SU1027635A1 - Device for forming clock pulses at the moment of doppler signal fading - Google Patents

Abstract

DEVELOPMENT OF FORMATION; STROBE-PULSES AT THE MOMENTS OF DOPPLER SIGNAL SWITCHING, which contains two threshold devices with different transmittance thresholds, of which there is a q, and that is with the goal, q to increase reliability and measure Poison. It is connected in series with a peak detector, an IIDid trigger and a first D-flip-flop, a single-shot and a second D-flip-flop, the output of which is connected to the second input of the first L-trigger, the third input of the last is connected to the output of the first threshold device and the input of the single-vibrator, the output of the second the threshold device is connected to the input of the peak detector and the first input of the second D-flip-flop, the second input of the second D-flip-flop is connected to the output of the single-oscillator, while non-inverting the input of the first threshold -– device. connected to the inverting input of the second threshold device.

Description

This invention relates to an emmeric technique. A device used to generate strobe pulses, at times of signal skipping, containing a strobe pulse shaper, amplitude detector threshold block counters l. In this device strobe pulse formation at moments of pulse skip caused by modulation of the Doppler signal, both are by using an amplitude detector and a threshold device. However, the device is characterized by insufficient reliability of operation, due to the limited frequency range of its operation. The closest in technical essence to the proposed invention is a roist that contains two threshold functions with different thresholds, a filtering unit, a level selection signal unit, a strobe pulse shaping unit, and a Doppler frequency measuring unit. A disadvantage of the known device is the reduced reliability of operation in connection with the possibility of dangerous states in the elements of the gate forming unit resulting in the appearance of parasitic gate pulses at the output of the node, and there is also no automatic reset of the gate pulses after termination from measure. The purpose of the invention is to increase the measurement accuracy. The goal is achieved by an i-ro device in the strobe pulse shaping device at the moments of the Doppler signal fading, containing two threshold devices with different transmission thresholds, a series-connected peak detector, a Schmidt trigger and a first D-trigger, a single vibrator and a second D-trigger, an output which is connected to the second input of the first D-flip-flop, the third input of the latter is connected to the output of the first threshold device and the input of the one-shot, the output of the second threshold device is connected to the input of the peak detector ora and the first input of the second D-flip-flop, a second input of the second D-flip-flop is connected to the output of the monostable, the second non-inverting input of the first threshold device is connected to the inverting input of the second threshold device. FIG. Figure 1 shows the cjteMa functional strobe pulse shaping device at the moments of the Doppler signal fading; in fig. 2 - voltage plots that describe the operation of the device. The device contains a threshold. Device 1 with an upper threshold E, a htorog device 2 with a lower threshold Eon4f peak detector 3, a delay device 4 consisting of a single vibrator 5 and a D-flip-flop 6, Schmidt trigger 7, D-flip-flop 8, input 9 , input 10 of the upper threshold Eg input 11 of the lower threshold, output 12 of the signal pulses, output 13 strobes. FIG. 2 shows the following plots 14 - Doppler signal with a random amplitude; 15 - threshold 16 - threshold Ejjnj 17.- sequence of signal pulses; 18 sequence of reference pulses; 19 - a sequence of short pulses; 20 - blink of signal pulses with delayed edges; 21 - trigger threshold of Schmidt trigger; 22 — coupling at the output of the peak detector; 23- strobe pulse reset pulses; 24 strobe pulses. The device works in the following way. The input signal 14 is fed to the input 9. On the outputs of the threshold devices 1 and 2, sequences of signal and reference pulses 17 and 18 are formed, which are fed to the inputs of the delay device 4. At the output of the one-shot 5, negative short pulses 19 are formed from the back edges of the negative reference pulses 18. The D-trigger is set to one state by the signal pulses 17, and reset by the rear edges of short pulses 23. At the output 12 of the O-trigger 6, the signal pulses 20 are delayed trailing edges, which always lag behind the trailing edges of the reference pulses 18. In the presence of signal pulses,. In the measurement mode, the owl in the D-trigger 8 is always written logical, in the absence it is logical O. Thus, at the output 13 of the Dtrigger B, strobe pulses 24 are formed. Before the measurement starts, the D-flip-flop 8 is set to zero (at the inverse output) by the high level of the Schmitt 7 trigger output, since the output voltage 22 of the peak detector 3 does not exceed trigger threshold 21 When a signal is generated, Schmidt trigger 7 overturns AND is not affected by the state of the D-trigger 8. For short-. The small omissions of the signal pulses due to the random amplitude of the modulation, the voltage 22 at the output of the peak detector 3 does not have time to fall below the threshold 21 of the trigger of trigger 7. After the termination

measuring after a certain time, the strobe pulse is reset. This time is determined by the constant time of the peak detector 3 and the trigger threshold 21 of trigger 7,

Thus, the use of a clocked D-flip-flop and a device for delaying signal pulses allows to exclude conditions for the occurrence of parasitic strobe pulses, and the use of a peak detector and Schmidt trigger to automatically reset the strobe after the measurement.

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Claims (1)

FORMING DEVICE: STROBES-PULSES AT THE MOMENTS OF STOPPING OF THE DOPPLER SIGNAL, containing two threshold devices with different transmission thresholds, which is necessary in order to increase the measurement reliability ^, c. * a peak detector, a Schmidt trigger and a first D-trigger, a single-shot and a second D-trigger, the output of which is connected to the second input of the first b-trigger, the third input of the last connected to the output of the first threshold device and the input of a single-shot, are introduced in series the output of the second threshold device is connected to the input of the peak detector and the first input of the second D-trigger, the second input of the second D-trigger is connected to the output of the one-shot, while the non-inverting input of the first threshold device is. The device is connected to the inverting input of the second threshold device. 5 of FIG. / SU. „1027635