nov. 2008 slide doc: ieee 802.15-08-0733-00-0ban kibum, yangmoon, sunghyup (korpa) 1 project: ieee...
TRANSCRIPT
Nov. 2008
Slide
Doc: IEEE 802.15-08-0733-00-0ban
KiBum, YangMoon, SungHyup (KORPA)1
Project: IEEE P802.15 Working Group for Wireless Body Area Networks Project: IEEE P802.15 Working Group for Wireless Body Area Networks (WBANs)(WBANs)
Submission Title: [Wireless power transmission for the Implant Devices]Date Submitted: [Nov. 2008]Source: [KiBum Kwon, YangMoon Yoon and SungHyup Lee]
Company [KORPA (Korea Radio Promotion Agency)]Voice: [+82 2 2142 2484]E-Mail: [[email protected]]
Re: []Abstract: [This document presents considerations of wireless power transmission for the
Implant Devices]Notice: This document has been prepared to assist the IEEE P802.15. It is offered as a
basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein.
Release: The contributor acknowledges and accepts that this contribution becomes the property of IEEE and may be made publicly available by P802.15.
Nov. 2008
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Doc: IEEE 802.15-08-0733-00-0ban
KiBum, YangMoon, SungHyup (KORPA)2
Wireless Power Transmission for the Implant Devices
KiBum Kwon, YangMoon Yoon, SungHyup Lee KORPA (Korea Radio Promotion Agency)
Nov. 2008
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Doc: IEEE 802.15-08-0733-00-0ban
KiBum, YangMoon, SungHyup (KORPA)3
Purpose and Contents
• This document presents considerations of wireless power transmission for the Implant Devices
• Contents– Energy Limitation of Implant Devices– Advantages of Wireless Power Transmission– How to work the Wireless Power Transmission?– Examples of Wireless Power Transmission
System– Considerations of TG 6 Standardization with
Wireless Power Transmission
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Energy Limitation of Implant Devices
• It is difficult to change and charge the implant device’s battery rather than that of out-body device.
• The life time of implant device for WBAN depends on the battery capacity.Since shape and size of battery is constraint.
E.g.) Capsule Endoscope
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Advantages of Wireless Power Transmission
• We can extend the lifetime of implant device and be free to the power-constrained characteristics.
• We can reduce the battery size in manufacturing the implant device. So, minimizing the device size
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How to work the Wireless Power Transmission?[1]
① Power from mains to antenna, which is made of copper ② Antenna resonates at a frequency of about 10MHz, producing electromagnetic
waves (e.g.)③ 'Tails' of energy from antenna 'tunnel' up to 2m (e.g.)④ Electricity picked up by laptop's antenna, which must also be resonating at
10MHz. Energy used to re-charge device⑤ Energy not transferred to laptop re-absorbed by source antenna. People/other
objects not affected as not resonating at 10MHz
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Example of Wireless Power Transmission System (1/4)
• Intel Demonstration of Wireless Power Transmission
Technique “Wireless Energy Resonant Link” Above technique uses magnetic field without electric
field, since magnetic field do not affect to human body
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• Artificial Heart• Transcutaneous Energy Transmission System (TETS)
[2]• AbioCor System (ABIOMED)
Example of Wireless Power Transmission System (2/4)
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Example of Wireless Power Transmission System (3/4)
• Artificial Retina• Development of artificial retina prototyped a
system that can wirelessly supply power from an external source to an LSI in an artificial retina implanted in the eyeball. (TOHOKU University)
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Example of Wireless Power Transmission System (4/4)
• Capsule Endoscope©RF system ‘Sayaka’ (Japan)
Battery-free endoscopic capsule
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Considerations of TG 6 Standardization with Wireless Power Transmission
• Main Considerations for StandardizationArchitecture of Wireless Power Transmission
for WBAN
Selection of Frequency for Wireless Power TransmissionInterferenceEfficiency of Power Transmission
SafetyAffect to tissues in body
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Thank you for your attention!
Q & A.
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Reference
• [1] http://news.bbc.co.uk/2/hi/technology/6725955.stm
• [2] M.Watada et al., “The development of core-type Transcutaneous Energy Transmission System for artificial heart.” Proce. of the 2005 IEEE Eng. Med. and Biol., Sept. 2005.