CN100562765C - Industrial frequency harmonic codan in the useful signal frequency band in the Testing of Feeble Signals instrument - Google Patents

Abstract

The present invention discloses the interior industrial frequency harmonic codan of useful signal frequency band in a kind of Testing of Feeble Signals instrument, is to utilize frequency, phase place, amplitude to follow the tracks of the compensating circuit that the interior industrial frequency harmonic of useful signal frequency band causes interference comprehensively.Be the connecting and disconnecting of master microprocessor control signal sensor and impedance matching network, impedance matching network is connected with programmable amplifier through prime amplifier, broadband filter, the output signal envelope detecting device by control line and data bus be connected from microprocessor, programmable amplifier connects the DDS signal generator through phaselocked loop.Suppress the interference of the industrial frequency harmonic in the useful signal frequency band in the detecting instrument effectively, follow the tracks of frequency, phase place and the amplitude of this interference in real time, with its filtering from received signal, and do not influence other useful signal, do not influence the useful signal frequency content overlapping with this interfering frequency.

Description

Industrial frequency harmonic codan in the useful signal frequency band in the Testing of Feeble Signals instrument

Technical field

The present invention relates to the reception amplification filtering part of detecting instrument, is to utilize frequency, phase place, the comprehensive tracking technique of amplitude, and industrial frequency harmonic causes the circuit of interference in the compensation useful signal frequency band.

Background technology

In the Testing of Feeble Signals instrument, need to improve signal to noise ratio (S/N ratio).The effective means that improves signal to noise ratio (S/N ratio) is with noise and interference beyond the narrow as far as possible bandpass filter filtering useful signal frequency band.But just in time just in the useful signal frequency band, the amplitude of this undesired signal, frequency and phase place change not quite at short notice in the interference that has.Because trapper has certain resistance band, if, can lose a part of useful signal frequency content with common trapper or this interference of tracking trapper filtering.So just need a kind of circuit of invention, this interference under the prerequisite of losing the useful signal frequency content hardly in the filtering useful signal frequency band.For example in the nuclear magnetic resonance water witch, a kind of interference that comes to this of industrial frequency harmonic, especially odd harmonic.

Utilizing nuclear magnetic resonance principle to seek underground water is a kind of new technology that development in recent years is got up.It has unique solution, speed is fast and cost is low characteristics, lies prostrate hundreds of volt magnitudes of receiving but its signal has only number to receive, and very easily is subjected to the surrounding environment disturbing effect and makes the result fuzzy even can't work.The signal frequency of nuclear magnetic resonance water witch is the Larmor frequency that is directly proportional with the terrestrial magnetic field, and it is 1.278KHz～2.556KHz in the world.Interference beyond this frequency range can add the broadband filter filtering of big steepness with tight shielding measure.For filtering interfering more up hill and dale, nuclear magnetic resonance water witch amplifier centre frequency is the measured point Larmor frequency, and bandwidth is 100Hz, the further filtering of the program-controlled wave filter of centre frequency.But always having at least one power frequency odd harmonic frequencies interference drops in this frequency band.Sometimes this industrial frequency harmonic interference magnitude is more much bigger than useful signal amplitude.Because the work frequency maximum possible has 1% frequency drift, so this disturbs the frequency drift that 26Hz may maximum be arranged, it is uncertain with the phase differential of useful signal, and its amplitude also is uncertain, so can not use the trapper filtering of fixed frequency.Because of trapper certain resistance band is arranged again, thus the program-controlled trapper filtering of centre frequency can not be used, otherwise can cause very big distorted signals.

The invention provides a kind of new circuit, can follow the tracks of frequency, phase place and the amplitude of this interference in real time,, and do not influence other useful signal, not even influence and the overlapping useful signal frequency content of this interfering frequency its filtering from received signal.

Other are every to have the detecting instrument that this useful signal frequency band contains the interference that industrial frequency harmonic causes, and all available sort circuit suppresses this interference.Be not only the interference that industrial frequency harmonic causes in fact, the electric signal that every frequency, phase place, amplitude only changed in a very little scope in the short time disturbs also all available sort circuit to suppress.

Summary of the invention

Purpose of the present invention just is at above-mentioned the deficiencies in the prior art, provide a kind of and suppress the interference of the industrial frequency harmonic in the useful signal frequency band in the detecting instrument effectively, and avoid this inhibition interfering process as much as possible industrial frequency harmonic codan in the useful signal frequency band in the Testing of Feeble Signals instrument of useful signal weakening.

The objective of the invention is to realize in the following manner:

Master microprocessor 1 is connected from microprocessor 3 with second control line 16 by first control line 2, master microprocessor 1 is connected with transmitter 22 through power capacitor charging control circuit 21, thereby master microprocessor 1 is connected the connecting and disconnecting of control signal sensor 9 and impedance matching network 18 with K1 by the 3rd control line 20, impedance matching network 18 is through prime amplifier 10, broadband filter 19, program control narrow band filter 5 and subtracter 8 are connected to programmable amplifier 11, programmable amplifier 11 is connected with output signal envelope detecting device 13, output signal envelope detecting device 13 by the 4th control line 14 and data bus 15 be connected from microprocessor 3, programmable amplifier 11 through the 5th control line 17 be connected from microprocessor 3, programmable amplifier 11 is connected with DDS signal generator 7 through phaselocked loop 12, DDS signal generator 7 is connected with subtracter 8, be connected with DDS signal generator 7 by the 6th control line 6 from microprocessor 3, be connected with program control narrow band filter 5 by the 7th control line 4 from microprocessor 3, be connected with phaselocked loop 12 lock flag ends by data line 23 from microprocessor 3.

Beneficial effect: the present invention has suppressed the interference of the industrial frequency harmonic in the useful signal frequency band in the detecting instrument effectively, can follow the tracks of frequency, phase place and the amplitude of this interference in real time, with its filtering from received signal, and do not influence other useful signal, even do not influence and the overlapping useful signal frequency content of this interfering frequency.

Description of drawings

Accompanying drawing is: industrial frequency harmonic codan block diagram in the useful signal frequency band in the Testing of Feeble Signals instrument.

1 master microprocessor, 2 first control lines, 3 from microprocessor, 4 the 7th control lines, 5 program control narrow band filters, 6 the 6th control lines, 7DDS signal generator, 8 subtracters, 9 signal transducers, 10 prime amplifiers, 11 programmable amplifiers, 12 phaselocked loops, 13 output signal envelope detecting devices, 14 the 4th control lines, 16 second control lines, 17 the 5th control lines, 20 the 3rd control lines, 15,23 data buss, 18 impedance matching networks, 19 broadband filters, 21 power capacitor charging control circuits, 22 transmitters

Embodiment

Be described in further detail below in conjunction with drawings and Examples:

Master microprocessor 1 and all adopt the AT89C51 chip from microprocessor 3, the P1 mouth of master microprocessor 1 passes through first control line 2 and is connected from microprocessor 3, the P3 mouth of master microprocessor 1 passes through second control line 16 and is connected from microprocessor 3, master microprocessor 1 is connected with transmitter 22 through power capacitor charging control circuit 21, thereby the P0 mouth of master microprocessor 1 is connected the connecting and disconnecting of control signal sensor 9 and impedance matching network 18 with K1 by the 3rd control line 20, impedance matching network 18 is through prime amplifier 10, broadband filter 19, program control narrow band filter 5 and subtracter 8 are connected to programmable amplifier 11, programmable amplifier 11 is connected with output signal envelope detecting device 13, output signal envelope detecting device 13 is connected with P1 mouth from microprocessor 3 by the 4th control line 14, output signal envelope detecting device 13 is connected with P0 mouth from microprocessor 3 by data bus 15, programmable amplifier 11 is connected with P3 mouth from microprocessor 3 through the 5th control line 17, programmable amplifier 11 is connected with DDS signal generator 7 through phaselocked loop 12, DDS signal generator 7 is connected with subtracter 8, be connected with DDS signal generator 7 by the 6th control line 6 from the P1 mouth of microprocessor 3, be connected with program control narrow band filter 5 by the 7th control line 4 from the P3 mouth of microprocessor 3, pass through data line 23 from the P1 mouth of microprocessor 3 and be connected with phaselocked loop 12 lock flag ends.

Detecting instrument master microprocessor 1 is given from microprocessor 3 by control line 2 and is sent the order of following the tracks of industrial frequency harmonic interference in the useful signal frequency band, calculate the useful signal frequency from microprocessor 3, set the centre frequency of program control narrow band filter 5 by the 7th control line 4, to set DDS signal generators 7 initial output amplitudes be zero and it is added to the cut signal input end of subtracter 8 by the 6th control line 6.Industrial frequency harmonic undesired signal in the useful signal frequency band that signal transducer 9 receives is through impedance matching network 18 prime amplifiers 10, broadband filter 19, program control narrow band filter 5, add to subtracter 8 by the cut signal input end, add phaselocked loop 12 through subtracter 8 and programmable amplifier 11 again, through of short duration frequency-tracking locking process, provide lock flag behind phaselocked loop 12 tracking locks, detecting the output signal frequency of setting DDS signal generator 7 behind the phaselocked loop 12 tracking lock signals from microprocessor 3 is the interfering frequency of phaselocked loop 12 tracking locks, initial phase is zero, initial amplitude is that 1 millivolt sine wave signal exports subtracter 8 to through programmable amplifier 11 adding output signal envelope detecting devices 13, send conversion command for output signal envelope detecting device 13 from microprocessor 3 by the 4th control line 14, by output signal envelope detecting device 13 output signal envelope is converted to digital signal, give from microprocessor 3 by data bus 15, adjust the output industrial frequency harmonic signal initial phase of DDS signal generator 7 from microprocessor 3, delay industrial frequency harmonic signal initial phase 1 degree earlier, whether the output signal envelope that judgement is sent here by output signal envelope detecting device 13 reduces, if reduced would continue to delay 7 output industrial frequency harmonic signal initial phases, if output signal envelope increases on the contrary, the industrial frequency harmonic signal initial phases of 7 outputs in advance then are till the difference of twice judged result in front and back is in the scope that error allows.Increase 1 millivolt of 7 output industrial frequency harmonic signal amplitude again, whether the output signal envelope that judgement is sent here by output signal envelope detecting device 13 reduces, if reduced would continue to increase 7 output the industrial frequency harmonic signal amplitudes, if increasing on the contrary, output signal envelope reduces the industrial frequency harmonic signal amplitudes of 7 outputs, till the difference of twice judged result in front and back is in the scope that error allows.From the instruction that microprocessor 3 sends locking output industrial frequency harmonic signal frequency, initial phase and amplitude for DDS signal generator 7 by control line 6, send the industrial frequency harmonic interference for master microprocessor 1 from microprocessor 3 by control bus 16 and follow the tracks of END instruction.Wait for the Next Command of master microprocessor 1.Wherein DDS signal generator 7 output industrial frequency harmonic signal initial amplitude are 1 millivolt and adjust 1 millivolt of industrial frequency harmonic signal amplitude, can determine by the detected useful signal size order of magnitude, if detected useful signal is very weak, these two " 1 millivolts " can change 1 microvolt even littler into so.But the too little meeting of this value makes the tracking lock time elongated.

With the ground nuclear magnetic resonance water witch is example, before each excite magnetic resonance signals, need to charge to power capacitor, this charging process needs several minutes clock times, signal amplifies with collecting part in this time does not have task, just in time can utilize this time to carry out search, tracking and locking work that the industrial frequency harmonic in the useful signal frequency band disturbs, the industrial frequency harmonic during for the detection NMR signal in the filtering useful signal frequency band disturbs ready.Master microprocessor 1 was provided with K switch 1 conducting by first control line 2 to the order of sending industrial frequency harmonic interference in the tracking useful signal frequency band from microprocessor 3 and by the 3rd control line 20 earlier before sending charge command to power capacitor charging control circuit 21, signal transducer 9 is connected to amplifier impedance matching network 18, and then sends charge command for power capacitor 21 and wait for that also beaming back industrial frequency harmonic from microprocessor 3 disturbs the tracking END instruction.From microprocessor 3 according to the Larmor frequency of artificial input or the Larmor frequency that calculates by the measured point latitude or the geomagnetic field intensity of artificial input, centre frequency for program control narrow band filter 5, setting DDS signal generator 7 initial output amplitudes from microprocessor 3 by the 6th control line 6 is zero, adds to the cut signal input end of subtracter 8.Near the Larmor frequency that signal transducer 9 receives industrial frequency harmonic undesired signal through impedance matching network 18, prime amplifier 10, broadband filter 19, program control narrow band filter 5 add to subtracter 8 by the cut signal input end, add phaselocked loop 12 through subtracter 8 and programmable amplifier 11 again, frequency-tracking locking process through of short duration provides lock flag behind phaselocked loop 12 tracking locks.After detecting phaselocked loop 12 tracking locks from microprocessor 3 by data line 23, the output signal frequency of setting DDS signal generator 7 by the 6th control line 6 from microprocessor 3 is the Larmor frequency of phaselocked loop 12 tracking locks, initial phase is zero, initial amplitude is 1 millivolt, export subtracter 8 to, add output signal envelope detecting device 13 through programmable amplifier 11, by the 4th control line 14 control output signal envelope detecting device 13 output signal envelope is converted to digital signal from microprocessor 3, give from microprocessor 3 by data bus 15, adjust the output industrial frequency harmonic signal phase of DDS signal generator 7 from microprocessor 3, delay industrial frequency harmonic signal phase 1 degree earlier, whether the output signal envelope that judgement is sent here by output signal envelope detecting device 13 reduces, if reduced would continue to delay 7 output the industrial frequency harmonic signal phases, if output signal envelope increases on the contrary, the industrial frequency harmonic signal phase of DDS signal generator 7 outputs in advance then is till the difference of twice judged result in front and back is in the scope that error allows.Increase 1 millivolt of the output industrial frequency harmonic signal amplitude of DDS signal generator 7 again, whether the output signal envelope that judgement is sent here by output signal envelope detecting device 13 reduces, if reduced would continue to increase 7 output the industrial frequency harmonic signal amplitudes, if output signal envelope increases on the contrary, then reduce the industrial frequency harmonic signal amplitude of DDS signal generator 7 output, till the difference of twice judged result in front and back is in the scope that error allows.Send the instruction of locking output industrial frequency harmonic signal frequency, phase place and amplitude for DDS signal generator 7 from microprocessor 3 by the 6th control line 6, the industrial frequency harmonic interference component that deducts from received signal in the useful signal frequency band during for the reception NMR signal is got ready.Sending industrial frequency harmonic for master microprocessor 1 from microprocessor 3 by second control line 16 disturbs the tracking END instruction, waits for the Next Command of master microprocessor 1.Master microprocessor 1 is provided with K switch 1 by the 3rd control line 20 and turn-offs, for emission nuclear magnetic resonance excitation signal is got ready.

Claims (1)

1, industrial frequency harmonic codan in the useful signal frequency band in a kind of Testing of Feeble Signals instrument, it is characterized in that, master microprocessor (1) is connected from microprocessor (3) with second control line (16) by first control line (2), master microprocessor (1) is connected with transmitter (22) through power capacitor charging control circuit (21), master microprocessor (1) by the 3rd control line (20) thus be connected the connecting and disconnecting of control signal sensor (9) and impedance matching network (18) with K1, impedance matching network (18) is through prime amplifier (10), broadband filter (19), program control narrow band filter (5) and subtracter (8) are connected to programmable amplifier (11), programmable amplifier (11) is connected with output signal envelope detecting device (13), output signal envelope detecting device (13) by the 4th control line (14) and data bus (15) be connected from microprocessor (3), programmable amplifier (11) through the 5th control line (17) be connected from microprocessor (3), programmable amplifier (11) is connected with DDS signal generator (7) through phaselocked loop (12), DDS signal generator (7) is connected with subtracter (8), be connected with DDS signal generator (7) by the 6th control line (6) from microprocessor (3), be connected with program control narrow band filter (5) by the 7th control line (4) from microprocessor (3), be connected with phaselocked loop (12) lock flag end by data line (23) from microprocessor (3).

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