论文信息 - Design of sensor electronics for electrical capacitance tomography

Design of sensor electronics for electrical capacitance tomography

The design of the sensor electronics for a tomographic imaging system based on electrical capacitance sensors is described. The performance of the sensor electronics is crucial to the per- formance of the imaging system. The problems associated with such a measurement process are discussed and solutions to these are described. Test results show that the present design has a resolution of 0.3 femtofarad (For a 12-electrode system imaging an oil/gas flow, this represents a 2% gas void fraction change at the centre of the pipe) with a low noise level of 0.08 fF (rms value), a large dynamic range of 76 dB and a data acqui- sition speed of 6600 measurements per second. This enables sensors with up to 12 electrodes to be used in a system with a maximum imaging rate of 100 frames per second, and thus provides an improved image resolution over the earlier 8- electrode system and an adequate electrode area to give sufficient measurement sensitivity.

[1] R. G. Green,et al. A high frequency stray-immune capacitance transducer based on the charge transfer principle , 1988 .

[2] R. G. Green,et al. A capacitance-based solids concentration transducer with high immunity to interference from the electrostatic charge generated in solids/air two-component flows , 1988 .

[3] Maurice Beck,et al. REVIEW ARTICLE: Electronic transducers for industrial measurement of low value capacitances , 1988 .

[4] Maurice Beck,et al. Flow imaging for multi-component flow measurement , 1987 .

[5] W. Graham Richards,et al. Art of electronics , 1983, Nature.

[6] R. Thorn,et al. Flow imaging for multi-component flow measurement , 1990 .