KR19980026910A - Remote control power supply - Google Patents

Abstract

The present invention relates to a remote control power supply.

Conventional remote control uses a battery as a power source, but the battery has to be replaced when discharged, as well as waste batteries have environmental problems.

The present invention is a device characterized in that the solar cell (SOLAR CELL) is configured as a means of the remote control power source to improve this problem.

A solar cell is a device that generates electric energy when it receives light, and charges and stores the generated electric energy by using an appropriate electric energy storage device such as a capacitor, and then uses the stored electric energy to operate a circuit of a remote controller. In order to prevent unnecessary consumption of the electric energy stored in the storage device in the circuit of the microcomputer when there is no electric energy generation in the solar cell, the power of the storage device is only pressed when the remote control button is pressed for the remote control operation. The remote control power supply device is implemented using a remote control circuit power disconnect switch configured to allow energy to be supplied to the circuit power.

Description

Remote control power supply

1 is an example of a general circuit configuration used in a conventional remote control device.

2 is an example of mounting the power battery in the conventional remote control device.

3 is an example of a remote control circuit configuration of a power supply device using a solar cell according to the present invention.

4 is an example of a solar cell mounted on a remote control case.

5 is an example of a two-line contact switch.

6 is an example of an embodiment specifically configured with a remote control power supply apparatus according to the present invention using the switch of FIG.

* Description of the symbols for the main parts of the drawings *

1: remote control button 2: microcomputer (command generator)

3: line 4: infrared radiation diode

5: switching transistor 6: power supply

7: dry cell 8: solar cell

9: electric energy charge storage capacitor

10 switch 11: remote control button device according to the present invention

In general, an electronic product uses a device (hereinafter referred to as a remote controller) for remotely controlling the operation of the product for convenience of use. The configuration of the remote controller is generally controlled by the user as shown in FIG. A command generator 2 (hereinafter referred to as a micom) consisting of a micro-controller (u-COM) or the like for generating an electronic device control command by the remote control button (1) used as a means for inputting a control command to a remote controller. ), A line (3) connecting the remote control button (1) and the microcomputer (2), an infrared ray emitting diode (4) and a microcomputer (2) output for remote wireless transmission of electronic device control commands output from the microcomputer (2). Is composed of a switching transistor 5 configured to control the infrared radiation diode 4 and a power supply 6 for supplying power to the above circuit devices.

And the power supply unit 6 of the remote control uses a battery (7) as in the example of FIG. 2, in the conventional power supply such as this, there is an inconvenience to replace it when the battery is discharged, and the waste battery is not recyclable It also has the problem of leaking harmful environmental pollutants.

The present invention is a device characterized in that the configuration using a solar cell (SOLAR CELL) as a means of the power supply device to improve such problems with the conventional remote control power supply device, the configuration and operation thereof are as follows.

3 is an example of a remote control circuit using a power supply device constructed in accordance with the present invention, the remote control button 1 and the microcomputer 2 and the line 3 connecting them, and the infrared radiation diode 4 and the switching transistor 5 The interconnect configuration method is the same as in the conventional apparatus.

However, the power supply device is constructed using the solar cell 8, and the positive terminal of the solar cell 8 is connected to the positive terminal of the condenser 9, and the negative terminal of the solar cell 8 is connected. The negative terminal of the condenser 9 is connected to the common terminal (or earth terminal) of the microcomputer 2 and the switching transistor 5 together, and the method of mounting the solar cell 8 to the remote control is a solar cell ( 8) to the remote control case as shown in Figure 4 so that the light can be received properly.

The positive terminal of the capacitor 9 for charging and storing the electrical energy generated by the solar cell 8 is connected to the power terminals of the microcomputer 2 and the infrared radiation diode 4 via a switch 10. (9) is configured to use the electric energy charged and stored as a power source for these circuit devices (2), (4), the switch 10 is a condenser connected a and b only when the remote control button (1) is pressed The electric energy of (9) is supplied to the circuit devices 2 and 4, and when the button 1 is not pressed, a and b are separated so that the electric energy is not supplied to the circuit device. The operation of the apparatus is performed as follows.

The solar cell 8 is a device that generates electric energy when it receives light, and the electric energy capacity that can be generated in the device depends on the density of the cells constituting the solar cell. The capacity of the solar cell has a size that can be effectively mounted on the remote control case as shown in the example of FIG. 4, and the battery energy required to operate the remote controller without abnormal conditions in actual use conditions, for example, about 3V × 10mA of electricity. Use something that generates energy.

The electric energy stored in the electric energy condenser 9 generated by the solar cell 8 is charged and used as the driving power of the circuit devices 2 and 4, and the condenser 9 is formed by the solar cell 8. It is configured to have enough capacity to store enough electric energy to use the remote controller stably even in dark places where electric energy cannot be generated.

For example, when a capacitor 9 having a capacity of 0.2F and a solar cell 8 generating 3V × 10mA of electric energy are used, the electric energy that can be charged and stored in the capacitor 9 is Q = C × V = If charging starts when the capacitor 9 is discharged by the relationship of I∫dt, the electric energy of 0.6 [CV] is charged in 60 seconds, and this energy is actually enough electricity to operate the remote controller 100 times or more. Since it is energy, the capacitor 9 charged once in the state of light can be used as a stable power source even if the solar cell 8 does not generate electrical energy in a dark place.

However, in this device, when the condenser 9 is directly connected to the power supply terminals of the circuit devices 2 and 4, the microcomputer 2 continuously consumes current. Therefore, when the remote controller is left for a long time without light, the condenser The charged and stored electric energy of (9) is continuously discharged and consumed through the microcomputer (2), so that the remote controller cannot be used until the solar cell 8 receives light and recharges the capacitor 9.

In order to improve the above problems, the apparatus uses a switch 10 specially designed to be connected only when the remote control button 1 is pressed as described above. The switch 10 has a structure as in the example of FIG. One line (a and b lines in this example) of the two-wire contact switch, which is configured to connect and connect two lines at the same time only when the switch is pressed, is configured to perform the operation as follows. do.

The two-wire contact switch is pressed simultaneously with a, b, and c and d, respectively. Using the switches, configure the remote control button device 11 as shown in FIG. 6 and press the desired button (for example, the button of FIG. 6). When pressed, the connection line between a and b performs the same function as the switch 10 of FIG. 3 is turned on to supply electrical energy of the capacitor 9 to the power supply of the circuit devices 2 and 4, The connection line of c and d inputs the appropriate command corresponding to the pressed button to the microcomputer 2 via the line 3, and operates a remote control.

On the contrary, when the button is not pressed, the two-wire contact switch is separated and performs the same function as that of the switch 10 in FIG. 3, so that the electrical energy of the capacitor 9 is transferred to the circuit devices 2 and 4. Blocking the supply prevents the electrical energy of the condenser 9 from being discharged continuously.

When using a power supply using a solar cell configured according to the present invention as described above in the remote control, the environment, such as the inconvenience of having to replace every time the battery is a disadvantage in the conventional remote control power supply and the discharge of heavy metals generated from the waste batteries There is an economic advantage that eliminates pollution and does not need to be purchased to replace the battery continuously.

Claims (3)

The solar cell is mounted on the case of the remote control device to use the electric energy generated by the solar cell as a means of the remote control power supply when there is light. Charging and storing using a device that can be stored, the remote control device characterized in that the solar cell is configured as a means of the power source to use the electric energy stored in the charge as a power source for operating the remote control. As a means for preventing the electric energy from being continuously discharged in a circuit such as a microcomputer constituting the device when the remote control is not used, only when the remote control button is pressed as in the operation of the switch 10 of FIG. In order to supply power to the circuit devices 2 and 4, and when the button is not pressed, the power is cut off from the circuit devices 2 and 4 so that the power control operation is performed in conjunction with the remote control button operation. Remote control power interruption switch device, characterized in that. The method of claim 2 In order to perform the function of the remote control power cutoff switch, press the switch as shown in the example of FIG. 5 and configure the remote control button with a two-wire contact switch having two switch configurations that operate to connect each line at the same time. Only one connection line of the switch transmits the remote control microcomputer control signal, and the other connection line is configured to supply the power of the remote control to the circuit device.