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000751924 019__ $$a931591880$$a932332925
000751924 020__ $$a9783319211794$$q(electronic book)
000751924 020__ $$a331921179X$$q(electronic book)
000751924 020__ $$z9783319211787
000751924 0247_ $$a10.1007/978-3-319-21179-4$$2doi
000751924 035__ $$aSP(OCoLC)ocn921843364
000751924 035__ $$aSP(OCoLC)921843364$$z(OCoLC)931591880$$z(OCoLC)932332925
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000751924 049__ $$aISEA
000751924 050_4 $$aRD132
000751924 08204 $$a617.9$$223
000751924 1001_ $$aKilinc, Enver Gurhan,$$eauthor.
000751924 24510 $$aRemote powering and data communication for implanted biomedical systems$$h[electronic resource] /$$cEnver Gurhan Kilinc, Catherine Dehollain, Franco Maloberti.
000751924 264_1 $$aCham :$$bSpringer,$$c[2016]
000751924 264_4 $$c©2016
000751924 300__ $$a1 online resource (x, 146 pages) :$$bcolor illustrations.
000751924 336__ $$atext$$btxt$$2rdacontent
000751924 337__ $$acomputer$$bc$$2rdamedia
000751924 338__ $$aonline resource$$bcr$$2rdacarrier
000751924 4901_ $$aAnalog circuits and signal processing,$$x1872-082X ;$$v131
000751924 504__ $$aIncludes bibliographical references.
000751924 5050_ $$aPreface; Contents; 1 Introduction; 1.1 Implanted Bio-devices; 1.2 Present and Future; 1.2.1 Rodents in Research; 1.2.2 Modelling Biomedical Systems; 1.3 Integrated Biomedical Systems; 1.4 Reach of Care Extension; 1.5 Motivation and Background; References; 2 Implantable Monitoring System for Rodents; 2.1 Bio-monitoring Systems; 2.2 System Overview and Specifications; 2.2.1 Rodents and Housing; 2.2.2 Multi-sensor Systems; 2.3 State of the Art; 2.4 Challenges and Objectives; References; 3 Short-Range Remote Powering of Implantable Sensor System; 3.1 Power Sources for Remotely Powered Systems.
000751924 5058_ $$a3.1.1 Use of Kinetic Energy3.1.2 Use of Thermal Energy; 3.1.3 Use of Light Energy; 3.1.4 Use of Bio-fuel; 3.1.5 Use of Radio Frequency; 3.1.6 Use of Ultrasound; 3.2 Wireless Power Transfer; 3.2.1 Remote Powering Link; 3.2.1.1 Optimization of Remote Powering Link; 3.2.1.2 Misalignment Analysis; 3.2.1.3 Optimal Power Transfer Frequency; 3.2.1.4 Optimized Remote Powering Link for Freely Moving Animals; 3.2.2 Link Drivers; 3.2.2.1 Modeling of Remote Powering Link; 3.2.2.2 Class-C Power Amplifier; 3.2.2.3 Class-D Power Amplifier; 3.2.2.4 Comparison of Class-C and Class-D Amplifiers.
000751924 5058_ $$a3.2.2.5 Class-E Power Amplifier3.3 Implantable Remote Powering Electronics; 3.3.1 Rectifier; 3.3.2 Voltage Regulator; 3.3.3 Reference Voltage Generation; 3.3.4 Power on Reset; 3.3.5 Dynamic Power Adaptation and Power Feedback Loop; References; 4 Wireless Communication; 4.1 Communication Scenarios; 4.2 A FoM to Compare the Effect of Communications on Remotely Powered Systems; 4.2.1 Remote Powering; 4.2.1.1 Power Consumption; 4.2.1.2 Link Parameters (Q, k, fo); 4.2.2 Communication; 4.2.2.1 Modulation Methods; 4.2.2.2 Communication Parameters (fc, DRmax, Dsend, BER).
000751924 5058_ $$a4.2.3 Powering During Communication4.2.3.1 Communication Rate (CR); 4.2.3.2 Modulation Rate (MR); 4.2.3.3 Powering Index (pi); 4.2.4 Figure-of-Merit; 4.3 Downlink Communication; 4.3.1 ASK Demodulator; 4.3.1.1 PPM Demodulator; 4.4 Uplink Communication; 4.4.1 Low-Power OOK Transmitter; 4.4.2 Custom Designed Receiver; References; 5 Intelligent Remote Powering System; 5.1 Introduction; 5.2 Intelligent Mouse Cage for Remotely Powered Implantable Systems; 5.2.1 Controller Unit; 5.2.2 Realization and Verification; 5.3 Servo-Controlled Remote Powering and Monitoring System.
000751924 5058_ $$a5.3.1 Realization and Verification5.3.2 Discussion; References; 6 System Integration and Packaging; 6.1 System Integration; 6.2 Packaging and Assembly of Micro-system; References; 7 Conclusion; 7.1 Outlook; Appendix A Locator System for Implantable Devices; Glossary.
000751924 506__ $$aAccess limited to authorized users.
000751924 520__ $$aThis book describes new circuits and systems for implantable biomedical applications and explains the design of a batteryless, remotely-powered implantable micro-system, designed for long-term patient monitoring. Following new trends in implantable biomedical applications, the authors demonstrate a system which is capable of efficient, remote powering and reliable data communication. Novel architecture and design methodologies are used to transfer power with a low-power, optimized inductive link and data is transmitted by a reliable communication link. Additionally, an electro-mechanical solution is presented for tracking and monitoring the implantable system, while the patient is mobile. · Describes practical example of an implantable batteryless biomedical system; · Analyzes and compares various energy harvesting and power transfer methods; · Describes design of remote powering link and data communication of the implantable system, comparing different scenarios for the optimal solution.
000751924 588__ $$aOnline resource; title from PDF title page (viewed September 25, 2015).
000751924 650_0 $$aImplants, Artificial.
000751924 7001_ $$aDehollain, Catherine,$$eauthor.
000751924 7001_ $$aMaloberti, F.$$q(Franco),$$eauthor.
000751924 77608 $$iPrint version:$$aGurhan Kilinc, Enver.$$tRemote Powering and Data Communication for Implanted Biomedical Systems.$$dCham : Springer International Publishing, ©2015$$z9783319211787
000751924 830_0 $$aAnalog circuits and signal processing series ;$$v131.
000751924 852__ $$bebk
000751924 85640 $$3SpringerLink$$uhttps://univsouthin.idm.oclc.org/login?url=http://link.springer.com/10.1007/978-3-319-21179-4$$zOnline Access$$91397441.1
000751924 909CO $$ooai:library.usi.edu:751924$$pGLOBAL_SET
000751924 980__ $$aEBOOK
000751924 980__ $$aBIB
000751924 982__ $$aEbook
000751924 983__ $$aOnline
000751924 994__ $$a92$$bISE