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Transient simulation of millimeter-wave circuits incorporating numerical device modeling

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2 Author(s)
Tait, G.B. ; Dept. of Electr. Eng., Virginia Commonwealth Univ., Richmond, VA, USA ; Jones, S.H.

A fast convolution-based computational approach is employed to integrate numerical solid-state device simulation with nonlinear millimeter-wave circuit simulation. Unlike previous combined harmonic-balance/device approaches, the high-frequency circuit/physical device response is allowed to evolve in time to its natural steady-state mode of operation, permitting insight into harmonic and parametric energy exchange, stability, load pulling, and frequency tuning effects. To demonstrate this computationally efficient approach, a second-harmonic 150-GHz transferred electron oscillator is simulated using both conventional Gunn and novel stable-depletion-layer InP devices. The integrated device/circuit simulations in the time domain enable us to investigate the formation and buildup of the oscillation modes in detail

Published in:

Microwave Theory and Techniques, IEEE Transactions on  (Volume:47 ,  Issue: 6 )

Date of Publication:

Jun 1999

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