KR930003445Y1 - Mode transfer operation stabilization circuit - Google Patents

Abstract

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Description

Mode switching operation stabilization circuit

1 is a conventional circuit diagram.

2 is a circuit diagram of an embodiment according to the present invention.

* Explanation of symbols for main parts of the drawings

10: control signal input unit 20: system control unit

30: first switching control unit 40: second switching control unit

50: video mode switching unit 60: tuner unit

70: video signal intermediate frequency section 80: VCR deck section

90: signal transmission path control unit 100: video signal demodulation unit

110: color and luminance signal processing unit 120: image display unit

The present invention relates to a mode switching operation stabilization circuit in a video and audio signal processing system, and more particularly, to a mode switching operation stabilization circuit for achieving a stable mode switching when VCR mode switching in a television receiver.

In general, video and audio signal processing systems include VCRs, TVs, VCRs, and camera integrated camcorders, VCRs, and TV integrated systems. These video and audio signal processing systems are being developed to support functions of each other by connecting separate single systems using similar signal processing methods even if they are not packaged complex systems according to the diversification of functions.

For example, in the case of a television receiver, it is possible by a user's control command when switching to the VCR mode, but may be artificially applied through an interface device between the VCR deck and the TV receiver. The signal processing according to the TV mode or VCR mode switching is described in detail with reference to FIG.

1 is applied to a conventional video and audio signal processing system. In particular, as a mode switching operation stabilization circuit in a TV receiver, only a video signal is shown. This circuit is set to the TV mode in the normal mode. Therefore, the system control unit 20 outputs a high logic level at the A / V (Audio / video) output terminal by a control signal input by the user through the control signal input unit 10 in the normal mode. The A / V output signal of the system controller 20 is applied to the first switching controller 30.

Since the first switching controller 30 includes a common emitter transistor Q1 and a diode D2 having a base connected to the input terminal, the transistor Q1 is turned on when the applied input signal is high logic. ) Becomes a cutoff state, and the potential of the connection point A becomes low logic. Accordingly, the video mode switching unit 50 is controlled to be switched to one side contact L so that the high frequency TV image signal applied through the aerial is applied to the image signal demodulation unit 100 so that the image display unit can be displayed through the color and luminance signal processing unit 110. Is displayed on 120.

On the other hand, when the VCR mode is set by the user's control command, the low logic level is output from the A / V output terminal of the system controller 20. Therefore, the transistor Q1 of the first switching controller 30 is turned off and the supply power B ⁺ is applied to the diode D2 to be in a conductive state. The potential of the connection point A becomes a high logic level, and the video mode switching unit 50 switches to the (H) contact point and outputs the video signal of the VCR deck unit 80 outputted through the line L2 to the video signal demodulation unit ( 100 to display on the image display unit 120.

On the other hand, when the VCR mode switching is artificially applied using the signal transmission path controller 90, the potential of the connection point A becomes a high logic state regardless of the logic state of the A / V output terminal of the system controller 20. The switching of the video mode switching unit 50 is controlled to be at the (H) contact point. Here, the signal transmission control unit 90 is a 21-pin parallel jack scart jack (Scart Jack) is connected to the video and audio signal output terminal of the VCR deck unit 80 and one jack terminal output signal of the signal transmission path control unit 90 Is set to a high logic state and is connected to the second switching controller 40 in a low logic state if it is not connected.

The second switching controller 40 is composed of a diode D1. When the high logic level signal is output from the video signal output terminal of the signal transmission path controller 90, the second switching controller 40 is in a conductive state, and the connection point A is in a high logic state. . When the low logic level signal is output from the above-described output terminal of the signal transmission path controller 90, the diode D1 is cut off so that the potential of the connection point A becomes a low logic state. However, in the conventional method described above, when artificially switching to the VCR mode through the signal transmission path controller 90, the signal output from the signal transmission path controller 90 is connected to the connection point A through one diode D1. Therefore, when the voltage output from the signal transmission controller 90 is not set to the VCR mode and becomes about 0.3V or more due to an instantaneous external influence, the diode D1 becomes a conductive state momentarily and the connection point A becomes high. There was a problem that noise was generated on the image display means 120 by switching the video mode switching unit 50 to the (H) contact at a potential. In addition, when the VCR mode is switched in the TV mode, there is a problem that noise is generated on the image display unit 120 until a switching control signal having a stable voltage is applied to the video mode switching unit 50.

Accordingly, an object of the present invention is to stabilize the mode switching to achieve a stable mode switching operation by precisely controlling the voltage of an artificial video mode selection control signal generated in the VCR deck unit in a mode switchable video and audio signal processing system. To provide a circuit.

In order to achieve the above object, the present invention provides a system control unit, a tuner unit, and a VCR deck unit in a mode switching operation stabilization circuit of a video and audio signal processing system capable of mode switching, wherein the video signal of the tuner unit and the VCR deck unit The video mode switching unit is switched by a video control signal output from the system control unit or the VCR deck unit by connecting an output terminal to one side contact, respectively, and is controlled to be controlled according to a mode switching control signal output from the system control unit. A first switching controller for outputting a signal for controlling a switching operation, and a switching control according to a mode switching control signal artificially applied by the VCR deck unit to output a signal for controlling a switching operation of the video mode switching unit; The output terminal of the VCR deck section can be A diode connected to an emitter-grounded first transistor connected to the base, an emitter-grounded second transistor connected to the base through a current limiting resistor connected to the collector of the first transistor, and an anode connected to the collector of the second transistor. It characterized in that it comprises a second switching control unit comprising a.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of one embodiment according to the present invention, which can be switched to the video mode by the artificial control command by the VCR deck unit 80 or the control command of the system control unit 20 according to the user's control Applies to the system. 2 shows a control signal input unit 10 for inputting a signal for controlling a function by a user, a first switching controller 30 having an input terminal connected to an output terminal of the control signal input unit 10, and a VCR deck unit ( 80), a signal transmission path controller 90 in which a video signal input terminal is connected to one output terminal of the VCR deck unit 80, and a second switching unit 40 in which a video signal output terminal of the signal transmission path controller 90 is connected to an input terminal. The video signal intermediate frequency unit 70 is connected to the output terminal of the tuner unit 60 and the tuner unit 60, and the one-side contact L is connected to the output terminal of the video signal intermediate frequency 70, and the VCR deck unit ( A video control signal via a connection point A and a line L3 to which the other output terminal of 80 is connected to another one-side contact point H and each output terminal of the first switching controller 30 and the second switching controller 40 is connected. The video mode switching unit 50 configured to be switched by the input mode, the input terminal to the reference potential of the video mode switching unit 50 A color and luminance signal processor 110 having an input terminal connected to an output terminal of the video signal demodulator 100 and an image signal demodulator 100 connected thereto, and an image display unit having an input terminal connected to an output terminal of the color and luminance signal processor 110 ( 120). In particular, the first switching controller 30 is configured in the same manner as in FIG. 1, and the second switching controller 40 connects the output terminal of the signal transmission path controller 90 to the base through the voltage divider R1 and R2. A diode having a grounded transistor Q2, an emitter grounded transistor Q3 connected to the base via a current limiting resistor R4 to the collector of transistor Q1, and an anode connected to the collector of transistor Q3. It consists of (D1).

The operation of FIG. 2 is as follows.

First, the process of applying the video mode control signal to the connection point A through the first switching controller 30 is the same as in FIG. 1 described above, and the tuner unit 60, the image signal intermediate frequency unit 70, and the VCR deck The unit 80, the signal transmission path control unit 90, the image signal demodulation unit 100, the color and luminance signal processing unit 110, the image display unit 120 and the like are the same as the known technology, and thus detailed description thereof will be omitted. In addition, the video mode switching control process through the system control unit 20 under the control of the user is the same as the conventional process. Therefore, only the artificial video mode switching control process by the VCR deck unit 80 will be described.

When the VCR deck unit 80 is not connected to the signal transmission path controller 90, the signal output from the signal path controller 90 becomes a low logic level.

When the applied low logic level is applied to the base of the transistor Q2 via the resistors R1 and R2, the second switching controller 40 turns off the transistor Q2 so that the output voltage of the transistor Q2 is high logic. Level (12V supply). The output voltage of the transistor Q2 is applied to the base of the transistor Q3 through the current limiting resistor R4. The transistor Q3 is turned on because the high logic level is applied to the base, and the base potential GN D is applied to the anode terminal of the diode D1, so that the diode D1 is cut off and the connection point A has a low logic level. do. Accordingly, the video mode switching unit 50 is switched to the (L) contact point to allow the TV video signal to flow into the video signal demodulation unit 100.

On the other hand, when one output terminal of the VCR deck unit 80 is connected to the input terminal of the signal transmission path controller 90, the output terminal of the signal transmission path controller 90 becomes a high logic level.

When the high logic level applied to the second switching controller 40 is applied to the base through the voltage divider R1 and R2, the transistor Q2 is turned on and the ground potential GND is applied to the base of the transistor Q3. Therefore, since the high logic level 12V is applied to the anode terminal of the diode D1, the conductive state is brought into a conduction state. Therefore, the potential of the connection point A becomes the high logic level, and the video mode switching unit 50 is switched to the (H) contact point. . Here, the high logic level of the voltage output from the signal transmission path controller 90 is about +9.5 to + 12V, and the low signal level is about 0 to + 2V.

As described above, in the present invention, in the mode switchable shape and sound signal processing system, when the video mode control signal is artificially applied by the VCR deck, the signal transmission path control unit accurately controls the logic level of the voltage of the control signal. Even if the voltage of the output video mode control signal changes instantaneously, it does not affect the video mode switching control.

Claims (1)

In the mode switching operation stabilization circuit of the video and audio signal processing system having a system control unit 20, a tuner unit 60, and a VCR deck unit 80 capable of mode switching, the tuner unit 60, The video mode switching unit 50 and the system which are switched by the video control signal output from the system control unit 20 or the VCR deck unit 80 by connecting the video signal output terminal of the VCR deck unit 80 to one side contact, respectively. The first switching controller 30 and the VCR deck unit 80 for switching the control according to the mode switching control signal output from the control unit 20 to output a signal for controlling the switching operation of the video mode switching unit 50 In order to output a signal for controlling the switching operation of the video mode switching unit 50 by switching control according to an artificially applied mode switching control signal, the output terminal of the VCR deck unit 80 is divided into voltage divider resistors R1 and R2. Through) The emitter-grounded first transistor Q2 connected to the base, and the emitter-grounded second transistor Q3 connected to the base via a current limiting resistor R4 connected to the collector of the first transistor Q2; And a second switching control (40) including a diode (D1) having an anode terminal connected to the collector of the second transistor (Q3).