A complete analytical model for impact ionization effects in bipolar transistors, which is able to predict the behaviour of advanced devices up to breakdown, is presented. A simple expression of the carrier mean energy suitable for circuit simulation is used to calculate the device multiplication coefficient and enables the influence of non-equilibrium transport on impact ionization to be accounted for. The role played by the reverse base current in determining the snap-back of the common base output characteristics is investigated both experimentally and theoreticall
A detailed study of base current reversal in silicon bipolar transitors and GaAs heterojunction bipo...
The charge carrier contributions to impact ionization and avalanche multiplication are analyzed in d...
This report describes a modeling and experimental study of electron and hole impact ionization in si...
A complete analytical model for impact ionization effects in bipolar transistors, which is able to p...
This invited review paper summarizes experimental and simulation results on impact ionization in Si,...
When a triangular shape for the electric field in the base-collector space-charge region of an n-p-n...
This paper describes a self-consistent procedure to extract energy dependent electron (/spl alpha/) ...
A nonlocal, energy based impact ionisation model for bipolar transistors is implemented into a gener...
A new SPICE model of the bipolar transistor including avalanche multiplication and current crowding ...
Modeling the cutoff frequency (f(T)) of the advanced bipolar transistors at avalanche breakdown has ...
Assuming a triangular shape for the electric field in the base-collector space-charge region of an n...
A new SPICE model of the bipolar transistor including avalanche multiplication and current crowding ...
Modeling of the effects occurring outside the usual region of application of semiconductor devices i...
This paper describes a new analysis of the avalanche breakdown phenomenon in bipolar transistors for...
A detailed study of base current reversal in silicon bipolar transitors and GaAs heterojunction bipo...
A detailed study of base current reversal in silicon bipolar transitors and GaAs heterojunction bipo...
The charge carrier contributions to impact ionization and avalanche multiplication are analyzed in d...
This report describes a modeling and experimental study of electron and hole impact ionization in si...
A complete analytical model for impact ionization effects in bipolar transistors, which is able to p...
This invited review paper summarizes experimental and simulation results on impact ionization in Si,...
When a triangular shape for the electric field in the base-collector space-charge region of an n-p-n...
This paper describes a self-consistent procedure to extract energy dependent electron (/spl alpha/) ...
A nonlocal, energy based impact ionisation model for bipolar transistors is implemented into a gener...
A new SPICE model of the bipolar transistor including avalanche multiplication and current crowding ...
Modeling the cutoff frequency (f(T)) of the advanced bipolar transistors at avalanche breakdown has ...
Assuming a triangular shape for the electric field in the base-collector space-charge region of an n...
A new SPICE model of the bipolar transistor including avalanche multiplication and current crowding ...
Modeling of the effects occurring outside the usual region of application of semiconductor devices i...
This paper describes a new analysis of the avalanche breakdown phenomenon in bipolar transistors for...
A detailed study of base current reversal in silicon bipolar transitors and GaAs heterojunction bipo...
A detailed study of base current reversal in silicon bipolar transitors and GaAs heterojunction bipo...
The charge carrier contributions to impact ionization and avalanche multiplication are analyzed in d...
This report describes a modeling and experimental study of electron and hole impact ionization in si...