SU1335907A1 - Frequency-shift device - Google Patents

Abstract

The invention can be used to simulate the Doppler effect when monitoring pulsed radar stations and provides improved accuracy. The device contains a local oscillator 1, mixers 2, 4, band-pass filters 3, 5, start-up unit 6, delay lines 7, 8, and a saw-tooth voltage generator 9. On the input signal, the start-up unit 6 turns on a sawtooth voltage generator 9, which modulates the output oscillation of the local oscillator with its output signal in frequency 2. In mixer 2, the frequency component that coincides with the frequency of the input radio pulse is added (or subtracted) with the frequency of the local oscillator 1. Band-pass filter 3 separates the signal of the sum (or difference) frequency from the output signal of the mixer 2. Using the mixer 4 and the band-pass filter 5, a radio pulse is returned to the original frequency domain. By changing the modulation speed (saw tilt), the frequency shift can be controlled. Block 6, LZ 7, 8 and sawtooth generator 9 are introduced. 1 il. {b Vmod CO 00 JV CO

Description

The invention relates to radio engineering and can be used to simulate the Doppler effect in monitoring and testing pulsed radar stations (radars.

The purpose of the invention is to improve the accuracy,

The drawing shows a structural electrical circuit of the proposed device.

The device comprises a local oscillator 1, a first mixer 2, a first band-pass filter 3, a second mixer 4, a second band-pass filter 5, a start block 6, first and second delay lines 7 and 8, and a sawtooth voltage generator 9.

The device works as follows.

The input pulse arrives at start block 6 and at the input of the first delay line 7. The duration T of the output signal of the start-up unit 6 “ij-TO H-C, + where“ C, is the duration of the radio pulse, C ,, is the delay value in the first and second lines x 7 and 8 delays.

The start-up unit 6 includes a sawtooth voltage generator 9, which modulates the output oscillator 1 in frequency with its output signal. It takes some time for the start-up unit 6 to activate the generator 9 and establish the linear frequency modulation (LFM) mode in the local oscillator 1. The first delay line 7 delays the input radio pulse for this time, after which it enters the first mixer 2, where a linear component that coincides with the frequency of the local oscillator 1 is added to or subtracted from this frequency. The first band-pass filter 3 separates the total (or difference) frequency signal after the first mixer 2. The radio pulse returns to the original frequency domain using the second mixer 4 and the second band-pass filter 5. However, before The radio pulse is delayed in the ESTO delay line 8 so that the instantaneous frequency of the chirp component of the radio pulse differs from the instantaneous frequency of the chirp oscillations of the local oscillator 1 supplied to the second input of the second mixer 4. This difference is due to the linear dimension frequency of the local oscillator in time.

Thus, if the change in the frequency of the local oscillator 1 in time

U em

constant during the radio pulse, and the delay of the chirp component of the radio pulse from the chirp oscillations of the local oscillator 1 is 1, then the frequency shift of the radio pulse filling will be

d

By changing the modulation speed (saw tilt), the frequency shift can be controlled and f, which is independent of the absolute value of the radio frequency carrier frequency.

20

Claims (1)

Invention Formula 0 five A frequency shift device containing a local oscillator, the first mixer and the first bandpass filter 5 and a second mixer and a second band pass filter connected in series, the output of which is the output of a frequency shifter, the output of the local oscillator connected to the first input of the first mixer, which is different in that, in order to improve the accuracy, the connected start unit and sawtooth generator voltage, the second input of which is the control input of the frequency shifter, as well as the first and second delay lines, the combined inputs of the first delay line and the start-up block are a frequency shift signal input device of the first delay line output is connected to the input of the first mixer and the output of the first bandpass filter 0 through a second delay line connected to the first input of the second mixer, the second input of which is connected to the output of the local oscillator, the input of which is connected to the output of the sawtooth generator.