SU705378A1 - Device for two-frequency amplitude-phase measurement in geoelectrical prospecting - Google Patents

Description

(54) DEVICE FOR FLUENT-FREQUENCY AMPLITUDE-PHASE MEASUREMENTS FOR DEVELOPING GROUPS; The spectrum of which contains a third harmonic and whose amplitude is 3 times the amplitude of the first harmonic, then we must carry out an effective filtering of 6: la Vysokoy. (Frequencies are not successful - the amplitude of the signal is 3 times | less than the Other signal, and the sound amplifier of the amplifier cannot be made large enough. The purpose of the invention is to increase the accuracy of the Bridge and the measurement accuracy of the measurements for the dual frequency amplitude-phase measurements during geo-electrical measurements for geo-amplitude measurements for geo-amplitude measurements using geo-amplitude measurements for geo-amplitude measurements using geo-amplitude measurements for geo-amplifiers containing currents of two frequencies, co-linear with the driving sensor field, consequently connected receiving sensor signals, switch, precutting surgeon, to the output of which iSoro are connected the inputs of the selective device or a low frequency and selective high frequency amplifier, connected to the input of the First lg by the second detector, the first to the second driver, the outputs of which are connected to the inputs of the TliftRrepa, and the second one of the first driver is connected to the output of the selective amplifier, two ammeter indicators whose inputs are connected to the outputs of the Detectors, a meter for time willows, tervals, and a calibrator, whose output is connected to a switchboard, an additional trigger, a third driver, and an And element, the input -, the third forwarded connections to the output of the first detector, the entrance to the Former former is connected to the output of the second detector, the outputs of the second and third formers are connected to two inputs of the additional trigger, two inputs of the element I are connected to the outputs of the trigger, and the output is connected to the input of the meter Time intervals . The drawing shows the functional diagram of the device. The device contains a generator of two currents of two frequencies, specifies the sensor 2 field, the receiving sensor 3 signals, switch 4, preamplifier 5, Selectable amplifier, low frequency, frequency selective 7, high frequency detectors, 8 and. 9, shapers 10 - 12, triggers 13 and 14, element I 15, measuring device of the Yeni intervals 16, indicators of amplitudes 17 and 18, calibrator 19.. The device works as follows. .l .. With the help of generator 1, the currents of two frequencies of high and low frequency are produced. The frequencies are usually infralow1 (multiples, and the high frequency differs from the low by 2-5 times. The currents of two frequencies developed by the generator 1 are passed through the master 2 field sensor. Using the sensor 2, a two-frequency electromagnetic field is excited in the medium under study. Signals from the earth, non-communicating information about the electrical properties of the medium under study, are further detected by the signal sensor 3. Signals from sensor 3 through switch 4 are fed to preamplifier 5, where the general amplification of the two frequencies is carried out. Then, with, and In the selective amplifiers B and 7, the signals of the low and high frequencies are separated, rectified with the help of the full-wave Detectors 8 and 9. The signals from the output of the selective amplifier B, as well as from the outputs of the detectors 8 and 9, are fed to the formers 1012. At the output of the formers 10-12 g are obtained rectangular impulses whose fronts correspond to given uro m of sinusoidal (or rectified) signals. The outputs of the first and second orO drivers 10 and 11 are connected to two trigger inputs 13, and the output of the second and third formers 11 and 12 - to two inputs M further latch 14. The output trig, ger 13 obtained series of rectangular ishul with a repetition frequency which is equal to the low frequency, and duration is a time shift between signals of low and high frequencies. At the output of an additional igger of 14 rGgu, there is a series of rectangular impulses, the repetition frequency of which is equal to the low frequency, and the duration of the pulses is also equal to the time shift between the signals of low and high 4actoT. The resulting sequences of pulses are combined with the pad of element 15 in such a way that at its output a series of rectangular pulses, whose frequency is three times the low frequency, lasts, and the duration of the pulses is equal to the time shift between the low and high frequency signals. Using a time slot meter 16, the duration of the received pulses is measured. Since the frequency of the measured pulses at the input of the 16 V meter is three times the frequency of following the pulses in the prototype, it can be done 3 times to reduce the integration time constant when obtaining the same accuracy as in the prototype. In addition to l-orO, the formation of control pulses by triggers 13 and 14, corresponding to several levels of low and high frequency signals, makes it possible to almost completely eliminate errors caused by incomplete suppression of a low frequency signal by a selective high frequency amplifier. The amplitude of the low and high frequency signals is measured using indicators .17 and 18 connected to the outputs of the detectors 8 and 9. To determine the measurement of the time shift introduced by the elements of the device (mainly selective amplifiers 6 and 7, the driver 10-12), the device is periodically calibrated. To obtain a calibration signal, a calibrator 19 is used. With the help of the calibrator 15, a two-frequency signal is produced, with the same frequencies, which produces feHeiJeiTop 1 / and the phase offset between these signals is zero. Calibration with a PM4 Commutator 4 from Preamplifier 5 turns off Sensor 3 and connects the Spinner 19. The amplitude of the calibration signal is chosen the same as the amplitude of the operating signal (control is performed using indicators 17 and 18). The result obtained with calibers Kb is subtracted from the result of the first measurement. As a calibrator 19, a quartz oscillator with frequency dividers can be used Formula Figures Device for dual-frequency amplitude-time measurements of direct geoelectromagnetic prospecting, containing a frequency generator with a frequency generator connected to a reference field sensor, subsequently connected to a receiving signal sensor, switch, preliminary amplifier, to the output of which are connected the inputs of the selective low-frequency amplifier and selective high-frequency amplifier, the outputs of which are connected to the inputs of the first and volts first detectors, the first and second drivers, the outputs of which are connected to the trigger inputs, and the input of the first driver are connected to the output of the selective low-frequency amplifier, two amplitude indicators, the inputs of which are connected to the outputs of the detectors, a time interval meter: and a calibrator, the output of which is connected to the switch It is distinguished by the fact that, with the Tzoly, an increase in the accuracy and productivity of measurements / an additional trigger, a third driver and an AND element are introduced into it, and the input of the third driver with Connecting to the output of the first detector / input of the second driver is connected 1 to the output of the second detector, the outputs of the second and tr (network formers are combined with the inputs of the ADDITIONAL trigger, two inputs of the And element are connected to the trigger And, and the output of the I element is connected to the input of the time meter and terminal. Sources of information taken into account in the examination 1.V.P. Melnikov and DR- Fundamentals of amplitude-phase measurements of called polarization. Yakut Prince. publishing house, Yakutsk, 1974, p. 97-190. 2. USSR author's certificate t 335650, cl. G 01 W.3 / 02, 1970,