Johan Huijsing's Books

Operational Amplifiers

Theory and Design

By: Johan Huijsing

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This proven textbook guides readers to a thorough understanding of the theory and design of operational amplifiers (OpAmps). The core of the book presents systematically the design of operational amplifiers, classifying them into a periodic system of nine main overall configurations, ranging from one gain stage up to four or more stages. This division enables circuit designers to recognize quickly, understand, and choose optimal configurations. Characterization of operational amplifiers is given by macro models and error matrices, together with measurement techniques for their parameters. Definitions are given for four types of operational amplifiers depending on the grounding of their input and output ports. Many famous designs are evaluated in depth, using a carefully structured approach enhanced by numerous figures. In order to reinforce the concepts introduced and facilitate self-evaluation of design skills, the author includes problems with detailed solutions, as well as simulation exercises.

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443

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Springer

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ISBN 10

3319281275

ISBN 13

9783319281278

Systematic Design of Sigma-Delta Analog-to-Digital Converters

By: Ovidiu Bajdechi,Johan Huijsing

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Systematic Design of Sigma-Delta Analog-to-Digital Converters

By: Ovidiu Bajdechi,Johan Huijsing

Systematic Design of Sigma-Delta Analog-to-Digital Converters describes the issues related to the sigma-delta analog-to-digital converters (ADCs) design in a systematic manner: from the top level of abstraction represented by the filters defining signal and noise transfer functions (STF, NTF), passing through the architecture level where topology-related performance is calculated and simulated, and finally down to parameters of circuit elements like resistors, capacitors, and amplifier transconductances used in individual integrators. The systematic approach allows the evaluation of different loop filters (order, aggressiveness, discrete-time or continuous-time implementation) with quantizers varying in resolution. Topologies explored range from simple single loops to multiple cascaded loops with complex structures including more feedbacks and feedforwards. For differential circuits, with switched-capacitor integrators for discrete-time (DT) loop filters and active-RC for continuous-time (CT) ones, the passive integrator components are calculated and the power consumption is estimated, based on top-level requirements like harmonic distortion and noise budget. This unified, systematic approach to choosing the best sigma-delta ADC implementation for a given design target yields an interesting solution for a high-resolution, broadband (DSL-like) ADC operated at low oversampling ratio, which is detailed down to transistor-level schematics. The target audience of Systematic Design of Sigma-Delta Analog-to-Digital Converters are engineers designing sigma-delta ADCs and/or switched-capacitor and continuous-time filters, both beginners and experienced. It is also intended for students/academics involved in sigma-delta and analog CAD research.

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216

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Springer Science & Business Media

Published Date

ISBN 10

1402079451

ISBN 13

9781402079450

Continuous-Time Sigma-Delta Modulation for A/D Conversion in Radio Receivers

By: Lucien Breems,Johan Huijsing

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Continuous-Time Sigma-Delta Modulation for A/D Conversion in Radio Receivers

By: Lucien Breems,Johan Huijsing

This text describes the design and theory of continuous-time sigma-delta modulators for analogue-to-digital conversion in radio receivers. The book's main focus is on dynamic range, linearity and power efficiency aspects of sigma-delta modulators, which are very important requirements for use in battery operated receivers.

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165

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Springer Science & Business Media

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ISBN 10

0306480042

ISBN 13

9780306480041

High-Accuracy CMOS Smart Temperature Sensors

By: Anton Bakker,Johan Huijsing

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High-Accuracy CMOS Smart Temperature Sensors

By: Anton Bakker,Johan Huijsing

This book describes the theory and design of high-accuracy CMOS smart temperature sensors. The major topic of the work is the realization of a smart temperature sensor that has an accuracy that is so high that it can be applied without any form of calibration. Integrated in a low-cost CMOS technology, this yields at the publication date of this book one of the most inexpensive intelligent general purpose temperature sensors in the world. The first thermometers could only be read by the human eye. The industrial revolution and the following computerization asked for more intelligent sensors, which could easily communicate to digital computers. This led to· the development of integrated temperature sensors that combine a bipolar temperature sensor and an A-to-D converter on the same chip. The implementation in CMOS technology reduces the processing costs to a minimum while having the best-suited technology to increase the (digital) intelligence. The accuracy of conventional CMOS smart temperature sensors is degraded by the offset of the read-out electronics. Calibration of these errors is quite expensive, however, dynamic offset-cancellation techniques can reduce the offset of amplifiers by a factor 100 to 1000 and do not need trimming. Chapter two gives an elaborate description of the different kinds of dynamic offset-cancellation techniques. Also a new technique is introduced called the nested chopper technique. An implementation of a CMOS nested-chopper instrumentation amplifier shows a residual offset of less than lOOn V, which is the best result reported to date.

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126

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Springer Science & Business Media

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ISBN 10

1475731906

ISBN 13

9781475731903

Compact Low-Voltage and High-Speed CMOS, BiCMOS and Bipolar Operational Amplifiers

By: Klaas-Jan de Langen,Johan Huijsing

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Compact Low-Voltage and High-Speed CMOS, BiCMOS and Bipolar Operational Amplifiers

By: Klaas-Jan de Langen,Johan Huijsing

Compact Low-Voltage and High-Speed CMOS, BiCMOS and Bipolar Operational Amplifiers discusses the design of integrated operational amplifiers that approach the limits of low supply voltage or very high bandwidth. The resulting realizations span the whole field of applications from micro-power CMOS VLSI amplifiers to 1-GHz bipolar amplifiers. The book presents efficient circuit topologies in order to combine high performance with simple solutions. In total twelve amplifier realizations are discussed. Two bipolar amplifiers are discussed, a 1-GHz operational amplifier and an amplifier with a high ratio between the maximum output current and the quiescent current. Five amplifiers have been designed in CMOS technology, extremely compact circuits that can operate on supply voltages down to one gate-source voltage and two saturation voltages which equals about 1.4 V and, ultimate-low-voltage amplifiers that can operate on supply voltages down to one gate-source voltage and one saturation voltage which amounts to about 1.2 V. In BiCMOS technology five amplifiers have been designed. The first two amplifiers are based on a compact topology. Two other amplifiers are designed to operate on low supply voltages down to 1.3 V. The final amplifier has a unity-gain frequency of 200 MHz and can operate down to 2.5 V. Compact Low-Voltage and High-Speed CMOS, BiCMOS and Bipolar Operational Amplifiers is intended for the professional analog designer. Also, it is suitable as a text book for advanced courses in amplifier design.

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258

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ISBN 10

1475729936

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9781475729931

Operational Amplifiers

Theory and Design

By: Johan Huijsing

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Operational Amplifiers

Theory and Design

By: Johan Huijsing

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443

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ISBN 10

3319281275

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9783319281278

Frequency Compensation Techniques for Low-Power Operational Amplifiers

By: Rudy G.H. Eschauzier,Johan Huijsing

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Frequency Compensation Techniques for Low-Power Operational Amplifiers

By: Rudy G.H. Eschauzier,Johan Huijsing

Frequency Compensation Techniques for Low-Power Operational Amplifiers is intended for professional designers of integrated amplifiers, emphasizing low-voltage and low-power solutions. The book bridges the gap between the professional designer's needs and available techniques for frequency compensation. It does so by explaining existing techniques and introducing several new techniques including Hybrid Nested Miller compensation, Multipath Miller Zero cancellation and Multipath Conditionally Stable compensation. All compensation techniques are treated in a stage-number-based order, progressing from a single transistor to circuits with six stages and more. Apart from discussing the mathematical basis of the compensation methods, the book provides the reader with the factual information that is required for practicing the design of integrated feedback amplifiers and many worked out examples. What is more, many bipolar and CMOS operational amplifier realizations, along with their measurement results, prove the effectiveness of the compensation techniques in real-life circuits. The text focuses on low-voltage, low-power integrated amplifiers. Many of the presented bipolar circuits operate at supply voltages down to 1V, while several CMOS amplifiers that function correctly just slightly above this voltage are demonstrated. The lowest measured power consumption amounts to 17muW for a class AB CMOS opAmp with 120dB gain. Despite this attention to low voltage and low power, the frequency compensation strategies provided are universally applicable. The fundamental approach followed leads to efficient compensation strategies that are well guarded against the parameter variations inherent to the mass-fabrication of integrated circuits. The book is essential reading for practicing analog design engineers and researchers in the field. It is also suitable as a text for an advanced course on the subject.

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255

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ISBN 10

147572375X

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9781475723755

Design of Low-Voltage, Low-Power Operational Amplifier Cells

By: Ron Hogervorst,Johan Huijsing

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Design of Low-Voltage, Low-Power Operational Amplifier Cells

By: Ron Hogervorst,Johan Huijsing

Design of Low-Voltage, Low-Power CMOS Operational Amplifier Cells describes the theory and design of the circuit elements that are required to realize a low-voltage, low-power operational amplifier. These elements include constant-gm rail-to-rail input stages, class-AB rail-to-rail output stages and frequency compensation methods. Several examples of each of these circuit elements are investigated. Furthermore, the book illustrates several silicon realizations, giving their measurement results. The text focuses on compact low-voltage low-power operational amplifiers with good performance. Six simple high-performance class-AB amplifiers are realized using a very compact topology making them particularly suitable for use as VLSI library cells. All of the designs can use a supply voltage as low as 3V. One of the amplifier designs dissipates only 50μW with a unity gain frequency of 1.5 MHz. A second set of amplifiers run on a supply voltage slightly above 1V. The amplifiers combine a low power consumption with a gain of 120 dB. In addition, the design of three fully differential operational amplifiers is addressed. Design of Low-Voltage, Low-Power CMOS Operational Amplifier Cells is intended for professional designers of analog circuits. It is also suitable for use as a text book for an advanced course in CMOS operational amplifier design.

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217

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ISBN 10

1475724896

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9781475724899

Dynamic Offset Compensated CMOS Amplifiers

By: Frerik Witte,Kofi Makinwa,Johan Huijsing

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Dynamic Offset Compensated CMOS Amplifiers

By: Frerik Witte,Kofi Makinwa,Johan Huijsing

Dynamic Offset-Compensated CMOS Amplifiers describes the theory, design and realization of dynamic offset compensated CMOS amplifiers. It focuses on the design of general-purpose wide-band operational amplifiers and instrumentation amplifiers. Two offset compensation techniques are described: auto-zeroing and chopping. Several topologies are discussed, with which these techniques can be used in the design of wide-band dynamic offset-compensated amplifiers. Four implementations are discussed in detail: two low-offset wide-band operational amplifiers, a low-offset instrumentation amplifier, and a low-offset current-sense amplifier, which can sense the current drawn from supply voltages up to 28V .

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178

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Springer Science & Business Media

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ISBN 10

9048127564

ISBN 13

9789048127566

CMOS Cellular Receiver Front-Ends

By: Johan Janssens,Michiel Steyaert

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CMOS Cellular Receiver Front-Ends

By: Johan Janssens,Michiel Steyaert

CMOS Cellular Receiver Front-Ends: from Specification to Realization deals with the design of the receive path of a highly-integrated CMOS cellular transceiver for the GSM-1800 cellular system. The complete design trajectory is covered, starting from the documents describing the standard down to the systematic development of CMOS receiver ICs that comply to the standard. The design of CMOS receivers is tackled at all abstraction levels: from architecture level, via circuit level, down to the device level, and the other way around. The theoretical core of the book discusses the fundamental and more advanced aspects of RF CMOS design. It focuses specifically on all aspects of the design of high-performance CMOS low-noise amplifiers.

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267

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Springer Science & Business Media

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ISBN 10

0306473046

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9780306473043

Feed-Forward Neural Networks

Vector Decomposition Analysis, Modelling and Analog Implementation

By: Anne-Johan Annema

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Feed-Forward Neural Networks

Vector Decomposition Analysis, Modelling and Analog Implementation

By: Anne-Johan Annema

Feed-Forward Neural Networks: Vector Decomposition Analysis, Modelling and Analog Implementation presents a novel method for the mathematical analysis of neural networks that learn according to the back-propagation algorithm. The book also discusses some other recent alternative algorithms for hardware implemented perception-like neural networks. The method permits a simple analysis of the learning behaviour of neural networks, allowing specifications for their building blocks to be readily obtained. Starting with the derivation of a specification and ending with its hardware implementation, analog hard-wired, feed-forward neural networks with on-chip back-propagation learning are designed in their entirety. On-chip learning is necessary in circumstances where fixed weight configurations cannot be used. It is also useful for the elimination of most mis-matches and parameter tolerances that occur in hard-wired neural network chips. Fully analog neural networks have several advantages over other implementations: low chip area, low power consumption, and high speed operation. Feed-Forward Neural Networks is an excellent source of reference and may be used as a text for advanced courses.

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256

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Springer Science & Business Media

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ISBN 10

0792395670

ISBN 13

9780792395676

Precision Temperature Sensors in CMOS Technology

By: Micheal A.P. Pertijs,Johan Huijsing

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Precision Temperature Sensors in CMOS Technology

By: Micheal A.P. Pertijs,Johan Huijsing

This book describes the analysis and design of precision temperature sensors in CMOS IC technology, focusing on so-called smart temperature sensors, which provide a digital output signal that can be readily interpreted by a computer. The text shows how temperature characteristics can be used to obtain an accurate digital temperature reading. The book ends with a detailed description of three prototypes, one of which achieves the best performance reported to date.

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308

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Springer Science & Business Media

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ISBN 10

1402052588

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9781402052583

High-Speed Photodiodes in Standard CMOS Technology

By: Sasa Radovanovic,Anne-Johan Annema,Bram Nauta

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High-Speed Photodiodes in Standard CMOS Technology

By: Sasa Radovanovic,Anne-Johan Annema,Bram Nauta

High-speed Photodiodes in Standard CMOS Technology describes high-speed photodiodes in standard CMOS technology which allow monolithic integration of optical receivers for short-haul communication. For short haul communication the cost aspect is important , and therefore it is desirable that the optical receiver can be integrated in the same CMOS technology as the rest of the system. If this is possible then ultimately a singe-chip system including optical inputs becomes feasible, eliminating EMC and crosstalk problems, while data rate can be extremely high. The problem of photodiodes in standard CMOS technology it that they have very limited bandwidth, allowing data rates up to only 50Mbit per second. High-speed Photodiodes in Standard CMOS Technology first analyzes the photodiode behaviour and compares existing solutions to enhance the speed. After this, the book introduces a new and robust electronic equalizer technique that makes data rates of 3Gb/s possible, without changing the manufacturing technology. The application of this technique can be found in short haul fibre communication, optical printed circuit boards, but also photodiodes for laser disks.

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159

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Springer Science & Business Media

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ISBN 10

038728592X

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9780387285924

Dynamic Offset Compensated CMOS Amplifiers

By: Frerik Witte,Kofi Makinwa,Johan Huijsing

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Dynamic Offset Compensated CMOS Amplifiers

By: Frerik Witte,Kofi Makinwa,Johan Huijsing

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178

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9048127564

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9789048127566

Design of Low-Voltage, Low-Power Operational Amplifier Cells

By: Ron Hogervorst,Johan Huijsing

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Design of Low-Voltage, Low-Power Operational Amplifier Cells

By: Ron Hogervorst,Johan Huijsing

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217

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1475724896

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9781475724899

Capacitively-Coupled Chopper Amplifiers

By: Qinwen Fan,Kofi A. A. Makinwa,Johan H. Huijsing

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Capacitively-Coupled Chopper Amplifiers

By: Qinwen Fan,Kofi A. A. Makinwa,Johan H. Huijsing

This book describes the concept and design of the capacitively-coupled chopper technique, which can be used in precision analog amplifiers. Readers will learn to design power-efficient amplifiers employing this technique, which can be powered by regular low supply voltage such as 2V and possibly having a +/-100V input common-mode voltage input. The authors provide both basic design concepts and detailed design examples, which cover the area of both operational and instrumentation amplifiers for multiple applications, particularly in power management and biomedical circuit designs.

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129

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Springer

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ISBN 10

3319473913

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9783319473918

Design of Low-Voltage Bipolar Operational Amplifiers

By: M. Jeroen Fonderie,Johan Huijsing

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Design of Low-Voltage Bipolar Operational Amplifiers

By: M. Jeroen Fonderie,Johan Huijsing

Design of Low-Voltage Bipolar Operational Amplifiers discusses the sub-circuits necessary to build a low-voltage operational amplifier. These include rail-to-rail input stages, rail-to-rail output stages, intermediate stages, protection circuitry and frequency compensation techniques. Of each of these, various implementations are examined. Furthermore, the book discusses realizations in silicon of the amplifiers. The design and implementation of low-voltage bipolar Operational Amplifiers (OpAmps) is fully presented. A low supply voltage is necessary because the tendency towards chip components of smaller dimensions lowers the breakdown voltage of these components. Further, a low supply voltage is favorable because it enables operation of the OpAmp from just one single battery cell. The bipolar technology is chosen, because it is more suited for operation at low-voltages than the MOS technology. The common-mode input voltage of the OpAmp must be able to have any value that fits within the supply voltage range. Input stages are discussed which are able to realize this at supply voltages down to 1.8 V, as well as down to 1 V. The output voltage of the OpAmp must be able to have any value within the supply voltage range. One of the 1 V output stages that is discussed, the multi-path driven output stage, also has a high bandwidth with a high gain. In addition to the input and output stage, the OpAmp comprises an intermediate stage, between the input stage and the output stage, to boost the overall gain of the OpAmp, and a class AB current control. A frequency compensation technique is used to split apart the pole frequencies in the transfer function. A disadvantage of this nested Miller compensation, is that the resulting bandwidth is reduced by a factor of two. A new method, multi-path-driven Miller compensation, which does not have this drawback, is therefore introduced. Several realizations are evaluated and a figure of merit is defined for the performance comparison of the OpAmps. One of the OpAmps operates at a 1 V supply, has a 3.4 MHz bandwidth with a 100 pF load and has a 700 &mgr;A supply current. The book is an excellent reference for professional designers of amplifiers and may be used as a text for advanced courses on the subject.

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201

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ISBN 10

146153142X

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9781461531425

High-Accuracy CMOS Smart Temperature Sensors

By: Anton Bakker,Johan Huijsing

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High-Accuracy CMOS Smart Temperature Sensors

By: Anton Bakker,Johan Huijsing

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126

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1475731906

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9781475731903

Frequency Compensation Techniques for Low-Power Operational Amplifiers

By: Rudy G.H. Eschauzier,Johan Huijsing

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Frequency Compensation Techniques for Low-Power Operational Amplifiers

By: Rudy G.H. Eschauzier,Johan Huijsing

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255

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147572375X

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9781475723755

Compact Low-Voltage and High-Speed CMOS, BiCMOS and Bipolar Operational Amplifiers

By: Klaas-Jan de Langen,Johan Huijsing

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Compact Low-Voltage and High-Speed CMOS, BiCMOS and Bipolar Operational Amplifiers

By: Klaas-Jan de Langen,Johan Huijsing

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258

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1475729936

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9781475729931

Precision Instrumentation Amplifiers and Read-Out Integrated Circuits

By: Rong Wu,Johan H. Huijsing,Kofi A Makinwa

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Precision Instrumentation Amplifiers and Read-Out Integrated Circuits

By: Rong Wu,Johan H. Huijsing,Kofi A Makinwa

This book presents innovative solutions in the design of precision instrumentation amplifier and read-out ICs, which can be used to boost millivolt-level signals transmitted by modern sensors, to levels compatible with the input ranges of typical Analog-to-Digital Converters (ADCs). The discussion includes the theory, design and realization of interface electronics for bridge transducers and thermocouples. It describes the use of power efficient techniques to mitigate low frequency errors, resulting in interface electronics with high accuracy, low noise and low drift. Since this book is mainly about techniques for eliminating low frequency errors, it describes the nature of these errors and the associated dynamic offset cancellation techniques used to mitigate them.

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199

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Springer Science & Business Media

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ISBN 10

1461437318

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9781461437314

Precision Temperature Sensors in CMOS Technology

By: Micheal A.P. Pertijs,Johan Huijsing

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Precision Temperature Sensors in CMOS Technology

By: Micheal A.P. Pertijs,Johan Huijsing

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308

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1402052588

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9781402052583

Systematic Design of Sigma-Delta Analog-to-Digital Converters

By: Ovidiu Bajdechi,Johan Huijsing

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Systematic Design of Sigma-Delta Analog-to-Digital Converters

By: Ovidiu Bajdechi,Johan Huijsing

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216

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1402079451

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9781402079450

Continuous-Time Sigma-Delta Modulation for A/D Conversion in Radio Receivers

By: Lucien Breems,Johan Huijsing

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Continuous-Time Sigma-Delta Modulation for A/D Conversion in Radio Receivers

By: Lucien Breems,Johan Huijsing

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165

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0306480042

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9780306480041

Integrated Smart Sensors

Design and Calibration

By: Gert van der Horn,Johan Huijsing

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Integrated Smart Sensors

Design and Calibration

By: Gert van der Horn,Johan Huijsing

1 1. 1 Introduction The (signal processing and storage) capacity ofthe human brain enables us to become powerful autonomous beings, but only if our brains operate in conjunction with (at least some of) our senses and muscles. Using these organs, we can interact with our environment, learn to adapt, and improve important aspects of our life. Similarly, the signal processing capabilities of modern electronics (computers) could be combined with electronic sensors and actuators to enable interaction with, and adaptation to, the (non-electrical) environment. This willlead to smarter and more powerful automated tools and machines. To facilitate and stimulate such a development, easy-to-use low-cost sensors are needed. The combination of electronic interface functions and a sensor in an integrated smart sensor, that provides a standard, digital, and bus-compatible output, would simplify the connection of sensors to standard electronic signal processors (microcontrollers, computers, etc. ). Currently, the calibration procedure, required for standardization of the sensor output signal level, contributes largely to the production costs of accurate sensors. To enable automation of the calibration procedure, and hence reduce the sensor fabrication costs, a digital calibrationjunction should be included in the smart sensor. INTEGRATED SMART SENSORS: Design and Calibration Introduction 1. 2 Sensors and actuators In industry many processes are electronically controlled. As depicted in Fig.

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210

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ISBN 10

1475728905

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9781475728903

High-Resolution IF-to-Baseband SigmaDelta ADC for Car Radios

By: Paulo Silva,Johan Huijsing

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High-Resolution IF-to-Baseband SigmaDelta ADC for Car Radios

By: Paulo Silva,Johan Huijsing

High-Resolution IF-to-Baseband SigmaDelta ADC for Car Radios addresses the theory, system level design and circuit implementation of a high-resolution continuous-time IF-to-baseband quadrature SigmaDelta ADC. The target application of this ADC is in AM/FM/IBOC car radios. The ADC achieves a dynamic range of 118dB, which eliminates the need for an IF VGA or AM channel filter in car radios. The author is very well known within the Analog Circuits community.

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223

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Springer Science & Business Media

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ISBN 10

1402081642

ISBN 13

9781402081644

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