A123 Systems ANR26650M1-B manuals
ANR26650M1-B
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Preface
- How to Use this Guide
- Related Documents and Resources
- Possible Dangers Involved With Handling Cells and Battery Packs
- Thermal Events
- Transportation, Storage and Disposal
- Transporting Batteries
- Table 2 – Steps required to transport a lithium ion battery
- Table 3 – Nominal energy and ELC of A123 cells
- Table 4 – US transportation classification of cells
- Table 6 – International transportation classification of cells
- Table 8 – International Air Transport Association (IATA) packaging and quantity restrictions (PI-965)
- Table 9 – International Air Transport Association (IATA) packaging and quantity restrictions (PI-966 & PI-967)
- Storing Batteries
- Nanophosphate Technology
- Power
- Figure 2 – AMP20 cells discharge curves at various temperatures
- Safety
- Life
- Battery Pack Design
- Design Overview
- Configuration of Cells in a Battery Pack
- Figure 5 – Example of AMP20 cells connected in series
- Figure 6 – Example of AMP20 cells connected in parallel
- Battery Pack Structural Design
- Figure 7 – Effect of AMP20 cell life with respect to surface pressure
- Figure 8 – AMP20 cell thickness variation wrt SOC for three representative AMP20 cells
- Figure 9 – Graph of the pressure vs. deflection of an example compliant pad for AMP20 Cells
- Figure 10 – Pressure on AMP20 cell face without compliant pad (left) and with compliant pad (right)
- Figure 12 – AMP20 cell corner that will vent under extreme internal pressure
- Figure 14 – APR18650 cell vents
- Figure 15 – Diagram of optional AMP20 cell cooling concept
- Cell Protection
- Figure 17 – Example AMP20 cell fuse pattern in cell terminals
- Figure 19 – Example of total system fusing strategy
- Figure 20 – Battery pack with representative short circuit faults
- Battery Pack Control (Monitoring and Management)
- Table 10 – Example of histogram data of temperature ranges and durations
- Figure 21 – AMP20 cell voltage vs. SOC at 23 °C
- Figure 23 – AMP20 cell temperature effects on OCV with respect to (wrt) SOC
- Figure 24 – AMP20 cell 60s, 20A DCR measurements wrt SOC at various temperatures
- Battery Pack Use
- Figure 25 – Battery voltage and current during recharge
- Figure 26 – AMP20 cell* capacity degradation vs. time for various recharge rates
- Summary of Battery Pack Validation
- Performance Testing
- Abuse Testing
- Compliance Testing
- Battery Pack Assembly
- Cell Welding
- Figure 28 – Two types of bus bars ultrasonically bonded in the center to each other
- Appendix A
- AMP20M1HD-A
- Table 16 – AMP20M1HD-A Max continuous charge currents wrt temperature and SOC
- Figure 30 – AMP20M1HD-A cell dimensions
- Figure 31 – Notes for AMP20M1HD-A cell dimensions drawing
- ANR26650M1-B
- Figure 32 – ANR26650M1-B cell diagram and dimensions
- APR18650M1-A
- Figure 33 – APR18650M1-A cell diagram and dimensions
- AHR32113M1Ultra-B
- Table 31 – AHR32113M1Ultra-B Max continuous charge currents wrt temperature and SOC
- Figure 34 – AHR32113M1Ultra-B cell diagram and dimensions
- Appendix B
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