Onboarding - MSXV
- Eric Zhao
- Katharine Laughton
- Kostubh Agarwal
Fall 2023 Onboard - timeline
To get everyone started on the battery box team, it would be good to go through the basics of designing a simple battery pack. This exercise will help you understand what you are contributing to this term!
You’ll start by reading up on some of the battery pack details and manufacturing methods, and then move to design a simple pack to understand how to put everything together and then provide a recommendation for a battery pack for a car similar to MSXV.
This is the exact same process that we go through when starting to design a new pack for the car (or any battery pack for that matter) - so this is all the required knowledge for building battery packs.
This project can be completed largely offline in your own time, but there will be discussions during check-ins and feel free to ask questions on Slack at other times! There is quite a bit of reading in this intro and you’ll come across a lot of words you might not know. But fear not! As an engineer, you’ll 100% be in this situation basically always. Although difficult, you’ll probably learn the most in these situations too! So, don’t be discouraged, search up words you don’t know, and if all else fails skip sections and you’ll likely come back to it later with the information needed to understand it!
Google is your friend and so is this Confluence, search up what term/system/whatever you are confused about on either one and you will find your answer 99.9% of the time
Table of Contents
Onboarding Project
Step 1
Read through these PDFs about designing and building a battery pack. These compile a ton of information - don’t be scared to read them, but be sure to spend the time to understand them. If you have any questions, then message the #mech-battery-box channel on slack and someone will get back to you!
If you have no idea how batteries work, watch this:
How Batteries Work - Battery electricity working principle
If you have no experience with circuits, voltage or current, watch these:
Voltage Explained - What is Voltage? Basic electricity potential difference
What is CURRENT– electric current explained, electricity basics
Battery 101 (Optional but helpful!)
Hardware Week 5 - Batteries Introduction
Start off with reading these: (These are really great!)
Part 1: https://www.electricbike.com/introduction-battery-design-1/
Part 2: https://www.electricbike.com/introduction-battery-design-2/
Part 3 (Optional): https://www.electricbike.com/introduction-to-battery-pack-design-and-building-part-3/
Here is a Video explaining basic electrical calculations (Hint: these calculations will be used in the exercise):
Electricity Explained: Volts, Amps, Watts, Fuse Sizing, Wire Gauge, AC/DC, Solar Power and more!
Step 2
We’ll start with a simple pack - here are some of the specs that we want for this project:
Item | Spec | Notes |
|---|---|---|
Amount of Energy Stored in pack | 100Wh minimum | We also want minimum weight while meeting this criteria. Minimum weight is a hard requirement (must be met). |
Cell Nominal Voltage | 3.635V |
|
Cell Nominal Capacity | 3450mAh |
|
Operating Voltage | 6-18V | Must stay in this range for the entire discharge. At any charge state (from fully charged to fully discharged, the pack voltage should be more than 6V and less than 18V). |
Single Cell Min, Max Voltage | 2.5V, 4.2V | At the full charge and full discharge limits |
What do you recommend for the number of cells in series and parallel, and why did you choose those numbers - we’re looking for an answer in the form of XPYS, where X is the number of cells in parallel and Y is the number of cells in series, along with a justification.
Step 3
Draw a sketch of the cell plate holders (what will hold the batteries in place to make the connections, see below for an example) you would 3D model for your answer, a simple design will work. This will help you on the working session on the 16th when we design cell plate holders together on SOLIDWORKS
We will be holding a tutorial session on Sept. 16th @ 1:30PM to work through Steps 2 & 3 but we encourage everyone to try on their own first. You will need to answer question 4 on your own so give it your best shot and don’t be scared to reach out for help!
Step 4
Now that you should know how to design a battery pack, we’ll get you to run through the process of choosing a battery configuration for a car, given the following parameters (chosen to loosely represent Midnight Sun XIV):
Car Specs:
Item | Spec | Notes |
|---|---|---|
Race Distance | 3000km |
|
Car Average Velocity | 60km/h | Assume average velocity for the entire duration of the race, and that the path is flat. |
Power Consumed travelling at Average Velocity | 1005W | Per Motor |
Peak Motor Power | 5000W | Max power that the motors will draw (per motor) |
Number of Motors | 2 | Motors on each of the 2 rear wheels |
Motor Controller Min, Max Voltage | 50V, 165V |
|
Single Cell Min, Max Voltage | 2.5V, 4.2V | At the full charge and full discharge limits |
Nominal Cell Voltage | 3.635V | Average voltage of a cell over the full discharge curve |
Single Cell Capacity | 3450mAh | Assume all cells are perfectly balanced |
Max Discharge Current of Single Cell | 10A |
|
Solar Power Input | 800W | Assume the sun is always shining for the entire duration of the race |
What do you recommend for the number of cells in series and parallel, and why did you choose those numbers - we’re looking for an answer in the form of XPYS, where X is the number of cells in parallel and Y is the number of cells in series, along with a justification.
Step 5
Submit your answer to @Donna Kim , @Shem Kim or @Nicole Choe through Slack and then we can discuss some more in detail about your answer. We’ll make sure that you understand what you will be contributing to this term!
Extra Info