SU676934A1 - Stroboscopic oscilloscopic register of single electrical signals with digital prosessing of output signal - Google Patents

Description

ka sweep, and the input - with the third output of the input unit.

The drawing shows a structural electrical circuit of the recorder.

The recorder consists of the input unit isa, the first recirculator 2, the second recirculator 3, attenuator 4, sampling unit 5, amplifier-expander 6, control unit 7, scanner 8, cathode ray tube 9, coding unit 10, and computational cars 11.

The device works as follows.

The input signal received through the unit, / to the recirculators 2, 3, propagates c. final speed. At the moment of time, when the impulse is circulated in the recirculation torus 3, reaches the input of the sampling unit 5, the key of the unit 5 is opened and the memory capacitor of the unit 5 accumulates a sampling voltage proportional to the instantaneous value of the signal circulating in the first recirculator 2. This the signal arrives at the signal input of the block; Ka of sample 5 through an attenuator 4, which ensures linearity of the mode of operation (with respect to the signal) of the key of block 5; And the conditional extension of the frequency band of the current pulse generated by the signal peak (above the cutoff level ki) circulating in the second recirculator 3, which is a source of strobe pulses.

Samples to: p & n: and from the output of block 5 pass through amplifier-expander 6 and are fed to vertically deflecting plates of the cathode-ray tube 9, to the horizontal deflecting plates of which feeds a stepped sweep voltage from the moment of injection of the signal under study into recirculators 2 and.

: The amplitude value of the amplified and extended pulse samples is converted in encoding unit 10 to a code and sent to computer memory cells, where algorithmic signal processing is performed.

The key offset level of sample block 5 is discretely changed by pulses coming from control unit 7 according to the law, the inverse of the envelope of the impulse response of the second recirculator 3, which compensates for the amplitude amplitude of the pulses.

The attenuation of the signal in the recirculator 2 is compensated by | Changing the gain of the amplifier-expander by 6 step-increasing voltage with a certain weight of each subsequent level of hemp (with each re-recirculation) coming from the control unit 7. The device eliminates the need to generate the maximum short strobe pulses, provides a stable reading pitch, and therefore, the temporary position of the samples, which significantly reduces the distortion of the converted signal. Application of digital processing

the output signal realized by the computer is equivalent to the expansion of the bandwidth of the device and, to some extent, improves the accuracy of recording the shape of the single signal under study.

The highest efficiency of the proposed device appears in the study of signals with amplitudes exceeding 1-i2B, with a pronounced mode (sharp top, which is characteristic of pulses of subnanosecond duration).

Claims (2)

1. US Patent No. 3278846, cl. G 01 R 13/20, 1966. 2. US patent number 3510767, cl. G 01 R 13/20, 1970.