Tag Archives: repair

HomePosts Tagged "repair"

A Guide to Repairing a Lithium Iron Phosphate Motorcycle Battery

Ā  Ā  Welcome to the Cell Doctor channel. In todayā€™s video, we will explore the process of repairing a lithium iron phosphate (LiFePO4) motorcycle battery that is currently non-functional. A friend of mine reported that this battery was short-circuited. Although it still shows some indication of life with two lines, the voltage measurement reads 9.7 volts. We need to determine if it can receive any power.

Ā  Initial Diagnosis

Ā Firstly, we checked the voltage, confirming it reads 9.7 volts. However, the battery does not draw any current, indicating an issue. To understand the problem, we need to open the battery and inspect its internal components. Typically, these batteries contain a Battery Management System (BMS), and the fault could either lie within the BMS or the cells themselves.

Ā  Opening the Battery

Ā Opening the battery was straightforward. Upon removing the lid, we observed the balancing leads. The board is marked SMT H04 S LED LDVD O, indicating that it includes an LED board and balancing wires. We measured the voltage on these wires to assess the condition of the cells. The cells are encapsulated in silicon, which makes access difficult. However, we attempted to charge the cells through the balancing leads to avoid complete disassembly.

Ā  Cell Voltage Inspection

Ā The voltage readings showed 3.3 volts for one cell and 0.2 volts for another, indicating that one of the cells is dead. Specifically, cell number two is non-functional, while the other cells seem to be in good condition. We attempted to charge the dead cell by setting the bench power supply to 3.6 volts and connecting the leads. Unfortunately, the cell did not draw any power, confirming it is indeed dead.

Ā  Deeper Investigation

Ā Given the dead cell, we needed to delve deeper. Carefully cutting the silicon around the cells, we ensured not to puncture the good cells to prevent any fire hazard. Once the silicon was sufficiently removed, we extracted the battery. With the cells exposed, we found that they are spot-welded together, complicating the repair process.

Ā  Identifying the Fault

Further inspection revealed that cell number two had disconnected from its neighboring cell, causing the battery to fail. This disconnection needed to be repaired by soldering the cells back together.

Ā  Repairing the Connection

Ā Soldering these types of cells can be tricky, but we managed to make a good connection on half of the tab. After ensuring the connection was secure, we reassembled the battery and isolated the terminals with Kapton tape. We then reconnected the LED board to check for voltage. The state of charge indicator showed full, indicating the repair was successful.

Ā  Final Testing

Ā We conducted a final series of tests to ensure the battery was functional. The voltage now read 13.3 volts, and the battery accepted a charge of 3 amps. Additionally, we performed a discharge test at 5 amps, which the battery handled without significant voltage drop. The ultimate test was placing the battery back in the motorcycle to confirm it starts the engine.

Ā  Conclusion

Ā This video tutorial demonstrated the process of repairing a lithium iron phosphate battery with a broken cell connection. These batteries, utilizing pouch cells, are common in high-current applications but are more challenging to repair than cylindrical cells. Nonetheless, the repair was successful.

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Reviving a Junior Dirt Bike: 48V 13S 6P Battery Rebuild and Water Damage Repair

In this detailed tutorial, we demonstrate the process of rebuilding a 13S 6P lithium battery pack for a junior dirt bike that sustained water damage. Here’s what you can expect from the video:

Ā 

  • Battery Rebuild: Watch as we replace all the damaged cells with ones salvaged from other battery packs.
  • Time Efficient: The entire rebuild process took approximately three hours.
  • Cell Salvaging: Out of 65 original cells, we managed to salvage 64 and used them to construct a new pack by combining them with additional used cells.
  • Technology Insights: Learn about the Mega CNC for matching battery strings and the Megacell Charger for rigorous cell testing.
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8 x XS12 Multi-Slot Combining Cable. This cable is perfect for combining multiple slots from MCCPRO to charge or discharge large cells. This cable comes with 2 x external temperature sensors. Using 8 slots, you can achieve a total of 36A Charging and 24A discharging (16A discharging on MCCPRO-Hobby)

Alligator Connector with temperature sensor

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This accessory is compatible with MCCPRO Hobby and Commercial version. It's designed to extend the cell testing capabilities to other cell formats such as pouch cells, prismatic cells or large cylindrical cells.

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Reviving a Neglected Electric Scooter: A DIY Guide by the Cell Doctor

Electric scooters have become a convenient mode of transportation in urban areas. However, like any electronic device, they require regular maintenance to ensure longevity and performance. In a recent video by the Cell Doctor, a common issue faced by electric scooter owners was addressed: what happens when an e-scooter is left uncharged for an extended period?

Alex, the host, demonstrates a scenario with an ES scooter that hasn’t been charged for over a year. When he attempts to charge the scooter, he faces a challenge ā€“ the scooter does not respond. This lack of response suggests that the batteries are dead. The scooter, interestingly, is equipped with two batteries, doubling the complexity of the problem.

The video delves into the intricacies of battery maintenance for electric scooters. It highlights the importance of regular charging, even when the scooter is not in use. The neglect results in battery degradation, which might lead to a complete battery failure as seen in the video.

Alex’s approach to resolving this issue serves as a DIY guide for individuals facing similar problems. He takes the viewers through a step-by-step process, explaining the technical aspects of scooter batteries and the right way to diagnose and fix the issue.

The repair process is not just about replacing the batteries but understanding the underlying causes of battery degradation. Alex emphasizes the need for regular battery checks and the importance of proper storage conditions for electric scooters.

This video is a must-watch for e-scooter enthusiasts and owners, providing valuable insights into the maintenance of these modern urban vehicles. It serves as a reminder that while electric scooters offer convenience and eco-friendliness, they also demand responsible usage and care.

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