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DRAFT
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DescriptionKeeps our battery pack safe
Target releaseMSXII
Epic
Document status
Status
title

Jira Legacy
serverJIRA (uwmidsun.atlassian.net)
columnskey,summary,type,created,updated,due,assignee,reporter,priority,status,resolution
serverId6df7ba0d-c6df-39f5-b19f-bb96d235af5f
keyELEC-49

Document owner

Karl Ding

Designer
Project leads

Karl Ding

Developers

Karl Ding

QA

Karl Ding

Goals

, Titus Chow

Team members


Goals

  • Design a matched battery pack that consists of balanced Li-ion cells
  • Design a battery pack and enclosure that provides adequate cooling for the Li-ion cells
    • Design mechanically isolated modules that can be removed
  • Determine how the pack will be mounted to the car to minimize or dampen vibrations

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  • Design a BMS that is robust to electrical noise found from sources in and out of vehicle
  • The BMS is robust and reliable to vibration, elements, and users
  • The BMS provides test points for scrutineering
  • The BMS is calibrated appropriately
  • Provides at least the minimal active protection requirements for the Li-ion battery pack
    • Over-voltage
    • Under-voltage
    • Over-temperature
    • Over-current

Background and strategic fit

Battery Pack

The Battery Pack in MSXI consisted of Panasonic NCR18650 Li-ion cells that provided 120 V to our electrical systems. From a high-level perspective, the pack is charged by the solar array, which in turn, provides the power necessary for the car to move. These cells must be pre-approved by race officials. This will consist of a pack built from the 18650 (18mm by 65mm) class of Lithium-ion cells (which are similar in size to AA batteries, which are also known as the 14500 class).

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Moreover, we should take into consideration what procedures we need to have in place, in the event of a battery incident (along with items that we need to keep in stock in our battery incident kits). 

Battery Management System

The Battery Management System (BMS) is responsible for monitoring the state our Li-ion pack, ensuring that the battery is operating within its Safe Operating Area, calculating secondary data, reporting that data, and balancing it. It consists of Analog Front-End chips that allow the board to grab pack data, and then take appropriate actions.

Assumptions

Requirements

#TitleUser StoryImportanceNotes
1Matched battery packBuild a pack with balanced cellsMust Have
2CoolingDesigning a battery layout and enclosure that accounts for cooling requirementsMust Have
 

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Questions

Below is a list of questions to be addressed as a result of this requirements document:

QuestionOutcome
Are we going to run the pack at a higher voltage? Can we even run the pack at a higher voltage?
Do we want to allow extra voltage to be released to balance the pack? If so, how are we going to accomplish this?
Yes. The goal will be to reach a maximum 160V.
Are we still planning on using 18650 cells?Yes
Are we still going to use the Panasonic NCR 18650?No. We are using the LG MJ1 per testing.
How are we going to mount the pack in a way that provides shock-absorption?
What will the dimensions of the battery-box be?

Not Doing

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