KR860003421Y1 - Remote control power circuit - Google Patents

Abstract

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Description

Remote control power circuit

1 is a schematic diagram of the present invention.

2 is a circuit diagram of a first embodiment of the present invention.

3 is a circuit diagram of a second embodiment of the present invention.

4 is a circuit diagram of a third embodiment of the present invention.

5 is a circuit diagram of a fourth embodiment of the present invention.

6 is a circuit diagram of a fifth embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

Vc: pressure power supply Rel: constant voltage

S ₁ , S ₂ , S ₃ : _1st , ₂ , 3 switching element Trs ₁ : power transformer

RA: Remote control unit A: Remote control unit

The present invention relates to a remote control circuit for easily controlling input power such as home appliances by remote control (abbreviation for remote control). Conventionally, it has been proposed to perform a power on and off detection operation of a remote controller by being combined with a home appliance, but these devices are installed using a flip-flop relay. There was a problem that occurred.

The present invention has been devised to completely solve these problems in the related art, which is intended to reduce operational costs and to obtain operational reliability by manufacturing a simple electronic switching configuration. This will be described in detail below.

FIG. 1 is a schematic diagram of the present invention, which connects a constant voltage circuit Rel to an input power supply unit VC including a rectifier circuit. In this power supply unit VC, a first switching element S ₁ for detecting infrared rays and a power transformer ( The second switching element S ₂ for operating the load switching third switching element S ₃ of Trs ₁ ) is connected, and the first and second switching elements S ₁ and S _{2 are} connected to the remote control unit RA. It is connected to the input and output terminals, the power transformer (Trs ₁ ) is a system for receiving power from the input power supply unit (VC) to supply power to the load (RL) by the operation of the third switching element (S ₃ ). I have it.

The present invention of the schematic diagram is connected to the constant voltage circuit (Rel) for supplying power to the second switching element (S ₂ ) through the remote control receiver (A) and the photocoupler (PT ₁ ) from the input power supply as shown in FIG. The third switching device S ₃ is connected between the transformer Trs ₁ and the ground point. In another embodiment of FIG. 3, the third switching device S _{3 is} connected between the power transformer Trs ₁ and the input power supply unit. ) Is connected to the pressure line of the remote control receiver (A) and the port coupler (PT ₁ ) via the diode (D ₁ ) from the load (RL). Meanwhile, in FIG. 4, a thyristor is used as the third switching element S ₃ on a single input line, and a load RL is directly connected between the ground point and the thyristor, and the gate of the thyristor is output of the remote controller receiver A. FIG. The output terminal of the second switching device (S ₂ ) connected to is connected to, and FIG. 5 is a modified configuration in which the third switching device (S ₃ ) is connected between the load side (RL) and the ground point.

6 is another embodiment of a configuration in which a load RL is connected between a ground point and a third switching element S ₃ , which is a transistor, to an input line. According to the present invention having the configuration as shown in FIG. 1, the power output from the input power unit VC is normally applied to the power transformer Trs ₁ , but the third switching element S ₃ with the load RL is turned off. Power cannot be applied to the load RL.

That is, at this time, since the power signal is not detected from the remote control transmitter (not shown) by the first switching element S ₁ , the output of the remote control unit RA does not occur, so the second switching element S ₂ is turned off. Because it is in a state of Therefore, since the second switching device S ₂ does not operate the second switching device S ₃ , the load RL of the home appliance is turned off.

On the other hand, when an infrared pulse is generated from the remote control transmitter to turn on the first switching device S ₁ of the remote control receiver A, a logic level high voltage appears at the output terminal of the remote control controller RA, thereby causing the second switching device ( S ₂ ) is turned on, and the third switching device S ₃ is turned on to supply power from the power transformer Trs ₁ to the load RL.

The present invention, which acts as a system, switches the port coupler PT ₁ by the operation of the second switching element S ₂ as shown in FIG. 2, and the third switching element S between the power transformer Trs ₁ and the ground point. ₃ ) by operating the power transformer (Trs ₁ ) and the remote control receiver (A) to separate the power, so that the interference phenomenon of the power source can be eliminated to prevent malfunction.

In addition, as shown in FIG. 3, a third switching element S ₃ may be connected between the power transformer Trs ₁ and the input line passing through the rectifying unit to perform an input switching operation. The remote control receiver A may be operated by one power source via D ₁ ). 4 is a configuration in which the thyristor is directly connected to the load RL input side by the third switching device S ₃ by the one power supply system, and the second switching device S which is a transistor by the output of the remote controller receiver A is shown in FIG. ₂ ) by controlling the gate of the thyristor to control the load (RL) by the remote control, in FIG. 5 by connecting the third switching element (S ₃ ) of the thyristor between the ground point of the load (RL) It acts to control the load RL.

FIG. 6 is another embodiment of the power supply system. The third switching device S ₃ is connected to the load RL between the input line and the ground point, and is controlled by the remote controller as an input control of the third switching device S ₃ . The power on and off operations of the load RL are performed.

This invention has the advantage that the separation function of the power supply system and the control system can be performed by separating the input voltage as shown in FIGS. 2 and 3 in the television receiver. In the case of the one power system of FIG. 6, it can be selectively applied to a device suitable for them, and they have an advantageous feature of performing a power on and off function by a remote controller with an extremely simple configuration.

Claims (3)

An input power source VC, a power transformer Trs ₁ , a constant voltage unit Kel, and a remote control receiver, wherein the first switching element S _{1, which} is an optical sensing element for the power on / off function, and thereby inputs and outputs A second switching element S ₂ is connected to the controlled remote control unit RA, and a third switching element installed between the power transformer Trs ₁ and the load RL by the second switching element S ₂ . S ₃ ) remote control power supply circuit, characterized in that to simply perform the power on, off function by the remote control of the home appliance by connecting to control. The second switching device ( ₃ ) according to claim 1, wherein the third switching device (S ₃ ) is connected to the first power supply system between the load (RL), and is controlled by an output of the remote control receiver (A) connected to the constant voltage circuit (Rel). S ₂₎ the third switching element (S ₃₎ the remote control power supply circuit coupled to the hayeoseo control. The remote control power supply circuit according to claim 1 or 2, wherein the third switching element (S ₃ ) is connected between a load (RL) or a power transformer (Trs ₁ ) and a ground point.