Project Logs

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• Replacing a broken base connector

  Lucas Rangit MAGASWERAN • 03/14/2017 at 00:06 • 0 comments

  Upon replacement of the battery I noticed that the base of the battery connector where the battery make contact with the posts on the bike had cracked. The plastic part had weak points in its design meaning that gluing it would most likely break again.

  Thankfully, Diego Porqueras from @Deezmaker at the 2015 Hacakday Zero to Product workshop showed us how to use Tinkercad .

  Following his tutorial, I measured the sizes and spacing of the holes, the slope where the metal flaps rested, and various thicknesses with calipers. In my design, I made the part thicker and added more material to the base so that the holes were not near an edge. I started by making the main shapes and used voids to remove areas. Slopes were made by changing the plane so I could precisely control the angles. Holes for the bolts needs material for the square nuts to fit in so those were made by grouping two shapes to create a larger complex void. The hard part was making sure I had enough room on the bottom for the angled bolt and nut to fit on the bottom side of the part. Turns out I didn't and had to dremel some material away.

  Here is the finished part: https://www.tinkercad.com/things/kNUMJKz7jSd-electric-bike-battery-base-connector

  I printed it using a Stratasys Connex500 PolyJet printer I had access to. So far the part is holding up great under vibration.

  
  

• Packing the Battery

  Lucas Rangit MAGASWERAN • 03/02/2017 at 02:32 • 0 comments

  The original battery enclosure was designed to fit two SLA batteries stacked. To secure the new battery without permanently modifying the battery enclosure or making a new one, I used high density foam spacers. These foam spacers are recycled from some packing material, so unfortunately, I do not know where or how to order these. However, they are included with batteries from BatteryStuff.com so they may be ordered from them. If anyone know what or how to order these easily please leave a comment!

• Battery Wiring

  Lucas Rangit MAGASWERAN • 03/02/2017 at 02:12 • 0 comments

  The LiFePO4 battery came with a 4 hookup wires. 2 for charging and 2 for discharge. This is because charging must go through the battery management system whereas powering the motor comes directly off the batteries.

  The discharge wires are 16 gauge and the charge wires are 18 gauge. Since the battery is used outdoors, I bought fully insulated nylon spade wire crimps (see project parts list). They are color coded to indicate the range or wire gauge they support.

  The reason the charge wires use two different colors is because their wires are different gauge. This is okay because the current is limited by the battery management system (higher gauge is rated for less current).

  AWG	Color	Current A	Wire mm²
  22-18	Red	10	0.5-1.5
  16-10	Blue	15	1.5-2.5
  12-10	Yellow	24	4-6

• Picking the battery

  Lucas Rangit MAGASWERAN • 02/28/2017 at 18:08 • 0 comments

  Picking the battery was time consuming. I had to not only try and match the voltage of the original 24V pack but also keep the size constrained to fit inside the original battery case.

  I picked a custom $125 LiFePO4 battery with 25.6V 4500 mAh from AA Portable Power Corp. (http://batteryspace.com) for the following reasons.

  • Battery management system (BMS) was pre-installed.
  • 18650 cells wired in 3 rows of 8 (8S3P) and did not exceed the inner dimensions of the battery pack.
  • mAh and voltage are close to the original.
  • Discharge current is 14 A. Well above anything the SLA battery could provide.
  • Only 2 lbs.

• Estimated range

  Lucas Rangit MAGASWERAN • 02/27/2017 at 05:07 • 0 comments

  Based on the battery range calculations from commercial electric bike vendor Pedego, I'm estimating my range to be 7.1 miles. I computed this using the following trend line formula in LibreCalc.

  =TREND(D2:D5,C2:C5,C2:C6, )

  https://www.pedegoelectricbikes.com/faq/#battery-range
  

  VOLTS	AMP HOURS	WATT HOURS	MILEAGE
  36	10	360	20
  36	15	540	33
  48	10	480	30
  48	15	720	45
  25.6	4.5	115.2	7.1

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