Measurement of Resistance and Capacitance of MOX Sensors With High Sampling Rate

Depari, A.; Flammini, A.; Sisinni, Emiliano

doi:10.1109/tim.2012.2192335

Cited by 9 publications

(6 citation statements)

References 15 publications

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“…In the following years, both the measurement principle and the heater management techniques have been enhanced and were integrated into the various designs [10][11][12][13][14][15].…”

Section: Related Workmentioning

confidence: 99%

A Compact 16 Channel Embedded System with High Dynamic Range Readout and Heater Management for Semiconducting Metal Oxide Gas Sensors

et al. 2020

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The simultaneous operation of multiple different semiconducting metal oxide (MOX) gas sensors is demanding for the readout circuitry. The challenge results from the strongly varying signal intensities of the various sensor types to the target gas. While some sensors change their resistance only slightly, other types can react with a resistive change over a range of several decades. Therefore, a suitable readout circuit has to be able to capture all these resistive variations, requiring it to have a very large dynamic range. This work presents a compact embedded system that provides a full, high range input interface (readout and heater management) for MOX sensor operation. The system is modular and consists of a central mainboard that holds up to eight sensor-modules, each capable of supporting up to two MOX sensors, therefore supporting a total maximum of 16 different sensors. Its wide input range is archived using the resistance-to-time measurement method. The system is solely built with commercial off-the-shelf components and tested over a range spanning from 100 Ω to 5 GΩ (9.7 decades) with an average measurement error of 0.27% and a maximum error of 2.11%. The heater management uses a well-tested power-circuit and supports multiple modes of operation, hence enabling the system to be used in highly automated measurement applications. The experimental part of this work presents the results of an exemplary screening of 16 sensors, which was performed to evaluate the system’s performance.

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“…In the following years, both the measurement principle and the heater management techniques have been enhanced and were integrated into the various designs [10][11][12][13][14][15].…”

Section: Related Workmentioning

confidence: 99%

A Compact 16 Channel Embedded System with High Dynamic Range Readout and Heater Management for Semiconducting Metal Oxide Gas Sensors

et al. 2020

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“…In the HV local area, the high precise no-inductance resistor is applied as the current sensor. [22][23][24][25] The resistor is connected in series with the bundle conductors in the test lines. The optically powered electronic current transformer is used to convert and transmit the current signal.…”

Section: Corona Current Measurement System Frameworkmentioning

confidence: 99%

Development of a sensor for corona current measurement under high-voltage direct-current transmission lines

Xin

Yuan

2016

International Journal of Distributed Sensor Networks

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A sensor-based distributed measurement system is designed for collecting and monitoring the corona current under the extremely high-voltage direct-current transmission lines. It is highly significant for researching the corona characteristics of extremely high-voltage direct-current transmission lines to reduce the corona effect, operating loss, and environmental impact. A new shared memory strategy has been studied based on field-programmable gate array and ARM. Based on field-programmable gate array technology, the fiber-optic transmission scheme for wide-frequency corona current highspeed signal has been set up to ensure the safety and the reliability of corona current measurement system. The proposed system has been used in China's state grid high-voltage direct-current test base and the in situ power transmission projects. Based on the experimental results, the proposed measurement system demonstrates that it can adapt to the complex electromagnetic environment under the transmission lines and can accomplish the accurate, flexible, and stable demands of the electric-field measurement.

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“…Metal oxide sensors (MOX) are used as gas sensors in several industrial applications like environmental monitoring, food and beverage quality control, home safety, automation applications, and so on. Chemical interactions between the gas under inspection and the surface of the sensitive part of the device produce a change in the electrical conductance of the material [39]. These kinds of interactions occur at temperatures in the order of hundreds of degrees Celsius.…”

Section: Metal Oxidementioning

confidence: 99%

Novel architecture for measurements in resistive MEMS sensors

Nandi¹,

Biswas²,

Dhar

et al. 2014

Meas. Sci. Technol.

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A low voltage, low power, resistive sensor architecture is proposed in this paper. The architecture is novel as it enhances the sensitivity along the main axis as well as reducing the impact of cross axes components. The proposed scheme also allows the simultaneous measurement of sensitivity along six different axes. With less than 15% of the power of its Wheatstone bridge [1] counterpart and with a voltage level as low as 2.25 V, this architecture also enables the realization of the sensor using fewer resistive elements. The modified sensor structure, along with the front-end signal processing circuit, is discussed.

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Measurement of Resistance and Capacitance of MOX Sensors With High Sampling Rate

Cited by 9 publications

References 15 publications

A Compact 16 Channel Embedded System with High Dynamic Range Readout and Heater Management for Semiconducting Metal Oxide Gas Sensors

A Compact 16 Channel Embedded System with High Dynamic Range Readout and Heater Management for Semiconducting Metal Oxide Gas Sensors

Development of a sensor for corona current measurement under high-voltage direct-current transmission lines

Novel architecture for measurements in resistive MEMS sensors

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