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Remote Powering and Data Communication for Implanted Biomedical Systems 1st ed. 2016 [Kõva köide]

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  • Formaat: Hardback, 146 pages, kõrgus x laius: 235x155 mm, kaal: 3895 g, X, 146 p., 1 Hardback
  • Sari: Analog Circuits and Signal Processing 131
  • Ilmumisaeg: 28-Sep-2015
  • Kirjastus: Springer International Publishing AG
  • ISBN-10: 3319211781
  • ISBN-13: 9783319211787
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Remote Powering and Data Communication for Implanted Biomedical Systems 1st ed. 2016Suurem pilt
  • Formaat: Hardback, 146 pages, kõrgus x laius: 235x155 mm, kaal: 3895 g, X, 146 p., 1 Hardback
  • Sari: Analog Circuits and Signal Processing 131
  • Ilmumisaeg: 28-Sep-2015
  • Kirjastus: Springer International Publishing AG
  • ISBN-10: 3319211781
  • ISBN-13: 9783319211787
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9783319211787.html
Märksõnad:
This 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.

Introduction.- Remote Powering.- Magnetic power transfer.- Power management.- Data Communication.- Implantable Monitor Systems.- System Integration and Packaging.
1 Introduction
1(12)
1.1 Implanted Bio-devices
1(1)
1.2 Present and Future
2(4)
1.2.1 Rodents in Research
4(1)
1.2.2 Modelling Biomedical Systems
5(1)
1.3 Integrated Biomedical Systems
6(1)
1.4 Reach of Care Extension
6(3)
1.5 Motivation and Background
9(4)
References
10(3)
2 Implantable Monitoring System for Rodents
13(12)
2.1 Bio-monitoring Systems
13(1)
2.2 System Overview and Specifications
13(4)
2.2.1 Rodents and Housing
14(1)
2.2.2 Multi-sensor Systems
15(2)
2.3 State of the Art
17(2)
2.4 Challenges and Objectives
19(6)
References
21(4)
3 Short-Range Remote Powering of Implantable Sensor System
25(52)
3.1 Power Sources for Remotely Powered Systems
25(7)
3.1.1 Use of Kinetic Energy
25(3)
3.1.2 Use of Thermal Energy
28(1)
3.1.3 Use of Light Energy
29(1)
3.1.4 Use of Bio-fuel
29(1)
3.1.5 Use of Radio Frequency
29(2)
3.1.6 Use of Ultrasound
31(1)
3.2 Wireless Power Transfer
32(23)
3.2.1 Remote Powering Link
32(10)
3.2.2 Link Drivers
42(13)
3.3 Implantable Remote Powering Electronics
55(22)
3.3.1 Rectifier
55(4)
3.3.2 Voltage Regulator
59(5)
3.3.3 Reference Voltage Generation
64(1)
3.3.4 Power on Reset
65(2)
3.3.5 Dynamic Power Adaptation and Power Feedback Loop
67(6)
References
73(4)
4 Wireless Communication
77(28)
4.1 Communication Scenarios
77(1)
4.2 A FoM to Compare the Effect of Communications on Remotely Powered Systems
78(11)
4.2.1 Remote Powering
79(1)
4.2.2 Communication
80(3)
4.2.3 Powering During Communication
83(3)
4.2.4 Figure--of--Merit
86(3)
4.3 Downlink Communication
89(7)
4.3.1 ASK Demodulator
89(7)
4.4 Uplink Communication
96(9)
4.4.1 Low-Power OOK Transmitter
96(4)
4.4.2 Custom Designed Receiver
100(2)
References
102(3)
5 Intelligent Remote Powering System
105(24)
5.1 Introduction
105(1)
5.2 Intelligent Mouse Cage for Remotely Powered Implantable Systems
106(7)
5.2.1 Controller Unit
109(1)
5.2.2 Realization and Verification
110(3)
5.3 Servo-Controlled Remote Powering and Monitoring System
113(16)
5.3.1 Realization and Verification
117(7)
5.3.2 Discussion
124(2)
References
126(3)
6 System Integration and Packaging
129(8)
6.1 System Integration
129(1)
6.2 Packaging and Assembly of Micro-system
130(7)
References
134(3)
7 Conclusion
137(4)
7.1 Outlook
140(1)
A Locator System for Implantable Devices 141(4)
Glossary 145