DE2347160B2 - CIRCUIT ARRANGEMENT FOR A VIDEO SIGNAL DETECTOR FOR DETECTING A VIDEO SIGNAL - Google Patents

Description

The invention relates to a circuit arrangement for a video signal detector for detecting a video signal, in order to add a control variable depending on the occurrence of synchronization pulses in the video signal with which a function of a television device can be switched on or off.

In many cases it is necessary to use functions of a television set, e.g. B. in image recording devices, depending on the presence of an image signal to '*> control. For example, an image recording device of simple design must not be operated for a long time with the head disk running if there is no video signal and the tape is still, since otherwise the video heads can be damaged. In such devices it is also advantageous to stop the tape automatically when there is no input signal in order to limit the tape consumption during recording. For the most gentle operation possible, it is also advantageous to provide an automatic stop option when playing back a recording at the end of this recording. These switching functions can best be derived from the presence of a video signal. Since the image content can vary between zero and a maximum value, the sync pulses are used as a fixed criterion for the video signal.

From DT-OS 19 32 936 is a circuit arrangement known for detecting a video signal that depends on the occurrence of synchronization pulses supplies a control variable in a video signal with which a television device is activated or deactivated can be. The known circuit arrangement includes a monostable sawtooth generator a proper time greater than a line period, the input of which is derived from the video signal and an their rear part separated synchronization pulses are fed to a threshold switch and a control circuit. With this circuit, not only the lines but also the image pulses are evaluated. At the output of the known circuit, if the video signal is sufficient, pulses appear in rhythm the Btldimpulse.

The present invention is based on the object of providing a circuit arrangement as described in the opening paragraph specified type, which is connected to a source for a video signal with its input and to its The output supplies a voltage that can assume two states: the presence or the absence of a video signal are permanently assigned. The circuit should be as simple as possible, but still be operationally safe.

To solve this problem it is proposed according to the invention in a circuit arrangement of the type mentioned that the source for the video signal is connected via an RC-C lied to a first transistor amplifier stage, at whose output the sync pulses contained in the video signal are available that another /? C-element a second transistor verse, amplifier stage is connected, at the output of which the sync pulses with reverse polarity are available, so that the outputs of both transistor amplifier stages are each coupled via an ohmic resistor to the base of a switching transistor, the emitter of which is at reference potential and the output signal to its collector the circuit arrangement arises as a DC voltage signal, and that in the presence of a video signal, the two transistor amplifier stages are alternately non-conductive, whereby the switching transistor is always conductive and the output signal approximately the reference potential appears, while in the absence of a video signal Both transistor amplifier stages are conductive, as a result of which the switching transistor is constantly blocked and the supply voltage potential appears as an output signal.

An advantageous embodiment of a circuit arrangement according to the invention is that the both transistor amplifier stages each consist of a transistor that the base of the first transistor via an ohmic resistor to supply potential and via a capacitor to the source for the video signal is connected, while the emitter is at reference potential, that via the series circuit an ohmic resistor and a capacitor, the collector of the first transistor with the base of the second transistor is connected that the base and the

Collector of the second transistor each with an ohmic resistor with the supply potential and the emitter of the second transistor is connected to the reference potential.

On the basis of an embodiment shown in the figures of the drawing, the invention is intended are explained in more detail. It is

1 shows a circuit arrangement, while in FIGS. 2 and 3 the courses of the The signals of interest shown are the case (Fig. 2) where a video signal is present and for the door Case (Fig. 3) where a video signal is absent.

A source 14 for a video signal - denoted by X 1 in the drawing - is connected to the base of a transistor 3 via a capacitor 1. The emitter of transistor 3 is at reference potential. The collector of the transistor 3 is connected via an ohmic resistor 4, the base via an ohmic resistor 2 to a source 15 for a positive supply voltage. The emitter of the transistor 3 is connected to the base of a transistor 8 via the series connection of an ohmic resistor 5 and a capacitor 6. The emitter of transistor 8 is at reference potential. The collector of the transistor 8 is connected via an ohmic resistor 9, the base via an ohmic resistor 7 to the source 15 for the supply voltage. The collector of transistor 8 leads via an ohmic resistor 10 and the collector of transistor 3 via an ohmic resistor 11 to the base of a switching transistor 12. The emitter of switching transistor 12 is on! Reference potential. The collector is connected to the source 15 for the supply voltage via an ohmic resistor 13. The collector of the transistor 12 leads to the output 16 of the circuit arrangement. The transistors are of the npn type. At the collector of the transistor 3 there is a signal which is denoted by X 2 , and at the collector of the transistor 8 there is a signal denoted by XZ. The output signal at output 16 is denoted by X 4. The corresponding signal curves can be found in FIGS. 2 and 3. The video signal 1 with positive polarity of the sync pulses is fed to terminal 14. In the transistor 3, the sync pulses are separated and appear at the collector of the transistor 3 with negative polarity. The transistor 8 forms an inverting stage, so that the sync pulses appear at its collector with positive polarity. The ohmic resistors 10 and 11 form an OR gate via which the switching transistor 12 is controlled. Since the sync pulses in the signals X 2 and X 3 have opposite polarity, the switching transistor 12 alternately receives a positive bias voltage from the two transistors 3 and 8 and is therefore always conductive. The output voltage at the collector of the switching transistor 12 is therefore always zero as long as the video signal and the sync pulses are present in the form described.

If the video signal at the input 14 disappears, then the transistor 3 is kept continuously conductive via the ohmic resistor 2. Likewise, the transistor 8 is with The help of the ohmic resistor 7 is constantly conductive. The collectors of the two transistors 3 are thus located and 8 almost to reference potential, and the switching transistor 12 is blocked as a result. In this case, on Output 16 picked up a positive voltage. So it is when there is a video signal at the input the output signal zero, in the absence of it the output signal positive. This is a clear one Assignment to the presence of a video signal at input 14 is given.

1 sheet of drawings

Claims (2)

Patent claims: - «·. 1. Circuit arrangement for a video signal detector for detecting a video signal in order to provide a control variable with which a function of a television device can be switched on or off depending on the occurrence of synchronization pulses in the video signal, characterized in that the source (14) for the \ o video signal! is connected to a first transistor amplifier stage via a KC element, at whose output the sync pulses contained in the video signal are available, that a second transistor amplifier stage is connected via a further ÄC element .. at whose output the sync pulses with reversed polarity stand that the outputs of both transistor amplifier stages are coupled via an ohmic resistor (10 or U) to the base of a switching transistor (12) whose emitter is at reference potential and whose collector the output signal of the circuit is generated as a DC voltage signal, and that if present of a video signal the two en transistor amplifier stages are alternately non-conductive, which means that the switching transistor (12) is always conductive and approximately the reference potential appears as the output signal (XA) , while both transistor amplifier stages are conductive when the video signal is missing, whereby the switching transistor (12) is constantly blocked and as an output signal (X 4 ) approximately the supply voltage potential appears. 2. Circuit arrangement according to claim 1, characterized in that the first transistor amplifier stage contains a first transistor (3), the base and collector of which each have an ohmic resistor (2 or 4) are on supply potential and its emitter on reference potential and its base is connected via a capacitor (1) to the source (14) for the video signal that the second Transistor amplifier stage contains a second transistor (8), the emitter of which is at reference potential and its collector and base each via an ohmic resistor (9 or 7) to supply potential and its base via the series connection of a capacitor (6) and an ohmic one Resistor (5) is connected to the collector of the first transistor (3).