JPH02159113A - Video equipment - Google Patents

Abstract

PURPOSE:To obtain the even frequency characteristics of the video signals of a desired channel by providing a variable capacity diode to an IF output tuning part of a tuner, and supplying the output of a deciding device deciding the output state of the video signal to the cathode side of the variable capacity diode. CONSTITUTION:The video signal is transmitted to a detector D for frequency characteristics of the video signal, and a video signal frequency characteristic decider E decide whether the video signal frequency characteristics are set at a prescribed level or not. If not, the reference level of the deciding voltage of the decider E is changed. Then the voltage higher than the reference level is supplied to a variable capacity diode 10 from the decider E in case the low band level of the video signal frequency is low. While the voltage lower than the reference level is supplied to the diode 10 from the decider E in case the low band level of the video signal frequency is high. In such a way, the frequency characteristics of video signals can be unified among selected desired channels.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to video equipment such as television receivers and video tape recorders.

BACKGROUND OF THE INVENTION Conventionally, video equipment used for video recording has a configuration as shown in FIG. The following will explain based on the drawings. In FIG. 2, M is a video signal receiving tuner, B is a cascade mixer circuit, and C is a video device. Also, 1 is a capacitor for XFF adjustment, and 2 is a damping resistor for the IFF adjustment circuit.

3 is a bias resistor for the mixer circuit, 4 is an IFF tuning variable coil, 6.9 is an undesirer for IF output/output impedance matching, 6 is a filter capacitor, 7 is a filter coil, and 8 is a high frequency cutoff capacitor. The operation of the video equipment configured as described above will be described below.

When the RF multiplied signal of the selected desired channel and the local oscillation signal of the desired channel are injected into cascade mixer circuit B, capacitor 1. Damping resistance 2. An IF multiplied signal is generated in an IFF adjustment circuit constituted by a variable coil 4. The IF multiplied signal is transmitted to the imager C through a filter circuit formed by a capacitor 6 and a coil 7.

The video device C detects the video signal modulated into the -IF signal and extracts the video signal.

Problems to be Solved by the Invention In such a conventional configuration, in the input circuit 0 stage circuit before the RF double signal cascade mixer circuit B, it is necessary to make the carrier wave levels of the video and chroma signals uniform for all receiving channels. Because it is very difficult to
Even after the IF signal conversion is performed, the levels of the carrier waves of the video and chroma signals remain unchanged, resulting in a difference in the level of the carrier waves of the video and chroma signals between each channel. Therefore, even in the frequency characteristics of the video signal detected by the video device C, a level difference occurs between each channel, making it impossible to obtain a uniform frequency characteristic of the video signal, resulting in a difference in image quality between each channel. was there. The present invention is intended to solve these problems, and aims to make the frequency characteristics of video signals of each desired channel selected by a tuner uniform.

Means for Solving the Problems In order to solve the problems, the present invention provides a tuner for receiving video signals, a video device to which video information is supplied from the tuner, and a method for detecting the video signal frequency characteristics of the video device. The tuner includes a detector and a determiner that determines the video signal output state from the detector, a variable capacitance diode is provided in the IF output tuning section of the tuner, and the output of the determiner is provided on the cathode side of the variable capacitor diode. The configuration is such that it supplies

Effect: With this configuration, even if the carrier wave levels of video and chroma signals between channels are uneven due to the RF multiple signal, the input circuit before the mixer circuit, the crotch circuit, etc., the determination device that determines the video signal output state can A voltage for video signal determination is supplied to the variable capacitance diode, and as a result, the resonant frequency of the IF tuning circuit is moved so that the carrier wave level of the video and chroma signals becomes a predetermined level. Also, the carrier wave level of the chroma signal becomes uniform, and the frequency characteristics of the video signal detected by the video device also have uniform characteristics.

EXAMPLE 1 An example of the present invention will be described below with reference to FIG. Note that in FIG. 1, the same names as in FIG. 2 are given the same numbers. In FIG. 1, 10 is a variable capacitance diode for IF tuning, and 11 is a variable capacitance diode 10.
bias resistor, 12 is a capacitor for high frequency cutoff, 1
3 is a DC voltage cutoff capacitor. It was installed separately from the imager C. A detector for detecting the frequency characteristics of the video signal is coupled, and a determiner E for determining the video signal output state is also coupled. From the above judger E, the resistor 11
A determination voltage of one video signal level is supplied to the variable capacitance diode 10 through the video signal level. The operation of the video equipment configured as described above will be described below.

When the RF multiplied signal of the selected desired channel and the local oscillation signal of the desired channel are injected into the cascade mixer circuit B, the damping resistor 2. Variable coil 4. A signal multiplied by XF is generated in an IF tuning circuit composed of a variable capacitance diode 1o. The signal is transmitted to the imager C through a filter circuit composed of an IF multiplier signal capacitor 6 and a coil 7. In the video device C, the video signal which has been subjected to IF multiplication signal modulation is detected and the video signal is extracted. The video signal is
The video signal is transmitted to a detector of frequency characteristics.

The video signal frequency characteristics obtained by the detector are transmitted to the determiner E, which determines the output state of the video signal. Then, the determiner K determines whether the level of the video signal frequency characteristic is at a predetermined level. As a result of the determination, if the level of the video signal frequency characteristic has not reached a predetermined level, the reference voltage of the determination voltage of the determiner X is changed.

When the low level of the video signal frequency is low, a voltage higher than the reference voltage is supplied from the determiner E to the variable capacitance diode 10. Then, the capacitance of the variable capacitance diode 10 becomes smaller, the resonance frequency of the -IF tuning circuit shifts to a higher frequency, and the carrier wave level of the video signal increases. On the other hand, when the low level of the video signal frequency is high, a voltage lower than the reference voltage is supplied from the determiner E to the variable capacitance diode 1o. Then, the capacitance of the variable capacitance diode 10 increases, the resonant frequency of the IF tuning circuit shifts to a lower frequency, and the carrier wave level of the chroma signal increases.

As described above, according to this embodiment, the variable capacitance diode 10 is provided in the IF tuning circuit so that the resonant frequency of the tuner's IF tuning circuit can be electrically varied, and the video signal frequency characteristic detector and the video By providing the signal frequency determiner X, it is possible to equalize the frequency characteristics of the video signals between the selected desired channels.

Effects of the Invention As described above, according to the present invention, the frequency characteristics of the video signal of the selected desired channel are made uniform, so that the image quality of a television receiver and video tape recorder is made uniform over all receiving channels. .

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of a video device according to an embodiment of the present invention, and FIG. 2 is a circuit diagram of a conventional video device.

Claims (1)

[Claims] A tuner for receiving a video signal, a video device to which video information is supplied from the tuner, a detector for detecting the video signal frequency characteristics of the video device, and a determiner for determining the video signal output state from the detector. A video device comprising: a variable capacitance diode provided in an IF output tuning section of the tuner; and an output of the determiner being supplied to a cathode side of the variable capacitance diode.