KR930003452Y1 - Power control circuit of tv receiver for sattelite broadcasting system - Google Patents

Abstract

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Description

Power supply control circuit of tuner built-in TV for satellite broadcasting reception

1 is a block diagram showing an embodiment of a power supply control circuit of a tuner built-in television for satellite broadcasting reception according to the present invention;

FIG. 2 is a detailed circuit diagram showing the switching circuit according to FIG.

* Explanation of symbols for main parts of the drawings

1000: switching circuit 100: satellite tuner unit

200: television unit 300: first switching circuit

400: second switching circuit 10: microcomputer for satellite broadcasting reception

20: power supply unit for receiving satellite broadcast 30: TV microcomputer

40: power supply unit for TV 50: first rectifying unit

60: first switching unit 70: second rectifying unit

80: second switching unit R1, R2: resistance

C1, C2: Capacitor Q1 ~ Q4: Transistor

The present invention relates to a power control circuit of a built-in tuner for a BS with a built-in tuner for receiving satellite broadcasting (hereinafter, abbreviated as 'BS' (Broadcasting Satellite)), and more particularly, a tuner for a BS using a switching means. Or it relates to a power supply control circuit of a tuner built-in television for satellite broadcast reception capable of selectively supplying power to the television.

Increasingly, the transmission and reception technology for televisions has enabled satellites to transmit video and audio signals and to receive them on televisions.

However, since satellites use a higher frequency band than the current TV's frequency band for transmitting video and audio signals, satellite video and audio signals cannot be used to receive satellite and video signals. The tuner for BS is supposed to be used. In this case, conventionally, the BS tuner and the power supply circuit of the TV are integrated, and when the TV and the TV are to receive the video and audio signals of the general frequency band transmitted from a broadcasting station, the BS tuner operates, and only the BS tuner operates. Even when a transmission signal of the satellite is to be recorded on a video or the like, there is a problem in that the TV operates and consumes power unnecessarily.

Typically, it should be noted that the power consumption of only the BS tuner is about 30 W / h and that of a general television is about 70 W / h.

The object of the present invention is to solve the above problems, and an object of the present invention is to connect a switching circuit between a power supply portion of a television and a power supply portion for a BS, and control the switching circuit with a microcomputer or a microcomputer for the television. The present invention provides a power supply control circuit of a tuner-embedded television tuner for receiving satellite broadcasting which can selectively reduce power consumption by allowing power to be selectively applied to the BS power supply unit.

The power control circuit of the tuner built-in TV for satellite broadcast reception according to the present invention is characterized by a satellite broadcast reception tuner unit having a satellite broadcast power supply unit and a satellite broadcast reception microcomputer, and a TV power supply unit and a television unit having a television microcomputer unit. A tuner built-in television for receiving a satellite broadcast; A first switching circuit connected between the satellite broadcasting receiving power supply unit and the satellite broadcasting receiving microcomputer and switched under the control of the satellite broadcasting receiving microcomputer to supply power to the satellite broadcasting receiving power supply unit; A power supply unit for receiving satellite broadcasts or a selective circuit connected by a second switching circuit connected between the power supply unit for television and the microcomputer microcomputer and switched under the control of the television microcomputer to apply power to the power supply unit for the television; Is to apply power.

Hereinafter, a preferred embodiment of a power supply control circuit of a tuner built-in television for satellite broadcasting reception according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing an embodiment of a power supply control circuit of a tuner-embedded television for satellite broadcasting reception according to the present invention.

The above block diagram is largely composed of a power supply unit 5, a BS tuner unit 100, a television unit 200, a switch circuit 1000, and a CRT.

In more detail, the BS tuner unit 100 includes a BS microcomputer 10 and a BS power supply unit 20 to apply the power supply of the power supply unit 5 and the switching power supply of the switching circuit 1000, respectively. In response to the control signal of the BS microcomputer 10, power is inputted and driven through the switch circuit 1000 to the BS power supply unit 20.

In addition, the television unit 200 includes a power supply unit 40 for a TV. The switch circuit 1000 is controlled according to the control of the TV microcomputer 30 through the switch circuit 1000 under the control of the TV microcomputer 30. Power is input to and driven by the TV power supply unit 40 through 1000.

Next, FIG. 2 is a detailed circuit diagram showing the switching circuit according to FIG.

The switch circuit 1000 is connected between the BS microcomputer 10 and the BS power supply unit 20, and is switched according to the control signal of the BS microcomputer 10 to supply power to the BS power supply unit 20. It is connected between the first switching circuit 300 to be applied, the TV microcomputer 30 and the TV power supply unit 40 and is switched under the control of the TV microcomputer 30 to the T power supply unit 40. It consists of a second switching circuit 400 for applying power.

In detail, the first switching circuit 300 includes a first rectifying unit 50 and a first switching unit 60, and the second switching circuit 400 includes a second rectifying unit 70 and It is comprised by the 2nd switching part 80.

At this time, the first rectifying unit 50 is for rectifying the input power and is composed of a bridge circuit BR1 serving as a rectifying diode, a smoothing capacitor C1, and a resistor R1.

The first switching unit 60 is to selectively apply the power rectified by the first rectifying unit 50 to the BS power supply unit 20 under the control of the BS microcomputer 10. A switching transistor Q1 connected to a BS microcomputer 10 and driven under the control of the BS microcomputer 10, and connected between the switching transistor Q1 and the first rectifying unit 50. The rectified power of the switching transistor Q1 is applied to the BS power supply unit 20.

In this case, the second rectifying unit 70 is for rectifying the input power and is composed of a bridge circuit BR2 serving as a rectifying diode, a smoothing capacitor C2, and a resistor R3.

The second switching unit 80 selectively applies the power rectified by the second rectifying unit 70 to the power supply unit 40 under the control of the TV microcomputer 30. Is connected between the switching transistor Q3 and the switching transistor Q3 and the second rectifying unit 70 which are driven under the control of the TV microcomputer 30. According to the driving of Q3), the power rectified by the second rectifying unit 70 is applied to the TV power supply unit 40.

The power control circuit of the tuner built-in television for satellite broadcasting reception according to the present invention configured as described above allows the user to plug an outlet to drive the BS tuner built-in television.

At this time, the BS microcomputer 10 and the TV microcomputer 30 output low-level logic signals to the terminals C0 and C1 so that the switching transistors Q1 and Q3 are turned off so that the transistors Q2 and Q4. Transistors Q2 and Q4 are also turned off.

Therefore, the power supply of the outlet is not applied to the first and second rectifiers 50 and 60, so that the BS tuner 100 and the television unit 200 cannot be driven.

At this time, when the user stops driving the BS tuner unit 100 and drives only the television unit, the TV microcomputer 30 is controlled so that the TV microcomputer 30 is connected through the terminal C1. Outputs a logic signal of high level.

Therefore, the switching transistor Q3 connected to the TV microcomputer 30 is turned on to turn on the transistor Q4 by bringing the base potential of the switching transistor Q4 into a low level state.

Accordingly, the power supply unit 5 of the outlet is rectified by the second rectifying unit 70 and applied to the TV power supply unit 40 through the transistor Q4, so that the television unit controls the microcomputer 30 for the TV. As a result, the power of the TV power supply unit 40 is applied and driven.

At this time, the BS microcomputer 10 outputs low-level logic through the terminal C0, so that the transistors Q1 and Q2 are turned off, so that the power supply of the first rectifier 50 is supplied to the BS power supply unit 20. Since it is not applied, the BS tuner unit 100 cannot be driven.

In addition, when the BS tuner unit 100 is operated and the television unit 200 is stopped and a signal received by the BS tuner unit 100 is to be recorded using a video or the like, the BS microcomputer 10 Outputs the high level logic through terminal C0.

In addition, as the switching transistor Q1 is turned on, since the base potential of the transistor Q2 is lowered to the low level, the transistor Q2 is turned on, and the first rectifying unit 50 is connected to the power supply unit 5 of the outlet. The applied power is rectified and applied to the BS power supply unit 20 through the transistor Q2.

Accordingly, the BS tuner unit 100 may receive a signal transmitted from the satellite using the power supply of the BS power unit 20 under the control of the BS microcomputer 10.

At this time, the television unit 200 outputs a low level through the terminal C1 of the microcomputer 30 for the transistor to turn off the transistors Q3 and Q4 so that the power supply of the second rectifier 70 is turned on. It becomes impossible to apply to the power supply part 40, and it will be in the state which cannot be driven.

In addition, when the user wants to receive a signal received through the BS tuner 100 through the television unit 200, the BS tuner unit 100 and the television unit 200 must be driven simultaneously.

In this case, the user causes the BS microcomputer 10 and the TV microcomputer 30 to simultaneously output high-level logic through the terminals C0 and C1.

Accordingly, the transistors Q1 and Q2 are turned on, and the base potentials of the transistors Q3 and Q4 are lowered to turn the transistors Q3 and Q4 to the on state. The power rectified by 70 is applied to the BS power supply unit 20 and the TV power supply unit 40 through the transistors Q2 and Q4, so that the BS tuner 100 and the TV unit 100 are connected to the BS. Under the control of the microcomputer 10 and the microcomputer 40 for TV, the BS power supply unit 20 and the TV power supply unit 40 may be supplied and driven.

That is, this design constitutes a switching means between the BS tuner and the television, and controls the switching means with a BS microcomputer in the BS tuner and a microcomputer in the TV so that power can be selectively applied to the BS tuner or TV. By doing so, it is possible to save power consumption.

Claims (3)

A satellite broadcasting reception tuner section 100 having a satellite broadcasting reception power supply unit 20 and a satellite broadcasting reception microcomputer 10, and a television unit 200 having a television power supply unit 40 and a television microcomputer 30; A tuner built-in TV for satellite broadcasting reception comprising: Connected between the satellite broadcast receiving power supply unit 20 and the satellite broadcast receiving microcomputer 10 is switched under the control of the satellite broadcast receiving microcomputer 10 to apply power to the satellite broadcast receiving power supply unit 20. Is connected between the first switching circuit 300 and the television power supply unit 40 and the television microcomputer 30 and is switched under the control of the television microcomputer 30 to supply power to the television power supply unit 30. Power control of a satellite broadcasting tuner built-in television selectively applying power to the satellite broadcasting reception power supply unit 20 or the power supply unit 40 by a switching circuit 1000 configured to apply a second switching circuit 400. Circuit. The method of claim 1, wherein the first switching circuit (300) comprises: a first rectifier (50) comprising a resistor (R1) and a capacitor (C1) for rectifying the input power; The first switching unit 60 is connected between the first rectifying unit 50 and the satellite broadcasting reception microcomputer 10 and includes a resistor R2, a switching transistor Q1, and a power supply transistor Q2. Power control circuit of a tuner built-in TV for receiving satellite broadcasts. The second switching circuit (400) of claim 1, further comprising: a second rectifier (70) comprising a resistor (R3) and a capacitor (C2) for rectifying the input power; A second switching unit 80 connected between the second rectifying unit 70 and the television microcomputer 30 and including a resistor R4, a switching transistor Q3, and a power supply transistor Q4. Power control circuit for TV with built-in tuner for satellite broadcasting reception.