SU259267A1 - DEVICE FOR MEASUREMENT OF ABSOLUTE, RELATIVE AND REDUCED ERRORS OF FREQUENCY - Google Patents

Description

The invention relates to the field of electrical measuring equipment and can be used to calibrate frequency meters and sound frequency generators.

A known device for measuring absolute, relative and reduced frequency errors, containing an input driver, an exemplary generator, a time interval generator proportional to the product of the controlled frequency period by the nominal frequency value, a one-second time interval generator, a subtraction unit, a gate, an error sign determining unit, a quantity multiplier implsov, registration unit, switch and control unit, characterized by reduced speed and accuracy rhenium.

The proposed device differs from the well-known topics that it is equipped with three frequency scale dividers with - variable division factors, the first frequency scaler is connected between the output of the input driver and the input of the driver of the time interval to the nominal frequency value, the second between the output of the model generator and the input of the one-second time interval generator, the third between the output of the multiplier of the number of pulses and the input m block of registration. Such an embodiment of the device makes it possible to increase its speed and the accuracy of measurement.

The block diagram of the proposed device is shown in the drawing.

The device consists of an input shaper /, which is a combination of an amplifier-limiter and a kipp-relay; model generator 2, containing a crystal oscillator and a pulse shaper; scaled frequency dividers 3, 4 with switchable feedbacks and a division factor of /; a generator 5 of a time interval proportional to the product of the period of the monitored frequency by the nominal value of the frequency; shaper 6 one-second time interval, built on the basis of the ten-day frequency divider; subtraction unit 7; valve 5: multiplier 9, containing cxeMv allocating a certain part of the incoming number of impls; a scale divider of frequency Yu with a division factor k: block // determining the sign of the error; registration block / 2. contains a PULSE counter, decoder and indicators; the switch 13 and the control unit of 14. amplitude and duration with a period of follow (f - controlled frequency) receive the aia input of the divider 3. The first of these pulses, which determines the interval time interval, starts the single-second interval generator 6. The second input of the imaging unit 6 through the frequency divider 4 receives pulses with a following frequency -. At the input of the imaging unit 5, the output pulses of the divider 3 with a period of following / 7 are received. The former 5 is built on the basis of a frequency divider with a division factor equal to the terminal value of the frequency fa and obtained by recording the divider of the corresponding code in decades. 20 Output pulses of the formers 5, 6. arrive at the control inputs of the triggers of subtraction unit 7 and block // determine the sign of the error. The subtraction unit generates a pulse whose duration is equal to the difference modulus (iTjf-fa-} s. This pulse opens valve 8, through which quantizing frequency pulses fo of the reference oscillator 2 arrive at the input of the multiplier 9. The multiplier 9 detects the number of frequency pulses. fo proportional to time (l-Tj -fa-i) seconds by an amount proportional to the nominal frequency frequency / ". The output pulses of the multiplier 9 are fed to the input of frequency divider 10. From the output of divider 10 to the input of the counter of the recording unit Through switch 13 doing t number of pulses: iT -fn-l -fk is proportional to the reduced frequency error, and the digital indicators directly highlight the magnitude of this error in percent. The error sign indication signal goes to the input of the recording unit 12 from the trigger output of the block 11, fixing the arrival sequence to its inputs of the pulses of the end of time intervals. In the variation of the reduced frequency error, the ratio of the coefficients de 5 10 35 40 50 Å k n I is proportional to the change range of the frequency meter being tested. In the mode of measuring absolute and relative frequency errors, the control unit 14 sets the division factor of the 3 n 4 dividers to 1, and the divider W disconnects from the circuit. In the mode of measuring the absolute frequency errors, the number of pulses is fed through the switch 13 to the input of the recording unit 12 from the output of the multiplier 9: A A / C -fH-D-fn-fo. and B, the mode of measuring the relative frequency errors to the input of the recording unit 12 from the output of the Petpel 8 through the switch 13 enters the number of pulses: L. (five.-/"-)/. The device measures absolute, relative and reduced frequency errors in the range of 0.1-10% in the frequency range of 20 Hz to 100 kHz. Subject of the Invention A device for measuring absolute, relative and reduced frequency errors, containing an input driver, an exemplary generator, a time interval generator proportional to the product of the controlled frequency period and a nominal frequency value, a one-second time interval generator, a subtraction unit, a gate, an error sign determining unit, The multiplier of the number of pulses, the registration unit, the switch and the control unit, characterized in that, in order to increase the speed Twi and accuracy measurement, it is equipped with three large-scale frequency dividers with variable division factors, the first large-scale frequency divider connected between the output of the input driver and the input of the time interval generator proportional to the product of the controlled frequency period by the nominal frequency, the second between the output of the reference generator and the input of the imager one-second time interval, the third between the output of the multiplier of the number of pulses and the input of the recording unit.

f.