Adjacent-Cell-to-Cell equalization circuit based on LCL resonant transformation and implementation method

A technology of resonant conversion and equalization circuit, which is applied in the direction of charge equalization circuit, circuit device, battery circuit device, etc. It can solve the problem that switching loss cannot achieve zero voltage difference equalization, and achieve the effect of overcoming zero voltage difference and high equalization efficiency

Active Publication Date: 2015-02-25
SHANDONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The equalization circuit of the present invention has high efficiency, large equalization current and simple control, and overcomes the problem of large switching loss and inability to achieve zero-voltage-difference equalization in traditional Cell-to-Cell equalization circuits

Method used

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  • Adjacent-Cell-to-Cell equalization circuit based on LCL resonant transformation and implementation method
  • Adjacent-Cell-to-Cell equalization circuit based on LCL resonant transformation and implementation method
  • Adjacent-Cell-to-Cell equalization circuit based on LCL resonant transformation and implementation method

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Embodiment

[0053] As shown in Figure 1, the microcontroller of the equalization circuit uses a digital signal processing chip DSP (TMS320F28335), which has high-precision AD sampling and PWM output; battery voltage. As shown in Figure 1(a), it is the overall model diagram of the LCL resonant module applied to the battery pack. Every two adjacent battery cells share an LCL resonant module. For a series battery pack composed of n battery cells, Shared to n-1 LCL resonant modules.

[0054] As shown in Figure 1(b), the LCL resonant module is applied to two adjacent battery cells B 0 and B 1 . The LCL resonant circuit consists of four MOS transistors M 1 -M 4 , four diodes D 1 -D 4 , two inductors L 1 , L 2 and a capacitor C. Among them, M 2 , M 4 source, D 2 、D 4 The positive pole is connected with B respectively 0 negative electrode (B 1 The positive pole) is connected; the inductance L 1 with B 0 connected to the positive pole, L 2 with B 1 connected to the negative pol...

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Abstract

The invention discloses an Adjacent-Cell-to-Cell equalization circuit based on LCL resonant transformation and an implementation method. The equalization circuit comprises a microcontroller, a plurality of LCL resonant transformation modules and single cell bodies. Every two adjacent single cell bodies share one LCL resonant transformation module. Each LCL resonant transformation module and the corresponding single cell bodies are connected with the microcontroller. According to every two adjacent single cell bodies with the higher voltage and the lower voltage respectively, the microcontroller sends a pair of PWM signals with the complementary states to corresponding MOS transistors of the LCL resonant transformation module, so that the MOS transistors work in the charging state and the discharging state alternately, and energy is transmitted from the single cell body with the higher voltage to the single cell body with the lower voltage. When the PWM frequency is equal to the LCL natural resonant frequency, zero-current switching equalization is achieved. The equalization circuit is high in efficiency, large in equalization current and easy to control, and the problem that a traditional Cell-to-Cell equalization circuit is large in switching loss, and cannot achieve zero-voltage-difference equalization is solved.

Description

technical field [0001] The invention relates to an Adjacent-Cell-to-Cell equalization circuit based on LCL resonance transformation and a realization method. Background technique [0002] The world is facing an unprecedented energy and environmental crisis, which has attracted worldwide attention. However, opportunities and challenges often coexist. The Energy Internet, characterized by the combination of renewable energy and the Internet, will give birth to the third industrial revolution. As one of the five pillars of the third industrial revolution, electric vehicles are widely welcomed by people for their energy saving and environmental protection, and have become the inevitable trend of future automobile development. Lithium-ion batteries are widely used as power sources in electric vehicles and hybrid electric vehicles due to their high energy density, low self-discharge rate and no memory effect. In practical applications, in order to obtain a higher voltage level,...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J7/00
CPCH02J7/0016
Inventor 张承慧商云龙王通崔纳新李泽元于广
Owner SHANDONG UNIV
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