SU1046922A1 - Frequency standard - Google Patents

Abstract

SUPPORT FREQUENCY GENERATOR contains quartz oscillator, counting trigger, first and second pulse counters, first and second match elements, a reset unit, the output of which is connected to the installation inputs of the counting trigger, the first and second pulse counters, characterized in that in order to improve the frequency setting accuracy , two triggers, two short pulse shapers, a reversible counter and a programmable counter, the input of which is connected to the output of the crystal oscillator, the setting input is connected to The output of the reset unit and the installation inputs of the first and second triggers, the bit inputs of the programmable counter are connected to the outputs of the reversible counter, the subtracting and summing inputs of which are connected respectively through the first and second shapers of short pulses to the outputs of the first and second coincidence elements, the first inputs of which are connected respectively, to the direct outputs of the first and second flip-flops, the inverse output of the first flip-flop is connected to the second input of the second coincidence element, the inverse output second flip-flop coupled to the second input of the first element of matching, inputs of the first and second flip-flops are connected respectively to output first and second counters pulses, the first pulse counter i input connected to the input reset unit, a second pulse counter input connected to the output of the flip-flop counting.

Description

The invention relates to a pulse technique and can be used in phase shift keying information transmission systems.

Known reference frequency generator, containing a crystal oscillator, a counting trigger, the first and second pulse counters, the first and second elements of a match, a reset unit, the output of which is connected to the installation inputs of the counting trigger, the first and second pulse counters, a block of elements of coincidence, register, frequency divider eleven .

However, the generator has a low frequency setting accuracy.

The purpose of the invention is to improve the accuracy of the frequency setting.

The goal is achieved by the fact that the reference generator, containing a crystal oscillator, a counting trigger, the first and second pulse counters, the first and second match elements, a reset unit, the output of which is connected to the installation inputs of the counting trigger, the first and second pulse counters, are entered a trigger, two short pulse formers, a reversible counter and a programmable counter, the input of which is connected to the output of the quartz oscillator, the installation input is connected to the output of the reset unit and the installation in the first and second triggers, the bit inputs of the programmable counter are connected to the outputs of the reversible counter, the subtracting and summing inputs of which are connected respectively through the first and short pulse drivers to the outputs of the first and second coincidence elements, the first inputs of which are connected respectively to the direct outputs of the first and the second trigger the inverse output of the first trigger is connected to the second input of the second coincidence element, the inverse output of the second trigger is connected to the second input of the first About the coincidence element, the inputs of the first and second triggers are connected respectively to the output of the first and second pulse counters, the input of the first pulse counter is connected to the input of the reset unit, the input of the second pulse counter is connected to the output of the counting trigger.

The drawing shows a block diagram of the reference frequency generator.

The reference frequency generator contains an input bus 1 connected to the input of the first counter 2 and a reset unit 3, the first trigger 4, the counting input of which is connected to the output of the first counter 2, and the direct and inverse outputs connected to the first input of the first coincidence element 5 and the second input the second match element 6, the second trigger 7, the counting input of which is connected to the output of the second counter 8, and the inverse outputs are connected to the first input of the coincidence element 6 and the second input of the coincidence element 5, shapers 9 short pulses, The output of element 5 is connected to the subtracting input, and the output of element b is connected to the summing input of the reversible counter 10, the programmable counter 11 whose discharge inputs are connected to the outputs of the reversing counter 10 the output of the programmable counter is connected to the counting input of the trigger 12 and the input is connected to the output of the quartz generator 13, the output bus 14

The generator works as follows.

Bus 1 through the receiving device (not shown J) is a signal that represents several series of square pulses. The first series is synchronizing, the others are informational.

Under the action of the first pulse, the reset unit 3 generates a short reset pulse, causing the counters 2, 8, 11 and the triggers 4, 7, 12 to the zero state. After that, the counter begins to be filled with 11 counting pulses generated by the heterogenerator 13. After about half the period of the pulse sequence of the first series arriving at bus 1, the counter 11 returns to its original state, and a short pulse is generated at its output, which trips the trigger 12 Thus, a continuous pulse sequence is created on bus 14 at a frequency close to the clock frequency. So C) there is a phase adjustment.

The frequency adjustment is performed as follows.

The recording in counter 2 is effected by the action of the edges of the pulses of the signal, and the recording in counter 8 is made under the Action of the pulses coming from the bus 14; If the signal frequency is higher than the oscillation frequency on the bus 14, then the counter 2 is filled before the counter 8, as a result of which the trigger 4 is first activated, and then the trigger 7 and a pulse is generated at the output of element 5. Under the influence of this pulse, the number recorded in the counter 10 and the conversion factor of the counter 11 decrease by one, which will lead to an increase in the frequency on the bus 14.

If the signal frequency is lower than the pulse frequency on bus 14, a pulse will form at the output

shaper 9, which will lead to an increase in the conversion factor of the counter 11 and a decrease in the frequency of the output oscillations.

If the frequency of the signal almost coincides with the oscillation frequency of the generator, then a very short pulse will be generated at the output of element 5 or 6, which will not be able to pass through the drivers 9 and the number recorded in the counter 10 remains

no change. The formers 9 also exclude the arrival of false pulses that occur at the output of elements 5 or b when resetting the flip-flops 4 and 7 due to the inequality of the switching time of these flip-flops. Thus, a continuous sequence of needle pulses is provided in the frequency generator, which makes it possible to improve the accuracy of setting the frequency of the generator.

Claims (1)

REFERENCE FREQUENCY GENERATOR, comprising a crystal oscillator, counting trigger, first and second pulse counters, first and second coincidence elements, a reset unit, the output of which is connected to the installation inputs of the counting trigger, first and second pulse counters, characterized in that, in order to increase accuracy frequency setting, two triggers, two short-pulse shapers, a reverse counter and a programmable counter, the input of which is connected to the output of the crystal oscillator, the input input · is connected to the output, are introduced into it reset unit and a mounting-inputs of the first and second flip-flops bit inputs. programmable counter connected to the outputs of the reversible counter, subtracting and summing the inputs of which are connected respectively through the first and second shapers of short pulses with the outputs of the first and second coincidence elements, the first inputs of which are connected respectively to the direct outputs of the first and second triggers, the inverse output of the first trigger is connected to the second the input of the second coincidence element, the inverse output of the second trigger is connected to the second input of the first coincidence element, the inputs of the first and second t iggerov connected respectively to the output of the first and second pulse counters, a first counter pulse input is connected to the input of the reset unit, a second pulse counter input connected to the output schetnrgo trigger. | s 4 * 05 СО э N0 i I