This book introduces the basic mathematical tools used to describe noise and its propagation through linear systems and provides a basic description of the improvement of signal-to-noise ratio by signal averaging and linear filtering. The text also demonstrates how op amps are the keystone of modern analog signal conditioning systems design, and illustrates their use in isolation and instrumentation amplifiers, active filters, and numerous biomedical instrumentation systems and subsystems. It examines the properties of the ideal op amp and applies this model to the analysis of various…mehr
This book introduces the basic mathematical tools used to describe noise and its propagation through linear systems and provides a basic description of the improvement of signal-to-noise ratio by signal averaging and linear filtering. The text also demonstrates how op amps are the keystone of modern analog signal conditioning systems design, and illustrates their use in isolation and instrumentation amplifiers, active filters, and numerous biomedical instrumentation systems and subsystems. It examines the properties of the ideal op amp and applies this model to the analysis of various circuits. It explores models and architectures of the ...building blocks... of the signal conditioning systems used to monitor and measure medical data.
Robert B. Northrop is Professor Emeritus and the former Program Director of the Biomedical Engineering Graduate Program at the University of Connecticut.
Inhaltsangabe
Sources and Properties of Biomedical Signals. Properties and Models of Semiconductor Devices Used in Analog Electronic Systems. The Differential Amplifier. General Properties of Electronic, Single-Loop Feedback Systems. Feedback, Frequency Response, and Amplifier Stability. Operational Amplifiers and Comparators. Introduction to Analog Active Filters. Instrumentation and Medical Isolation Amplifiers. Noise and the Design of Low-Noise Signal Conditioning Systems for Biomedical Applications. Digital Interfaces. Modulation and Demodulation of Biomedical Signals. Power Amplifiers and Their Applications in Biomedicine. Wireless Patient Monitoring. RFID Tags, GPS Tags, and Ultrasonic Tags Used in Ecological Research. Examples of Special Analog Circuits and Systems Used in Biomedical Instrumentation. Appendix. Glossary. Bibliography and Recommended Reading.
Sources and Properties of Biomedical Signals. Properties and Models of Semiconductor Devices Used in Analog Electronic Systems. The Differential Amplifier. General Properties of Electronic, Single-Loop Feedback Systems. Feedback, Frequency Response, and Amplifier Stability. Operational Amplifiers and Comparators. Introduction to Analog Active Filters. Instrumentation and Medical Isolation Amplifiers. Noise and the Design of Low-Noise Signal Conditioning Systems for Biomedical Applications. Digital Interfaces. Modulation and Demodulation of Biomedical Signals. Power Amplifiers and Their Applications in Biomedicine. Wireless Patient Monitoring. RFID Tags, GPS Tags, and Ultrasonic Tags Used in Ecological Research. Examples of Special Analog Circuits and Systems Used in Biomedical Instrumentation. Appendix. Glossary. Bibliography and Recommended Reading.
Sources and Properties of Biomedical Signals. Properties and Models of Semiconductor Devices Used in Analog Electronic Systems. The Differential Amplifier. General Properties of Electronic, Single-Loop Feedback Systems. Feedback, Frequency Response, and Amplifier Stability. Operational Amplifiers and Comparators. Introduction to Analog Active Filters. Instrumentation and Medical Isolation Amplifiers. Noise and the Design of Low-Noise Signal Conditioning Systems for Biomedical Applications. Digital Interfaces. Modulation and Demodulation of Biomedical Signals. Power Amplifiers and Their Applications in Biomedicine. Wireless Patient Monitoring. RFID Tags, GPS Tags, and Ultrasonic Tags Used in Ecological Research. Examples of Special Analog Circuits and Systems Used in Biomedical Instrumentation. Appendix. Glossary. Bibliography and Recommended Reading.
Sources and Properties of Biomedical Signals. Properties and Models of Semiconductor Devices Used in Analog Electronic Systems. The Differential Amplifier. General Properties of Electronic, Single-Loop Feedback Systems. Feedback, Frequency Response, and Amplifier Stability. Operational Amplifiers and Comparators. Introduction to Analog Active Filters. Instrumentation and Medical Isolation Amplifiers. Noise and the Design of Low-Noise Signal Conditioning Systems for Biomedical Applications. Digital Interfaces. Modulation and Demodulation of Biomedical Signals. Power Amplifiers and Their Applications in Biomedicine. Wireless Patient Monitoring. RFID Tags, GPS Tags, and Ultrasonic Tags Used in Ecological Research. Examples of Special Analog Circuits and Systems Used in Biomedical Instrumentation. Appendix. Glossary. Bibliography and Recommended Reading.
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