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Titel och upphov Wireless Cortical Implantable Systems
Antal i kö: NU (US)
Utgivning, distribution, etc. Springer New York New York, NY 2013
©2013
DDC klassifikationskod (Dewey Decimal Classification)
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Fysisk beskrivning 1 online resource (203 pages)
Anmärkning: Innehåll Intro -- Wireless Cortical Implantable Systems -- Preface -- Acknowledgments -- About the Authors -- Contents -- Acronyms -- 1 Introduction -- References -- 2 State of the Art -- 2.1 System Level Considerations -- 2.2 Analog/Mixed-Signal Front-End -- 2.3 Wireless Data Transmission -- 2.4 Multichannel Neural Recording Systems -- 2.5 Research Opportunities in Developing Multichannel Neural Recording Systems -- References -- 3 Power Transmission and Voltage Regulation -- 3.1 Introduction -- 3.2 1.8 V LDO Voltage Regulator -- 3.2.1 Frequency Response -- 3.2.2 Design Methodology -- 3.2.3 Power Supply Rejection Ratio -- 3.2.4 Bandgap Reference Circuit -- 3.2.5 Experimental Results -- 3.3 1.2 V LDO Voltage Regulator -- 3.3.1 Architecture -- 3.3.2 Measurement Results -- 3.4 Conclusion -- References -- 4 Circuit Design for Ultra Low-Noise and Low-Power Sensor Interface -- 4.1 Introduction -- 4.2 Micropower Neural Amplifier -- 4.2.1 Frequency Response -- 4.2.2 Channel Crosstalk -- 4.2.3 Nonlinearity -- 4.2.4 Noise Efficiency Factor -- 4.3 Measurement Results -- 4.4 Conclusion -- References -- 5 Circuits and Systems for Multi-Channel Neural Recording -- 5.1 Introduction -- 5.2 A 16-Channel Oversampling Neural Recording System -- 5.2.1 System Architecture -- 5.2.2 Trade-Offs Between Noise, Power and Silicon Area -- 5.2.3 Circuit Implementation -- 5.2.4 Measurement Results -- 5.3 Walsh-Hadamard Coding: Application to Multi-Channel Neural Recording Systems -- 5.3.1 Introduction to Walsh-Hadamard Coding -- 5.3.2 System Architecture -- 5.3.3 Circuit Implementation -- 5.3.4 Measurement Results -- 5.4 A 64-channel Neural Recording IC Implementing Dynamic Power Scaling -- 5.4.1 System Architecture -- 5.4.2 Low-Noise Analog Front-End with Dynamic Power Scaling -- 5.4.3 Digital Signal Processor: Digital Neuro+II -- 5.4.4 Measurement Results -- 5.5 Conclusion References -- 6 Digital Impulse Radio Ultra Wide-Band Transmitter -- 6.1 Introduction -- 6.1.1 Overview of Ultra Wide-Band Communication -- 6.1.2 State-of-the-Art IR-UWB Transmitters -- 6.2 System-Level Specifications -- 6.2.1 First-Order Modeling of the Scalp Electromagnetic Absorption -- 6.2.2 Miniaturized UWB Antenna -- 6.2.3 Data Modulation Scheme and Link Budget -- 6.3 Transceiver Architecture -- 6.3.1 8-Array PPM Modulator -- 6.3.2 Ultra Wide-Band Pulse Generator -- 6.3.3 Pulse Combiner and Digital Power Amplifier -- 6.4 Measurement Results -- 6.5 Conclusion -- References -- 7 Summary and Conclusions -- 7.1 Overview and Conclusion -- 7.2 Open Research Topics in Implantable Cortical Systems -- Index
Anmärkning: Innehållsbeskrivning, sammanfattning This book covers implantable systems, including power transmission and voltage regulation, and noise at ULP. It features an overview of CMOS microelectronics for cortical implants and presents techniques for very low power and very low noise circuit design.
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Länkfält - Annat medium Print version: Majidzadeh Bafar, Vahid Wireless Cortical Implantable Systems New York, NY : Springer New York,c2013 ISBN 9781461467014
ISBN
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*035 $a(OCoLC)845259368
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*050 4$aTA1-2040
*08200$a610.28
*100 $aMajidzadeh Bafar, Vahid.
*24510$aWireless Cortical Implantable Systems
*250 $a1
*264 1$aNew York, NY$bSpringer New York$c2013
*264 4$c©2013
*300 $a1 online resource (203 pages)
*336 $atext$btxt$2rdacontent
*337 $acomputer$bc$2rdamedia
*338 $aonline resource$bcr$2rdacarrier
*505 0$aIntro -- Wireless Cortical Implantable Systems -- Preface -- Acknowledgments -- About the Authors -- Contents -- Acronyms -- 1 Introduction -- References -- 2 State of the Art -- 2.1 System Level Considerations -- 2.2 Analog/Mixed-Signal Front-End -- 2.3 Wireless Data Transmission -- 2.4 Multichannel Neural Recording Systems -- 2.5 Research Opportunities in Developing Multichannel Neural Recording Systems -- References -- 3 Power Transmission and Voltage Regulation -- 3.1 Introduction -- 3.2 1.8 V LDO Voltage Regulator -- 3.2.1 Frequency Response -- 3.2.2 Design Methodology -- 3.2.3 Power Supply Rejection Ratio -- 3.2.4 Bandgap Reference Circuit -- 3.2.5 Experimental Results -- 3.3 1.2 V LDO Voltage Regulator -- 3.3.1 Architecture -- 3.3.2 Measurement Results -- 3.4 Conclusion -- References -- 4 Circuit Design for Ultra Low-Noise and Low-Power Sensor Interface -- 4.1 Introduction -- 4.2 Micropower Neural Amplifier -- 4.2.1 Frequency Response -- 4.2.2 Channel Crosstalk -- 4.2.3 Nonlinearity -- 4.2.4 Noise Efficiency Factor -- 4.3 Measurement Results -- 4.4 Conclusion -- References -- 5 Circuits and Systems for Multi-Channel Neural Recording -- 5.1 Introduction -- 5.2 A 16-Channel Oversampling Neural Recording System -- 5.2.1 System Architecture -- 5.2.2 Trade-Offs Between Noise, Power and Silicon Area -- 5.2.3 Circuit Implementation -- 5.2.4 Measurement Results -- 5.3 Walsh-Hadamard Coding: Application to Multi-Channel Neural Recording Systems -- 5.3.1 Introduction to Walsh-Hadamard Coding -- 5.3.2 System Architecture -- 5.3.3 Circuit Implementation -- 5.3.4 Measurement Results -- 5.4 A 64-channel Neural Recording IC Implementing Dynamic Power Scaling -- 5.4.1 System Architecture -- 5.4.2 Low-Noise Analog Front-End with Dynamic Power Scaling -- 5.4.3 Digital Signal Processor: Digital Neuro+II -- 5.4.4 Measurement Results -- 5.5 Conclusion
*505 $aReferences -- 6 Digital Impulse Radio Ultra Wide-Band Transmitter -- 6.1 Introduction -- 6.1.1 Overview of Ultra Wide-Band Communication -- 6.1.2 State-of-the-Art IR-UWB Transmitters -- 6.2 System-Level Specifications -- 6.2.1 First-Order Modeling of the Scalp Electromagnetic Absorption -- 6.2.2 Miniaturized UWB Antenna -- 6.2.3 Data Modulation Scheme and Link Budget -- 6.3 Transceiver Architecture -- 6.3.1 8-Array PPM Modulator -- 6.3.2 Ultra Wide-Band Pulse Generator -- 6.3.3 Pulse Combiner and Digital Power Amplifier -- 6.4 Measurement Results -- 6.5 Conclusion -- References -- 7 Summary and Conclusions -- 7.1 Overview and Conclusion -- 7.2 Open Research Topics in Implantable Cortical Systems -- Index
*520 $aThis book covers implantable systems, including power transmission and voltage regulation, and noise at ULP. It features an overview of CMOS microelectronics for cortical implants and presents techniques for very low power and very low noise circuit design.
*588 $aDescription based on publisher supplied metadata and other sources.
*588 $aElectronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, YYYY. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
*650 0$aBiomedical engineering..
*650 0$aImplants, Artificial.
*655 0$aElectronic books.
*700 $aSchmid, Alexandre.
*77608$iPrint version:$aMajidzadeh Bafar, Vahid$tWireless Cortical Implantable Systems$dNew York, NY : Springer New York,c2013$z9781461467014
*797 $aProQuest (Firm)
*85640$uhttps://ebookcentral.proquest.com/lib/vgregion/detail.action?docID=1205344
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