Bq40370 Work -
| Issue | Likely Cause | Potential Solution | | :--- | :--- | :--- | | Battery shows 0V output, but cells have voltage | Controller has locked the output MOSFET due to a fault condition | Attempt to unseal and reset the chip using NLBA or similar tools | | Sudden SOC drops (e.g., 60% to 6%) | Discharge curve not aligned with factory profile; cells replaced without updating EMF/EDV parameters | Full chip reprogramming with correct EMF/EDV values for the new cells | | Chip doesn't respond or appears bricked | Incorrect editing of EEPROM dump; wrong byte order used for editing values | Restore original dump if available; otherwise, chip may be permanently damaged | | Cannot unseal chip | Network connectivity issues during remote unseal; wrong unseal procedure | Check internet connection; try different network; use NLBA software's built-in unseal functions | | Battery charges to 100% but dies quickly | FCC value incorrect; cells have lower capacity than what chip expects | Recalibrate battery with correct FCC value matching actual cell capacity | | Max Error stays at 8% | Discharge current for calibration too high; relaxation periods incorrect | Use average laptop consumption current (not 3000mA); follow correct 120min relaxation periods | | Cell imbalance persists | Bad cell balance from factory; chip unable to balance cells sufficiently | Manually charge individual cells to same voltage before attempting reset |
| Symptom | Likely cause | Solution | |----------------------------|----------------------------------------|----------| | SOC jumps from 20% to 0% | Wrong EDVx or CEDV coefficients | Re-run CEDV calibration | | FETs not turning on | AFE not powered (missing BAT voltage) | Check BAT pin ≥ 6V | | I²C no response | Device sealed and not addressed correctly | Unseal via 0x44 command | | Overvoltage protection too sensitive | Cell imbalance or wrong OV threshold | Balance cells, adjust OV | | Temperature reading wrong | Incorrect thermistor β value in config | Set correct β in data flash | bq40370
A common activity is attempting to revive or repurpose laptop batteries. When the internal lithium-ion cells degrade and no longer hold a charge, users often wish to replace them. However, simply swapping the cells is not enough because the BQ40370 stores a record of the old, worn-out cells' capacity in its internal memory. To fix this, the chip must be . Tools like the NLBA (a specialized battery adapter) and the EV2300 or EV2400 (TI's standard communication interfaces) are used to interface with the chip. These tools allow advanced users to unseal the chip, read and edit its data, and then seal it again. | Issue | Likely Cause | Potential Solution
High-side N-FET drive (eliminates the need for low-side, improving performance). LED Support To fix this, the chip must be
The EV2400 or CP2112 are commonly used to connect the battery's SMBus to a PC.
It utilizes a 32-pin QFN package (RSMR) , maximizing PCB space efficiency inside thin-and-light laptop enclosures.
A: It is technically possible to purchase the IC, but without official datasheets, development tools, or support from TI, it would be exceptionally challenging to integrate it into a new design. It is not recommended for hobbyist or new commercial projects.