JPH01214236A - Battery charging control circuit - Google Patents

Abstract

PURPOSE:To simplify the circuit constitution of an apparatus and to reduce the power loss thereof, by controlling the power consumption of a shunt circuit through an error detector for detecting the error of a battery voltage detected by a battery voltage detector and a bus voltage. CONSTITUTION:When a battery voltage VBAT reaches a certain prescribed voltage, a battery voltage detector 6 operates to control a shunt circuit 3 via an error detector 4 according to the rise of said battery voltage and to increase the consumed power of said shunt circuit 3 to lower a bus voltage VBUS. Also, when a load power increases during a charge, the battery voltage VBAT lowers because a charging current decreases, and said shunt circuit 3 is controlled to diminish a consumed current. On the other hand, when the load power decreases, the shunt circuit 3 is controlled to increase said consumed current, because the charging current flowing to a battery 5 increases and the battery voltage goes up with the rise of said bus voltage VBUS.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a battery charging control system for use in a small power artificial satellite, and more particularly to a battery charging control circuit that prevents overcharging of a battery.

[Conventional technology]

The battery charging circuit used in conventional satellites is
As shown in FIG. 2, a shunt circuit 3 is connected to a bus voltage line 2 connected to a solar cell 1, and is configured to be controlled by an error detector 4. A battery charging circuit 11 is provided in the battery charging circuit 11, and the battery charging circuit 11 is configured to be controlled by a battery voltage detector 6. Note that 9 is a discharge diode and 10 is a load.

In this circuit, the voltage of the battery 5 is detected by the battery voltage detector 6 to control the battery charging circuit 11 to control the battery charging current to prevent overcharging of the battery. At the same time, the charging current is controlled by controlling the current consumption in the shunt circuit 3 using the charging current.

[Problem to be solved by the invention]

The conventional battery charging control circuit described above performs constant current control during the initial stage of charging the battery, and when the battery reaches a certain voltage, switches to constant voltage charging and decreases the charging current as the battery voltage increases. . Alternatively, a method is adopted in which the current is switched to a low current while maintaining constant current control. Further, when the charging current decreases, the shunt circuit consumes the decreased current, thereby controlling to prevent the bus voltage from increasing.

Therefore, with conventional circuits, it is necessary to control both the battery charging circuit and the shunt circuit, making the circuit configuration complex and compact even for small satellites with low power.

It becomes difficult to reduce weight. Further, problems such as increased power loss in the battery charging circuit have arisen.

An object of the present invention is to provide a battery charging control circuit with a simplified circuit configuration and reduced power loss.

[Means to solve the problem]

The battery charging control circuit of the present invention connects a shunt circuit that consumes power from a solar cell to a bus voltage line connected to a solar cell, a battery, and a load, and connects a battery voltage detected by a battery voltage detector to the bus voltage line. The configuration is such that the power consumption of the shunt circuit can be controlled by an error detector that detects an error with the voltage.

[Effect]

In the above-described configuration, the shunt circuit is controlled by the battery voltage to consume the power of the solar cell, and the bus voltage is lowered to reduce the battery charging current, thereby reducing power loss and preventing overcharging of the battery. .

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 shows an embodiment of a battery charging control circuit according to the present invention.

In FIG. 1, 1 is a solar cell, and a bus voltage va is applied to a load 10 and a battery 5 connected to a bus voltage line 2.
Outputs ns. 3 is a shunt circuit that consumes surplus power, and the amount of consumption thereof is controlled by the error detection amplifier 4. This error detection amplifier 4 receives the bus voltage ■. , and the battery voltage V BAT of the battery 5 detected by the battery voltage detector 6 . Also,
A current control resistor 7 with a resistance value R is provided between the bus voltage line 2 and the battery 5. A charging diode 8 and a discharging diode 9 are connected.

Next, the operation of the charging control circuit of this embodiment will be explained.

At the initial stage of charging, the battery 5 is charged with the voltage difference between the power generated by the solar cell 10 and the power consumed by the load 1°.

The charging current at this time is approximately (■.g VIAT)÷R
......(1). However, if the generated power is very large, the error detector 4 controls the shunt circuit 3 to cause the shunt circuit 3 to consume the excess power, reducing the bus voltage ■. 3 is controlled constant.

If the battery 5 is charged for a long time with the current shown in equation (1), it will be in an overcharged state, so when the battery voltage V□te reaches a certain specified voltage, the battery voltage detector 6 will operate and detect an error. The shunt circuit 3 is controlled through the device 4 in accordance with the rise in battery voltage, and the power consumption of the shunt circuit 3 is increased to lower the bus voltage v mus. Due to this control, the difference between the bus voltage v mus and the battery voltage ■□1 becomes small (becomes), and the charging current to the battery 5 decreases (
.

Furthermore, if the load power increases during charging, the charging current decreases, so the battery voltage (1), AT decreases, and the shunt circuit 3 is controlled so that the current consumption decreases. Conversely, if the load power decreases, the bus voltage VIL1
3, the charging current to the battery 5 increases and the battery voltage increases, so the shunt circuit 3 is controlled to increase the current consumption, and as a result, the shunt circuit 3 is controlled to decrease the charging current to the battery. Ru.

Therefore, the charging current of the battery 5 can be suitably controlled only by controlling the shunt circuit 3, and overcharging can be prevented.

(Effects of the Invention) As explained above, the present invention controls the shunt circuit to consume the power of the solar cell when the battery voltage exceeds a certain voltage, lowering the bus voltage and reducing the battery charging current. Since the battery charging circuit can be omitted, the circuit configuration can be simplified, making it smaller and lighter in weight.Also, since the conventional battery charging circuit can be omitted, power loss in the battery charging circuit can also be reduced. There is an effect that can be done.

[Brief explanation of the drawing]

FIG. 1 is a block circuit diagram of a charging control circuit according to an embodiment of the present invention, and FIG. 2 is a block circuit diagram of a conventional charging control circuit. 1... Solar cell, 2... Bus voltage line, 3...
Shunt circuit, 4... Error detector, 5... Battery, 6... Battery voltage detector, 7... Current control resistor, 8... Charging diode, 9... Discharging diode , 10...Load, 11...Battery charging circuit.

Claims (1)

[Claims] 1. Connect the shunt circuit that consumes the power of the solar cell to the bus voltage line connecting the solar cell, battery, and load, and detect the error between the battery voltage detected by the battery voltage detector and the bus voltage. A battery charging control circuit characterized in that the battery charging control circuit is configured to be able to control power consumption of the shunt circuit using an error detector.