SU467289A1 - Device for long-term comparison of frequencies of highly stable oscillators by radio signals - Google Patents

Description

input of the compensation digital phase meter 5, another input of which is connected to the output of phase 2 storage. Inputs of the control unit 6 are connected to the outputs of the phase compensation digital phase meter 5 and phase 2 storage. One of the outputs of the control unit 6 is connected via the digitizer to the information input of the generator a predetermined number of pulses 8, the output of which is connected to the inputs of the digital indicator device 9 and the prohibition circuit 10, another input of which is connected to the first output of the control unit 6. The inputs of the coincidence circuit 11 are connected with the second output of the control unit 6 and the output of the inhibit circuit 10, and the output with one input of the OR circuit 12, the other input of which is connected to the third output of the control unit 6. The output of the circuit OR 12 is connected to the clock input of the generator of a specified number of pulses 8. The output of the digital indicator device 9 can be connected to the recording device.

The device works as follows.

Before the start of a radio reception session using the pilot signal block 3, a pilot signal is generated from the signals of the phase 2 keeper, the spectrum of which contains a frequency equal to the received frequency. The pilot signal is fed to the input of the radio receiver 4. From its output, the calibration signal is fed to a compensation digital phase meter 5, which is used to test the phase mismatch of the pulse sequence of the phase meter and the calibration signal. The mismatch processing results in the phase alignment of the pulse sequences of the phase meter and the calibration signal. In this case, in the control unit 6, using a signal of the phase custodian, a burst of pulses is generated, which is fed to the "number-code" transducer. The duration of the pack, and hence the number of pulses in it, corresponds to the magnitude of the delay fk of the receive-amplifier path. The pulse period in a burst is determined by the required accuracy of the phase measurement. Using the number-code converter, the number of pulses in a burst is converted into a parallel binary code, which is recorded from the information input to the generator of a given number of pulses 8 and determines the number of pulses that the generator must generate. After that, the input of the radio receiver 4 receives a signal of the received super long-wave radio station. From the output of radio receiver 4, this signal is fed to a compensating digital phase meter 5. When testing the mismatch, the pulse sequence of the phase meter is combined in phase with the signal at the output of radio receiver 4. In this case, using a control unit 6, a packet of pulses is formed at its third output. The number of pulses in a pack corresponds to the fs measurement reading in phase

accepted frequency. At the second output of the control unit 6, a pulse is formed corresponding to the duration of the pulse train at the third output and coinciding with it for 5 times. In the next period, a burst of impulses is formed on the nerve output of the control unit 6, the duration of which is equal to the whole period of the frequency of the phase storage equal to the frequency of the signal at the output of radio signal circuit 4. 10 This burst corresponds to the conditional unit of the phase cycle Y (I). The pulse train from the third output of the control unit 6 goes through the OR 12 circuit to the clock input of the generator of a predetermined number of pulses 8. With the help of the last of the pulses fed to the clock input, a sequence of pulses is formed, the number of which corresponds to the value recorded by the generator 20 i.e. the value of fc. This sequence can be used to output information to other devices. From the generator output of a predetermined number of pulses 8, pulses are received at the clock 5 input of the generator while issuing a predetermined number of pulses. Thus, their number is equal to the difference between the number of pulses arriving at the clock input and the number recorded by the information input. If 0 is the measurement count FS, which is larger than the calibration count FC, then the impulses from the generator output go to the inhibit circuit 10 during the pulse from the first output of the control unit 6. At the same time, using the inhibit circuit 5, a signal is generated that prohibits the pulse loading from the second output of the block controls 6 through the AND matching circuit and the OR 12 and the clock input of the generator of a specified number of 0 pulses 8. The digital display indicates the phase count of the radio signal minus the calibration count f fs-fk. If the measurement count FS is less than the calibration count FC, then during the time of the pulse 5 from the first output of the control unit 6 at the generator output a specified number of pulses 8, the pulses are not generated, since the number of pulses at the clock input is less than the number recorded at the information input of the generator. The prohibition circuit 10 permits the pulse to be pulsed from the second output of the control unit 6 through the 11 c matching circuit of the OR 12 circuit to the clock input of the generator of a predetermined number of 5 pulses 8, and a burst of pulses is formed at its output, the number of which corresponds to (, -fk + Y ( 1), where Y (1} is the unit of the phase cycle of the frequency being compared.

Q: Invention

A device for long-term comparison of frequencies of highly stable oscillators by radio signals, comprising a reference oscillator connected to a phase custodian, one output of which is connected to a digital compensation phase meter, and the other is connected via a pilot signal unit to the input of a superheterodyne-type radio receiver and a digital indicator, characterized in that In order to automatically compensate for the delay of the receive-amplifier path, it is equipped with a series-connected control unit, a phase saver, and a generator the number of pulses, as well as series-connected prohibition scheme

matches and OR circuits whose inputs are connected to the corresponding outputs of the control unit, with their inputs connected to the outputs of the phase custodian and to the input and output of the compensation digital phase meter, the OR output of the circuit is input to the generator of a specified number of pulses, and the second prohibition circuit input simultaneously connected with the output of the pulse generator and the input of the digital indicator.