Implementation of Digital Automatic Voltage Regulator (AVR) for small laboratory alternator

机译：小型实验室交流发电机数字自动电压调节器（AVR）的实现

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This paper presents a simulation process for an alternator showing its performance characteristics with and without an automatic voltage regulator (AVR) connected to it as a part of work done for Project Stage I. Simulations were carried in MATLAB environment. The objective of this work was to get to know the effect of AVR on the system. The restoring capability of an AVR by changing the various load conditions and the level of excitation input to the system is seen. The simulation worked in two ways viz (a) With a constant mechanical input to the alternator, (b) With the mechanical input of the alternator controlled by AVR. The details of the results of the systems performance of the whole system are given in the following paper. Parallel to these simulations, hardware experimentation was also carried out. Experimental results were also obtained with laboratory set-up which will help to design the AVR.

机译：本文介绍了交流发电机的仿真过程，该过程展示了有无自动稳压器（AVR）的情况下发电机的性能特征，这是项目阶段I所做工作的一部分。仿真是在MATLAB环境中进行的。这项工作的目的是要了解AVR对系统的影响。可以看到通过更改各种负载条件和输入到系统的激励水平，AVR的恢复能力。模拟以两种方式进行，即（a）交流发电机的机械输入恒定，（b）交流发电机的机械输入由AVR控制。整个系统的系统性能结果的详细信息在以下论文中给出。与这些模拟并行，还进行了硬件实验。还通过实验室设置获得了实验结果，这将有助于设计AVR。

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来源
《2015 International Conference on Energy Systems and Applications》|2015年|338-341|共4页
会议地点 Pune(IN)
作者
Nirgudkar Saurabh S.; Sarode Uday B.;
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作者单位

PVG's COET Pune, India;

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原文格式 PDF
正文语种 eng
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关键词
AVR performance; MATLAB Simulations;

机译：AVR性能； MATLAB仿真;

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1. Study of Linear Quadratic Regulator (LQR) Control Method and Its Application to Automatic Voltage Regulator (AVR) System [J] . Olivia Fernaza, Heru Dibyo Laksono Innovative Systems Design and Engineering . 2014,第10期

机译：线性二次调节器（LQR）控制方法的研究及其在自动电压调节器（AVR）系统中的应用
2. A Computer Study of a PID Automatic Voltage Regulator, Part II: Digital PID Voltage Regulator with Dynamically Varying Weighting Parameters [J] . Malik O. P., Hope G. S., Badr M. A. L. Power Engineering Review, IEEE . 1983,第4期

机译：PID自动电压调节器的计算机研究，第二部分：具有动态变化的加权参数的数字PID电压调节器
3. Robust control of automatic voltage regulator (AVR) with real structured parametric uncertainties based on H-infinity and mu-analysis [J] . ISA Transactions . 2020,第期

机译：基于H-Infinity和MU分析的真实结构参数不确定性的自动压稳压（AVR）的鲁棒控制
4. Implementation of Digital Automatic Voltage Regulator (AVR) for small laboratory alternator [C] . Nirgudkar Saurabh S., Sarode Uday B. International Conference on Energy Systems and Applications . 2015

机译：用于小实验室交流发电机的数字自动电压调节器（AVR）的实现
5. Design and implementation of a computer-based automatic voltage regulator for a synchronous machine. [D] . Ahiakwo, Onyinyechukwu. 2012

机译：基于计算机的同步机自动电压调节器的设计和实现。
6. Optimum Design of PIλDμ Controller for an Automatic Voltage Regulator System Using Combinatorial Test Design [O] . Bestoun S. Ahmed, Mouayad A. Sahib, Luca M. Gambardella, -1

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7. The integrated control strategy for interval Type-2 fuzzy logic power system stabilizer (IT2FLPSS) and compact digital fuzzy automatic voltage regulator (CDF-AVR) in electrical power system [O] . Manoj Sharma, R. Pathak, Manoj Jha, 2018

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8. Steady-State Characteristics of a Voltage Regulator and a Parasitic Speed Controller on a 14.3-Kilovolt-Ampere, 1200- Hz Modified Lundell Alternator [R] . Bainbridge, R. C., Ingle, B. D., Wimmer, H. L. 1970

机译：14.3-Kilovolt-ampere，1200- Hz改进的Lundell交流发电机上的稳压器和寄生速度控制器的稳态特性

Implementation of Digital Automatic Voltage Regulator (AVR) for small laboratory alternator

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