Simulation Standard
Technical Journal
A Journal for Process and Device Engineers
Actuation Voltage For a Cantilever Switch in MEMS
Following the successful 3D simulation of the process flow of cantilever based MEMS switches using VICTORY Process is presented in August 2005 Simulation Standard article “Process Flow Simulation and Manufacture”, a novel analytical method to predict the actuation voltage for such switches is presented here. This will help extend the utility of the process simulation to the prediction of the required voltage needed for cantilever switches and the circuit design required to drive such switches.
Current Collapse Phenomenon in GaN HFETs resulting from Intentional Bulk Iron (Fe) Doping and Un-intentional Interface Traps
The Gallium Nitride-based material family has fundamental material properties which make it an attractive candidate for semiconductor device fabrication.These properties include:High saturation velocities and breakdown field strength
Direct bandgap, allowing fabrication of light emitting devices
The ability to form hetero-structures using aluminum or indium
Large bandgaps allowing high temperature operation
Syntax Driven 2D Structure Export from 3D Structures and Extraction of 2D Volume Data Maps
This article demonstrates a new feature of TonyPlot3D. This feature enables the automated, syntax driven export of 2D structure slices from 3D structures. Also demonstrated in this article is the subsequent extraction of 2D volume data maps with regular spacing using a combination of EXTRACT commands, system commands and loops.
Leakage Current Calibration Procedures of Amorphous Silicon Thin-Film Transistors
Amorphous silicon Thin-Film Transistors (a-Si TFTs) are widely used as the switching device of liquid crystal display (LCD) technology. For development and analysis of a-Si TFTs, many research groups are trying to understand the physical mechanisms of a-Si TFTs. In particular, leakage current behavior is a major consideration for switching devices like a-Si TFTs. To analyze the leakage current mechanisms, calibration with numerical simulation is required.
3D TFT Simulation
Both flexible and touch panel displays have become popular for portable applications. To meet various functional requirements, system-on-panel (SOP) design has become essential [1] and different layouts as well as material have been used in the last few years [2]. Although various design and physical effects [3-5] have been successfully analyzed using 2D Technology-Computer-Aided-Design (TCAD) software, it becomes important to start to analyze and predict device performance dependent on layout effect with 3D TCAD.
The Studies of Anti-Reflective (AR) Coatings Effects for Solar Cell by Using Silvaco TCAD Tools
In 1975, screen printing was first applied to solar cells for the formation of the front and rear contacts replacing expensive vacuum metallization [1]. The encapsulate used in a photovoltaic (PV) module has many requirements. It must be optically transparent, electrically insulating, mechanically compliant, adherent to both glass and cells, and sufficiently robust to withstand 20–30 years in the field. Since the early 1980s, the encapsulate in all PV modules has been ethylene vinyl acetate (EVA) [2, 3].