SU681389A1 - Digital phase meter - Google Patents

Description

(54) DIGITAL PHASOMETER

The invention is DISCHARGED for a faam-measuring technique and can be used in radar and radionavigation, where it is necessary to measure the phase shift, proportional to the range with presence, noise, regular interference and spurious fa; zovyh shifts in the paths of radio-centered systems. A phase meter is known that contains sinusoidal voltage sensors, fit and limiters, coincidence circuits, phase shifting element, OR circuit, phase-code converter, code comparison devices, statistical processing device, device for estimating code O, 2TG; An additional calibrated phase shift is introduced into the reference signal path, which is taken into account and eliminated during the Subsequent processing of the measurement results ij. This phase meter has a complex structure and its measurement accuracy is insufficient. Also known is a phase meter, made in the form of two channels of the reference and test signals, containing narrow and wide pulses in the channel form and pulse switching devices, the first and second inputs of which are connected to the outputs of the narrow and wide pulse drivers, the trigger, the inputs of which are connected to the outputs of the device for switching pulses , a coincidence circuit, a quantizing frequency generator, a horny ™ counter, a measurement number counting device, a pulse gate driver, a second coincidence element, Which input is connected to the output of the strobe pulse former, and the second input, with the output of a narrow pulse former in the channel under study, is the second counter, the comparator, the output of which is connected to the third inputs of the pulse switching device 2. This phase meter has the presence of errors in the circles O and 2f due to the fact that when measuring in the vicinity of the Q- O points, the trigger, which forms the time interval of K-fia moments through the zero of the reference and test signal, will be turned off in some measurements the entire period of the measured signal, which leads to an overestimation of the measurement result. Obviously, when measuring around the 2TG point, the measurement result will be underestimated, because due to the fluctuations of the signal under study, a narrow strobe-km pulse can occur on a wide star pulse, which when the trigger is formed, the time interval forming remains on for the entire period of the measured signal. The characteristic of such a phase meter will be nonlinear. . The aim of the invention is to increase the measurement accuracy due to the linearity of the phase meter characteristic. This is achieved by the fact that a digital phase meter, made in the form of two channels of the reference and test signals and containing in each of the channels, drivers of narrow and wide pulses connected at the input to the sources of the reference and test signals, and at the outputs - with the inputs of the impulse switching units , trigger ger is common for both channels, the inputs of which are connected to the outputs of the pulse switching units, the first coincidence element connected by the first input to the trigger output, the second to the quantizing frequency generator and the third to by the node of the measurement number, the second element of coincidence, the first input of which is connected to the outputs of the strobe pulse former, the second input - to the narrow pulse former in the channel of the signal under study and the output of the reference node of the measurement, and the output to one of the counters , the comparison node, the output of which is connected to the third inputs of the pulse switching units, and the inputs, one of which to the output of the first counter and the second to the Start signal source and to the second input of the measurement number reference node, the second counter connected to the output of the first coincidence element is provided in the channels of the reference and test signal ™ by the second wide pulse generator, the narrow pulse switching unit, the wide pulse switching unit, the second trigger, the third coincidence element, the third counter and the adder, and the second wide pulse generator in the reference signal channel is connected between the source of the reference signal and the first input of the switching device of wide pulses of 6 9 and the second formatatol: Sh11.i) Q. and pulse in the channel of the studied signal 11otsklk drove chen between the source of the test whitefish. and the second input of the wide pulse switching device, the third input of which is connected to the third input of the switching unit of the viscous pulses and the third input of the adder, the first input of the narrow pulse switching unit is connected to the output of the narrow pulse generator in the channel of the signal under study, and the second one; Connected to the output of the narrow pulse generator in the reference signal channel, the outputs of the narrow and wide pulse switching devices are connected to the inputs of the second trigger, whose output is connected to the input of the third coincidence element, the second input of which is connected to the output of the quantizing frequency generator, the third input to the output of the reference node the number of measurements, and the output to the input of the third counter, the output of which is connected to the second input of an adder connected by its first input to the output of the second counter. The drawing shows a block diagram of the device. A single-phase phase meter consists of shapers of a high impulse, shapers of 2 and 3 pulses in a reference signal channel, a shaper of 4 & pulses, shapers of 5 and 6 width pulses, and a shaper of a narrow pulse in the channel of the signal under study, blocks 8 and 9 of switching pulses, a narrow pulse puller unit 10, a broad pulse switching unit 11, triggers 12 and 13, a quantized frequency generator 14, a measurement number reference node 15, coincidence elements 16, 17 and 18, counters 19, 20 and 21, comparing node 22, adder 23. Shapes 1 and 7 of narrow pulses form narrow impulses on positive fronts of the reference and researched signals, shapers 2 and 5 form pulses of duration equal to 4eTBef3-ti of the reference and the signals under study, and the second formers of 3 and 6 wide pulses form pulses with a duration equal to three quarters of the period of the reference and test signals. The strobe pulse shaper 4 in the reference channel generates a pulse of duration equal to half the period of the reference signal. Counter 19 calculates the number of sound pulses of the channel under study that passed through the coincidence cell 18 56; vi N measurement measurements, the second input of which is connected to the output of the strobe pulse generator 4. The coincidence of the strobe pulse and the narrow pulse studied indicates the fact that the measured phase difference lies within O ... 1C. Comparison node 22 determines the Number of pulses received in the counter 19 for N consecutive measurements and controls the operation of the switching units 8–11 and the adder 23./If the number of pulses in the counter 19 is less than N / 2, then by the signal of the comparison node 22 through the block 8 pulses in a reference channel will pass a wide pulse, a narrow pulse will pass through block 9 of switching of pulses in the channel of the signal under investigation, / a narrow pulse of reference channel will pass through the switch of narrow pulses through block 11 to switch the width This impulse passes a pulse from the output of the second wide 6 pulse generator in the channel under study, and the adder 23 operates in the content addition mode: counters 2О 21. At the same time, a wide start-pulse and a narrow stop pulse are fed to the inputs of trigger 12, and trigger 13 narrow reference impulse and wide impulse under study. If the number of pulses counted by counter 19 is greater than N / 2, then the signal yanacpaBHeni 22 through the impulse switching unit B in the reference channel will pass through the start-impulse cue, through the impulse switching unit 9 in the channel of the signal under study will pass a wide stop pulse The high pulse switching unit 10 will pass the narrow pulse under study, the wide pulse switching unit 11 passes the pulse from the output of the second wide pulse generator 3 in the reference channel, and the adder 23 operates in the subtraction mode. second counter from the content of the counter 20. In both cases, the trigger 12 forms a time interval proportional to the phase shift and At this time opens the coincidence element 16, through which the quantizing pulses from the generator 14 arrive at the input of the counter 20. The trigger 13 in the first case forms the time interval is mea by a narrow reference and second wide studied impulses, if the measured phase difference exceeds 21Г, and in the second case - the time interval between the studied impulse and the second 9th wide reference impulse, if measured and the phase difference is less than zero. The removal of the specified impuser drivers. The operation and operation mode of the adder 23 occurs in the region of f 1t, since the duration of the strobe pulse is chosen equal to half the period of the reference signal, and the criterion of the comparison node operation is a coincidence / at least half of the narrow stop pulses strobe-and-g pulse for consecutive measurements. The count of measurement counts is based on the number of stop pulses. Consider the operation of the phase meter in the vicinity of points O and 21G. When measuring the 4 O point in the network, the setup inputs of the trigger 12 through the switching blocks 8 and 9 receive the signal from the former of 1 narrow and pulses in the reference channel, and in the channel of the signal under study - a signal from the formator of 5 wide pulses. In this case, the trigger 12 forms a time interval, which on the coincidence element 16 is filled with quantizing pulses counted by the counter 20. The input from the trigger unit 13 through the pulse switching unit 10 receives a signal from the narrow pulse generator 7 in the channel under study, and the trigger ring to the input of the pulse generator 10 13 through the pulse switching unit 11, a wide pulse is fed from the output of the imaging unit 3 in the reference channel. The trigger 13 forms a time interval in the event that, due to fluctuations of the signal under study, the value of the measured phase difference will be less than zero. This time interval is filled on the coincidence element 17, the quantized pulses, which are counted by the counter 21. The adder 23, at whose output the measurement result is formed, subtracts the contents of the counter 21 from the contents of the counter 20. For values of O, the trigger 12 remains off during the reference period signal due to a wide stop pulse, overlapping a narrow start-pulse. When the values are, the trigger 12 forms a time interval proportional to the measured phase difference, and the trigger 13 remains off during the reference signal period due to the presence of a wide reference pulse overlapping the narrow pulse under study at the installation input. When measuring R the vicinity of point P 2 TG to the setup inputs trigger 768 pa 12 through switching blocks 8 and 9, the signal from the former of 2 widths nx pulses arrives in the reference channel, and in the channel of the signal under study there is a signal from the former of 7 narrow pulses. In this case, the trigger 12 will form a time interval, which on the coincidence element 16 is filled with quantized pulses counted by the counter 20. The input from the trigger unit 13 through the pulse switching unit 10 receives a signal from the driver 1 of the narrow pulse of the reference channel, and the input to the zero input the trigger 13 through the block, the pulse switching 11 receives a wide pulse from the output of the driver 6 in the channel under study. The trigger 13 forms a time interval in the event that, due to fluctuations of the signal under study, the value of the measured phase difference is greater than 21, This time interval is filled on the coincidence element with 17 quantizing pulses, which are counted by counts 21. The adder 23, at the output of which formative; the measurement result adds up the contents of the counters 20 and 2 Pr. and the values of the trigger 12 remains on during the whole period of the reference signal due to a wide start-impulse overlapping the narrow stop-impulseS. At the values of f 2 / G, the trigger 12 forms a time interval proportional to the measured phase difference, and the trigger 13 remains switched off during the reference signal period, due to the presence of a wide pulse under study overlapping the narrow reference pulse at the input of the installation. The proposed device, in comparison with the prototype phase meter, provides a higher measurement accuracy in the ca. oh: decisive points of Oi 29G, which increases the reliability of operation when operating a radionavigation system in which the proposed device is used. Formula of the Invention Digital phase meter, made in the form of channels of the reference and investigated signals and containing in each of the channels shapers of narrow and wide pulses connected to the input from sources of the reference and investigated signals, and to the outputs from the inputs of the switching units of the pulses, trigger common for both channels, the inputs of which are connected to the outputs of the pulses switching blends, 98 the first coincidence element connected by the first input to the trigger output, the second to the quantizing frequency generator and the third to the output yai a reference of the number of measurements, the second element of coincidence, the first input of which is connected to the output of the strobe pulse former, the second input -.c with a narrow pulse former in the channel of the signal under study and with the input of the reference site of the number of measurements, and the output with one of the counters, the node. the comparison, the output of which is connected to the third inputs of the pulse switching units, and the inputs, one of which is the output of the first counter and the second to the Start source signal and the second input of the measurement number reference node, the second counter connected to the output of the first coincidence element, characterized in that, in order to improve the accuracy of measuring the linearity of the phase meter characteristic, it is provided in the reference and analyzed channels with second wide pulse shapers, a narrow pulse switching unit, a wide pulse switching unit, a second trigger, a third coincidence element, a third counter and an adder, with the second one forming a wide pulse in the reference signal channel connected between the reference source and the first input of the switching commutation rock; their pulses, and the second shaper of a wide pulse in the channel of the studied C1 drive is connected between the source of the signal being studied and the second input of the switching unit of their pulses, the third input of which is combined with the third input of the switching unit of the high pulses and the third input of the adder, the first input of the switching unit of narrow pulses connected to the output of the narrow pulse generator in the channel of the signal under study, and its second input is connected to the output of the narrow pulse generator in the channel of the reference signal, the outputs of the Switching between narrow and wide pulses is connected to the inputs of the second trigger, the output of which is connected to the input of the third coincident element - V SRI, the second input of which is connected to the output of the quantizing frequency generator, the third input to the output of the measurement number reference node, and the output to the input the third counter, the output of which is connected to the second input of the adder, connected by its first input to the output of the second counter.

9681389IQ

Sources of information accepted by v2. Application number 2325286/21

attention during the examination. to.;:, in 01 R 25/08, 06.O7.76, according to which. USSR author's certificate, a decision was made to issue a copyright certificate 331530, K.T., G 01 R 25/00, 1974.r evidence, (prototype).