CS216320B1 - Connection for automatic regulation of the brightness of the brighthness signs deposited in the television picture - Google Patents

Description

The invention relates to an arrangement for the automatic regulation of the brightness of luminance marks embedded in a television image, in particular when the video design has a variable level, such as in CCTV systems used for defectoscopy, medical diagnostics, space monitoring and the like.

Television systems often require text, raster, or other marks to be added to the image, most often displayed as white. If the level of the video signal and thus the jaau of the picture changes, the brightness level of the inserted markers needs to be changed. The manual adjustment used so far distracts and burdens the operator. This leads, in an effort to reduce operator demands, for example by placing the displayed text with a black background in order to guarantee the readability of the text.

A further disadvantage in these cases is the loss of part of the image. When a television system is incorporated into a production line, eg as part of a dafectoscopic device, it is desirable to reduce the number of controls to a minimum in order to reduce the time required for image evaluation. The current solution does not meet this requirement.

The above drawbacks are overcome by a circuit for automatically regulating the brightness of the symbols embedded in the television image according to the invention, characterized in that the first input terminal of the circuit is connected both to the input circuit of the video signal measurement circuit and to the signal input of the luminance tag. The video output circuit is coupled to the input of the conditioning amplifier, the output of which is connected to the control input of the luminance mark circuit, the keying input of which is connected to the second input terminal of the circuit, and the output of which is connected to the output terminal of the circuit.

By using the circuitry according to the invention, an optimum display of marks added to the television picture is achieved without operator intervention. This eliminates the need to underlay the text, in particular, with a dark background and avoids the loss of part of the image; Advantages stand out in low light conditions when capturing television images, frequent changes in negative-positives, changing scene and so on. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT It is explained below with reference to the block diagram of FIG. 1, which illustrates the basic circuit arrangement according to the invention, and FIG.

In FIG. 1, the first wiring input terminal 1 is connected to the input of the measurement circuit 6 of the video characteristic and further to the signal input 61 of the luminance mark-up circuit 6. The output of the video measurement circuit 6 is connected to the input of the conditioning amplifier 2 whose output is connected to the control input 63 of the luminance supplement circuit 6. The second wiring input terminal 2 is coupled to the keying input 62 of the brightness supplement circuit 6 whose output is coupled and the wiring output terminal 2.

The salinity of the wiring according to the invention, Fig. 1, is as follows: in the video signal supplied to the first input terminal 1 of the wiring, which may be complete and must contain a DC component, a white mark signal is added the wiring terminal 2. In order to ensure automatic control of the amplitude of the white mark signal, some suitable characteristic of the video signal, such as a mean value, a peak value, a second central moment or the like, or a combination thereof, is removed from the video signal. In regulating amplifier 2 ^8e adjusts a voltage level representing the value of the characteristic quantity of the video signal to the level required by the control input 63 of the circuit 6, particularly appropriate gain and adding the constant DC components which affect the brilliance marks. The control signal at control input 63 of circuit 6 causes pulse amplitude control to represent the signal signal. This ensures that the brightness of the marks is still higher by the selected value than that of the brightest areas of the image. For some applications where eg inscriptions have a fixed place in the television image, it is advisable to measure the characteristic of the video design only at the place of the inscription.

In Fig. 2, the meaning of parts 1 to 2 is the same as in Fig. 1. The measurement circuit 6 of the video signal of Fig. 1 is in more detailed embodiment shown in Fig. 2 formed by the resistor χ and the capacitor 8 forming the integration cell. in this example, I measure the mean value of the video signal. The circuit ^{2B of FIG} . 1 is in FIG. formed by an operational amplifier 2, resistors 10 and 11, and an adjustable DC voltage source 12. The circuit 6 of FIG. 1 is then formed in FIG. 2 by transistors 12, 12 '

The operation of the circuit shown in FIG. 2 is as follows: the video signal is transmitted from the first input terminal 1 to the output terminal 2 by an emitter follower formed by a transistor and a resistor 14. The white signal signal is input into the video signal an emitter follower, whose input signal is pulses sensed from a resistor 16 that forms the load of transistor 17. Transistor 1? it is controlled by current pulses according to the occurrence of marks from the second input terminal 2 of the wiring. The amplitude of the mark signal is controlled by clamping to the output voltage of the operational amplifier 2 by means of a diode 18. This output voltage is an amplified difference of the mean value of the video signal and a constant voltage U from an adjustable source 12. is achieved by selecting resistors 10 and 11. The magnitude of the IT voltage from the source 12 determines the prominence of the white mark in the television image.

The circuit according to the invention, Fig. 1, can also be used in the case of color television.

Claims (1)

SUBJECT OF THE INVENTION A circuit for automatically regulating the brightness of luminance marks embedded in a television image, characterized in that the first wiring input terminal (1) is coupled to the signal input (61) of the luminance supplementing circuit (6) and to the video circuit input (4). the output of which is connected to the input of the conditioning amplifier (5), the output of which is connected to the control input (63) of the luminance supplement circuit (6), its keying input (62) being connected to the second wiring input terminal (2) and its output it is connected to the output terminal (3) of the wiring.