RU2073887C1 - Device for stabilization of gain factor of discrete proportional detectors of ionizing radiation - Google Patents

Abstract

FIELD: instruments. SUBSTANCE: device has serial circuit which consists of detector of ionizing radiation, amplifier, memory unit, integrating circuit, which output is connected to control input of power supply or amplifier. Power supply is connected to detector of ionizing radiation. Input of threshold circuit is connected to output of amplifier and its output is connected to inputs of weight bits of counter. Output of commutator is connected to input of strobe pulse generator, which output is connected to control input of memory unit. EFFECT: increased precision of measurement due to generation of gain factor regulation signal for whole range of generated pulses. 2 dwg

Description

 The invention relates to nuclear physics, and more particularly to devices for stabilizing the transmission coefficient of discrete proportional detectors of ionizing radiation, in which the output signal is proportional to the energy lost by the particle in the detector, such as scintillation detectors, pulsed ionization chambers, proportional counters with non-self-sustained discharge, Cherenkov counters, etc. d. The invention can be used in devices for measuring ionizing radiation, for example, devices for technological control of densitometers, level meters, gamma relays.

 A device for stabilizing the transmission coefficient of discrete proportional detectors (see.a.s. 446857, class G 01 T 1/40 publ. 15.10.74 g), which contains a control signal generator detector, amplifier, discriminator, gain control, transmission circuit, deviation signal generator, counter, threshold device and differential intensimeter.

 However, such a device has a low accuracy due to the fact that an additional error is introduced due to the influence of destabilizing factors (time, temperature, power) on the stability of the control signal generator, a threshold device.

 The solution to the problem is the reduction of the influence of destabilizing factors due to the formation of a signal regulating the transfer coefficient of the detector from the entire spectrum. To this end, in a device for stabilizing the transmission coefficient of discrete proportional ionizing radiation detectors containing a series-connected ionizing radiation detector and an amplifier, as well as a power supply and a series-connected threshold stage and a multi-bit counter, are equipped with a sampling-storage device, a weight discharge switch, a gate pulse shaper, and an integrating chain, the output of which is connected to the control input of the power source connected by the output to I to the detector of ionizing radiation, the output of the amplifier is connected to the input of the threshold stage and to the first input of the sampling-storage device, the first n-th outputs of the weight bits of the counter are connected to the first n-th inputs of the switch, the output of which is connected to the control input through the gate pulse generator sampling-storage device, the output of which is connected to the input of the integrating chain.

 An object of the invention is to increase the accuracy of measuring ionizing radiation by generating a signal for regulating the gain of the detector from the spectrum of the detected pulses of the studied radiation, as well as by increasing the resolution of the device for generating the control signal.

 In FIG. 1 shows a block diagram of the described device; figure 2 plots of pulses and voltages at three points of the device.

 The device contains a series-connected detector of ionizing radiation 1, an amplifier 2, a device 7 for selecting and storing (storing), an integrating chain 8, the output of which is connected to the control input of the power source 9 or amplifier 2; a power source 9 connected to an ionizing radiation detector 1; threshold stage 3, the input of which is connected to the output of amplifier 2, and the output to the counter 4 is multi-bit; a switch 5 connected to the outputs of the weight categories of the counter 4; the output of the switch 5 is connected to the input of the generator 6 of the strobe pulses, the output of which is connected to the control input of the device 7 sampling and storage.

 The device operates as follows.

The flow of the measured ionizing radiation is recorded and converted by the detector 1 into a sequence of pulses with an amplitude proportional to the energy lost by the particles of ionizing radiation in the detector. The pulses are amplified by amplifier 2 while maintaining proportionality in accordance with diagram 10 (V _y ). Device 7 (I / O, analog or digital) provides the conversion of the pulse sequence into a step function with step amplitudes proportional to the amplitude value of the detected pulses. The operation cycle of the CVC is sampling, storing (storing) the set amount of the pulse sequence, and the accumulating element is returned to its initial state by gating (control) pulses from the shaper 6, through the set interval of the pulse sequence in accordance with diagram 11 (V _st ).

 The formation of the strobe pulses is ensured as follows: the threshold stage 3, the threshold of which is located above the detector noise level in the differential spectrum, generates pulses to start the multi-bit counter 4, the switch 5 connects the input of the strobe pulse generator 6 to the output of the counter 4 with the selected weight category.

Thus, at the output of the sampling and storing device 7, a step function is formed in accordance with diagram 12 (U _uh ). The area limited by this function carries information about the spectral distribution of the amplitudes of the detected pulses.

 The change in area will depend on the change in the spectral distribution of the amplitudes of the recording pulses caused by the influence of destabilizing factors (temperature and time drift, voltage fluctuation of the power supply, aging of the detector, change in the light contact of scintillation detectors). By integrating the signal generated by the UVX 7, the integrating chain 8 provides an output control signal. The influence of the control signal on the power source 9 or amplifier 2 compensates for the influence of destabilizing factors by changing the gain of the detector 1 or amplifier 2.

Claims (1)

 A device for stabilizing the transmission coefficient of discrete proportional ionizing radiation detectors, comprising a series-connected ionizing radiation detector and an amplifier, as well as a power source and a series-connected threshold stage and a multi-bit counter, characterized in that it is equipped with a sampling-storage device, a weight discharge switch, a gate generator pulses and an integrating circuit, the output of which is connected to the control input of the power source connected an output to the input of the detector of ionizing radiation, the output of the amplifier is connected to the input of the threshold stage and to the first input of the sampling-storage device, 1 n-th outputs of the weight categories of the counter are connected to 1 n-th inputs of the switch, the output of which is connected to the control input through the gate pulse generator sampling-storage devices, the output of which is connected to the input of the integrating chain.

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