Implementation of Inverse Neural Control To VSC Converter for Active and Reactive Power Flow

机译：VSC变换器的有功和无功潮流逆神经控制实现

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In this paper is presented the implementation of a VSC (voltage source converter), to be used in HVDC (high voltage direct current) systems. The control is carried out of active and reactive power flow for the VSC, by an inverse neural control, based on multi layer perceptron. The non linearity nature presents learning problems in the Neural Network like poor identification for the VSC, when the neural control is implemented in real time. This paper proposes a design for an inverse neural control of the active and reactive power flow for the VSC converter, and it solves the learning problem through real time control for the VSC. Four neural controllers are used, which are training and implemented in parallel, activated just one in time, depending on the work region in the converter. The system is controlled in a -100 W to 100 W range of active power and -30 VAR to 30 VAR in reactive power.

机译：在本文中，将介绍VSC（电压源转换器）的实现，该系统将用于HVDC（高压直流电）系统。通过基于多层感知器的逆神经控制，可以控制VSC的有功和无功潮流。当实时执行神经控制时，非线性性质会在神经网络中带来学习问题，例如对VSC的识别不佳。本文提出了一种用于VSC变换器有功和无功潮流逆神经控制的设计，并通过实时控制VSC解决了学习问题。根据转换器中的工作区域，使用了四个神经控制器，它们是并行训练和实施的，一次只能激活一次。该系统的有功功率控制在-100 W至100 W范围内，无功功率控制在-30 VAR至30 VAR之间。

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《Intelligent System Applications to Power Systems, 2009. ISAP '09》|2009年|1-6|共6页
会议地点 Curitiba(BR);Curitiba(BR)
作者
Forero R F.A.; Molina M A.M.; Guarnizo M J.G.; Chamorro V H.R.;
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Curricular Project of Electron. Eng., Univ. Francisco Jose de Caldas, Bogota, Colombia;

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HVDC power convertors; control system synthesis; load flow control; multilayer perceptrons; neurocontrollers; nonlinear control systems; reactive power control; real-time systems; HVDC system; VSC converter; active power flow; high-voltage direct current system; inverse neural control design; learning problem; multilayer perceptron; neural network; power -100 W to 100 W; reactive power flow; real-time control; voltage source converter;

机译：HVDC功率转换器;控制系统综合;潮流控制;多层感知器;神经控制器;非线性控制系统;无功控制;实时系统; HVDC系统; VSC转换器;有功功率;高压直流系统;逆神经控制设计;学习问题;多层感知器;神经网络;功率-100 W至100 W;无功功率;实时控制;电压源转换器;

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机译：研究BTB-VSC转换器控制有功和无功潮流的局限性
2. Two-tier combined active and reactive power controls for VSC–HVDC-connected large-scale wind farm cluster based on ADMM [J] . Huang Sheng, Gong Yusheng, Wu Qiuwei, Renewable Power Generation, IET . 2020,第8期

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3. Design and Comparison of a PI and PID Controller for Effective Active and Reactive Power Control in a Grid Connected Two Level VSC [J] . Rajiv Singh, Asheesh Kumar Singh International review of automatic control . 2013,第6期

机译：用于并网两级VSC的有效有功和无功控制的PI和PID控制器的设计与比较
4. Implementation of Inverse Neural Control To VSC Converter for Active and Reactive Power Flow [C] . Freddy Alexander Forero R., Andres Mauricio Molina M., Jose Guillermo Guarnizo M., International Conference on Intelligent System Applications to Power Systems . 2009

机译：用于主动和无功流量的VSC转换器的逆神经控制的实现
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Implementation of Inverse Neural Control To VSC Converter for Active and Reactive Power Flow

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