
Cambridge EnerTech’s
Battery Power for Consumer Electronics
( 家電製品に対応する電池 )
可搬型機器に対応する電池の性能と安全性の向上
2019年3月27日~28日
可搬型電子機器に対応する安全かつ低コストで、エネルギー密度の高い電池を求めるメーカーの声は急激に高まっており、電池の開発に取り組んでいる企業にとって、大きなビジネスチャンスが生まれています。このカンファレンスプログラムは、スマートフォンやウェアラブルデバイス、タブレットPCやラップトップPC、医療機器、電動工具などの可搬型機器に対応する電池の技術面の新たな進歩に焦点を絞り込んだもので、先進的な電池の開発に向け新たに改良された化学技術、設計、工学技術についての詳細な分析を行うセッション、最新の充電技術や安全面の進歩などについて検討するセッションなどが予定されています。主要な研究者や機器のメーカーなど、電池開発のエコシステムに加わっているさまざまな組織の代表と人脈を構築することができるこの貴重な機会をどうぞお見逃しなく。
Final Agenda
Wednesday, March 27
1:45 Plenary Keynote Session: Organizer's Remarks
1:50 Shep Wolsky Battery Innovator Award
2:00 PANEL DISCUSSION: What Innovations/Advancements Do OEMs Need to Enable Near-Term, Large-Scale Production?
Moderator:
Celina Mikolajczak, Director of Engineering, Energy Storage Systems, Uber
Panelists:
Mohamed Alamgir, PhD, Research Director, LG Chem
Micheal Austin, Vice President, BYD US Operations (BYD America-IT, BYD Motors, BYD Energy)
Craig Rigby, Vice President Technology, Power Solutions, Johnson Controls
Bob Taenaka, Technical Specialist, Battery System Development, Ford Motor Company
What do OEMs need for near term, large-scale innovation? Can the global battery R&D community deliver on what advancements OEMs need for large-scale production? Our distinguished panel will discuss what they need to innovate and what they anticipate their future requirements will be. In addition, our panelists will discuss what innovation can be achieved to meet the OEMs requirements.
2:55 Refreshment Break in the Exhibit Hall with Poster Viewing
自動車メーカー向け製品主導の開発
3:40 Organizer’s Opening Remarks
Craig Wohlers, Executive Director, Conferences, Cambridge EnerTech
3:45 Chairperson’s Remarks
Brian Barnett, President, Battery Perspectives
3:50 Requirement and Forecast of Li-Ion Battery for Portable Home Appliances
Chia-Ying Lee, PhD, Principal Battery Engineer, SharkNinja
With suitable battery designs to electrify home appliances, new categories of Li-ion battery applications are emerging. However, there are still design challenges that need to be solved by both the battery and appliance companies. To address that, two topics will be discussed during this presentation: 1) The latest development status and battery requirements for cordless vacuums 2) Trend forecasting of Li-ion battery in future home appliances.
4:20 Battery Innovation Driving Consumer Experience
Rick Thompson, Chief Battery Technologist, Dell Technologies
Expectations for mobile electronics continue to evolve. Battery will remain a core piece of the customer experience. This talk will address components of “worry free” mobile power, device level battery management, and product opportunities for advanced battery technology.
4:50 Next Generation Battery Management Using AI for Consumer Devices
Jeremy Carlson, Battery Technology Engineer, Lenovo
As battery energy density continues to increase in consumer devices, the need for individualized battery management becomes increasingly necessary. Rather than a one-size-fits-all approach, cloud-based or local AI can deliver an individualized battery experience based on the user’s habits. This methodology can be used to increase battery performance and longevity as well as the best user experience for the customer.
5:20 Dinner Tutorial Registration*
5:45 – 7:45 Dinner Tutorial*
7:45 Close of Day
Thursday, March 28
7:30 am Registration Open
7:45 Interactive Breakout Discussion Groups with Continental Breakfast (See website for details.)
8:45 Session Break
自動車メーカー向け製品主導の開発
9:00 Chairperson’s Remarks
Bill von Novak, Principal Engineer, Qualcomm
9:05 Advancement in Power Battery Technology for Consumer Markets
Mattias Simonsson, Channel Manager, Stanley, Black and Decker
The ever increasing need for longer run time and more power keeps pushing the envelope for what can be accomplished with battery technology. A combination of cell construction changes, advancements in chemistry and innovation in battery pack design is enabling batteries to do what previously could only be done with power cords or gasoline combustion engines.
9:35 Introduction to Medtronic 2nd Generation Rechargeable Battery Technology
Hui Ye, PhD, Senior Principal Scientist, Medtronic
Medtronic’s 2nd gen rechargeable Li ion battery Overdrive, released with the Intellis spinal cord stimulators, offers many breakthrough patient-friendly attributes. Overdrive allows recharge from empty to full in less than one hour and offers less than 5% capacity fade after continuous 9 years of operation under most demanding use conditions. This presentation will discuss the design philosophy of Overdrive battery chemistry, and the strategy to test and predict its performance over time.
10:05 Sponsored Presentation (Opportunity Available)
10:35 Coffee Break in the Exhibit Hall with Poster Viewing
次世代家電製品の応用分野における革新的な技術と設計
11:20 Studying Lithium Ion Battery Behavior to Deliver Better User Experience
Kamal Shah, Director, Platform Architecture Management Client Computing Group, Intel Corp; Chairman, Mobile PC Extended Battery Life Working Group, EBLWG
Mobile devices such as smartphone, laptops, etc. are an integral part of our modern lives. Delivering better user experiences require holistic approach which includes comprehending the battery’s ability to support improved user experiences. This presentation discusses motivation to understand battery behavior to support better user experiences, results of some of the experiments on batteries ability to supply power needed, as well as wear out impact and results of experiments based on revised discharge profiles.
11:50 Adaption of System Design to High Voltage Li-Ion Battery Technology
Jeff Bruce, Director, Battery Technologies, Microsoft
With the continued development and implementation of high voltage chemistries (e.g., above 4.2V), the consumer electronics industry faces new challenges from rapid gas generation and cell swelling. In the era of high-voltage chemistries, many factors could have visible impact on battery degradations, including capacity fading and cell swelling. Here, we discuss cause and effect, some methods of mitigation through system design, and the role that the end user can have in mitigating or prevention of accelerated degradation.
12:20 pm Charging Lithium Ion Batteries with Qualcomm Quickcharge
Bill von Novak, Principal Engineer, Qualcomm
Rapid charging of lithium ion batteries has recently become possible due to changes in battery design allowing greater than 1C charge rates. However, rapid charging requires sufficient power to achieve those greater than 1C rates – and often charge current is limited by connector design and wire-gauge limitations in charging accessories. This talk will describe how to use Qualcomm’s Quickcharge technologies to overcome these limitations and allow very high charge rates with standard device connectors.
12:50 Walking Luncheon in the Exhibit Hall with Poster Viewing or Plated Luncheon in the Exhibit Hall Foyer (Sponsorship Opportunity Available)
1:50 Dessert Break in the Exhibit Hall with Poster Viewing
次世代家電製品の応用分野における革新的な技術と設計
2:20 Chairperson’s Remarks
Kamal Shah, Director, Platform Architecture Management Client Computing Group, Intel Corp; Chairman, Mobile PC Extended Battery Life Working Group, EBLWG
2:25 The Next-Generation Lithium-Ion Battery: 3D Cell Architecture Increases Energy Density and Improves Safety for Consumer Devices
Jerry Hallmark, Senior Director, Engineering, Enovix
There is an inherent conflict between energy density and safety in conventional Li-ion battery structure, so that improving one usually adversely affects the other. Enovix Corporation has developed a Li-ion battery with 3D cell architecture that improves spatial efficiency, accommodates a high-capacity silicon anode, and reduces the risk of thermal runaway. This significantly increases energy density and improves safety. Enovix will describe its patented 3D cell design and its low-cost, high-volume production process.
2:55 Life-Enhancing Advancements in Batteries for Implantable Medical Devices
Robert Rubino, Director, R&D, Greatbatch Medical, Integer
Active implantable medical devices, such as pacemakers, have been successfully powered by implanted batteries for 60 years. The success of the pacemaker has fueled the development of multiple other types of devices such as defibrillators, sensors, and neurostimulators. In order to enable and improve these life-enhancing devices, power technologies have evolved to provide reliable and improved output resulting in more patient-friendly devices with enhanced functionality.
3:25 Optical Sensing of Battery Faults
Jon Cartlidge, Commercial Manager, Consumer and Industrial Products, Battelle
In this talk, we will discuss the competing requirements for selecting waveguide materials that meet battery and optical requirements, designing devices for sufficient light transmission, and results from a series of tests. Implications for design in operating commercial scale batteries will be discussed, including design revisions to leverage low-cost components available from the telecommunications and medical device industries.
3:55 Wearables – Differences in Evaluating Cell Quality When Downsizing Capacity
Alexandra Emly, PhD, Manager, Exponent
Lithium-ion batteries are gaining a stronghold in the wearables market for their energy density and light weight. Although the lower energy also correlates with potentially less catastrophic failures, lower energy also means that out-of-the-box tests used for evaluating safety of larger lithium-ion cells don’t work well in accurately evaluating cell safety. This talk will discuss differences to consider when sourcing and vetting small lithium-ion cells.
4:25 Networking Refreshment Break
4:40 Closing Plenary Keynote Session: Organizer's Remarks
4:40 - 5:40pm PANEL DISCUSSION: Solving the Innovation Barrier for Production of Improved Li-Ion
Moderator:
Brian Barnett, President, Battery Perspectives
Panelists:
Michael Fetcenko, Director, Global Licensing, BASF Battery Materials, BASF
Tobias Glossman, Senior Engineer, Mercedes-Benz Research and Development North America
Bruce Miller, Technology Strategist, Dell
Donald R. Sadoway, PhD, John F. Elliott Professor of Materials Chemistry, Department of Materials Science and Engineering, Massachusetts Institute of Technology
Paul Schiffbanker, Product Manager Battery Systems, AVL
Demands for improved lithium-ion are increasing even while markets are expanding dramatically amidst relentless cost reduction pressures. New materials, components and technologies are required, and an unprecedented level of R&D is responding. Battery manufacturers and their suppliers face enormous engineering and investment challenges ramping up production. One consequence is a major innovation barrier: long multi-year qualification periods and technologies “frozen” for manufacturing. This culture requires screening of new technologies in complete cells. Most innovators do not make cells or know how to demonstrate realistic cell-level performance. This panel of experts will examine these challenges and consider approaches to unblock innovation.
5:45 Close of Conference
* 不測の事態により、事前の予告なしにプログラムが変更される場合があります。
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2019年のストリームとカンファレンスプログラム
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