KR880001695Y1 - Stand bar power circuit of remote control device - Google Patents

Abstract

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Description

Standby Power Circuit of Remote Control Unit

1 is a standby power supply circuit of a conventional remote control device.

2 is a standby power supply circuit of the present invention.

3 is a circuit diagram of another embodiment of the rectifier circuit in FIG.

4 is a circuit diagram of another embodiment of a standby power supply circuit in FIG.

* Explanation of symbols for main parts of the drawings

D ₁ -D ₃ : Diodes R ₁ -R ₂ : Resistance

C ₁ -C ₂ : capacitor RY: relay.

This paper describes a standby power supply circuit for supplying a standby power supply by constructing a simple circuit without using a transformer in a TV remote control device.

Conventional stand-by power supply circuit is configured to supply a DC voltage obtained by rectifying the voltage induced in the secondary coil of the transformer as a stand-by power supply using a transformer, but such a transformer is expensive and bulky. Due to its large size, there are various disadvantages in workability and manufacturing cost.

The purpose of this paper is to provide a stand-by power supply circuit capable of supplying a stand-by power supply by a simple circuit configuration without using a transformer in order to alleviate such drawbacks. It demonstrates in detail by the.

The AC input power is supplied to the main circuit PWB through the contact ry of the power switch SW and the power relay RY, and pulses from the remote control receiving circuit to the base of the relay driving transistor Q ₁ . In the remote control apparatus so that a signal is applied, AC input power through the power switch SW is applied to a rectifier circuit composed of a diode D ₁ , a resistor R ₁ , and a capacitor C ₁ (C ₂ ). The output voltage (V ₁ ) of the rectifier circuit is applied to the preamplifier in the above-described original circuit control receiving circuit through the normal voltage drop circuit (P) and simultaneously to the power supply relay (RY) coil. The output voltage V ₀ of the high voltage generation circuit such as the flyback prince in the main circuit PWB is applied to the output terminal of the rectifier circuit through the diode D ₂ .

Unexplained symbols indicate that R ₂ is a resistor and D ₃ is a counter electromotive force absorption diode. First, in the conventional standby power supply circuit shown in FIG. 1, when the power switch is closed, AC power is input to the transformer, and the worrying AC voltage induced on the secondary side of the transformer is rectified through the bridge rectifier and the constant voltage transistor ( Q ₁₁ ) is supplied to a circuit such as a preamplifier in the remote control receiving circuit. Therefore, when the remote control transmitter is operated, a pulse is applied to the base of the relay driving transistor Q ₁₂ by the general circuit operation of the remote control receiving circuit, and the transistor Q ₁₂ is turned on, thereby driving the power relay. AC power is supplied to the main circuit PWB through the contact.

2 shows that the power transformer is not used in the circuit of the present invention. At this time, the AC power input with the power switch SW closed is half-wave rectified by the diode D ₁ , and the resistor R ₁ and the capacitor C are ₁₎ (C ₂₎ is the voltage (V ₁₎ there is a direct voltage (V ₁₎ is a smoothing stand-by power supply voltage by. The standby power supply voltage is applied to the collector of the transistor Q ₁ through the power supply relay RY coil and supplied to the preamplifier in the remote control receiving circuit while the voltage is dropped to the proper voltage through the voltage dropping circuit P. do.

In such a state, when the remote control transmitter is operated, the remote control receiver circuit receives and processes the transmission signal and outputs a pulse to the base of the transistor Q ₁ , whereby the transistor Q ₁ is turned on so that the relay RY Driven. Therefore, the relay contact ry is connected and the AC power is supplied to the main circuit PWB through the relay contact ry so that the main circuit PWB operates to generate a high voltage such as a flyback transformer. the voltage (V ₀₎ generated from the diode is fed through a (D ₂₎ a voltage (V ₀₎ is usually so little set higher than the output voltage (V ₁₎ of the rectifier circuit a voltage (V ₀₎ is a stand-by power supply The preamplifier and the relay driving transistor Q ₁ are applied to the preamplifier and the relay driving transistor Q ₁ .

In the rectifier circuit of this paper, a full-wave rectifier circuit as shown in Fig. 3 may be used as an alternative. Also, as the voltage enhancing circuit P, as shown in Fig. 4, a constant voltage circuit using a transistor Q ₂₁ in multiple stages also serves as a current amplifying function. You can also use As described above, the present invention can prevent the cost increase due to the use of expensive and bulky transformers, and the manufacturing process is simple, thereby improving workability.

Claims (2)

The output of the rectifying circuit comprising a diode D ₁ , a resistor R ₁ and a capacitor C ₁ (C ₂ ) is applied to the preamplifier in the normal remote control receiving circuit via the normal voltage drop circuit P. On the other hand, it is applied to the relay coil of the normal power supply relay (RY), the voltage generated in the high voltage generating circuit in the normal main circuit is configured to be applied to the output terminal of the rectifier circuit through the diode (D ₂ ) Standby power supply circuit of a remote control device. The stand-by power supply circuit of a remote control apparatus according to claim 1, wherein the rectifying circuit comprises a full-wave rectifying circuit.