Optical Ring Modulator with MIT Virtual Source ModSpec Compact Model
2017-05-03 21:19:10 | Compact Models | Contributor(s): Lily Weng | doi:10.4231/D3PK0732D
The optical ring modulator presented here is a vertical junction resonant
microring/disk modulator which can achieve high modulation speed, lower
power consumption, and compact size. The MIT virtual source model is a semi-empirical model describing the current and
Nano Education Resources
2017-03-14 15:32:54 | Datasets | Contributor(s): Quinn Spadola, Lisa Friedersdorf | doi:10.4231/D3K35MF70
This is a database of nanoeducation resources that can be searched, filtered, and sorted. Resources are listed by topic area, grade level, core discipline, STEM content area, and resource type.
UARK SiC Power MOSFET Model
2017-02-23 14:45:14 | Compact Models | Contributor(s): Mihir Mudholkar, Shamim Ahmed, Ramchandra Kotecha, Ty McNutt, Arman Ur Rashid, Tom Vrotsos, Alan Mantooth | doi:10.4231/D3QF8JK88
A compact model for SiC Power MOSFETs is presented. The model features a physical description of the channel current and internal capacitances and has been validated for dc, CV, and switching characteristics with measured data from C2M0025120D.
Optical Ring Modulator ModSpec Compact Model
2017-01-05 16:54:03 | Compact Models | Contributor(s): Lily Weng, Tianshi Wang | doi:10.4231/D31N7XN9P
The optical ring modulator presented here is a vertical junction resonant microring/disk modulator which can achieve high modulation speed, lower power consumption and compact size. A Matlab-based ModSpec compact model is developed and simulated in this project.