Pseudo-random code electric meter
A pseudo-random code and electrical instrument technology, applied in the field of geological exploration equipment, can solve the problems of low anti-interference ability, low exploration efficiency, and difficult to adapt to complex environments, etc., and achieve the effect of strong anti-interference ability and high exploration efficiency
Active Publication Date: 2017-05-24
BEIJING ORANGELAMP NAVIGATION TECH DEV
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Problems solved by technology
[0005] The technical problem to be solved by the present invention is that the existing electromagnetic exploration equipment has low anti-interference ability, low exploration efficiency, and difficulty in adapting to complex environments
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[0017] The present invention will be described in detail below with reference to the accompanying drawings.
[0018] like figure 1 , figure 2 As shown, the pseudo-random code electrical meter provided by the present invention includes a transmitter and a receiver.
[0019] The transmitter includes FPGA processing module, steady current source module and ADC data acquisition module. The FPGA processing module includes a main control CPU and an FPGA connected to it for timing control; the constant current source module includes a drive circuit, a constant current power supply and a standard resistor connected in sequence; the ADC data acquisition module includes an operational amplifier and a differential amplifier connected in sequence , ADC, dual-port RAM, DSP, and CPLD for algorithm integration, CPLD is connected with ADC, dual-port RAM and DSP respectively, FPGA is connected with CPLD through synchronous interface, DSP is connected with RAM, and is connected to on the PC...
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The invention discloses a pseudo-random code electrical instrument. The pseudo-random code electrical instrument includes a transmitter and a receiver. The transmitter comprises a FPGA processing module, a constant current source module and an ADC data acquisition module. The FPGA processing module comprises a master control CPU and an FPGA connected with the master control CPU and used for time sequence control. The constant current source module comprises a driving circuit, a constant current power source and a standard resistor, wherein the driving circuit, the constant current power source and the standard resistor are connected in sequence. The ADC data acquisition module comprises an operational amplifier, a differential amplifier, an ADC, a two-port RAM and a DSP and further comprises a CPLD used for algorithm integration, wherein the operational amplifier, the differential amplifier, the ADC, the two-port RAM and the DSP are connected in sequence, and the CPLD is respectively connected with the ADC, the two-port RAM and the DSP. The FPGA is connected with the CPLD through a synchronous interface, and the DSP is connected with the RAM and connected to a PC upper computer through a USB controller. The receiver comprises an SMA connector, an operational amplifier, a differential amplifier, an ADC, an FPGA and a DSP and further comprises a master control CPU respectively connected with the FPGA and the DSP, wherein the SMA connector, the operational amplifier, the differential amplifier, the ADC, the FPGA and the DSP are connected in sequence, and the DSP is connected to the PC upper computer through a USB MCU module. The pseudo-random code electrical instrument is high in anti-interference performance and exploration efficiency and can adapt to complicated environments.
Description
technical field [0001] The invention relates to geological exploration equipment, in particular to a pseudo-random code electrical method instrument. Background technique [0002] Electromagnetic exploration is one of the most widely used and effective methods in mineral exploration, engineering and environmental exploration. However, for a long time, this type of method has been troubled by the following aspects: First, its anti-interference ability is low, especially when working in industrial and mining areas or cities, it is vulnerable to various electrical interference. Secondly, the commonly used frequency domain electromagnetic sounding needs to be observed frequency by frequency within a certain frequency range, and the production efficiency is low. Third, some electromagnetic exploration methods need to arrange wires as long as several to ten kilometers in the field observation, which not only makes the observation device cumbersome and further reduces the producti...
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IPC IPC(8): G01V3/02
Inventor 罗延钟陆占国黄伟才孙国良
Owner BEIJING ORANGELAMP NAVIGATION TECH DEV