JPH023815A - System for supervising life of battery - Google Patents

Abstract

PURPOSE:To permit a maintainer to easily exchange a battery and to improve maintenance and reliability by detecting the life of the battery with a micro processor electronic controller and executing alarm display. CONSTITUTION:The micro computer electronic controller 3 is provided with a micro computer 9 and a non-volatile memory 10, and calculates a difference from the manufactured date of the inputted battery 1 and a present date inputted from a clock circuit 7. Furthermore, the difference is detected to be more than the expected life of the battery 1, an alarm display circuit 11 is driven, and a peripheral circuit 4 to be controlled is controlled in accordance with a conventional application. When the expected life of the battery is arrived, the maintainer can easily exchange the battery and maintenance to improve reliability.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to an electronic control device using a microcomputer, and particularly to a storage battery life monitoring method thereof.

(Prior art) Conventionally, in a microcomputer type electronic control device,
Storage batteries have been used for clock circuits when the main power is turned off and for backing up volatile memory. Batteries have significantly poorer lifetime characteristics than other devices in microcomputer electronic control units.

For this reason, when used in devices that require a long life, a removable structure has been adopted so that the storage battery can be replaced when the expected life is reached.

(Problems to be Solved by the Invention) The conventional method of using a storage battery as described above is configured such that the storage battery can be replaced with a new one when the life of the storage battery is reached. However, maintenance personnel have to manage the lifespan of the storage battery and decide when to replace it accurately, making it a very burdensome task for maintenance personnel.

In addition, with electronic control devices that cannot be easily maintained, if a power outage occurs, there is a high possibility that the capacity will run out due to the lifespan of the storage battery, and in the worst case, the clock may stop or important memory data may be lost. There is a drawback that it is possible.

An object of the present invention is to provide a microcomputer electronic control device with a built-in clock circuit and a volatile memory, which can encode and output the manufacturing date, and which is equipped with a removable storage battery, and which is capable of encoding and outputting the manufacturing date input from the storage battery. The structure eliminates the above drawback by calculating the difference between the month and the current year and month input from the clock circuit, and displays an alarm when the expected lifespan of the storage battery is exceeded, making it easy to know the lifespan of the storage battery. The purpose of the present invention is to provide a storage battery life monitoring method.

(Means for Solving the Problems) The storage battery life monitoring system according to the present invention is constructed by fully equipped with a storage battery, an input buffer, a microcomputer, and an alarm display circuit.

Storage batteries are encoded with the manufacturing date and stored so that they can be output.

The input buffer 7 is for inputting the encoded manufacturing date when the storage battery is installed.

The microcomputer is used to calculate the difference between the manufacturing date inputted from the storage battery and the current date inputted from the clock circuit.

The alarm display circuit is for displaying an alarm when the difference exceeds the expected lifespan of the storage battery.

(Example) Next, one aspect of the present invention will be explained with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of a storage battery life monitoring method according to the present invention.

In FIG. 1, 1 is a storage battery, 2 is a main power supply, 3 is a microcomputer electronic control device, 4 is a controlled circuit, 5 is a power supply switching circuit, 6 is an input buffer, 7 is a clock circuit, 8 is a volatile memory, 9 is a microcomputer, 10 is a nonvolatile memory, and 11 is an alarm display circuit.

Since the storage battery 1 encodes and outputs the manufacturing date as a manufacturing date output means, the manufacturing date can be set by cutting/connecting the wiring, as shown in FIG. 2.

The month and year of manufacture is expressed in 8 bits, the upper 4 bits are the minus digit of the Western calendar expressed in hexadecimal, and the lower 4 bits are the month expressed in hexadecimal.

The storage battery 1 has a structure that can be attached to and detached from the microcomputer electronic control device 3 using a connector.

The microcomputer electronic control device 3 switches the power supply switching circuit 5 to the storage battery 1 when the main power supply 2 is cut off (OFF).
Power is supplied from the clock circuit 7 and the volatile memory 8. In this way, the clock circuit 7 and the volatile memory 8 are backed up by the storage battery l.

The microcomputer electronic control unit 3 has an input buffer 6 as a manufacturing date input means, and when the storage battery 1 is installed, the microprocessor 9 can read the encoded manufacturing date through the input buffer 6. It is possible. If the storage battery 1 is not installed, the manufacturing date is usually not set.

The microcomputer electronic control device 3 includes a microcomputer 9 and a nonvolatile memory 1°, and calculates the difference between the manufacturing date of the storage battery 1 input from the storage battery 1 and the current year and month input from the clock circuit 7. a driving means for detecting that the difference exceeds the expected life of the storage battery 1 and that the storage battery 1 is not installed and driving the alarm display circuit 11; A control means for controlling the control circuit 4 according to the original application is realized.

Since the non-volatile memory 10 has a built-in program,
The microcomputer electronic control unit 3 reads out the contents of the non-volatile memory 10 as a program and stores it in the volatile memory 8.
is used as a variable data registration area and a working area for each user, and the controlled circuit 4 is controlled according to the original application objective.

The microcomputer electronic control device 3 monitors the life of the storage battery 1 and can drive the alarm display circuit 11 when the expected life of the storage battery 1 has come.

(Effects of the Invention) As explained above, the present invention detects the lifespan of a storage battery using a microprocessor electronic control device and displays an alarm, thereby allowing a maintenance person to replace the storage battery without having to specially manage the lifespan of the storage battery. Furthermore, it is possible to display an alarm even when a storage battery is not installed, which has the effect of improving maintainability and reliability.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of a storage battery life monitoring method according to the present invention. FIG. 2 is an explanatory diagram showing a method of encoding the manufacturing date of the storage battery shown in FIG. 1 by connection/disconnection of wiring. 1...Storage battery 2...Main power supply 3...Microcomputer electronic control device 4...Controlled circuit 5
...Power supply switching circuit 6...Input buffer a...
Clock circuit 8 Volatile memory 9 Microcomputer 10 Non-volatile memory 11 Alarm display circuit Patent applicant NEC Corporation

Claims (1)

[Claims] A storage battery capable of storing and outputting the encoded manufacturing date; an input buffer for inputting the encoded manufacturing date when the storage battery is installed; and a manufacturing date input from the storage battery. and a microcomputer for calculating the difference between the current month and date inputted from the clock circuit, and an alarm display circuit for displaying an alarm when the difference exceeds the expected life of the storage battery. A storage battery life monitoring method featuring: