SU217046A1 - - Google Patents

Description

FREQUENCY CONVERTER TO BINARY CODE Offering relation to the field of information conversion and coding. Frequency-to-binary frequency converters are known, which contain a reference frequency generator connected via a coincidence circuit with a reference frequency counter, the output of which is connected to a decoder and a reference frequency counter. The proposed device is characterized in that it contains registers and coincidence circuits, the decoder input is connected to a reference frequency period counter, the output through the first register is connected to the first coincidence circuit, the output of which is connected to a second register connected to the reference and coincident circuits frequencies. The inverse output of the second register is connected to the coincidence circuits for outputting the converted values and initial settings and the coincidence circuit connected to its single input. This allows an increase in the range of convertible frequencies. FIG. 1 shows a block diagram of the proposed device; in fig. 2 - time diagram of his work. measured frequency pulses, delay line 21 and a decoder 22. The measured frequency fx (when enrolled after the driver / through the coincidence circuit 2 to the register 13, sets it to "1. The register 13, by its single output, allows the 5 pulses to pass through the coincidence circuit from generator / 8 to the input of the counter 19 pulses of the reference frequency, and after a delay time through the delay line 21 allows the pulse of the measured frequency of the pulses / 1 to pass through the coincidence circuit 4 to the input of the counter 20; the delay time is chosen so that fxf, which set register 13 to "1, failed to go through a matching circuit 4, and all subsequent pulses passed. Thus, both counters are turned on synchronously with the arrival of fxf impulse, which marks the start of conversion. The counters are also turned off simultaneously. the measurement is always given after a strictly defined time since the start of the conversion.To output this signal, a decoder 22 is connected to the counter 19, at the output of which the signal setting to "1 register 14 is

only when counter 19 counts the number of period pulses N I1 determined by this converter.

The first one that came from the moment register 14 was set to “1 pulse of the measured frequency of the period T, passed the ow / 7 scheme

dip 12, will set to "O register 13." This pulse is the signal of the end of the conversion. Since the values of periods 7 of the measured frequency fj. vary over a wide range, then for different frequency values, the measurement end signal can be obtained at different times after the preparation signal of the end of measurement.

While the counters 19 and 20 will calculate a different number of periods of T n Td.

With the setting in “About register 13, the matching schemes 3 and 4 are closed, the matching scheme 2 is opened, and by the signal About register 13 is set to“ 1 register 15. The single arm of register 15 allows 6-8 signals to go through the matching schemes registers 16 and 17 from the previous measurement, to rewrite the contents of counter 19 to register 16 through matching schemes 5 and to register 17 through matching schemes 10 from the performed measurement, to setting the initial levels on the circuit elements to prepare the converter for the next measured th.

The code corresponding to the measured frequency

obtained after dividing the contents of register 16 (divisible) by the contents of register 17 (divisor), and the contents of these registers can be transferred for processing at any time throughout the entire time of the next measurement. If the contents of registers 16 and / 7 are not used, then upon receipt of the result of the next measurement, it will be lost.

Matching schemes 11 and 12 permit the output of the values of counters 19 and 20 to the receiving device of a digital computer.

Subject matter

A frequency converter into a binary code containing a reference frequency generator connected through a coincidence circuit with a period counter of the reference frequency, the output of which is connected to the decoder and the period counter of the measured frequency, characterized in that it contains registers and matching circuits, with the decoder input

connected to the period counter of the reference frequency, the output through the first register is connected with the first coincidence circuit, the output of which is connected to the second register connected to the coincidence circuit of the measured and

reference frequency, the inverse output of the second register is connected to the matched output circuits and the initial settings and the matching circuit connected to its single input.

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