Piezoresistive Strain Gages and Transducer Elements
- 1 January 1963
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Transactions on Instrumentation and Measurement
- Vol. 12 (2) , 73-80
- https://doi.org/10.1109/tim.1963.4313338
Abstract
The piezoresistive effect, the change in resistivity caused by mechanical stress, is large enough in semiconductors for use in strain gages and other transducer elements. This paper reviews the piezoresistive effect in semiconductors having diamond or zincblende crystal structures and discusses applications. Definitions and typical values are given for the important material properties such as stress sensitivity, strain sensitivity, temperature dependence of sensitivity, and effect of crystal orientation. In addition, new information is given on piezoresistive properties of diffused layers on semiconductors, and diffused sensing elements of several types are analyzed. The advantages of increased design flexibility and improved sensitivity over uniformly doped gages are shown.Keywords
This publication has 14 references indexed in Scilit:
- Piezoresistance of Diffused Layers in Cubic SemiconductorsJournal of Applied Physics, 1963
- Resistivity of Bulk Silicon and of Diffused Layers in SiliconBell System Technical Journal, 1962
- Relation Between Surface Concentration and Average Conductivity in Diffused Layers in GermaniumBell System Technical Journal, 1961
- Intracardiac Catheter Tip Piezoresistive Pressure GaugeReview of Scientific Instruments, 1960
- Semiconductor Strain TransducersBell System Technical Journal, 1960
- The Piezoresistive Effect and its ApplicationsReview of Scientific Instruments, 1960
- Piezoresistance in Heavily Doped-Type GermaniumPhysical Review B, 1958
- Deformation and fracture of small silicon crystalsActa Metallurgica, 1957
- Piezoresistive Semiconductor MicrophoneThe Journal of the Acoustical Society of America, 1957
- Piezoresistance Effect in Germanium and SiliconPhysical Review B, 1954