SU657378A1 - Method and apparatus for stabilizing spectrometer energy scale - Google Patents

Description

but from the digital windows, it controls the spectrometer transmission coefficient until the reference peak is found, after which the error signal is turned off.

In addition, a pulse generator and an OR circuit are added to the device, the generator output is connected via a key to one of the inputs of the OR circuit, the second input of which is connected to the output of the first window selection circuit, and the output of the OR circuit is connected to the first input of the differential meter, The output of the second window selection circuit is connected to the input.

The drawing shows the block diagram of the device that implements the described method of stabilization of the energy scale of the spectrometer.

The block diagram contains a reference source 1, a detector 2, a regulator 3 of the transmission coefficient of the spectrometric path, a differential counter 4, an OR 5 circuit, an analyzer 6, the first and second window selection schemes 7, 8, a key 9, a pulse generator 10.

The device works as follows.

In the initial state, the control system is in stable equilibrium only if the intensities are equal in the selected windows.

Such an equilibrium condition can be observed both at the reference peak and in an arbitrary part of the spectrum (at one of the information peaks).

An automatic search for a reference peak is provided by artificially creating an inequality of intensities at the inputs of a differential counter 4, for which, using a key 9, an additional generator of 1O pulses is connected to one of the inputs of the OR 5 circuit, resulting in an intensity p. At the first input of the difference counter 4 will be greater than the intensity of the item at its second entrance.

The frequency of the generator is chosen such that the condition of equality of intensities at the inputs of the difference counter n - n is ensured only if the window is on the reference peak. When doing this, in the process of preparing the spectrometer for measurement, the intensity of the reference peak should be chosen to be the highest possible intensity of the information peaks.

The error signal at the output of the differential meter, acting on the regulator H, leads to the fact that the reference peak begins to mix in the energy scale to the right (in the region of high energies). This process continues until condition Hj p is fulfilled, after which, using key 9, pulse generator 1O is disconnected from the input of the OR circuit.

Claims (2)

1. The method of stabilizing the energy scale of the spectrometer, which consists in measuring the count rate in digital windows on the slopes of the reference peak, characterized in that, in order to automatically search for the reference peak, an additional error signal is entered in one of the digital windows, and the intensity of the reference signals is chosen to be greater than the maximum the intensity of the information peaks, choose the intensity of the additional signal so that the equilibrium condition of the system is observed only at the reference peak, add an additional the signal as the error signal into one of the digital windows, changing the transmission coefficient of the spectrometer until the reference peak is found, after which the error signal is turned off. 2. A device for implementing the method according to claim 1, comprising a detector, controller, analyzer, window selection circuits, a differential counter, in that. a pulse generator and an OR circuit are entered into it, and the generator output is connected via a key to one of the inputs of the OR circuit, the second input of which is connected to the output of the first window selection circuit, and the output of the OR circuit is connected to the first input of the differential meter, to the input of which the second output is connected window selection schemes. Sources of information taken into account in the examination 1. Collection Prikladna sod spectrometry, M., Atomizdat, 197O, p. 186 2. Collection Prikladna sod spectrometry, M., Atomizdat, 197O, p. 194