This paper reviews and analyzes a compact model for integrated planar spiral inductors on standard and high resistivity substrates in silicon-on-insulator (SOI) technology. The inductors have been characterized over a temperature range from 25 to 200 °C. The temperature variation of each model parameter has been investigated. It demonstrates that only the variations of the metallic losses versus temperature have to be taken into account to model properly the high frequency behavior over a wide temperature range of a spiral inductor integrated on silicon high resistivity substrate. Based on these experimental and characterization results, guidelines for practical inductor designs in RFICs for high-temperature applications are drawn
The authors present a systematic study of the modelling, design, and fabrication of planar spiral in...
Abstract—Existing models for simulating spiral inductors fab-ricated in Silicon processes are outgro...
10.1023/B:IJIM.0000047443.74769.7bInternational Journal of Infrared and Millimeter Waves25101511-152...
In this paper, we present an analysis of inductors on an Alumina substrate over the temperature rang...
Modeling and performance of on-chip spiral inductors is presented. Y-parameters are obtained from th...
[[abstract]]In this paper, we demonstrate a comprehensive analysis of the effects of the layout, tem...
[[abstract]]Comprehensive analyses of the effects of temperature (from -50 degrees C to 200 degrees ...
This paper presents a physics-based compact model for predicting high frequency performance of spira...
[[abstract]]Comprehensive analyses of the effects of temperature (from -50 degrees C to 200 degrees ...
[[abstract]]Spiral inductors with various turn numbers fabricated with the use of leading-edge 0.13-...
[[abstract]]Spiral inductors with various turn numbers fabricated with the use of leading-edge 0.13-...
This paper describes a physical model for spiral inductors on silicon which is suitable for circuit ...
Includes bibliographical references (leaf 37)Radio Frequency in the modern world has reduced the siz...
Nowadays, as the demand for wireless communication continues to expand, the need for high quality (Q...
Silicon-on-Insulator (SOI) CMOS technology constitutes a good candidate for mixed signal RF CMOS app...
The authors present a systematic study of the modelling, design, and fabrication of planar spiral in...
Abstract—Existing models for simulating spiral inductors fab-ricated in Silicon processes are outgro...
10.1023/B:IJIM.0000047443.74769.7bInternational Journal of Infrared and Millimeter Waves25101511-152...
In this paper, we present an analysis of inductors on an Alumina substrate over the temperature rang...
Modeling and performance of on-chip spiral inductors is presented. Y-parameters are obtained from th...
[[abstract]]In this paper, we demonstrate a comprehensive analysis of the effects of the layout, tem...
[[abstract]]Comprehensive analyses of the effects of temperature (from -50 degrees C to 200 degrees ...
This paper presents a physics-based compact model for predicting high frequency performance of spira...
[[abstract]]Comprehensive analyses of the effects of temperature (from -50 degrees C to 200 degrees ...
[[abstract]]Spiral inductors with various turn numbers fabricated with the use of leading-edge 0.13-...
[[abstract]]Spiral inductors with various turn numbers fabricated with the use of leading-edge 0.13-...
This paper describes a physical model for spiral inductors on silicon which is suitable for circuit ...
Includes bibliographical references (leaf 37)Radio Frequency in the modern world has reduced the siz...
Nowadays, as the demand for wireless communication continues to expand, the need for high quality (Q...
Silicon-on-Insulator (SOI) CMOS technology constitutes a good candidate for mixed signal RF CMOS app...
The authors present a systematic study of the modelling, design, and fabrication of planar spiral in...
Abstract—Existing models for simulating spiral inductors fab-ricated in Silicon processes are outgro...
10.1023/B:IJIM.0000047443.74769.7bInternational Journal of Infrared and Millimeter Waves25101511-152...