 3 1 El GARFE J H SE T DELITO S m z REZERW gt m O lt macan gt
22. 10 045 0 00 10 00 gt 10 04 x10 04 40 05 0 0 10 0 gt 10 05 P 10 06 0 0 100 0 Sec gt 10 06 1 rad m 4 61 0 00 10 00 Sec gt 10 07 D 0 11 aye gt 10 08 10 09 PID 10 09 10 08 10 09 o ES 1 2 gt 10 11 0 gt 10 11 1 PDER gt 10 11 PDER T 100 gt 10 12
23. gt gt 1 3 2 2 1 auf m MODEL E510 401 H3F MOTOR RATING 1PH 0 75kW C FARMER INPUT AC 3 PH 50 60Hz 380V 480V 10 15 4 2A OUTPUT AC PH 0 650Hz 0 480V 2 3A PIN n S N 6 TECO Electric amp Machinery Co Ltd ri 2 2 E510 F 1 3 200V P5 0 5 HP 2 220V 01 1HP 4 440V 7 20 20H 400V 01 1HP 02 2HP f 25 25 2 1 Vac Em m 1h 200 240V i os o 10961599 I EE i 1 3 ph 200 240V H 41096 1596 E510 202 H3 ET 205 H3 EE E510 208 H3 3ph 200 240V 10 15 510 215 En 220 H3 EE 401 H3F LR 401 H3 EE 402 H3F ids m 402 H3 EET 403 H3F Er 403 H3 405 H3F EA 405 H3 EET 510 408 3ph 380 480V 41096 1596 510
24. 00 02 1 07 11 0 07 00 1 i BE 150 0 210 0 300 0 420 0 0 0 0 1 25 0 gt 07 14 0 0 gt 07 14 0 0 Wil 220V TM2 27 07 14 0 PN 190V KEB T 0 gt REN lt 07 14 UR 1 24 07 1440 sr NB 8172288 2 190V 220V BK 380V 440V 3 07 14
25. TL T2 T3 CMOS 0 1 1 1 1 gt L1 L amp L3 N L1 L2 L3 TL T2 T3 40C
26. EE AT CORD 4 08 18 5 2 5 1 2 1 2 3 mz AE ARD I BASE BLOCK Ke Pe Ke 1 13 06 gt 0 2 11 00 1 3 13 07 LOC 1 00 05 00 06 gt 0 2 X 1 00 13 11 08 11 11 11 09 11 11 11 10 11 11 2 00 12 00 13 1 2 1
27. 15 03 00 03 05 201 V F ik 16 03 00 03 05 21 PID 03 00 05 21 PID 0 17 03 00 03 05 22 S1 S6 22 1 12 00 8 c0000 0001 0002 0003 0004 0005 0001 0002 eus LILI LE U LEU LL i 2 nd ASS A ns
28. 15 06 00 31 x 61 05 01 15 Hz 06 01 30 Hz 06 02 50 Hz 06 15 20 Hz 06 16 20 s 06 17 25 s 06 18 30 s 06 31 40 s 1 06 47 1 FWD Fi 06 32 11 06 33 1 06 34 06 04 06 15 0 Hz 06 20 06 22 0 s 06 35 06 46 0 Hz A 06 02 05 01 487 m F3 Ic gt lt p gt lt gt iq gt T 0616 06 17 06 18 0623 Z lt 06 00 e 06 00 1 3 e 06 00 4 6 06 00 4 53 1 3 4 6 1 00 14 00 15 2 00 16 00 17 06 16 06 32 05 01
29. S1 S2 S3 03 00 03 01 03 02 ee S2 S3 E510 HER Hz iV S1 ON ON S2 ON OFF S3 OFF ON 2 03 00 03 05 2 3 4 5 EE S1 S6 4 0 15 5 5 Ex 4 A B C D 3 4 5 vii OFF OFF OFF OFF ON OFF OFF 2x MN as lt N E e 1 N NJ OFF 05 07 Mn WT OFF OFF ON OFF y ti OFF OFF ifi e 1 N HiT OFF E E lt N E 05 47 M 3 03 00 03 05 6 7
30. AS IEP 3 17 3 3 3 gt gt gt 30cm 1 10mm2 2 3 Drive T1 T2 T3 te 4 150mm TE E NS O 5 6 100 mm
31. gt 00 10 1 gt 00 10 2 00 11 0 01 650 00 Hz 0 00 649 99 Hz gt 00 13 0 HJ WERKE A 00 13 gt 0 S00 13 Hz 0 T 0 1 3600 0 Sec 0045 1 0 1 3600 0 Sec 00 16 2 0 1 3600 0 Sec 2 0 1 3600 0 Sec 4 26 gt gt gt gt aa 00 14 x wn pee 00 15 x Hz 0 gt
32. DC T SV f 5 5 s n AS He Ji AE 1 5 3 2 OC OL OC OL LG B T x E 5 7 5 3 3 OV LV 0V LV f
33. Err2 01 11 gt 00 07 0 00 05 00 06 00 05 00 06 13 3 00 3 05 gt 00 07 1 00 05 00 06 00 06 00 05 00 06 00 06 13 3 00 3 05 gt gt 0 i 1 0 11 bk He 2 200 11 0 00 650 00 Hz gt gt 00 10 0
34. 00 00 02 08 04 05 05 29 00 01 02 09 04 06 05 30 00 02 02 10 04 07 05 31 00 03 02 11 04 08 05 32 00 04 02 12 04 09 05 33 00 05 02 13 04 10 05 34 00 06 02 14 04 11 05 35 00 07 02 15 04 12 05 36 00 08 02 16 04 13 05 37 00 09 03 00 04 14 05 38 00 10 03 01 04 15 05 39 00 11 03 02 04 16 05 40 00 12 03 03 05 00 05 41 00 13 03 04 05 01 05 42 00 14 03 05 05 02 05 43 00 15 03 06 05 03 05 44 00 16 03 07 05 04 05 45 00 17 03 08 05 05 05 46 00 18 03 09 05 06 05 47 00 19 03 10 05 07 05 48 00 20 03 11 05 08 06 00 01 00 03 12 05 09 06 01 01 01 03 13 05 10 06 02 01 02 03 14 05 11 06 03 01 03 03 15 05 12 06 04 01 04 03 16 05 13 06 05 01 05 03 17 05 14 06 06 01 06 03 18 05 15 06 07 01 07 03 19 05 16 06 08 01 08 03 20 05 17 06 09 01 09 03 21 05 18 06 10 01 10 03 22 05 19 06 11 01 11 03 23 05 20 06 12 01 12 03 24 05 21 06 13 02 00 03 25 05 22 06 14 02 01 03 26 05 23 06 15 02 02 04 00 05 24 06 16 02 04 04 01 05 25 06 17 02 05 04 02 05 26 06 18 02 06 04 03 05 27 06 19 02 07 04 04 05 28 06 20 1 REAR BR 06 21 08 07 11 03 06 22 08 08 11 04 14 10 06 23 08 09 11 05 14 11 06 24 08 10 11 06 14 12 Reie 08 11 11 07
35. 07 00 00 02 00 03 07 04 FWDIREYV 07 00 07 01 07 02 1 00 02 00 03 0 2 00 02 00 03 1 FWDIREYV 3 00 02 00 03 1 07 04 0 FWDIREV gt 07 04 0 07 04 1 3 13 00 01 01 2 J
36. TECO BARRE ELE EE Gee EpL eee EpL Gee EZE Wed EE Wed ele Next I s E se C so a b c 5cm 3 20 3 3 7 a 200V 0 5 1HP 200V 0 5 1HP 9 200V 2HP 400V 1 2HP E510 Frame 1 E510 Frame 1 1 3 21 b 200V 2 3HP 44H 200V 2 3HP 200V 5HP 400V 3 5HP E510 Frame 2 PUL PR TE E aras gT M nat E510 Frame 2 NEMA1 3 22 19 200V 7 5 10HP 400V 7 5 15HP E510 Frame 3 E510 Frame 1 3 23 400V 20 25HP TH 200V 15 20HP d E510 Frame 4 STE oe E510 Frame 4 NEMA1 3 24 400V 20 25HP TH 510 4 AHWR 3 25 E510 Frame 1 E510 Frame 2 4 l v 18 TET ME Pul TM2 TM1 E510 Frame 3 TM2
37. ET 187 i FE 0 06 32 06 33 1 06 34 2 4 51 0635 06 37 06 38 40 4 06 40 06 4 06 46 06 47 4 5 8 10 11 12 13 14 15 1 Ef 21 ER 18 gt 06 00 gt 06 01 06 47 e 1 15 06 01 06 15 06 17 06 31 06 00 PLC 06 32 06 47 0 05 01 06 16 06 32
38. gt gt gt EM gt gt 200mA is m Wr 0 1 gt gt fih BR gt gt 200V 400V 600KVA gt E510 A gt EMC
39. 0 0 25 5 Sec gt 10 13 0 109 gt 10 14 PID 0 1 1 Sec 30 30 Sec 0 30 Sec gt 510 15 0 IJ PID gt 410 154 01 IN PID 10 15 _ meer 1 1 8192 gt ns PID 0 00 650 001 Hz PID SEE Im g J RE gt PID PID 10 17 10 18 4 62 Z PID PID 10 19
40. 0 m 0 T1 T8 t 4 79 7 7 FLASH 3 0 0 ttu T1 T8 3 AS1 AS4 MD1 MD4 T1 T8 C1 C8 V 1 V7 AS1 AS4 MD1 MD4 T1 T8 C1 C8 V 1 V7 G1 G8 1 1 lt ON Jr Cao UE mr pr err es 1 C GD gt gt 0 3 lt Be 4 0 G1 ON SS Se gt 11 did isst gt T1 0 31 003 PRAA am x a n G1 G8 1 G1 D TI a kasa sssi wan ysi wasp ee samo was 2
41. J 10 50 C Note1 20 60 C 20Hz 1G 9 8m s 20 50Hz 0 6G 5 88m s IEC 60068 2 6 Note1 10 50 C 10 40 C 3 30 3 5 P BR MCCB MC ou L 4Q L1 L X T1 AC 2 L3 ND 3 H T3 s PIN1 A CON2 PIN2 B PIN3 A 8 d 424V PIN6 x 5 6 nh dS 1 8 PIN7 VCC 1 _ RIA PIN8 GND 9 7o R1B o o LL g S3 RY1 250VAC 1A T Ric 30VDC 1A so dm fF l 5 6 CH o ss ff _R2A l X 0 0 n 250VACHA o 1l1 9 se mud R2B 30VDC 1A COM n o H o SF AO H S Be n B 56
42. 10 21 PID 10 22 PID 1 AM 2 Al2 3 H 10 02 iE 0 Keypad 2 Al2 25 1 AH Zi 3 2 1 10 02 PID 0 0 100 0 500 1 1 PID 1 hi2 D 2 PID D 3 PID 31 i2 D BEE i NE 1200 ot 1 0 1 4 19 0 1 1 16 0 1 2 ERRAR 1 S ABE aH VF E on En ZH 2 sT 0 00 15 00Hz 4 20 1 3 e e e e e
43. 12 00 03 8 03 00 03 05 13 00 06 9 03 00 03 05 14 ES 0 14 2 10 03 00 03 05 15 15 11 03 00 03 05 16 PID WEN 161 PID PID 12 03 00 03 05 17 Reset 17 E Reset fb 13 03 00 03 05 18 18 6 14 03 00 03 05 19
44. f 0 5 1 5 4 5 HE 10 40 C Hime d cin I T Gs fA HT Ent NT SAGER LRM A Ass Ag x RR EC PERIE
45. XxX 1 xx x PID j 0 1500 1800 A U 7J 3 S2 S3 e 1 54 55 S6 A A i 65 f e 00000 LI LI 100 3 52502 23 ii cu A iE 5 01 5 15 5 01 5 15 3 13 06 00000 65535 1150 50hz 1160 60hz 1112 PLC
46. CRC 2 4 0 3 CRC 0 CRC A001h 1010 0000 0000 0001 CRC 5 3 4 8 bit 6 2 5 8 bit CRC CRC CRC CRC 1241hex IN CRC 16 41hex CRC 16 12hex e CRC UWORD ch sum UBYTE long UBYTE rxdbuff BYTE i 0 UWORD wkg 0xFFFF while long wkg rxdbuff for i 0 i lt 8 i if wkg amp 0x0001 wkg wkg gt gt 1 0xa001 else wkg wkg gt gt 1 return wkg 3 ASCII Mode RTU Mode EI HEN NS 02H Noe 3 83H 52H LRC e E 80H
47. e Framez ASS 5 380V 480V 200V 240V ut AEG Vol vy Vv Vy NN V lt M ZW 440V 3 2 3 2 1 a 200V 0 5 1HP 200V 0 5 1HP 200V 2HP 400V 1 2HP Frame1 Frame1 NEMA1 M4 Qu Z b 200V 2 3HP 49 200V 2 3HP 200V 5HP 400V 3 5HP Frame2 19 200V 7 5 10HP 400V 7 5 15HP Frame3 d 4H 200V 15 20HP 400V 20 25HP Frame4 3 4 400V 20 25HP Frame4 3 5 E510 200V 2HP 400V 1 2HP 200V 0 5 1HP 200V 0 5 1HP a Frame1 3 6 Frame 1 NEMA1 3 7 b 200
48. gt 07 10 1 um gt 07 112 0 gt 07 11 1 0 0 20 gt 07 12 LV C gt 1 2 gt 407 00 0 gt 7407 00 1 HHZ NDF 07 12 0 5
49. ASCII Mode Eus 3AH STX 3AH STX 3AH STX 30H M 30H N 30H 31H 31H 31H SLAVE 31H mm 31H TE 39H ET 30H 30H 30H 41H 41H 35H 30H 30H 32H ROS 20 LRC CHECK 31H 31H 30H 30H ODH 30H Ke 30H Ke OAH EAD 30H 30H 32H 32H 30H DATA LRC CHECK 30H 0DH END 30H m i9 DATA 31H 31H 37H 375 DATA 30H 5 LRC CHECK ODH END OAH RTU Mode SLAVE 01H SLAVE 01H SLAVE 01H 10H 10H 90H AoH men AOH 52H 01H et Gon 00H 00H FDH 02H 02H DATA 04H 32H DATA OOH ORGIE 08H 01H 17H EX ERKI 70H 95H PROI BOH DATA 2 B 11 DMH RACE as i ST RC CB
50. Note V1 1 up down fi S1 03 00 81 Up S2 03 01 9 Down 03 06 A Hz 1 lt 2Sec AHz Hz S1 ON ON ON S2 ON ON ON 2 gt 2Sec Hp Z2Sec tl 4 gt lt a gt lt 2Sec t2 S1 ON OFF S2 OFF ON AH1
51. 03 08 S1 S5 xxxx0 S1 xxxx1 S1 xxx0x S2 xxx1x S2 xx0xx S3 xx1xx S3 x0xxx S4 x1xxx S4 Oxxxx S5 xxxx0 S6 xxxx11 S6 gt BLT KAT o En 03 09 03 09 0 0 0 0 0 0 s5 s4 s3 s2 s1 1 gt fh S1 S2 03 09 00011
52. S3 2 0 5 02 imr S4 i 1 5 03 2 5 05 20 15 922277 1 VIF 21 PID lt gt A WERE 24 PLC 03 05 03 06 up down 0 up down S1 S6 i XXXX1 i XXX1X S1 S5 S6 F xxxx1 4 2 4 11 03 13 03 14 gt 03 13 H 2 lt 03 13 10 GEDTAGNOLT f f 11 OL2 12 iL BE 13 PID 3 22 23 3 22 23 18 PLC 00 02 19 PLC 0 00 65000 10001 Hz 0003000 zoj Hz 04 150 Ct 01 A 04 100 dt 01 Sec 000 2000 oool Hz 000 2000
53. 03 13 03 14 Hz A 2 gt 1 0 I zs 2 gt UN RUN RUN RUN gt x PS 5 03 11 03 12 4 gt lt A gt E D RSEN s VES pf x j o T gt f ee EOM I I ml d RUN x RUN N oN 6 03 11 03 12 5 lt Hz gt 0 T mA lt V I TENE x RUN x RUN MUSAE ae ON ON ON 017150 A O O r 03 16 0 1 10 0 Sec 4 40 gt 03 11 ZEX 14 HJ gt 03 15 gt 03 15 0 1 15 0
54. 1 Sis f CX os OL3 E oc M pe pr 30 300 Note 8 17 03 00 03 05 28 V1 1 TU f3 ASCII 09 06 1 32 0 4800 15 1 ASCII 45 9600 19200 38400 1 2 8 0 COT 7 0 0 25 5 1 COT 2 COT 3 COT 1 20 5 65 4 18 0 Keypad PID 00 05 00 06 6 10 00 PID
55. 04 01 04 06 gt AI1 04 02 04 05 1 04 02 100 04 03 10 2 ee pem bes pem ove ove scu on km o m oom fo a epe em o o bw om 04 03 A 04 03 REE 100 60Hz 100 60Hz 50 30Hz 50 30Hz 0 0Hz p 096 0Hz 5V 10 V 5V 10V V 3 4 hem pem peu paos peo orca on Fem a o 1 Hz Hz A 60Hz o 60Hz Q 7 s 30Hz fF 04 03 0 0Hz 2V 5V 10 5 10 V 50 T 50 100 100 2 04 02 100 04 03 0 5 6 ew pem pen pem km m on uen acus ono mm fon eam ox w om on Hz 60Hz
56. HABIT DAR APR Hz REM E e FUN w LAE BM EE SE ri FWD e REV 4 1 3 LED DSP FUN 4 Y Y Y Y v i 3 0 0 0 8 0 1 2 3 4 5 PID 6 AM 7 Al2 8 12 00 1 12 00 10000 DSP DSP aYYvY v 2 WE 12 00 12345 Id
57. 21 PE 08 14 WEG RD 0 E CR e F6 RI LE 11 WE OL3 08 15 f 30 T 0 0 25 0 08 17 gt 08 16 100 08 15 PW EL ERZ AI gt 08 14 0 OL3 LU RESET gt 08 14 1 IJ OL3 08 15 03 11 12 12 f 08 13 1 2 gt 08 17 1
58. 5 IN RELAY 0323 0 9999 C0001 2 RY1 4 C0000 T v IK C0000 C0000 C0001 C0002 C0003 C000 C0001 C0002 00 00008 aS 2ms 03 22 4 03 23 2 03 11 17 RY1 03 22 4 03 12 16 RY2 I 4 42 I 5 100 gt
59. FF ME E E HAH df 5 11 5 5 1 2 EB L1 T1 L2 5 12 6 6 1 E5
60. 4 8 2 1 0 1 3600 0 100 1 0 1 3600 0 100 2 0 1 3600 0 1 O VIEBGE RH 1 PID 2 00 11 50 00 60 00 Hz 0 01 650 00 50 00 60 00 Hz 00 Sec Sec 0 Sec 1 Sec 0 00 649 99 4 4 100 2500 200 Hz 01 255 os Se 01 255 05 Sec 220 0 440 0 Vac 0 20 650 00 50 00 60 00 Hz 0 0 100 0 100 0 381 EE 5r Jo 100 00 0 00 10 00 OO Hz 005 1000 owo mS A 0 0 200 0 00 wE S1 0 EENS ol
61. 1 2 1 2 3 IGBT 1 2 3 TN mm Bc LA 3j C LI d PST PRAE i dede tj Al 1 l x T B T Xe TAS F O OC LU 1 1 1 1 2 8 15 8 16 2 8 15 1 2 2 at SA n FL
62. Wl 2 Q1 V Hy Wm E DE Hi mm inch EN E510 202 H E510 203 H 128 7 187 6 147 8 133 8 141 8 482 4 5 2 25 5 07 7 39 5 82 5 27 5 58 1 9 0 18 0 08 3 38 Frame3 4H 200V 7 5 10HP 400V 7 5 15HP Wl 2 Q1 m mm inch 2 3 w w w M PM E510 208 H3 510 210 3 EAT See 186 9 176 175 260 9 249 8 195 184 189 847 45 08 7 36 6 92 6 89 10 27 9 83 7 68 7 24 7 44 3 33 0 18 Se ee SS 415 H3F 3 39 Frame4 4H 200V 15 20HP 400V 20 25HP
63. 0 20 650 00 Hz 0 0 100 0 2 0 0 100 0 2 00 0 0 Hm 010 650000 Hz 0109 01 06 1 JA 0 0 100 0 gt 01 00 18 01 02 01 09 VI F 01 02 gt 01 00x 18 50 00HZ 60 00HZ 01 02 V 01 03 01 05 01 07 01 09 H 01 08 01 06 01 04 01 02 650 00 4 29 FeRAM ESS VIF 0 10 0 gt VIF B C 01 10 VIF gt B C B Xbx C Xcx Xb Xc 4 29 01 10 0 Id V 96 01 10 B C 1 2 5 3 0 50 60 Hz 01 41 VIF a 0 00 10 00 Hz SEP 0 05 10 00 mS gt zm
64. 03 22 5 EN 18 03 00 03 05 23 S1 S6 23 c0000 19 03 00 03 05 24 PLC S1 S6 24 PLC PLC 20 03 00 03 05 27 B 07 14 21 03 00 03 05 281 V1 1 1 28 08 17 2 FIRE ES Stop 3
65. Hz a B 200Hz y 22 1 H gt J Master 2 eei V eie 0 41 2 1 W vs w MR 5 POR 6 Ww X Ww BUR T 10 11 w 12 4 47 05 15 Bub erbe w16 7 HE 15 00 650 00 Hz 0 15 i 0 1 3600 0 Sec gt 05 00 01 Hj ZR 0 15 16 00 14 00 15 00 16 00 17 gt 05 00 1 0 15 16 05 17 05 48 Ki HAH 00 14 00 15 00 16 00 17 gt 2 DUE OBA CEI ERAS 2 W iu Ux Bi tror OFF ATL BRI EE Mo gt 01 00 18 01 02
66. 2 2 ON 3 3 Os GO lt ON 4 80 11 f8 OFF FWD ON REV u ON V3 V4 ACC Time DEC Time F1 F8 J A I 1 IF1 RUN STOP ONOFF F1 Q1 OM mc TOC Sage FRESE FION __ F1 ON M1 50 0 60 0 7 81 M2 300 4 81 5 V1 AS1 AS4 MD1 MDA T1 T8 C1 C8 V1 V7 V2 AS1 AS4 MD1 MD4 T1 T8 C1 C8 V1 V7 V3 AS1 AS4 MD1 MD4 T1 T8 C1 C8 V1 V7 amp M1 MF nop AS1 AS4 RESULT V1 V2 V3 p DEL lie eee EROR MR I H 51 4 AS1 ON OFF I1 ON OFF MD MRR tURIHEEURRESULTRDSE L 65535 FIE 0 M1 ON X uc LM LC Ec I m pl ASHER RESULTIPR GER 4 7 1
67. e A 06 00 1 4 06 00 1 4 05 01 15 Hz 06 01 30 Hz 06 02 50 Hz 06 03 20 Hz 06 16 20 s 06 17 25 s 06 18 30 s 06 19 40 s 06 32 1 06 33 1 06 34 1 FWD 06 35 2 REV thb 06 04 06 152 0 Hz 06 20 06 31 0 s 06 36 06 47 0 Hz 06 02 05 01 0 s jd lt C gt T 0616 06 17 06 18 06 19 RUN B 06 0022 5 fj 06 00 2 27 5 06 01 06 05 06 16 06 31 06 32 06 47 A Hz A 06 02 06 02 05 01 E Ly m 06 03 lt gt 106 16 106 17 06 18 Dy Jut 740618 06 03 BUE 06 19 06 19 C 06 00 3 6
68. 11 04 11 07 gt 11 04 11 07 0 W S 1 2 3 0 00 650 00 Hz RE 0 00 30 00 Hz gt B 4 11 08 10 0Hz 11 09 20 0 Hz 11 10 30 0 Hz 11 11 2 0Hz 10Hz 2Hz 8 12Hz 20Hz 2Hz 18 22Hz 30Hz 2Hz 28 32Hz 11 11 11 10 11 09 11 08 VF 0 11 21 F HARRES OV EKP 11 14 v a 4 65 gt
69. 0 gt 0 OFF on 6 tl t2 TI T8 OFF ON oF 3 __ OFF ON OFF 3 3 OFF 1 4 0 0 qina a U on l _ 6 wes a 3 OFF OFF t 4 78 oN CT1 T8 3 OFF oy t 4 4 OFF 2 0 0 OFF ON Jos _ 0 T1 T8 ON OFF t gt _ OFF t 5 5 FLASH 1 0 0 T1 T8 t 6 6 FLASH 2
70. 9 M 2P5 0 5 0 4 60 200 8 214 201 1 0 75 60 200 8 117 202 2 1 5 150 100 10 117 203 3 2 2 200 70 9 112 205 5 3 7 300 40 8 117 208 7 5 5 5 500 25 8 123 210 10 7 5 600 20 8 117 215 15 11 2400 17 10 100 220 20 15 3000 13 10 100 401 1 0 75 60 750 8 123 402 2 1 5 150 400 10 117 403 3 2 2 200 250 8 123 405 5 3 7 300 150 8 123 408 7 5 5 5 500 100 8 123 410 10 7 5 600 80 8 117 415 15 11 1500 40 8 149 420 20 15 1600 50 10 100 425 25 18 5 4800 32 10 120 W Vpnb Vpnb ED Rmin 1 W c 2 Vpnb 3 ED 4 Rmin 6 5 3 4H 220V 7 5HP 10HP 15HP 20HP 220V 380VDC 440V 760VDC ERA ZUR 5 096 0500 0 50A 097 08004 00 80 mj HH LCR A E510
71. ewm iur eei a oss 0 9999 15 145 W ogg o foss 15 17 15 18 15 32 4 24 4 3 01 VIF 1 gt VIF 1 01 00 VIF 1 gt KOJ 1 2 31 PLC gt Z 00 02 00 02 00 03 03 00 03 05 12 00 02 3 FF RUN PLC STOP PLC KOJ JS 1 ir 2 gt Z 00 03 00 02 00 03 03 00 03 05 12
72. gt WEG BH READ ENTER U 1 I oncle j mmy AL LO IS Z READ ENTER rnm 1 1 1150 50hz 1160 60hz 1112 PLC RESET 13 07 4 70 14 00 T1 1 14 0 T1 2 7 o O 14 02 T2 1 14 03 T2 2 T 14 04 T3 1 14 05 T3 2 7 14 06 T4 1 14 07 T4 2 7 T5 1 T5 2 7 T6 1 T6 2 7 1412 7 2 7 T8 1 T8 2 7 0 9999 gt T1 T8 4 E510 PLC 8 C2 C3 C4 C5 C6 C7 0 65535
73. E S H JAKK b b PID 5 3 1 2 Auto tuning FIrE 5 2 U V W RR AEE 00 BUR PCR rm IREE cabe TEES
74. 21 3 S 41 5 PID 6 AM 71 Al2 8 E 4 P4 4 PID 0 xxx 11 1 xx x 21 2 x xx 0 xxx 1 xxxpb 2 xxxfl 4203 0 65535 Rpm gt 12 03 1800 60Hz 30Hz Gu 0 1 xxxxx 2 1 xxxx x 3 2 xxx xx 4 3 xx xxx gt 12 04 0 gt 451 56
75. _R1A PIN8 GND aa R1B f RY1 Do aq 250 Ric 30VDC 1A R2A an 9 0 250VACHA I l gt 1 f W T 2 30 1 A9 o 10vpc AGND l _ i 1 i 2 1 0 10V 0 20mA AM BEREE lt oovozoma 11 o ay PID m T o o 11 9 AGND Ped SLAP ig JP1 NPN PNP v JP2 AI1 0 2 10V 0 4 20mA PNP AV1 AV2 JP3 Al2 0 2 10V 0 4 20mA uh cm RE ERRER V 4 Wu o 200V E510 202 H3 E510 205 H3 E510 208 H3 E510 210 H3 E510 215 H3 E510 220 H3 400V E510 401 H3 F E510 402 H3 F E510 403 H3 F E510 405 H3 F E510 408 H3 F E510 410 H3 F E510 415 H3 F E510 420 H3 F E510 425 H3 F 3 33 3 6 3 6 1 1 L1 L N H L1 L2 L3 HAL V W i 200V 0 5 1HP Li L 12 BUR L3 N
76. AVR 0 AVR 1 AVR 2 AVR stop 3 AVR gt 08 07 2 9 4 AVR stop 5 AVR stop VDC gt 360V 740V gt gt 08 08 0 gt 08 08 1 gt 08 08 2 AVR stop gt 08 08 3 AVR gt 08 08 4 AVR stop gt 08 08 5 VDC gt 360V 200V VDC gt 400V 400V
77. gt L1 CL L3 N L1 L2 L3 T1 T2 T3 gt T1 T2 T3 U V W gt T1 T2 T3 gt 200V lt 100 400V lt 10 Q gt gt lt 10 V 3 x Q km x m xf y 3 x10 3 19 3 3 6 gt gt gt gt
78. j Sai gt AO 04 12 04 15 Al 04 02 04 05 gt TM2 AO 0 10Vdc 04 11 04 12 10V 10V 10V gt Bl B C rateA rateB rateC Master 04 16 1 00 05 2 AM Master Al2 rate 4 46 A B C 0 100Hz 0 200Hz 0 50Hz 10 All AR AGND 10V AR AGND 10V AR AGND rate A rate B rate C gt gt gt Master A B C 00 05 2 00 05 2 00 05 2 00 12 100 00 12 200 00 12 50 04 16 1 04 16 1 04 16 1
79. 0 4 4 56 Iz xxxx0 xxx0x xx0xx x0xxx gt xxxx1 xxxix xx1xx ese PR x1xxx 1 s lt Si gt E YN gt gt Ab Mtas gt 08 03
80. 2 JP2 AVI t JP2 7 0 10V 0 20mA 153KQ 2 2 AVI UJ ACI 0 10V 0 20mA 153KQ Eu 4 HEE WE R 3 0 10V 2mA SF 1 3 35 cu 2 3 4 cu JUMPER 1 2 NPN 8 1 2 TA PNP PE 0 20mA 00 05 00 06 2 3 0 10VDC 3 36 3 7 mm inch 1 10
81. N i 1 gt 0Hz pe 5V 10 V 5V 10 V 3 04 02 100 04 03 7 8 oco uera acus ocn Lm mo o mms seems o me oom 100 60Hz 04 03 H mec A xeu 10096 60Hz 37 5Hz 37 5Hz 50 30Hz 50 30Hz d 0 X 0Hz f 0 0Hz P gt 5V 10V V 5V 10V V 9 10 fonja o a i mms xem o 4 45 Hz 60Hz Cr 60Hz pl Herm 04 03 18 26Hz 0 181Hz 0 0H i Vv v lav V 50 2 50 100 L 100 L AO gt fil 04 11 0 A Xmax Xmax teme 220V 0 400V Z 380V 0 800V 2 S d ODE 0 1000 04 13 AO fud IF In
82. EMC 1 2 3 4 3 46 4 1 4 1 1 FE 8 4 WAS TECQ ENTER FREQ SET E510 srop Hz RPM FWD 1 REV j FUN RUN RUN 5
83. Eb510 noc 401 42 403 405 BZW HP 1 2 3 5 ig BUE KV Ft VF Wt 15 IN RH Sec tm FERA i HE Sec F 3 29 3 4 2 1 ___ 0 01Hz 0 06Hz 60Hz WB EE UE E BU w 2 0 1 3600 0 Sec 4 S F J EA 4 16 PID PID J Haw 150 1 s 200V gt 410V 400V 2 gt 820V 200V lt 190V 400V 2 lt 380V
84. gt 407 02 0 gt 407 02 01 07 012 0 0 5 gt 7507 02 0 07 01 0 gt 01 RUN 11 RUN gt 07 03 0 00 02 1 07 04 0 1 OLEAN 1 0 300 0 Sec gt 07 04 0 00 02 00 03 1
85. 00 Se t 00 36000 3 3 00 Se 00 3600 00 Sec 00 36000 00 Sec 00 3600 00 Sc E 0 0 36000 oo Se EH 4 A J A Hy J A J Hy ay J A J Hy A J A J Hy J A J A A A 2 A A 2 A A 2 A A A d 3 11 00 36000 00 se 12 00 36000 oo se 00 36000 oo Se 00 3600 3 3 3 oo Se 00 36000 1 00 Sc 0 1 iE 0 07 00 4 0 RUN 07 03 1 RUN 0 H 1 BJ Asu EG
86. 09 06 0 0 25 5 0 0 HJ EA 0 01 T gt 09 07 Err6 1 20 gt Err6 Err6 09 09 5 65 mSec gt Master _ Slavor Slavor _ Master PLC TP03 INV E510 INV E510 PLC TP03 PIC 1 3 5 09 09 4 60 PID 10 03 0 Delay device 2 Positive 9 P 10 05 gt gt PID Hiit doc pod 10 00 ILimiter I Reset N 1 10 06 IM GM 0 09 10 14 10 15 Offset 1 3 10 08 10 03 PID PID L D 10 07 10 09 10 07
87. 1 AH2 t2 n MRAK ipga 172 up down 0 11 0 Hz 21 gt 03 07 0 05 01 05 01 03 0722 yk gt Wie 03 07 1 0Hz 0Hz 0Hz S1 S6 1 200 2mSec gt CPU TM2 N N 2ms gt
88. 6 7 4 03 00 03 05 8 9 UP DOWN 8 03 06 Cup down 4 9 03 06 Cup down t 0OHz 03 06 03 07 UP DOWN 1 2 Bil WE 00 12 MER 50HZ 03 00 S1 8 S1 up 03 06 up down 0 00 14 1 5S 00 16 2 10S 0 S1 ON 5S t 2 2 58
89. 65535 65535 0 0 is pe MES gt evi 6553 b asi fv 4536 lt CI M s as NE v BVH E BSB ee sss o S al 51 54 4 82 6 ER V1 AS1 ASA MD1 MD4A T1 T8 C1 C8 V1 V7 V2 AS1 AS4 MD1 MD4 T1 T8 C1 C8 V1 V7 V3 AS1 AS4 MD1 MD4 T1 T8 C1 C8 V1 V7 CM1 MF nop MD1 MD4 RESULT V1 V2 V3 PR pore a UE ue x D p Pustapa H di MDiy MD1 ON OFF I1 ON OFF 00 M1 RESULT 7 65535 BEEBE 0 M1 ON D Mp1 RESULT 65535 65535 5945 0 9 Sree uc d M gt RAVINE D MD1 f RAV 0 SS C i V3 45 gt 4 83 5 5 1
90. 8 STOP STOP E FWD REV DSP FUN AJ RE HE READ EN OOF lt RESET FWD REV READ ENTER D HI 00 00 0 uen M BE BE RESET 4 1 4 1 2 SEE ERE EN LED E7 LED 7 ZU R ER U Bj Y Y 9 Ys 41 2 1 2 4 2 AM Al2 0 1000
91. SLAVE SLAVE DATA SLAVE CRC CHECK 10mS 1 3 Address OOH Broadcast 01H 01 OFH 15 10H 16 32 20H 1 4 Function 06H WORD 08H 10H 2 CMS 2 1 LRC CHECK pj TH 03H BA 01H OOH 0AH QRH F1H CS H 46H ASCII CS L ASCII 2 2 CRC CHECK CRC Slave DATA 1 16 bit FFFFH 1 CRC 2 16 bit CRC CRC 3 CRC 0
92. 12 05 gt p 1 S1 S3 S5 S6 ON S2 S4 OFF RY1 12 05 51 52 93 54 S5 sp 2 2 53 S44 ON S1 S5 S6 4 OFF 51 RY1 RY2 12 05 vt 2 PA 2 4 67 ETT xxx0x xxx1x gt fj 12 06 00111 FF SE LIEBT LIFE2 LIFE3 gt 12 09 EN EROR y Vor 0 100 gt os i BI gt TER
93. gt 03 16 0 1 10 0 ON OFF 100ms 10096 I 03 15 MEUM EN m n l l 1 1 hd l ly Ji 1 1 1 1 1 1 1 l mE T 2 03 16 100msec 34 lt 03 11 ON 1 0 00 20 2 gt 03 11 14 03 17 03 18 gt 03 17 lt 03 18 b Hz 03 18 03 17 RUN STOP 03 11 14 ON OFF gt 503 17203 18 Hz uv RUN STOP 03 10 13 ON OFF 101 11 B 4 41 gt 5403 19 20 03 11 RY1 03 12 RY2 03 11 03 12 gt 5403 19 21 03 11 RY1 03 12 RY2 0
94. AVR stop 0 1 0 11 gt 08 10 1 5j 8 LF 0 UETTPYUTU 1 0 OL 103 150961 1 OL 113 123961 gt 08 11 0 02 06 gt 08 12 0 103 150 1min 1 gt 08 12 1 HVAC 113 123 1min gt 1 2 103 113 123 150 UD MH n kasus 0 ut DO AU 1
95. 1 AO o 140vDC m Lacno SEE 40V D m n 1 0 10V 0 20mA AM 0wi0V 0 20mA m M NPN AC1 AC2 PID ss telle 1 9 AGND JP1 oT gr ig JP1 NPN PNP v JP2 AI 0 2 10V 0 4 20mA PNP AV1 AV2 JP3 AI2 0 2 10V 0 4 20mA CON CNN VEL V 1 200V E510 2P5 H1F E510 201 H1F E510 202 H1F E510 203 H1F 3 31 BR T1 a T2 I 7 PIN1 A CON2 PIN2 B PIN3 A Rs485 PIN4 RXDO i PINS TXDO de PIN6 B 1 8 PIN7 VCC R1A PIN8 GND o R1B RY1 250VACHA 30VDC 1A _R2A 0 0 250VACI1A RY2 R2B 30VDC 1A D AO q HH n m 1 AO o 10vDC AGND gH u Do NPN AC1 AC2 mer JP1 NPNIPNP JP2 AM 0 2 10V 014 20mA PNP AV1 AV2 JP3 AI2 0 2 10V 0 4 20mA F
96. 5 1 1 a OV 1 2 R1 Wr 3 1 2 1 2 3 1 2 1 2 3 4 5 IGBT 1 2 1 2 3 IGBT 1 2 3 1 2 3 4 5 IGBT
97. I1 OFF il 11 il ON di OFF Q1 NORMAL 11 01 H Q1 SET A OFF OFF OFF OFF RESET 11 Q1 1 1 Q1 Q1 P i1 PQ1 H ilU 11 il Q1 4 74 ON ON ON OFF O OFF 4 4 3 1 1 4 11 f8 KRE OFF 0 1 2 3 ON 3 2 1 0 11 f8 ON OFF OFF 2 O AS1 AS4 MD1 MD4 T1 T8 C1 C8 V1 V7 C1 C8 8 ZH o 1 2 3 4 1 1 1 1 9 ___ ee _ 0 0 01 1111
98. JAAN 2j 3 rri LLL Y Y Y Y ZONE nn Li LI Linen UT Ta LIL 1 A gr W ge lt ba EE T2 gt 4 1 4 1 AYA lt RESET 4Y mp EF gt 111111 not 72898 is 1 AYA SEA E READ ENTER 4Y 2 1 2 aYYYYv 2 4 Y Y Y Y g 2 RUN 1 lt RESET 1 lt RESET 4Y me Y lt gt lt gt lt RESET lt RESET mx Y ay READ ENTER lt gt lt gt 5 lt RESET lt RESET 1 1 NA lt gt Ul it Bt 1 1 1 ATA lt 1 gt lt
99. PID Hz A 10 19 pp 10 20 10 18 10 17 FEREENA l l T PID PID gt fil WE 10 21 100 10 22 50 12 00 5 50 100 999 10 21 100 10 22 50 gt EU gt 11 0021 11 01 1 16 KHz gt IGBT 0 0 1 1 2 2 gt 11
100. RESET 4 22 C 15 14 01 T1 2 7 0 9999 f o 14 02 A KE TH T2 d 14 04 14 05 2 14 06 14 07 14 08 T5 1 0 999 tT 14 09 5 7 0 9999 C C f rf f o 14 10 T6 1 0 999 o 144 11 T6 2 7 0 9999 o TOn EE e 1413 T7 Wel TUIS 7 0999 2 4J r O o i 14 20 C5 14 24 AS1 14 25 AS1 mii 1426 AS2 DT 1 AS2 2 AS2 3 14 30 AS3 i 1 14 31 AS3 2 0655355 oo ASA TE 14 34 ASA 14 35 ASA 14 36 MD1 127 MD1 MD1 14 39 MD2 14 42 MD3 MD3 MD4 s n T s nm p N N 1 65535 po AC Re Re m 1 65535 T INI 1 65535 14 46 MD4 HE 2 0 6555 1447 MD4 3 1 655835
101. 01 00 18 50 00 60 00 01 00 18 01 02 50 hz 05 02 10 hz 1 05 19 5 s 05 20 20 s 4 48 05 19 x10 hz _ 1 01_02 1 s 05 Eb 1 Mkina 20052021002 4 s 01 02 gt 05 00 1 fil WE 00 02 1 S1 03 00 0 RUN STOP S2 03 012 1 3h f S3 03 02 2 Bt 1 Af S4 03 03 3 Et 2 SI Nw 1 IER gt T RUN STOP RUN STOP RUN STOP S2 STOP S3 ON OFF S4 OFF ON WARN J 5X 4 05 17 05 01 _ 05 18 05 01 __ 05 19 05 02 05 20 x 05 02 fl a Ko 01 02 01 02 5 01 02 01 02 fr sec 2 4 49 E 05 03 IER gt T RUN STOP S2 OFF ON S3 OFF ON OFF ON OFF ON ON 84 OFF OFF ON ON OFF OFF OFF 5 OFF OFF OFF OFF ON OFF
102. 6 2 o 1 7 1 0 0 999 9 f 2 0 9999 1 3 0 9999 11 f8 ON OFF OFF AS1 AS4 MD1 MD4 T1 T8 C1 C8 V 1 V7 T1 T8 8 1 1 ON 1 3 0 0 OFF ON OFF 6 a t T1 T8 S ON or _ t 4 77 MES Du e BEER ET ea TI ON 5 ae T5 QD 0 1 a 1 publ 10 0 T5 ON Y 4 M P 1 Ex 000 0 0100 ics lene EI INMMNU OM 2 2 ON 2 6
103. Hz 50Hz J 0 10s 2 T a Ka 1 2 L H S1 50H2 5S 25Hz 2 10S Hz SOHC usa kt 25Hz HMR 0 SCOPE T b D b ee 25Hz t x 1 55 2 55 50Hz 5 03 00 03 05 10 2 10 2 00 16 00 17 1 6 03 00 03 05 11 11 S1 03 00 11 TE E d fic ME YIR RUN STOP more ON oN ON ON OFF 03 00 03 05 12
104. 02 03 02 06 gt 03 00 S1 03 01 S2 o 03 02 S3 x 03 03 S4 03 04 S5 03 05 S6 0 00 02 00 03 1 00 04 1 00 02 00 03 1 00 04 21 0 5 02 Group5 3 1 5 03 Group5 4 2 5 05 Group5 51 3 5 09 Group5 6 00 18 00 20 7 00 18 00 20 8 Up 00 05 00 06 4 03 06 03 07 9 Down 00 05 00 06 4 03 06 03 07 10 2 11 12 00 02 00 03 13 00 05 00 06 141 151 16
105. 03 24 1 lt 3 25 WELL IN TEAR REIKI TA BR 3 26 ud c l By AI Al2 11 Al2 0 10V 0 20mA 0 10V 0 20mA 0 10V 0 20mA 2 10V 4 20mA 2 10V 4 20mA 0 10V 0 20mA 2 10V 4 20mA 2 10V 4 20mA gt 04 00 AI1 5 AI2 H JP2 AV1 AV2 BK AC1 AC2 1 0 10V 0 20mA I mA 20 mA VW 10 v JP2 ACI EK JP3 AC2 F Hz x 00 12 JP2 AV12X JP3 AV2 F Hz x 00 12 22 10V 4 20mA I 4 mA 20 4 mA JP2 AV1 JP3 AV2 F Hz 0 2 v 04 01 JP2 AC1 3 AC2 F Hz x 00 12 I 4 BKF 0 I 4 x 00 12 gt 2 0 V lt 2 0 0 100 0 4 43 0 1000 AI2 0 0 100 01 AI2 a coy 11 oo Al2 gt 04 01 04 06 04 01 04 06 x 2ms AID
106. 0ol Hz 0 A 1 B ERE 0 63 J 0 63 0 9999 0 9999 0 4 12 Al2 0 10V 0 10V 0 20mA 0 20mA 0 10V 2 10V 1 0 20mA 4 20mA Alt Al2 2 10V 0 10V 4 20mA 0 20mA _ 2 10V 2 10V ra 4 20mA xk 4 20mA em 04 02 AM 0 1000 100 1 0 1 1 AJ 0 1 f 0 an 4 mM 50 AI2 0 1000 100 1 0 100 0 hi ECELIE f 86 PE EW 1 fn 0 m AI2 Em T EW 1 f 0 4 04 11 AO 4 0 a 1 04 12 AO 0 1000 100 4 0 100 0 1 r 0 0 0 1 0 0 1 AR 0 i DA 0 1 2 ae POR
107. RS485 d 7 E TM1 Us Lii m a A E 3 26 E510 Frame 4 _TM2 TM1 IF x T a dio a d a di a a 7 lr Y m z C _ w M XPH xxxV xkW DANGER Cut off the power and wait for 5 minutes before inspecting components CAUTION See manual before operation WARNING Hot surface risk of burn 3 27 3 4 3 4 1 200V E510 H1F 2P5 201 37 HP 05 1 i 04 075 31 45 12 17 KW A KVA HA 200 240V 10 15 50 60HZ A Ces 165 fo Vr Wt E IN TR Sec 20 200V E510 H HP 05 KW 04 34 A KVA 1 2 1 7 E510 H3 F U JJ Xt HP KW A 11 KG 3 28 H 380V
108. d 00 12 LA PID 2 4 10 03 e D 0 07 10 21 10 01 e 1246 10 03 10 22 0 Keypad 1 AN nm 21 Al2 3 4 10 02 i gt 00 05 00 06 6 PID 0 Keypad 1 AN 21 Al2 3 10 00 10 01 Err2 10 02 PID 0 0 100 0 XT DUM 1 PID D 2 PID D Pt 31 PID D 4 PID D gt 10 03 11 HJ m D 10 07 gt 10 03 2 HJ D 10 07 gt 10 03 3 IN M D 10 07 gt 10 03 41 1 10 07
109. 0 1 10 50 0 2 50 100 0 3 100 200 0 5 200 400 0 8 0 04 0 40 0 004 0 40 1 97 0 01 1 97 4 0 01 4 7 87 0 02 7 87 15 75 0 03 1 200V 0 5 1HP 200V0 5 1HP 4H 200V 2HP 400V 1 2HP _ Wl _ 2Q 8 1 els le eN 0000 _ I ee Tj Wm W2 2 Q2 E mm inch E510 2P5 H E510 201 H E510 2P5 H1F E510 201 HTF 0 906 81 1636 153 1468 141 48 1 89 E510 402 H3 E510 401 H3F E510 402 H3F E510 401 H3 3 57 3 19 3 19 6 44 6 02 5 78 5 55 1 89 3 37 Frame2 200V 2 3HP 200V 2 3HP 200V 5HP 400V 3 5HP
110. 02 0 0 gt 11 02 1 1 gt 11 02 2 Eun IGBT 4 80 C RIZEN gt 70 C 80 C 70 C 0 ju 2 10K AK gt 0 tl 2 11 07 0 0 4 0 Sec 1 S 2 S 3 S 4 S 4 Ez 4 S S1 S4 SE DNA RUN S gt S gt Hp S S1 S4
111. 1 0 onc 650 00 5 00 1 2 i 000 65000 Boi 5 6 O00 e000 sm 0 00 650 00 0 1 3600 0 o1 3000 mo Se 0 1 3600 0 100 Sec ot 3600 0 s t 4 3600 1 Se t Gi GG see_ 01 3600 1 100 Se 01 36000 100 Sec 1 01 36000 100 Sec 1 0 1 3600 0 100 Sec 01 36000 100 Sec 1 0 1 3600 0 100 Sec 01 36000 100 Sec 1 0 1 3600 0 100 Sec 01 36000 100 Sec 1 01 3600 1 100 Se 1 01 36000 100 Sec 1 01 3600 100 Se 017300 1 Se t 12 OE IRR 13 i 13 i 4 14 05 45 14 0 1 36000 100 Sec 05 46 B68 14 0 1 36000 100 Sec 15 0 1 36000 100 Sec 05 48 15 01 36000 100 Sec o aaa O
112. 1 gt 5 READ ENTER READ ENTER 1 288908 4 6 4 1 5 a gt a at gt ale aa gt dB ae m gt F p A 8 FR gt BB e 4Y 4Y Y FWD O oe e lt FWD FWD FWD FWD FWD FWD FWD 4Y REV O O e O O REV REV REV REV REV REV REV 4 2 VIF 04 Ros BAAR 06 07 08 oo 10 PID 00000000 PLC
113. 14 13 UE 08 12 11 08 vds m 08 13 11 09 14 15 06 28 08 14 11 11 14 16 06 29 08 15 11 12 14 17 06 30 08 16 11 13 14 18 06 31 08 17 11 14 14 19 06 32 08 18 11 15 14 20 06 34 09 00 11 16 14 21 06 35 09 01 11 17 14 22 06 36 09 02 12 00 14 23 06 37 09 03 12 01 14 24 06 38 09 04 12 02 14 25 06 39 09 05 12 03 14 26 06 40 09 06 12 04 14 27 06 41 09 07 12 05 14 28 06 42 09 08 12 06 14 29 06 43 09 09 12 07 14 30 06 44 10 00 12 08 14 31 06 45 10 01 12 09 14 32 06 46 10 02 12 10 14 33 06 47 10 03 12 11 14 34 07 00 10 04 12 12 14 35 07 01 10 05 12 13 14 36 07 02 10 06 12 14 14 37 07 03 10 07 12 15 14 38 07 04 10 08 13 00 14 39 07 05 10 09 13 01 14 40 07 06 10 10 13 02 14 41 07 07 10 11 13 03 14 42 07 08 10 12 13 04 14 43 07 09 10 13 13 05 14 44 07 10 10 14 13 06 14 45 07 11 10 15 13 07 14 46 07 12 10 16 13 08 14 47 07 13 10 17 14 00 15 00 07 14 10 18 14 01 15 01 08 00 10 19 14 02 15 02 08 01 10 20 14 03 15 03 08 02 10 21 14 04 15 04 08 03 10 22 14 05 15 05 08 04 11 00 14 06 15 06 08 05 11 01 14 07 15 07 08 06 11 02 14 08 15 08 A 2 REWA 15 09 15 21 15 10 15 22 15 11 15 23 15 12 15 24 15 13 15 25 15 14 15 26 15 15 15 27 15 16 15 28 15 17 15 29 15 18 15 30 15 19 15 31 15 20 15 32 A 3 B E510 MOD
114. A ccm nS ee ap A ca LO EAE ee ee C alic a C 1 MCCB MC i L Q L1 L AC OL3 N ___Fan O P MCCB MC o FB AC 0 q 24V Os 51 1 ER es s2 l SG Ll 385 I 5 5 Ho S4 I S 6 H o ss 4 5 5 LT oa S6 COM ToS SF kae EL 40V 0 10V 0 20mA 1 af 0 10V 0 20mA PID 7 PET Me q 9 AGND CN As COE NINE TR YEL ERMAR V 4 200V E510 2P5 H E510 201 H E510 202 H E510 203 H 3 32 P BR MCCB EE AC id 1 T2 o H Sasa PIN1 A CON2 PIN2 B PIN3 A RU ESL PIN6 B NA 1 8 PIN7 VCC
115. A459h Timer Bit Counter Bit A45Ah Counter Bit oq Bit A45Bh AS Bit A45Ch PLC RUN amp STOP A600h Clear all memory A601h 170Ah Ladder X1 X12 Y1 YA RBA V1 V12 X1 X5 X9 Y1 V1 V5 V9 X2 X6 X10 Y2 V2 V6 V10 X3 X7 X11 Y3 V3 V7 V11 X4 X8 X12 Y4 v4 V8 V12 EEPROMIRAM High byte Low byte H L i A o G lt Tl rl sl cls Sf LJ Sy Sy Ly Sy Ly 4 I 4 x c3 c2 cr co N2 NI NO H c3 c2 ct Co NI NO L 2 Co NB N2 Na No X10 X11 X12 Y2 8 C2 Cr CO NB N2 NI NO Y3 H C3 C2 Ca CO N3 N2 NA NO Y4 L 8 C2 Ca Co NB N2 NL NO x L 8 C2 Cr CO NB N2 Nl NO Aoosh Vi V4 O O O 0 aih H C3 C2 Ci CO NB Na NO x L C3 C2 C1 CO NB N2 NI No Aoo2zh x5 H N1 NO xe 1 ve so aoon x C3 C2 C1 CO NB N2 NA NO A0h x7 H C3 C2 cr co NB N2 Na No x L C3 C2 C1 Co NB Na No A0dh X9 H C3 C2 C1 CO NB N2 Na
116. NO L Ve V8 L v8 v Ve Ve O O O 0 Aoosh V9 VI2 2 O O O 0 Lolololololololo A005h A006h lt ts 0 lt A AO0Bh E A00Ch X5 p 5 Page AOOFh A010h A011h p A01Ch 1 A01Dh RACE Address Page A024h A025h Address Address X X X X X X X X X X X X Y Y Y Y 4 5 Xx Ese 8 HERR 5 modi X9 Loa ESSEN 1 9 _ XO IESU MEE NY v2 GNE NN a V1 V4 A027h V9 V12 E 1 2 3 4 5 6 7 8 9 E 10 11 12 1 2 3 4 X2 Bye 2 C1 CO NB N2 NA NO 4 ca c2 ca Co NB Na No X6 Byte C2 C1 CO NB N2 NA NO X8 eye c2 C1 CO NB N2 Na NO _ pad0 Byte C3 C2 C1 CO NB N2 NA NO pa2 eye C3 C2 C1 CO NB N2 Na NO _ JY2 C3 c2 C1 co Y4 C3 C2 C1 CO NB N2 NA NO aosan Vi v4 v2 vi O O O 0 j ve ve ve v5 o O O AOSBh jve vi2 2 vi1 vi0 va O O O 0 olololololololo A046h gt lt gt lt gt lt lt O lt NEL UE lt 1 lt 2 Re co Location X Address A050h gt N A051h X g
117. PID Goup10 171 Reset 181 Goup6 19 201 VIF 211 PID 221 231 24 PLC 25 Pi 261 mif 27 28 V1 1 1 03 00 03 05 0 1 00 04 A 1 fj WE 00 04 0 Ym S1 03 00 0 E E 9 f S2 03 01 1 S1 e 4 S2 COM E510 I FEE Hz S1 ON OFF iV S2 OFF ON B 2 J 00 042 1 1 03 00 0 S2 03 012 11 e 4 S1 4 S2 VoM E510 Hz gt T S1 ON OFF S2 OFF ON C fj Bere 00 04 2
118. SEA ARR DAT TUE pay PE MESH 26 n pe pa Eo B ES a 8 o ins ugs ith aiit 02 00 i eR eae TOURS 3 005 C02 02 x _ 02 02 i RPM oe x 50Hz 60Hz 4 60Hz x60 1800 RPI it 02 00 02 01 13 00 0 11 gt 00 00 K13 02 01 02 03 02 06 02 14 1 AT END 02 15 02 16 02 14 0 gt 02 01
119. SLAVE LRC CHECK END LRC CHECK LRC CHECK END END RTU Mode Hus SLAVE 01H SLAVE 01H SLAVE 01H 06H 06H 86H AOH A0H 52H A El p 02H 02H e rae BRE T es DATA 17H DATA 17H 9DH 70H 70H 04H 04H RC 1 f CRONG CREMO IS 4 6 10H 1 RTU 35 ASCI 15 2 Group 3 1 1 E510 60 0Hz B 10
120. T1 T p P BR 200V 2HP 400V 1 2HP 200V 0 5 1HP LL L2 L3N Ti T2 T3 e D P BR Frame2 44 200V 2 3HP L1 L L2 L3 N P BR T1 T2 T3 3 34 200V 2 3HP 4H 200V 5HP 400V 3 5HP L1L L2 L3 N P BR TI T2 Ge G 4 E 45 Frame3 amp
121. TM1 L1 L2 L3 200V L1 L L3 ND D gt TM1 T1 T2 T3 A T1 T2 T3 gt gt 3 3 2 TM2 gt 60 75 C gt 200V 300V 400V 600V gt gt 50
122. a T d 00 14 00 15 1 00 25 00 Hz ene 0 1 25 5 Sec gt 03 00 03 05 6 7 03 0 1 255 1Sec 4 27 ENT VIF 0 18 1 01 0 17 V F 01 02 01 09 2 18 50Hz 60Hz VIF V F 01 00 E H AB amp V 96 100 100 V B C 4 28 3 12 0 9 5 4 17 5 4 0 5 25 0 5 0 11 11 0 8 0 12 12 0 9 0 13 20 5 7 0 14 28 5 8 0 6 15 45 0 1 0 7116 55 0 1 0 8 17 65 0 1 0 gt 3 01 00 18 18 VIF 01 02 01 09 VIF VF 200V 170 0 264 0 400 323 0 528 0 V
123. 0 0 1 gt 07 12 LV C gt 7507 00 0 gt 507 002 1 07 12 0 5 gt BE 00 02 1 07 04 0 07 00 1 THI
124. 024 3 41 Wl 2 Q TE I elle ZEN ls em 1PH 220V 0 78KA AE nonin impe es E mex s SM 74 J E Ji j e oom oom 510 2 5 ae 201 H 510 2 5 1 SS 201 H1F ee 202 H3 401 H3 See 402 H3 401 H3F eee 402 H3F 3 42 4 33 0 17 Frame1 NEMA1 200V 0 5 1HP 200V 0 5 1HP 200 2HP 400V 1 2HP 90 65 805 1862 1892 1468 1378 1408 412 120 5 3 57 3 17 7 33 745 5 77 5 42 5 54 1 62 474 Frame2 NEMA1 200V 2 3HP 200V 2 3HP 200V 5HP 400V 3 5HP
125. 1 5 n a 0 1 0 1 1 1 1 1 1 2 1 2 1 2 1 3 2 1 2 1 2 2 3 1 3 1 3 2 3 2 3 15 3 16 3 17 3 17 3 17 3 18 3 18 3 19 3 20 3 21 3 28 3 28 3 30 3 31 3 34 3 34 3 35 3 37 3 46 4 1 4 1 4 1 4 2 4 4 4 5 4 7 4 2 4 3 4 4 5 5 1 5 2 5 3 5 4 5 5 6 6 1 6 2 6 3 6 4 6 5 A C D PLC 5 1 1 5 1 2 5 1 3 5 3 1 5 3 2 OC OL 5 3 3 OV LV 5 3 4 5 3 5 5 3 6 E510 E510 MODBUS E510 PLC USB Card Appendix 1 Instructions for UL II 5 7 5 10 5 10 5 11 5 12 6 1 6 1 6 1 6 1 6 2 6 2 1 B 1 C 1 D 1 0 0 1
126. 10 coo XXX A mH E510 oo0 XXX A mH 2P5 5 0 2 1 401 2 5 8 4 201 5 0 2 1 402 5 0 4 2 202 19 0 1 1 403 7 5 3 6 203 25 0 0 71 405 10 2 2 205 20 0 53 408 16 0 1 42 208 30 0 0 35 410 20 0 1 06 210 40 0 0 265 415 30 0 0 7 215 60 0 18 420 40 0 53 220 80 0 13 425 50 0 42 6 2 E510 ooo XXX azp5 TosoEs1A 201 TosoEzA CN 11 208 TosoE5A CN 18 O 2700 TO 40S560A CN 25 O 1 215 TO 40010 CNS 220 TO 008100 CN60 40 TosoE3A CNB 415 TOS0E50A CN25 420 TO 0055A CN35 O 45 TO 100875A cN5o O 6 3 E510 DDD XXX x 2P5201 O 15A 600VAC 202208 20A 600VAC 205 30A 600VAC 208 210 60A 600VAC 215 220 100A 600VAC 100KA LR 45 X 7oA 600VAC 40 600 100 LR O 42 f00A 00VACO0KA LR O 6 1 6 4 m 510 XX ja X HP
127. 1013 13 oon 1014 1114 oom ios 0B0FH _ 1115 foto 1046 oon 11146 OAMH 10 7 7 OM2H 1048 OAI3H 1049 CENE 14 10 20 pf tH 1021 le O0AteH 1022 a 15 32 ocom 1201 lo _ 1202 _ ODO2H 11302 oo o LOCOBH 1208 1909 LOCO4H 1204 1904 jocosH 1205 loposH 10 LOCOHH 1206 lopoeH 1306 LOCO7H 1207 1907 13 08 12 09 p _ qa j 12414 j jococH 1242 pew j tata jocorH li it 14 15 15 32 E510 PLC B 16 C E510 PLC E510 PLC MEMORY MAP AO00h A031h A248h A25Fh A260h A28Fh 48words Timer mode7 ladder A400h Input Bit S1 S6 A401h as Timer Bit T1 T8 A402h Counter C1 C8 A403h MERE M9 M15 x Encoderbt Hi H O Output Bit Q1 Q2 RR MEE Compile machine Code A408h A457h Function A458h Analog Bit Timer Bit
128. 2 3 13 00 13 08 1 13 06 0 2 11 00 1 00 05 00 06 0 2 1 11 08 11 10 11 11 2 00 12 gt 00 13 1 9 2 1 2 09 00 09 05 1 00 02 00 03 1 07 04 1 STP1 07 04 1 00 02 00 03 1 STOP STP2 2 STOP STP2 EF
129. 212111 11 0 1919202020 0 20 20 LLLP SEP ON OFF ON 3 ON OFF ON Q OFF ON OFF 4 75 n bp iaje GAIHMOHRONORE 1 i I1 amp i2 m l m ml e mm Lu LE m eus Eus gt 2 2 1 2 C3 ON C3 ON gt 20 5 0 19 19 20 20 21 21 20 20 19 19 18 18 19 19 20 0 20 20 JUU UU H 2 3 6 OFF ON OFF ON ON OFF ON OFF ON OFF KE gt 20 1 20 1 3 1 3 KHH 2 4 2 4 EE EB 4 76 5 20 1l amp 2 1 12 2 0110202 4 1 1221231 3j4 4 5 5
130. 3 11 03 12 03 20 0 63 gt 03 20 03 21 03 20 03 20 0 0 0 0 0 0 0 S6 S5 S4 S3 S2 S1 1 S1 S2 S3 S4 S5 S6 03 20 000011 03x21 0 63 gt 03 21 03 21 03 21 0 0 0 0 0 O 0 S6 S5 S4 S3 S2 51 1 fil S1 S2 S3 S4 S5 S6 03 21 000011 03 22 0 9999 gt E510 RELAY Bil 03 22 5
131. 4 72 4 4 PLC E510 PC Windows PDA WinCE PLC PLC 00 02 3 IN 03 00 03 05 24 PLC 4 4 1 E mE ERI 1 16 i1 i6 Q Q Q w T G eJ AS CT MDT V1 0 1 650 0Hz V2 0 1 650 0Hz V3 AVI 0 1000 V4 ACI 0 1000 V5 YE 0 1000 V6 0 1 999 9A V7 BB JE 0 1 200 0 ie Y CAIRE FUH 4 73 442 O D d ON lt gt ON ON i NH 11 11 D Q1 I1 OFF D OFF Q1 OFF 2 it d Q1
132. 410 eee 410 H3 EE 415 H3F EET 415 H3 EE 420 H3F ET 420 H3 ee 425 H3F 425 H3 2 2 3 3 1 10 50 C 10 40 C 95 RH IEC 60068 2 78 20Hz 1G 9 8m s 20 50Hz 0 6G 5 88m s IEC 60068 2 6 gt gt y T WR ZZ 311 s i Frame1 20 12 AWG 0 52 3 33 mms Frame218 8AWG 0 81 8 37 mm 26 14AWG Frame3 14 6AWG 2 08 13 30 mm 0 13 2 08 mm IFrame4 4 3AWG 21 15 26 67 mm
133. 5V 3 o 8 TXD RXD PC Q N P 4 Appendix 1 Instructions for UL Appendix 1 Instructions for UL Safety Precautions DANGER Electrical Shock Hazard Do not connect or disconnect wiring while the power is on Failure to comply will result in death or serious injury Electrical Shock Hazard Do not operate equipment with covers removed Failure to comply could result in death or serious injury The diagrams in this section may show drives without covers or safety shields to show details Be sure to reinstall covers or shields before operating the drives and run the drives according to the instructions described in this manual Always ground the motor side grounding terminal Improper equipment grounding could result in death or serious injury by contacting the motor case Do not touch any terminals befor
134. Activated OL1
135. BUS 1 E510 RS485 RS232 Modbus RTU Modbus ASCII 80 1 1 E510 E510 E510 E510 PLC HMI 01 02 03 4 gt Nh FE ak PC RS 485 A B A B B Interface 1200 1 4w 1 2 ASCII MODE d 2 ASCII 04 command 2 ASCII 134 4 ASCIl LRC H H RE u H 4 ASCII RE M D ya LRC 2 ASCII END E F END END CR ODH END Lo LF 0AH RTU MODE MASTER PLC
136. C 2 405 2 1 14 M4 R2 3 5 Nichifu NH 1 9 TIC 2 415 8 4 8 M5 R8 5 Nichifu NH 1 9 8 425 8 4 8 M5 R8 5 Nichifu NH 1 9 TIC 8 Appendix 1 Instructions for UL Recommended Input Fuse Selection Fuse Type Drive Model E510 Manufacturer Bussmann FERRAZ SHAWMUT Model Fuse Ampere Rating A 200 V Class Single Three Phase Drives 2P5 HXXX Bussmann 20CT 690V 20A 201 HXXX Bussmann 20CT 690V 20A 202 HXXX Bussmann 35FE 690V 35A 203 HXXX Bussmann 50FE 690V 50A 2P5 H3XX Bussmann 20CT 690V 20A 201 H3XX Bussmann 20CT 690V 20A 202 H3XX Bussmann 20CT 690V 20A 203 H3XX Bussmann 30FE 690V 30A 205 XXXX Bussmann 50FE 690V 50A 208 XXXX Bussmann 63FE 690V 63A 210 XXXX FERRAZ SHAWMUT A50QS100 4 500V 100A 215 XXXX Bussmann 120FEE FERRAZ A50QS150 4 690V 120A 500V 150A 220 XXXX FERRAZ SHAWMUT A50QS150 4 500V 150A Fuse Type Drive Model E510 Manufacturer Bussmann FERRAZ SHAWMUT Model Fuse Ampere Rating A 400 V Class Three Phase Drives 401 XXXX Bussmann 10CT 690V 10A 402 XXXX Bussmann 16CT 690V 16A 403 XXXX Bussmann 16CT 690V 16A 405 XXXX Bussmann 25ET 690V 25A 408 XXXX Bussmann 40FE 690V 40A 410 XXXX Bussmann 50FE 690V 50A 415 XXXX Bussmann 63FE 690V 63A 420 XXXX Bussmann 80FE 690V 80A 425 XXXX FERRAZ SHAWMUT A50QS100 4 500V 100A Motor Overtemperature Protection Motor overtemperature protection shall be pr
137. CUI fie VUE 5 P BS HE 16 16 08 03 8 0803H 10 11 10 11 0AOBH 02 01 0004H 00 04 0104H 01 04 0204H 02 04 02 06 02 09 02 12 aa j OOEH 00 14 ooo 02414 OFH 0045 df EH 00H 0046 0216 DER Img uc qp ccc 0 8 o 00439 j on lo B 12 05 01 0304H 03 04 0404H 04 04 0504H 05 04 05 06 05 09 05 12 05 15 osmu 0347 dott 10647 0912H 0348 0548 0919H 02 19 f osaa foss 0320 _ 05 0915H 0321 lostsH 0521 0916H 0322 f GH 05 22 0328 o523 ossu 0324 OH os24 0919H 0325 0519H 05 25 0326 SAH 0526 fost 02
138. ER 0 0 0 1 25 0 0 I E 0 Jj xxx1x jj 0 iz 0 iz x1xxx 100 350 0 390 0 700 0 780 0 380 0 760 0 OL1 OL1 4 AVR 2 AVR EST TEE 3 AVR gt 4 AVR stop 5 AVR stop VDC gt 360V 740V 0 OL 103 150961 f 1 OL 113 123 1 Os seh FE MFCR XE p UI il 1 2 0
139. Frame4 200V 7 5 20HP 400V 7 5 25HP G5 E G5 oP oJ G5 L1 L2 L3 P BR T1 T2 T3 3 6 2 1 1 4 4 0 5 02 1 5 03 1 ZI 21 1 24 VDC 8 mA 30 Vdc 3 3kQ 2 5 05 r 1 1 BEA XEIBTE IE WEE PID PLC PLC E 250VAC 1A 30VDC 1A TUE f JP1 072 NPN JP1 PNP 15 60mA 10V 20mA JP2
140. OL1 14 EFO e 16 LOC 39 EPR2 OC C PF CLF OC S GF S1 N IN IN 10 10 n F m 2523H E 2524H 100 1Hz 2525H 10 1V 1 1V 252AH PID 100 10 196 PID 100 10 196 TM2 AVI 1000 10V 1 252FH 252FH 4 3 03H 1 RTU 37 2 Group 3 1 1 E510 ASCI 17
141. PLC Bit 0 PLC 1 PLC C PLC ALL MEMORY CLEAR Bit 0 0 Disable 1 Enable C 10 D USB Card 1 1 1 E510 USB Card E510 PC PC 1 2 19 1 62 142 f d TECO S485 TxD a RXD i N Bas RS485 Pi 2 3 5 6 8 m A B vcclosp II 5 I 0 JN5 CMLUSB ERN INA 54 IH 5 I 0 JN5 CM USB USB Card PC D 1 2 2 1 USB PC RS485 RJ45 2 2 RS485 1 2 3 4 5 6 7 A B A N C N C B VCC GND A B RS485 VCC GND
142. TECQ ot Z XE MD PEG IGBT 27 PLE mb f HH F E510 200V 0 4 15KW 1 2 27 4KVA 400V 0 75 18 5KW 1 7 34KVA A 65 C 0510 85227555 0510 85227556 http www taian technology com VER 01 2011 12 4KA72X290W01 0 0 1 1 1 1 1 2 1 3 1 4 1 5 2 2 1 2 2 3 3 1 3 2 3 3 3 4 E510 3 2 1 3 2 2 3 2 3 3 3 1 3 3 2 3 3 3 3 3 4 3 3 5 3 3 6 3 3 7 7 3 6 1 3 6 2 EMC 4 1 1 4 1 2 4 1 3 LED 4 1 4 4
143. V 2 3HP 200V 2 3HP 200V 5HP 400V 3 5HP Frame 2 3 8 Frame 2 NEMA1 3 9 19 200V 7 5 10HP 400V 7 5 15HP Frame 3 f Witte 3 10 Frame 3 NEMA1 JT Yu ez 3 11 400V 20 25HP JH 200V 15 20HP Frame 4 e d 8i 3 12 Frame 4 1 gt memes 3 13 TH 400V 20 25HP e amp MS BS ZA 3il Be B ES ES gs o A E z 4 LL 3 14 3 2 2
144. a h 05 17 x 05 01 05 19 05 02 05 0D _ 05 2Dx 05 03 05 02 01 02 je 01 02 01 02 _ 05 24 x 05 03 05 04 05 26 05 05 05 25 x 05 05 01 02 01 02 01 02 i _ 05 28 x 05 05 05 27 05 06 05 28 05 06 01 02 01 02 I gap sec 4 50
145. ave been met For a product to receive UL certification all components inside that product must also receive UL certification LISTED UL cUL Mark UL Standards Compliance This drive is tested in accordance with UL standard ULS08C and complies with UL requirements To ensure continued compliance when using this drive in combination with other equipment meet the following conditions Installation Area Do not install the drive to an area greater than pollution severity 2 UL standard Main Circuit Terminal Wiring UL approval requires crimp terminals when wiring the drive s main circuit terminals Use crimping tools as specified by the crimp terminal manufacturer Teco recommends crimp terminals made by NICHIFU for the insulation cap The table below matches drives models with crimp terminals and insulation caps Orders can be placed with a Teco representative or directly with the Teco sales department Closed Loop Crimp Terminal Size Drive Model HET min Terminal Crimp Terminal Tool Insulation Cap E510 RIL1 SIL2 TIL3 U T1 V T2 WIT3 Screws Model No Machine No Model No 201 2 1 14 M3 5 R2 3 5 Nichifu NH 1 9 TIC 2 202 3 3 12 MA R3 5 4 Nichifu NH 1 9 TIC 3 5 202 H3 2 1 14 M3 5 R2 3 5 Nichifu NH 1 9 2 205 5 3 10 M4 R5 5 4 Nichifu NH 1 9 TIC 5 5 210 8 4 8 M5 R8 5 Nichifu NH 1 9 TIC 8 220 21 2 4 M5 R22 5 Nichifu NOP 150H TIC 22 402 2 1 14 M3 5 R2 3 5 Nichifu NH 1 9 TI
146. e the capacitors have fully discharged Failure to comply could result in death or serious injury Before wiring terminals disconnect all power to the equipment The internal capacitor remains charged even after the power supply is turned off After shutting off the power wait for at least the amount of time specified on the drive before touching any components Do not allow unqualified personnel to perform work on the drive Failure to comply could result in death or serious injury Installation maintenance inspection and servicing must be performed only by authorized personnel familiar with installation adjustment and maintenance of AC drives Do not perform work on the drive while wearing loose clothing jewelry or lack of eye protection Failure to comply could result in death or serious injury Remove all metal objects such as watches and rings secure loose clothing and wear eye protection before beginning work on the drive Do not remove covers or touch circuit boards while the power is on Failure to comply could result in death or serious injury Fire Hazard Tighten all terminal screws to the specified tightening torque Loose electrical connections could result in death or serious injury by fire due to overheating of electrical connections Do not use an improper voltage source Failure to comply could result in death or serious injury by fire Verify that the rated voltage of the drive matches the voltage of the incom
147. gt C1 C8 2 E510 Wit PLC 8 i mm 1 26 AS1 14 27 AS2 E f gt AS1 AS4 7 E510 PLC 4 E 1 MD2 1 1440 MD2 2 42 MD3 ET 14 43 MD3 2 14 44 MD 3 MD4 3 gt MD1 MD4 E510 Ai PLC 4 EFA 15 00 E 1501 T1 2 7 o O 1502 15 03 T2 2 7 15 04 0 15 05 T3 2 7 1506 TAR T4 2 7 15 08 T5 15 09 T5 2 7 T6 T6 2 7 T7 T7 2 7 T8 2 7 C2 1524 4525 AS2 1526 iii 15 27 ASA 1528 MDA O r TD 0 65535 TD 15 32 PLC hs
148. ing power supply before applying power Do not use improper combustible materials Failure to comply could result in death or serious injury by fire Attach the drive to metal or other noncombustible material NOTICE Observe proper electrostatic discharge procedures ESD when handling the drive and circuit boards Failure to comply may result in ESD damage to the drive circuitry Never connect or disconnect the motor from the drive while the drive is outputting voltage Improper equipment sequencing could result in damage to the drive Do not use unshielded cable for control wiring Failure to comply may cause electrical interference resulting in poor system performance Use shielded twisted pair wires and ground the shield to the ground terminal of the drive Appendix 1 Instructions for UL NOTICE Do not modify the drive circuitry Failure to comply could result in damage to the drive and will void warranty Yaskawa is not responsible for any modification of the product made by the user This product must not be modified Check all the wiring to ensure that all connections are correct after installing the drive and connecting any other devices Failure to comply could result in damage to the drive UL Standards The UL cUL mark applies to products in the United States and Canada and it means that UL has performed product testing and evaluation and determined that their stringent standards for product safety h
149. o fost 0528 p 051DH 05 29 05 30 doem 0531 05 32 05 33 05 34 m 05 35 osa 05 36 B 13 oz 0537 O Lo 0826H 0538 O 0927H os39 losz8H 0540 dosan 10541 ozan 0542 05 43 osH 0544 oz 0545 05646 Y 052zH 05647 oessoH doas 08 00 08 03 08 05 08 06 08 08 08 11 08 14 LOGOFH 0645 sd FH 0815 0610H 0646 0816 0611H 067 1 omn 0817 0612H 0648 os 0613H 0691 0620 oesH 0621 B 14 oeH 10622 0628 o OH 0624 0 oH 0628 oran 10626 olBH 0627 o 068 0629 0630 oest L0620H 0632 0621H 06 33 0622H 06 34 0624H 06 36 0625H 06 37 0627H 06 39 L0628H 0640 ooo o 0641 ooo o 02MM 0642 L 0 QB 0643 j Po oe2cH 062DH 0648 ozEH 0646 j oorH o4 11 00 11 03 0906H 09 06 OAO6H 10 06 OBO6H 11 06 0907H 09 07 OAO7H 10 07 OBO7H 11 07 B 15 oo lo OBOAH 110 OBH lo OBH 1 owon la 0B0CH 1112 ooi
150. or or flux vector control methods 00 00 1 The motor protection parameter is set 08 05 1 Set 02 01 to the full load amps FLA stamped on the nameplate of the motor The operator must enter the rated current of the motor 02 01 in the menu during auto tuning Motor Overload Protection Selection The drive has an electronic overload protection function OL1 based on time output current and output frequency which protects the motor from overheating The electronic thermal overload function is UL recognized so it does not require an external thermal overload relay for single motor operation This parameter selects the motor overload curve used according to the type of motor applied Overload Protection Settings Setting Description 08 05 0 Disabled 08 05 1 Enabled 08 12 0 Constant Torque OL 103 96 150 for 1 Minute 08 12 1 Variable Torque OL 113 123 for 1 Minute 08 11 0 Standard Motor protection 08 11 1 Inverter duty motor protection Sets the motor overload protection function in 08 group according to the applicable motor Setting 08 05 0 Disables the motor overload protection function when two or more motors are connected to a single inverter Use an alternative method to provide separate overload protection for each motor such as connecting a thermal overload relay to the power line of each motor Setting 08 12 0 To protect the general mechanical load as long as the load is le
151. ovided in the end use application Field Wiring Terminals All input and output field wiring terminals not located within the motor circuit shall be marked to indicate the proper connections that are to be made to each terminal and indicate that copper conductors rated 75 C are to be used Drive Short Circuit Rating This drive has undergone the UL short circuit test which certifies that during a short circuit in the power supply the current flow will not rise above value Please see electrical ratings for maximum voltage and table below for current The MCCB and breaker protection and fuse ratings refer to the preceding table shall be equal to or greater than the short circuit tolerance of the power supply being used Suitable for use on a circuit capable of delivering not more than A RMS symmetrical amperes for Hp Hp in 240 480 V class drives motor overload protection Horse Power Hp Current A Voltage V 1 50 5 000 240 480 Appendix 1 Instructions for UL Drive Motor Overload Protection Set parameter 02 01 motor rated current to the appropriate value to enable motor overload protection The internal motor overload protection is UL listed and in accordance with the NEC and CEC 02 01 Motor Rated Current Setting Range Model Dependent Factory Default Model Dependent The motor rated current parameter 02 01 protects the motor and allows for proper vector control when using open loop vect
152. ss than 103 rated current the motor continue to run The load is larger than 150 rated current the motor will run for 1 minute Refer to following curve 1 Setting 08 12 1 To protect HVAC load FANPUMP so on as long as the load is less than 113 rated current the motor continue to run The load is larger than 12396 rated current the motor will run for 1 minute Setting 08 11 0 For motors without a forced cooling fan general purpose standard motor the heat dissipation capability is lower when in low speed operation Setting 08 11 1 For motors with a forced cooling fan inverter duty or V F motor the heat dissipation capability is not dependent upon the rotating speed To protect the motor from overload by using electronic overload protection be sure to set parameter 02 01 according to the rated current value shown on the motor nameplate Refer to the following Motor Overload Protection Time for the standard motor overload protection curve example Setting 08 12 0 Minute 5 0 1 0 103 113 123 150 Current Motor Overload Protection Time The heat sinking function will not be as effective when the motor run at low speed So the thermal relay action level will decline at the same time The curve 1 will change to curve 2 m 08 06 Motor Overload Operation Selection Setting Description 0 Coast to Stop After Overload Protection is Activated 1 Drive Will Not Trip when Overload Protection is
153. t O A052h X gt A053h X gt A054h X X10 X e AO055h H H 1 Y N A056h A057h lt AIC AO058h AO059h KR Cy B FUNCTION BLOCK 1 Timer 10Byte A200h A227h 8 j Mode7 P2 A2B8h O o o jo o Jo o T8 T7 T6 T5 14 T3 T2 2 Counter 8Byte A228h A247h 8 Z A228h A22Bh A238h A23Bh A22Ch A22Fh A23Ch A23Fh A230h A233h A240h A243h A234h A23Th A244h A247h 3 Analog Compare 6Byte A248h A25Fh 8 i Analog1 A248h A24Ah Analog5 A254h A256h Analog2 A24Bh A24Dh Analog6 A257h A259h Analog3 A24Eh A250h Analog7 A25Ah A25Ch Analog4 A251h A253h Analog8 A25Dh A25Fh 2 12Byte A260h A28Fh 8 i A260h A265h Controls A278h A27Dh A266h A26Bh Controle 27 283 A26Ch A271h Conto A284h A289h A2T2h A2TTh Controis A28Ah A28Fh 5 Add Subtract 10bytes A290h A2A3h 4 Af Add Subtract1 A290h A294h Add Subtract2 A295h A299h Add Subtract3 A29Ah A29Eh Add Subtract4 A29Fh A2A3h 6 Multiply Divide 10bytes A2A4h A2B7h 4 ZJ Multiply Divide1 A2A4h A2A8h Multiply Divide2 A2A9h A2ADh Multiply Divide3 A2AEh A2B2h Multiply Divide4 A2B3h A2B7h 7 PLC iz 2A600h E MEMORY 2A601h CLEAR PLC MEMORY RS
154. x3 xxx gt 13 02 RESET 3 I 1 2 3 gt 1 0C C GC C 1 2 8 1 i gt 1 23 2 1 0000 2 01 0 1 05 01 05 16 21 05 01 05 16 3 13 06 gt 13 07 00000 13 06 05 01 05 15 4 69 00000 65535 gt 2513 07 gt 0

TECO E510 series alternating Motor driver Manual

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