| Torque Sensor Based on Tunnel-Diode Oscillator |
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| NASA’s Jet Propulsion Laboratory | |
| Jul 01 2008 | |
This sensor would function over a wide temperature range.
advertisement: A proposed torque sensor would be capable of operating over the temperature range from 1 to 400 K, whereas a typical commercially available torque sensor is limited to the narrower temperature range of 244 to 338 K. The design of this sensor would exploit the wide temperature range and other desirable attributes of differential transducers based on tunnel-diode oscillators as described in “Multiplexing Transducers Based on Tunnel- Diode Oscillators” (NPO-43079), NASA Tech Briefs, Vol. 30, No. 9 (September 2006), page 42.  Torque Would Bend the Flexural Springs, causing a slight relative rotation of the inner and outer shafts, thereby increasing one of the capacitances and decreasing the other one, thereby further causing a decrease in the frequency of one tunnel-diode oscillator and an increase in the frequency of the other one. The sensory principle would be mostly the same as that described in the cited prior article. At zero torque, the flexural springs would cause the common middle electrode to lie midway between the C1 and C2 electrodes. The two capacitances, and thus the frequencies of the two oscillators, would vary in opposite directions as torque caused the middle electrode to move away from the midpoint. The outputs of the tunnel- diode oscillators would be mixed and low-pass filtered to obtain a signal at the difference between the frequencies of the two oscillators. The difference frequency would be measured by a frequency counter and converted to torque by a computer. This work was done by Talso Chui and Joseph Young of Caltech for NASA’s Jet Propulsion Laboratory. This Brief includes a Technical Support Package (TSP).
Torque Sensor Based on Tunnel-Diode Oscillator (reference NPO-43325) is currently available for download from the TSP library. Login first to download.
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