DE1132584B - Amplitude filter for television receivers - Google Patents

Description

Amplitude filter for television receivers The invention, which. a circuit arrangement for separating the sync pulses of a composite video signal from the video signal -affected, uses the special properties of a tunnel diode, which is known a falling branch in its voltage characteristic, d. H. a negative one Resistance.

A composite video signal is connected to the series connection of a resistor and a tunnel diode, three different areas must be distinguished: At low voltages (below the falling branch of the voltage characteristic) the internal resistance of the tunnel diode is positive and relatively small because of it closes an area of negative resistance and beyond that an area with greater positive resistance, the tunnel diode.

To separate the sync pulses from the video signal itself, will the composite video signal to the series connection of a tunnel diode and a resistor applied that the video signals themselves in the range of the small positive resistance value the tunnel diode fall, while d they sync pulses the range of the negative Paint over resistance value. The fact that the sync pulses cover the area of the Do not just sweep the negative resistance value, but also into the subsequent Branch of the current voltage characteristic with a larger positive internal resistance of the Tunnel diode, an effect is achieved that limits the amplitude: g resembles.

The invention is therefore that a series connection of a Tunnel diode and a resistor is provided that the composite video signal is supplied that the sync pulses the falling part of the resulting voltage characteristic : at least sweep over the series connection and the separated sync pulses can be removed parallel to the tunnel diode. It is advantageous that the value of the resistance exceeds the absolute value of the negative resistance of the tunnel diode. As a result, a tilting effect of the series connection is achieved in a manner known per se, which can promote the separation process of the sync pulses.

In a further development of the invention, the composite video signal is used so applied to the series circuit that the sync pulses up to the falling Branch of the current voltage characteristic subsequent part can be controlled.

According to a further feature of the invention, the composite video signal fed to the series circuit via a so-called level maintenance. As the tunnel diode a relatively small internal resistance even at extremely low voltages has, it can be further advantageous that the level maintenance at least one contains another tunnel diode. Furthermore .es - z. B. to prevent repercussions the changes in resistance of the series circuit - advantageous that that of the circuit arrangement supplied video signal in the circuit is supplied by a generator whose Internal resistance value is smaller than the resistance of the series circuit.

For connecting the series connection of resistor and tunnel diode are the most diverse places in the circuit of a television receiver between Video rectifier and. ' Picture tube possible. The composite video signal can, for. B. directly behind the video rectifier and also behind a video amplifier tube or also in the emitter or collector lead of a video transistor stage.

Further details of the invention emerge from the following Description of the examples shown in the drawing, FIG. 1 using a Current-voltage diagram shows the mode of operation of the circuit arrangement according to the invention explained, while FIG. 2 shows an example of an embodiment of an inventive Circuit arrangement omitting all that are not necessary to understand the invention Circuit elements shows.

As explained in FIG. 1, the addition of the known voltage characteristic a of a tunnel diode and the characteristic b of a positive resistance (whose resistance value in the illustrated case is greater than the absolute value of the negative resistance of the tunnel diode) results in a result. Voltage characteristic e, which has a falling (and in the illustrated case "falling", ie unstable) branch. As the lower part of Fig. 1 explains, a video signal mixture v is applied to this in the figure with drawn series circuit of resistor R and tunnel diode T (terminals A, B) that the sync pulses S sweep the falling part of the resulting voltage characteristic. For the composite video signal applied to the series circuit, the series circuit acts as a voltage divider, the internal resistance of the tunnel diode being relatively small for the video signals themselves and negative for the synchronous pulses that sweep the falling part of the voltage characteristic. The effect of this is that the voltages (terminals C, D) taken parallel to the tunnel diode are considerably weakened in the area of the video signals themselves (image content) and are noticeably increased in the area of the sync pulses. Because the peaks of the sync pulses protrude into the part of the current voltage characteristics that adjoin the falling branch, there is an effect that resembles an amplitude limitation, because the internal resistance of the tunnel diode effective in this part of the current voltage characteristic is positive.

In Fig. 2, the IF circuit 1 is via the video rectifier 2 with the Video tube 3 connected, which controls the picture tube 4 on the anode side. In the anode lead of the video amplifier tube 3 are the resistors 5 and 6. From resistor 6 is Via the capacitor 7, the circuit arrangement 8 for separating the video signals applied sync pulses connected. This circuit arrangement 8 exists from the series connection of the tunnel diode T, from which the separated sync pulses are removed, and the resistor 9. Before the circuit arrangement 8 is a So-called level maintenance connected, which consists of the diode D and the supply capacitor 7 consists. In many cases it is advantageous to use an additional tunnel diode as the diode to use. The resistors 10 and 12 are used: to supply a suitable DC bias to determine the operating point. Capacitor 11 bridges resistance 10 for video frequencies.

The invention isn't just for that. in Figures 1 and 2 presupposed Composite video signals with positive directional, d. H. to the maximum values of the video signals apply applied sync pulses; but can also be used analogously for the Use composite video signals with negatively directed sync pulses.

Claims (7)

PATENT CLAIMS: 1. Circuit arrangement for separating the sync pulses a composite video signal from the video signal; characterized in that a Series connection of a tunnel diode and a resistor is provided that the Composite video signal is supplied so that the sync pulses cover the falling part at least sweep over the resulting voltage characteristics of the series connection and the separated sync pulses can be removed parallel to the tunnel diode. 2. Circuit arrangement according to Claim 1, characterized in that the value of the resistance exceeds the absolute value of the negative resistance of the tunnel diode. 3. Circuit arrangement according to claim 1 or 2, characterized in that the video signal mixed so on the series connection is applied that the sync pulses up to the falling Branch of the voltage characteristics of the series connection is controlled in the subsequent part will. 4. Circuit arrangement according to one of claims 1 to 3, characterized in that that the composite video signal of the series connection via a so-called level maintenance is fed. 5. Circuit arrangement according to claim 4, characterized in that the level maintenance contains at least one (further) tunnel diode. 6. Circuit arrangement according to one of claims 1 to 5, characterized in that the Video signal is taken from an imaginary generator whose internal resistance smaller than the resistance of the series circuit forming the circuit arrangement is. 7. Circuit arrangement according to one of claims 1 to 6, characterized in that that the video signal is picked up directly after the video rectifier. B. Circuit arrangement according to one of claims 1 to 6, characterized in that the video signal in the cathode lead of a video amplifier tube is removed. 9: Circuit arrangement according to one of claims 1 to 6, characterized in that the video signal in removed from the emitter lead or collector lead of a video transistor stage is.