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Electricity-storage device provided with balancing circuit

A technology of balancing circuit and power storage group, applied in the field of power storage system, can solve the problems of increased charger loss and large size, etc.

Active Publication Date: 2014-08-27
JAPAN AEROSPACE EXPLORATION AGENCY +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The charger is also a DC-DC converter, so when charging in a wide voltage range, the loss of the charger will increase and the size will increase

Method used

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  • Electricity-storage device provided with balancing circuit
  • Electricity-storage device provided with balancing circuit
  • Electricity-storage device provided with balancing circuit

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0080] Figure 4 It is a circuit diagram of the electricity storage system of Example 1 of this invention. In this embodiment, in the capacitor module 109 formed by connecting m capacitor banks of the rated voltage Vc in series, n taps are provided for each capacitor unit composed of h capacitor banks, and the charger 112 is used to Voltage V in When fully charging the capacitor module including the balancing circuit 105 (voltage between both terminals=Vc×m), the case of m=100, n=51, and h=2 will be described as an example.

[0081] Here, the balance circuit is a circuit for correcting the unevenness of the charging and discharging states of the storage groups constituting the storage module, and can perform energy transfer between the storage groups during both charging and discharging, that is, Balancing action. Generally, there are methods using capacitors, coils, and transformers in balanced circuits, and various specific circuits are known (for example, refer to Patent...

Embodiment 2

[0090] Image 6 It is a circuit diagram of the electric storage system of Example 2 of this invention. In this figure, with Figure 4 Corresponding parts are denoted by the same reference numerals, and the description of the same parts as in Embodiment 1 is omitted.

[0091] The structure of Embodiment 1 is such that the high-potential side terminal 101 of the charger 112 is connected to each tap of the capacitor module 109 via the switch group 110. In contrast, the present embodiment connects the low-potential side terminal 102 and the capacitor module 109, set by S 1b to S 50b The switch group 111 formed. In this embodiment, according to the voltage detection result of the voltage detection circuit 106, the switch uses the switch control circuit 108 to S 1b , S 2b ,...,S 50b switch in sequence.

[0092] In the above embodiments, the operation of the balance circuit described is ideal, and the premise is that the voltage of each capacitor bank constituting the capacit...

Embodiment 3

[0095] Figure 8 It is a circuit diagram of the power storage system of Example 3 of the present invention. In this figure, with Figure 4 Corresponding parts are assigned the same reference numerals, and descriptions of the same parts as in Embodiment 1 are omitted.

[0096] The structure of Embodiment 1 is that the low potential side terminal 102 of the charger is directly connected to the ground wire 0 of the capacitor module 109. In contrast, in this embodiment, the low potential side terminal 102 is not directly connected to the ground wire 0 of the capacitor module 109. connected, but fixedly connected to the capacitor bank C 2 and C 3 the series connection point.

[0097] In this embodiment, according to the voltage detection result of the voltage detection circuit 106, the switch utilizes the switch control circuit 108 to set S 51a , S 50a ,...,S 3a Switch sequentially.

[0098] In the configuration of Example 1, at the end of the charging process, the switch S...

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PUM

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Abstract

The problem of the present invention is to uniformly utilize the power storage group during charging and discharging in the power storage system. In addition, the power storage pack is used uniformly at the time of charge and discharge, and fluctuations in the input voltage from the charger or the output voltage to the load are suppressed within an arbitrary range. The solution of the present invention is an electric storage system characterized by comprising: an electric storage module; a charger; a balancing circuit; a voltage detection unit; The other terminal of the module and / or one or more of the series connection points of the plurality of electric storage units are taken out through the switch; One terminal or the other terminal is connected; and in response to the progress of charging, the switches are sequentially switched according to the detection results of the voltage detection unit to control the number of power storage units to be directly charged from the charger.

Description

technical field [0001] The present invention relates to an electric storage system, which is characterized by comprising: a storage module, and electric storage units composed of one storage bank or a plurality of storage banks connected in series are connected in series a plurality of them; and a balance circuit connected to the power storage module. Background technique [0002] Capacitors (electric double layer capacitors, hybrid capacitors, and redox capacitors) have characteristics in which terminal voltages vary greatly depending on charge and discharge states, compared with conventional secondary batteries. In general, the operating voltage of each electronic device has a certain range, but if it is out of the operating voltage range, the operation may be unstable or not operate. Therefore, when using a capacitor with a large voltage fluctuation as a power source of electronic equipment, it is necessary to suppress the voltage fluctuation of the capacitor within a ce...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02J7/02H02J7/00H01M10/44
CPCH02J7/345H02J7/0019H01M10/44H02J7/0016Y02E60/10H02J7/00712
Inventor 鹈野将年久木田明夫伊藤和重关户谨
Owner JAPAN AEROSPACE EXPLORATION AGENCY