JP2002320390A - Power storage apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the technique for simplifying an initial charging circuit in the power storage apparatus linked with a commercial power supply system. SOLUTION: An initial charging circuit for initially charging a main smoothing capacitor is connected to the DC side of a sine-wave converter, and is configured for the common use to a plurality of phases or a plurality of line-to-line voltage of the commercial power supply system.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power storage device having a secondary battery in a power storage means and used in cooperation with a commercial power supply system.

[0002]

2. Description of the Related Art Conventionally, a power supply device using AC / DC conversion means such as a sine wave converter is used as a power storage technology linked to a commercial power supply system. In a sine wave converter, the inrush current flowing through the smoothing capacitor at start-up may cause damage to the converter element, blow the input side fuse, trip the main switch, etc. Initial charging is performed. For example, Japanese Patent Application Laid-Open No. 8-331870 describes a configuration in which two initial charging circuits are provided on the AC side of a three-phase bridge circuit (equivalent to a sine wave converter) in accordance with the number of phases.
JP-A-6-46571 discloses an initial charging circuit for a smoothing capacitor for smoothing a rectified output to be supplied from a rectifier for a main power supply to a voltage-source inverter. The configuration provided between them is described. In each case, the capacitor is initially charged with the power obtained by rectifying the alternating current in the commercial power system.

[0003]

Problems to be Solved by the Invention Japanese Patent Application Laid-Open No. 8-33187
In the configuration described in Japanese Patent Application Publication No. 0-203, a large number of initial charging circuits and a large number of circuit components are required. Further, as a power storage system for charging and discharging between a commercial power supply system and a secondary battery, a DC / DC converted When a step-up / step-down converter is provided to eliminate the potential difference between the voltage and the secondary battery voltage, it becomes difficult to charge a smoothing capacitor provided between the step-up / step-down converter and the secondary battery. Also, Japanese Patent Application Laid-Open No. 6-46
Regarding the configuration described in Japanese Patent Application Laid-Open No. 571, if an attempt is made to configure a power storage system with this configuration, measures such as adding an initial charging circuit or providing a switching circuit are required. The problem of the present invention, in view of the prior art,
(1) The initial charging circuit having a simple configuration with a small number of parts can support multiple phases of a commercial power supply system. (2) Even in the case of a configuration provided with a buck-boost converter, it is not necessary to add an initial charging circuit. , Etc. An object of the present invention is to provide a technique capable of solving such a problem.

[0004]

In order to solve the above-mentioned problems, according to the present invention, (a) an initial charging circuit is connected between a smoothing capacitor and a secondary battery. (B) Perform initial charging using the battery voltage. (C) When a step-up / step-down converter for eliminating a potential difference between the DC voltage after the AC rectification and the secondary battery voltage is provided, the initial charging circuit is connected between the converter and the secondary battery. . If a smoothing capacitor is connected between the two, an initial charging circuit is connected between the smoothing capacitor and the secondary battery. Specifically, (1) an initial charging circuit that initially charges a smoothing capacitor is connected to the DC side of the sine wave converter as a power storage device that includes a sine wave converter and a secondary battery and can be linked to a commercial power system. And is shared by a plurality of phases or a plurality of line voltages of the commercial power supply system. (2) As a power storage device that includes a sine wave converter and a secondary battery and that can be linked to a commercial power supply system, an initial charging circuit that can initially charge a smoothing capacitor with the power of the secondary battery is provided. (3) In the above (2), the initial charging circuit is connected between the smoothing capacitor and the secondary battery. (4) An initial charging circuit for initially charging a smoothing capacitor is connected between the smoothing capacitor and the secondary battery as a power storage device including a sine wave converter and a secondary battery and capable of linking with a commercial power supply system; The configuration is such that it is shared by a plurality of phases or a plurality of line voltages of the commercial power supply system. (5) As a power storage device including a sine wave converter and a secondary battery, which can be linked to a commercial power supply system, a buck-boost converter for raising and lowering a DC voltage is connected between the sine wave converter and the secondary battery, and is smoothed. An initial charging circuit for initial charging the capacitor for use is connected between the buck-boost converter and the secondary battery, and is commonly used for a plurality of phases or a plurality of line voltages of the commercial power supply system. And (6) In any one of the above (1) to (5), the initial charging circuit has a configuration in which a switch element or a unidirectional current-carrying element and a resistor are connected in series.

[0005]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a conceptual diagram of a power storage system using the power storage device of the present invention. In FIG. 1, 1 is a commercial power supply system, 2 is a load, 3 is a converter, and 4 is a converter 3.
A smoothing capacitor 5 for smoothing the DC output of the first embodiment, an initial charging circuit 5 for forming a current path for initially charging the smoothing capacitor 4, and a secondary battery 10 as a storage means. In such a configuration, when the load is light, the AC power from the commercial power supply system 1 is converted into DC power by the converter 3 and further smoothed by the smoothing capacitor 4 and supplied to the secondary battery 10 for storage. The smoothing capacitor 4 uses an initial charging circuit 5 in advance to prevent an inrush current.
Initially charge with 0 current. Further, at the time of a heavy load or a power failure of the commercial power supply system 1, the DC power is converted from the secondary battery 10 into AC power by the converter 3 and supplied to the load 2. With the power storage system configured as described above, it is possible to achieve leveling of supplied power by reducing voltage fluctuations in the commercial power supply system, and to reduce contracted power on the power-supplied side and to respond to power outages in the commercial power supply system. Becomes

FIG. 2 is a diagram showing a first embodiment of the present invention. In FIG. 2, reference numeral 11 denotes a three-phase AC power supply serving as a commercial power supply system;
3a, 13b, 13c are AC reactors, 14 is IGB
Sine wave converter with T and diode connected in anti-parallel, 1
5 is a smoothing capacitor, 16 is an initial charging circuit forming a path of a charging current for initially charging the smoothing capacitor, 17 is a resistor, and 18 is connected in series with the resistor 17 in the initial charging circuit 16. A charging switch 10 is a secondary battery as a power storage means, and 19 is a bypass switch connected in parallel to the initial charging circuit 16 to turn on / off the connection of the initial charging circuit 16. In this embodiment, the main switch 12, the AC reactors 13a, 13b, 13c, the sine wave converter 14, the smoothing capacitor 15,
A power storage device is configured including the initial charging circuit 16, the secondary battery 10, and the bypass switch 19. In the power storage device having such a configuration, when the charging switch 18 for initial charging is turned on, a current for charging the capacitor flows from the secondary battery 10 via the resistor 17, and charges the smoothing capacitor 15. Therefore, no rush current flows through the smoothing capacitor 15. At this time, the bypass switch 19 is turned off, and the sine wave converter 14 is not driven. When the smoothing capacitor 15 is initially charged, the bypass switch 19 is turned on and the charging switch 18 is turned off. Next, the sine wave converter 14 generates a three-phase AC synchronized with the commercial power supply system 11 via the AC reactors 13a to 13c by a high-frequency PWM signal from a control unit (not shown). Thereafter, main switch 12 is turned on, and the power storage device is linked to commercial power supply system 11. In the linked state, the sine wave converter 14 functions as a bidirectional converter, and converts the AC power of the commercial power supply system 11 to DC to charge the secondary battery 10 when charging the secondary battery 10, and charges the secondary battery 10. When the battery 10 is discharged, the DC power of the secondary battery 10 is converted into AC and the AC power is regenerated to the commercial power supply system 11 side. In the linked state, as described above, the bypass switch 19 is turned on, the charging switch 18 is turned off, and the initial charging circuit is disconnected from the charging / discharging system. Therefore, there is no power loss in the resistor 17 due to the charging / discharging current, which leads to a reduction in power consumption of the power storage device.

According to the first embodiment, it is possible to provide (1) a power storage device in which an initial charging circuit having a simple configuration with a small number of components is shared between a plurality of phases or a plurality of lines of a commercial power supply system. (2) Cost reduction, size reduction, reliability improvement, and the like of the power storage device can be achieved. (3) The power consumption of the power storage device can also be reduced.

FIG. 3 is a diagram showing a second embodiment of the present invention. In FIG. 3, reference numeral 20 denotes a single-phase three-wire AC power supply as a commercial power supply system for supplying a voltage of 100 V / 200 V through U, V, and N-phase electric paths; Sine-wave converters 24a, 2a configured as a single-phase bridge circuit connected in anti-parallel.
4b are connected in series with each other to divide the DC potential,
The middle point is connected to the neutral line N of the single-phase three-wire type AC power supply 20 and has a main capacitor for smoothing which is set to the reference potential.
Reference numeral 5 denotes a buck-boost chopper (buck-boost converter) in which an IGBT and a diode are connected in anti-parallel, 26 denotes a DC reactor for smoothing, and 27 denotes a capacitor for smoothing. In addition, the same parts as those of the first embodiment shown in FIG. 2 are denoted by the same reference numerals as those in FIG. In the second embodiment shown in FIG. 3, the main switch 12, the AC reactors 22a and 22b, the sine wave converter 23, the main capacitors 24a and 24b for smoothing, the step-up / step-down chopper 25, and the DC reactor for smoothing 26, the smoothing capacitor 27, the initial charging circuit 16, the secondary battery 10, and the bypass switch 19 constitute a power storage device. In the power storage device having such a configuration, when the charging switch 18 for initial charging is turned on, a current for charging the capacitor flows from the secondary battery 10 via the resistor 17, and charges the smoothing capacitor 27. The smoothing main capacitors 24a and 24b are charged through the smoothing DC reactor 26 and the unit diode Dp of the step-up / step-down chopper 25. Therefore, no rush current flows through the smoothing capacitor 27 and the smoothing main capacitors 24a and 24b.
At this time, the bypass switch 19 is turned off, and the sine wave converter 23 is not driven. When the smoothing capacitor 27 and the main capacitors 24a and 24b for smoothing are initially charged, the bypass switch 19 is turned on and the charging switch 18 is turned off. In this state, in response to a signal from a control unit (not shown), the step-up / step-down chopper 25 gradually increases the voltage between both ends P and N of the smoothing main capacitors 24a and 24b to a predetermined value while limiting the current. The sine wave converter 23 generates a single-phase AC synchronized with the commercial power supply system 20 via the AC reactors 22a and 22b.
Thereafter, main switch 12 is turned on, and the power storage device is linked to commercial power supply system 20. In the linked state, the sine wave converter 23 and the buck-boost chopper 25 function as a bidirectional converter. That is, the secondary battery 10
During charging, the sine wave converter 23 converts the AC power of the commercial power supply system 20 to DC, and the buck-boost chopper 25 steps down the DC so that the secondary battery 10 is charged. When the secondary battery 10 is discharged, the DC power of the secondary battery 10 is boosted by the step-up / step-down chopper 25, and the boosted DC power is converted to AC by the sine wave converter 23, and the converted AC power is Regeneration is performed on the commercial power supply system 20 side. Also in the configuration of the second embodiment, when the power storage device is operating, as described above, the bypass switch 19 is turned on, the charging switch 18 is turned off, and the initial charging circuit is disconnected from the charging / discharging system. Therefore, there is no power loss in the resistor 17 due to the charging / discharging current, which leads to a reduction in power consumption of the power storage device.

According to the second embodiment, (1) an initial charging circuit having a simple configuration with a small number of parts is shared, and it is possible to cope with a plurality of phases or a plurality of line voltages of a commercial power supply system. (2)
It is also possible to reduce the cost, reduce the size, and improve the reliability of the device. (3) The power consumption of the power storage device can also be reduced. (4) The charge voltage supplied to the secondary battery and the discharge voltage from the secondary battery can be managed in a variable state by the step-up / step-down chopper 25, so that it can be linked with the commercial power supply system with a high degree of freedom.

In the above embodiment, a description has been given of the case of a three-phase AC power supply and the case of a single-phase three-wire AC power supply. However, the present invention is not limited to this. Good.

[0011]

According to the present invention, an inrush current of a capacitor can be prevented by a simple initial charging circuit, and a highly reliable power storage device can be provided.

[Brief description of the drawings]

FIG. 1 is a conceptual diagram of a power storage system using a power storage device of the present invention.

FIG. 2 is a diagram showing a first embodiment of the present invention.

FIG. 3 is a diagram showing a second embodiment of the present invention.

[Explanation of symbols]

12 ... Main switch 14, 23 ... Sine wave converter,
4, 15, 27 ... smoothing capacitor, 24a, 24
b: main capacitor for smoothing, 5, 16: initial charging circuit, 17: resistor, 18: charging switch, 19:
Bypass switch, 10 ... secondary battery, 13a, 13b, 1
3c, 22a, 22b: AC reactor, 25: Step-up / step-down chopper.

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Noriyoshi Miyajima 800 Tomita, Ohira-cho, Shimotsuga-gun, Tochigi Pref.

Claims (6)

[Claims] 1. A power storage device having a sine wave converter and a secondary battery, which can be linked to a commercial power supply system, wherein an initial charging circuit for initially charging a main capacitor for smoothing is provided.
A power storage device which is connected to the DC side of the sine wave converter and is shared by a plurality of phases or a plurality of line voltages of the commercial power supply system. 2. A power storage device comprising a sine-wave converter and a secondary battery, which can be linked to a commercial power system, comprising an initial charging circuit capable of initially charging a smoothing capacitor with the power of the secondary battery. Characteristic power storage device. 3. The power storage device according to claim 2, wherein said initial charging circuit is connected between said smoothing capacitor and said secondary battery. 4. A power storage device comprising a sine wave converter and a secondary battery, which can be linked to a commercial power supply system, wherein an initial charging circuit for initially charging a smoothing capacitor is provided between the smoothing capacitor and the secondary battery. A power storage device, characterized in that the power storage device is connected to the common power supply system and is shared by a plurality of phases or a plurality of line voltages of the commercial power supply system. 5. A power storage device comprising a sine wave converter and a secondary battery, which can be linked to a commercial power supply system, wherein a step-up / down converter for raising and lowering a DC voltage is provided between the sine wave converter and the secondary battery. An initial charging circuit for initially charging the smoothing capacitor is connected between the buck-boost converter and the secondary battery, and is shared by a plurality of phases or a plurality of line voltages of the commercial power supply system. A power storage device characterized by such a configuration. 6. The power storage device according to claim 1, wherein said initial charging circuit has a configuration in which a switch element or a unidirectional current-carrying element and a resistor are connected in series.