VAT2000
Contents
1. Lu X S Lu VA72000 1 0 wiring DBR driving unit option 3 EST e n 7 _ THRY DCL t FP d SN DBR 2 DCL 1 n 77714 DBR 2 M 5 A VAT2000 0 E MCCB RF MOTOR AL N c m e K oy __ Is wl 1 Eyes o ANALOGUE INPUT pig 8200 Frequency ES O E 15V setting ANALOGUE OUTPUT me T MD o dM rm FSI DAN COM 5 ff 09 Voltage Frequency O P re output setting 244 0 I AUX AM 710V current gt v load max DC 10V Een l DC 0 10V tp 5 s RY24 M RY 24V RA DIGITAL OUTPUT RESET Max 1A 250V AC To comply with O RC O or 30V DC UL use at O FA A or lower FRUN Max 0 4A 250V AC O FB or 1A 30V DC Standard setting END Free voltage PSI1 FC os APA Fo SmA per PSI2 signal Q FJOG PSO1 d PSI3 yA Open collector O RJOG PSOE J Max 30VDC 50mA PSI4 Q PSO2 PSI5 YAK D PS03 RYOV 4 20 Remove the link between L1 L2 it using optional DC reactor Dynamic braking included for drives up to U2KN7K5S and U2KX7K5S No connection shell be made between RYOV and COM since this section is insulated 1 2 3 Dynamic braking for drives U2KN11KS U2KX11KS and larger is performed with external dynamic braking units 4 5 Three COM terminals are internally connected GE Power Controls gt N D gt S LS D D Q Q NS2. CQ c i c 5i c i c ic c c c n in n c ic icg inin i n j GE Power Controls DC Reactors Fig 1 Cat No Ref no Losses Fig Weight W A B C D E kg DCR32A0H78 1 13 4 150 200 145 176 10 7 7 DCR45AOH55 168372 13 4 150 200 145 176 102 7 7 DCR60A0H4 168373 14 4 COS 200 MESE 176 RIO f 8 DCR80A0H3 168374 17 4 0 200 MEUM 176 RIO 7 9 DCR100A0H24 168375 17 4 loom 200 6 7 9 DCR120A0H2 168376 17 5 ium 200 EMEN 90 9 15 DCR150A017 168377 21 5 CoS 210 MEUSE 100 9 17 DCR180A0H14 168378 26 5 240 200 265 96 210 9 21 DCR220AH11 168379 27 5 240 200 265 96 210 9 21 DCR18A2H9 168380 13 4 oa 167 a 146 NDS 7 5 DCR25A2H1 168381 14 4 i259 167 BENIGN 146 ES 7 5 DCR32A1H6 168382 15 4 125 167 133 146 89 7 6 D DCR40A1H2 168383 Ve 4 125 167 133 146 89 7 6 gt DCR50A0H96 168384 16 4 150 200 145 176 92 7 7 ce DCR60A0H82 168385 17 4 NEM 200 6 7 8 DCR80A0H58 168386 21 4 oom 200 NEUEM 176 MES 7 9 DCR100A0H49 168286 23 4 WOS 200 6 7 B DCR125A0H40 168287 27 5 190 200 215 90 160 9 15 DCR140A0H32 168288 29 5 1705 200 MAS 90 9 15 DCR180A0H25 168289 33 2 2008 230 oE 106 9 25 DCR210A0H25 168290 35 2 250 240 300 126 210 9 27 DCR270A0H18 168291 37 2 2500 250 B OR 156 9 28 DCR310A0H14 168292 39 2 Nas 250 ESO 196 9 31 DCR400A0H13 168293 42 2 S00 270 NESSUN 116 11 35 DC
3. Q S Lu X gt Lu 4 RUN aa Traverse Usefull function for winding textil equipment The traverse centre frequency can be selected from either analog input setting keypad setting or programmable fixed speeds Retry Allows automatic restart after a fault Provides up to 10 programmable re tries with programmable time between tries Motor speed Output frequency Time Internal 1 n 2 n 3 FLT 0 Waiting time after trip by Overcurrent 22 2 3 Pick up and retry 4 Pick up achieved and retry finished High efficiency operation Energy saving During V f constant operation the non load loss is large with motor unloaded or with a small load and the motor efficiency drops remarcably Thus this function automatically decreases output volt age according to the load improving motor efficiency Sliping may increase during high efficiency operation so is recom mended to use the automatic slip compensation Autotuning will help for right adjustment Output voltage V f setting voltage voltage 10 100 Time 0 1 30 0 Frequency jumps By this function the motors mechanical resonance at a specific frequency can be skipped Communications Built in with RS485 port and ASCII communication protocol Optional Profibus DP interface Other communication interfaces in development Fault history The last four faults are coded and saved in a internal buff
4. 450 120 465 75 24 440 100 460 140 22 440 100 460 140 34 440 180 460 140 32 440 180 460 140 55 195 65 210 60 06 195 65 210 60 06 195 65 210 60 06 450 95 465 60 1 2 450 95 465 60 1 2 450 95 465 60 1 2 450 100 465 70 18 450 100 465 70 18 440 100 460 140 22 440 100 460 140 34 440 180 460 140 32 440 180 460 140 55 440 180 460 140 58 TLR405P200 129867 TLR216P200 129868 TLR108P200 129869 TLR74P200 129870 TLR44P600 129166 Fig 2 TLR29P600 129167 Resistors with terminals for TLR22P600 129168 TLR15P1000 129169 C 6811 8 TLR11P1200 129170 TLR8 8P1500 129171 TLR7 4P1800 129172 TLR5P2500 129871 TLR4P3000 129872 TLR864P200 129873 TLR432P200 129875 TLR295P200 129876 TLR175P600 129173 TLR118P600 129174 TLR86P600 129175 TLR59P1000 129176 TLR43P1000 129177 TLR35P1500 129877 TLR29P1800 129878 TLR22P2500 129879 TLR18P3000 129880 TLR15P3700 129881 N D n DD a gt DL ND DO D VA72000 AC Input reactors Fig 1 Cat No Ref no Losses Fig Weight A B C D E W kg ACR4A2H5 129978 9 ACR6A2H5 129979 11 ACR9A1H3 129980 14 ACR12A0H84 129981 19 ACR18A0H56 129982 21 ACR27A0H37 129983 23 ACR35A0H27 129984 25 ACR55A0H18 129985 28 ACR70A0H14 129986 32 ACR80A0H14 129987 35 ACR97A0H11 129988 39 ACR140A0H072 129925 40 ACR180A
5. PR3900STD UADOPTDBUHO 5 ACR625A0H035 DCR740A0H06 ACFR625A N11P34018 PR3900STD UADOPTDBUHO 5 ACR700A0H035 DCR800A0H06 ACFR700A N11P34018 3 External braking resistors for 100 braking torque 10 ED Drives up to U2KN07K5S y U2KX07K5S include a small built in braking resistor Check product manual for appropriate usage 4 Both output reactor and RC filter are required to absorb surge voltage which may be produced on motor side y 5 Ask your dealer for accessories of drives above U2KX45 4 VA72000 EMC foot print filters Cat No Ref no Current Input Weight A A B C D E M terminal kg U2KF3016PR1 167832 16 208 51 c 100 MSN 10mm PS U2KF3030PR1 167833 30 208 WSS 51 100 EBEN 10mm ES U2KF3032PR2 167834 32 320 EiS 51 BR 150 MEN 10mm EDS U2KF3058PR3 167835 58 427 275 66 402 225 M5 25mm 44 U2KF3060PR2 167836 60 320 MEUM 51 150 EM 25mm R gt U2KF309PRD3 167837 94 427 275 66 402 225 M5 35mm 5 1 U2KF3096PR4 167838 96 575 312 67 549 200 M5 35mm 6 1 D E D D Q Q S Lu gt Lu Cat No Ref no Current Input Weight A A B C D E M terminal kg PR3110STD 167978 110 400 170 90 373 130 M6 50mm 15 PR3120STD 167979 120 400 170 3 3 130 M6 50m 15 PR3150STD 167980 150 510 180 115 470 156 M8 95mm 7 PR3180STD 167981 180 510 115 TON 156 MESS 95mm MANI P
6. U2KX37K0SP54V 169484 60 87 45 IP54 U2KX45KOSP54C 169485 75 108 55 IP54 U2KX45KOSP54V 169486 1 Heavy duty Constant torque ratings 2 Light duty Variable torque ratings VT CT 6 Amps per 1KHz Please ask your dealer for more information J 10 02 GE Power Controls VT Drive rated current in variable torque CT Drive rated current in constant torque Ratings are given for standard four poles motors Otherwise check motor nameplate Remark More information is given in Product Manual 3 Ratings given are for standard 4 poles induction motors DC supply drives for common bus operation We can supply VAT2000 drives for common bus operation DC supply 270 360VDC or 520 720VDC Ambient temperature 10 C to 50 C for all range IP54 range up to 40 C Drives up to U2KN22K0S or up to U2KX30K0S allow specified current ratings when carrier frequency is set up to 10KHz Above 10KHz derate output current by 7 per 1KHz Drives above U2KN22K0S or U2KX37K0S and above allow specified current ratings when carrier frequency is set up to 4KHz Above 4KHz derate output current by 7 per 1KHz Ambient temperature 10 C to 50 C IP54 up to 40 C Fro drives up to U2KN7K5S derate output current by 2 per 1 C if ambient temperature exceeds 40 C Maximum recommended carrier frequency is 4KHz Higher carrier frequency is allowed if drive s output current is derated according following expression Optiona
7. 1005 168028 9 13 95 11 7 17 25 IP20 U2KX05K5S 168029 11 7 17 23 15 9 23 11 IP20 U2KX07K5S 168030 15 9 23 11 21 4 3i 15 IP20 U2KX11K0S 168031 21 4 31 15 25 6 31 18 5 IP20 U2KX15K0S 168032 25 6 31 18 5 30 4 44 22 IP20 U2KX18K5S 168033 30 4 44 22 41 5 60 30 IP00 U2KX22K0S 168034 41 5 60 30 50 5 73 31 00 05 168035 50 72 37 55 84 45 IP00 U2KX37K0S 168036 60 87 45 75 108 55 IP00 U2KX45K0S 168037 75 108 55 100 147 2 00 05 168038 100 145 75 120 179 90 IP00 U2KX75K0S 168039 120 173 90 140 208 110 IP00 U2KX90K0S 168040 150 214 110 170 242 132 00 U2KX110KS 168041 170 245 152 200 293 160 IP00 U2KX132KS 168042 220 321 160 250 365 200 00 U2KX160KS 168043 300 428 200 330 479 250 IP00 U2KX200KS 168044 350 519 250 400 581 315 IP00 U2KX250KS 168045 400 590 315 450 651 370 IP00 U2KX315KS 168046 3ph 1 15 0 4 17 25 0 75 IP54 U2KX00K4SP54B 169471 400V 1 7 25 0 75 2 5 3 6 1 5 IP54 U2KX00K7SP54B 169472 2 5 3 6 1 5 3 8 55 22 IP54 U2KX01K5SP54B 169473 3 8 5 5 2 2 5 9 8 6 4 IP54 2 026256546 169474 5 9 8 6 4 9 0 IB 35 IP54 U2KX04K0SP54B 169475 9 13 95 01 1 25 IP54 211 056550546 169476 0 17 23 15 9 23 11 IP54 U2KX07K5SP54B 169477 15 9 23 11 21 4 31 15 IP54 U2KX11K0SP54B 169478 21 4 91 15 25 6 31 18 5 IP54 U2KX15KOSP54B 169479 25 6 31 185 30 4 44 22 IP54 U2KX18K5SP54B 169480 i 30 4 44 22 41 5 60 30 IP54 U2KX22K0SP54B 169481 41 5 60 30 50 5 73 37 IP54 U2KX30K0SP54B 169482 i 50 T2 31 IP54 U2KX37KOSP54C 169483 NI 55 84 45 IP54
8. 690 309 300 686 10 M10 60 X90KO 480 740 352 400 714 10 65 X110K 480 740 352 400 714 10 M10 70 X132K 488 980 358 320 956 13 M10 90 X160K 488 980 358 320 956 13 M10 100 X200K 680 1100 379 500 1070 15 6 210 X250K 870 1300 379 600 1270 15 6 300 X315K 870 1300 379 600 1270 15 6 300 GE Power Controls Dimensional drawings series IP54 _ ming max 15 B D Series IP54 Series IP20 FeRIA WM Cat no Cat no cabinet U2KX00K4SP54B U2KX00K4S U2KX00K7SP54B U2KX00K7S U2KX01K5SP54B U2KXO1K5S 600 x 400 x 250 Ref no 813015 U2KX02K2SP54B U2KX02K2S U2KX04K0SP54B U2KX04K0S U2KX05K5SP54B U2KX05K5S 600 x 600 x 300 U2KX07K5SP54B U2KX07K5S Ref no 813018 U2KX11KO0SP54B U2KX11K0S 800 x 600 x 400 U2KX15K0SP54B U2KX15K0S Ref no 813182 U2KX18K5SP54B U2KX18K5S U2KX22K0SP54B 05 800 x 600 x 400 U2KX30K0SP54B U2KX30K0S Ref no 813182 U2KX37K0SP54C USKX37K0S U2KX37K0SP54V U2KX37K0S 1200 x 800 x 400 U2KX45KOSP54C U2KX45K0S Ref no 813185 U2KX45K0SP54V U2KX45K0S IP54 enclosure includes in addition to drive an EMC filter enclosure s cooling fan and I O terminals K R525 EE ne Tr m w a aqa a ET eas E Dimensions mm H B D K J mus m ms m m s aa u MR e Roa Tm E a m RR m Rod m Roi m RUM m RR m
9. Lu X S Lu VA72000 1 0 terminal board specifications Terminals Function Description Control terminal board Digital inputs RYO RY24 Relay input common This is a common terminal for relay input signals specified below PSI1 PSI5 Programmable inputs These inputs can be arbitrarily set to any of input sequence functions EMS Emergency stop If EMS is ON while the VAT2000 is stopped all operational commands are cancelles If it is ON during operation the VAT2000 is led into stopping sequence ramp down stop or coast to stop are available It is also possible to output this signal as a fault FLT RESET Fault reset A faulty condotion is reset With this signal a fault status output FLT LED FAULT relay operation is turned OFF and operation becomes possible RUN Forward run This is a command for forward run Run Reverse mode by permanent or pulse command can be selected Analogue inputs FSV Voltage Frequency This is mainly used for setting frequency speed The maximum speed setting is available at 10V input This input is valid when VFS function is ON FSI Current Frequency This is mainly used for setting frequency speed The maximum speed setting is available at 20mA input This input is valid when IFS function is ON AUX Auxiliary input This is mainly used for setting frequency speed The maximum speed setting is available at 10V input This setting is valid when AUX function is
10. given below ASR ACR Cano B Pot ae ee setting gan limiter current oD AND 1 Id x AL 9 EPI x ea ms LEF control Ao A02 o gm VM z L eee Torque command pe a oo Current Speed detection detection Detected motor speed Control Co gt Corriente 4 EL wel Flux observe I sumateq motor spee CDE Motor Sensorless estimation EES RES ES Sin j speed vector control O LPF Vector control with sensor V f Control ATC system The VAT2000 includes an ATC Advanced Torque Control function which improves the starting torque in the traditional V F control systems allowing up to 200 torque with standard induction motors The Automatic tuning function set automatically drive parameters avoiding difficult manual adjustments The ATC block diagram is given below Automatic torque boost selection Slip compensation A02 1 setting O A02 5 2 ON 1 OFF lt Overload limit Frequency Manual torque boost selection Manual torque boost A02 0 Voltage setling vp QOS command A02 2 ON 1 OFF Do YA Sguare reduction torgue setting A02 3 Automatic torque boost selection A02 1 H1 drop compensation setting A02 4 Maximum torque boost 1 OFF setting A02 6 gt N Q gt i D D Q Q
11. 0H056 129926 42 ACR200A0H051 129927 47 ACR3A8H1 129989 8 ACR4A5H1 129990 9 ACR6A3H4 129991 11 ACR10A2H 129992 14 ACR14A1H4 129993 19 ACR18A1H1 129994 21 ACR27A0H75 129995 23 ACR35A0H58 129996 25 ACR38A0H58 129997 32 ACR45AOH45 129998 35 ACR70A0H29 129928 40 ACR90A0H22 129700 42 ACR115A0H18 129701 47 ACR160A0H14 129702 51 ACR185A0H11 129703 53 ACR225A0H096 129704 58 ACR300A0H067 129705 75 ACR360A0H056 129706 78 ACR460A0H056 129707 107 ACR550A0H039 129708 110 ACR625A0H035 129709 120 ACR700A0H035 168285 130 137 146 103 125 102 137 146 103 125 102 137 146 113 125 102 om 167 MEN 146 173 167 133 146 7 205 200 145 176 174 205 200 155 176 174 205 200 155 176 174 280 190 210 80 250 280 190 210 80 250 280 190 210 80 250 280 220 210 90 250 280 230 210 100 250 280 245 210 115 250 137 146 103 125 102 137 146 103 125 102 137 146 103 125 102 Q 7 2 9 7 7 7 7 7 7 7 9 9 9 9 9 9 7 7 7 137 146 113 125 102 7 4 7 7 7 7 7 7 9 9 9 9 9 9 9 9 9 9 9 9 32 4 Q gt D D Q Q Lu X gt Lu 173 167 118 146 127 173 167 193 146 127 205 200 145 176 174 205 200 155 176 174 205 200 170 176 94 205 200 170 176 174 280 200 210 90 250 280 210 210 100 250 280 225 210 115 250 340 230 265 106 310 340 250 265 126 310 340 250 265 126 310 410 320 315 136 380 410 320 315 136 380 490 340 365 142 460 490 340 365 142 460 490 340 365 142 460 490 340 365 142 460
12. 11P34018 U2KF3016PR1 Built in VAT2000 TLR864P200 ACR4A5H1 ACFR10A N11P34018 U2KF3016PR1 Built in VAT2000 TLR432P200 ACR6A3H4 ACFR10A 8 U2KF3016PR1 Built in VAT2000 TLR295P200 ACR10A2H ACFR10A N11P34018 U2KF3016PR1 Built in VAT2000 TLR175P600 ACR14A1H4 ACFR14A N11P34018 U2KF3032PR2 Built in VAT2000 TLR118P600 ACR18A1H1 DCR25A2H1 ACFR18A N11P34018 U2KF3032PR2 Built in VAT2000 TLR86P600 ACR27A0H75 DCR32A1H6 ACFR27A N11P34018 U2KF3058PR3 U2KV23DBUH1 TLR59P1000 ACR35A0H58 DCR40A1H2 ACFR35A N11P34018 U2KF3058PR3 U2KV23DBUH1 TLR43P1000 ACR38A0H58 DCR50A0H96 ACFR38A N11P34018 U2KF3058PR3 U2KV23DBUH2 TLR35P1500 ACR45A0H45 DCR60A0H82 ACFR45A N11P34018 U2KF3096PR4 U2KV23DBUH2 TLR29P1800 ACR70A0H29 DCR80A0H58 ACFR62A N11P34018 U2KF3096PR4 U2KV23DBUH3 TLR22P2500 ACR90A0H22 DCR100A0H49 ACFR90A N11P34018 PR3150STD U2KV23DBUH3 TLR18P3000 ACR90A0H22 DCR125A0H40 ACFR90A N11P34018 PR3180STD 2 x U2KV23DBUH3 TLR15P3700 ACR115A0H18 DCR140A0H32 ACFR115A N11P34018 PR3280STD UADOPTDBUHO 5 ACR160A0H14 DCR180A0H25 ACFR160A N11P34018 PR3280STD UADOPTDBUHO 5 ACR185A0H11 DCR210A0H25 ACFR185A N11P34018 PR3330STD UADOPTDBUHO 5 ACR225A0H096 DCR270A0H18 ACFR300A N11P34018 PR3380STD UADOPTDBUHO 5 ACR300A0H067 DCR310A0H14 ACFR300A N11P34018 PR3450STD UADOPTDBUHO 5 ACR360A0H056 DCR400A0H13 ACFR360A N11P34018 PR3600STD UADOPTDBUHO 5 ACR460A0H056 DCR540A0H08 ACFR460A N11P34018 PR3750STD UADOPTDBUHO 5 ACR550A0H039 DCR650A0H07 ACFR550A N11P34018
13. 25 30 CL02 U2KN05K5S 301 229 40 CL04 U2KN07K5S 420 225 75 CL04 U2KN11K0S 506 250 75 CLOG U2KN15K0S 708 400 100 CL07 U2KN18K5S 757 500 150 CL09 U2KN22K0S 1032 500 150 CL10 U2KN30K0S 1341 600 200 CK75 U2KN37K0S 1657 600 200 CK75 U2KX00K4S 83 10 5 CLOO U2KX00K7S 111 20 5 CLOO U2KX01K5S 129 30 5 CLOO U2KX02K2S 175 50 15 CLOO U2KX04K0S 275 60 20 CLOO U2KX05K5S 345 90 30 CL02 U2KX07K5S 369 110 40 CL04 U2KX11K0S 481 125 40 CL04 U2KX15K0S 990 175 50 CL04 U2KX18K5S 675 225 50 CL06 U2KX22K0S 876 250 79 CLOG U2KX30K0S 1080 300 100 CL07 U2KX37K0S 1104 400 100 CL09 U2KX45K0S 1437 400 150 CL09 U2KX55K0S 2091 500 200 CK75 U2KX75K0S 2473 700 300 CK08 U2KX90K0S 2998 800 300 CK85 U2KX110KS 3758 800 300 CK09 U2KX132KS 4637 1200 400 CK09 U2KX160KS 5566 1600 500 CK95 U2KX200KS 7266 2000 700 CK10 U2KX250KS 8745 2000 800 CK11 U2KX315KS 10061 2600 900 CK12 1 To comply with UL with VAT2000 400 series use a Class J fuse 2 Use MCCB with magnetic trip only EMC Dynamic braking Braking Input AC Surge absorber 4 filter module resistor 3 AC reactor DC reactor Reactor RC filter U2KF3016PR1 Built in VAT2000 TLR405P200 ACR4A2H5 U2KF3016PR1 Built in VAT2000 TLR216P200 ACR6A2H5 U2KF3016PR1 Built in VAT2000 TLR108P200 ACR9A1H3 U2KF3030PR1 Built in VAT2000 TLR74P200 ACR12A0H84 U2KF3030PR1 Built in VAT2000 TLR44P600 ACR18A0H56 U2KF3060PR2 Built in VAT2000 TLR29P600 ACR27A0H37 DCR32A0H78 U2KF3060PR2 Built in VAT2000 TLR22P600 ACR35A0H27 DCR45A0H55 U
14. 2KF3094PR3 U2KV23DBUL1 TLR15P1000 ACR55A0H18 DCR60A0H4 U2KF3094PR3 U2KV23DBUL1 TLR11P1200 ACR70A0H14 DCR80A0H3 PR3120STD U2KV23DBUL1 TLR8 8P1500 ACR80A0H14 DCR100A0H24 PR3120STD U2KV23DBUL2 TLR7 4P1800 ACR97A0H11 DCR120A0H2 i PR3150STD U2KV23DBUL2 TLR5P2500 ACR140A0H072 DCR150A0H17 PR3180STD U2KV23DBUL3 TLR4P3000 ACR180A0H056 DCR180A0H14 NN U2KF3016PR1 Built in VAT2000 TLR864P200 ACR3A8H1 ACFR10A N11P34018 c U2KF3016PR1 Built in VAT2000 TLR864P200 ACR3A8H1 ACFR10A N11P34018 c U2KF3016PR1 Built in VAT2000 TLR432P200 ACR4A5H1 ACFR10A N11P34018 681 Built in VAT2000 TLR295P200 ACR6A3H4 ACFR10A N11P34018 U2KF3016PR1 Built in VAT2000 TLR175P600 ACR10A2H ACFR10A N11P34018 U2KF3032PR2 Built in VAT2000 TLR118P600 ACR14A1H4 DCR18A2H9 ACFR14A N11P34018 U2KF3032PR2 Built in VAT2000 TLR86P600 ACR18A1H1 DCR25A2H1 ACFR18A N11P34018 U2KF3058PR3 U2KV23DBUH1 TLR59P1000 ACR27A0H75 DCR32A1H6 ACFR27A N11P34018 U2KF3058PR3 U2KV23DBUH1 TLR43P1000 ACR35A0H58 DCR40A1H2 ACFR35A N11P34018 U2KF3058PR3 U2KV23DBUH1 TLR35P1500 ACR38A0H58 DCR50A0H96 ACFR38A N11P34018 U2KF3096PR4 U2KV23DBUH2 TLR29P1800 ACR45A0H45 DCR60A0H82 ACFR45A N11P34018 U2KF3096PR4 U2KV23DBUH2 TLR22P2500 ACR70A0H29 DCR80A0H58 ACFR62A N11P34018 PR3110STD U2KV23DBUH3 TLR18P3000 ACR90A0H22 DCR100A0H49 ACFR90A N11P34018 PR3150STD U2KV23DBUH3 TLR15P3700 ACR115A0H18 DCR140A0H32 ACFR115A N11P34018 PR3180STD 2 x U2KV23DBUH2 5 ACR115A0H18 DCR140A0H32 ACFR115A N11P34018 PR3280S
15. DB Dead band setting The dead band setting of ASR is enabled B14 0 GE Power Controls 1 0 terminal board specifications continued Terminals Function Description Output sequence functions RUN Run This turns ON during running jogging or DC braking C00 7 BET Fault This turns ON during a fault MC Charge completed This turns ON when the DC main circuit voltage reaches right voltage level at power ON RDY 1 Ready 1 This turns ON when there is no fault EMS is not activated and pre charging is completed RDY2 Ready 2 This turns ON when there is no fault EMS is activated and pre charging is completed LCL Local This turns ON when the operation mode is local operation from the operation panel REV Reverse run This turns ON while the motor is reverse running IDET Current detection This turns ON when the output current reaches the detection level C15 1 or higher ATN Speed attainment This turns ON when the output frequency speed reaches the set frequency speed C15 0 SPD1 Speed detection 1 This turns ON when the output frequency speed reaches the speed set level C15 2 SPD2 Speed detection 2 This turns ON when the output frequency speed reaches the speed set level C15 3 COP CPU control This turns ON when serial transmission operation is selected lt EC0 EC3 Fault code 0 to F After a fault this outputs the fault code with a 4 bit binary format gt ACC Acceleration This turns ON d
16. F pump 1 gt ON OFF pump 2 gt ON OFF pump 3 ON OFF pump 4 ON OFF pump 5 c e o 2 D ou 0 10V or 4 20mA Converter Pressure transducer 4 20mA Control ON OFF auxiliary pumps Speed controlled pump N Operation and pump shift sequence ULT PID output LLT PS01 pump 1 PS02 pump 2 1 Pump with shortest time operation PS03 I pump 3 2 Pump with longest time operation 3 Pump with longest time operation PS04 4 Changeover ignored as time is less pump 4 than adjusted in timer T1 5 Pump with longest time operation is PS05 OFF if running time is over T2 pump 5 9 A pump with shortest time operation in ON 6 VAT2000 is stopped Restart is Stand by status automatically produced if PID leaves LLT level T1 Hold time T2 Continuous operation time limit PID T3 Changeover time output LLT PS01 pump 1 1 PS02 pump 2 I P pump 3 Operation i Restart VA72000 Pattern run Up to ten steps automatic operation Useful for machines working in a repeated cycle Frequency speed Time B52 1 I I I Pi Step 0 Step 1 Step 2 Step 3 Step 4 B502 BBt 2 S B52 2 B532 B54 2 E ZE NNNM 000 D gt i D D Q
17. Lu X gt Lu VA72000 Ratio interlock function This function allows full control ratio of speed setting and motor speed Useful to synchronize several motors at different speed ratio Ratio interlock setting function includes up down limits up down speed setting increments and co ordination between two analogue inputs Frequency speed command FSV Fol PC 7 serial interface Input option Coefficient B06 0 PID Control This function allows control of external conditions by using a feed back signal Useful for slow process control like water pressure or flow temperature by fans etc VAT2000 FSV or FSI amp C12 gain Pressure sensor 0 10V 4 20mA COM AUX FSI ee Aux 0 10V FSI 4 20mA INN Converter Multi pump control One pump is variable speed controlled and up to five more controlled ON OFF by the digital outputs provided in the VAT2000 The water pressure in the pipe system is controlled to be constant according the setting input in the VAT2000 s PID The pumps are automatically shifted in order to ensure same average working time As standard the drive provide control up to 3 ON OFF controlled pumps By using optional card U2KV23RY0 then operation is allowed up to 5 pumps Example of system configuration when operating five ON OFF control pumps VAT2000 Pressure TN setting 3 gt UVW Speed controlled x pump gt ON OF
18. ON COM Analogue input common This is a common terminal for FSV FSI and AUX signals Analogue outputs FM Frequency meter This is a voltage output signal for a frequency meter In a standard mode a 10V output is available at the maximum frequency This output voltage can be adjusted to 0 2 to 2 0 times 10V max output is however approximately 11V Internal parameters other than those of frequency can also be output C13 0 C14 0 AM Ammeter This is a voltage output signal for ammeter In a standard arrangements an output of 5V is available for the rated current This output voltage adjustment of 0 2 to 2 0 times of 5V is also available Internal parameters other than those of current can also be output COM Analogue output common This is a common terminal for a frequency meter and ammeter P10 FSV source This is a 10V source used when a potentiomenter is connected to the FSV input circuit The potentiometer should be of 2W and 2 Digital outputs RC RA RUN Dry relay contact assigned to RUN function as default Programmable to other functions as well FC FA FB FAULT Dry relay contact assigned to FAULT function It operates when a fault occur PS01 READY Programmable open collector output assigned to READY function as default PS02 Current detection Programmable open collector output assigned to current detection function as default PS03 Frequency speed Programmable open collector output assigned to speed detection as default attainment PSOE Open collector This i
19. P a TRE RE 7 E 600 400 250 290 326 600 600 300 490 526 25 800 600 400 490 6 1200 800 400 690 726 ata et aun gt N Q gt D D Q Q X Lu X gt Lu Noise filter DBR unit U2KV23DBU 00 ACL ACR OOOO DCL DCR OOOO Surge absorber VA72000 External accessories Noise filter Main circuit wiring device Absorber Mn Built in PCB option Stand alone options U2KF OOOO PR OOOO This device supresses the elctromagnetic noise generated by the inverter It may be required for EMC compliance CE This module provides dynamic braking capacity to drives larger than 7 5kW U2KN07K5S or U2KX07K5S Always install appropriate braking resistor If the line impedance is too low the current ripple trough input rectifier become excessive and may result in inverter damage This may happen when the power supply transformer exceeds 10 times the inverter unit capacity so always install reactors in this case Reactors are also effective improv ing the power factor and suppress ing the current high harmonics The power factor will be approx 0 9 Same benefits than ACL reactors note however that ACL provides additional protection to input recti fier This device protects the motor against surge vo
20. R3280STD 167982 280 700 260 130 660 230 M8 150mm 37 PR3330STD 167983 330 790 300 150 600 280 M8 Bar25x6 48 PR3380STD 167984 380 790 300 150 600 280 M8 Bar25x6 50 PR3450STD 167985 450 790 300 150 600 280 M8 Bar25x6 50 PR3600STD 167986 660 790 300 150 600 280 M8 Bar30x8 80 PR3750STD 167987 750 680 430 215 450 400 M10 884010 80 PR3900STD 167988 900 680 430 215 450 400 M10 Bar40x10 90 GE Power Controls External dynamic braking units The VAT2000 includes a dynamic braking feature in drives up to U2KN07K5S and U2KX07K5S as standard For larger drives the dynamic braking is performed by using the external module 155 U2KV23DBU Remark For larger drives from U2KX45 please ask your dealer Cat No Ref no Weight kg U2KV23DBUL1 168098 17 U2KV23DBUL2 168099 17 U2KV23DBUL3 168100 17 U2KV23DBUH1 168084 17 U2KV23DBUH2 168085 17 U2KV23DBUH3 168086 17 198 186 gt N Braking resistors A small capacity braking resistor is included in drives up to U2KN07K5S and U2KX07K5S as standard Check User s Manual for appropriate usage The external braking optional resistors for 100 braking capacity 10 ED are Fig 1 shown in below table Resistors with terminals for Cat No Ref no Fig Weight A B C D kg 195 65 210 60 06 195 65 210 60 06 195 65 210 60 06 195 65 210 60 06 450 95 465 60 1 2 450 95 465 60 1 2 450 95 465 60 12 450 100 465 70 18
21. R540A0H08 168294 49 2 300 300 30 136 260 11 56 DCR650A0H07 168295 50 2 300 300 350 136 260 11 57 DCR740A0H06 168296 51 2 300 300 350 136 260 11 58 DCR800A0H06 168297 52 2 300 300 350 136 260 11 60 VA72000 Surge absorber Reactor gt iw D Fig 1 Cat No Ref no Losses Fig Weight Q5 W A B C D E Q kg D ACFR10A 168471 9 1 137 146 103 125 102 7 2 9 ACFR14A 168472 14 1 i33 146 HH 8 125 ED 7 4 ACFR18A 168473 18 1 l 167 MEON 146 7 9 ACFR27A 168474 19 1 ion 167 Mon 146 7 9 pe ACFR35A 168475 20 1 173 167 133 146 127 7 10 ee ACFR38A 168476 21 1 D 167 MN 146 RI 7 10 c ACFR45A 168477 32 1 205 200 160 176 174 7 12 ACFR62A 168478 32 1 205 200 170 176 174 7 14 ACFR90A 168479 42 2 280 230 210 100 250 9 24 28 ACFR115A 168480 44 2 2808 245 B 108 115 O 9 27 m ACFR160A 168481 51 2 340 230 265 106 310 9 40 ACFR185A 168482 55 2 340 250 265 126 310 9 45 ACFR225A 168483 78 2 410 300 315 116 380 9 80 ACFR300A 168484 80 2 410 320 315 136 380 9 86 ACFR360A 168485 120 2 490 360 365 162 0 9 124 ACFR460A 168486 140 2 5609 360 MAIN 120 11 140 ACFR550A 168487 160 2 560 380 415 160 520 11 155 ACFR625A 168488 175 2 700 400 520 150 660 11 172 ACFR700A 168489 190 2 OOE 420 85208 170 11 193 AC Filter 300 o 20 _ D Cat No Ref no Losses Max carrier SA Weight W frequency D kg N11P3401806 168260 1470 8 275 14 N11P3401807 168261 297 4 135 8 Di
22. TD UADOPTDBUHO 9 ACR160A0H14 DCR180A0H25 ACFR160A N11P34018 PR3280STD UADOPTDBUHO 5 ACR185A0H11 DCR210A0H25 ACFR185A N11P34018 PR3330STD UADOPTDBUHO 5 ACR225A0H096 DCR270A0H18 ACFR225A N11P34018 PR3380STD UADOPTDBUHO 5 ACR300A0H067 DCR310A0H14 ACFR300A N11P34018 PR3450STD UADOPTDBUHO 5 ACR360A0H056 DCR400A0H13 ACFR360A N11P34018 PR3600STD UADOPTDBUHO 5 ACR460A0H056 DCR540A0H08 ACFR460A N11P34018 PR3750STD UADOPTDBUHO 5 ACR550A0H039 DCR650A0H07 ACFR550A N11P34018 PR3900STD UADOPTDBUHO 9 ACR625A0H035 DCR740A0H06 ACFR625A N11P34018 EMC Dynamic braking Braking Input Surge absorber 4 filter module resistor 3 AC reactor DC reactor Reactor RC filter U2KF3016PR1 Built in VAT2000 TLR405P200 ACR6A2H5 U2KF3016PR1 Built in VAT2000 TLR216P200 ACR9A1H3 U2KF3016PR1 Built in VAT2000 TLR108P200 ACR12A0H84 U2KF3030PR1 Built in VAT2000 TLR74P200 ACR18A0H56 U2KF3030PR1 Built in VAT2000 TLR44P600 ACR27A0H37 U2KF3060PR2 Built in VAT2000 TLR29P600 ACR35A0H27 DCR45A0H55 U2KF3060PR2 Built in VAT2000 TLR22P600 ACR55A0H18 DCR60A0H4 U2KF3094PR3 U2KV23DBUL1 TLR15P1000 ACR70A0H14 DCR80A0H3 U2KF3094PR3 U2KV23DBUL1 TLR11P1200 ACR80A0H14 DCR100A0H24 PR3120STD U2KV23DBUL2 TLR8 8P1500 ACR97A0H11 DCR120A0H2 PR3150STD U2KV23DBUL2 TLR7 4P1800 ACR140A0H072 DCR150A0H17 PR3150STD U2KV23DBUL3 TLR5P2500 ACR180A0H056 DCR180A0H14 PR3180STD U2KV23DBUL3 TLR4P3000 ACR200A0H051 DCR220A0H1 1 U2KF3016PR1 Built in VAT2000 TLR864P200 ACR3A8H1 ACFR10A N
23. VA72000 Three phase variable speed drives for AC motors VAT2000 VAT2000 is a compact maintenance free reliable AC drive for three phase 220 240V or 380 460V power source allowing high accuracy speed control of standard AC motors VAT2000 is an open platform using the latest technology in both hardware and software providing advanced application functions and full motor protection Q gt D D Q Q M S S Lu gt Lu Features and Benefits The VAT2000 is a new generation of high performance vector AC drives T Between 1096 and 3096 smaller than pe tone MERGES anys the former range and using the latest Sensorless vector control 32 bits microprocessors the new Very high performance vector control with sensor range covers the power ratings from 0 4 to 315kW in constant torque and up to 370kW in variable torque applications V F advanced torque control PM drive e Easy to operation As well as satisfying industry s requirement for a top performance Rotary knob drive the VAT2000 is hailed as a Autotuning for vector control truly environmentally friendly drive Removable keypad Coupled with a PM motor this drive can offer up to 20 increase in e Environmentally friendly design energy efficiency at 2 2kW saving energy costs The carefull selection Up to 20 energy saving using a permanent magnet motor of mat
24. ction are allowed B1 1 8 FUP Frequency up Raises the output frequency or motor speed A00 0 A00 2 FDW Frequency down Decreases the output frequency or motor speed BUP Bias up Raises the output frequency set through PROG function BDW Bias down Decreases the output frequency set through PROG function IVLM Bias ratio control Enables BUP or BDW functions AUXDV Dual settings Enables secondary settings dual motor operation PICK Pick up While this signal is ON pick up operation is effected as soon as RUN or R RUN is ON EXC Pre excitation Allows pre excitation establishing flux in the motor without generating torque ACR ACR Enables ACR operation PCTL P control ASR control is changed from the PI control to the P control COP CPU operation Enables command control from the serial port LIM 1 Drive torque limiter The drive torque is limited by the analog input or serial transmission when enabled LIM 2 Regenerative torque lim The regenerative torque is limited by the analog input or serial transmission when enabled CPASS Ramp bypass The ramp function is bypassed when CPASS is enabled MCH MAchine time constant Enables machine time constant compensation in ASR block RFO 0 setting The speed setting is changed to 0 rpm TRQB1 Torque bias 1 The torque bias input 1 is enabled TRQB2 Torque bias 2 The torque bias input 2 is enabled DROOP Drooping changeover Enables Drooping function B13 5 DE
25. e O U gt Detachable IP54 unit with 5 digit LED display and eight status LED signals Includes three set keys and fast tuning knob system Door mountable by 3m extension cable Three fixed inputs and five programmable to more than 30 functions One fixed dry contact fault one dry contact and three open collector outputs all programmable to more than 20 functions like speed detection precharging reverse run speed reached direction current reached speed acceleration fault code etc FSV 0 to 10V 0 to 5V 1 to 5V FSI 4 to 20mA 0 to 20mA AUX 0 to 20V 0 to 5V 1 to 5V Source potentiometer 10V DC 2k20hms Two 0 10V programmable with output frequency voltage current DC voltage etc Overcurrent and Overvoltage limit Overload warning signal Overcurrent overvoltage undervoltage IGBT fault overload temperature rise ground fault other self diagnosis The last four faults are recorded including in each main cause secondary cause output current and output frequency at the fault time CT 150 for 1 minute 170 for 2 5 seconds VT 120 for 1 minute 125 for 1second For frequencies below 1Hz overload of 75 during 60 seconds Automatic reset after a fault Adjusable from 0 10 tries Indoor with atmosphere free from corrosive or explosive gases dust steam or oil mist 10 to 50 C max 95 RH non condensing 1000 m max 4 9 m s gt N c Q gt S LS D D Q Q
26. er Output voltage Output voltage fluctuation at frequency f C25 1 setting 10 100 j Lower limit of output voltage to be reduced Frequency N VA72000 Dimensional drawings 7 Dimensional drawings and weights gt ws D Cat no Main Weight Q5 Supply Supply A B C D E Qd circuit kg 0 200 230 380 terminal NOOK4 X00K4 170 243 162 155 228 6 M4 35 NOOK7 4 X00K7 170 243 162 155 228 6 M4 35 S NO1K5 XO1K5 170 243 162 155 228 6 M4 35 cS NO2K2 X02K2 170 243 162 155 228 6 M4 35 NO4KO 0460 170 243 162 155 228 6 M4 3 5 gt Q Lu o Cat no Dimensions mm Main Weight Supply Supply A B C D E Qd circuit kg 200 230V 380 460V terminal X05K5 216 275 169 201 260 7 M4 6 X07K5 216 275 169 201 260 7 M4 6 N05K5 216 275 169 201 260 7 M5 6 m N07K5 216 275 169 201 260 7 M5 6 X11K0 265 360 228 245 340 7 M5 13 X15K0 265 360 228 245 340 7 M5 13 X18K5 2605 360 228 245 340 7 M5 13 N11K0 265 360 228 245 340 7 M6 0 N15K0 265 360 228 245 340 7 M6 13 Cat no Dimensions mm Main Weight Supply Supply A B C D E Qd circuit kg 200 230V 380 460V terminal X22K0 310 500 253 200 480 10 M6 26 N18K5 X30K0 310 500 253 200 480 10 M8 26 N22K0 310 500 253 200 480 10 M8 26 N30K0 342 590 307 200 570 10 M8 55 X37K0 342 590 307 200 570 10 50 m N37K0 342 590 307 200 570 10 M8 60 X45K0 342 590 307 200 570 10 M8 50 X55K0 420 690 309 300 686 10 M10 55 X75KO 420
27. erials means that the drives Dedicated energy saving function for induction motors plastic components are free of Drives plastic components are free of harmful dioxins harmful dioxins and a new soft Soft sound PWM sound performance significantly reduces noise pollution by randomly altering the carrier frequency during operation e Exceptional pack of monitoring protection and operating functions e Conform to global standards Removable keypad Other features Extended I O range Advanced functions Autotuning Torque control Soft Sound PID control Multipump control Pattern run Programmable speeds Appro Vals Traverse function E A e n Skip frequency Speed ratio control S shape ramp Communications Built in RS485 port Optional Profibus DP interface CE compliance UL approval UL508C 400V series up to U2KX45KOS only J 8 GE Power Controls V F control for constant torque loads with advanced toruge control This mode uses auto tuning to give voltage vector control in open loop The main features of this mode are 1 Build in PID controller eliminates the requirement and cost of a separate device 2 Tripless operation This safe and convenient fetaure is a combination of the availability of dinamically extend ramp times during operation if the load is likely to demand a too high current or regenerate a higher current than the programmed limit automating li
28. hat this term is misused and describes a control system similar to our standard Advanced Torque Control We define true Sensorless Vector Control as Flux Vector Control without encoder Closed loop vector control requires the use of an encoder so that shaft position can be used in order to calculate and control phase angle and shaft speed Because of this all settings within a closed loop environment relate to actual shaft rotation rather than output frequency Developing a method whereby the shaft rotation can be calculated by very closely monitoring the waveform and feedback at three output phases of the drive All of the settings the VAT2000 in sensorless vector mode are therefore set using rotational speed and not output frequency In addition incorporate two current loops to control magnetising current independently Thus the VAT2000 can perform almost as well as a closed loop system and uniquely provide torque at zero speed Closed Loop Vector Control This advanced mode enables motor speed to be varied across a 1000 1 speed range with 0 01 accuracy up to 6 times faster than conventional drives 30Hz response time In addition to outstanding torque performances this mode contains a new feature whereby the loss of the encoder signal will cause the drive to automatically switch into Sensorless Vector mode The drive then issues an alarm signal which can be used as an indicator or as a shutdown signal Closed Loop Vector Control req
29. l PCBs Cards Description Cat no Ref no pep 2 Li 1 aTpPTTM Lp ss ROT Pb p Pal P hk P Ea disgttt KUU Encoder interface 12V AB phase 60kHz 6V single phase 20kHz U2KV23DN1 168087 12VDC 100mA supply output 5V A B phase differential 250kHz 5VDC 200mA U2KV23DN2 168088 N 5VDC 100mA supply output 5V 6 phase A B Z U V W 250Hz for permanent U2KV23DN3 168089 gt magnet motors 5VDC 100mA supply output Relay interface 4 additional programmable inputs U2KV23RY0 168090 2 additional programmable relay outputs Parallel interface Frequency setting through parallel 8 12 16 data bits U2KV23PIO 168091 Serial communication interface Additional RS232C 485 serial port U2KV23SLO 168092 Profibus DP communication interface Standard field bus interface U2KV23SL6 168093 Accessories Extension cable for keypad 3m U2KV23W103 168102 Extension cable for keypad 1m U2KV23W101 168103 Drive to terminals RS485 cable U2KV23W123 168104 Drive to 15 pin D sub connector U2KV23W113 168105 RS485 cable Drive to PC RS232 cable Includes RS232 485 converter U2KV23CNVKIT 168106 Q gt D D Q Q X Lu X gt Lu VA72000 Technical data Frequency control Control method Carrier frequency Mono sound mode Soft sound mode Output frequency resolution Frequency setting resolution Digital Analogue Frequency accu
30. ltage It is applica ble to 400 460V systems and may be required if output wiring to motor exceeds of 40m length ACFR OOOO amp N11P34018 The surge absorver is composed by one output reactor and a RC filter Constant torque ratings VAT2000 Losses Fuses MCCB Series Cat No W 1 A 2 A MC U2KN00K4S 49 20 5 CLOO U2KNO0K7S 62 20 5 CLOO U2KNO1K5S 84 50 10 CLOO U2KN02K2S 117 60 15 CLOO U2KN04K0S 153 110 20 CLO U2KNOSKSS 219 125 30 CL02 U2KN07K5S 301 225 40 CL04 U2KN11K0S 420 225 75 CL04 U2KN15K0S 506 250 75 CL06 U2KN18K5S 708 400 100 CLO7 U2KN22K0S fol 500 150 CLO9 U2KN30K0S 1192 500 150 CL10 U2KN37K0S 1491 600 200 CK75 U2KX00K4S 63 10 5 CLOO U2KX00K7S 83 10 5 CL00 U2KX01K5S 111 20 5 CL00 U2KX02K2S 129 30 5 CL00 U2KX04K0S 175 50 15 CLOO U2KX05K5S 275 60 20 CLOO U2KX07K5S 345 90 30 CL02 U2KX11K0S 369 110 40 CL04 U2KX15K0S 481 125 40 CL04 U2KX18K5S 550 175 50 CL04 U2KX22K0S 675 225 50 CL06 U2KX30K0S 876 250 75 CL06 U2KX37K0S 945 300 100 CLO7 U2KX45K0S 1175 400 100 CLO9 U2KX55K0S 1558 400 150 CK75 U2KX75K0S 2020 500 200 CK08 U2KX90K0S 2509 700 300 CK85 U2KX110KS 3343 800 300 CK09 U2KX132KS 3906 800 350 CK09 U2KX160KS 4915 1200 400 CK95 U2KX200KS 6520 1600 500 CK10 U2KX250KS 7848 200 700 CK11 U2KX315KS 9026 2000 800 CK12 Variable torque ratings VAT2000 Losses Fuses MCCB Series Cat No W 1 A 2 A MC U2KN00K4S 62 20 5 CLOO 5 84 50 10 CLOO U2KNO1K5S 117 60 15 CLOO U2KN02K2S 153 110 20 CLO1 U2KN04K0S 215 1
31. mensions in mm GE Power Controls
32. miting of the IGBT switching frequency if the heatsink temperature rises too high the ability to limit current transients caused by shock loads alarms and controlled shutdown in the event of a fault which is non life threatening of the drive motor 3 Motor Loss Braking is a system which reduces motor efficiency during regenerative braking allowing some of the braking energy to be dissipated from the motor as heat so reducing the size or even eliminating the brake resistor V F control for variable torque loads with advanced torque control This mode uses auto tuning to give voltage vector control in open loop with the added benefit that because of a higher continuous current rating than in constant torque mode an inverter of one size lower may be used in order to reduce the purchase cost Features include 1 Special energy saving features for fans and pumps where V F ratios are dynamically controlled to optimise the power usage 2 The drive can auto tune to two independent motors so that one inverter can be used in apllications such as pumping where a main and standby pump are fed by the same source 3 Multi pump control This is a logogic control system commonly used where two or more pumps maintain pressure in a system one being variable speed abd the others being brought in as required Multi mode vector drive Sensorless vector control There are many drives which claim to offer sensorless vector control but we feel t
33. ngeover using two external dry contacts Forward Reverse run and stop using three external push buttons Selectable either Ramp down to stop or coast to stop idependently for run jog and EMS Braking stop frequency set between 0 1 and 60 0Hz Braking voltage set between 0 1 and 20 0 Braking time set between 0 0 and 20 0 s from 150 to 7200 rpm max 120Hz Technical data continued Operation functions Multi speed Ratio interlock Frequency jump Slip compensation Auto run function Others External I O Operation keypad Input sequence Output sequence Frequency settings Meter outputs Protection features Prevention Trip Fault history Overload level Retry Operating environment Installation Working temperature Relative humidity Altitude Vibrations 8 fixed speed selectable with independent acceleration deceleration ramps for each speed Output frequency or speed is operating according Y Ax B C X frequency or speed setting gain 0 000 to 10 000 0 00 to 440Hz 0 to 7200min with max 120Hz in Vector control mode auxiliary input AUX Upper and lower limits available Up to three areas Width can be varied between 0 0 and 10Hz Slip compensation gain for V f operation only from 0 0 to 20 0 10 step automatic run function Synchronous Asynchronous selective PID Pick up Auto start Traverse Multipump control reverse run protection and Restart after instantaneous power failur
34. r The high frequency induced problems of hot running degrading of winding insularion arcing across motor bearings high leakage Input inverter and motor ratings currents interference These are decreased by using Soft Sound carrier frequency Select the drive mode Soft Sound Run the drive Total Sound Level 62dB A band run the tuning 60dB Auto tuning error OK Error V f or Vector related parameters are displayed automatically set Auto tuning is complete Q gt i D D Q Q Lu X gt Lu AVG SUM 16 16 Drive and motor ratings Mono Sound B00 1 0 Input voltage V B00 1 1 Motor rated output voltage kW Total Sound Level 62dB A band B00 1 2 Number of motor poles Pole B00 1 4 Max speed min 1 B00 1 5 Base speed min 1 B00 1 6 Motor rated current A B00 1 7 Carrier frequency B01 8 Number of encoder pulses P R Drive mode C30 0 1 V f Constant torque 630 0 2 V f Variable torque C30 0 2 3 Vector sensorless 2 0k FREQUENCY i 12 k C30 0 4 Full vector AVG SUM 16 16 C30 0 5 PM motor control u EE Alia Vector control system Speed block diagram The VAT2000 performs an high end Vector control system which allows speed accuracy up to 0 01 using encoder feedback and up to 0 5 in sensorless The dynamic response is excellent in all cases The speed control block diagram is
35. racy Digital Analogue Output frequency Control specifications Voltage frequency control Vector control Control range Constant output range Speed accuracy at Fmax amp 50Hz Control response Automatic tuning Starting torque Acceleration deceleration time Acceleration deceleration mode Operating system 3 modes selectives Stop system DC braking GE Power Controls All digital control sine wave approximation PWM 1 to15kHz 1kHz increments 1 to 8kHz for drives above U2KX45K0S Average frequency 2 1 to 5kHz with 3 or 4 tone modulation 0 01Hz 0 01Hz 0 025 respect maximum frequency 0 0196 at 25 10 C 0 1 at 25 10 C From 0 to 440Hz in V f control mode From 0 to 120Hz in Vector control mode Constant torque constant output and reduction torque set in range from 3 to 440Hz Torque Boost Manual and automatic Max torque boost allows improved V f control Sensorless With sensor For PM motors 1 100 1 1000 1 100 Up to 1 2 Up to 1 4 Upto1 1 2 0 5 0 01 0 01 5Hz 30Hz Automatic measurement of motor constants and setting of critical parameters There are two independent Auto tuning for all control modes 200 or more 0 01 to 60000 sec Two sets of independent acceleration deceleration plus one set for jogging and eight sets more for program ramp function Linear and S type ramp selection Forward run or reverse run using two external dry contacts Run Stop and forward reverse cha
36. s a common terminals for the PS01 2 and 3 outputs output common Inout sequence functions R RUN Reverse run All digital outputs can be set to any of output sequence functions This is a command for reverse run F JOG R JOG Forward Reverse jogging These are jogging commands If this signal is ON while RUN is OFF operation then conforms to the setting of jogging A00 1 or 3 For stopping either ramp down stop or coast stop is available HOLD Hold This is a stop signal used when Forward Reverse command is operated by push buttons BRAKE DC brake DC brake can be operated with this signal C SEL Ramp selection Accel decel ramp performance is switched over ACCel Decel time 2 B10 0 1 is available with ON and Accel Decel time 1 A01 0 1 is available with OFF PASS Ratio interlock bypass Ratio interlock operation is bypassed VFS Speed setting 1 Enables frequency speed setting from analog input FVS C07 0 IFS Speed setting 2 Enables frequency speed setting from analog input IFS C07 1 AUX Speed setting 3 Enables frequency speed setting from analog input AUX C07 2 PROG Program functions Used for multiple speed setting Selection of up to 8 fixed speed PROGO PROG7 is made with 50 S3 SE CFS CPU setting Enables frequency speed setting for a serial port S0 to S3 SE Program setting When PROG is ON the program frequency 8 fixed speeds B11 0 up to 7 is enabled BCD or direct speed sele
37. uires an Encoder Feedback card PM Motor Control This mode enables the use of ultraefficient PM motors for energy conservation 0000 VA72000 VAT2000 Heavy duty Constant torque 1 Light duty Variable torque 2 o Input voltage overload 150 60 sec overload 120 60 sec Protection Cat no Ref no 0 Input Output Maximum 3 Input Output Maximum 3 degree gt power current motor power power current motor power x lt kVA A kW kVA A kW TD 3ph 1 3 0 4 1 2 5 0 75 IP20 U2KNO0K4S 168000 1 7 5 0 75 2 1 8 1 5 IP20 U2KNOOK7S 168001 200V 230V 2 7 8 05 3 0 11 22 IP20 U2KN01K5S 168002 Q 3 8 11 2 2 5 1 16 4 IP20 U2KN02K2S 168003 55 16 4 7 6 22 5 5 IP20 U2KN04K0S 168004 8 3 24 515 10 0 33 75 IP20 U2KNO5K5S 168005 2 11 4 33 23 14 5 42 11 IP20 U2KN07K5S 168006 C 15 9 46 11 19 3 61 15 IP20 U2KN11K0S 168007 CS 211 61 15 24 2 76 18 5 IP20 U2KN15K0S 168008 Pug 26 3 76 18 5 29 7 86 20 IP00 U2KN18K5S 168009 CO 31 8 92 22 37 4 108 30 IP00 U2KN22K0S 168010 41 118 30 45 134 31 00 05 168011 50 144 37 55 161 45 IP00 U2KN37K0S 168052 3ph 1 15 0 4 17 25 0 75 IP20 U2KX00K4S 168024 1 7 2 5 0 75 25 3 6 15 IP20 U2KX00K7S 168025 380V 460V 2 5 3 6 1 5 3 8 55 22 IP20 U2KX01K5S 168026 3 8 5 5 22 5 9 8 6 4 IP20 U2KX02K2S 168027 5 9 8 6 4 9 0 13 35 0
38. uring acceleration m DCC Deceleration This turns ON during deceleration D AUXDV Dual selection This turns ON when the secondary drive parameter setting is validated ALM Minor fault This turns ON during a minor fault CS FAN Fan control This turns ON during running jogging pre excitation and DC braking A three minute off delay is provided so even if the above operations turn OFF this control will not turn OFF for three minutes This is used for external fan control ASW Auto start wait This is ON while Auto start delay time C08 0 ZSP Zero speed Tis turns ON when the output frequency speed is below the level set with C15 4 Remark ON means contact is closed VA72000 Auto tuning Soft Sound The VAT2000 is performed with an Auto tuning function which simpli VAT2000 Soft Sound technology reduces the characteristic whine fies the adjustment of critical control parameters The Automatic from inverter driven motors and eliminates the side effects of con tuning can be performed in four mode of operation V f Constant ventional noise reduction methods specifically that of raising the Torque V f Variable Torque Vector Sensorless Full Vector with carrier frequency Sensor Soft Sound varies the carrier frequency in one of two fixed patterns from a user selected base frequency between 2 1kHz and 5kHz By keeping the carrier frequency range low torque performance is Auto tuning procedure notably better tha a high frequency carrie
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