JPS62152338A - Battery backup 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 Application] This invention relates to a battery backup circuit.

[Conventional technology]

Fig. 2 is a circuit diagram showing a conventional battery backup circuit. In Fig. 2, 1 is a connection for a load (not shown) such as a memory that requires constant power supply via a backflow prevention diode 2. A battery supplies power to the terminal Va, 3 is a backup capacitor connected in parallel with the series circuit of the battery 1 and the reverse current prevention diode 2 via a resistor 4, 5 is a charging circuit, and this charging circuit 5 is for backup. A transistor 6 as a switching element that causes charging current to flow through the capacitor 3, and a power supply voltage detection circuit 7.
The transistor 6 is connected to the output side of the power supply voltage detection circuit 7 via a base resistor 8 and is connected to the output side of the power supply voltage detection circuit 7 via a collector resistor 9.
The transistor 10 is connected to the pace of the transistor 10.

Next, the operation will be explained. Power is constantly supplied from the battery 1 and the backup capacitor 3 to a load (not shown) connected to the terminal VB. When a voltage is applied to the terminal Voo from the main power supply (not shown), this voltage is detected by the power supply voltage detection circuit 7, and the transistor 10 is made conductive by this detection output. When the transistor 10 becomes conductive, the transistor 6 becomes conductive, and the backup capacitor 3 is charged through the transistor 6t.

[Problem that the invention seeks to solve]

Since conventional battery backup circuits and circuits are configured as described above, when the battery 1 is replaced and the charge in the backup capacitor 3 has decreased due to power supply to the load, the power switch ( When a terminal Voo K voltage is applied by closing a terminal (not shown), an inrush charging current flows to the backup capacitor 3 (usually 0.1F to IF) via the transistor 6 of the charging circuit 5.

For this reason, the voltage applied to the terminal Voo and the output voltage of the main power source decrease abnormally, causing malfunction of a control IC such as a CPU connected to this main power source. Also, battery 1
Since the capacitor 3 constantly supplies power to the backup capacitor 3, there is a problem in that it affects the life of the capacitor 3.

This invention was made to solve the above problems, and provides a battery backup circuit that prevents excessive inrush charging current from flowing and also prevents power from being supplied from the battery to the backup capacitor. With the goal.

[Means for solving problems]

The battery backup circuit according to the present invention connects a backup capacitor in parallel with the battery via a charging prevention diode, and connects the backup capacitor between the connection point of the charging prevention diode and the backup capacitor and a power supply voltage application terminal. A diode for charging the capacitor is connected to the capacitor.

[For production]

The charging diode of this invention causes a charging current to flow to the backup capacitor immediately when the power supply voltage is applied, and the charging prevention diode prevents the backup capacitor from being charged by the battery. This prevents excessive inrush charging current from flowing and charging the battery, thereby preventing malfunctions of control ICs such as the CPU, and prolonging the usage period of the battery.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings. 1st
In the figure, the same parts as in FIG. 2 are given the same reference numerals,
Reference numeral 11 denotes a backup capacitor 3 between the power supply voltage application terminal Voa and the power supply side of the backup capacitor 3.
A charging diode 12 connected to supply charging current to the battery 1 prevents charging by the battery 1 between the connection point of the charging diode 11 on the power supply side of the backup capacitor 3 and the anode side of the battery 1. This is a charging prevention diode connected in this way.

When the battery 1 is replaced and a voltage is applied to the terminal Vao at the time when the charge in the backup capacitor 3 has decreased due to power supply to the load, the charge in the backup capacitor 3 is transferred via the charging diode 11. The voltage is raised simultaneously with the applied voltage. Then, in response to the detection output of the power supply voltage detection circuit 7, the transistor 10 becomes conductive.
When the transistor 6 is made conductive by this conduction, power is supplied to the load connection terminal VB through the transistor 6, but the supply of power to the backup capacitor 3 is blocked by the charging prevention diode 12.

Therefore, an excessive rush charging current does not flow to the backup capacitor 3, and no charging current flows from the battery 1 to the backup capacitor 3 either.

〔Effect of the invention〕

As described above, according to the present invention, since an excessive inrush charging current is prevented from flowing into the backup capacitor, it is possible to prevent the control IC such as the CPU from malfunctioning due to an abnormal drop in the power supply voltage. be able to. Additionally, depending on the battery, the backup capacitor is not charged, which has the effect of extending the life of the battery.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of a patch IJ-backup circuit according to an embodiment of the present invention, and FIG. 2 is a circuit diagram of a conventional battery backup circuit. 1 is a battery, 3 is a backup capacitor, 5 is a charging circuit, 6 is a switching element (transistor), 1
1 is a charging diode, and 12 is a charging prevention diode. In addition, in the figures, the same reference numerals indicate the same or corresponding parts. Patent Applicant: Mitsubishi Electric Corporation Fig. 1 L-=-+--, -J

Claims (1)

[Claims] A battery that supplies power to a load that requires constant power supply, a backup capacitor connected in parallel to the battery via a charging prevention diode, and a detection signal that detects that voltage is applied to the power supply voltage application terminal. A switching element that is made conductive to supply power to the load and a connection point between the power supply voltage application terminal and the charging prevention diode and the backup capacitor are connected so as to supply charging current to the backup capacitor. A battery backup circuit comprising: a charging diode; and a charging circuit having a charging diode.