SU568904A1 - Digital frequency meter - Google Patents

Description

(54) DIGITAL FREQUENCY ER of measuring the measurement results. The device has a signal source of 20. Digital frequency meter works as follows. In the initial state, the counters.2i // are filled in the zero-position of the zeroesol, the rigger 75 is in the “O” position, and its signal blocks the element I4. As a result, the impulses of the reference frequency from the reference frequency generator are not fed to the counter 2 via switch 3.. In the reversible counter 6. There is a number that depends on the accuracy of the measurement (the number of bits of the counter 2), the value of the reference frequency, the counting system, in the latter the result of the measurement and other parameters of the frequency meter are output. This number is determined from the following conditions:., L iiiin abbr., 1 where ./Viiiin is the value of the lower limit of measurement in counter 2; / arr., - ma1KS minimum sample frequency; .x is the value of the upper limit of measurement in counter 2. These conditions correspond to the measurement of the frequency of one period at the maximum frequency with an accuracy of at least. We denote this number with then the comparison block 7 outputs a logical signal if the number of the counter is 6 times. but or more than number C. In the initial state, number B of counter 6 is equal to number C, and block 7 outputs a signal to element AND 9 through inverter 5 and prohibits pulse pattern of exemplary frequency to the counter / A input. In addition, the signal c - Comparison unit 7 arrives at AND 12 and permits the passage of pulses of the measured signal to the input of counter 1J. The signals of the reversible counter 6 postugg on the switch 3 and set it in a position in which pulses of exemplary frequency are received on the element And 4. TaiK as the number in the counter // is equal to "0, then the signal at the Output of logic unit 14 is" O. When the first pulse of the measured frequency arrives at the frequency counter input (for simplicity, the input diagram of the formation of pulses of the measured frequency from the input signal in the drawing. not shown) it passes through the open element AND 12 and through OR 10 at the input of the counter 11. In the latter, the number 1 is set, as a result, at the output of block 14, a signal is set which sets the trigger 15 to the state 1. The signal from the trigger 15 is fed to the element And opens it to pass; 1 pulses of the reference frequency to the input of the counter 2. Also, the arrival of the first pulse of the measured frequency after the initial installation determines the start of the measurement. If by the arrival of the second pulse of the measured frequency, the counter 2 takes the value of more than Amir ,, but not more than Amas, then the output of the counter 2 gives a signal to the element 18. And at the same time, the element of the element OR 17, which represents the second impulse frequency. In this case, the second pulse measuring the frequency meter determines the end of the measurement. The trigger 15 is transferred to the state "O with the signal from the element 18". The measurement result is fed to the measurement result reading unit 19, and the frequency meter is set as the state and prepared for the next measurement. If the number in counter 2 is smaller by the arrival of the second pulse of the measured signal, the measurement continues, i.e. pulses of exemplary frequency arrive at the inputs of count 2. The pulses at the input of counter 2 arrive as long as the number in the counter // e takes one of the values M a, where M is the number in counter 11, and a is the base number (O, 1, 2 ...). At the same time, the number in counter 2 is greater than Lm. When this condition is fulfilled, an output appears at the output of element And 18, determining the end of the measurement. During the entire measurement time of the measurement, the counter 11 reads tM pulses from the measured signal, and the logic block 14 outputs signals at the moments when the number M in the counter is equal to a. The signals from the element 16 are fed to the summing input from counter 6, the number of which increases, and the block outputs a logical signal. The switch 3 "e" switches, and the input of the counter 2 through the element 4 receives impulses of the maximum frequency of the reference signal. If, before the arrival of the second pulse of the measured signal, the number in counter 2 becomes larger than Nmay. THAT corresponds to overflow of counter 2, then overflow unit 5 produces a pulse that reduces the number in the counter a and a time and enters the subtracting input of counter 6, decreases the number in this counter on “1. The output signal of the counter 6, which controls the switch 3, causes the output frequency of the switch 3 to be a sample frequency a times less than the maximum frequency. When the number in counter 6 decreases by one, the comparison unit 7 outputs the signal "O. As a result, the element AND 9 opens, the pulses of the exemplary (maximum) frequency arrive through the element OR 10 at the input of the counter 11. The signal of the block 7 closes the element AND 12, while the pulses of the measured signal do not arrive at the counter 11, which in this case functions as a frequency divider of the reference signal.

Claims (1)

5 The result of dividing from the counter // goes to switch 3. The signal of the emergency block 7 closes the element 16 and thereby prohibits the signal from passing through the PI1 / 7 element to the AND 18 element and to the counter 6. With each overflow of the counter 2, the number in the counter 2 decreases. and the switch is made to a new model frequency, a time and less than the previous one. Measurement is terminated with the arrival of the second 1 milli pulse of the measuring signal, which is supplied to the open element 13 and then through the element OR 17 and the element 18 and 18 to the trigger 15 and the block 19 for reading the measurement results. DETAILED DESCRIPTION OF THE INVENTION Digital frequency meter comprising serially connected frequency generator, switch, And element, counter, serially connected reading unit and trigger, the output of which is connected to the second input of the And element, as well as the inverter, the second counter, connected to the second input of the switch and the second element AND, connected between the output of the first counter and the input of the readout block, is about the fact that, in order to increase accuracy and speed, it is additionally introduced an overflow unit, a reversible counter and an interrupter unit, the output of which is connected to the inverter input, the second output of the overflow unit connected to the second input of the first counter, the third input of the last connected to the input of the reversible counter, and the input of the block is connected to the third INPUT of the switch, the elements OR,; the output is the first of which is connected to the input of the second counter, and the output of the second element OR is connected to the second input of the second element AND, the logic unit, additional elements AND, the first of which It is connected between the outputs of the generator of the reference frequency, the inverter, and the input of the OR element, the second between the outputs of the comparison unit, the signal source and the second input of the OR element, the third between the outputs of the inverter, the signal source and the input of the second OR element, and the fourth between the outputs of the block comparison, the logical unit and the second input of the reversible counter and the second input of the second OR element, the input of the logical unit being connected to the output of the second counter, and the second output to the second trigger input. The source of information taken into account in the examination: 1. R. E. Ermolov “Digital frequency meters, Leningrad, 1973, p. 46.