SU834568A1 - Device for measuring sine signal frequency - Google Patents

Description

The invention relates to radio measurements.

A device for measuring the frequency of a sinusoidal signal is known, it contains ¹ filter, tunable by the generator signal, a mixer that receives ⁵ signals from the filter and the generator, a control unit, a frequency divider, additional filters, elements of the generator auto-tuning system, a frequency detector -

ΓιΠ No. torus LIJ.

The disadvantage of this device is its complexity.

The closest in technical _{susch-) 5} NOSTA the proposed is a device comprising a frequency mixer whose first input is connected with an input · bus, and a second input connected to the output of the local oscillator, a control input of which is connected _t to the first input of the synchronous phase detector, a second input of which through a series-connected frequency detector and an upper clock2 filter, it is connected to the output of the mixer, and indicator G21.

However, the known device does not provide sufficient measurement accuracy and is complex.

The purpose of the invention is to improve the accuracy of measurement and simplification of the device.

This goal is achieved in that in a device for measuring the frequency of a sinusoidal signal containing a frequency mixer, the first input of which is connected to the input bus, and the second input is connected: to the output of the local oscillator, the control input of which is connected to the first input of the synchronous phase detector, the second input of which a frequency detector and a high-pass filter connected in series to the output of the mixer, and an indicator, a low-frequency generator is introduced, the output of which is connected to the control input of the local oscillator, f ltr lowpass key and whose output is connected to the input of the indicator, a first input connected to the output of the synchronous phase detector and a second input through a low pass filter connected to the output of the mixer.

Structural electrical diagram of the proposed device is shown in the drawing.

The device comprises a frequency I mixer, local oscillator 2, low-frequency generator 3, low-pass filter 4, key 5, indicator 6, high-pass filter often 7, frequency detector 8, synchronous phase detector 9. The measured signal is fed to the input bus 10.

The device operates as follows.

The measured signal is fed to the ι input of mixer I. At its output, the lower lateral amplitude modulation is considered. The controlled signal to the mixer comes from the local oscillator 2, and its signal is frequency-modulated by a low-frequency generator 3.

If the key 5 is always open, then the signal from the measured frequency £ * is received at the input of the indicator 6, and from the signal of the mirror frequency The key 5 is open only when the signal comes from the output of the detector 9. In this case, the signal from the output of the filter 7 detector 8. Depending on whether this signal is from or from £ _3ερ at the output of detector 8, they have a different phase. Therefore, at the output of the detector 9, the signal will coincide: the phase of the signal and the signal of the generator 3 supplied to another input of the detector 9, i.e. the signal at its output is present when the device receives £ y and is absent when the signal of the mirror frequency is received - £ hev.

Claims (2)

(54) A DEVICE FOR MEASURING THE FREQUENCY OF THE SINUSOIDAL SIGNAL 38 of a synchronous phase detector, and the second input is connected to the mixer output via a low-pass filter. The structural electrical circuit of the proposed device is shown below. The device contains a mixer of the first frequency, local oscillator 2, low-frequency generator 3, low-pass filter 4, key 5 indicator 6, upper filter often 7, clock detector 8, synchronous phase detector 9. The measured signal is fed to the input bus Y. The device works as follows in a way. . The measured signal is fed to the input of mixer I. At its output, the lower side amplitude modulation is considered. The controlled signal to the mixer comes from the local oscillator 2, and its signal is frequency-modulated by a low-frequency generator 3. IF key 5 is always open, then the input of indicator 6 receives a signal from the measured frequency, and the signal from the mirror frequency € tgp- Key 5 is open when the signal comes from the output of the detector 9. In this case, from the output of the filter 7, the signal is fed to the input of the frequency detector 8. Depending on whether this signal is from j or fjgp at the output of detector 8, they have a different phase. Therefore, at the output of detector 9, the signal will coincide: the phase of the signal of the signal from generator 3, which is fed to another input of detector 9 ,. those. the signal 8 at its output is present when the device enters the input and is absent when the signal of the mirror frequency f eur arrives. A device for measuring the frequency of a sinusoidal signal, comprising a frequency mixer, the first input of which is connected to the input bus and the second input is connected to the output of a local oscillator, the control input of which is connected to the first input of a synchronous phase detector, the second input of which is connected through a serially connected frequency detector and a high-pass filter is connected to the output of the mixer, and an indicator, characterized in that, in order to improve the measurement accuracy and simplify the device, a low-frequency a generator, the output of which is connected to the control input of the local oscillator, a low-pass filter and a key, the output of which is connected to the indicator input, the first input is connected to the output of the synchronous phase detector, and the second input is connected through the low-pass filter to the mixer output. Sources of information taken into account at 1. For the Japan of Japan No. 49-36030 Cl. POLES, 09/27/74. 2. US patent number 3742353, cl. 324-79), 26.O6.73