JPH04168935A - Power supply - Google Patents

Abstract

PURPOSE:To prolong the supporting time through a secondary battery by charging the secondary battery through solar cells when charging operation is not conducted through an external power supply. CONSTITUTION:When an apparatus 1a is operated with solar beam or the light of a fluorescent light, power key on a keyboard 4 is depressed to connect a switch 4a so that power is fed from a secondary battery 6a and then data is processed, displayed and stored upon input operation of data. A data memory 9 storing the data is supported by the secondary battery 6a even upon turn OFF of the power key. Since solar cells 14a are connected with the secondary battery 6a during that interval, charging operation is effected so that reduction of storage due to discharge of the secondary battery 6a is compensated for.

Description

[Detailed Description of the Invention] [Summary] This power supply device is capable of extending the support time of the secondary battery, and relates to a power supply device that can be charged from a solar battery when the secondary battery is not being charged from an external power source. It is equipped with a solar battery that converts light energy into electricity, and a secondary battery that can be charged from an external power source via a charging means and from the solar battery. When not in use, the secondary battery is charged using a solar battery.

[Industrial application field]

The present invention relates to a power supply device that supplies power using a secondary battery, and particularly to a power supply device that can be charged from a solar battery when the secondary battery is not being charged from an external power source.

Recently, hand-held devices have been used for the purpose of grasping and collecting data at the point of occurrence in product management such as inventory of products in stores and supermarkets, route sales, external relations support work for financial institutions, and electric and gas examination services. portable terminal devices are widely used. In addition, compact and lightweight devices such as laptop personal computers and desk-type data input devices are becoming increasingly popular. Recently, these devices have been rapidly transitioning to thinner, round-shaped devices.

These devices are used to operate by connecting a cord to an external AC power source, and because they also need to be used in places where AC power is not supplied, many of them have a built-in secondary battery to operate the device. Regardless of which power source is used, the power from the secondary battery is used to support the data memory after the device is powered off.

Therefore, since the capacity of the secondary battery is limited, when the electromotive force decreases after a certain period of time, a charger of another unit is connected to charge the battery in preparation for reuse.

However, charging takes time and effort, and it is difficult to incorporate a high-capacity secondary battery due to the requirement for small size and light weight, so a method that can extend the support time of the secondary battery is desired.

[Conventional technology]

The conventional method will be explained using a handy terminal (hereinafter referred to as a device) used for product management such as inventory taking as an example. As shown in the perspective view of FIG. Display composed of liquid crystal (hereinafter referred to as LCD) 3. Power key, numeric keypad, calculation instruction key.

A keyboard 4 equipped with various buttons such as function keys such as soft keys for instructing programs, external devices such as a host computer (not shown), and a charger 12 to be described later.
Connector portions 5a and 5b to which a is connected are provided.

Further, a secondary battery 6a (indicated by a broken line in the figure) for power supply is inserted from the back side of the case 2 and is built-in.

In addition, in the control block diagram of FIG. 3(b), 7 is the CP
U, 8 is program memory, 9 is data memory.

1O is an arithmetic unit, and 11 is an interface unit. Further, 12a is a separate unit charger that charges the secondary battery 6a using an external AC power source 13a. 4a is a switch that is activated when the power is turned on using the power key of the keyboard 4.

Since it has such a configuration, a usage example will be explained next.

First, hold the device l in one hand and press the power key to connect the switch 4a, then input the product number and quantity, specify it with the calculation instruction keys, perform cumulative calculations, etc., and press the storage instruction key. is stored in the data memory 9 by pressing . At this time, the input data and calculation data are sequentially displayed on the LCD 5.

Alternatively, the program to be used is specified using the function keys of the keyboard 4, data is inputted from the numeric keypad, and the data is calculated by the calculation unit 10 and stored in the data memory 9. The data stored in the data memory 9 is later transmitted to the host computer via the interface section 11, for example, when the host computer is connected to the connector section 5a.

The above operations are performed by power supplied from the secondary battery 6a, and even after the device power is turned off, the data memory 9 in which data is stored is supported by the secondary battery 6a.

Then, when the amount of electricity stored in the secondary battery 6a decreases, that is, when it is used for a certain period of time (or when the battery warning lamp lights up, etc.)
connects the charger 12a to the external AC power source 13a and the connector portion 5b of the device 1 to charge the secondary battery 6a.

[Problem to be solved by the invention]

According to the above conventional method, when the storage capacity of the secondary battery decreases, it is charged from the AC power source using the condenser, but this takes time and effort, and also when there is no AC power source or when the operator is absent. Unable to charge. Moreover, as the amount of information 2 functions increases, the time required for battery support becomes longer, and incorporating a large-capacity secondary battery to satisfy the support time goes against the need for smaller size and lighter weight. There is a problem.

An object of the present invention is to provide a power supply device that can extend the support time by a secondary battery.

[Means to solve the problem]

FIG. 1 is a block diagram of the principle of the present invention.

In the figure, 12 is a charging means, 13 is an external power source, 14 is a solar battery that converts light energy into electric power, and 6 is a double battery that can be charged from the external power source 13 via the charging means 12 and from the solar battery 14. Next battery.

Therefore, when the external power supply 13 is not charging the secondary battery 6, the solar battery 14 is used to charge the secondary battery 6.

[Effect]

When the external power source 13 can be used, the secondary battery 6 is charged via the charging means 12, and when the external power source 13 is not used 9, for example when the external power source cannot be used outdoors, the secondary battery 6 is charged by the solar battery 14. By charging, it is possible to replenish the amount of electricity stored in the secondary battery 6, prevent a decrease in the amount of electricity stored, and extend the power supply time.

〔Example〕

An embodiment of the present invention will be explained with reference to FIG.

Charger 12a and AC power source 13a in FIG. 2 correspond to charging means 12 and external power source 13 in FIG. 1, respectively.

FIG. 2 shows a device 1a in which the present invention is applied to the device 1 described in the conventional example.

As shown in the perspective view of FIG. 2(a), a solar battery 14a is provided in front of the top surface of the device 1a.

In the control block diagram of FIG. 2(b), diodes 15 and 16 respectively prevent reverse current flow. Therefore, when the charger 12a is connected, the charger 12a is connected to the secondary battery 6.
a, and the solar battery 14a and charger 12a are in the same state as if they were not connected.

Having such a configuration and function, the AC power supply 13a
When the device 1a is operated under sunlight or fluorescent light without being connected to the power source, the switch 4a is connected by pressing the power key on the keyboard 4, and power is supplied from the secondary battery 6a. Operations such as data processing 1 indication and storage are performed by inputting data, etc., and the power key is turned OFF.
Even after the switch 4a is turned off, the data memory 9 in which data is stored is supported by the secondary battery 6a.

During this time, the solar battery 14a is connected to the secondary battery 6a, so that when the amount of stored power decreases due to discharge of the secondary battery 6a, it is charged to compensate for this decrease.

Therefore, when using the device 1a in a bright place or carrying it outdoors, there is no need to prepare the charger 12a.

Furthermore, after the power key is turned off, the power of the secondary battery 6a is consumed little by little due to the support of the data memory 9a.
Since the secondary battery 6a is used while being charged by the solar battery 14a under bright light, long-term support is possible.

Also, when the AC power source 13a can be used, the charger 12a
By connecting the charger 12a to the connector part 5b, the charger 12a
The secondary battery 6a can be charged by this.

Although the above example describes the case of a handy terminal, the present invention can be similarly applied to other small and lightweight devices such as a laptop personal computer, a laptop word processor, and a desktop data input device.

〔Effect of the invention〕

As explained above, according to the present invention, when the secondary power source is capable of charging with a solar battery and charging from an external power source via a charging means, when charging with an external power source is not performed,
Since the secondary battery can be charged by the solar battery, it is possible to prevent the storage capacity of the secondary battery from decreasing, and in particular, it is possible to extend the support time of data memory by the secondary battery when the device power is turned off. Furthermore, in places where light energy can be obtained, there is no need for charging means from an external power source.

[Brief explanation of drawings]

FIG. 1 is a block diagram of the principle of the present invention, FIG. 2 is a block diagram showing an embodiment of the present invention, and FIG. 3 is a block diagram showing a conventional handy terminal. In the figure, 1 and la are devices, 5a and 5b are connector parts, 6.6a is a secondary battery, 12 is a charging means, and 12a
13 is a charger, 13 is an external power source, 13a is an AC power source, 14.14a is a solar battery, and 15 and 16 are diodes. Mokiyamei's principle block enclosure 1 Diagram 2 (Part 1)

Claims (1)

[Claims] A solar battery (14) that converts light energy into electric power, and two batteries that can be charged from an external power source (13) via a charging means (12) and from the solar battery (14). A power supply device comprising: a secondary battery (6); when the external power supply (13) is not charging the secondary battery (6), the solar battery (14) charges the secondary battery (6).