SU404032A1 - DIFFERENCE INTENSIMETER - Google Patents

Description

one

The invention relates to radiation detection devices, in particular, to differential intensity meters used in radiometry and dosimetry.

Difference integrameters are used when it is necessary to register a useful effect under external background conditions, and it is not uncommon for the background level to be many times (times the intensity of the measured effect.

There are known difference intensity meters that provide automatic background subtraction, (which contain two forming channels of bipolar standard current charges - measuring and compensating, each of which consists of a connected pulse generator and a standard current generator, and the inputs of pulse drivers in the measuring and compensation channels are connected respectively to the outputs of the effect and background detectors, and the outputs of standard charge drivers are connected to a common the integrating circuit and the measuring device, yuschemu measured voltage value to the integrating circuit is yuschees output value proportional to the intensity of the measured radiation.

The error in measuring the effect of differential impedance meters of this type with large background / effect ratios will be mainly determined by the accuracy of the background compensation, which, in turn, is determined by the measure of identity of the shaping channels.

However, since it is impossible to achieve complete identity in known intensimeters because of the different changes in the parameters of the elements in each channel under the action of a number of destabilizing factors (for example, thermal action, aging, etc.),

the imbalance of the forming channels, even in the absence of a measurable effect, causes, at large background levels, a significant amount of voltage on the integrating circuit, the so-called zero drift

background compensation.

The aim of the invention is to improve measurement accuracy.

For this, an additional integrating loop is connected to the measuring integrating circuit, the common point of which is connected to the electronic key controlled by the logic device, while the outputs of the logic device are connected to the outputs of the pulse drivers in each channel.

The drawing shows a diagram of the iptensimeter. The difference intensity meter contains two shaping channels - the measuring and the compensation, each of which contains one pulse shaper 1 p 2,

the inputs of which are connected to the outputs of the effect and background detectors, respectively, and the outputs to the inputs of the formers 3 and 4 of the standard charge, the outputs of which are connected to a common measuring integrating circuit consisting of a capacitor 5 and a resistor 6, and to the measuring iribor 7. Effect detector measures the total radiation Pe + Pf, and the background detector measures only the background radiation Yaf. In series with the measuring integrating circuit, an additional integrating circuit is included, consisting of a capacitor 8 and a resistor 9, the common point of which 10 is connected to an electronic key AND controlled from logic circuit 12. Two inputs of circuit 12 are connected to the outputs of pulse drivers 1 and 2. In addition to This point is connected to the input 10 of the amplifier 13, the output of which is the power bus for the standard charge generator 4 in the compensation channel.

Device | works as follows.

The pulses of the sequences Pe + "F and F, which come from the outputs of the pulse formers 1 and 2, are formed by the formers 3 and 4 into the standard current charges positive Q + and negative Q, respectively.

From the outputs of the formers 3 and 4, the pulses arrive at the integrating measuring (The circuit on which they are averaged with simultaneous compensation of background charges Q. Depending on the position of the electronic key 11, point 10 is either connected to ground (position of the key 14) or disconnected (position key 15). These key positions 11 correspond to cases of non-occurrence of charges in an additional circuit, or passing. The key is controlled by logic circuit 12, the input of which receives pulses of the series Pe + "f and Pf in such a way that key 11 is in position 15 times, as soon as the input of logic circuit 12

there is a transition from one sequence of pulses to another. In all other cases, the key And is in position 14, shunt an additional integrating circuit. Such a switching mode of the key 11 ensures that the additional integrating circuit of charges Q + and Q passes only alternately, which causes the receipt of an equal number of charges for

additional integrating circuit, regardless of the actual load channels.

Due to this, the voltage arising at point 10 is due only to the imbalance of the forming channels, i.e., the inequality

(Q +) T (Q), and does not depend on the level of the effect. This voltage is the actual drift of the background compensation zero, worked to zero by means of an amplifier 13 connected to the negative feedback circuit. By changing the magnitude (Q-), the zero voltage is restored on the additional integrating circuit at point 10, thereby eliminating measurement error caused by the imbalance of the shaping channels.

Subject invention

A difference intensity meter containing measurement and compensation channels, each of which consists of a series-connected pulse generator and a standard charge generator, connected to a common measuring integrating circuit, characterized in that

In order to improve measurement accuracy, an additional integrating circuit is connected to the measuring integrating circuit, the common point of which is connected to an electronic switch controlled by a logic device, while the inputs of the logic device are connected to the outputs of pulse drivers in each channel.