外文翻译基于PLC的异步电动机监控系统的设计及应用.doc
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1、英文原文Design and Implementation of PLC-Based Monitoring Control System for Induction MotorMaria G. Ioannides, Senior Member, IEEEAbstractThe implementation of a monitoring and control system for the induction motor based on programmable logic controller(PLC) technology is described. Also, the implemen
2、tation of the hardware and software for speed control and protection with the results obtained from tests on induction motor performance is provided. The PLC correlates the operational parameters to the speed requested by the user and monitors the system during normal operation and under trip condit
3、ions. Tests of the induction motor system driven by inverter and controlled by PLC prove a higher accuracy in speed regulation as compared to a conventional V f control system. The efficiency of PLC control is increased at high speeds up to 95% of the synchronous speed. Thus, PLC proves themselves a
4、s a very versatile and effective tool in industrial control of electric drives.Index TermsComputer-controlled systems, computerized monitoring, electric drives, induction motors, motion control, programmable logic controllers (PLCs), variable-frequency drives, voltage control.I. INTRODUCTIONSince te
5、chnology for motion control of electric drives became available, the use of programmable logic controllers (PLCs) with power electronics in electric machines applications has been introduced in the manufacturing automation 1, 2.This use offers advantages such as lower voltage drop when turned on and
6、 the ability to control motors and other equipment with a virtually unity power factor 3. Many factories use PLCs in automation processes to diminish production cost and to increase quality and reliability 49. Other applications include machine tools with improved precision computerized numerical co
7、ntrol (CNC) due to the use of PLCs 10.To obtain accurate industrial electric drive systems, it is necessary to use PLCs interfaced with power converters, personal computers, and other electric equipment 1113. Nevertheless, this makes the equipment more sophisticated, complex, and expensive 14, 15.Fe
8、w papers were published concerning dc machines controlled by PLCs. They report both the implementation of the fuzzy method for speed control of a dc motor/generator set using a PLC to change the armature voltage 16, and the incorporation of an adaptive controller based on the self-tuning regulator t
9、echnology into an existing industrial PLC 17. Also, other types of machines were interfaced with PLCs. Thereby, an industrial PLC was used for controlling stepper motors in a five-axis rotor position, direction and speed, reducing the number of circuit components, lowering the cost, and enhancing re
10、liability 18. For switched reluctance motors as a possible alternative to adjustable speed ac and dc drives, a single chip logic controller for controlling torque and speed uses a PLC to implement the digital logic coupled with a power controller 19. Other reported application concerns a linear indu
11、ction motor for passenger elevators with a PLC achieving the control of the drive system and the data acquisition 20.To monitor power quality and identify the disturbances that disrupt production of an electric plant, two PLCs were used to determine the sensitivity of the equipment 21.Only few paper
12、s were published in the field of induction motors with PLCs. A power factor controller for a three-phase induction motor utilizes PLC to improve the power factor and to keep its voltage to frequency ratio constant under the whole control conditions 3. The vector control integrated circuit uses a com
13、plex programmable logic device (CPLD) and integer arithmetic for the voltage or current regulation of three-phase pulse-width modulation (PWM) inverters 22. Many applications of induction motors require besides the motor control functionality, the handling of several specific analog and digital I/O
14、signals, home signals, trip signals,On /off/ reverse commands. In such cases, a control unit involving a PLC must be added to the system structure. This paper presents a PLC-based monitoring and control system for a three-phase induction motor. It describes the design and implementation of the confi
15、gured hardware and software. The test results obtained on induction motor performance show improved efficiency and increased accuracy in variable-load constant-speed-controlled operation. Thus, the PLC correlates and controls the operational parameters to the speed set point requested by the user an
16、d monitors the induction motor system during normal operation and under trip conditions.II. PLC AS SYSTEM CONTROLLERA PLC is a microprocessor-based control system, designed for automation processes in industrial environments. It uses a programmable memory for the internal storage of user-orientated
17、instructions for implementing specific functions such as arithmetic, counting, logic, sequencing, and timing 23, 24.A PLC can be programmed to sense, activate, and control industrial equipment and, therefore, incorporates a number of I/O points, which allow electrical signals to be interfaced. Input
18、 devices and output devices of the are connected to the PLC and the control program is entered into the PLC memory.In our application, it controls through analog and digital inputs and outputs the varying load-constant speed operation of an induction motor. Also, the PLC continuously monitors the in
19、puts and activates the outputs according to the control program. This PLC system is of modular type composed of specific hardware building blocks (modules), which plug directly into a proprietary bus: a central processor unit (CPU), a power supply unit, input-output modules I/O, and a program termin
20、al. Such a modular approach has the advantage that the initial configuration can be expanded for other future applications such as multimachine systems or computer linking.III. CONTROL SYSTEM OF INDUCTION MOTORIn Fig. 2, the block diagram of the experimental system is illustrated. The following conf
21、igurations can be obtained from this setup. a) A closed-loop control system for constant speed operation, configured with speed feedback and load current feedback. The induction motor drives a variable load, is fed by an inverter, and the PLC controls the inverter V/F output.b) An open-loop control
22、system for variable speed operation. The induction motor drives a variable load and is fed by an inverter in constant V/F control mode. The PLC is inactivated.c) The standard variable speed operation. The induction motor drives a variable load and is fed by a constant voltage-constant frequency stan
23、dard three-phase supply. The open-loop configuration b) can be obtained from the closed-loop configuration a) by removing the speed and load feedback. On the other hand, operation c) results if the entire control system is bypassed.IV. HARDWARE DESCRIPTIONThe control system is implemented and tested
24、 for a wound rotor induction motor, having the technical specifications given in Table I. The induction motor drives a dc generator, which supplies a variable load. The three-phase power supply is connected to a three-phase main switch and then to a three-phase thermal overload relay, which provides
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