SU731393A1 - Frequency meter - Google Patents

Description

The invention relates to the field of measuring technique and can be used as a digital scale of the received frequency of a broadcasting receiver.

A frequency meter is known comprising a control device, an input pulse shaping element, an AND element, and a reversible counter 1.

The use of a reversible counter allows the measurement of the local oscillator frequency of the receiver to indicate directly the carrier frequency. However, the use of a reversible counter, which contains approximately twice the number of elements compared to a conventional one, complicates the design of the frequency meter, increases the power consumed by the frequency meter and its cost.

Of the known devices, the frequency meter containing the control unit, the elements of the formation of the input pulses, the elements And and the reversible counter is closest to the invention of the technical essence. The use of a reversible counter provides the possibility of summing and subtracting input frequencies, which allows, for example, by applying a local oscillator frequency and an intermediate frequency to the inputs, to obtain the carrier frequency on the indicator.

A disadvantage of the known device is its complexity, which is determined by the necessity of using a reversible counter in the frequency meter, which increases the cost of the device and increases the power consumed by it.

The purpose of the invention is to increase reliability by simplifying the construction of the sto10 meter.

This goal is achieved by the fact that in a frequency meter containing a control unit, an input driver, a main element P and a pulse counter, the input of which is connected to the output of the main element I, whose inputs are connected respectively to the first output of the control unit through the input generator to the input to the frequency meter bus, a defffrator, a trigger, an OR element and an additional element I. are entered. At the same time, the information outputs of the counter are connected via a decoder to the nerve input of the additional element And and to the S input of the trigger,

25 whose output is connected to the second input of the additional element I. The second output of the control unit is connected to the R-BXO of the trigger and the first input of the OR element, to the second input of which is connected the output of the additional element I.

The output element OR is connected to the installation input of the pulse counter.

The block diagram of the frequency meter shown in the drawing.

The frequency meter contains a block / controller, an input driver 2, a main 3 and an additional 4 elements AND, a decoder 5, a trigger 6, an element OR 7, a counter 5 imuls.

One of the inputs of counter 8 is connected to the output of the element A 5, the inputs of which are connected to the output of the accumulation unit 1 and to the output of the input driver 2, the input of the iKOToporo is the input of the frequency meter. The inputs of the decoder 5 are connected to the information outputs of the counter 8, and the output - to the setup input of the trigger 6 and to the input of the element And 4. The other input of the element 4 is connected to the inverse output of the trigger 6, the output of the element 4 - to the input of the element OR 7, the second input of which connected to the reset input of the trigger 6, connected to the output of the control unit. The output element 7 is connected to the reset input of the counter 8.

Frequency works as follows.

The control unit forms a short imiuls that sets the trigger 6 to the state, and at the input of the element 4, it generates a logical unit. The same impulse, the passage through the element OR 7 at the reset input of the counter, sets it to zero. The control unit then generates a pulse of the reference duration. This pulse enables the passage of the input frequency signal, formed by the driver 2, through the element And, 5 to the counting input of the counter 8. The counter begins to count them. When the code in the counter 8 corresponds to the intermediate frequency value, the decoder 5 is triggered and the signal from its output goes to the input of the AND 4 element and from its output through the OR 7 element passes to the reset input of the counter 8, sets it to zero. At the same time, the signal from the output of the decoder 5 is fed to the input of the trigger 6 installation and sets it to the state prohibiting further passage of the signal from the output of the decoder 5 to the input of the OR element 7 and to the reset input of the counter 8.

Thus, after the end of the reference pulse, the pulse counter will

in the state corresponding to the measured frequency, reduced by the magnitude of the intermediate frequency. After some time is required to indicate the result, the measurement cycle repeats.

In this way, the carrier frequency of the received signal is indicated without the use of a reversible counter.

In the known frequency meter 2, h, l of the carrier frequency indication, a reversible counter is used, requiring for its realization twice as many microcircuits as usual.

Introduction to the circuit of the frequency counter of the decoder, the trigger, the elements AND and OR allowed to use an irreversible counter in it, retaining all the functions of the device, which reduces the number of counter microcircuits by half; as a result, the design of the frequency meter is simplified and its cost is approximately halved.

Claims (2)

1. USSR author's certificate Al; 402818, class G 01 R 23/10, 1973. 2. Biryukov S. Digital scale and electronic clock. “Radio, July 9, 1977, p. nineteen.