SU1022070A1 - Radio frequency pulse phase meter - Google Patents

Abstract

EADOIMULAR PHASOMETER, containing the first and second phase detectors, phase shifting element by 90, connected to the first input of the second phase detector and the second input of the first, first and second electronic switches, amplifiers and display unit, characterized in that, in order to increase the speed of the device when the measurement of the phase difference between two radio pulse signals, the first and second blocks of video pulse extension, the first and second blocks of determining the polarity of video pulses, the third and fourth are entered into it, the third and fourth switches, quadrant determination unit, first and second amplifier-matching elements, linear voltage divider, N-channel threshold unit, logical signal processing unit, the output of the first amplifier connected to the first input of the first phase detector and the second input of the second, and the output of the second amplifier is connected to the first input of the second phase detector and through phase shifting the element 90 to the second input of the first phase detector, the input of the first video extension unit is connected to the output of the first phase The second input to the output of the second phase detector, the first inputs of the first and second polarity detection units of the video pulses are combined and connected to the third input of the device, and the second input of the first polarity detection unit of the video pulses is connected to the third output of the first video extension unit, the second the input to the low polarity video pulse detection unit is connected to the third output of the second video pulse extension unit, the first input of the first electronic key is connected to the first output of the first elongation videopulses th block, and the first input of the second electronic switch is connected to the second output of the block, two other inputs of these keys are combined and connected to the output of the first unit for determining the polarity of video pulses, | the first input of the quad definition block (L rant is connected to the combined output of the first and second electronic keys, and the second input to the combined output of the third and fourth electronic keys, the input of the first usi and litel-matching element is connected to the first output of the first video extension unit , and the input of the second - with the second output of the second block of video pulse extension, the inputs of the linear voltage divider to connect to the outputs of the first and second amplifying-matching elements, N inputs of the N-channel threshold b Loka connected to the N outputs of the linear: voltage divider, N inputs of the logical signal processing unit connected to the N outputs of the N-tap threshold unit, N +1 input of the logical signal processing unit connected to the output of the quadrant determination unit, and the output connected to the unit display, the first inputs of the third and fourth electronic keys are connected respectively to the first and second outputs of the second video pulse extension unit, and the second inputs of these keys are combined and connected to the output of the second determination unit

Description

polarities of the video pulses, the inputs of the first and second amplifiers are connected

respectively to the first and second inputs of the device.

The invention relates to a measurement technique and can be used in radio pulse devices of phase radar, radio navigation and also in optoelectronics and laser technology in the study of active and passive elements in pulsed mode, which serve to transmit and display optical information. A device for measuring the phase difference of a radio pulse signal is known, which converts radio pulse signals into continuous ones by means of a ramp pulse phase-locked loop and then measuring with a phase indicator, containing amplitude detectors / keys, storing the block fl. The disadvantages of this device are an increase in measurement error with an increase in the duty cycle and the inability to measure using single radio pulses. The closest in technical essence to the invention is a mono-pulse phase meter containing two phase detectors, a phase shift element 90 ° connected to the first input of the second phase detector and the second input of the first, amplifiers, amplitude detector, coincidence element, two differentiating elements, pulse limiters positive and negative polarity, control trigger, phase inverter, circuits consisting of two resistors and two capacitors, bridge circuit, electronic switches, reference tachogenerator, electric A motor, a selsyn, or a frequency frequency meter with an instantaneous value of the phase difference f2. The disadvantage of this phase meter is that the frequency at which the phase difference is measured is determined by the speed of rotation of the electric motor, which rotates the tachogenerator and selsyn (mechanical; running phase shifter) and lies in the range 50-150 Hz, which makes it possible to process radio pulse signals with a duration of at least 1-3 μs. The purpose of the invention is to increase the speed and, as a result, to ensure the possibility of measuring the phase difference between shorter radio pulse signals while retaining the advantages of the digital readout. The goal is achieved by the fact that a first-and second-phase detectors, a phase-shifting element 90, connected to the first input of the second phase detector and the second input of the first, first and second electronic, amplifiers and display unit are inserted into the radio-pulse phase meter video pulses, first and second polarity determination units of video pulses, third and fourth electronic keys, quadrant determination unit, first and second amplifying-matching elements, linear divider, voltage No, N-channel threshold unit, logical signal processing unit, with the output of the first amplifier connected to the first input of the first phase detector and the second input of the second, and the output of the second amplifier connected to the first input of the second phase detector and through 90 ° shifts - with the second input of the first phase detector, the input of the first block of video pulse extension is connected to the output of the first phase detector, and the input of the second - to the output of the second phase detector, the first inputs of the first and second determination blocks the polarities of the video pulses are combined and connected to the third input of the device, and the second input of the first polarity detection unit of the video pulses is connected to the third output of the first video pulse extension unit. The second input of the second polarity detection unit of the video pulses is connected to the third output of the second video pulse extension unit, the railing input of the first The electronic key is connected to the first output of the first block of video pulses extension, and the first input of the second electronic key is connected to the second output of this block, Other inputs of these keys are combined and connected to the output of the first polarity determination unit of the video pulses, the first input of the quadrant determination unit is connected to the combined output of the first and second electronic keys, and the second input is connected to the combined output of the third and fourth electronic keys element is connected to the first output of the first video extension unit, and the second input to the second output of the second video extension unit, the inputs of the linear voltage divider are connected with the outputs of the first and second amplifier-matching elements, the N inputs of the i-channel threshold unit are connected to the output of the linear voltage divider, Y of the inputs of the logical signal processing unit connected to N output No. 1 of the N-channel threshold unit, And + 1 input of the logical signal processing unit the quadrant determination units are connected to the output, and the output is connected to the display unit, the first inputs of the third and fourth electronic switches are connected respectively to the first and second outputs of the second video pulse extension unit, and torye key data inputs are combined and -Connect to the output of the second block determining the polarity of video pulses, the inputs of the first and second polarity determination unit vi derimpulsov, inputs of the first and second amplifiers respectively connected to first and second inputs of the device. Figure 1 shows the structural scheme of the pulse-phase meter; figure 2 - timing diagrams. The device contains the first and second amplifiers 1 and 2, while the output of the first amplifier 1 is connected to the first input of the first phase detector 3, the output of which is connected to the second input of the second phase detector 5 through the phase shifting element 4 by 90, blocks 6 and 7 of the video pulse extension, the inputs of which are connected to the outputs of the phase detectors 3 and 5, respectively, blocks 8 and 9 of the polarity of the video pulses, one of the inputs of which is connected to the third input device, which receives a clock pulse, and the other input of these blocks is connected to one of the outputs 6 and 7 of the extension video pulses, respectively, electric keys 10-13, one of the inputs of which is connected to one of the outputs of blocks 6 and 7 of the extension of video pulses, and the other input of the electronic keys 10 and 11 is connected and connected to the output of the block 8 definitions of the field of video pulses, and the inputs of keys 12 and 13 - with the output of block 9 defined by the NIN polarity of video pulses, block 14 of the definition of a quadrant, the error from the inputs of which is connected to the combined output of electronic keys 10 and 11, and the other with the combined output electronic keys 12 and 1 3, the amplifier-matching elements 15 and 16, wherein the input of the amplifier-matching element 15 is connected to one of the outputs of the video pulse extension unit 6, and the input of the amplifier-matching element 16 is connected to one of the outputs of the video pulse extension block 7, the voltage divider 17 , N-channel threshold unit 18, the inputs of which are connected to the outputs of voltage divider 17, respectively, the block 19 of the logical signal processing, the N inputs of which are connected to the outputs of the N-channel threshold unit 18, as well as, the output of block 14 defined neither the quadrant and the display unit 20, the input of which is connected to the output of the logical signal processing unit 19. Phase meter works as follows. The input pulse signals are fed to the input amplifiers 1 and 2 in each of the channels and from them to the phase detectors 3 and 5. The detectors must operate in a key mode, which is achieved by a suitable choice of the ratio between the amplitudes of the voltages applied to their inputs. In this case, the normalized characteristic of the phase detector approaches a triangular one. The dependences of the output voltage amplitude on the measured phase difference at the outputs of phase detectors 3 and 5 are shown in Fig. 20.5. I. .. Thus, at the outputs of phase detectors 3 and 5, in the presence of input radio signals, video pulses appear, the duration of which corresponds to the duration of the input radio pulse and can be 7-10 NS. These video pulses are fed to the input of blocks 6 and 7, which extend them to 1-3 MKS. In this case, an elongated video impulse with a positive polarity appears at the first output of block 6, which then goes to the input of the electronic key 10 and to the input of the reinforcing matching element 15. At the second output of the video impulse extension block 6, a negative polarity signal appears which is fed to the input of the electronic key 11. The signal from the third output of the block 6 is fed to the block 8 for determining the polarity of the video pulses. This block determines the polarity of the video pulse entering the block 6 of the phase detector 3. Depending on the polarity of the input video pulse, this block generates a signal controlling the operation of the electronic switches 10 and 11, and the signal polarity appears at the combined output of these keys which corresponds to the input for block 6. From the output of the electronic keys 10 and 11, the signals go to one of the inputs. quadrant definition block 14. The operation of the second channel of this phase meter, containing an input amplifier 2, a phase detector 5, a video pulse extension unit 7, a video pulse polarity detection unit 9 and electronic keys 12 and 13, is not different from the first channel, and the combined electronic switches 12 and 13 are connected to the second input of the quadrant determination block 14. In this case, the second output of the video pulse extension unit 7, on which a negative polarity signal appears, is connected to the electronic key 13 and to the amplifier-matching element 16. Thus, the linear voltage divider 17 is fed through the amplifying matching elements 15 and 16 signal corresponding to the second quadrant. The plots of the potential distribution on this divider, depending on the measured phase difference, are shown in Fig. 2. The position of the zero potential on the divider linearly depends on the measured phase difference of the input signals. Thus, by the output number of the voltage divider, at which the potential is equal to zero, it is possible to determine the recoverable phase difference. with discrete ICjaN, where b1 - the number of resistors in the linear divider 17 is tight. The measurement error is not worse than i1t | 44-Further processing is carried out by an L-channel threshold unit 18., which determines the voltage divider measure, the potential of which is equal to zero. From the foregoing principle of operation of the phase meter, it can be seen that this phase meter unit only works if its input signals correspond to the signals of the second quadrant; moreover, measurements are carried out only within O-GEO with IcjaN discrete. To extend the range of phase measurements to 360 °, use quadrant determination unit 14. The operation of this block consists in the fact that in the second quadrant it generates signals, according to which in block 19 of the logical signal processing, another 90 is calculated, which are added to it in block 20 of the display and output to the display. If the signals are in the third Quadrant, then the quadrant definition block 14 generates signals that are calculated to 180 in block 19 and respectively in the fourth 270 °. A phase meter is started with the arrival at its input of a clock pulse synchronous with the input of radio pulse signals.

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Claims (1)

A RADIO-PULSE PHASOMETER containing the first and second phase detectors, a 90 ° phase-shifting element, connected to the first input of the second phase detector and the second input of the first, first and second electronic switches, amplifiers and an indication unit, characterized in that, in order to increase the speed of the device when measuring the phase difference between two radio pulse signals, the first and second blocks of the extension of the video pulses, the first and second blocks of determining the polarity of the video pulses, the third and fourth electronic keys are introduced into it, a quadrant detection unit, first and second amplifying matching elements, a linear voltage divider, a Ν-channel threshold block, a logical signal processing unit, while the output of the first amplifier is connected to the first input of the first phase detector and to the second input of the second, and the output of the second amplifier is connected with the first input of the second phase detector and through the phase-shifting element 90 ° - with the second input of the first phase detector, the input of the first video extension module is connected to the output of the first phase detector, and the second course is to the output of the second phase detector, the first inputs of the first and second blocks for determining the polarity of the video pulses are combined and connected to the third input of the device, and the second input of the first block for determining the polarity of the video pulses is connected to the third output of the first block of the extension of video pulses, the second input of the second block determining the polarity of the video pulses is connected to the third output of the second extension block of the video pulses, the first input of the first electronic key is connected to the first output of the first extension block to de-pulses, and the first input of the second electronic key is connected to the second output of this block, the other two inputs of these keys are combined and connected to the output of the first block of determining the polarity of the video pulses, the first input of the quadrant detection unit is connected to the combined output of the first and second electronic keys, and the second input - with the combined output of the third and fourth electronic keys, the input of the first amplifier-s light-matching element is connected to the first output of the first video extension module, and the second input is from the second the output of the second block of extension of video pulses, the inputs of the linear voltage divider are connected to the outputs of the first and second amplifying matching elements, N inputs of the N-channel threshold block are connected to N outputs of the linear voltage divider, N inputs of the block of logical signal processing are connected to N outputs of the N-channel threshold block, N +1 input of the logical signal processing unit is connected to the output of the quadrant definition unit, and the output is connected to the display unit, the first inputs of the third and fourth electronic keys are connected us to first and second outputs of the second block of video pulses elongation, and the second input key data are combined and connected to the output of the second polarity determination unit videopulses, per- inputs respectively to the first and second amplifiers first- and second-connected inputs of the device.