SU630738A1 - Apparatus for calibrating time scanning of optoelectronic photorecorders - Google Patents

Description

one

The invention relates to a measurement technique, in particular, to devices for calibrating the time sweep of electron-optical photo recorders, mainly of nano- and picosecond duration ranges.

A device 1 for calibrating a time scan of electron-optical photo recorders is known, comprising a high-frequency oscillator connected to the vertical deflection of an electron-optical converter, a source of illumination of its photocathode, and a control unit (synchronization).

Since the calibration marks in this device nodal on the plates of the vertical deflection of the electronic optic converter, the recording of the process under study and the calibration of the sweep speed are separated in time, which introduces additional error due to the instability of the time span of the electronic-optical converter during the time between the control and working starts . In addition, due to a decrease in the dynamic sensitivity of the vertical deflection plates at high frequencies, the calibration of the sweeps with sinusoidal marks at a speed of 10 km / s becomes difficult.

The closest technical solution to the invention is a time-calibration device for electron-optical photographic recorders 2, comprising an electron-optical converter and a calibration signal light source connected in a series circuit, a master oscillator and a synchronization unit, the light source being associated with a photocathode of an electron-optical converter, and a synchronization unit is connected to its timebase device.

The disadvantages of such a device are low calibration accuracy and the need to use a coolant when the source of the light signal operates in the natural mode.

In addition, the presence of a master high-frequency generator lowers the reliability of the device, since it is possible to generate labels on minor harmonics, and the design of the generator is complex and requires adjustment with the use of expensive equipment.

The purpose of the invention is to increase the accuracy of calibration in the nano- and picosecond sweep ranges, increase reliability and reduce the size of the device.

To do this, a shaper of a series of light pulses is introduced into the device in the form of a set of optical fibers of various lengths connected at the output of the source of the light signal, and the master oscillator is designed as a single-signal generator of a nano-n picosecond range.

FIG. 1 is a schematic diagram of the device.

The device comprises an electron-optical converter 1, a lens 2 for transmitting the process under study, a lens 3 for transmitting calibration pulses, a synchronization unit 4, a master oscillator 5, a source 6 of a calibration light signal, a driver 7 serine of light calibration pulses.

FIG. 2 shows the shaper of a series of light calibration pulses in the form of a set of optical fibers of various lengths.

The device works as follows.

The signal from the synchronization unit 4 simultaneously arrives at the start of the master oscillator 5 and the start of the time sweep of the electron-optical converter I. The master oscillator 5 generates a single electrical signal that excites the source 6 of the light signal.

From the output of the source 6, the light signal is fed to the driver 7, which converts a single signal into a series of light signals due to the different delay of the input signal by the optical fibers.

The accuracy of calibration of the time sweep by the device made according to the invention does not depend on the stability of the master oscillator and on the stability of the light signal source, since they form only one (reference) light signal, and are determined only by the accuracy of the mechanical cutting of the optical fibers. In addition, the execution of the master oscillator according to the scheme of the generator of a single signal of the nano- or picosecond range

allows you to increase the reliability of the device, eliminating the possibility of gradual failures inherent in the generator of high-frequency oscillations, and simplify the design of the device.

Claims (2)

1. Kolesov G. V., Lebedev V. B. On methods for calibrating the speed of a linear sweep of photo recorders with image intensifier. Proceedings of the All-Union Scientific and Technical Conference "The current state and prospects of high-speed photography and cinematography and metrology of high-speed processes. M., 1972, p. 27. 2. Kabanov VF, et al. Calibration of the sweep rate of electron-optical photo recorders using injection semiconductor lasers. Physical electronics, M., “Science, 1976, p. 94.