Title :
Bias Stabilization of Negative Differential Conductance Oscillators Operated in Pulsed Mode
Author :
Egard, Mikael ; Ärlelid, Mats ; Lind, Erik ; Wernersson, Lars-Erik
Author_Institution :
Dept. of Solid State Phys., Lund Univ., Lund, Sweden
fDate :
3/1/2011 12:00:00 AM
Abstract :
The paper reports on the bias stabilization of a 60-GHz resonant-tunneling diode (RTD)-based oscillator operated in pulsed mode. The oscillator contains an on-chip stabilizing capacitor, enabling the minimum dc consumption possible for such an RTD oscillator to be obtained, since all of the dc current is consumed by the active device. This is achieved without imposing restraints on the output power or introducing parasitic oscillations in the bias network. The oscillator that was constructed produces short 75-ps wavelets at 60 GHz, at an energy consumption of 1.3 pJ, during generation of a pulse. Experimental, simulated, and analytical results are presented for demonstrating how this mode of operation can be utilized in negative differential conductance oscillators.
Keywords :
circuit stability; millimetre wave oscillators; tunnel diode oscillators; active device; bias stabilization; energy 1.3 pJ; energy consumption; frequency 60 GHz; minimum DC consumption; negative differential conductance oscillators; on-chip stabilizing capacitor; parasitic oscillations; pulse generation; pulsed mode; resonant-tunneling diode; time 75 ps; Capacitors; Current measurement; Oscillators; Power demand; Power generation; Radio frequency; Switches; Impulse radio; negative differential conductance (NDC) oscillator; resonant tunneling diode (RTD); resonant tunneling transistor; ultra-wideband; wavelet generator;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2010.2103230
