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BD-WPT system power coordination control method based on PI controller optimization

A technology of coordinated control and controller, applied in transportation and packaging, charging station, electric vehicle charging technology, etc., can solve problems such as increasing the difficulty and complexity of system design, interference of high-frequency energy transmission, and declining system stability. Achieve the effect of improving dynamic response, realizing power, and realizing energy flow

Active Publication Date: 2020-06-30
SOUTHEAST UNIV
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Problems solved by technology

At this time, it is necessary to establish a corresponding communication channel in the system, or design a more complex algorithm to ensure the successful realization of the energy flow control scheme realized by the "phase-shifting voltage regulation method"; this will greatly increase the difficulty of the design of the system And complexity, but also bring some new problems, such as the introduction of communication channels may be interfered by the high-frequency energy transmission process, and at the same time will cause the stability of the system to decline

Method used

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  • BD-WPT system power coordination control method based on PI controller optimization
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  • BD-WPT system power coordination control method based on PI controller optimization

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Embodiment 1

[0021] Embodiment 1: see figure 1 , a BD-WPT system power coordinated control method based on PI controller optimization, and its specific implementation steps are as follows:

[0022] (1) if figure 1 As shown, this is a schematic diagram of the BD-WPT system structure. u 1 , U 2 Equivalent DC input power for both sides of the system. figure 1 The circuit in the dotted rectangular box in the figure is the inverter circuit on both sides of the magnetic coupling mechanism. Under the action of the control circuit, they work at a frequency of 85kHz and convert the input DC power on both sides into AC power. When the inverter circuit on one side works as an inverter circuit, the inverter circuit on the other side works as a rectifier circuit. For the inverter circuit, the output voltage can be changed by adjusting the phase shift angle. Thus, in figure 1 In the circuit topology of the above, it is assumed that the phase shift angles of the full-bridge inverter circuit on the...

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Abstract

The invention relates to a BD-WPT system power coordination control method based on PI controller optimization, and the method specifically comprises the following steps: 1) controlling a primary sideinverter circuit to generate a constant voltage, and keeping a phase angle and a phase shift angle of the primary side inverter circuit unchanged; 2) taking the output power of the secondary side asan output variable, comparing the output power with a corresponding reference value, providing a comparison error for the optimized PI controller, and obtaining PI controller parameters in combinationwith a classical ZN setting method and a particle swarm intelligence algorithm; 3) generating a phase shift amount which should be generated by the secondary side output voltage of the system throughan amplitude limiting link, a gain link and the like, and adjusting the phase shift amount of the secondary side inverter output voltage of the system to be equal to the value; 4) comparing the output power of the system with the reference value again, and adjusting the actual phase shift amount to be equal to the value; and (5) repeating the steps (3) and (4) on the premise of ensuring that thephase difference between the output voltages of the inverters on the secondary side and the primary side of the system is fixed to be + / -90 degrees, and after a certain response time, ensuring that the system output tends to be stable.

Description

technical field [0001] The invention relates to a control method, in particular to a BD-WPT system power coordination control method based on PI controller optimization, and belongs to the technical field of circuit output control of a two-way wireless power transmission system. Background technique [0002] Wireless Power Transfer (WPT) is a technology that enables energy transfer without traditional physical connections. This technology transmits energy through special methods such as magnetic fields, effectively avoiding the problems of line wear and leakage when charging with traditional piles. Judging from the current research results, high-efficiency transmission of various power levels can be achieved in long-distance or short-distance applications. In addition, because wireless power transfer technology does not require a human-made physical interface, it also has better flexibility, convenience and safety when charging compared to traditional charging methods. Acc...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J50/10B60L53/12
CPCH02J50/10B60L53/12Y02T10/72
Inventor 谭林林解蕙茹王若隐黄学良
Owner SOUTHEAST UNIV
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