Chaos control method, system and medium of dc-dc converter based on supertwist control
A technology of DC-DC and chaos control, which is applied in the direction of control/regulation system, output power conversion device, DC power input conversion to DC power output, etc., to achieve strong robustness, fast dynamic response and low voltage ripple Effect
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Embodiment 1
[0093] Embodiment one, as figure 1 As shown, a DC-DC converter chaos control method based on super twist control, including the following steps:
[0094] S1: Mathematically modeling the DC-DC converter to obtain a chaotic model of the state variables of the DC-DC converter;
[0095] S2: Obtain the chaotic energy storage value in the chaotic state in the chaotic model, obtain the energy storage constant value in the steady state in the chaotic model according to the chaotic energy storage value, and obtain the energy storage constant value in the chaotic model according to the chaotic energy storage value and the The energy storage constant value determines the error variable;
[0096] S3: Based on the super twist control method, obtain an estimated error amount according to the error variable, and design an equivalent sliding mode controller according to the error variable and the estimated error amount, and obtain the equivalent sliding mode controller control signal;
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Embodiment 2
[0159] Embodiment two, such as Figure 12 As shown, a DC-DC converter chaos control system based on super twist control, including modeling module, sampling module, processing module and control module;
[0160] The modeling module is used to mathematically model the DC-DC converter to obtain a chaotic model of the state variables of the DC-DC converter;
[0161] The sampling module is used to obtain the chaotic energy storage value in the chaotic state in the chaotic model;
[0162] The processing module is used to obtain the energy storage constant value in the chaotic model at steady state according to the chaotic energy storage value, and determine the error variable according to the chaotic energy storage value and the energy storage constant value. The energy storage value and the energy storage constant value determine the error variable, and are also used to obtain an estimated error amount according to the error variable based on the super twist control method, and d...
Embodiment 3
[0165] Embodiment 3. Based on Embodiment 1 and Embodiment 2, this embodiment also discloses a DC-DC converter chaos control system based on super-twist control, including a processor, a memory, and an operable A computer program on the processor, when the computer program runs, the figure 1 The following steps are shown:
[0166] S1: Mathematically modeling the DC-DC converter to obtain a chaotic model of the state variables of the DC-DC converter;
[0167] S2: Obtain the chaotic energy storage value in the chaotic state in the chaotic model, obtain the energy storage constant value in the steady state according to the chaotic energy storage value, and determine according to the chaotic energy storage value and the energy storage constant value error variable;
[0168] S3: Based on the super twist control method, obtain an estimated error amount according to the error variable, and design an equivalent sliding mode controller according to the error variable and the estimated e...
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