Description
IS420PUAAH1A Reliable Turbine Control Solutions
высотой 3U, расположенный в раме управления под DSPX.
волоконно – оптический разъем на передней панели и передаются в модуль обнаружения заземления.
ABB: Запасные части для промышленных роботов серии DSQC, Bailey INFI 90, IGCT, например: 5SHY6545L0001 AC1027001R0101 5SXE10 – 0181, 5SHY3545 L0009, 5SHI3545L0010 3BHB013088 R0001 3BHE009681R0101 GVC750BE101, PM866, PM861K01, PM864, PM510V16, PPD512, PPPD113, PP836A, P865A, 877, PPP881, PPPP885, PPSL500000 4 3BHL00390P0104 5SGY35L4510 и т.д.
General Electric: запасные части, такие как модули, карты и приводы. Например: VMVME – 7807, VMVME – 7750, WES532 – 111, UR6UH, SR469 – P5 – HI – A20, IS230SRTDH2A, IS220PPDAH1B, IS215UCVEH2A, IC698CPE010, IS200SRTDH2ACB и т.д.
Система Bently Nevada: 350 / 3300 / 1900, предохранительные зонды и т.д., например: 3500 / 22M, 3500 / 32, 3500 / 15, 3500 / 23500 / 42M, 1900 / 27 и т.д.
Системы Invis Foxboro: Серия I / A, управление последовательностью FBM, трапециевидное логическое управление, обработка отзыва событий, DAC,
обработка входных / выходных сигналов, передача и обработка данных, такие как FCP270 и FCP280, P0904HA, E69F – TI2 – S, FBM230 / P0926GU, FEM100 / P0973CA и т.д.
Invis Triconex: Модуль питания, модуль CPU, модуль связи, модуль ввода – вывода, например 300830937214351B, 3805E, 831235114355X и т.д.
Вудворд: контроллер местоположения SPC, цифровой контроллер PEAK150, например 8521 – 0312 UG – 10D, 9907 – 149, 9907 – 162, 9907 – 164, 9907 – 167, TG – 13 (8516 – 038), 8440 – 1713 / D, 9907 – 018 2301A, 5466 – 258, 8200 – 226 и т.д.
Hima: модули безопасности, такие как F8650E, F8652X, F8627X, F8678X, F3236, F6217, F6214, Z7138, F8651X, F8650X и т.д.
Honeywell: Все платы DCS, модули, процессоры, такие как: CC – MCAR01, CC – PAIH01, CC – PAIH02, CC – PAIH51, CC – PAIX02, CC – PAON01, CC – PCF901, TC – CR014, TC – PD011, CC – PCNT02 и т.д.
Motorola: серии MVME162, MVME167, MVME172, MVME177, такие как MVME5100, MVME5500 – 0163, VME172PA – 652SE, VME162PA – 344SE – 2G и другие.
Xycom: I / O, платы VME и процессоры, такие как XVME – 530, XVME – 674, XVME – 957, XVME – 976 и т.д.
Коул Морган: Сервоприводы и двигатели, такие как S72402 – NANA, S6201 – 550, S20330 – SRS, CB06551 / PRD – B040SSIB – 63 и т. Д.
Bosch / Luxer / Indramat: модуль ввода / вывода, контроллер PLC, приводной модуль, MSK060C – 0600 – NN – S1 – UP1 – NNN, VT2000 – 52 / R900033828, MHD041B – 144 – PG1 – UN и т.д.
The most fundamental reason for distinguishing these two motor types is that the
design of the air gap magnetic field is different. So the following differences arise
The back EMF waveform is different:
BLDC: Approximate trapezoidal wave (ideal state);
PMSM: sine wave (ideal state);
The three-phase current waveforms are different:
BLDC: Approximate square wave or trapezoidal wave (ideal state);
PMSM: sine wave (ideal state);
Differences in control systems:
BLDC: usually includes position controller, speed controller and current (torque) controller;
PMSM: Different control strategies will have different control systems;
Controls are different:
BLDC: 120-degree square wave current, using PWM control;
PMSM: Positive Xuan wave current, controlled by SPWM SVPWM.
However, in actual control, brushless DC can also be controlled by FOC, and permanent magnet
synchronous motors can also be controlled by square waves.
Just like the controllers of electric vehicles, I have disassembled and studied three or four. The interfaces are
all the same, the control chips are different, and of course the control algorithms are also different. Electric vehicles
controlled by sine waves have very low sound when starting and running, and there is no jitter during operation;
but electric vehicles controlled by square waves have very obvious sounds, and the jitter during operation can also
be felt. The judder is due to definite torque ripples.
Motors controlled by square waves have higher power efficiency, because motors controlled by sine waves have a lower effective voltage.
4. Control technology of permanent magnet synchronous motor
Permanent magnet synchronous motors and brushless DC motors can be operated using the same control method.
IS215VCMIH2CA GE
IS215VCMIH2CA IS200VCMIH2CAA GE
IS215VPROH1BD GE
IS220PAICH1A 336A4940CSP3 GE
IS220PAICH2A 336A4940CSP11 GE
IS220PAOCH1A 363A4940CSP5 GE
GE IS220PDIAH1A 336A4940CSP1 Discrete Input Module – Mark VI IS200
IS220PDIAH1B 336A5026ADP4 GE
IS220PDIIH1B 336A5026ADP1 GE
IS220PDOAH1A 3364940CSP2 GE
IS220PPDAH1B 336A5026ADP14 GE
GE IS220PPRFH1A 336A4940CSP20
IS220PPRFH1B 336A5026ADP2 GE
GE IS220PPROS1B 336A5026ADP22- Emergency Turbine Protection I/O Package
IS220PRTDH1A 363A4940CSP6 GE
IS220PRTDH1BC 336A5026ADP13 GE
IS220PSVOH1A GE
IS220PSVOH1B GE
GE IS220UCSAH1A embedded controller module
IS220YDIAS1A GE
IS220PSVOH1A GE
XXD129A01 Communication module ABB
3BHB007209R0102 Communication module
XVC767AE102 Communication module ABB
XVC767AE102 3BHB007209R0102 ABB
XTB750B01 Communication module
XO16N1-B20 XO16N1-C3.0 ABB
XO08R2 1SBP260109R1001 ABB
1SBP260109R1001 Thermal overload relay
XO08R2 Thermal overload relay
1SFA664001R1001 Thermal overload relay
TVOC-2-240 Thermal overload relay
TVOC-2-240 1SFA664001R1001 ABB
TU810 ABB
TU810V1 3BSE013230R1 ABB
TU715F 3BDH000378R0001 ABB
TU715F 3BDH000378R0001 ABB
TP858 3BSE018138R1 ABB
TP853 3BSE018126R1 ABB
TP854 3BSE025349R1 ABB
TP830 3BSE018114R1 ABB
TK802F processing module ABB
3BSC950130R1 processing module ABB
TK803V018 processing module ABB
TK803V018 3BSC950130R1 ABB
TC520 3BSE001449R1 ABB
3BSE018059R1 processing module ABB
TC512V1 processing module ABB
TC512V1 3BSE018059R1 ABB
3BSE018059R1 processing module ABB
TC512V1 processing module ABB
3BHB006714R0277 processing module ABB
SYN5201A-Z V277 processing module ABB
SYN5201A-Z V277 3BHB006714R0277 ABB
SR511 3BSE000863R1 ABB
SPIET800 processing module ABB
SPHSS13 processing module ABB
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