A Thermal-Fully Hydrodynamic Model for Semiconductor Devices and Applications to III–V HBT Simulation
نویسندگان
چکیده
Because of the interaction between self-heating and hot carriers effects, neither isothermal nor conventional macrothermal models are adequate for the simulation of state-of-the-art power devices; instead, a detailed electro-thermal model accounting for nonstationary transport, such as the Thermal-Fully Hydrodynamic (T-FH) model, is required. We apply a one-dimensional (1-D) implementation of such a model to the simulation of AlGaAs/GaAs and InP/InGaAs Heterojunction Bipolar Transistors (HBT’s), comparing the results with those provided by simplified models, and highlighting how deeply both nonlocal transport and self-heating affect the predicted device performance. The importance of the convective terms is assessed, and a new nonthermal mechanism for the output Negative Differential Resistance (NDR) is proposed.
منابع مشابه
Device Parameter Optimization of Silicon Germanium HBT for THz Applications
Now-a-days SiGe HBTs are surpassing even the fastest III-V production devices in the high–speed orbit. The state-of-art in simulation of silicon germanium semiconductor devices is presented in this paper. A comprehensive course of action to model the device parameter characterization of High Frequency 0.1μm SiGe HBT is depicted which is based on the technique of direct parameter extraction. Wit...
متن کاملElectrical Parameter Extraction & Modeling of Si1-xGex HBT for HF Applications
SiGe technology is sincerely challenging III/V and II/VI technologies in the realm of high frequency electronics applications, for example optical fibre and mobile communications. In this paper a model of SiGe HBT with uniform impurity doping in the base for high frequency application is studied. The high frequency parameters are extracted with the help of simulated Zand Yparameters of two port...
متن کاملStudy of Dopant-Dependent Band Gap Narrowing in Compound Semiconductor Devices
Band gap narrowing is one of the crucial heavy-doping effects to be considered for bipolar devices. In case of HBTs, where discontinuities in the energy levels appear, the correct modeling of the energy barriers has basic importance for studying the device performance. Using the physically-based approach from [1], we present a new band gap narrowing model which considers the semiconductor mater...
متن کاملA Dopant-Dependent Band Gap Narrowing Model Application for Bipolar Device Simulation
We present a new band gap narrowing model which considers the semiconductor material and the dopant species for arbitrary finite temperatures. This unified treatment is especially useful for accurate device simulation. As a particular example we studied with our two-dimensional device simulator MINIMOS-NT the electrical behavior of a graded composition Si/SiGc HBT using a hydrodynamic transport...
متن کاملFully Coupled Electrothermal Mixed-Mode Device Simulation of SiGe HBT Circuits
It is well known that for the design and simulation of state-of-the-art circuits thermal effects like self-heating and coupling between individual devices must be taken into account. As compact models for modern or experimental devices are not readily available, a mixed-mode device simulator capable of thermal simulation is a valuable source of information. Considering self-heating and coupling...
متن کامل