SU1009216A1 - Radiometric measuring channel (modifications) - Google Patents

Abstract

A RADIOMETRIC MEASURING CHANNEL (ITS OPTIONS) containing a detection unit connected via a communication line to the input of the amplifier amplifier, the output of which is connected to the signal input of the transmission circuit through the delay line, the control input of which is connected to the output of the interference signal device, and the output connected to the input of the information processing device, characterized in that, in order to reduce the measurement error under conditions of intense interference, a correction device is inserted in it, made as sequence processing apparatus connected interference pulses and output a controlled cascade signal korrektiruyuscheso control input device connected to the output noise isolation device signal input - with the output of the Obra Botko information and the output channel is output. . 2. A radiometric measuring channel containing a detecting unit connected via a communication line to the input of an amplifier-former, the output of which is connected via a clamp line to the signal input of the transmission pass-through circuit whose control input is connected to the output of the signal output device, and the output connected to the input an information processing device, characterized in that, in order to reduce the measurement error in conditions of intense interference, a correction device made in is introduced into it; The form of the importer is connected to the output of the interference signal isolation device, and the output is connected to the control input of the amplifier form.

Description

The invention relates to the field of nuclear technology and is intended to measure radioactive radiation, for example, neutron flux densities in nuclear reactor control and protection systems. Pulsed radiometric channels are known, consisting of a detecting unit located in the irradiation zone and an electronic information processing device (signals) located outside the irradiation zone l and 2. In these radiometric channels the detecting unit is, for example, based on pulsed ionization camera connected to an electronic signal processing device through a cable line. An electronic device of known radiometric channels, usually consisting of a preliminary, amplifying amplifying signal from the detector, and a useful signal extractor connected in series with it (discriminator, frequency detector), from which the signal goes to the output processing device processing and displaying information on indicating devices and computers. The known radiometric channels have insufficient noise immunity, since the shielding of the input circuits does not provide complete noise suppression due to very low signal levels from the detector. The radiometric measuring channel, closest to the described device, is the closest to the described device by technical essence. containing a detonator connected through a communication line to an input of an amplifier-amplifier, the output of which through a delay line is connected to the signal input of the passband circuit, the control input of which is connected to the output of the interference signal extraction device and the output is connected to the input of information processing device 3J, V This device is not affected by the use of a special device for extracting the interference signal and blocking the main measuring path for the duration of the interference. In this case, the interference signal isolation device is made in the form of a special antenna circuit that isolates the interference signal, which is connected to an additional amplifier-shaper from the output of which the amplified interference signal goes to a one-shot that generates a blocking pulse, the duration of which is longer than the interference signal. The blocking impulse locks the transmission circuit for the duration of the interference signal, and thus the signal interference induced in the main measuring path does not reach the output information processing device. The main disadvantage of the known device is a significant measurement error due to the fact that the measuring signal is blocked for the duration of the interference signal and useful information is lost. The purpose of the invention is to reduce the measurement error under conditions of intense interference. This is achieved by introducing a correction device into the radiometric measuring channel, made in the form of serially connected devices for processing disturbance pulses and an output controlled stage, the alarm control input of the corrective device is connected to the output of the interference suppression device, and the output is the channel output. In the device-variant, the goal is achieved by introducing a correction device into the radiometric measuring channel, made in the form of a pulse former, the input of which is connected to the output of the interference signal extraction device and the output to the control input of the amplifier-former. FIG. 1 is given the block diagram of the proposed radiometric channel, option 1; in fig. 2 is a block diagram of the same, option 2; in fig. 3 —signal transformation scheme, option 1; in fig. 4 - e, option 2; Fig. 5 shows the dependence of the operating characteristic of the measuring channel on the control signal of the correction device (curve 11); curve 12 - self-noise of the measuring channel. Radiometric measuring channel for option 1 works with any type of detector. The technical solution for option 2 covers only radiometric measuring channels with detectors having inclined performance and allowing a slight shift in the working characteristic, but the implementation of these channels is simpler compared to option 1. The radiometric measuring channel (option 1) consists of detector 1, for example pulsed ionization chamber, which through a coaxial line 2 connection is connected to the input of the amplifier-former 3, the output of which is connected via a delay line 4 to the signal The input of the transmission circuit 5, the control input of which is connected to the output of the noise extraction device b, and the output connected to the input of the information processing device. The output of the information processing device 7 is connected to the signal input of the correction device 8, made in the form of serially connected noise processing device 9 and the output controlled stage 10, the signal control input of the correction device 8 is connected to the output of the noise signal extraction device 6, and the output of the correction device 8 | is the channel output. In the radiometric measuring channel according to option 2, the correction device 8 is designed as a pulse former and its input is connected to the output of the interference signal extraction device 6, and the output is connected to the control input of the amplifier 3. The radiometric measuring channel (option 1) works follow the way. In the absence of interference, pulses arising in detector 1, through line 2, are fed to amplifier-former 3, then through a delay line and an open transmission circuit 5 are passed to information processing device 7, from which output through correction device 8 having a unit factor If scans are skipped when there is no signal on the control input of the signal from the device b to extract the interference signal, the information signal passes to the output of the measuring kangsha. In the presence of interference, impulses generated by the interference suppression device 6 enter the interference impulse processing device 9, for example, in the form of a count rate meter, from which the signal goes to the control input of the output controlled stage 10, for example, a controlled amplifier changing its transmission coefficient when a control action is applied to it. Consider the operation of the device when using a count rate meter (ESSP) as a device for processing noise pulses with a transfer coefficient K, as an output controlled stage - a controllable amplifier with a transmission coefficient Cc, and as an information processing device as a meter of count rate HCCg c transmission coefficient K, (see FIG. 3). Let us take the following additional designations: - pulse frequency of the useful signal; -frequency of interference blocking pulses; - transfer coefficient of the output controlled cascade; -the duration of the blocking pulse; output information (code, voltage). At the output of the interference pulse processing device, a signal is formed that is proportional to the interference intensity of the Cg-Gp DG® Kp-transfer coefficient of the interference-processing device 9. From the block diagram of FIG. 3 it is visible that and, and (-1l-Rp) (1). where The Hz product determines the error introduced into the known radiometric channel by interference signals, i.e. D% MSW fp 100%. Change Kts according to the law. Tel i jipHHHB К |, - TBA (3), we will get output GT; - - "c-RSP-TV. -Pn Ks-RS (4) Thus, the influence of interference on the output information is excluded. The cutoff frequency of the interference is determined from the condition Hn O (5), whence Ph l / fbA (6). Based on the operating experience of the equipment on jABCj under real conditions TtioMetH (10-100) MKS and G 5 kHz, the limit frequency of interference at which the circuit is operational., 10 kHz. However, it should be noted that, in general, the cutoff frequency of the interference at which the circuit operates can be increased if special radiometric measuring channel circuitry is used to reduce the duration of the induced interference, which makes it possible to reduce the duration of the blocking pulse. Radiometric measuring channel for option 2 works as follows. In the absence of interference, the pulses arising in detector 1, through the communication line 2, are fed to the amplifier former 3, then the received signal through the delay line 4 and the open transmission circuit 5 passes to the information processing device 7. Under the interference conditions, the interference pulses, avodi1 "1e, both in the information channel and in the noise isolation devices, do not pass to the output through the transmission circuit 5, since the interference signal extraction device 6 forms the corresponding blocking impulse for the duration of the interference signal ( Tg), which blocks the information channel. From the block diagram of signal processing, it can be seen that in a known radiometric channel (without a correction device 8) information passes to the processing device, defined by the following relationship: ,,) P) where F, j, is the pulse frequency in the measuring channel to the circuit transmission; F, j is the pulse frequency in the measuring channel after the transmission circuit. Here, the product TLR TLI determines the error introduced as a result of the measurement of interference signals. In the proposed device, immediately after termination of the blocking pulse, the correction device 8 generates a correction pulse with a duration of time, its action shifts the channel performance (on and I), while (Fig. 4): P2c cU-Fn-nV (, c-PnTKop (8) where K is the bias coefficient of the operating characteristic equal (taking into account the adjustment) R.- (in normal mode) From this it is seen that under the condition T nV-iM-Fn-TKop (10 Ie choose T, p (1) we get F .2J, F (-, i.e. no information is lost in the device being described.

Claims (2)

RADIOMETRIC MEASURING CHANNEL (ITS OPTIONS), comprising a detecting unit connected via a communication line to the input of the amplifier-driver, the output of which is connected via a delay line to the signal input of the transmission circuit, the control input of which is connected to the output of the interference signal isolation device, and the output is connected to the input information processing device, characterized in that, in order to reduce the measurement error in conditions of intense interference, a correction device is introduced into it, made in the form of flax processing device connected interference pulses and output Nogo managed cascade control input signal correcting device connected to the output interference detection apparatus, ny signals ^and input - with the output of the processing information, and the output is an output channel. . 2. A radiometric measuring channel containing a detection unit connected via a communication line to the input of the driver-amplifier, _the output of which through the delay line S is connected to the signal input of the transmission circuit, the control input of which is connected to the output of the interference signal isolation device, and the output is connected to the input of the information processing device, characterized in that in order to reduce the measurement error under conditions of intense interference, a correction device made in the form of an importer is introduced into it sov, whose input is connected to the output arrange CTBA isolation of the interference signal, and output to the control input of the amplifier-driver. Figure 1>