SU834569A1 - Device for measuring pulse signal synchronization non-stability spectrum - Google Patents

Description

The invention relates to radio measurement = ”technology and can be used in the development of stroboscopic. oscilloscopes and pulse generators.

Known devices for measuring the instability of the synchronization of pulsed ⁵ signals, containing stroboscopic converters, sweeps and delays, a subtractor and a control unit G11.

However, the accuracy of their measurements is insufficient * θ sufficient.

The purpose of the invention is improving the accuracy of measurements.

The goal is achieved due to the fact that the device for measuring the spectrum of instability synchronizing pulse signal comprising two measurement channels, each of which consists of a stroboscopic converter, one input of which soe- _m union of yield Nepo scanner. environmentally, and the input of the other through the delay unit, while the second inputs of the stroboscopic converters are the inputs of the device, and the output of the stroboscopic converter of the first channel is connected through a series-connected amplifier and subtracted, to the input of the spectrum analyzer, an adjustable amplifier is included / included between the output of the stroboscopic converter of the second channel and the second input of the subtracter, and the control inputs of the input amplifier are connected to the second outputs of both strobe scopic converters.

The drawing shows a structural diagram of the proposed device.

The device comprises a stroboscopic converter I of the first channel, an amplifier 2, a scan unit 3, a block 4, a delay, a stroboscopic converter 5 of the second channel, an adjustable amplifier 6, a subtractor 7 and a spectrum analyzer 8.

The device operates as follows.

Pulse signals, the mutual instability of synchronization of which must be measured, is fed to the inputs of the stroboscopic transducers 1 and 5, to start the generators of the strobe pulses of the converters, their second inputs are connected to the block 3 sweep. The delay unit 4 in the device is adjustable, which discolors the simultaneous gating of linear sections of the signal in both channels. The gain K of the adjustable amplifier 6 is selected from the relation ck, 'K = oL · ^ ·, where is the steepness of the signal front at the input of the first channel;

d, is the steepness of the signal front at the ^L input of the second channel; to ₀ is the gain of amplifier 2.

Thus, the spectrum observed on the indicator of the analyzer 8 is due only to a random temporary shift of one signal relative to another.

Claims (1)

(54) DEVICE FOR MEASURING THE SPECTRUM OF INSTABILITY OF SYNCHRONIZATION OF PULSE SIGNALS Pulse signals, mutual not. the synchronization stability of which is to be measured, is fed to the inputs of stroboscopic transducers I and 5, to start the gating generators of the transducers of the transducers, their second inputs are connected to the scanning unit 3. Block 4 of the delay in the devices is adjustable, which ensures simultaneous gating of the linear signal sections in both channels. The gain K of the regulated amplifier b is selected from the ratio cic ,, Q 5 where o is the steepness of the signal front at the input of the first channel; ct, is the steepness of the signal front on the input of the second channel; kg is the gain of amplifier 2. When this ratio is fulfilled, the stability of the sweep synchronization equally affects the result of the conversion of time transients into voltages in the first and second channels, therefore, at the output of the reader 7, a random voltage due to the instability of the synchronization of the scanner unit 3 is absent. block 4 delay and the strobe pulse generators, significantly less instability arising in block 3 sweep. Thus, the spectrum observed on the indicator of the analyzer 8 is due only to a random temporal shift of one signal relative to another. Apparatus of the Invention A device for measuring the spectrum of instability synchronization of pulse signals, containing two measurement channels, each of which consists of a stroboscopic transducer, one input of which is connected to the output of the scanner directly and the other input through a delay block, while the second inputs of the stroboscopic converters are the inputs of the device, and the output of the stroboscopic converter of the first channel is connected through a serially connected amplifier and end-to-end input at the spectrum analyzer that distinguishes the fact that, in order to increase the measurement accuracy, it is further introduced adjustable amplifier connected between the output of the second channel stroboscopic converter and a second input vgchitatel, wherein the control inputs entered amplifier connected to the second outputs of both transducers stroboscopic. Sources of information accepted in the examination during the examination I. USSR Copyright Certificate No. 618700, Kn.eOlR 23/00, 1979.