Part I: Mixed Analogue-Digital Circuit Design. Groundbounce in CMOS; D. Wouter, J. Groeneveld, D.T. de Jong. Design Aspects; F. Dielacher. Design Aspects Using ELDO; S. Rochel. Simulation of a Floppy Disk Drive Head Position Controller; J.R. Carlson, H.A. Mantooth. Mixed Signal ASIC Design; M. Tuthill. Mixed Signal ASIC Design for Automotive and Industrial Applications; H. Casier. Part II: Sensor Interface Circuits. Sensor Signal Normalization; A.P. Brokaw. Analog Data Acquisition Circuits in Integrated Sensing Systems; K.D. Wise. Integrated Interface Circuits for Capacitive Micromechanical Sensors; D. Herbst, B. Hoefflinger. Interfaces for Microsensor Systems; C. Azeredo Leme, H. Baltes. Sensor Interface Systems; R. Puers, M. Steyaert, W. Sansen. Indirect Converters and Oversampling for Application in Monolithic Smart Sensors; F.R. Riedijk, J.H. Huijsing. Part III: Communication Circuits. The Challenges for Analog Circuit Design in Mobile Radio VLSI Chips; D. Rabaey, J. Sevenhans. A View of Gallium Arsenide I.C.'s in Wireless Communication Systems; P. Snow. Design Techniques for 1GHz Downconversion ICs Fabricated in a 1 mum 13GHz BiCMOS Process; W.D. Mack, R.G. Meyer. New RF Devices Based on High Precision CMOS Time-to-Digital and Digital-to-Time Converters; J. Rapeli. A Fully Integrated 1V/100muA High Bitrate CP-FSK Receiver; M.D. Pardoen. DECT Zero IF Receiver Front End; P. Baltus, A. Tombeur.
Some examples have been presented of BiCMOS circuit design in mixed signal ASICs. It is by no means an exhaustive list. Many cells have not been mentioned, including 300MHz CMOS Video DACs, 20 Bit Sigma-Delta ADCs, Real-time and Switched-Cap Filters, Line Drivers and Receivers and many more. References. [1] J.Corcoran "High Speed Sample and Hold and Analog-to-Digital Converter Circuits",Advances in Analog Circuit Design, April1992. [2] Y.S.Yee,L.M.Terman and L.G.Heller "A lmV MOS comparator," IEEE J. of Solid-State Circuits, vol. SC-13, June 1978. [3] M.Timko and P.Holloway "Circuit Techniques for Achieving High Speed High Resolution AID Conversion" IEEE Journal of Solid-State Circuits, vol. SC-15, No.6, December 1980. [4] W.H. Gross "New High Speed Amplifier Design, Design Techniques and Layout Problems", Advances in Analog Circuit Design, April 1992. MIXED SIGNAL ASIC DESIGN FOR AUTOMOTIVE AND INDUSTRIAL APPLICATIONS H. Casicr Mietcc Alcatel, Brussels, Belgium ABSTRACT This paper describes the special aspects of mixed signal design in the ASIC environment. The knowledge of the application specific environment and of the function of the ASIC can be used advantageously to lower the cost and to enhance the performance at all levels of design. Several examples of this cost improvement and performance enhancement at device, circuit and system level are shown.
I: Mixed Analogue-Digital Circuit Design.- Groundbounce in CMOS.- Design Aspects for Mixed Analog-Digital Circuits.- Design Aspects Using ELDO.- Simulation of a Floppy Disk Drive Head Position Controller.- Mixed Signal ASIC Design.- Mixed Signal ASIC Design for Automotive and Industrial Applications.- II Sensor Interface Circuits.- Sensor Signal Normalization.- Analog Data Acquisition Circuits in Integrated Sensing Systems.- Integrated Interface Circuits for Capacitive Micromechanical Sensors.- Interfaces for Microsensor Systems.- Sensor Interface Systems.- Indirect Converters and Oversampling for Application in Monolithic Smart Sensors.- III: Communication Circuits.- The Challenges for Analog Circuit Design in Mobile Radio VLSI Chips.- A View of Gallium Arsenide I.C.'s in Wireless Communication Systems.- Design Techniques for 1GHz Downconversion ICs Fabricated in a 1?m 13GHz BiCMOS Process.- New RF Devices Based on High Precision CMOS Time-to-Digital and Digital-to-Time Converters.- A Fully Integrated 1 V/ 100?A high Bitrate CP-FSK receiver.- DECT Zero IF Receiver Front End.
Inhaltsverzeichnis
Part I: Mixed Analogue-Digital Circuit Design. Groundbounce in CMOS; D. Wouter, J. Groeneveld, D.T. de Jong. Design Aspects; F. Dielacher. Design Aspects Using ELDO; S. Rochel. Simulation of a Floppy Disk Drive Head Position Controller; J.R. Carlson, H.A. Mantooth. Mixed Signal ASIC Design; M. Tuthill. Mixed Signal ASIC Design for Automotive and Industrial Applications; H. Casier. Part II: Sensor Interface Circuits. Sensor Signal Normalization; A.P. Brokaw. Analog Data Acquisition Circuits in Integrated Sensing Systems; K.D. Wise. Integrated Interface Circuits for Capacitive Micromechanical Sensors; D. Herbst, B. Hoefflinger. Interfaces for Microsensor Systems; C. Azeredo Leme, H. Baltes. Sensor Interface Systems; R. Puers, M. Steyaert, W. Sansen. Indirect Converters and Oversampling for Application in Monolithic Smart Sensors; F.R. Riedijk, J.H. Huijsing. Part III: Communication Circuits. The Challenges for Analog Circuit Design in Mobile Radio VLSI Chips; D. Rabaey, J. Sevenhans. A View of Gallium Arsenide I.C.'s in Wireless Communication Systems; P. Snow. Design Techniques for 1GHz Downconversion ICs Fabricated in a 1 mum 13GHz BiCMOS Process; W.D. Mack, R.G. Meyer. New RF Devices Based on High Precision CMOS Time-to-Digital and Digital-to-Time Converters; J. Rapeli. A Fully Integrated 1V/100muA High Bitrate CP-FSK Receiver; M.D. Pardoen. DECT Zero IF Receiver Front End; P. Baltus, A. Tombeur.
Klappentext
Some examples have been presented of BiCMOS circuit design in mixed signal ASICs. It is by no means an exhaustive list. Many cells have not been mentioned, including 300MHz CMOS Video DACs, 20 Bit Sigma-Delta ADCs, Real-time and Switched-Cap Filters, Line Drivers and Receivers and many more. References. [1] J.Corcoran "High Speed Sample and Hold and Analog-to-Digital Converter Circuits",Advances in Analog Circuit Design, April1992. [2] Y.S.Yee,L.M.Terman and L.G.Heller "A lmV MOS comparator," IEEE J. of Solid-State Circuits, vol. SC-13, June 1978. [3] M.Timko and P.Holloway "Circuit Techniques for Achieving High Speed High Resolution AID Conversion" IEEE Journal of Solid-State Circuits, vol. SC-15, No.6, December 1980. [4] W.H. Gross "New High Speed Amplifier Design, Design Techniques and Layout Problems", Advances in Analog Circuit Design, April 1992. MIXED SIGNAL ASIC DESIGN FOR AUTOMOTIVE AND INDUSTRIAL APPLICATIONS H. Casicr Mietcc Alcatel, Brussels, Belgium ABSTRACT This paper describes the special aspects of mixed signal design in the ASIC environment. The knowledge of the application specific environment and of the function of the ASIC can be used advantageously to lower the cost and to enhance the performance at all levels of design. Several examples of this cost improvement and performance enhancement at device, circuit and system level are shown.
Springer Book Archives
