SU300111A1 - - Google Patents

Description

The invention relates to radioisotope instrumentation, in particular, devices for controlling and automating technological processes in various industries with the help of radioactive isotopes.

Known radioisotope relay devices (RRP) are built using an analogue method. They contain the source, sensor, electronic relay unit.

However, the low stability of triggering and releasing thresholds, insufficient speed, multiple circuits of technical solutions to their elements, which hinder unification and standardization, a narrow range of sensitivity and hysteresis adjustment, inconvenience of operation, due to the lack of accurate fixation of parameters, limit their areas of application.

The purpose of the present invention is to increase the stability and speed of the DRS.

The proposed radio-relay relay device contains a radiation source, an amplifier with an amplifier, an electronic relay unit with a comparison threshold device, and is characterized in that the electronic relay unit is discrete and contains two threshold pulse generators, each of which is connected through the successively connected elements "And and" OR with one of the

the inputs of the comparing threshold device, to the second input of which a sensor is connected, and to the outputs, a relay element connected via feedback with said elements of I.

The use of a comparing scaler with continuous comparison of the frequencies of the input and reference signals makes it possible to increase the speed of the FEM. Stability

RRP is achieved by using discrete logic elements through a channel of dedicated output signal and stable threshold generators. At the same time, the generators are made in the range, which provides a simple adjustment of the parameters of the entire RRS (sensitivity, hysteresis) and fixation in the process of setting up the device.

The drawing shows the block diagram of the proposed RRP.

It contains a radioisotope sensor 1, amplifier 2, the logical element “OR 3; threshold pulse generator 4; logical element "And 5; a comparison meter 6; relay element 7; logical

element “And 8; threshold pulse generator 9.

RRP works as follows. On one input of the comparing device from the sensor 1 through the amplifier 2 is statistically

registered by radioactive radiation, to another input - a stream of pulses of regular frequency, created by threshold generators 4 and 9.

At the outputs of the device 6, after recalculation of the difference in the fluxes of pulses, pulses appear to control the output relay element 7, and if the frequency of the regular flow of pulses is higher than the average frequency of the input signal, the output relay element 7 is released, and vice versa, if the frequency of the input signal is higher than a regular flow of pulses, it is triggered, and each time after the appearance of a pulse, the output of the corresponding channel from the comparison device 6 is automatically reset to write information.

The generator 4 generates a stream of regular pulses with a frequency corresponding to the threshold of the RTD, and the generator 9 - a similar stream with a frequency of release.

Generators 4 and 9 are connected to the input of the comparison device 6 through logic elements “And 5 and 8, potentially connected to the relay element 7 and transmitting a stream of pulses from the generators to the logic element OR 3, which is connected to the input of the comparison device 6 via a regular channel frequencies.

The state of the output relay element 7 (actuation or release) determines the flow of pulses from the generators 4 or 9.

If the input of sensor 1 does not receive a signal, or its average frequency and value is less than the frequency of the threshold generator 9, then the relay element 7 turns off the logical element “And 8 and connects the logical element“ And 5, while the comparing device from the generator 4 of logical elements 5 and 3 a stream of pulses arrives at a frequency corresponding to the trigger threshold, confirming the release condition of the output relay element. At the same time, the instrument's circuitry becomes ready for operation. If the frequency of the input signal now becomes higher than the frequency of the generator 4 at the output of the comparison device, a pulse will be transmitted through the sensor channel, which will transfer the relay element 7 to the operating state. In this case, the element 7 turns off the logic element 5, preventing the flow of pulses from the generator 4, and connects the logic element 8, which transmits the flow of pulses from the generator 9, thereby preparing the device circuit for release. The release of the device will occur in the case when the frequency of the input pulses will again be lower than the frequency of the threshold generator 9.

Adjusting the sensitivity and hysteresis of the RRP and fixing them are performed by smoothly changing the frequency of the threshold generators,

which are made, for example, range. To register a given radiation drop at a certain threshold, the RTD is adjusted by switching the number of bits of the comparing device and setting the hysteresis by changing the frequency of the release generator.

Subject invention

A radioisotope relay device containing a radiation source, a sensor, an electronic relay unit with a comparative threshold device, characterized in that

In order to increase stability and speed, the electronic relay unit is discrete and contains two threshold impulse generators connected through series-connected AND and OR elements

with one of the inputs of the comparing threshold device, to the second input of which a sensor is connected, and to the outputs — a relay element connected by feedback with the said elements “I.