JP2924093B2 - Portable equipment - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable device capable of detecting whether a power supply is a battery or an external power supply and automatically switching an operation state.

2. Description of the Related Art In recent years, miniaturized electronic circuits have made it possible to produce small-sized devices, and portable devices that can be carried with the diversification of life have been increasingly used. There has been a growing need for portable devices to have illumination for display so that they can be seen even in dark places, or to be able to easily charge batteries.

In the related art, there is an inconvenience that the battery is not distinguished from the AC adapter which is an external power supply device, so that it is not possible to determine whether or not the charging is completed because there is no lighting that consumes a large amount of current or there is no charging display. Alternatively, a special comparator had to be used to distinguish between a battery and an AC adapter by voltage, or the voltage of the AC adapter was set high to distinguish it from a battery.

Conventionally, to illuminate the display so that it can be seen even in a dark place or to display the charge so that the battery can be charged easily, it is necessary to distinguish between the battery and the AC adapter by voltage. As a first problem, it was necessary to use a comparator specially, which increased the cost.As a second problem, the voltage of the AC adapter was set high to distinguish it from the battery, so the amount of heat generated was large. There is a problem that the cost increases because parts having a high withstand voltage must be used.

Means for Solving the Problems In order to solve the first problem, as a first invention, a portable device is usually constituted by a comparator and a reference power supply for detecting that a battery is almost exhausted. Although it has an empty detection device, in order to distinguish between a battery and an AC adapter, a voltage switching means for switching a detection voltage is added to the empty detection device without using a comparator, and an external power supply detection device is provided. Configured.

Also, in order to solve the second problem, if the output of the external power detection device is output once as an external power during a predetermined time, it is determined that the external power is detected. Thus, a microcomputer is used to make it difficult for the AC adapter to malfunction even when the voltage of the AC adapter is relatively low.

Operation With this configuration, in the first invention, a comparator is not particularly used to distinguish between a battery and an AC adapter, and the first invention is configured by a comparator and a reference power supply to detect that the battery is about to end. An external power supply detection device is configured by adding voltage switching means to the empty detection device, and when the external power supply is detected, this switching means is switched and detected. it can.

Further, in the second invention, the microcomputer uses a microcomputer so as to determine that the external power supply is detected if the output of the external power supply detection device is output at least once during a predetermined time. With this configuration, even if the voltage of the AC adapter is relatively low, malfunction is unlikely, so that heat generation can be reduced, and the withstand voltage can be low, so that the configuration can be made at low cost. Further, when the power is turned on, it is possible to detect whether the power supply is a battery or an external power supply device, and if the power supply is an external power supply device, it is easy to turn on the lighting device or to operate the charging device to perform the charging display.

An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of one embodiment of the present invention, wherein 1 is a microcomputer as a logic device, 2 is a display device,
3 is an illumination device for illuminating the display device, 4 is a charging device, 5 is a comparator, 6 is a reference power source, 7 is a battery, 8 is an external power input terminal, Q1 and Q2 are transistors, R1, R2, R3 and R4.
Is a resistor, 9 is an empty signal, and 10 is an AC adapter detection command signal.

FIG. 2 is a flowchart of the microcomputer 1 in one embodiment of the present invention. FIG. 3 is an explanatory diagram of the second invention in the present invention.
Is a voltage waveform of the AC adapter, 33 is an empty detection voltage, and 34 is a threshold voltage between the battery and the AC adapter.

The operation of the portable device of the present embodiment configured as described above will be described below. First, when the power is turned on, the microcomputer 1 operates according to the flowchart of FIG.

First, in step 21, the AC adapter detection command signal 10 becomes L
And the transistor Q2 is turned off through the resistor R4.
Then, the voltage between the collector and the emitter of the transistor Q1 becomes a voltage expressed by VBE (R1 + R2) / R, which serves as a voltage switching means, and is set to about 1.3V. (VBE is the voltage D between the base and the emitter, about 0.65V) Next, at step 22, it is checked whether or not the empty signal 9 is L. The reference power source 6 is 2.2 V (33 in FIG. 3). If the voltage is 3.5 V (34 in FIG. 3) in addition to 1.3 V of the voltage switching means, the empty signal 9 is set to H by the comparator 5 if the voltage is lower than L (34 in FIG. become. If the power source is only battery 7 and nothing is connected to the external power input terminal, 2.4V to 3.
0V (31 in FIG. 3), the empty signal 9 becomes L
Go to step 23, repeat for 10mS, go to step 27. If the AC adapter is connected to the external power supply input terminal, as shown in FIG.
Since there is a time when the operation goes to step 24, 25, and 26, the lighting device 3 is turned on, the charging device 4 is operated, and the display device 2 indicates that the battery is being charged.

Next, in step 27, the AC adapter detection command signal 10 becomes H
Then, the transistor Q2 is turned on through the resistor R4 and the transistor Q1 is turned on through the resistor R3, so that the threshold value of the comparator 5 is 2.2V. Battery 7 if air amp signal is L in 28 steps
Since the voltage becomes low and cannot be used soon, an empty display is displayed on the cover device 2. Then move on to the next step.

As described above, according to this embodiment, it is possible to easily and inexpensively detect an external power supply by adding a voltage switching means to a comparator which is an empty detection device without using a comparator to distinguish between a battery and an AC adapter. The device was configured.

In addition, if the output of the external power supply detection device is output at least once within 10 mS, it is determined that the power supply is an external power supply using a microcomputer, and the voltage of the AC adapter is relatively low. Also, it is possible to use components with low heat generation and low withstand voltage because malfunction is hardly caused.

According to the present invention, an external power supply detecting device is simply and inexpensively constructed by adding a voltage switching means to a comparator of an empty detecting device without using a comparator to distinguish between a battery and an external power supply device. A portable device can be realized.

In addition, if the output of the external power supply detection device is output at least once during the predetermined time, it is determined that the external power supply is used. However, even if it is relatively low, it is difficult to malfunction, so that heat generation is small and components with low withstand voltage can be used. When the power is turned on,
Detects whether the power supply is a battery or an external power supply, and if it is an external power supply, the lighting device can be turned on, and the charging device can be operated to display an indication while charging, realizing a convenient portable device You can do it.

[Brief description of the drawings]

FIG. 1 is a block diagram of one embodiment of the present invention, FIG. 2 is a diagram showing a flowchart of the microcomputer 5 in one embodiment of the present invention, and FIG. 3 is an explanatory diagram of the second invention. 1 ... microcomputer, 2 ... display device, 3 ...
Lighting device, 4 ... Charging device, 5 ... Comparator, 6 ...
… Reference power supply, 7… Battery, 8 …… External power input terminal, Q
1, Q2: Transistor, R1, R2, R3, R4: Resistance.

Claims (4)

(57) [Claims] A portable device that can be used with both a battery and an external power supply, comprising: an empty detection device for detecting that the battery is about to be terminated; and an external power detection device for detecting whether the power supply is a battery or an external power supply. The empty detection device comprises a comparator and a reference power supply, and the external power supply detection device comprises a voltage switching means for switching the detection voltage of the comparator and the empty detection device, and switches the detection voltage by the voltage switching means. A portable device characterized in that the empty comparator in the empty detection device and the external power detection in the external power detection device are performed by the same comparator. 2. A portable device that can be used with both a battery and an external power supply, comprising: an external power detection device for detecting whether a power supply is a battery or an external power supply; and a logic device, wherein the logic device is the external power detection device. A portable device characterized in that, if an output indicating that it is an external power source is issued at least once during a predetermined time, the portable device is determined to be an external power source. 3. The portable device according to claim 1, wherein when the power is turned on, whether the power source is a battery or an external power supply is detected, and if the power is an external power supply, the lighting device is turned on. 4. The portable device according to claim 1, wherein when the power is turned on, whether the power source is a battery or an external power device is detected, and if the power is an external power device, the charging device is operated.