DE3226432A1 - Circuit for crispening the edges of a video signal - Google Patents

Abstract

In certain signal components, edges can be overemphasised too much which leads to a disturbing relief effect. According to the invention, a high-pass filter (30) is provided in the path of the video signal to the circuit (11-13; 16-18) generating the correction voltage (21). This filter has a cut-off frequency of about 800 kHz so that video signal components below this frequency are not evaluated. <IMAGE>

Description

Circuit for steepening the edges of a video signal,

Addition to P 3t 4.0 761.7 -The main application relates to a circuit for steepening the edges of a video signal, in particular for a video recorder, in the case of the Viaeosignai -ein obtained by two-fold differentiation of the video signal Correction signal is added in an adder.

The invention according to the main application is based on the object to ensure with this circuit that jumps in the video signal when the signal is small an optimal image enhancement is effected without the need for larger line jumps disturbing voltage peaks occur in the video signal.

This object is achieved in that means for limiting the amplitude of the correction signal are provided. These means preferably consist of two anti-parallel connected diodes, which a component carrying the correction signal, z.

B. an inductance serving as a differentiating stage, connected in parallel ind.

It has been shown that when using the circuit according to the main application with certain signal components in the vileo signal, edges are overemphasized, which leads to a disturbing, so-called picture sculpture. It is possible through Reducing the amplitude of the correction signal will eliminate this interference. then however, the circuit becomes less effective for other signal components.

The invention is based on the object of the circuit according to the main application to further educate that the mentioned disturbances do not occur.

This object is achieved by the invention described in claim 1 solved. Advantageous further developments of the invention are described in the subclaims.

The invention is based on the following knowledge. When a signal jump, e.g. a square pulse, is transmitted: o is the quality of the transmission thereof depends on how far the (> waves are still within the transmission bandwidth.

A sufficiently unadulterated transmission results in practice, if the 3rd and 5th harmonics are still transmitted according to Fourier. With a square pulse with a frequency of 500 kHz, the 3rd harmonic is 1.5 MHz and the 5th harmonic at 2.5 MHz. If the transmission bandwidth of the video signal is e.g. 3 MHz, so these harmonics are still transmitted perfectly. In this case it is Correction according to the main application is not necessary, but can even be made in the one described Way cause signal degradation. Therefore, by the invention High-pass video signal components with frequencies whose 3rd and 5th harmonics are still lie within the transmission bandwidth in the circuit for generating the Correction signal deliberately not evaluated. First video signal with an Irequen ?, at dfr ç 3. 13; xlmonic and 5th harmonic no longer in the transmission bandwidth lie, are used to generate the correction signal according to the main application. These Video signal components for which the correction according to the main application is particularly advantageous are treated unchanged according to the solution after the main application.

An embodiment of the invention is explained using the drawing. FIG. 1 shows a block diagram of the circuit according to the invention, wherein the same parts as in the main application are provided with the same reference numbers and FIG. 2 shows an exemplary embodiment for the high-pass filter.

Figure 1 shows the video signal 1 at the terminal 2, the amplifier 3> the delay element 4, the amplifier 5, the adder 7, the amplifier 8, the Low-pass filter 9, and the terminal 10, at which that in the sense of increasing the image sharpness processed video signal 1t is available. In the Addiçrstufe 7 the video signal is the Correction signal gl added. This is in the way with the amplifier 11, the Differentiator 12, the amplitude limiter 13, the second amplifier 16, the second differentiating stage 17 and the second amplitude limiter 18 from the video signal 1 won.

In addition, between the amplifier 3 and the amplifier 11, that is at the beginning of the circuit for generating the correction signal 21, the high-pass filter 30 with a cut-off frequency of 800 kliz inserted. As a result, the circuit 11-13, 16-18 to generate the correction signal 21 video signal components up to this frequency no longer fed. Video signal components with a fundamental frequency of 80Q kH have a 3rd harmonic at 2.4 MHz and a. 5th harmonic at 4.0 MHz. These Harmonics are still within the transmission bandwidth of the video signal Path g-5 7-109 which is about 4.5-5 MHz. The optimal value for the cutoff frequency of High pass 30 can also empirically by considering different, with the corrected Video signal 1 'written images can be determined.

Figure 2 shows a circuit for the high pass 30. The high pass 30 is with its input terminal 31 and its output terminal 32 between the output of the Amplifier 3 and the input of amplifier 11 are connected. It consists of the Resistor 33, the shunt inductance 34, the capacitors 35,36 and the resistor 37.

In a practically tested embodiment, the components had in Figure 2 the following values: R33: 1 kOhm L34: 130 / um C35: 110 pF C36: 120 pF R37: 1 KOhm cutoff frequency of the high pass 30: 800 kHz.

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Claims (4)

Claims 1. Circuit for steepening the edges of a Video signal in which the video signal is obtained by two-fold differentiation of the video signal obtained correction signal is added in an adder (7) and means (13,18) are provided for limiting the amplitude of the correction signal (21), according to Patent application P 31 40 761.7, characterized in that the video signal (1) of the Circuit (11-13; 16-18) for generating the correction signal (21) via a high-pass filter (30) is supplied, which suppresses the lower frequency range of the video signal (i). 2. Circuit according to claim 1, characterized in that the cutoff frequency of the high-pass filter (30) is chosen so that video signal components with a fundamental frequency, whose 3rd and 5th harmonics are still within the video transmission bandwidth, be blocked. 3. A circuit according to claim 1, characterized in that the cutoff frequency of the high pass (30) is of the order of 0.5-1.0 MHz. 4. A circuit according to claim 3, characterized in that the cutoff frequency is at 800 kHz.