SU918884A1 - Digital phase/frequency meter - Google Patents

Description

I

. The invention relates to information conversion and measurement technology and can be used both for its intended purpose and in automated systems for remote, control and regulation of continuously flowing processes in systems with phase automatic frequency control of the PLL of low-frequency oscillators, in control and transmission systems data on the motion parameters of an object, in phase spectrum analyzers, etc.

A digital infra-low-frequency phase meter-frequency meter is known, containing a time interval former, AND gates, keys, a reference frequency generator, a divider or frequency multipliers, pulse counters, a control unit, and a digital reading device 1.

The known device has limited functionality and difficulty in transmitting information over the communication channel without taking additional measures and hardware costs.

Also known is a digital infra-low-frequency phase meter-frequency meter containing a reference oscillator, the output of which through controlled gates is connected to the inputs of the summing. and subtractive pulse counters, a driver, a register, a tapering device, a frequency divider included in the input circuit of a subtracting counter in series with a controllable gate and executed on logic elements and a reversible counter, a control unit, one of the inputs of which is connected to the driver, the other input is with a subtracting counter, and the outputs - from the control valve ef4 and gates 2}. ,

Claims (2)

The H3BecTHOf y phase meter-frequency meter also has limited functional capabilities and the difficulty of transmitting received information via communication channels. The purpose of the invention is to expand the functionality and improve the accuracy of converting the measurement information to the pulse frequency. The goal is achieved by the fact that in a digital phase meter-frequency meter containing a digital indicator, a quartz oscillator, a frequency divider, a control unit, Φ (,; the distributor of time intervals, the first and second pulse counters, whose zero inputs are connected respectively to the first and the second output of the control unit, the outputs of the first pulse counter are connected to a digital indicator, and the input of the control unit is connected to the second output of the time interval generator, the inputs of which are the device inputs , a switch of modes — work, shaper of measuring time interval, first and second controlled frequency dividers, digital dividing unit, first and second registry, the digital inputs of which are connected to the single and second counters of the pulse counter are entered. The control inputs of the first and second registers are connected, respectively, to the second and first outputs of the time generator, and the outputs are connected, respectively, to the inputs of the dividend and the dividers of the digital division block whose outputs are The set inputs of the first controlled frequency divider, the input of which is connected to the output of a quartz oscillator, the output are connected to the first input of the operation mode switch, the first output terminal and the input of the second controlled frequency splitter, the installation inputs of which are connected to the outputs of the second register, the output of the second controlled frequency divider is connected to the counting input of the second pulse counter and to the input of a frequency splitter, the output of which is connected to the second output terminal and to the second input of the mode switch operation, the installation input of which is connected to the third output of the control unit, the output is connected to the counting input of the first pulse counter, the third output terminal and the input of the measuring time interval former, the control input of which is connected to the first output of the control unit, and the output to the control input first pulse counter. The drawing shows a functional diagram of a digital phase meter-frequency meter. Phase meter frequency meter contains shaper 1 time intervals, first and second registers 2, and 3, control unit k, first and second counters 5 and 6 pulses, digital division unit 7, oscillator generator 8, first and second controlled lengths 9 and 10 , shaper 11 measuring time terrains, frequency divider 12, switch 13 modes of operation, digital indicator 1. At the same time, the inputs of shaper 1 time intervals are connected to the input terminals of the device. Its first and second outputs are connected to the control inputs of the first and second registers 2 and 3, respectively. The second output of the time interval generator 1 is additionally connected to the control input of the second counter 6 pulses and to the input of the control module C. The first and second outputs of control unit 4 are connected to the inputs for setting zero of the first and second counters 5 and 6 pulses, respectively. The third output of the control unit l is connected to the installation input of the switch 13, operating modes. The digital inputs of registers 2 and 3 are combined and connected to the same outputs of the second counter 6 pulses, the counting input of which is connected to the output of the second controlled frequency divider 10 and the frequency divider 12 input. The outputs of the first register 2 are connected to the inputs of the dividend of the digital division unit 7. The outputs of the second register 3 are connected to the installation inputs of a controlled frequency divider 10 and to the inputs a divider of the digital division unit 7, the outputs of which are connected to the installation inputs of the first controlled frequency divider 9; the input of the second frequency divider 10 through the first frequency divider 9 is connected to the output of the quartz oscillator 8.. At the same time, the input of the second frequency divider 10 is connected to the first input of the transducer. Key .13 modes of operation and the first output terminal of the device. The second input of the operating mode switch 13 is connected to the second output terminal of the device and connected to the output of the 12 frequency divider. The output of the switch 13 is connected to the counting input of the first counter 5 pulses and the input of the imaging unit 11 of the measuring time interval, the output of which is connected to the control input of the first counter of the 5 pulses, the outputs of which are connected to a digital indicator 14. The digital infra-low-frequency phase meter-frequency meter operates in the following manner. From the infra-low-frequency INP signals, the phase shift and frequency of which is to be measured, with the aid of the shaper 1 time intervals, pulses are generated at the first output, the duration of which is proportional to or equal to the time shift of the signals, and at the second output signal, the duration is proportional to or equal to the time. There is a small shift in the signals, and at the second output there are pulses whose duration is proportional or equal to the period of the signals. Before starting the measurement, the counters 5 and 6 of the pulses are set to zero with the help of pulses from the first and second outputs of the control unit. When the counter 6 is set to pulse to zero, the zero code is fed through registers 2 and 3 to the inputs of the dividend and divider and to the installation inputs of the second controlled divider 10 clock. From the outputs of the digital division unit 7, the installation inputs of the first controlled frequency divider 9 are also fed to the zero code. As a result, the division factors of the controlled dividers are 9 and 10. the frequencies are set equal to one and the pulses with the following frequency f, come from the output of the quartz oscillator 8, to the counting input of the pulse counter 6, (1) where AF 0.1; 0.01; 0.001, ...- discreteness of measurement results 9 6 When pulses arriving at the control input of the counter 6, permitting the counting of pulses, pulses with a frequency decreasing with each pulse will begin to arrive at the latter. The code of one number proportional to the time shift of the signals after the expiration of the pulse duration is memorized using register 3 and is fed to the inputs of the divider of the digital division unit 7. After the time T of the pulse has expired, NT pulses will go to counter 6. The code of the other number proportional to the period is saved by register 2 and is fed to the inputs of the dividend of the digital division block 7. As a result of dividing one number by another, the code of the number Ne arrives at the installation inputs of the first controlled frequency divider 9. The output frequency of the controlled frequency divider 9 is set proportional to the phase shift of the INCH signals. With the help of a controlled frequency divider 10, the pulses with the following frequency f, are divided into Yd Rs. As a result, a steady-state frequency value is obtained, and the frequency of the pulses at the output of the controlled frequency divider is proportional to the frequency of the HF signals. At the position of the switch 13 of the operating modes indicated in the drawing, the phase shifts are measured, and in the opposite frequency. The former 11 generates a measurement, time interval. Measurement results are displayed on a digital indicator, when measuring the phase shift in degrees, and the frequency in hertz. The device allows the transmission of measurement data in the form of a digital code over communication channels to processing centers for making appropriate decisions or to control centers of objects. DETAILED DESCRIPTION OF THE INVENTION A digital phase meter-frequency meter comprising a digital indicator, a quartz oscillator, a frequency divider, a control unit, a time interval generator, first and second pulse meters, the zero setting inputs of which are connected to the first and second control block outputs, respectively. The first pulse counter is connected to a digital indicator, and the input of the control unit is connected to the second output of the time interval former, the inputs of which are the inputs of a device differing from In order extension rhenium functionality and increase .tochnosti, introduced ere, switch modes, the measurement interval generator Bp Meni, first and second controllable frequency dividers, digital block de laziness. the first (second and second registers, digital inputs of which are interconnected and with the same outputs of the second pulse counter, the control inputs of the first and second registers are connected respectively to the first outputs of the time interval generator, and the outputs are connected to the dividend and dividers digital division unit, the outputs of which are connected to the setup inputs of the first controllable. 8 th frequency divider, whose input is connected to the output of the crystal oscillator, the output is connected to the first input of the switch The operation mode element, the first output terminal: to the input of the second controlled frequency divider, the setup inputs of which are connected to the outputs of the second register, the output of the second controlled frequency divider is connected to the counting input of the second pulse counter and the input of the frequency divider, the output of which is connected to the second output the terminal and the second input of the mode switch, the setup input of which is connected to the third output of the control unit, the output is connected to the counting input of the first pulse counter, the third output the terminal and input of the measuring time interval generator, the control input of which is connected to the first output of the control unit, and the output - to the control input of the first pulse counter. Sources of information taken into account during the examination 1. USSR author's certificate 36855, cl. G 01 R 25/00, 1973. 2. USSR author's certificate №, cl. G 01 R 25/00, 1966.