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Parameter-free finite set model prediction control method of three-level grid-connected inverter

A three-level inverter, finite set model technology, applied in electrical components, single-grid parallel feeding arrangements, output power conversion devices, etc., can solve the problem of inappropriate parameter design, complex and difficult model predictive control algorithms, etc. question

Active Publication Date: 2020-04-17
HEFEI UNIV OF TECH
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  • Application Information

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Problems solved by technology

[0008] 1. The existing model predictive control based on observer parameter identification, the addition of observers makes the inherently complex model predictive control algorithm more complicated, which is not conducive to actual implementation
[0009] 2. In the existing model predictive control based on the identification of observer parameters, the design of related parameters of the observer is complicated
Improper parameter design will lead to poor control effect, and in more serious cases, it will lead to system instability
[0010] 3. The existing model predictive control based on the identification of observer parameters needs to adjust the relevant parameters of the observer when the actual operating point of the system changes, which is quite difficult in actual implementation

Method used

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  • Parameter-free finite set model prediction control method of three-level grid-connected inverter
  • Parameter-free finite set model prediction control method of three-level grid-connected inverter
  • Parameter-free finite set model prediction control method of three-level grid-connected inverter

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Embodiment Construction

[0068] The present invention will be described in further detail below in conjunction with the accompanying drawings and examples.

[0069] figure 1 It is a topological structure diagram of the main circuit of the three-level grid-connected inverter applying the present invention, figure 2 It is a detailed structural diagram of the three-level inverter in the embodiment of the present invention. Depend on figure 1 and figure 2 It can be seen that the topology includes a DC side voltage source 10, a DC side series capacitor 20, a three-level inverter 30, a three-phase L filter 40, an equivalent resistance 50 of the three-phase L filter, and a three-phase grid 60, The DC side series capacitor 20 includes a DC capacitor C1 and a DC capacitor C2, and the DC capacitor C1 and the DC capacitor C2 are connected in series between the DC positive bus P and the DC negative bus N of the DC side voltage source 10, and the connection point is denoted as The midpoint n, the midpoint n ...

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Abstract

The invention discloses a parameter-free finite set model prediction control method of a three-level grid-connected inverter. A system researched by the method comprises a direct-current side voltagesource, a direct-current side capacitor, a three-level inverter circuit, a three-phase L filter, an equivalent resistor of the three-phase L filter and a three-phase power grid. According to the method, actual model parameter values do not need to be known, only the current flowing through the three-phase L filter and the voltage of the three-phase power grid are sampled and then used for parameter-free finite set model prediction control, the parameter robustness of finite set model prediction control is improved without increasing the cost, and the method is simple and effective.

Description

technical field [0001] The invention belongs to the technical field of three-level grid-connected inverter control, and more specifically relates to a parameter-free finite set model predictive control method for a three-level grid-connected inverter, which is used to improve the grid-connected current waveform of the inverter Quality, Improving the Robustness of Finite Set Model Predictive Control Under Parameter Mismatch of Three-Level Grid-connected Inverters. Background technique [0002] In recent years, finite set model predictive control has received great attention in the power electronics community. An early implementation of finite-set model predictive control was for current control and torque control of inverters, and it has been applied to various converter topologies and power electronics. Finite set model predictive control has the advantages of fast dynamic response, simple inclusion of nonlinearities and constraints, multi-objective optimization, and low sw...

Claims

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Application Information

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IPC IPC(8): H02M7/483H02M7/5387H02J3/38
CPCH02J3/38H02M7/483H02M7/53875
Inventor 张兴洪剑峰曹仁贤王宝基高泽宇许成俊
Owner HEFEI UNIV OF TECH
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