JPH0744132Y2 - Video signal amplification circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION A. Field of Industrial Application The present invention relates to a video signal amplifier circuit for amplifying and outputting an input video signal.

B. Outline of the Invention The present invention, in a video signal amplifier circuit that amplifies and outputs an input video signal, improves the output video signal by providing a muting element in the collector of the transistor of the emitter follower that constitutes the output stage. Mutable.

C. Conventional Technology Conventionally, for example, a video signal amplifier circuit that amplifies and outputs an input video signal is used in a video signal processing circuit of a television (TV) signal receiving device or the like.

This kind of video signal amplification circuit is generally constructed as shown in FIG. 3, and an input circuit (51) amplifies the input video signal supplied from the input terminal (IN) and outputs the video signal to the output stage. Is output from the output terminal (OUT) via the transistor (52) of the emitter follower that constitutes the.
However, this video signal amplification circuit must radiate noise from a series connection circuit of a capacitor (53) and a resistor (54) provided between the transistor (52) and the output terminal (OUT). Is known and this noise is
For example, the sensitivity of an amplitude modulation (AM) signal receiving device that constitutes an audio / visual system together with a TV signal receiving device is lowered, and the sound quality of the audio device is impaired.

Therefore, when the TV signal is unnecessary, the power of the TV signal receiving device is turned off (OFF) when the audio / visual system is used so that the video signal amplifier circuit is not operated.

D. Problems to be solved by the invention As described above, the video signal amplifier circuit becomes a noise source for the AM signal receiving device and the audio device. Therefore, turn off the power when using these devices. It is desirable not to work.

By the way, a device in which a TV signal receiving device and an AM signal receiving device are integrated has been proposed. In this device, it is considered that the TV signal receiving unit and the AM signal receiving unit are controlled by a control signal from a common control unit. However, noise from the video signal amplifying circuit of the TV signal receiving unit is caused by the AM signal. If the TV signal is not needed to prevent the sensitivity of the signal receiving unit from decreasing, the above TV
If the power of the signal receiver is turned off, the IC that constitutes the TV signal receiver will be destroyed when a control signal is applied from the controller, or the power will be turned on (O
When set to N), there is a problem that the video signal may not be output immediately from the output terminal (OUT).

Therefore, in the above device, by muting the video signal from the output terminal (OUT) in the video signal amplifier circuit, the noise is reduced and the power of the TV signal receiving unit is turned off (OFF). It is considered that the video signal from the output terminal (OUT) is not output without setting (1).

FIG. 4 shows the muting of the output signal generally used in the audio signal circuit in which the output terminal (OUT) is grounded through the transistor (55) used as a muting element. A possible signal amplification circuit is shown.

However, when this circuit configuration is used for video signals, the impedance is low, so the output terminal (OUT)
In addition to the fact that the video signal from the above cannot be sufficiently muted by the transistor (55), the output of the transistor (52) will be short-circuited when muted. There is a problem that it burdens you. In addition, there is a drawback that a current flows through the series connection circuit of the capacitor (53) and the resistor (54) even during muting, so that noise is emitted from the circuit.

When the video signal is being output from the output terminal (OUT), the capacitance between the collector and the emitter of the transistor (55) is added to the output terminal (OUT), so that it is output to the input video signal. There are also drawbacks such as deterioration of the video signal.

Therefore, the present invention has been proposed in view of the above circumstances, and it is possible to mutate a video signal satisfactorily without causing the defects of the circuit shown in FIG. It is an object of the present invention to provide a video signal amplifier circuit having a novel configuration that can prevent noise emission without turning off the power.

E. Means for Solving the Problems The video signal amplifier circuit according to the present invention constitutes an emitter follower of an output stage in a video signal amplifier circuit for amplifying and outputting an input video signal in order to achieve the above-mentioned object. An output from the emitter follower by the transistor of the first conductivity type, which is formed by connecting the collector of the transistor of the first conductivity type and the collector of the transistor of the second conductivity type whose base is supplied with the muting control signal. The video signal is muted by the second conductivity type transistor provided in the collector of the first conductivity type transistor.

F. Action In the video signal amplifier circuit according to the present invention, the second conductivity type transistor provided in the collector of the first conductivity type transistor that constitutes the emitter follower of the output stage functions as a muting element, and the video signal When muting, the collector of the first conductivity type transistor is opened to prevent a collector current from flowing through the first conductivity type transistor, so that the emitter of the first conductivity type transistor is closed. The output according to the input video signal should not occur.

Further, when the video signal is not muted, the first conductivity type transistor functions as an emitter follower of the output stage, and the first conductivity type transistor is not affected by the second conductivity type transistor. An output corresponding to the input video signal is generated at the emitter of the.

G. Embodiment Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a circuit diagram showing a video signal amplifier circuit (15) of this embodiment. The video signal amplifier circuit (15) is used in the receiver (1) in which the TV receiver (10) and the AM receiver (20) shown in FIG. 2 are integrated. First, the second
The receiving device (1) shown in the figure will be described.

In FIG. 2, the receiving device (1) comprises a TV signal receiving section (10), an AM signal receiving section (20) and a control section (30).

Of these, the TV signal receiving section (10) is an antenna (11).
From the high-frequency TV signal supplied from the TV signal front end section (12) to the TV video signal by subjecting the high-frequency TV signal to predetermined signal processing in the video signal processing section (13) and the audio signal processing section (14), respectively. TV audio signal is generated, and the TV video signal is output to the output terminal (V
_OUT ) and the TV audio signal is output from the output terminal (S _OUT ) via the audio signal amplifier circuit (16).

Further, the AM signal receiving section (20) is connected to the antenna (21).
An AM signal is generated by subjecting the high-frequency AM signal supplied through the AM signal front end section (22) to a predetermined signal processing in the AM signal processing section (23), and the AM signal is amplified as a voice signal. It is designed to output from the output terminal (AM _OUT ) via the circuit (24).

In addition, the control unit (30) and the TV signal receiving unit (10)
Front end parts (12), (2 of AM signal receiving part (20)
2) and amplifier circuits (15), (16), and (24) are supplied with control signals, respectively, and the front end sections (12) and (22) are formed by the control signals. Not to control the oscillation frequency of the PLL (Phase Locked Loop) circuit to select the desired frequency, and to mute the output signals of the amplifier circuits (15), (16) and (24). .

In the video signal amplifier circuit (15) of this embodiment, as shown in FIG. 1, an amplifier circuit (Q1) for amplifying an input video signal input from the input terminal (IN) is connected via a resistor (R1). It is connected to the base of a PNP transistor (Q2), which is a transistor of the first conductivity type that constitutes the emitter follower of the output stage. The emitter of the PNP transistor (Q2) is connected to the positive power supply (V _CC ) via the resistor (R2), and this emitter is connected in series with the capacitor (C1) and resistor (R3). Connected to the output terminal (OUT) via. The collector of the PNP transistor (Q2) is grounded via the NPN transistor (Q3) which is a second conductivity type transistor used as a muting element. Further, the base of the NPN transistor (Q3) used as the muting element is connected to the control signal input terminal (MUT) via the resistor (R4).

In the video signal amplifier circuit (15) having such a configuration, the video signal processing circuit (13) is connected to the input terminal (IN), and the output terminal (VOUT) is connected to the output terminal (OUT). Further, the control section (30) is connected to the control signal input terminal (MUT), and the control signal supplied from the control section (30) to the control signal input terminal (MUT) is as follows. The action is taken.

That is, when the control signal for turning on the transistor (Q3) is supplied from the control section (30) to the control signal input terminal (MUT), the video signal amplification circuit (15): Since the collector of the PNP transistor (Q2) is at ground potential, it is equivalent to the conventional video signal amplifier circuit described with reference to FIG. 3, and the input video signal amplified by the amplifier circuit (Q1) is Output from the output terminal (OUT) via the PNP transistor (Q2).

At this time, in the video signal amplifier circuit (15), the PNP
Since the transistor (Q2) operates as an emitter follower, the above NNP transistor (Q2) has an N
A voltage corresponding to the base voltage is generated without being affected by the voltage of the collector to which the PN transistor (Q3) is connected. Therefore, the video signal amplifier circuit (1
In 5), signal deterioration due to the influence of the transistor (Q3) used as the muting element does not occur.

In the video signal amplifier circuit (15), when a control signal for turning off the transistor (Q3) is supplied from the control unit (30) to the control signal input terminal (MUT), Since the collector of the PNP transistor (Q2) becomes open, the collector current stops flowing, and the emitter follower of the PNP transistor (Q2) stops operating. Therefore, the input video signal amplified by the amplifier circuit (Q1) is the PNP transistor Muted without outputting from the emitter of the transistor (Q2).

Thus, the video signal amplifier circuit according to the present invention (15)
Then, since the video signal is muted by opening the collector of the PNP transistor (Q2), the video signal can be mutated well, and the PNP transistor (Q2) and the like are not heavily burdened. . Moreover, when muting is performed, no current flows in the series connection circuit of the capacitor (C1) and the resistor (R3), so that noise is not radiated from the circuit.

Therefore, by using the video signal amplifier circuit (15) of this embodiment, the receiving device (1) can output the TV video signal from the output terminal (V _OUT ). Since the video signal can be muted well so that noise is not emitted from 15), turn off the power of the TV signal receiving section (10) (OF
It is possible to receive AM signals with high sensitivity without F). In addition, turn off the power of the TV signal receiving unit (10) (OF
Since it is not set to F), there is no fear that the control signal from the control section (30) will destroy the IC such as the PLL circuit (not shown) that constitutes the TV signal front end section (12), and the video signal. By canceling the muting of, the video signal can be immediately output from the output terminal (OUT).

In the present embodiment, the emitter follower transistor (Q2) that constitutes the output stage of the video signal amplifier circuit (15) is
Although the PNP type is used, it is of course possible to configure the NPN type.

H. Effect of the Invention In the video signal amplifier circuit according to the present invention, the second conductivity type transistor provided in the collector of the first conductivity type transistor forming the emitter follower of the output stage functions as a muting element, and When muting a signal, the collector of the first conductivity type transistor is opened to prevent a collector current from flowing through the first conductivity type transistor, so that the first conductivity type transistor is closed. Make sure that the emitter does not generate an output according to the input video signal.

Therefore, in the video signal amplification circuit, the video signal can be satisfactorily muted without imposing a heavy load on the transistors and the like, and at this time, noise is not radiated.

Further, in the video signal amplifier circuit according to the present invention, when the video signal is not muted, the first conductivity type transistor functions as an emitter follower of the output stage and is influenced by the second conductivity type transistor. Output is generated at the emitter of the first conductivity type transistor in response to the input video signal.

Therefore, the video signal amplifier circuit can output a video signal that is less deteriorated with respect to the input video signal.

Moreover, if such a video signal amplifier circuit is used in a receiving device in which the TV signal receiving section and the AM signal receiving section are integrated as described above, for example, when the TV video signal is not output from the output terminal, Since the video signal can be mutated well so that noise is not emitted from the amplifier circuit, it is possible to receive the AM signal with high sensitivity without turning off the power of the TV signal receiving unit. Also,
Since the power of the above TV signal receiver is not turned off,
The TV signal receiving unit is configured by the control signal from the control unit.
There is no risk of destroying the IC, and the video signal can be output immediately by releasing the muting of the video signal.

[Brief description of drawings]

FIG. 1 is a circuit diagram showing a configuration of an embodiment of a video signal amplifier circuit according to the present invention, and FIG. 2 is a block diagram showing a configuration of a receiver using the above embodiment. FIG. 3 is a circuit diagram showing a configuration of a conventional example of a video signal amplifier circuit, and FIG. 4 is a circuit diagram showing an example in which a muting element is provided at an output end of the conventional example. (15) …… Video signal amplification circuit (Q2) …… PNP that constitutes the emitter-tatter follower of the output stage
Transistor (Q3) …… NPN transistor used as a muting element

Claims (1)

[Scope of utility model registration request] 1. A video signal amplifier circuit for amplifying and outputting an input video signal, wherein a collector of a first conductivity type transistor forming an emitter follower of an output stage and a second muting control signal are supplied to a base. Second conductivity type transistor, wherein the collector is connected to the collector of the first conductivity type transistor, and the output video signal from the emitter follower by the first conductivity type transistor is provided in the collector of the first conductivity type transistor. A video signal amplifier circuit characterized by muting by.