SU463898A1 - X-ray diffractometer - Google Patents

Description

one

Diffractometers are known in which the stabilization of the anode current of the X-ray tube and the Geiger-Muller counter has been carried out.

However, such defractometers are distinguished by the complexity of the stabilization system, which, moreover, does not always ensure the independence of the radiation results from pulsed changes in the mains voltage.

The purpose of the invention is to simplify the stabilization of the meter readings.

This is achieved by the fact that the proposed diffractometer contains an additional unstabilized power source for a Geiger-Muller counter, the counter being connected to a stabilized and unstabilized power sources through an integrator and a voltage subtraction circuit, and the time constant of the integrator can be chosen to be constant the filament time of the cathode x-ray tube.

As a result, it is possible to power the x-ray tube by an unstabilized source without affecting the meter readings.

The drawing shows the block diagram of the proposed diffractometer.

The diffractometer consists of an X-ray tube 1 with an unstabilized power source 2, a goniometric device 3,

Geiger-Müller 4, nonlinear converter 5, meter current indicator 6 and meter power supply circuit consisting of stabilized 7 and unstabilized 8 power sources, weight regulator 9, subtraction circuit 10 and integrator 11.

The X-ray radiation of the tube 1, refracted in the test plate located on the rotary mechanism, enters the counter 4, the current of which depends on the intensity of this radiation. This current is fed to the input of nonlinear converter 5, which converts it in such a way that this current is transmitted linearly in the specified zone to the converter output, and outside the zone the transfer coefficient decreases the more, the further the deviation of the input current from the zone. This conversion function allows you to have information about the change in the current of the counter at all positions of the rotary mechanism and at the same time provides the maximum sensitivity of the setting, which increases the performance of the X-ray diometer while maintaining high measurement accuracy. Such a converter can be made, for example, in the form of a diode limiter with a source of reference voltage.

Next, the current from the output of the converter 5 is fed to the input of the indicator 6. The indicator 6 registers the change in the current of the counter and,

the angular position of the crystallographic axes of the plate under study.

When the voltage of the network changes, the x-ray intensity changes, and due to the change in the anode voltage, rapid changes in intensity occur, and due to the change in the voltage of the heater, slow, determined thermal constant of the filament time. These changes in intensity lead to the fact that the indication of indicator 6 depends not only on the angular position of the plate under study, but also on the change in the voltage of the network.

To eliminate this effect, the power supply voltage of the meter changes in the opposite direction when the mains voltage changes. For this voltage, the stabilized source 7 and the unstabilized source 8 are fed to the weight regulator 9, which regulates the values of these voltages so that their difference at the output of the subtraction circuit 10 remains unchanged for any changes in the source voltages by the weight regulator 9. At the same time It is possible, by changing the voltage of sources 7 and 8 with the weight regulator 9, to pick up a point at which the change in the voltage of the meter supply causes the sensitivity of the meter to vary inversely proportional to the intensity. ti xrays. This eliminates the influence of the network on the indicator reading. To compensate for the slow component of x-ray intensity variations, the voltage on the counter is fed through an integrator, which partially integrates this voltage, and its time constant is equal to the thermal constant of the X-ray tube heating time.

Subject invention

Claims (2)

1. An X-ray diffractometer containing an X-ray tube, an X-ray tube power source, a goniometric device, a Geiger-Muller counter with a stabilized power source, a device for measuring and indicating the current of the counter, so that meter stabilization, it contains an additional unstabilized power source of a Geiger-Muller meter, the meter being connected to the indicated power sources via an integrator and a voltage humor 2. A diffractometer according to claim 1, characterized in that the constant of the integrator time is chosen equal to the constant glow time of the cathode of the x-ray tube.