Project 1 Mechanical design of battery pack

Mechanical design of battery pack

Objective:

Battery pack capacity: 18 kWh

Cell: ANR26650M1-B 

Prepare a detailed battery pack drawing along with its enclosure. State your assumptions.

Solution:

To make the battery pack, we have to first finalize the voltage and capacity of the pack. Either it will be in term of volt, mAh/Ah or Wh.

Total required battery pack capacity is 18000 wh.

The individual cell: ANR2650M1-B has

Nominal voltage = 3.3 V

Current capacity= 2.5 Ah

So, let us assume that for 18 kwh battery pack we need supply voltage of 200V and 90 Ah 

200V = 3.3* Cell in series

Cell in series= 200/3.3 = 60.60=60

Now, as we know that battery pack capacity(Wh) = Total current* Total voltage=(2.5* cell in parallel)* 200

18000= (2.5* cell in parallel)* 200

Cell in parallel = 18000/(2.5*200)=36

Module capacity

The required battery pack combination is 60S36P

For this we decided to choose a5 series and 3 parallel module connections.

Each 5S3P configuration module voltage capacity = 5*3.3=16.5 V

Each 5S3P configuration Current Module capacity =3*2.5=7.5Ah

So, total capacity of 1 Module is =16.5*7.5 = 123.75 Wh

Total cells

Total number of cells =  cell in 1 module*144

Total number of cells = (5*3)*144

Total number of cells=2160

1 cell capacity=3.3*2.5=8.25Wh

so, total cell capacity=2160*8.25

total cells capacity =17820 Wh=17.82Kwh

Note: We should always target more KWH then required considering the losses and connection limitations.

Weight of one cell= 76g=0.076Kg

So, battery pack cell weight =0.076*2160=164.16kg

Module connection:

For 18Kwh of total 200V and 90 Ah battery pack capacity we need 18000/123.75= 145.5 modules.

For simplicity of configuration we took 12*12= 144 modules of 5S3P

we have to connect the cells in parallel to reach the desired capacity and connect such parallel group in series to achieve the nominal voltage (volt)'

In this way, to achieve 200V battery voltage, number of 5S3P configuration in series connected modules are=200/16.5= 12.12=12

For 90 Ah battery current, now we connected 12(90/7.5=12) times such(series of 12 modules of 200v) in parallel to get 90 A current from htis battey pack.

The 5S3P connection of ANR26650M1-B cell is shown below.

A typical bill of materials(BOM) includes the following

• Battery cell
• Nickel or other tabbing
• PCB/PCM/BMS
• PVC shrink wrap
• insulating paper(battery paper)
• insulating form
• connectors and  wires

Step 1: Select the ANR2660M1- B cells for the battery pack

Step 2: Check the cell voltage

• Before connecting the cells in parallel first, check the individual cell voltage.
• for paralleling the cells, the voltage of each cells should be near to each other, otherwise a high amount  of current will flow feom the cell with higher voltage to the cell with lower voltage
• This can damage the cells and even result in fire on rare occasions.

Step 3: Assemble the ANR2660M1 - B cells

• From each step, it is clear that our battery pack is made up of 3 parallel groups connected in series and each parallel group have 5 cells.
• Now we have arrange the 15 cells properly for making the electrical connection among them and with the BMS board.
• Place the first parallel group of cells positive side up, then place the second parallel group og negative side up and then finally the last parallele group positive side up.
• We can assemble the cells to make the pack by using hot glue or by using plastic 18650 battery holder. I used plastic  the ANR26650M1-Bcell holders/ spacers to assemble the 15 cells.
• It provides space between the cells, which allows fresh air to pass and the battery get cooled easily.
• it also makes our battery pack solid and reliable and provide safety anti vibration to our battery pack.

Step 4: Choosing the Right Battery strips and spot weld the Nickel strips

We have 2 options to connect the ANR26650M1 Cells together.

1. Soldering

2. Spot welding

The best choice is always spot welding but spot welder is much costlier than a good quality soldering iron.

• To make the battery pack, we have to connect the ANR26650M1-B cells together by means of Nickel strips or thick wire.
• Generally, Nickel strips are widely ussed for this.
• In general, two types of nickel strips are available in the market: Nickel plated steel strips and pure nickel strips.
• The pure nickel is little bit costlier than the nickel plated steel, but it has much lower resistance. Low resistance maens, less heat generation during the charging and discharging, which leads to longer useful battery life.

Step 5: Adding the BMS

A Battery managment system us any electronic system that manages a lithium battery pack and the main functionalites are

1. Monitors all of  the parallel groups in the battery pack and disconnect it from the input power source when fully charged.

2. Balamce all the cells voltage equally

3. Doesn't allow the pack from over-discharged

The battery pack have all around exposed nickel strips, to avoid any accidental shorting on Enclosure used,.

Referernce:-

 https://www.instructables.com/DIY-proffesional-18650-Battery-pack/