Add to ORKGIn mobile communication new applications like wireless internet and mobile video have increased the demand of data-rates. Therefore, new more wideband systems are being implemented. Power amplifiers in the base-stations that simultaneously handle these wideband signals for many terminals (handhelds) need to be highly linear with a considerable band-width. In the past decade LDMOS has been the dominating technology for use in these RF-power amplifiers. In this work LDMOS transistors possible to fabricate in a normal CMOS process have been optimized and analyzed for RF-power applications. Their non-linear behavior has been explored using load-pull measurements. The mechanisms of the non-linear input capacitance have been analyzed using 2D TCA...
This project primarily focused on the characterization of Philips Semiconductors\u27 BLF4G20LS-110 L...
This paper describes a SOI LDMOS/CMOS/BJT technology which can be used in portable wireless communic...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The emergence of new communication standards has put a key challenge for semiconductor industry to d...
The emergence of new communication standards has put a key challenge for semiconductor industry to d...
Today, the silicon technology is well established for RF-applications (f~1-100 GHz), with emphasis o...
The progress in wideband cellular systems was followed by the development of the necessary transisto...
The development of computer aided design tools for devices and circuits has increased the interest f...
The progress in wideband cellular systems was followed by the development of the necessary transisto...
The lateral double-diffused MOS (LDMOS) transistor has traditionally been a high-voltage device used...
The lateral double-diffused MOS (LDMOS) transistor has traditionally been a high-voltage device used...
The rapid evolution of silicon MOSFET technology is fueled by a never-ending demand for better perfo...
A comparison between the RF performance of vertical and lateral power MOSFETs is presented. The role...
This paper describes a bulk silicon LDMOS technology, which is compatible with CMOS, lateral BJT, an...
The primary purpose of this thesis was to present a theoretical large-signal analysis to study the p...
This project primarily focused on the characterization of Philips Semiconductors\u27 BLF4G20LS-110 L...
This paper describes a SOI LDMOS/CMOS/BJT technology which can be used in portable wireless communic...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
The emergence of new communication standards has put a key challenge for semiconductor industry to d...
The emergence of new communication standards has put a key challenge for semiconductor industry to d...
Today, the silicon technology is well established for RF-applications (f~1-100 GHz), with emphasis o...
The progress in wideband cellular systems was followed by the development of the necessary transisto...
The development of computer aided design tools for devices and circuits has increased the interest f...
The progress in wideband cellular systems was followed by the development of the necessary transisto...
The lateral double-diffused MOS (LDMOS) transistor has traditionally been a high-voltage device used...
The lateral double-diffused MOS (LDMOS) transistor has traditionally been a high-voltage device used...
The rapid evolution of silicon MOSFET technology is fueled by a never-ending demand for better perfo...
A comparison between the RF performance of vertical and lateral power MOSFETs is presented. The role...
This paper describes a bulk silicon LDMOS technology, which is compatible with CMOS, lateral BJT, an...
The primary purpose of this thesis was to present a theoretical large-signal analysis to study the p...
This project primarily focused on the characterization of Philips Semiconductors\u27 BLF4G20LS-110 L...
This paper describes a SOI LDMOS/CMOS/BJT technology which can be used in portable wireless communic...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...