JPS62166733A - Source circuit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a power supply circuit using a solar cell.

Conventional technology In a power supply circuit using a solar cell, if the load consumes a larger current than the current generated by the solar cell, and if it is not consumed continuously but intermittently, the charge Means for accumulating electric charge even while the load is not consuming power is used.

Problems to be Solved by the Invention However, when using the above-mentioned power source for the first time, it cannot be used immediately because no charge has been accumulated, and it takes some time for charging. I needed everything. It is also conceivable to use a means for accumulating electric charge in which the producer accumulates electric charge in advance and the user can use it immediately. However, it usually takes several days to several months for inventory and distribution to get from the producer to the user. During the inventory and distribution stages, the solar cells in the power supply circuit are hardly irradiated with light energy due to reasons such as being packaged. Therefore, the electric charge accumulated in advance by the producer also
Due to leakage current from the power supply circuit itself, load circuit, charge storage means, etc., leakage occurs during the above inventory and distribution period, and when the user wants to start using the product, it is not possible to supply sufficient power to the load. Furthermore, if the frequency of use of the load temporarily increases, charging cannot keep up with the increase in load, making it impossible to supply sufficient power to the load. There were also problems.

Means for Solving the Problems In order to solve the above problems, the present invention includes: a solar cell; a first diode connected to the solar cell in a forward direction with respect to the current generated by the solar cell; Solar cells and the first
A charge storage element is connected in parallel to a series circuit of diodes, and a series circuit of a battery and a second diode is connected in parallel to the charge storage element.

Operation The present invention, with the above-described configuration, can be used immediately even if there is a leak during distribution or inventory, and can stably supply power to the load even when the load is temporarily increased.

The embodiment diagram is a wiring diagram showing an embodiment of the present invention. 1 is a solar cell, 2 is a first diode, 3 is a charge storage element, 4 is a battery, 5 is a second diode, and 6 is a load.

The solar cell No. 1 uses silicon monocrystal, silicon polycrystal, amorphous silicon, sintered body of RidS/CdTe (product name: Sunceram 1.), etc., and uses light energy from direct or indirect sunlight or illumination light. Electricity R is irradiated by
occurs. The current generated in the solar cell 1 is supplied to the charge storage element 3 via the first diode 2 and is stored as a charge. The charge storage element 3 uses a secondary battery or a capacitor. As a secondary battery, carbon lithium (activated carbon is used for the positive electrode and lithium alloy is used for the negative electrode)
It is more effective to use one with a small leakage current, such as. The current generated by the solar cell 1 and the charge stored in the charge storage element 3 are supplied to a load 6. The load 6 does not consume all power continuously, but consumes power irregularly, and when the load 6 is not consuming power, the current generated in the solar cell 1 is transferred to the charge storage element 3. is accumulated in

Next, if the charge accumulated in the charge storage element 3 is discharged due to leakage during the inventory or distribution period, the solar cell 1
The battery 4 supplies power to the load 6 via the second diode 6 during the period until sufficient charge is accumulated in the charge storage element 3 after being irradiated with light energy. Therefore, even if you are trying to start using it for the first time,
Ready to use. Then, when the charge storage element 3 is charged by the current from the solar cell 1 and the terminal voltage of the charge storage element 3 becomes higher than the electromotive force of the battery 4, power is supplied to the loads etc. It is carried out from 3.

Furthermore, if the frequency of using the load 6 temporarily increases and the charging from the solar cell 1 cannot keep up with the power consumption of the load 6, and the terminal voltage of the charge storage element 3 decreases, the second Diode 5 becomes conductive, and power is supplied from battery 4 to load 6.

Note that the first diode 2 prevents the electric charge in the charge storage element 3 or the battery 4 from discharging through the solar cell 1 when the light energy irradiated to the solar cell 1 is low and the electromotive force decreases. fulfill one's role.

The second diode also serves to prevent the battery 4 from being charged.

Effects of the Invention As described above, according to the present invention, even if charge leaks during inventory or distribution, use can be started immediately without waiting for charging by the thick@N battery, and the use of the load can be reduced. It is extremely useful in practical terms because it allows stable co-supply of power to the load even when the power level increases temporarily.

[Brief explanation of drawings]

The figure is a wiring diagram showing an embodiment of the present invention. DESCRIPTION OF SYMBOLS 1... Solar cell, 2... First diode, 3... Charge storage element, 4... Battery, 6... First diode. Diode 2, 6...
load.

Claims (1)

[Claims] a solar cell that generates a current when irradiated with light energy; a first diode connected to the solar cell in a forward direction with respect to the current generated by the solar cell; and a connection between the solar cell and the first diode. A load having a charge storage element connected in parallel to a series circuit, and a series circuit of a battery and a second diode connected in parallel to the charge storage element, and connected in parallel to the charge storage element. A power supply circuit characterized by supplying power to.