Tribotronic Tuning Diode for Active Analog Signal Modulation
journal contributionposted on 21.12.2016, 00:00 by Tao Zhou, Zhi Wei Yang, Yaokun Pang, Liang Xu, Chi Zhang, Zhong Lin Wang
Realizing active interaction with external environment/stimuli is a great challenge for current electronics. In this paper, a tribotronic tuning diode (TTD) is proposed by coupling a variable capacitance diode and a triboelectric nanogenerator in free-standing sliding mode. When the friction layer is sliding on the device surface for electrification, a reverse bias voltage is created and applied to the diode for tuning the junction capacitance. When the sliding distance increases from 0 to 25 mm, the capacitance of the TTD decreases from about 39 to 8 pF. The proposed TTD has been integrated into analog circuits and exhibited excellent performances in frequency modulation, phase shift, and filtering by sliding a finger. This work has demonstrated tunable diode and active analog signal modulation by tribotronics, which has great potential to replace ordinary variable capacitance diodes in various practical applications such as signal processing, electronic tuning circuits, precise tuning circuits, active sensor networks, electronic communications, remote controls, flexible electronics, etc.
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frequency modulationtribotronicsignal processingelectronicdevice surfacedistance increasessensor networkscapacitance diodefriction layerjunction capacitancecapacitance diodesanalog signal modulation25 mmTTD decreasestunable diodephase shiftbias voltageActive Analog Signal Modulation RealizingTribotronic Tuning Diodeanalog circuitstriboelectric nanogenerator8 pF