DE3317672C2 - Circuit arrangement for deriving a trigger signal from a video signal - Google Patents

Abstract

A video trigger circuit is described which, if necessary, automatically rotates the video signal polarity in accordance with the requirements of television measurement technology so that the switching stage for generating a field identification pulse is controlled with the correct polarity without any operator effort. This is achieved according to the invention in that the pulse separation stage (2) connected to the field identification pulse generator stage (5) is also connected on the output side to a detection circuit (3, 4) for the polarity of the video signal which, after detecting the polarity, automatically switches the input amplifier (1) if necessary . Inverted in polarity, so that the same polarity of the video signal is always present at the output of the amplifier (1).

Description

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Electron beam oscilloscopes can be found in all areas of science and technology use. There are specially designed for television measurement technology Measuring oscilloscopes (e.g. the applicant's GO 40 Z device, described in »GRUNDIG Technical Informations «, Issue 3/1979, pages 124 ff), in which, for example, in addition to the normal version of the Measuring oscilloscope built in a television trigger automatic where there is a need to trigger on the first or second field. Circuits for generation of a field identification pulse require a video signal with a defined polarity on the input side.

From DE-OS 30 15 848 a synchronous disconnection circuit is known, in which the reference level is switched instead of the polarity. However, this results with an inverse input video signal also an inverse one Output sync signal that is bad for driving a circuit for generating a field identification pulse suitable is.

A synchronous separation circuit is also known from DD-PS I 57 439, which, however, has a second special one Input signal that is generally required for measurements with an oscilloscope in any video system not available.

The invention is based on the object of a circuit arrangement for deriving a trigger signal from a video signal to indicate the video signal polarity according to these requirements automatically rotates so that the field identification pulse circuit with no operator effort correct polarity is controlled.

This object is achieved according to the invention by what is stated in the characterizing part of claim 1

Features solved

Advantageous further developments of the circuit arrangement according to the invention emerge from the subclaims 2 to 4.

With the invention, the previous manual switching can be automated in a simple manner, a simple and clear structure of the control panel, in particular no additional switch, is given Any video signal is present and, according to the invention, the circuit arrangement also triggers automatic polarity reversal optionally on the first or second field.

The invention is explained in more detail below with reference to the drawing figure, for example

According to the figure in the drawing, the composite video signal (video signal) first runs through an amplifier 1, which has a special input P for polarity switching. Then the composite signal runs through a pulse separator 2, which separates the synchronous signal from the line content Multivibrator 3 and, on the other hand, connected to a field identification pulse generator stage 5, which supplies field identification pulses for the first (HB 1) or second (HB 2) field at the output.

The output Q of the monophonic multivibrator 3 connected to the pulse separation stage 2 is connected to the clock input of a further bistable multivibrator 4 (flip-flop), the output Q of which is connected to the input P for polarity switching on the amplifier 1

The function of the circuit arrangement according to the invention will now be explained in more detail below:

A logic level “high” applied to the input P of the amplifier 1 results in an inverting gain, while the level “low” results in a non-inverting gain. The pulse separation stage 2 following the amplifier 1 and the field identification pulse generator stage 5 can naturally only work correctly if the FBAS sign?!. is applied with the correct polarity to the pulse separation stage 2. If this is not the case, the monostable multivibrator 3 receives no input edges or no synchronizing pulses, at least in the area of vertical blanking. Its output Q drops after a certain number of lines, preferably for example 8 lines (standard video signal), while its negative output edge controls the flip-flop 4, the output Q of which changes its state and causes the amplifier 1 to change polarity. From this point on, the pulse separation stage works properly. The synchronous signal is applied to the monostable multivibrator 3, the output of which no longer drops and keeps the operating state of the amplifier 1 stable.

The synchronizing signal at the output of the pulse separator 2 can now be used to generate field identification pulses (Level 5) can be used.

For this purpose I sheet drawings

Claims (4)

Patent claims: 1. Circuit arrangement with polarity switching for deriving a trigger signal from a video signal, with an amplifier (1), a pulse separation stage (2) and a field identification pulse generator stage (5) connected to it, thereby characterized in that the pulse separation stage (2) also has a detection circuit on the output side for the polarity of the video signal connected after detecting the polarity automatically the amplifier (1) is optionally inverted in its polarity, so that at the output of the amplifier (1) the polarity of the video signal is always the same 2. Circuit arrangement according to claim 1, characterized in that the pulse separation stage (2) is connected on the output side to a monostable multivibrator (3), at the output of which a bistable Kippscnaltung (4) is connected, the output of which in turn has an input (P) for polarity switching connected to the amplifier (l). 3. Circuit arrangement according to claim 2, characterized in that the monostable multivibrator (3) changes state after a certain number of lines 4. Circuit arrangement according to claim 3, characterized in that the monostable multivibrator (3) changes its state after 2 lines or more 10