Download Resistive, Capacitive, Inductive, and Magnetic Sensor by Winncy Y. Du PDF

By Winncy Y. Du

Sensor applied sciences have skilled dramatic development in recent times, creating a major influence on nationwide safety, well-being care, environmental development, power administration, nutrition protection, building tracking, production and procedure regulate, and extra. despite the fact that, schooling on sensor applied sciences has now not saved velocity with this fast improvement … till now.

Resistive, Capacitive, Inductive, and Magnetic Sensor Technologies

examines current, new, and novel sensor applied sciences and―through real-world examples, pattern difficulties, and functional exercises―illustrates how the similar technology and engineering ideas will be utilized throughout a number of disciplines, supplying higher perception into a number of sensors’ working mechanisms and sensible features. The booklet assists readers in figuring out resistive, capacitive, inductive, and magnetic (RCIM) sensors, in addition to sensors with related layout options, features, and circuitry.

Resistive, Capacitive, Inductive, and Magnetic Sensor Technologies

is an entire and accomplished review of RCIM sensing applied sciences. It takes a special method in describing a large diversity of sensing applied sciences and their various functions via first reviewing the mandatory physics, after which explaining the sensors’ intrinsic mechanisms, designated designs, fabrics and production tools, linked noise varieties, sign conditioning circuitry, and functional purposes. The textual content not just covers silicon and steel sensors but in addition these made up of smooth and really good fabrics similar to ceramics, polymers, and natural ingredients. It presents state of the art details beneficial to scholars, researchers, scientists, and training execs interested in the layout and alertness of sensor-based items in fields corresponding to biomedical engineering, mechatronics, robotics, aerospace, and beyond.

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Additional resources for Resistive, Capacitive, Inductive, and Magnetic Sensor Technologies

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For a lower accuracy requirement, the one-point calibration is sufficient; for the higher accuracy requirement, the two-point calibration should be used. If a greater accuracy is desired, several two-point calibrations, or section-bysection calibrations (each has a narrow range) over the full span may be used. 16 Resistive, Capacitive, Inductive, and Magnetic Sensor Technologies Calibration error is the amount of inaccuracy permitted when a sensor is calibrated. This error is often of a systematic nature, meaning that it can occur in all real transfer functions.

3 can be used for this measurement with R1 = 2 kΩ (the maximum resistance of the sensor), VS = 10 V, and R 2 being the potentiometer. 005 R2 VS = 2000 R1 As R 2 varies from 0 to 2 kΩ, the output voltage Vout will change linearly from 0 to 10 V. 1 Linear Potentiometers Major components of a linear potentiometer include three terminals (power input, ground, and sensor signal output), a fixed resistor, a wiper, a sliding track, and the housing. The terminals are often gold plated to prevent corrosion or tarnishing.

Sensor structure D. Sensor material properties 7. A sensor’s accuracy can be expressed using all of the following terms except A. Measured parameter B. Output parameter C. Ratio of maximum measurement error versus measured value D. In sensor design, the objective is to A. Minimize the S/N ratio B. Minimize the noise factor Fn C. Make the S/N ratio close to 1 D. If a sensor system has several noise sources (e1, e2, e3, …), then the total noise will be A. eTotal = e1 + e2 + e3 + ⋅ ⋅ ⋅ B. eTotal = |e1| + |e2| + |e3| + ⋅ ⋅ ⋅ eTotal = e12 + e22 + e32 + C.

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