SU492930A1 - Device for recording information in a magnetic spectrometer - Google Patents

Description

The invention relates to automated magnetic control systems and can be used to retrieve electron spectroscopy information using the magnetic method of electron separation by g energy.

A device for acquiring information in a magnetic spectrometer is known, which contains an automatic tracking unit, one of the inputs of which is connected to the first output of a DC source, another input is connected to one of the outputs of the programming unit, the second output of KOTCJ is connected to the input of the unit detection, the output of the auto power unit | g research institute is connected to the output of the HCCTOHIHN current source, another output of which is connected to the zero potential bus, and the unit to the water information.

However, the noise observed in the spectrum of 20 meters increases the time spent on removal of one point of the spectral line. In addition, it is possible to increase the error in determining the position of the maximum of the line when the number of photoelectrons observed is 25

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The device contains an amplifier and a source of alternating current, the first output of which is connected to the second input of the magnetic spectrometer, and the second output of this source is connected to one of the inputs of the amplifier, the other output of which is connected to the ventilation unit, and the output of the amplifier is connected to the input of the information output unit.

The drawing shows a block diagram of a device for in4rymation in a magnetic spectrometer.

The block diagram contains a direct current source 1, a magnetic spectrometer 2, an automatic tracking unit 3, a programmer unit 4, a dandytopyne unit 5, an information output unit b, an alternating current source 7 and an amplifier 8,

The operation of the device is elucidated. In the focusing coils of the magnetic spectrometer 2, a current of a certain magnitude, defined by program block 4, is generated from the power source 1. The current is created and the automatic tracking unit 3 maintains its set value by the automatic tracking unit 3 similarly to the known one. Then the alternating sinusoidal voltage from the magnetic coil 2 A current of alternating current 7 is of small size (in amplitude) and low frequency (in the order of ten hertz units of kilohertz). When an alternating voltage is applied, the magnetic field of the spectrometer 2 changes and as a result electrons are modulated, moving in the working space of the spectrometer with a kinetic energy of ....

The modulated number of electrons is detected by the detection unit 5. The signal from the detecting unit 5, proportional to the number of electrons, is amplified and filtered by the synchronous amplifier 8. The use of the synchronous amplifier 8 reduces the number of pulses of noise and allows you to record the number of pulses, time dependent on the derivative. From the synchronous amplifier 8, the signal converted to a constant voltage enters the gy- vodp ippormpin 6 unit.

The use of this device reduces the time spent on obtaining the cneKW line and allows the use of some standard nodes. The spectral line p obtained by such a device has more reactive peaks at low noise levels.

Promet of invention

A device for retrieving information in a magnet: a spectrometer containing an automatic tracking unit, one of the inputs of which is connected to the first output source of direct current, another input connected to one of the outputs of the programming unit, the second output of which is connected to the input of the detecting unit, the output of the unit Auto-tracking is connected to the output of a DC source, which is connected to a zero-potential bus, and an information output unit characterized in that, with & The device contains an amplifier and an AC power source, the first output of which is connected to the second input of a magnetic spectrometer, and the second output of this source is connected to one of the amplifier inputs, the other input of which is connected to the detrolling unit, and the output of the amplifier is connected to the information output unit.

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