SU883785A1 - Device for measuring differential phase - Google Patents

Description

I

The invention relates to television technology and can be used to measure the differential phase of a television channel, as well as in integrated devices for measuring the quality indicators of radio-relay, cable and space communication lines, hardware-studio complexes of television centers, other stations.

A device for measuring the differential phase is known, comprising a band-pass filter connected directly to one of the inputs of the phase detector, and to another through a delay line. The output of the phase detector is connected to one of the inputs, i of the gating cascade, controlled by a switch (synchronous selector and zone selector) connected to the input of a bandpass filter. The output-gating cascade is connected to the integrator. The delay time of the signal in this device, provided by the use of the delay line, is equal to half the duration of the step of the connecting luminance 1 1.

Disadvantage: devices - low accuracy due to the presence of reflections, color. Subcarrier.

The most technical is the device; containing a band-pass filter, a series-connected sync selector, and a zone selector and a gating cascade 2.

The disadvantage of this meter is - - the presence of a delay line, the reflection of the signal in which - fix - - makes it possible to provide an extremely accurate measurement of the differential phase L Moreover, the need to integrate the output signal appearing at the output of the gating cascade leads to an increase in the effect of interference in the input signal on the measurement result.

Claims (2)

The purpose of the invention is to increase the differential measurement accuracy. The goal is achieved in that a device containing a bandpass filter, a gating cascade and a series-connected sync selector and a zone selector are inserted in series with an analog-digital converter, a computational block of a digital-to-digital converter, a limiter and a pulse generator, the output of which is connected to the control input. gating cascade, the output of which is connected to the input (m analog-to-digital converter, and the input - to the output of the band-pass filter, the output of which through entered sequentially with a single comparator, a delay pulse generator, and a sawtooth generator are connected to a limiter, a bandpass filter input is connected to a sync selector input, and the zone selector outputs are connected to a computing unit and comparator, respectively. This device measures the differential phase of a television channel with high accuracy without using a delay line and a phase detector, Fig. 1 is a block diagram of a device for measuring the differential phase; in fig. 2 shows diagrams, see his work. The device contains at the input a band-pass filter (PF) 1 and a sync selector -2 and a selector of 3 zones connected in series. The output of the bandpass filter is connected via a gate cascade 4, an ADC 5, a computing unit 6 and a DAC 7 to one of the inputs of the limiter 8, controlling the operation of the helmet and 4 through the generator of 9 pulses (GI One of the outputs of the selector 3 of the zone 8 through the comparator 10, the generator 11 of the pulse delays (GIZ) and the generator 12 of the sawtooth voltage (GPN) The second output of the 3 zone selector is connected to the control input of the computing unit. Consider the device using the example of measuring the differential phase using rivers Signals from test lines containing the measuring signal D2, consisting of five-step voltage and nozzle color: under the carrier and the signal of the color color carrier E. This signal (Fig. 2, a) is fed to the sync selector 2, There is a separate impulse line (Fig. 2, b) in which a measuring, signal D2 is transmitted. This impulse controls the operation of the zone selector 3, in which pulses are formed (Fig. 2, in-s). The location of these pulses corresponds to the zones of signal D2, in which the differential phase is measured. The output of the selector 3 zones connected to the comparator 10, these pulses are received sequentially. At the second output of the zone selector 3, corresponding codes, which control the operation of block 6, are generated. LF 1 provides for the output of the color subcarrier signals (Fig. 2, i). The allocated packet sub-carrier, located in the source signal at a five-step voltage, carries information about the distortion of the differential phase. Denote the phases of the phase change of the parts of the color subcarrier on the 1st, ..., 5th steps of the D2 signal relative to the phase of the part of the color subnet, transmitted at the blanking level, through C ... The signal (Fig. 2, i) is fed in parallel to the comparator 10 and the gating cascade 4. When a synchronization pulse is applied to the input of the comparator 10. FIG. 2, a pulse is formed at its output (FIG. 2, k), the cut of which corresponds to the transition position sinusoidal oscillation of the color subcarrier through zero (point A, fig. 2, i) The indicated slice triggers GIZ 11, made, for example, as a generator of sinusoidal oscillations of shock excitation and a counter. The generator 11 generates a pulse (Fig. 2, l), the duration of which is approximately equal to the duration of the string interval. The cut of the pulse generated by the GIZ 11 triggers GTP 12 (Fig. 2, m). The sawtooth voltage GPN is applied to the limiter 7, the level of which is regulated by the voltage coming from the multi-bit DAC 7. At the time when the voltage of the DAC 7 and sawtooth voltage GPN 12 are equal (point B, Fig. 2, m), at the output of the limiter, a pulse is formed, starting up the GI 9. In this case, the output of the gating cascade 4 is separated by a voltage equal to the signal level (Fig. 2) and at the gating point A. This voltage is converted into the ADC 5 into a digital code and fed on block 6 Initially the level is limited T, determined by the output voltage of the DAC, is arbitrary and the voltage at the output of the gating cascade can be any within the range. signal color subcarrier E (figure 2 and). If during the initial signal strobe the voltage E at the output of the gating cascade is not zero, block 6 generates the control code for the DAC7 and the level of the restriction coming from the DAC 7 to the limiter 8 changes until the output of the gating cascade 4 life will not be zero. In this case the point A, (fig. 2, i) corresponds to the passage of the color subcarrier E through zero. In addition, the code at the output of block 6 is fixed, therefore, the time interval from point A to point is fixed. Then the zone selector 3 forms (FIG. 2, d). / output pulse of FIG. 2, d), corresponding to the transmission interval of the first step of the D2 signal. The comparator 10 generates a pulse (Fig. 2, n), which corresponds to the position of the points A.2 and GIZ 11 (Fig. 2, o), GPN.12 (Fig. 2, p) and the limiter 8 provide the delay start 9 for a time equal to the interval between the positions of the points A and A ((Fig.2, i). The interval between the points Al and A2 is strictly equal to the interval between the points A and A. In the case when transmitting a color subcarrier the first step of the original D2 signal, there are no distortion of the type of differential phase, the position of point A corresponds to the transfer of the level, the zero potential. one hundred differential; general distortion, the voltage AV (Fig. 2, i) characterizes the phase shift of the color subcarrier at the level of the first step, and AV ULiN.g is the signal amplitude E. To determine the value of fj, the device additionally provides a measurement of V, and then block 6 determines the value of V. With a small value: LU 80 ... ..---tg-Sgrad). H 1 V yyyy Measurement of the value of if HZ is done similarly. The differential phase is determined by the memory based on the measurement results of H,. . . Vg- according to the received calculation algorithm. Tests on this device have shown that a measurement error can be obtained. an order of magnitude less than the measurement error in the device using a delay line and an analog phase detector. The device can be used in complex measures of quality indicators of a television channel. This does not require the creation of special units for analog processing of measuring signals, which leads to an increase in accuracy. The invention The device for measuring the differential. the social phase, containing a band-pass filter, a gating cascade and a series-connected sync selector and a zone selector, which, in order to improve the measurement accuracy, has been inserted. a digital-to-analog converter, a limiter and a pulse generator, the output of which is connected to the control input of the gating stage connected to the output of the analog-to-digital converter, and to the input to the output of the band-pass filter od which entered through the series-connected comparator, the delay generator and the sawtooth voltage pulse generator connected to the limiter, the input of a bandpass filter connected to the input sinhroselektora and zones selector outputs are connected with a computing unit and a comparator, respectively. Sources of information, rintye taken into account during the examination 1. USSR author's certificate 257561, cl. G 01 R 25/00, 5.08.684 i 2. Krivosheev M. I., Dvorkovich V; -P. Measure in color television. Bind, 1971. p. 107.