SU1176264A1 - Digital phasemeter - Google Patents

Abstract

A DIGITAL PHASOMETER containing a two-channel frequency converter, the first, second and third inputs of which are connected respectively to the terminals, the measuring signal and the output of the frequency shaping unit, and its outputs are connected via a level regulator to the inputs of the driver of the impulses of the memory register, the output of which is connected to the digital reference input block, characterized in that, in order to improve the measurement accuracy, the first and second triggers, the first, second and third elements I, a reversible counter are entered into it to, the summing and subtracting inputs of which are connected respectively to the outputs of the second and third .I elements, and its output is connected to the signal input of the memory register, the input of the first trigger is connected to the output of the first pulse shaper, and its single output is connected to the first inputs of the AND elements, to the control input of the memory register, the second inputs of the first, with the SS of the second and third elements, And are connected respectively with the output of the second (the left pulse generator and with the zero and single outputs of the second trigger Pa, the first input of the second three: - Gera is connected to the zero output of the first flip-flop, and its second input is connected to the output of the first And element, the third inputs of the second and third And elements are connected to the second output of the frequency shaping unit.

Description

The invention relates to a measurement technique and can be used to measure the phase shift of continuous signals. The purpose of the invention is to increase the accuracy of measuring the phase shifts of continuous signals achieved by reducing the quantization error, since. a double measurement of the phase shift is made, and the error due to the influence of external and internal noise of the circuit being measured is also reduced. . The drawing shows a block diagram of a digital phase meter. The device contains a two-channel frequency converter 1, the first, second and third outputs of which are connected respectively to the terminals of the reference, measuring signal and to one output of the frequency generator 2, and its outputs are connected via level regulators respectively. 3 and 4 to the inputs of the pulse formers 5 and 6. The output of the pulse shaper 6 is connected to the counting input of the trigger 7, whose single output is connected to the inputs of the AND 8-10 elements and to the control input of the storage register 11. Other inputs of the AND 8 elements - 10 connected to pulse shaper 5, with zero and single outputs of trigger 12, one input of the latter is connected to zero output of trigger 7, and the other input is connected to output of element 8. 8. Third inputs of elements 10 and 9 are connected to the other output of the forming unit 2 Memory output Registers 11 connected to a digital-readout unit 13, and its signal input connected to output of down counter 14 having inputs connected to the outputs of AND gates 10 and 9. T. . The digital phase meter works in the following way. Using a two-channel frequency converter 1, the measured phase shift is transferred from the frequency of the investigated signals lying in the frequency range to the fixed frequency of the output signals of the converter 1. Level stabilizers 4 and 3 normalize the output levels of the two-channel frequency converter 1 and thus eliminate amplitude errors of the phase meter. The pulse shapers 6 1 4 and 5 form a sequence of short start and stop pulses, respectively, at the moments when the output signals of level stabilizer 4 and 3 go through a zero value (for example, with a positive gradient). The frequency shaping unit 2 is a frequency divider with a division factor of n (where n is an integer equal to the capacity of the reversible counter 14), continuously filled with quartz oscillator pulses, followed by frequency 1 The frequency of the output signals of the two-channel frequency converter 1 is maintained equal to frequency f by synchronizing the reference generator of the two-channel frequency converter 1 with the output signal of the higher bit of the frequency divider of the frequency shaping unit 2. In the initial state, the elements 8 - 10 are closed, flip-flops 7 and 12 and down counter 14 are in the zero state. The first start-up pulse coming from the pulse formers 6 to the counting input of the trigger 7 sets it in one state and opens the elements AND 8 and 9. The generator pulses from the frequency shaping unit 2 are fed through the element 10 to the summing input of the reversible counter 14. Next thereafter, the stop pulse passes through the AND element 8 and sets the trigger 12 to the one state, the AND 10 element is closed, and the AND 9 element is unlocked. The generator pulses from frequency shaping unit 2 are fed through element 9 to the subtracting input of the reversible counter 14. The next start-up pulse sets the triggers 7 and 12 to the zero state, and the pulse from the single output of trigger 7 enters the control input of the memory register 11, performs a census into it of the values of the CRD from the direct outputs of the reversible counter 14 and the inverse figure of the sign trigger included in the reversible counter 14. The inverse output of the sign trigger of the counter 14 is the highest bit of the output counter Yes. Output code for 3111762644

remembering register 11, the value of the importance of quartz pulses

which is equal to the value of the measured frequency generator unit

The phase shift indicated by digital-2 is chosen equal to 0.5. A synchronized reading unit 13. The cycle of measuring start and stop pulses with impulse ends. The proposed generator does not produce

Thus, in the proposed device, the double measurement of the phase gap in comparison with the prototype reduces the shift: from the start to stop pulse, the error of the direct code from the stop code to the start and stop is reduced twice and the pulse decreases in additional code. Solution of the external and internal results of both measurements are added up .m.

Claims (1)

DIGITAL PHASOMETER., Containing a two-channel frequency converter, the first, second and third inputs of which are connected respectively to the terminals of the reference, measuring signals and the output of the frequency forming unit, and its outputs are connected through level stabilizers to the inputs of the pulse shapers, a memory register, the output of which is connected to the input digital reading unit, characterized in that, in order to improve the measurement accuracy, the first and second triggers, the first, second and third elements And, a reverse counter are introduced into it ir, the summing and subtracting inputs of which are connected respectively to the outputs of the second and third elements And, and its output is connected to the signal input of the memory register, the input of the first trigger is connected to the output of the first pulse shaper, and its unit output is connected to the first inputs of the elements And, to the control input of the memory register, the second inputs of the first, second and third elements AND are connected respectively to the output of the second pulse shaper and to the zero and single outputs of the second trigger, the first input second flip-flop is connected to the zero output of the first flip-flop and its second input is connected with the output of the first · AND gate, the third inputs of the second and third elements and connected to the second output of the frequency shaping. SU <„, 1176264>