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Fully differential signal conditioning circuit for current excitation sensors

A signal conditioning circuit and current excitation technology, applied in the field of sensor detection, can solve the problems of reducing signal-to-noise ratio, reducing signal quality, and complex design, and achieve the effect of doubling the dynamic range, reducing even-order harmonics, and increasing immunity

Active Publication Date: 2016-10-12
北京天际翔达科技有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] No matter what kind of sensor is used, the electricity generated is very small, so the electrical signal generated by the sensor is easily disturbed by noise, and the signal transmission path is quite complicated. In addition to the oil film damping, the vibration signal of the intermediate bearing has to go through a long distance. The casing of the sensor is transmitted to the sensor, and the output signal of the sensor has to go through long-distance multi-path transmission to reach the collection receiver. The transmission process is accompanied by very strong interference, which makes the signal quality significantly reduced, and the useful bearing fault signal is often lost. Submerged in noise and other signals, it becomes a prominent difficulty in fault diagnosis
In order to improve the quality of the signal, it is necessary to effectively remove the noise interference. In the existing technology, the single-ended processing technology is generally used to process the signal output by the sensor. Since the single-ended processing technology cannot suppress the ground noise, the accumulated noise in the operational amplifier will be Degrades signal-to-noise ratio (SNR) performance, impacting system design
Even if a differential signal conditioning circuit built with dual op amps is used, the design becomes complicated due to the need for more resistive capacitor devices, and it is difficult to achieve complete balance due to the error of the external resistive capacitor device and the error inside the chip.

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  • Fully differential signal conditioning circuit for current excitation sensors
  • Fully differential signal conditioning circuit for current excitation sensors

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Embodiment Construction

[0022] A fully differential signal conditioning circuit claimed in the present invention can be applied to conditioning the output signals of acceleration sensors such as ICP or IEPE, and can also be used to condition the output signals of other sensors that require current excitation, such as RTD temperature sensors. Such as figure 1 As shown in , it is a functional block diagram of the present invention. The acceleration sensor has two output terminals, which are respectively a signal output terminal and a reference output terminal. The present invention includes a signal receiving unit, a programmable gain unit, and an anti-aliasing filter connected in sequence. unit and the analog-to-digital conversion unit.

[0023] The signal receiving unit is used to receive the signals from the two output ends of the acceleration sensor, and output the AC signal after isolating the DC component;

[0024] The programmable gain unit is used to output the AC signal output by the signal r...

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Abstract

The invention relates to the field of sensor detection, and in particular to a fully differential signal conditioning circuit for current excitation sensors, comprising a signal receiving unit, a programmable gain unit, an anti-aliasing filtering unit and an analog-to-digital conversion unit. All are connected in the above listed order. The signal receiving unit is used for receiving the signals outputted from the sensor, isolating DC components and outputting the signals. The programmable gain unit is used for outputting the AC signals outputted from the signal receiving unit as differential signals after being amplified or reduced. The anti-aliasing filtering unit is used for filtering high-frequency interference signals and outputting the signals as differential signals. The analog-to-digital conversion unit converts the received differential signals into digital signals before they are outputted. With a fully differential mode adopted in the whole signal flow of the invention, any part of the signal transmission path that is subject to noise interference can be effectively suppressed, and the immunity to external noise can be increased, thereby doubling the dynamic range and reducing even-order harmonic waves.

Description

technical field [0001] The invention relates to the field of sensor detection, in particular to a fully differential signal conditioning circuit applied to current excitation sensors. Background technique [0002] The sensor is a kind of precision sensing equipment widely used in various control fields. For example, in the aircraft field, due to the prominent failure of the main bearing of the aero-engine intermediary, which affects flight safety, it is necessary to have a high reliability and robustness, and in the field of Health management equipment that can accurately issue early warning signals within a sufficient lead time. [0003] At present, in the bearing fault diagnosis of some aero-engines, ICP or IEPE acceleration sensors are mostly used to detect the vibration signal of the bearing. Among them, the ICP sensor (integrated circuits piezoelectric) refers to the built-in piezoelectric sensor, which uses modern integrated circuit technology to integrate the traditio...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01P1/00G01P5/00G01K1/00
CPCG01K1/00G01P1/00G01P5/00
Inventor 侯建良
Owner 北京天际翔达科技有限公司
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