TRANSISTOR LEVEL MODELING FOR ANALOG/RF IC DESIGN [electronic resource] / edited by WLADYSLAW GRABINSKI, BART NAUWELAERS, DOMINIQUE SCHREURS.

By: GRABINSKI, WLADYSLAW [editor.]Contributor(s): NAUWELAERS, BART [editor.] | SCHREURS, DOMINIQUE [editor.] | SpringerLink (Online service)Material type: TextTextLanguage: English Publisher: Dordrecht : Springer Netherlands, 2006Description: XIII, 293 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781402045561Subject(s): Engineering | Computer engineering | Microwaves | Electronics | Systems engineering | Engineering | Circuits and Systems | Electronics and Microelectronics, Instrumentation | Microwaves, RF and Optical Engineering | Electrical EngineeringAdditional physical formats: Printed edition:: No titleDDC classification: 621.3815 LOC classification: TK7888.4Online resources: Click here to access online
Contents:
2/3-D process and device simulation. An effective tool for better understanding of internal behavior of semiconductor structures -- PSP: An advanced surface-potential-based MOSFET model -- EKV3.0: An advanced charge based MOS transistor model.A design-oriented MOS transistor compact model -- Modelling using high-frequency measurements -- Empirical FET models -- Modeling the SOI MOSFET nonlinearities. An empirical approach -- Circuit level RF modeling and design -- On incorporating parasitic quantum effects in classical circuit simulations -- Compact modeling of the MOSFET in VHDL-AMS -- Compact modeling in Verilog-A.
In: Springer eBooksSummary: Among many great inventions made in the 20th century, electronic circuits, which later evolved into integrated circuits, are probably the biggest, when considering their contribution to human society. Entering the 21st century, the importance of integrated circuits has increased even more. In fact, without the help of integrated circuits, recent high-technology society with the internet, cellular phone, car navigation, digital camera, and robot would never have been realized. Nowadays, integrated circuits are indispensable for almost every activity of our society. One of the critical issues for the fabrication of integrated circuits has been the precise design of the high-speed or high-frequency operation of circuits with huge number of components. It is quite natural to predict the circuit operation by computer calculation, and there have been three waves for this, at 15-year intervals. The ?rst wave came at the beginning of the 1970s when LSIs (Large Scale Integrated circuits) with more than 1000 components had just been int- duced into the market. A mainframe computer was used for the simulation, and each semiconductor company used its own proprietary simulators and device models. However, the capability of the computer and accuracy of the model were far from satisfactory, and there are many cases of the necessity of circuit re-design after evaluation of the ?rst chip. The second wave hit us in the middle of 1980s, when the EWS (Engine- ing Work Station) was introduced for use by designers.
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2/3-D process and device simulation. An effective tool for better understanding of internal behavior of semiconductor structures -- PSP: An advanced surface-potential-based MOSFET model -- EKV3.0: An advanced charge based MOS transistor model.A design-oriented MOS transistor compact model -- Modelling using high-frequency measurements -- Empirical FET models -- Modeling the SOI MOSFET nonlinearities. An empirical approach -- Circuit level RF modeling and design -- On incorporating parasitic quantum effects in classical circuit simulations -- Compact modeling of the MOSFET in VHDL-AMS -- Compact modeling in Verilog-A.

Among many great inventions made in the 20th century, electronic circuits, which later evolved into integrated circuits, are probably the biggest, when considering their contribution to human society. Entering the 21st century, the importance of integrated circuits has increased even more. In fact, without the help of integrated circuits, recent high-technology society with the internet, cellular phone, car navigation, digital camera, and robot would never have been realized. Nowadays, integrated circuits are indispensable for almost every activity of our society. One of the critical issues for the fabrication of integrated circuits has been the precise design of the high-speed or high-frequency operation of circuits with huge number of components. It is quite natural to predict the circuit operation by computer calculation, and there have been three waves for this, at 15-year intervals. The ?rst wave came at the beginning of the 1970s when LSIs (Large Scale Integrated circuits) with more than 1000 components had just been int- duced into the market. A mainframe computer was used for the simulation, and each semiconductor company used its own proprietary simulators and device models. However, the capability of the computer and accuracy of the model were far from satisfactory, and there are many cases of the necessity of circuit re-design after evaluation of the ?rst chip. The second wave hit us in the middle of 1980s, when the EWS (Engine- ing Work Station) was introduced for use by designers.

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