TITLE

Building safer Lilon batteries

AUTHOR(S)
Saidi, M.Y.
PUB. DATE
August 2004
SOURCE
Portable Design;Aug2004, Vol. 10 Issue 8, p16
SOURCE TYPE
Periodical
DOC. TYPE
Article
ABSTRACT
Discusses the potential of Lilon batteries as an intrinsically safe cathode material for small and large applications platforms. Fundamental properties of Lilon iron phosphate; Resiliency to oxygen loss.
ACCESSION #
14151982

 

Related Articles

  • Rechargeable Batteries Taking Control: Study. Malester, Jeff // TWICE: This Week in Consumer Electronics;9/20/2003, Vol. 18 Issue 20, p36 

    Reports on the market for rechargeable batteries as of September 2003. Forecast on the sales of rechargeable batteries in the U.S.; Factors influencing the demand for rechargeable batteries; Outlook on the sales of lithium cells. INSET: Panasonic Debuts Rechargeable Battery System.

  • Lithium-Ion Battery System Upgrades Require Power-Management Analysis.  // Electronic Design;12/15/2006, Vol. 54 Issue 28, p52 

    The article examines the feasibility of upgrading older technologies to Lithium-ion battery systems. The author offers important tips that would help in the upgrading process. Among the factors considered for the upgrade are temperature changes, discharge profiles, charging regimens, expected...

  • IFD: HIGHLIGHTS. Tichy, Robin Sarah // Electronic Design;12/15/2006, Vol. 54 Issue 28, p52 

    The author provides information about lithium ion batteries. Li-ion offers advantages over other rechargeable chemistries including higher energy density, lighter weight, longer life cycle, superior capacity retention, broader ambient-temperature endurance, and higher current tolerance. It also...

  • Fast Estimation of State of Charge for Lithium-Ion Batteries. Shing-Lih Wu; Hung-Cheng Chen; Shuo-Rong Chou // Energies (19961073);May2014, Vol. 7 Issue 5, p3438 

    This paper presents a novel impedance-based approach to efficiently estimate the state of charge (SOC) of a Li-ion battery. By using an AC impedance analyzer, a database is constructed, containing records of AC impedance versus SOC. In practical applications, the SOC values can be found...

  • Storage characteristics of LiNi0.85Co0.15O2 in air as cathode material for lithium-ion batteries. Zhu, X.; Chen, H.; Zhan, H.; Yang, D.; Zhou, Y. // Journal of Materials Science;Jun2005, Vol. 40 Issue 11, p2995 

    Describes the storage characteristics of LiNi0.85Co0.15O2 in air as cathode material for lithium-ion batteries. Factor influencing the performance of lithium-ion batteries; Identification of a powder sample; Performance of morphological observations; Analysis of the phases occurring in the...

  • IEE sets Li-ion standards for mobile phones.  // Electronics Weekly;5/3/2006, Issue 2239, p4 

    The article reports that Institute of Electrical and Electronics Engineers Inc., has set lithium-ion battery standard for mobile phones. The standard was developed by companies that manufacture battery cells, battery packs and mobile phones. It aims to give the industry uniform criteria for...

  • Employ the proper serial and parallel battery configurations. Buchmann, Isidor // Portable Design;Apr2005, Vol. 11 Issue 4, p20 

    Battery packs get their desired operating voltage by connecting several cells in series. If higher capacity and current handling are required, the cells are connected in parallel. Some packs have a combination of serial and parallel connections. A laptop battery may have four 3.6-V Lilon cells...

  • Choosing the right batteries. Yates, Darren // Australian PC User;Oct2006, Vol. 18 Issue 10, p84 

    The article discusses how to make camera batteries last. If a new digital camera is one of those ultra-compact types that use a proprietary Lithium Ion rechargeable, then it is strongly recommended getting a second battery. To charge a 2,000mAh NiMH cell, users actually need to put in 3,000mAh.

  • ALL ABOUT THE BATTERIES.  // PS: Preventive Maintenance Monthly;Feb2005, Issue 627, p40 

    The article presents information on the preventive maintenance of the batteries and battery compartment on the AN/CYZ-10 data transfer device (DTD). The article urges on the application of the right batteries. The DTD uses three 3-volt lithium batteries, BA-5123/U, NSN 6135-01- 351-1131. Before...

Share

Read the Article

Courtesy of THE LIBRARY OF VIRGINIA

Sorry, but this item is not currently available from your library.

Try another library?
Sign out of this library

Other Topics