A Novel FCs-MPC Low Switching Frequency Control Method
A technology with low switching frequency and control method, which can be applied in output power conversion devices, climate sustainability, high-efficiency power electronic conversion, etc. problem, to achieve the effect of not increasing the computational burden, reducing the system switching frequency, and avoiding switching
Active Publication Date: 2019-04-30
江苏科路电气有限公司
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Problems solved by technology
This method has a clear concept and is easy to understand, but there is a problem that the weight coefficient is difficult to set, and it can only achieve low switching frequency control in one control cycle in the future
To achieve low switching frequency control in multiple control cycles in the future, the existing method is to adopt a multi-step predictive control method, but the multi-step predictive method will increase the amount of predictive calculations exponentially, resulting in a heavy computational burden on the controller, which is difficult to achieve. accomplish
[0004] From the analysis of the research status of low switching frequency at home and abroad, the scheme based on FCS-MPC has shown excellent performance in the control of low switching frequency of converters with different topologies due to its inherent multi-constraint conditions and multi-objective task processing capabilities. Strong adaptability and control potential, but so far there is no low switching frequency control method that is suitable for all power electronic converter topologies, has no weight factor tuning problem, and does not affect the calculation amount of the FCS-MPC control system.
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[0031] Below in conjunction with the accompanying drawings, the present invention will be further described with the traditional weight factor method high-power multilevel inverter FCS-MPC system. The specific implementation steps of the novel FCS-MPC low switching frequency control method are as follows:
[0032] 1) detect t k Actual current value at any time;
[0033] 2) Apply the new FCS-MPC low switching frequency control method to the optimal switching vector s(k) predicted by the cycle, that is, the optimal switching vector selected by the controller in step 6) in the previous cycle (the optimal switching vector of the first cycle vector starts from zero vector);
[0034] 3) Delay compensation, predict t under the action of s(k) k+1 current value i p (t k+1 ), ①;
[0035]
[0036] In the formula
[0037] 4) Novel low switching frequency current prediction based on prediction time domain extension i p (t k+3 ), ②;
[0038]
[0039] 5) In order to reflect ...
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A novel FCS‑MPC low switching frequency control method relates to the field of power electronic converter control. The method includes the following steps: sampling the actual value and applying the optimal switch combination selected in the last cycle; controlling delay compensation; realizing the current prediction of the next two control cycles based on the prediction time domain expansion principle; The combination is evaluated, and the optimal switch combination is selected for the next control cycle; the above process is repeated for the next control cycle. This method effectively avoids unnecessary switching between adjacent control cycles, reduces the switching frequency of the system, and is not limited by the topological structure of the power electronic converter and the prediction model, and has no related weight factor setting problems. The algorithm concept is clear and easy to implement. , while not increasing the computational burden of the control system, and not affecting the dynamic performance of the control system.
Description
technical field [0001] The invention relates to the technical field of power electronic converter control, in particular to a low switching frequency control method suitable for an FCS-MPC control system. Background technique [0002] For power electronic converters, especially high-power multi-level frequency conversion devices, the switching loss of switching devices has become the most important power loss part of the frequency conversion device with the increase of its voltage level and power level. The low switching frequency operation of the device can not only effectively reduce its own power loss, but also help to increase the output power of the device and improve its output current capability. Therefore, the development of high-power multi-level power electronic converters and their popularization and application in energy saving and consumption reduction must first solve the problem of low switching frequency control. [0003] In the power electronic converter co...
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IPC IPC(8): H02M1/00
CPCH02M1/00H02M1/0003H02M1/0048Y02B70/10
Inventor 王贵峰吴玮夏正龙朱呈祥胡福年邹宽胜闫俊荣李春杰李洪美金鑫尚睿赵强
Owner 江苏科路电气有限公司