Verfügbarkeit: Ultra-low power fm-uwb transceivers for iot

Ultra-low power fm-uwb transceivers for iot:

Over the past two decades we have witnessed the increasing popularity of the internet of things. The vision of billions of connected objects, able to interact with their environment, is the key driver directing the development of future communication devices. Today, power consumption as well as the...

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1. Verfasser:	Kopta, Vladimir
Weitere Verfasser:	Enz, Christian
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	[Place of publication not identified] : RIVER Publishers, 2019.
Schlagworte:	Radio > Transmitter-receivers. Low power radio. Internet of things. Wireless communication systems. Radio > Émetteurs-récepteurs. Radio locale. Internet des objets. Transmission sans fil. transceivers. Internet of things Low power radio Radio > Transmitter-receivers Wireless communication systems
Online-Zugang:	Volltext
Zusammenfassung:	Over the past two decades we have witnessed the increasing popularity of the internet of things. The vision of billions of connected objects, able to interact with their environment, is the key driver directing the development of future communication devices. Today, power consumption as well as the cost and size of radios remain some of the key obstacles towards fulfilling this vision. Ultra-Low Power FM-UWB Transceivers for IoT presents the latest developments in the field of low power wireless communication. It promotes the FM-UWB modulation scheme as a candidate for short range communication in different IoT scenarios. The FM-UWB has the potential to provide exactly what is missing today. This spread spectrum technique enables significant reduction in transceiver complexity, making it smaller, cheaper and more energy efficient than most alternative options. The book provides an overview of both circuit-level and architectural techniques used in low power radio design, with a comprehensive study of state-of-the-art examples. It summarizes key theoretical aspects of FM-UWB with a glimpse at potential future research directions. Finally, it gives an insight into a full FM-UWB transceiver design, from system level specifications down to transistor level design, demonstrating the modern power reduction circuit techniques. Ultra-Low Power FM-UWB Transceivers for IoT is a perfect text and reference for engineers working in RF IC design and wireless communication, as well as academic staff and graduate students engaged in low power communication systems research.
Beschreibung:	1 online resource
ISBN:	9788770221436 877022143X

Internformat

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505	0		\|a Foreword ix Preface xi -- List of Figures xiii -- List of Tables xix -- List of Abbreviations xxi -- 1 Introduction 1 -- 1.1 Wireless Communication 1 -- 1.2 CMOS Technology and Scaling 2 -- 1.3 IoT and WSN 3 -- 1.4 Energy Sources 5 -- 1.5 Work Outline 6 -- References 8 -- 2 Low PowerWireless Communications 9 -- 2.1 Introduction 9 -- 2.2 Narrowband Communications 12 -- 2.2.1 Bluetooth Low Energy 13 -- 2.2.2 Wake-up Receivers 18 -- 2.3 Ultra-Wideband Communications 23 -- 2.3.1 Impulse Radio UWB 24 -- 2.4 Concluding Remarks 29 -- References 31 -- 3 FM-UWB as a Low-Power, Robust Modulation Scheme 39 -- 3.1 Introduction 39 -- 3.2 Principles of FM-UWB 40 -- 3.2.1 FM-UWB Modulation 40 -- 3.2.2 Multi-User Communication and Narrowband Interference 44 -- 3.2.3 Beyond Standard FM-UWB 51 -- 3.3 State-of-the-Art FM-UWB Transceivers 54 -- 3.3.1 FM-UWB Receivers 54 -- 3.3.2 FM-UWB Transmitters 58 -- 3.3.3 FM-UWB Against IR-UWB and Narrowband Receivers 60 -- 3.4 Summary 63 -- References 64 -- 4 The Approximate Zero IF Receiver Architecture 67 -- 4.1 Introduction 67 -- 4.2 The Uncertain IF Architecture 68 -- 4.3 The Approximate Zero IF Receiver with Quadrature Downconversion 70 -- 4.4 The Approximate Zero IF Receiver with Single-Ended Downconversion 78 -- 4.5 Receiver Sensitivity Estimation 82 -- 4.6 Summary 86 -- References 87 -- 5 Quadrature Approximate Zero-IF FM-UWB Receiver 89 -- 5.1 Introduction 89 -- 5.2 Receiver Architecture 89 -- 5.3 Circuit Implementation 92 -- 5.3.1 RF Frontend 92 -- 5.3.2 IF Amplifier 95 -- 5.3.3 LO Generation and Calibration 98 -- 5.3.4 FM Demodulator 103 -- 5.3.5 LF Amplifier and Output Buffer 104 -- 5.3.6 Current Reference PTAT Circuit 106 -- 5.4 Measurement Results 107 -- 5.4.1 General Receiver Measurements 107 -- 5.4.2 Single User Measurements 109 -- 5.4.3 Multi-User Measurements 116 -- 5.4.4 Multi-Channel Transmission Measurements 119 -- 5.5 Summary 120 -- References 122 -- 6 FM-UWB Transceiver 125 -- 6.1 Introduction 125 -- 6.2 Transceiver Architecture 125.
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Datensatz im Suchindex

DE-BY-FWS_katkey	ZDB-4-EBA-on1139151595
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author	Kopta, Vladimir
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contents	Foreword ix Preface xi -- List of Figures xiii -- List of Tables xix -- List of Abbreviations xxi -- 1 Introduction 1 -- 1.1 Wireless Communication 1 -- 1.2 CMOS Technology and Scaling 2 -- 1.3 IoT and WSN 3 -- 1.4 Energy Sources 5 -- 1.5 Work Outline 6 -- References 8 -- 2 Low PowerWireless Communications 9 -- 2.1 Introduction 9 -- 2.2 Narrowband Communications 12 -- 2.2.1 Bluetooth Low Energy 13 -- 2.2.2 Wake-up Receivers 18 -- 2.3 Ultra-Wideband Communications 23 -- 2.3.1 Impulse Radio UWB 24 -- 2.4 Concluding Remarks 29 -- References 31 -- 3 FM-UWB as a Low-Power, Robust Modulation Scheme 39 -- 3.1 Introduction 39 -- 3.2 Principles of FM-UWB 40 -- 3.2.1 FM-UWB Modulation 40 -- 3.2.2 Multi-User Communication and Narrowband Interference 44 -- 3.2.3 Beyond Standard FM-UWB 51 -- 3.3 State-of-the-Art FM-UWB Transceivers 54 -- 3.3.1 FM-UWB Receivers 54 -- 3.3.2 FM-UWB Transmitters 58 -- 3.3.3 FM-UWB Against IR-UWB and Narrowband Receivers 60 -- 3.4 Summary 63 -- References 64 -- 4 The Approximate Zero IF Receiver Architecture 67 -- 4.1 Introduction 67 -- 4.2 The Uncertain IF Architecture 68 -- 4.3 The Approximate Zero IF Receiver with Quadrature Downconversion 70 -- 4.4 The Approximate Zero IF Receiver with Single-Ended Downconversion 78 -- 4.5 Receiver Sensitivity Estimation 82 -- 4.6 Summary 86 -- References 87 -- 5 Quadrature Approximate Zero-IF FM-UWB Receiver 89 -- 5.1 Introduction 89 -- 5.2 Receiver Architecture 89 -- 5.3 Circuit Implementation 92 -- 5.3.1 RF Frontend 92 -- 5.3.2 IF Amplifier 95 -- 5.3.3 LO Generation and Calibration 98 -- 5.3.4 FM Demodulator 103 -- 5.3.5 LF Amplifier and Output Buffer 104 -- 5.3.6 Current Reference PTAT Circuit 106 -- 5.4 Measurement Results 107 -- 5.4.1 General Receiver Measurements 107 -- 5.4.2 Single User Measurements 109 -- 5.4.3 Multi-User Measurements 116 -- 5.4.4 Multi-Channel Transmission Measurements 119 -- 5.5 Summary 120 -- References 122 -- 6 FM-UWB Transceiver 125 -- 6.1 Introduction 125 -- 6.2 Transceiver Architecture 125. 6.3 Transmitter Implementation 127 -- 6.3.1 Sub-Carrier Synthesis 128 -- 6.3.2 DCO Digital to Analog Converters 129 -- 6.3.3 DCO 132 -- 6.3.4 Preamplifier and Power Amplifier 134 -- 6.4 Receiver Implementation 139 -- 6.4.1 RF Frontend 139 -- 6.4.2 IF Amplifiers 141 -- 6.4.3 Receiver DCO 143 -- 6.4.4 Demodulator 144 -- 6.4.5 N-Path Channel Filter 147 -- 6.4.6 LF Amplifier and Comparator 153 -- 6.4.7 FSK Demodulator and Clock Recovery 155 -- 6.4.8 SAR FLL Calibration 159 -- 6.4.9 Clock Reference 160 -- 6.5 Measurement Results 162 -- 6.5.1 Transmitter Measurements 163 -- 6.5.2 Receiver Measurements 170 -- 6.6 Summary 183 -- References 185 -- 7 Conclusion 189 -- 7.1 Summary of Achievements 190 -- 7.2 Future of FM-UWB 192 -- References 193 -- Index 195 -- About the Authors 199.
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dewey-tens	620 - Engineering and allied operations
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
format	Electronic eBook
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record_format	marc
spelling	Kopta, Vladimir. Ultra-low power fm-uwb transceivers for iot [Place of publication not identified] : RIVER Publishers, 2019. 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Foreword ix Preface xi -- List of Figures xiii -- List of Tables xix -- List of Abbreviations xxi -- 1 Introduction 1 -- 1.1 Wireless Communication 1 -- 1.2 CMOS Technology and Scaling 2 -- 1.3 IoT and WSN 3 -- 1.4 Energy Sources 5 -- 1.5 Work Outline 6 -- References 8 -- 2 Low PowerWireless Communications 9 -- 2.1 Introduction 9 -- 2.2 Narrowband Communications 12 -- 2.2.1 Bluetooth Low Energy 13 -- 2.2.2 Wake-up Receivers 18 -- 2.3 Ultra-Wideband Communications 23 -- 2.3.1 Impulse Radio UWB 24 -- 2.4 Concluding Remarks 29 -- References 31 -- 3 FM-UWB as a Low-Power, Robust Modulation Scheme 39 -- 3.1 Introduction 39 -- 3.2 Principles of FM-UWB 40 -- 3.2.1 FM-UWB Modulation 40 -- 3.2.2 Multi-User Communication and Narrowband Interference 44 -- 3.2.3 Beyond Standard FM-UWB 51 -- 3.3 State-of-the-Art FM-UWB Transceivers 54 -- 3.3.1 FM-UWB Receivers 54 -- 3.3.2 FM-UWB Transmitters 58 -- 3.3.3 FM-UWB Against IR-UWB and Narrowband Receivers 60 -- 3.4 Summary 63 -- References 64 -- 4 The Approximate Zero IF Receiver Architecture 67 -- 4.1 Introduction 67 -- 4.2 The Uncertain IF Architecture 68 -- 4.3 The Approximate Zero IF Receiver with Quadrature Downconversion 70 -- 4.4 The Approximate Zero IF Receiver with Single-Ended Downconversion 78 -- 4.5 Receiver Sensitivity Estimation 82 -- 4.6 Summary 86 -- References 87 -- 5 Quadrature Approximate Zero-IF FM-UWB Receiver 89 -- 5.1 Introduction 89 -- 5.2 Receiver Architecture 89 -- 5.3 Circuit Implementation 92 -- 5.3.1 RF Frontend 92 -- 5.3.2 IF Amplifier 95 -- 5.3.3 LO Generation and Calibration 98 -- 5.3.4 FM Demodulator 103 -- 5.3.5 LF Amplifier and Output Buffer 104 -- 5.3.6 Current Reference PTAT Circuit 106 -- 5.4 Measurement Results 107 -- 5.4.1 General Receiver Measurements 107 -- 5.4.2 Single User Measurements 109 -- 5.4.3 Multi-User Measurements 116 -- 5.4.4 Multi-Channel Transmission Measurements 119 -- 5.5 Summary 120 -- References 122 -- 6 FM-UWB Transceiver 125 -- 6.1 Introduction 125 -- 6.2 Transceiver Architecture 125. 6.3 Transmitter Implementation 127 -- 6.3.1 Sub-Carrier Synthesis 128 -- 6.3.2 DCO Digital to Analog Converters 129 -- 6.3.3 DCO 132 -- 6.3.4 Preamplifier and Power Amplifier 134 -- 6.4 Receiver Implementation 139 -- 6.4.1 RF Frontend 139 -- 6.4.2 IF Amplifiers 141 -- 6.4.3 Receiver DCO 143 -- 6.4.4 Demodulator 144 -- 6.4.5 N-Path Channel Filter 147 -- 6.4.6 LF Amplifier and Comparator 153 -- 6.4.7 FSK Demodulator and Clock Recovery 155 -- 6.4.8 SAR FLL Calibration 159 -- 6.4.9 Clock Reference 160 -- 6.5 Measurement Results 162 -- 6.5.1 Transmitter Measurements 163 -- 6.5.2 Receiver Measurements 170 -- 6.6 Summary 183 -- References 185 -- 7 Conclusion 189 -- 7.1 Summary of Achievements 190 -- 7.2 Future of FM-UWB 192 -- References 193 -- Index 195 -- About the Authors 199. Over the past two decades we have witnessed the increasing popularity of the internet of things. The vision of billions of connected objects, able to interact with their environment, is the key driver directing the development of future communication devices. Today, power consumption as well as the cost and size of radios remain some of the key obstacles towards fulfilling this vision. Ultra-Low Power FM-UWB Transceivers for IoT presents the latest developments in the field of low power wireless communication. It promotes the FM-UWB modulation scheme as a candidate for short range communication in different IoT scenarios. The FM-UWB has the potential to provide exactly what is missing today. This spread spectrum technique enables significant reduction in transceiver complexity, making it smaller, cheaper and more energy efficient than most alternative options. The book provides an overview of both circuit-level and architectural techniques used in low power radio design, with a comprehensive study of state-of-the-art examples. It summarizes key theoretical aspects of FM-UWB with a glimpse at potential future research directions. Finally, it gives an insight into a full FM-UWB transceiver design, from system level specifications down to transistor level design, demonstrating the modern power reduction circuit techniques. Ultra-Low Power FM-UWB Transceivers for IoT is a perfect text and reference for engineers working in RF IC design and wireless communication, as well as academic staff and graduate students engaged in low power communication systems research. Radio Transmitter-receivers. http://id.loc.gov/authorities/subjects/sh85110417 Low power radio. http://id.loc.gov/authorities/subjects/sh2001004496 Internet of things. http://id.loc.gov/authorities/subjects/sh2013000266 Wireless communication systems. http://id.loc.gov/authorities/subjects/sh92006740 Radio Émetteurs-récepteurs. Radio locale. Internet des objets. Transmission sans fil. transceivers. aat Internet of things fast Low power radio fast Radio Transmitter-receivers fast Wireless communication systems fast Enz, Christian. has work: Ultra-low power fm-uwb transceivers for iot (Text) https://id.oclc.org/worldcat/entity/E39PCGdgMvYT8dHk7BWv79CKMP https://id.oclc.org/worldcat/ontology/hasWork Print version: 8770221448 9788770221443 (OCoLC)1130657668 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2363402 Volltext
spellingShingle	Kopta, Vladimir Ultra-low power fm-uwb transceivers for iot Foreword ix Preface xi -- List of Figures xiii -- List of Tables xix -- List of Abbreviations xxi -- 1 Introduction 1 -- 1.1 Wireless Communication 1 -- 1.2 CMOS Technology and Scaling 2 -- 1.3 IoT and WSN 3 -- 1.4 Energy Sources 5 -- 1.5 Work Outline 6 -- References 8 -- 2 Low PowerWireless Communications 9 -- 2.1 Introduction 9 -- 2.2 Narrowband Communications 12 -- 2.2.1 Bluetooth Low Energy 13 -- 2.2.2 Wake-up Receivers 18 -- 2.3 Ultra-Wideband Communications 23 -- 2.3.1 Impulse Radio UWB 24 -- 2.4 Concluding Remarks 29 -- References 31 -- 3 FM-UWB as a Low-Power, Robust Modulation Scheme 39 -- 3.1 Introduction 39 -- 3.2 Principles of FM-UWB 40 -- 3.2.1 FM-UWB Modulation 40 -- 3.2.2 Multi-User Communication and Narrowband Interference 44 -- 3.2.3 Beyond Standard FM-UWB 51 -- 3.3 State-of-the-Art FM-UWB Transceivers 54 -- 3.3.1 FM-UWB Receivers 54 -- 3.3.2 FM-UWB Transmitters 58 -- 3.3.3 FM-UWB Against IR-UWB and Narrowband Receivers 60 -- 3.4 Summary 63 -- References 64 -- 4 The Approximate Zero IF Receiver Architecture 67 -- 4.1 Introduction 67 -- 4.2 The Uncertain IF Architecture 68 -- 4.3 The Approximate Zero IF Receiver with Quadrature Downconversion 70 -- 4.4 The Approximate Zero IF Receiver with Single-Ended Downconversion 78 -- 4.5 Receiver Sensitivity Estimation 82 -- 4.6 Summary 86 -- References 87 -- 5 Quadrature Approximate Zero-IF FM-UWB Receiver 89 -- 5.1 Introduction 89 -- 5.2 Receiver Architecture 89 -- 5.3 Circuit Implementation 92 -- 5.3.1 RF Frontend 92 -- 5.3.2 IF Amplifier 95 -- 5.3.3 LO Generation and Calibration 98 -- 5.3.4 FM Demodulator 103 -- 5.3.5 LF Amplifier and Output Buffer 104 -- 5.3.6 Current Reference PTAT Circuit 106 -- 5.4 Measurement Results 107 -- 5.4.1 General Receiver Measurements 107 -- 5.4.2 Single User Measurements 109 -- 5.4.3 Multi-User Measurements 116 -- 5.4.4 Multi-Channel Transmission Measurements 119 -- 5.5 Summary 120 -- References 122 -- 6 FM-UWB Transceiver 125 -- 6.1 Introduction 125 -- 6.2 Transceiver Architecture 125. 6.3 Transmitter Implementation 127 -- 6.3.1 Sub-Carrier Synthesis 128 -- 6.3.2 DCO Digital to Analog Converters 129 -- 6.3.3 DCO 132 -- 6.3.4 Preamplifier and Power Amplifier 134 -- 6.4 Receiver Implementation 139 -- 6.4.1 RF Frontend 139 -- 6.4.2 IF Amplifiers 141 -- 6.4.3 Receiver DCO 143 -- 6.4.4 Demodulator 144 -- 6.4.5 N-Path Channel Filter 147 -- 6.4.6 LF Amplifier and Comparator 153 -- 6.4.7 FSK Demodulator and Clock Recovery 155 -- 6.4.8 SAR FLL Calibration 159 -- 6.4.9 Clock Reference 160 -- 6.5 Measurement Results 162 -- 6.5.1 Transmitter Measurements 163 -- 6.5.2 Receiver Measurements 170 -- 6.6 Summary 183 -- References 185 -- 7 Conclusion 189 -- 7.1 Summary of Achievements 190 -- 7.2 Future of FM-UWB 192 -- References 193 -- Index 195 -- About the Authors 199. Radio Transmitter-receivers. http://id.loc.gov/authorities/subjects/sh85110417 Low power radio. http://id.loc.gov/authorities/subjects/sh2001004496 Internet of things. http://id.loc.gov/authorities/subjects/sh2013000266 Wireless communication systems. http://id.loc.gov/authorities/subjects/sh92006740 Radio Émetteurs-récepteurs. Radio locale. Internet des objets. Transmission sans fil. transceivers. aat Internet of things fast Low power radio fast Radio Transmitter-receivers fast Wireless communication systems fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85110417 http://id.loc.gov/authorities/subjects/sh2001004496 http://id.loc.gov/authorities/subjects/sh2013000266 http://id.loc.gov/authorities/subjects/sh92006740
title	Ultra-low power fm-uwb transceivers for iot
title_auth	Ultra-low power fm-uwb transceivers for iot
title_exact_search	Ultra-low power fm-uwb transceivers for iot
title_full	Ultra-low power fm-uwb transceivers for iot
title_fullStr	Ultra-low power fm-uwb transceivers for iot
title_full_unstemmed	Ultra-low power fm-uwb transceivers for iot
title_short	Ultra-low power fm-uwb transceivers for iot
title_sort	ultra low power fm uwb transceivers for iot
topic	Radio Transmitter-receivers. http://id.loc.gov/authorities/subjects/sh85110417 Low power radio. http://id.loc.gov/authorities/subjects/sh2001004496 Internet of things. http://id.loc.gov/authorities/subjects/sh2013000266 Wireless communication systems. http://id.loc.gov/authorities/subjects/sh92006740 Radio Émetteurs-récepteurs. Radio locale. Internet des objets. Transmission sans fil. transceivers. aat Internet of things fast Low power radio fast Radio Transmitter-receivers fast Wireless communication systems fast
topic_facet	Radio Transmitter-receivers. Low power radio. Internet of things. Wireless communication systems. Radio Émetteurs-récepteurs. Radio locale. Internet des objets. Transmission sans fil. transceivers. Internet of things Low power radio Radio Transmitter-receivers Wireless communication systems
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2363402
work_keys_str_mv	AT koptavladimir ultralowpowerfmuwbtransceiversforiot AT enzchristian ultralowpowerfmuwbtransceiversforiot

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