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FAA - FO N 8900.344 - TRANSPORTATION OF LITHIUM ION AND LITHIUM ION POLYMER BATTERIES AS CARGO Organization: FAA
Date: 2016-02-09
Description: This notice provides guidance to principal inspectors (PI) and Hazardous Materials Safety Inspectors (HSI) on surveillance requirements of operational procedures for the carriage of lithium ion and lithium ion polymer batteries as cargo on aircraft.
NAVY - MIL-PRF-29595A (1) - BATTERIES AND CELLS, LITHIUM, RECHARGEABLE, AIRCRAFT, GENERAL SPECIFICATION FOR Organization: NAVY
Date: 2016-10-24
Description: This specification covers the general requirements for secondary (rechargeable) storage batteries of lithium electrochemistry including, but not limited to, lithium-ion, gelpolymer lithium-ion, and lithium polymer The storage batteries covered by this specification are used in fixed-wing and rotary-wing military aircraft.
SAE/TP - 2006-01-3099 - 3.2 KWH BATTERY PACK USING 18 ARMY STANDARD LITHIUM ION RECHARGEABLE BATTERIES Organization: SAE/TP
Date: 2006-11-07
Description: Based the test result, the battery technology use here included polymer and state of art of commercial lithium ion cells can meet the NLOS requirement even at -40C temperature requirement if background load is 10 watts, it will lasted approximate 14 days at -40C.
SAE/TP - 2006-01-3083 - RECHARGEABLE LITHIUM-ION BASED BATTERIES AND THERMAL MANAGEMENT FOR AIRBORNE HIGH ENERGY ELECTRIC LASERS Organization: SAE/TP
Date: 2006-11-07
Description: Some preliminary test data on a rechargeable lithium-ion polymer battery is presented. The use of high rate rechargeable lithium-ion batteries as a function of onboard power, electric laser power level, laser duty cycle, and total mission time is presented.
ISO 17546 - SPACE SYSTEMS - LITHIUM ION BATTERY FOR SPACE VEHICLES - DESIGN AND VERIFICATION REQUIREMENTS - FIRST EDITION Organization: ISO
Date: 2016-03-01
Description: This International Standard specifies design and minimum verification requirements for lithium ion rechargeable (including lithium ion polymer) batteries for space vehicles.
IEEE 1725 - RECHARGEABLE BATTERIES FOR CELLULAR TELEPHONES Organization: IEEE
Date: 2011-05-16
Description: This standard establishes criteria for design analysis for qualification, quality, and reliability of rechargeable lithium-ion (Li-Ion) and lithium-ion polymer (Li-Ion polymer) batteries for cellular telephone applications.
UL 2580 OUTLINE - OUTLINE OF INVESTIGATION FOR BATTERIES FOR USE IN ELECTRIC VEHICLES - ISSUE 1 Organization: UL
Date: 2009-11-04
Description: These requirements cover nickel, lithium ion, and lithium ion polymer cells, cell modules, and battery packs for use in battery-powered vehicles as defined in this Outline.
IEEE 1625 - RECHARGEABLE BATTERIES FOR MULTI-CELL MOBILE COMPUTING DEVICES Organization: IEEE
Date: 2008-09-26
Description: The following are addressed: qualification process; manufacturing process control; energy capacity and demand management; levels of management and control in the battery systems; current and planned lithium-based battery chemistries, packaging technologies, and considerations for end-user notification.
NEMA - ANSI C18.2M PART 1 - FOR PORTABLE RECHARGEABLE CELLS AND BATTERIES — GENERAL AND SPECIFICATIONS Organization: NEMA
Date: 2013-01-01
Description: This publication applies to portable rechargeable, or secondary, cells and batteries1 based on the following electrochemical systems: a) Nickel-cadmium b) Nickel-metal hydride c) Lithium-ion including lithium ion polymer Section 1 of this standard contains general information and all standardized performance and mechanical tests upon which all the specifications in Section 2 are based.
MCGRAW - TEACH YOURSELF ELECTRICIT - TEACH YOURSELF ELECTRICITY AND ELECTRONICS, 6TH EDITION Organization: MCGRAW
Date: 2016-01-01
Description: Inside, you'll find all-new coverage of switching power supplies, class-D amplifiers, lithium-polymer batteries, microcontrollers, and even the Arduino electronics platform.
SAE/TP - 2010-01-1799 - AIR-LAUNCHED EXPENDABLE SMALL UNMANNED AIRCRAFT SYSTEMS: INCREASING POWER AND EXTENDING ENDURANCE TO MEET OPERATIONAL NEEDS Organization: SAE/TP
Date: 2010-11-02
Description: Today, state of the art technology for Group 1 (0-20 lbs) and Group 2 SUAS (21 - 55 lbs), provides approximately 25 - 60 minutes of endurance with conventional lithium ion / lithium polymer batteries. However, to make air-launched expendable SUAVs viable for multiple mission scenarios, technology must be developed to allow for a mission endurance of a minimum of four hours.
SAE/TP - 2011-01-2627 - CURRENT AND NEXT-GENERATION ENERGY STORAGE DEVICES FOR MICRO VEHICLE APPLICATIONS Organization: SAE/TP
Date: 2011-10-18
Description: While most commercial and developmental vehicle platforms currently utilize commercial-off-the-shelf lithium polymer batteries for their energy storage needs, endurance times are limited to minutes and high discharge rates and dynamic electrical loads limit battery life.
SAE/TP - 2010-01-1776 - INTEGRATION OF A MICROTUBULAR SOLID OXIDE FUEL CELL INTO A MINI-UAV: DESIGN AND SIMULATION OF POWER SYSTEM ARCHITECTURE Organization: SAE/TP
Date: 2010-11-02
Description: Mini UAVs in the <20kg category are widely operated by military and civilian organisations, usually for surveillance purposes, and many are electrically powered for low acoustic and infra-red observability. Despite recent improvements in Lithium Polymer battery technology, endurance is still usually limited to around 1 hour for fixed wing vehicles.
TTP - FRONTIER OF NANOSCIENCE A - FRONTIER OF NANOSCIENCE AND TECHNOLOGY II Organization: TTP
Date: 2012-09-05
Description: Researchers, engineers, academics, and industry professionals mainly from Asia present research results and development activities in nanoscience and technology, including nanoparticle manufacturing, mechanical properties, the design and fabrication, development, preparation and characterization, manufacturing processes, polymerization, nanostructure, performance, and materials engineering of various materials, such as aluminum thin films, capsaicin injectable gels, lithium-ion batteries, starch, Nifeviroc-loaded microemulsions, and nanowires.
WSPC - SOL ST IONICS - SOLID STATE IONICS: MATERIALS & DEVICES, PROCS OF THE 7TH ASIAN CONF Organization: WSPC
Date: 2000-10-27
Description: Materials and device aspects have received wide coverage, especially the areas of lithium ion batteries (LIBs) and solid oxide fuel cells (SOFCs).
SAE/TP - 2007-01-3930 - DEVELOPMENT OF A SMALL LONG ENDURANCE HYBRID PEM FUEL CELL POWERED UAV Organization: SAE/TP
Date: 2007-09-17
Description: A 150-Watt PEM fuel cell, augmented by a 60 Watt, 350-mAH lithium ion battery pack, powers an aerodynamically efficient composite airframe constructed of carbon and fiberglass.

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