SU428548A1 - FREQUENCY CONVERTER CODE - Google Patents

Description

P1processing can be used in control devices, “For example, as a signal converter from a frequency sensor, in complex digital devices — checking frequency meters and sound generators to control frequency deviation.

Frequency-code converters containing triggers, differentiating circuits, valves, OR circuit, a reference time generator, consisting of a counter, a valve and a trigger, a time interval generator corresponding to several periods of a hunting pulse sequence, a controlled frequency divider, and a generator are known. exemplary frequency.

In order to improve the accuracy of conversion in a wide range of input frequencies, the device offered includes a counter for measuring the period of an input pulse sequence and an idle device, whose input is via the first valve connected to the output of the difference time interval trigger and connected to the generator output of the reference frequency , one output of the input multiplying device is connected to the counter input of the reference time interval generator, the other output - to the first input of the control trigger ,

the second input of which is connected to the output of the trigger for allocating a difference interval of time, one output of the controlling trigger through the nerve differentiating circuit of the pg keys to the input of the OR circuit, and the other via the second differentiating circuit connected to the installation inputs of the counter of the generator of the reference time interval of the controlled frequency divider, counter the period of the input pulse sequence and the trigger for controlling the input valve and directly with the control input of the output valve; pulse input which is connected to the counter output

- the generator of the reference time interval, and the output to the second input of the "ILR1" circuit, whose outputs are via the second valves connected to the potential outputs of the input pulse period measurement counter

Q sequences are connected to the installation inputs of the reference time interval generator, the counting input of the period measurement counter of the input pulse sequence through the controlled frequency divider and the third gate connected to the trigger for allocating a time interval corresponding to several, m follow periods, input pulse sequence, connected to the generator output

Q exemplary frequency. The drawing shows the structure of the proposed converter. The converter contains an input valve 1, an input valve control trigger 2, a time interval generator 3 corresponding to several periods of the input pulse sequence, count 4 of the reference time interval generator 5, a differential time trigger 5, a trigger trigger 7, multiplying device 5, generator 9 of exemplary frequency, output valve 10, circuit "OR 11, valves 12, controlled frequency divider 13, counter 14 for measuring the pulse period of the input pulse and pulse sequence valve 15, trigger release 16, the time slot corresponding to several periods sequencer input pulse sequence shaper gate 17, the reference time interval, the trigger 18 shaper reference time interval, the differentiating circuit 19 n transducer 20. The operation principle is as follows. The shaper 3 forms the time interval corresponding to the n periods of the following pulse input sequence:. Shaper 4 forms a reference time interval equal to Ta, Go where / is the frequency with respect to which the deviation of the input frequency F is determined. The frequency Po is a constant value and determines the value of the reference time interval. In the converter, the reference time interval is formed using the reference frequency fo, and the value Ro is taken into account by the capacitance value of the counter 4. The difference time interval AH is determined by the expression -L 1 - ri () () / g f;) 77-TG ° At FoAT bF. , . PN-i After transforming the DG time intervals and and into the corresponding number of pulses: and. we get the / ODL The number of output pulses of the converter is proportional to the frequency deviation F. A -: ...- / (. Af, A E X / g. Thus, the result of the conversion is obtained by multiplying the number of pulses proportional to the difference time interval b. T, by a constant coefficient, followed by dividing by a number proportional to the pulse duration 1 l of the input frequency fx. In the initial state of the circuit, all the gates are closed. On the Start Trigger signal, the control 2 tilts and opens the gate /. The pulses are often converted You arrive at the input of the imager 5 and at the installation input of the trigger W. The trigger 16 overturns, opens the valve 15, and issues a signal to the trigger 18, which opens the valve 17. The pulses coming from the generator 9 of the reference frequency through the valve 75 and the controlled frequency divider 13 , the period measurement counter enters, 14, and the valve 17 - to the input of the counter 4 of the driver of the reference time interval. With the help of signals from the outputs of the formers 5 and counter 4, the difference interval of AG is formed, which with the help of three ger 5 and is converted into a ventilation quantity AL pulses. In addition, the signal from the output of the imaging unit 3 triggers 2 and 16 are reset, and as a result, the valves I and / 5 are closed. In the counter: 14, the number of the Champions League is proportional to the follow-up period of the input slots x. A signal from the output of the counter 4 sets in the initial state a trigger 18. The valve 17 is closed. The pulses from the output of the valve 6 are fed to the input of the number-pulse multiplying device 8. At the end of the differential time interval DG, the output of the trigger 5 receives a signal to the installation input of the trigger 7, which is tilted, opening the output valve 10, the pulse signal from the output of the trigger 7 through the differentiating circuit 19 The "OR //" circuit is fed to the pulse inputs of the valves 12, as a result of which a number is transferred to the counter 4, equals. Where C is the capacity of the counter 4. The pulses from the output of the multi-channel device are fed to the input of the counter 4, which, in this case, plays the role of a divisor of the number of pulses with a division factor of N, and then through the output valve 10 to the output of the device. Recovery of the division factor in the counter 4 is carried out by output pulses through the "OR // and gates / 2" circuit. At the end of the multiplication process, the trigger 7 is reset to the initial state by a signal from the multiplying device. The output valve 10 is closed. At the same time, a signal from the output of the trigger 7 through the differentiating circuit 20 sets up the initial state of the counter 14, the controlled divider 13 and the counter 4. This signal goes to the setup input of the trigger 2, thereby beginning a new conversion cycle.

Subject invention

A frequency-code converter containing triggers, differentiating circuits, gates, an OR circuit, a reference time generator, consisting of a counter, a valve and a trigger, a time interval generator corresponding to several periods of the input pulse sequence, controlled by a frequency divider and an exemplary frequency generator, characterized in that, in order to increase the conversion accuracy, a period measurement counter of the input pulse sequence and a multiplying device have been introduced into it, the input of which through the first valve connected to the output of the Trigger allocation of the differential time interval is connected to the generator output of the reference frequency, one output of the input of the multiplying device is connected to the input of the counter of the reference time interval generator, the other output to the first input of the triggering trigger, the second input of which is connected to the output of the trigger for allocating a difference interval of time, one output of the control trigger through the first differentiating circuit is connected to the input of the OR circuit, and the other through The last differentiating circuit is connected to the installation inputs of the counter generator of the reference time interval, the controlled frequency divider, the meter for measuring the period of the input pulse sequence and the trigger for controlling the input valve and directly with the control input of the output valve whose pulse input is connected to the output of the counter of the generator of the reference time interval and the output is to the second input of the OR circuit, whose outputs are via the second valves connected to the potential AND outputs of the meter The period of the input pulse sequence is connected to the setup inputs of the counter generator of the reference time interval, and the counting input of the counter measuring the period of the input pulse sequence through the controlled frequency divider and the third gate connected to the trigger for allocating the time interval corresponding to several periods of the input pulse sequence is connected to the output of an exemplary frequency generator.