SU397990A1 - ELECTRON BEAM DIGITAL-ANALOG CONVERTER - Google Patents

Description

one

A known electron-beam digital-analog converter containing an electron source, an electron-oltic system, a collector, a gishen-modulator, in the form of an electrical conductor isolated from each other, has a hole with an area that is proportional to the “weight” of the code.

The output signal of a known device depends on the distribution of the current orthogens across the beam section. On conversion accuracy; The fields of the modulator target and the charges arising on the dielectric portions of the target are also affected.

In addition, even with a nearly uniform beam current density over the entire target area, conversion accuracy is severely limited by the stability of the oxide cathode emission over time, which is known to cause a change in the distribution of the beam current density by more than 5% of the original value.

These sources of error prevent the conversion of a 9–10-bit code required in most practical cases.

The proposed transducer is characterized in that the target is an electrode containing parts with a predetermined transparency to the electronic stream, the number of which corresponds to the number of code bits, and the electronic-optical system is made multi-channel.

The advantage of this device is to improve the accuracy of conversion, for example, for a 9-bit code, to 0.1%, i.e., to the value of the ninth digit of the code.

The device shown in the drawing.

The converter contains an electron-oicic cucTsv.} - 1 for the formation of separate electron beams, a deflecting system 2, which consists of a series of pairs of plates by the number of electron beams (maybe 1; in the form of an electrode, contains;:; a; a; 4 sections in a video grid with a given rs-opacity, which is defined by the expression, where k is the coefficient of proportionality; a n-bit binary code; a collector 5; , electron beam forming system 7, comprising a cathode of d V L D H a m s n s e kt.

Separate elements: -: throne beams 7, formed by the system:.; O; /, the deflecting system 2 is directed to its sections of m} 1 of section 5. In the initial state, all the beams fall on the opaque areas of the target, and the current at the value of Collector 5 is zero. When applying to the opening plates of binary pulses

As a result, the corresponding electron beams are transferred from the opaque part of the target to the transparent one. The sum of these components of the current in the collector is the desired analog signal.

Electron-optical system. Does not contain cutting diaphragms, and therefore the current of each beam is equal to the current of the cathode. With separate cathode modulator nodes, this current can be stabilized in a known manner at a certain level, which ensures high accuracy and stability of the conversion over time.

This electron beam converter is characterized by a significantly increased conversion accuracy with all the advantages of electronic switching; increased speed, dependence on temnetureury and resistance to radiation.

Subject invention

An electron-beam digital-analog converter containing an electron source, an electron-optical system, a target collector, characterized in that, in order to improve the accuracy of conversion, the target is made in the form of an electrode containing areas with a predetermined transparency to the electron flow, the number of which corresponds to the number of code bits, and the electron-optical system of a multichannel.

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