Description
DS200TCDAH1BHE GE Steam Turbine System
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.
Design and implementation of variable frequency transmission system based on ABB hardware architecture
introduction
With the increasing development of transmission technology and the increasing demand for actual use, variable frequency transmission systems have been widely used.
As a Fortune 500 company in the world, ABB is a leader in the fields of power and automation technology and has strong capabilities in control
systems, high-voltage, medium-voltage and low-voltage frequency conversion technology and transmission technology. Therefore, this article mainly
relies on ABB”s control, frequency conversion and transmission technology, and uses related hardware products to design and implement the frequency conversion transmission system.
To truly design and implement a usable variable frequency drive system, the entire system must be fully equipped, conveniently operable and
compatible with a wide range of needs, so that it can be used without changing the control method and operation. According to the actual control needs,
that is, combining frequency converters with different performances and variable frequency motors with different speeds or torques to quickly build and realize a variety of control requirements.
1 System design purpose and composition
The design purpose of this system is to control ABB inverters through local and remote control methods and complete 4 independent channels
of closed-loop speed control to drive different test objects to rotate.
The entire control system consists of the following four main components: remote control computer, panel industrial computer (touch screen),
PLC and speed-regulating frequency converter. The system design block diagram is shown in Figure 1.
In order to ensure the accuracy of motor speed control, an encoder module is added. The PLC can obtain the feedback of the rotary encoder in the
frequency converter through the ProfibusDP protocol. The speed control is performed through the frequency converter for internal PID closed-loop control.
2 System hardware implementation
2.1 Control some hardware
The control part of the hardware mainly refers to the sum of hardware that supports operators to use the equipment directly or indirectly and complete
the functions of the equipment. Its main hardware includes computer control terminal, touch screen control terminal, PLC control unit, other auxiliary
circuits and measurement and control components.
2.2 Transmission hardware
The transmission hardware mainly refers to the total number of equipment that can relatively independently perform a complete transmission function.
Its main hardware includes frequency converters, variable frequency motors (configured with rotary encoders as needed) and other auxiliary circuits.
Among them, the selection of motors and frequency converters should be based on the principle of selecting the motor first and then selecting the
frequency converter. details as follows:
First, according to the tangential speed at which the object under test is to complete rotation, select the motor speed according to the following formula:
Secondly, choose based on several other important basic parameters of the motor, such as system hardness, torque, weight, etc
. This system uses ABB”s variable frequency motor.
Finally, select an appropriate frequency converter based on the motor power. In addition, the actual situation of the object being tested must also be taken
into consideration, such as whether the rotating load belongs to the heavy-load usage of the frequency converter, etc.
3Software system
System software includes three major categories in total, namely computer control software, touch screen software and PLC software. Among them, the PLC software, as the
underlying software, is responsible for the interaction with the computer control software and touch screen software on the upper side, and the interaction
with the frequency converter on the lower side. Therefore, from the architecture of the entire software system, it can be defined as a host and slave computer structure.
3.1 System development platform
The software system has two control methods: remote and local. The development platforms for the three major categories of software are Windows operating system,
LabVIEW[4] integrated development environment, CodesysV2.3, and CP400.
3.2 System software architecture
The software of the entire system is divided into three types, namely remote control software, PLC control software and local control software. Among them,
the remote control software runs under the Windows operating system and is developed under the LabVIEW integrated development environment; the PLC control software is
developed under the CodesysV2.3 programming environment; the local control software runs on the touch screen computer and is developed under the CP400 environment.
The relationship between the three software is shown in Figure 2.
IC754VGI06MTD GE QuickPanel View Operator terminal
IC697PWR710H GE 90-70 Series 55 Watt Power Supply Module
IC697CHS770 GE rack
IC695PBM300 GE RX3i PROFIBUS Master module
IC695NIU001 GE Ethernet Network Interface Unit
IC695CRU320-EN GE RX31 CMX/RMX modules
IC695CPE305 GE RX3i PACSystems central processing unit
IC693MDL753 GE Discrete output module
IC693MDL730LT GE Output module
IC693MDL940L GE relay output module
IC693MDL645 GE Programmable Logic Controllers
IC693CPU363 GE Series 90-30 Processor module
IC693APU302 GE Axis Positioning Module
IC693ALG390 GE 2-Channel Analog Voltage Output module
IC693ALG222 GE 16-Channel Analog Voltage Input module
IC676PBI016 GE VersaMax IP Input Block
IC200PWR102 GE Power supply module
IC200PBI001 GE VersaMax Profibus Network Interface Module
IC670MDL640 GE 16-Point discrete input module
IC200MDL940K GE 16-Point relay output module
IC200MDL240K GE VersaMax AC Input Module
IC200CPUE05 GE VersaMax CPUE05 with Ethernet Interfaces
IC200CPU005 GE CPU module
IC200ALG620 GE 4-channel Resistance Temperature Detector (RTD) input module
IC200ALG264H GE Analog Input Module
IC200ALG263D GE Analog Input Module
IC200ALG260 GE VersaMax analog input module
F650-N-F-L-F-2-G-1-HI-P-6E GE Multilin Feeder Protection & Bay Controller
DS200NATOG2A GE Voltage Feedback Scaling Board
04380A Beijer Electronics E300 Display Control Panel
469-P5-HI-A20-E SR469-CASE GE SR 469 Motor Management Relay line
04220FL11232A GE RXI CONTROLLER
XS321A-E GJR2252900R0001 ABB Communication module
UNS0119A-P-V101 ABB Programmable controller
UGTMEM-01SB47SR ABB DC Motor, w/tach, 22.5V
UAD142A01-3BHE012551R0001 ABB AC 800PEC Combi IO
SPDSI22 ABB DI Module. 16 CH, Universal, 32 Jumpers
SPASO11 ABB AO Module, 14 CH, Supports 4-20mA, 1-5V
SDCS-PIN-4 ABB POWER INTERFACE BOARD
SAFT-112-POW ABB PC BOARD
RMIO-01C ABB CONTROL BOARD
REX521GHHPSH06G ABB PROTECTION UNIT
REF615E-G ABB FEEDER PROTECTION AND CONTROL RELAY
REF615D ABB Feeder protection and control
REF615A_1G-HAFNAEFCBGC1BQK11G ABB FEEDER PROTECTION AND CONTROL RELAY
PFTL101A-1.0KN 3BSE004166R1 ABB Load cell
INNIS21 ABB Network Interface Module
NINT-68 ABB Interface module
LTC391AE01 HIEE401782R0001 ABB Interface module
IMDSI14 ABB Digital Slave Input Module
FPBA-01 ABB PROFIBUS DP adapter module
DSQC345B ABB RECTIFIER UNIT
DSDP140B-57160001-ACX ABB Counter Board
CI502 1SAP220700R0001 ABB Bus-Module
A5E36717788 ABB Frequency converter IGD3 840A drive board Trigger board
129740-002 ABB On-line main board module
3HAC040658-001 ABB Motor unit MU400
3HAC16831-1 ABB Battery pack
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