JPH0755629Y2 - Electronics - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a battery-driven electronic device.

(B) Conventional Technology Recently, in electronic devices such as word processors and personal computers, battery-powerable and portable devices have been developed. Since the life of the battery limits the use of the device when the battery is driven, For example, as disclosed in Japanese Utility Model Laid-Open No. 63-56429, the battery capacity is monitored and the operator is informed that the battery capacity will decrease due to use. That is, a voltage value (point A) for notifying that the battery capacity has decreased as shown in FIG. 2 based on the discharge characteristics of the battery.
Then, the comparator detects the voltage value (point B) immediately before the device becomes unusable at the end of discharge and notifies it.

(C) Problems to be Solved by the Invention By the way, in some recent electronic devices, a user can select and use a battery pack of his or her choice depending on the usage situation. That is, a person who drives the battery for a long time can use a battery with a large capacity, and a person who drives the battery only for a short time can select and use a battery with a small capacity. In the comparator for detection, the detection voltage is set based on the discharge characteristic of any battery, so that there is a problem that accurate detection cannot be performed when different batteries are connected.

(D) Means for Solving the Problems The present invention is an A / D that converts the voltage value of a battery into digital data.
D converter, means for inputting data on connected battery, means for pre-storing data on connectable battery, corresponding data selected from storage means based on input data and output of A / D converter The control means is configured to control so as to monitor the battery capacity based on the above.

(E) Operation Since the present invention is configured as described above, the control means selects the data corresponding to the connected battery from the storage means and monitors the battery capacity based on the output of the A / D converter.
Even if the connected battery is changed, the battery capacity can be accurately detected.

(F) Embodiment An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows the configuration of a personal computer. (1)
Is a control circuit configured by a microprocessor, which controls the overall control according to a program in a program memory (2) in which a processing program is stored in advance. (3) inputs various commands and processing data to the control circuit (1). The input device is composed of keys such as numbers and alphabets.
Reference numeral (4) is a display device for displaying data input from the input device (3) or data processed by the control circuit (1), and is composed of a liquid crystal display. (5) is a data memory in which the data input from the input device (3) or the data processed by the control circuit (1) is written, and data is written and read under the control of the control circuit (1). Be done. A floppy disk device (6) stores data, and data is written and read under the control of the control circuit (1).

(7) is a power supply circuit that supplies a drive voltage (Vcc) to the device, and is composed of a terminal (8) to which an AC adapter is connected and a secondary battery (9). Reference numeral (10) is an A / D converter supplied with a drive voltage from the power supply circuit (7), which converts the drive voltage value into digital data and supplies the digital data to the control circuit (1).

In the program memory (2), a plurality of data at points A and B shown in FIG. 2 corresponding to the connected battery are stored in advance.

Next, the operation of the present invention having such a configuration will be described.

First, when the device is used for the first time, the data indicating the type of the battery to be used is input from the input device (3) in the setting mode prior to use, and the control circuit (1) which has detected the data responds from the program memory (2). The data at points A and B relating to the battery are read out and set in a predetermined area of the data memory (5). The data memory (5) is always backed up, and the set data is retained even in the unused state.

When the equipment is used there, the control circuit (1) will be A / D
The voltage of the battery (9) is monitored by fetching the output of the converter (10) and comparing it with the data set in the data memory (5). As a result, the control circuit (1), which has detected that the battery (9) has been discharged and the battery voltage has dropped to point A, informs the operator by displaying that the battery capacity has dropped on the display device (4). Further, the control circuit (1), which has detected that the battery voltage has dropped to point B due to further discharge, displays on the display device (4) that the battery will soon become unusable and the operator will be alerted. To do.

Even when the power switch (not shown) is turned off after use, the data about the battery used is retained in the data memory (5). If the power switch is turned on the next time it is used, the control circuit (1) is a data memory (5)
Since the battery capacity is monitored in the same manner as described above on the basis of the above data, the operator does not need to perform any operation unless the battery type is changed once the battery capacity is initially set.

However, if the battery (9) is changed, such as by replacing it with a battery with a larger capacity, input the data on the battery to be used from the input device (3) and select it from the program memory (2) as described above. Data memory (5). This allows the control circuit (1) to perform control according to the changed battery.

In the above-described embodiment, the operator is instructed to detect the voltage values at two points, but since the data on the battery voltage is output from the A / D converter, the control circuit (1)
By appropriately processing the data with, the display device (4) displays the remaining capacity ratio with respect to the capacity at the time of full charge, and the discharge characteristics such as the discharge rate are displayed in a graph so that the operator can clearly display the battery capacity. It is possible to inform the situation.

(G) Effect of the Invention As described above, the electronic device of the present invention is configured such that data regarding usable batteries is stored in advance and data corresponding to the actually used batteries is selected and controlled. Thus, even if the battery is changed, it is possible to accurately perform control according to the used battery.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of an electronic device of the present invention, and FIG. 2 is a characteristic diagram showing discharge characteristics of a battery. (1) ... Control circuit, (2) ... Program memory, (3)
Input device, (4) ... Display device, (5) ... Data memory, (7) ... Power supply circuit, (9) ... Battery, (10) ... A / D converter.

Claims (1)

[Scope of utility model registration request] 1. An electronic device driven by a battery, comprising: an A / D converter for converting a voltage value of the battery into digital data; and a means for preliminarily storing respective discharge characteristic data corresponding to various batteries having different discharge characteristics. Means for inputting data specifying a battery to be connected, and discharge characteristic data of the battery specified by the data input from the input means, read from the storage means, and the read data and
An electronic device comprising: a control unit that controls to monitor the battery capacity based on the output of the A / D converter.