Add to ORKGThis paper presents an efficient full-wave time-domain simulator for accurate modeling of PIN diode switches. An equivalent circuit of the PIN diode is extracted under different bias conditions using a drift-diffusion physical model. Net recombination is modeled using a Shockley-Read-Hall process, while generation is assumed to be dominated by impact ionization. The device physics is coupled to Maxwell's equations using extended-FDTD formulism. A complete set of results is presented for the on and off states of the PIN switch. The results are validated through comparison with independent measurements, where good agreement is observed. Using this modeling approach, it is demonstrated that one can efficiently optimize PIN switches for better ...
This paper presents a transient electromagnetic Maxwell solver (MS), a transient semiconductor Poiss...
This paper presents a transient electromagnetic Maxwell solver (MS), a transient semiconductor Poiss...
This paper presents a stepwise time-domain simulation technique for analysis of power electronics ci...
Abstract–This work presents an equivalent circuit model for a PIN diode to be used with finite eleme...
A physics-based model for PiN power diodes is developed and implemented as a SPICE subcircuit. The m...
A new power diode model is developed and implemented as a PSPICE subcircuit. The starting point of t...
Based on the previous research on electromagnetic pulse coupling, which pays more attention to the f...
Abstract—A large number of diode models exist that simulate the reverse recovery process. Many model...
This paper presents the steps and the challenges for implementing analytical, physics-based models f...
This paper presents the development and implementation of a physics-based diode model which can simu...
This paper presents a transient electromagnetic Maxwell solver (MS), a transient semiconductor Poiss...
A physically based model of power PiN diodes was developed to simulate the reverse voltage behavior ...
A one-dimensional device simulator based on the hydrodynamic model is developed for the simulation a...
The effect of PIN diodes on the performance of a reconfigurable leaky-wave antenna (LWA) is studied....
This paper aims to present a detailed systematic approach to identify the main design parameters of ...
This paper presents a transient electromagnetic Maxwell solver (MS), a transient semiconductor Poiss...
This paper presents a transient electromagnetic Maxwell solver (MS), a transient semiconductor Poiss...
This paper presents a stepwise time-domain simulation technique for analysis of power electronics ci...
Abstract–This work presents an equivalent circuit model for a PIN diode to be used with finite eleme...
A physics-based model for PiN power diodes is developed and implemented as a SPICE subcircuit. The m...
A new power diode model is developed and implemented as a PSPICE subcircuit. The starting point of t...
Based on the previous research on electromagnetic pulse coupling, which pays more attention to the f...
Abstract—A large number of diode models exist that simulate the reverse recovery process. Many model...
This paper presents the steps and the challenges for implementing analytical, physics-based models f...
This paper presents the development and implementation of a physics-based diode model which can simu...
This paper presents a transient electromagnetic Maxwell solver (MS), a transient semiconductor Poiss...
A physically based model of power PiN diodes was developed to simulate the reverse voltage behavior ...
A one-dimensional device simulator based on the hydrodynamic model is developed for the simulation a...
The effect of PIN diodes on the performance of a reconfigurable leaky-wave antenna (LWA) is studied....
This paper aims to present a detailed systematic approach to identify the main design parameters of ...
This paper presents a transient electromagnetic Maxwell solver (MS), a transient semiconductor Poiss...
This paper presents a transient electromagnetic Maxwell solver (MS), a transient semiconductor Poiss...
This paper presents a stepwise time-domain simulation technique for analysis of power electronics ci...