Aux BMS Architecture

Battery Charger: LTC4010

• for best reliability, input voltage should be (2V*n_cells)+0.3V = ~21V
• thermistor
  • 10K NTC with beta 3750
  • charging without thermistor not recommended for charging well above or below 1C (voltage termination insufficient)
  • needs off-board thermistor connection to put thermistor on pack

Undervoltage Protection: LT6703-2

• 1.4-18V voltage comparator with built in reference
• V- pin exposed, will output a logic 1 if input < reference
• low current draw, ~6.5uA
• open collector output, will likely need FET driver

Boost Converter: TPS55330

• 12V to 21V boost converter
• 1.5A output current

Load Switch:

• 2A-5A (higher end of the range is better)
• battery voltage can be ~14V, so voltage needs to be >14V
• active high enable
• WSON package for better power dissipation
• may need to be a high side MOSFET driver + power MOSFET

Best load switch we could find: http://www.ti.com/product/tps22810

• 18V max Voltage
• 3A max Power

• 79mΩ Ron

Or we can use an NMOS and a Power PMOS in the following manner: 

Here, Q1 will an NMOS that feeds to the gate of Q2.

Suggested power FET for Q2:

• 5A continuous drain
• 20V drain to source voltage
• Ron = 45 mOhm @ 4A, 4.5V

Or we can use an NMOS power FET with a gate driver: 
NMOS: 
https://www.digikey.ca/product-detail/en/vishay-siliconix/SIS412DN-T1-GE3/SIS412DN-T1-GE3DKR-ND/2442463

Gate Driver: 
https://www.digikey.ca/product-detail/en/silego-technology/SLG55021-200010V/1827-1047-1-ND/7562931

OR Gate:

• actually needs to be a NOR gate (inverted or), since a logic 1 at the output of the OR gate should turn off load switch
• able to take battery voltage on power supply, or pair with regulator that drops battery voltage to logic voltage
• 5V or 12V logic compatible (12V preferred)
• SOT package preferred

System Block Diagram: