Wouter A. Serdijn's Books

Analog IC Design Techniques for Nanopower Biomedical Signal Processing

By: Chutham Sawigun,Wouter A. Serdijn

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Analog IC Design Techniques for Nanopower Biomedical Signal Processing

By: Chutham Sawigun,Wouter A. Serdijn

As the requirements for low power consumption and very small physical dimensions in portable, wearable and implantable medical devices are calling for integrated circuit design techniques using MOSFETs operating in the subthreshold regime, this book first revisits some well-known circuit techniques that use CMOS devices biased in subthreshold in order to establish nanopower integrated circuit designs. Based on the these findings, this book shows the development of a class-AB current-mode sample-and-hold circuit with an order of magnitude improvement in its figure of merit compared to other state-of-the-art designs. Also, the concepts and design procedures of 1) single-branch filters 2) follower-integrator-based lowpass filters and 3) modular transconductance reduction techniques for very low frequency filters are presented. Finally, to serve the requirement of a very large signal swing in an energy-based action potential detector, a nanopower class-AB current-mode analog multiplier is designed to handle input current amplitudes of more than 10 times the bias current of the multiplier circuit. The invented filter circuits have been fabricated in a standard 0.18 μ CMOS process in order to verify our circuit concepts and design procedures. Their experimental results are reported.

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Page Count

199

Publisher

CRC Press

Published Date

ISBN 10

1000794601

ISBN 13

9781000794601

Dynamic Translinear and Log-Domain Circuits

Analysis and Synthesis

By: Jan Mulder,Wouter A. Serdijn,Albert C. van der Woerd,Arthur H.M. van Roermund

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Dynamic Translinear and Log-Domain Circuits

Analysis and Synthesis

By: Jan Mulder,Wouter A. Serdijn,Albert C. van der Woerd,Arthur H.M. van Roermund

Log-domain and translinear filters provide a competitive alternative to the challenges of ever increasing low-voltage, low-power and high frequency demands in the area of continuous-time filters. Since translinear filters are fundamentally large-signal linear, they are capable of realizing a large dynamic range in combination with excellent tunability characteristics. Large-signal linearity is achieved by exploiting the accurate exponential behavior of the bipolar transistor or the subthreshold MOS transistor. A generalization of the dynamic translinear principle exploiting the square law behavior of the MOS transistor is theoretically possible, but not practically relevant. Translinear and log-domain filters are based on the dynamic translinear principle, a generalization of the conventional (static) translinear principle. Besides their application for linear filters, dynamic translinear circuits can also be used for the realization of non-linear dynamic functions, such as oscillators, RMS-DC converters and phase-locked loops. Dynamic Translinear and Log-Domain Circuits: Analysis and Synthesis covers both the analysis and synthesis of translinear circuits. The theory is presented using one unifying framework for both static and dynamic translinear networks, which is based on a current-mode approach. General analysis methods are presented, including the large-signal and non-stationary analysis of noise. A well-structured synthesis method is described greatly enhancing the designability of log-domain and translinear circuits. Comparisons are made with respect to alternative analysis and synthesis methods presented in the literature. The theory is illustrated and verified by various examples and realizations. Dynamic Translinear and Log-Domain Circuits: Analysis and Synthesis is an excellent reference for researchers and circuit designers, and may be used as a text for advanced courses on the topic.

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Page Count

278

Publisher

Springer Science & Business Media

Published Date

ISBN 10

1461549558

ISBN 13

9781461549550

EMI-Resilient Amplifier Circuits

By: Marcel J. van der Horst,Wouter A. Serdijn,André C. Linnenbank

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EMI-Resilient Amplifier Circuits

By: Marcel J. van der Horst,Wouter A. Serdijn,André C. Linnenbank

This book enables circuit designers to reduce the errors introduced by the fundamental limitations (noise, bandwith, and signal power) and electromagnetic interference (EMI) in negative-feedback amplifiers. The authors describe a systematic design approach for application specific negative-feedback amplifiers, with specified signal-to-error ratio (SER). This approach enables designers to calculate noise, bandwidth, EMI, and the required bias parameters of the transistors used in application specific amplifiers in order to meet the SER requirements.

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Page Count

316

Publisher

Springer Science & Business Media

Published Date

ISBN 10

3319005936

ISBN 13

9783319005935

Power-Aware Architecting

for data-dominated applications

By: Maarten Ditzel,R.H. Otten,Wouter A. Serdijn

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Power-Aware Architecting

for data-dominated applications

By: Maarten Ditzel,R.H. Otten,Wouter A. Serdijn

This superb text provides a systematic way to support the system architect in this job. Therefore, an iterative system-level design approach is defined where iterations are based on fast and accurate estimations or predictions of area, performance and energy consumption. This method is illustrated with a concrete real life example of multi-carrier communication. This book is the result of a Ph.D. thesis, which is part of the UbiCom project at Delft University of Technology.

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Page Count

118

Publisher

Springer Science & Business Media

Published Date

ISBN 10

1402064209

ISBN 13

9781402064203

Ultra Low-Power Biomedical Signal Processing

An Analog Wavelet Filter Approach for Pacemakers

By: Sandro Augusto Pavlik Haddad,Wouter A. Serdijn

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Ultra Low-Power Biomedical Signal Processing

An Analog Wavelet Filter Approach for Pacemakers

By: Sandro Augusto Pavlik Haddad,Wouter A. Serdijn

Often WT systems employ the discrete wavelet transform, implemented on a digital signal processor. However, in ultra low-power applications such as biomedical implantable devices, it is not suitable to implement the WT by means of digital circuitry due to the relatively high power consumption associated with the required A/D converter. Low-power analog realization of the wavelet transform enables its application in vivo, e.g. in pacemakers, where the wavelet transform provides a means to extremely reliable cardiac signal detection. In Ultra Low-Power Biomedical Signal Processing we present a novel method for implementing signal processing based on WT in an analog way. The methodology presented focuses on the development of ultra low-power analog integrated circuits that implement the required signal processing, taking into account the limitations imposed by an implantable device.

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Page Count

221

Publisher

Springer Science & Business Media

Published Date

ISBN 10

1402090730

ISBN 13

9781402090738

Adaptive Low-Power Circuits for Wireless Communications

By: Aleksandar Tasic,Wouter A. Serdijn,John R. Long

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Adaptive Low-Power Circuits for Wireless Communications

By: Aleksandar Tasic,Wouter A. Serdijn,John R. Long

With a billion – soon to be two billion - cellular telephones in circulation, the next challenge is to make cellular radio functions adaptive to their environment. This book provides a comprehensive theoretical framework for optimizing performance, discussing joint optimization of Noise Figure and Input Intercept Point in receiver systems. Also examined are original techniques to optimize voltage controlled oscillators and low-noise amplifiers, minimizing power consumption while maintaining adequate system performance.

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Page Count

232

Publisher

Springer Science & Business Media

Published Date

ISBN 10

1402052502

ISBN 13

9781402052507

Book's by Wouter A. Serdijn

Analog IC Design Techniques for Nanopower Biomedical Signal Processing

Analog IC Design Techniques for Nanopower Biomedical Signal Processing

Dynamic Translinear and Log-Domain Circuits

Dynamic Translinear and Log-Domain Circuits

EMI-Resilient Amplifier Circuits

EMI-Resilient Amplifier Circuits

Power-Aware Architecting

Power-Aware Architecting

Ultra Low-Power Biomedical Signal Processing

Ultra Low-Power Biomedical Signal Processing

Adaptive Low-Power Circuits for Wireless Communications

Adaptive Low-Power Circuits for Wireless Communications

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