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Large-signal analysis of a silicon Read diode oscillator

1969; Institute of Electrical and Electronics Engineers; Volume: 16; Issue: 1 Linguagem: Inglês

10.1109/t-ed.1969.16566

1557-9646

D.L. Scharfetter, H.K. Gummel,

Semiconductor Quantum Structures and Devices

This paper presents theoretical calculations of the large-signal admittance and efficiency achievable in a silicon p-n-v-ns Read IMPATT diode. A simplified theory is employed to obtain a starting design. This design is then modified to achieve higher efficiency operation as specific device limitations are reached in large-signal (computer) operation. Self-consistent numerical solutions are obtained for equations describing carrier transport, carrier generation, and space-charge balance. The solutions describe the evolution in time of the diode and its associated resonant circuit. Detailed solutions are presented of the hole and electron concentrations, electric field, and terminal current and voltage at various points in time during a cycle of oscillation. Large-signal values of the diode's negative conductance, susceptance, average voltage, and power-generating efficiency are presented as a function of oscillation amplitude for a fixed average current density. For the structure studied, the largest microwave power-generating efficiency (18 percent at 9.6 GHz) has been obtained at a current density of 200 A/cm 2 , but efficiencies near 10 percent were obtained over a range of current density from 100 to 1000 A/cm 2 .