JPS6252619A - Battery backup system - 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 of the Invention] The present invention relates to data protection in IC memory devices and the like during power outages, and particularly to a battery backup system capable of retaining data for a long period of time.

[Background of the invention]

Conventionally, rechargeable secondary batteries have been mainly used as a backup power source for IC memory devices and semiconductor disk devices during power outages, and if the main power source is available, the secondary batteries can be charged and Power is supplied to the memory, and when the main power supply is unavailable due to a power outage, etc., the memory contents are retained by the secondary battery. FIG. 3 shows a known backup circuit using a secondary battery. (Nippon Electric (
NECIC Memory Data Book D-358 published by Co., Ltd.
7) In this example, a voltage drop in the main power source is detected by the diode D2, and the backup secondary battery is used. In this case, if a secondary battery that has been stored for a long period of time is used, the secondary battery will be completely discharged and cannot function as a backup power source. In addition, if the charging time is short, it is possible to use a primary battery, although it is not rechargeable, in order to eliminate the shortcoming of the backup available time being short. In particular, thionyl chloride/
It is known that lithium batteries are effective in terms of storage stability, safety, etc. However, it is known that when a primary battery is discharged after being left for a long time, an instantaneous drop in voltage occurs as shown in FIG. The minimum voltage at this time is about 1.5V, while the minimum guaranteed voltage for memory data retention is usually about 2■, so there is a possibility that the memory contents will be destroyed when switching the backup power supply. Conventionally, in devices using this type of primary battery, a method has been adopted in which the memory is always supplied with power from the primary battery, regardless of whether or not the main power supply is available.

[Purpose of the invention]

An object of the present invention is to provide a battery backup method that can eliminate the effects of voltage drop when providing stable backup over a long period of time by using a backup battery only when the main power supply is unavailable. There is a particular thing.

[Summary of the invention]

In order to achieve the object of the present invention, in the present invention.

By discharging the backup power supply before switching from the main power supply to the backup power supply, and switching from the main power supply to the backup power supply when the voltage stabilizes after the voltage drop phenomenon ends, memory content destruction at the time of switching can be prevented. It is characterized by the fact that it is possible.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to FIGS. 1 and 2. FIG. 1 shows a discharge circuit and a power supply switching circuit used in implementing the present invention, and FIG. 2 is a timing chart of signals for controlling this circuit. First, in FIG. 2, the signal PAVL -N is a reset signal generated when the main power is turned on or off, and the signal PAVL -N is a reset signal generated when the main power is turned on or off.
p is a power outage warning signal, -PAVL when the main power is turned off.
This is a signal generated before the N signal. Further, the generation circuits for the POP-P and PAVL-N signals are well known and are not directly related to the present invention, so a detailed explanation will be omitted. Also Po
t)-P may be a main power supply voltage drop detection signal. Now, considering the time when the main power supply is cut off, at time t1 when the power failure warning signal pop-p is output, PAVL -N is at Low level, so it is inverted by transistor Q1, and the cathode side potential of diode D8 becomes High level. . Therefore, by the AND circuit consisting of diodes Da and D4,
The point is at a light level. As a result, transistor Qz is turned on and primary battery B is discharged through R1.

This discharge causes the PAVL-N signal to change to l(ig) at time t2.
This continues until the h level is reached. Further, at this time, since the main power source still maintains a normal potential, no current flows from the main power source to the resistor R1 due to the diode Dz.

Next, after the primary battery B has discharged for (t2-tt) time, the main 17Xffi voltage decreases and becomes 3V or less, and the diode D1 stops power supply from the main power supply to the RAM.
Power is supplied from the primary battery B to the RAM, and a backup operation is performed. Additionally, it is generally necessary to inhibit read/write access to the RAM using the POP-P signal.

The above is the operation of discharging and switching the power supply, but since the time from the start of discharge to the constant voltage (3V) in Figure 3 changes depending on the battery used and the resistance value of the discharging resistor R1, The discharge time (tz-tt) needs to be changed according to the above. In addition, in this embodiment, the discharge control signal [present] is the logic A of PAVL-N and POP-P.
Although it is generated from N
A signal serving as a level may also be created.

According to this embodiment, the voltage drop phenomenon at the start of discharging of a thionyl chloride/linium battery can be forcibly started before the backup is actually performed, so the voltage is stabilized when the backup power source is switched, and the RAM can prevent content destruction.

[Effects of the Invention] According to the present invention, it is possible to start discharging the primary battery before switching to the backup power source, so that even a primary battery that suffers from a voltage drop can be used as a backup power source without causing damage to the contents of the RAM. can.

[Brief explanation of drawings]

Fig. 1 is an example of a battery backup circuit using the present invention, Fig. 2 is a time chart of control signals necessary for the battery backup circuit, and Fig. 3 is a known battery backup circuit using a secondary battery. FIG. 4 is a diagram showing a voltage drop phenomenon of a thionyl chloride/lithium battery. D1-D4...Diode, Q1-Q2...Transistor. R1...Resistance for discharge.

Claims (1)

[Claims] 1. In a battery backup method in which a primary battery is used as a backup power source when the main power supply voltage drops, and the main power supply is switched from the main power supply to the backup power supply by the voltage drop detection signal of the main power supply, the voltage of the main power supply is changed by the voltage drop detection signal. A battery backup method characterized in that when a drop is detected, the primary battery is discharged through a pseudo load circuit provided separately from the target to be backed up, and then the power source is switched from the main power source to the primary battery.