JPH0438185B2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a feedback clamp circuit for television signals, and more particularly to a feedback clamp circuit for television signals that operates stably against level fluctuations. .

The television signal feedback clamp circuit referred to here is a circuit for extracting the horizontal synchronization signal from the television signal.

[Conventional technology]

FIG. 2 shows the image field signal. a is the second
is the waveform that comes at the end of the field, and b is the first
This is the waveform that comes at the end of the field.

In FIGS. 2a and 2b, the equalization pulse and the vertical synchronization pulse (9H) are exactly the same, and the period of the horizontal synchronization pulse is the same, but the phase is shifted by 0.5H.

FIG. 3 is a diagram showing an example of a conventional television signal feedback clamp circuit.

In the figure, 1 is an inverting amplifier, 2 is a simple clamp, and 3
is a comparator, 4 is a changeover switch, 5 is an operational amplifier, 6 is a capacitor, 7 is a resistor, and 8 is a differential amplifier. Hereinafter, the same symbols indicate the same objects throughout the figures. In addition, to explain the shortcomings, please refer to Figure 4-
See.

Now, the polarity of the sag TV signal applied to the inverting amplifier 1 via the terminal IN is inverted and clamped by the simple clamp ₂ using the diode D1. The clamped signal is sent to comparator 3
is input. A comparator 3 compares this clamped signal with a constant reference voltage E to extract a horizontal synchronization pulse and a vertical synchronization pulse from the sag television signal.

Therefore, the changeover switch 4 is operated in response to the output of the horizontal synchronization pulse, and the peak value of the horizontal synchronization signal of the television signal output from the differential amplifier 8 is held here, and the peak value of the horizontal synchronization signal of the television signal outputted from the differential amplifier 8 is held, integrated by the operational amplifier 5, and then It is fed back to amplifier 8. Therefore, a differential amplifier 8 takes the difference between the input signal and the sag, and outputs a sag-free TV signal from the sag-based TV signal.

However, in the above-mentioned conventional method, as shown in FIG. 4, when the vertical synchronizing pulse is input and the period of the equalizing pulse is entered, the pulse interval becomes narrower, so that the margin with respect to the reference voltage is reduced.

This resulted in the drawback of being vulnerable to noise.

[Problem that the invention seeks to solve]

The purpose of the present invention is to eliminate the drawbacks of the above conventional methods,
By using an integrated voltage according to an input signal as a reference voltage of a comparator, stable operation can be performed against level fluctuations.

[Means for solving problems]

The solution to the problem is to invert the TV signal with the sag, clamp the leading ends of the horizontal and vertical sync pulses in the inverted TV signal, and send out a clamp output. consists of a simple clamp composed of a semiconductor and a capacitor that sends out a clamp output with waveform distortion, and a comparator that compares the output of the simple clamp with a reference voltage and separates horizontal and vertical synchronization pulses from the television signal. and a changeover switch that performs a switching operation in response to the output of the comparator to hold the peak values of the horizontal synchronization pulse and vertical synchronization pulse in the television signal output from the differential amplifier, and the output of the changeover switch. an operational amplifier that integrates the differential amplifier to generate a voltage that compensates for the sag included in the television signal output from the differential amplifier; In a television signal feedback clamp circuit having a differential amplifier, a constant integrated output is sent to the output side of the comparator when there is no waveform distortion in the output of the comparator, and when there is waveform distortion, a constant integrated output is sent to the output side of the comparator. An integrator that sends out an integral output that has changed in response to waveform distortion is provided, and the output of the integrator is applied as a reference voltage to the comparator, so that it is not affected by the waveform distortion included in the output of the simple clamp. This is achieved by making it a feature.

[Effect]

According to the present invention, when clamping a television signal, the reference voltage of the comparator is set as shown in FIG.
By using an integral voltage that changes depending on the input signal as _E1 as a reference for the comparator, a great effect is produced in that the television signal can be clamped stably.

〔Example〕

FIG. 1 is a diagram showing an embodiment of a television signal clamp circuit according to the present invention, and FIG. 4 is an explanatory diagram of the operation of FIG. 1. Note that the symbols on the left side of FIG. 4 indicate the waveforms of the portions with the same symbols in FIG. Note that the same reference numerals indicate the same objects throughout the figures.

In the figure, 9 is a resistor, 10 is a capacitor, and 11 is a buffer amplifier. The details of the present invention will be explained below with reference to FIGS. 1 and 4.

First, a television signal with a sag input from the terminal IN is inverted by the inverting amplifier 1, and a television signal having a first-order slope due to the sag as shown in FIG. 4 is output.

Incidentally, the scale of the time axis is different between the left side and the right side of point A shown on the right side of FIG. Furthermore, the upper dotted line indicates the envelope of the leading edge of the horizontal and vertical synchronizing pulses when an all-black television signal is input.

The tip of the horizontal synchronization pulse being output from the inverting amplifier 1 is clamped by the simple clamp 2, but since the duty of the equalization pulse within the vertical blanking period and the horizontal synchronization pulse within the vertical synchronization pulse is different. As shown in FIG. 4, the envelope of the horizontal synchronizing pulse becomes mountain-shaped in the vicinity of the vertical synchronizing pulse, causing waveform distortion.

This clamp output is compared with a reference voltage by a comparator 3 and output. This comparator output is integrated by an integrating circuit consisting of a resistor 9 and a capacitor 10, and then passed through a buffer amplifier 11. Since the part having a voltage equal to or higher than the reference voltage is extracted, it is possible to separate a correct horizontal synchronizing pulse without any omissions from a television signal with a sag, as shown in FIG.

In addition, except for the vertical blanking period, Fig. 4-,
, there is no waveform distortion, and the reference voltage is constant (see both ends of Figure 4).

Here, in the conventional method, when the output of the simple clamp shown in Fig. 4 is input to the comparator 3 and a constant reference voltage E is applied as shown by the dotted line, B ₁
If noise is introduced at the point, an erroneous pulse will be obtained, and B ₂
If the output of the simple clamp fluctuates in this respect, there is a possibility that the horizontal synchronization pulse will be lost.

However, in the present invention, since a voltage as shown in FIG. 4 is used as the reference voltage E ₁ , this voltage E ₁
As shown in FIG. 4, it is approximately at the center of the horizontal synchronizing pulse, and even if the horizontal synchronizing pulse portion of the input vertical synchronizing pulse fluctuates, the comparator will not output an erroneous pulse. That is, stable operation can be obtained against level fluctuations.

Now, the changeover switch 4 is turned on/off in response to the horizontal synchronization pulse separated by the comparator 3, and the peak value of the horizontal synchronization pulse of the television signal output from the differential amplifier 8 is sampled and held. A horizontal sync pulse is extracted.

Then, by integrating the horizontal synchronizing pulse taken out by the operational amplifier 5 having a feedback circuit of a capacitor 6 and a resistor 7, the DC voltage of the envelope of the peak value of the horizontal synchronizing pulse of the television signal input to the terminal IN (Fig. (Expanded time axis)
is obtained and added to the differential amplifier 8. Therefore, a TV signal without sag can be obtained from a TV signal with sag.

That is, by setting the reference voltage of comparator 3 to _E1 during the vertical synchronization pulse portion, a circuit that is more resistant to noise than the conventional system can be created, and when the vertical synchronization pulse comes in, the reference voltage Since the voltage also decreases, stable operation is guaranteed.

〔Effect of the invention〕

As described above in detail, the present invention has the great effect of realizing a television signal feedback clamp circuit that can operate stably against level fluctuations.

[Brief explanation of drawings]

FIG. 1 is a diagram showing an embodiment of a television signal feedback clamp circuit according to the present invention. FIG. 2 shows the image field signal. FIG. 3 is a diagram showing an example of a conventional television signal feedback clamp circuit. FIG. 4 is an explanatory diagram of the operation of FIG. 1. In the figure, 1 is an inverting amplifier, 2 is a simple clamp, and 3
is a comparator, 4 is a changeover switch, 5 is an operational amplifier, 6 is a capacitor, 7 is a resistor, 8 is a differential amplifier, 9 is a resistor, 10 is a capacitor, and 11 is a buffer amplifier.

Claims (1)

[Claims] 1. A television signal with sag is inverted, and the leading ends of the horizontal and vertical synchronizing pulses in the inverted television signal are clamped and a clamp output is sent. However, within the vertical blanking period, the waveform A simple clamp configured to include a semiconductor and a capacitor and configured to send out a distorted clamp output; a comparator that compares the output of the simple clamp with a reference voltage to separate horizontal and vertical synchronization pulses from the television signal; A changeover switch that performs a switching operation in response to the output of the comparator to hold the peak values of the horizontal synchronization pulse and vertical synchronization pulse in the television signal output from the differential amplifier, and integrates the output of the changeover switch. an operational amplifier that generates a voltage that compensates for the sag included in the television signal output from the differential amplifier; In a television signal feedback clamp circuit having an amplifier, a constant integral output is sent to the output side of the comparator when there is no waveform distortion in the output of the comparator, and when there is waveform distortion, the output side is outputted from the output side of the comparator. An integrator is provided that sends out an integral output that has changed in response to the change, and the output of the integrator is applied as a reference voltage to the comparator to create a configuration that is not affected by waveform distortion included in the output of the simple clamp. A television signal feedback clamp circuit characterized by: