SU266877A1 - DEVICE FOR AUTOMATIC MEASUREMENT - Google Patents

Description

In the known devices for measuring parameters of television test tables, the measurement results are subjective, the measurement speed is small, and the complexity of the measurements does not provide the possibility of simultaneous visual observation of the results of measurements of all monitored parameters.

In the proposed device, to improve the noise immunity of measurement, one of the outputs of the control unit is connected directly to the video time selector, and to the other output through the image signaling unit, while the outputs of the switch clock generation unit are connected to the information storage and conversion unit.

The drawing shows a block diagram of the proposed device for automatically measuring the parameters of signals from television test tables.

The signal of television test tables (both for black and white and for color television), generated by optical or electric loot, is fed to the input of control unit 1. The latter includes the entire measuring device, sets the operation mode of programming unit 2, and also generates auxiliary signals necessary for the operation of the entire device. Mode

The operation of block 2 is set by extracting from the input signal a "further appropriate processing of the special code pattern. The character set of the latter unambiguously identifies the type of test pattern, which provides automatic switching of the measurement program, and also determines the way the test pattern is formed (optical, electrical, from a test film or Bideo-film, etc.). The control signal from the output of block 2 is fed to one of the inputs of block 5 and binds to the image signal and performs the appropriate switching in it. THAT makes it possible to produce a hard linking of the control pulses generated by block 5 to a test signal -Tables, which provides accurate automatic selection of interest. signal sections, and the elimination of inaccuracies in fitting the optical tables to the working part of the transmitting tube and the nonlinearity of the transmitting tube. To this end, signal components are identified that determine the temporal structure of the test signal being measured. In particular, in block 3, pulses are formed, which form a geometric grid in the image (separately, pulses of vertical and horizontal lines of the lattice). In addition, the control signal from the output of block 3 is performed by switching; in block 4 of the display. Output "pulses from -block 3, characterizing the temporal structure of the measured test table, are further fed to the input of the time selector 5 of the video signal, in which the pulses from the output of block 3 are shifted vertically with respect to the image and horizontally so that go to the image element of interest.

During the transmission of a single image field, a number of parameters of the signals of the test tables are measured once (for example, level charts, repetitions, clarity, gradation distortion, transmission tube sweep distortion, etc.), for which a series of pulses is generated, outputting to the measured image area for this type of test table. The signal - from the output of the time selector 5 of the video signal is fed further to the block 6 of the start of measuring channels, which sums up the input pulses corresponding to the same measured parameter on different test tables. Thereby, the parameters processed in the next block 7 of the logical processing of the video signal are combined into one algorithm. At the same time, these pulses are used to switch the circuits determining the end of compensation in the analog-digital converter 8 and to distribute the measurement information to the measurement channels produced in the switch 9.

A self-checking unit 10 is switched on between block 6 and block 7, in which pulses from block 6 form a simplified electronic test table reflecting the structure and characteristics of the measured test tables, allowing operatively to check the operability of practically the entire device and, if necessary, x provide appropriate alarm.

A test signal from the corresponding output of the block I is fed to one of the inputs of block 7. In block 7, the signal is converted to extract from it a reference level of reference of the parameter and the parameter being measured.

In block 7, the video signal is fixed in the interval of damping pulses. In order to eliminate the extent of damping pulses on the measurement results, the position of the operating point and the fixation of the level by the voltage obtained when measuring the mass of the level of damping pulses is automatically corrected. Next, the video signal is temporarily gated to detect the video signal component of interest, as well as to highlight the reference level. This additionally performs peak detection of the gated signal.

Converter 8, which measures the parameter of interest, uses an adder / /, summing the input signals — separately measured components and reference levels.

The coding of measurement results carried out in converter 8 is performed in a binary calculus system. His work is based on the bit-coded method. Moreover, the entire full cycle of one measurement of all parameters is completed during the transmission of one image field. For this purpose, the fact is used that, with a rigid attachment to the image sipnal, carried out in this device, it is possible to fully use for measurement operations the entire repetition time interval of the video signal components of interest that make up the field of the transmitted test table.

In the case of parallel encoder converter 8, the entire measurement process (along with averaging) can be performed during the transmission of one field of the image, which makes it possible to use the entire device to instantly measure the signal of the test field transmitted by the program during transmission of the program and not affecting on the back of the image. Depending on the parameter being measured at a given moment, the attribute of the exact distortion compensation (termination from 1 step) changes.

Thus, when measuring a level chart, accurate compensation is the presence or absence of a pulse after the compensation operation, and when measuring signal parameters that form "repetitions," an indication of exact compensation is the presence of a repeat pulse next to the main one after opertical compensation. when measuring and the parameters that determine the presence of "t nuchek on the image, a sign of exact" compensation is the duration of the pulses received after the operation and compensation, etc. For switching on the corresponding circuits Lines overlapping in time the lines during which compensation is made, and formed in the time selector 5 of the video signal.

Transducer 8 also allows another mode of operation in which the values of the supplied signals are counted, and further processing of the measurement information and outputting results in this mode can be carried out in an electronic computer (computer output).

From the output of the iS converter, the parallel code is fed to the input of the converter 12 of the code, matching the output of the converter 8 with the input of the switch 9 by converting the parallel code into a serial one and providing information on the measurement results, or various parameters to the corresponding input, the -block memory and the conversion Gformations

With this slot, the switch 9 is controlled by pulses that determine the measured parameter and are generated in block -6.

The output signal from the switch 9, corresponding to this measurement parameter, is fed to the corresponding input of the block 14 of the recording registers, which is the input block of the block / 3. Each input of block 14 receives an -sequential code corresponding to a given value of the measured parameter. Parallel one is removed from the potential outputs of block 14, which is then fed to the inputs of discrete information storing unit 15, which sequentially advances each bit of the second discrete code with each cycle of its receipt for storage. A number of single CYCLES of the measurement results are memorized, after which they are averaged. FOR THIS, the corresponding potential outputs of block 15 are connected to the inputs of the –site 16 € per day.

The unit 15 is switched by pulses generated by the unit 17 for forming the clock pulses.

In block 16, the results of individual measurements are successively summed up, and as the data of individual measurements accumulate, the result of the summation is presented to block 18 of the Average Value Record. After the end of the averaging cycle, its result is overwritten in block 19 of flip-flops, to which a signal from reset unit 20 is simultaneously fed, and then through block 2 / recalculation, IB of which simultaneously with recalculation into the tenth system takes into account the number of measurement cycles for which averaging is performed, the results

Measurements of the Parameters of the television test tables are transmitted to the display unit 4, which displays, for example, in the mnemonic image of the monitored signal.

The signal, the transient "and block 4, can be fed to the input of the computer. This allows an integral evaluation of the quality of the television system in the light-signal or signal-signal sections. According to the computer-defined algorithm for processing the measurement information received at its input, as well as to perform some measurement operations and output the measurement results to print.

Subject invention

Device for automatic measurement of parameters of signals from TV test tables, containing | control unit with five outputs, programming block, block for forming clock pulses, measuring channel triggering unit, self-monitoring unit, logical signal processing unit, adder, analog-to-digital converter , a switch, a code converter, an indication unit, characterized in that, in order to increase the Immunity of the measurement, a time is connected to one of the outputs of said control unit the video signal selector directly, and to another output, through a block of signaling to the image signal, while the outputs of the clock pulse-forming unit and the switch are connected to the block of storing and information conversion.