SU739449A1 - Device for measuring intensity of pulse flows - Google Patents

Description

(54) MEASUREMENT OF PULSE INTENSITY The invention relates to radio measurements and can be used in computational and measurement techniques, in particular, in radioactive logging equipment to measure the true interactivity pulse flow from the downhole probe output in real time. Devices for converting the intensity of pulsed streams into a continuous lJH (2) are known. A disadvantage of devices of this type is insufficient measurement accuracy, which is caused by the non-simultaneous action of the charging and discharging circuits. The closest technical solution to the proposed device is a device containing a single vibrator, a charge one dosing capacitor, a willow key diode, a storage capacitor, a DC amplifier, a recorder, an amplitude normalizer, and a discharge resistor 3J. The disadvantage of the known device is the low accuracy of measurement of the intensity of the pulsed flow due to ripples of the output parameter near its average value resulting from the inconstant action of the single and discharge circuits. The aim of the invention is to improve the accuracy of the measurement. contains a controlled current generator, discharge dosing condensate}, two diode keys and an electronic switch, the input of the controlled current generator connected to the output of the amplifier DC output, a storage capacitor and a recorder input, the generator output is connected to one pole of the discharge metering capacitor and an electronic switch input, the output of which is connected to the common bus, and its control input is connected to the output of a single meter and one charging metering field the capacitor, the other pole of the discharge metering capacitor is connected to the cathode of one diode and the anode of another diode, the cathode of which is connected to the common bus, and the anode of the first diode is connected to the input of the amplifier direct current with the input of the storage capacitor. The drawing shows a block diagram of a meter. The meter consists of an input 1 of a single vibrator 2 with a low output resistance, a charging metering capacitor 3, key diodes 4 and 5, a storage capacitor 6, an amplifier of current 7 with a large input and low output impedance, controlled current generator 8, diode 9 of discharge metering capacitor 10, diode 11 of a normally open electronic key 12 and recorder 13, NybyyKbtbtb is supplied from the output 14 of the meter. The output of the one-shot 2 is connected to one of the poles of the capacitor 3 and the control input of the key 12. The other pole of the capacitor 3 is connected to the cathode of diode 5 and the anode of diode 4. The cathode of diode 4 is connected to the input of a dc amplifier 7, one of the other types of memory the capacitor 6 and the anode of diode 9, and the anode of diode 5 is connected to the common bus. The output of the amplifier current 7 is connected to the other pole of the storage capacitor 6, the input of the controlled generator 8 and the input of the recorder 14. The output of the latter is connected to one of the poles of the capacitor Yu and the input of the switch 12, the output of which is connected to the common bus. The other pole of the capacitor 10 is connected to the cathode of diode 9 and the anode of diode 11, the cathode of the latter is connected to the common bus. The device works as follows. At input 1, an impulse stream with intensity irvi is applied. When the j-th pulse arrives at the input 1 of the single-oscillator 2, a positive-polarity voltage with a duration C, C output of the one-vibrator produces a pulse with amplitude EQ that bounces on the charging dosing capacitor 3 and on the control input of the key 1 During the operation the interim pulses equal to - Cjj capacitor 10 is charged from current generator 8 through diode 11. Charge value, coo6maeMVjfl 9 4 to capacitor 10 per VR m - - s -, - - generator current 8, K-const proportionality coefficient, Uj - value of output voltage wife meter at the time of arrival + Tg about momentum. Under the action of the positive front of the J + 1 pulse, diode 4 is opened and capacitor 3 is recharged through storage capacitor 6, communicating the charge amount where the capacitor 3 capacitance value. At the same time, switch 12 connects capacitor 10 to a common bus. Diode 11 closes. The diode 9 is opened and the capacitor 10 is recharged through the diode 9 and the storage capacitor 6. As a result, the amount of charge is removed from the latter. By a negative differential: / + of the 1st pulse, the capacitor 3 is charged to its original value. The change in voltage on a storage capacitor caused by the action of a pulse. . -.... m where C is the capacity value of the storage capacitor 6. The solution to this difference equation with the initial condition) is:. .. to Vl-mro / r L me J J After the end of the transition process () - 92 §of J l mto / ovwtio K where KQ - is a constant coefficient. It takes into account that the intensity m at the output of the system with dead time x is related to the true intensity h by the expression where Cf is the dead prem of the system d miscalculations, and choosing TQ-С v, we get, i.e. The output parameter of the meter linearly depends on the true intensity of nuclear radiation. ,

Since after the completion of the transient process, the charge and discharge current pulses are equal in magnitude (up to Statistical deviations), opposite in sign and arrive

at the input of the storage capacitor at the same time, there is practically no output voltage pulse.

Formula of invention

A pulse intensity meter that contains a vibrator, a charging metering capacitor, two key diodes, a storage capacitor, a DC amplifier, and a recorder, characterized in that it contains a controlled current generator, a discharge metering capacitor, to improve the measurement accuracy. key diode and electronic key, and the input of the controlled current generator is connected to the output of the DC amplifier, the output of the storage capacitor, the recorder input, the output of the Current Generator with union of single pole metering discharge capacitor

and the electronic key input of which is connected to the common bus, and its control input is connected to the single-vibration output and one pole of the charging metering capacitor, the other pole of the discharge metering capacitor is connected to the cathode of one diode and the anode of another diode whose cathode is connected to the common bus and the anode of the first diode is connected to the input of the DC amplifier and the input of the storage capacitor.

Sources of information taken into consideration

1. Iskanderov V. G, Rudnev O. V. Choice of the circuit of the analog integrator of equipment R. K. and the method of its calculation. Sat Geophys. apparatus., issue. 49, L., Nedra 1972, p. 90-96.

2.Veseti (io4ic V.T..WatSocho DZavicl Bboj-ic MVTtie Source - Sottower tineariration oa diode pumpir tegrra-tor. Noct.-Ihstf.and r eivx, 101,, 0535-5313. Matveev V.V. , Khazanov, BI, Instruments for Measuring Ionizing Radiation, M., Atomizdat, 1967, p. 344 (prototype).

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Claims (1)

Claim An impulse flow intensity meter comprising a single vibrator, a charging metering capacitor, two key diodes, a storage capacitor, 15 a DC amplifier and a recorder, characterized in that, in order to improve the measurement accuracy, it contains a controllable current generator, a discharge 'metering capacitor, two 20 key diodes and an electronic key, and the input of the controlled current generator is connected to the output of the DC amplifier, the output of the storage capacitor, the input of the recorder, output 25 of the Current generator connected to one pole of the discharge metering capacitor and the input of the electronic key, the output of which is connected to a common bus, and its control input is connected to the output of a single vibrator and one pole of the charging, metering capacitor, the other pole of the discharge metering capacitor is connected to the cathode of one diode and the anode of another diode, the cathode which is connected to a common bus, and the anode of the first diode 10 is connected to the input of the DC amplifier and the input of the storage capacitor.