SLUSBZ5D January 2015 – April 2021 BQ34Z100-G1
PRODUCTION DATA
Load Select defines the type of power or current model to be used to compute load-compensated capacity in the Impedance Track algorithm. If Load Mode = 0 (Constant Current), then the options presented in Table 7-13 are available.
LOAD SELECT VALUE | CURRENT MODEL USED |
---|---|
0 | Average discharge current from previous cycle: There is an internal register that records the average discharge current through each entire discharge cycle. The previous average is stored in this register. However, if this is the first cycle of the gauge, then the present average current is used. |
1 (default) | Present average discharge current: This is the average discharge current from the beginning of this discharge cycle until present time. |
2 | Average Current: based on the AverageCurrent() |
3 | Current: based on a low-pass-filtered version of AverageCurrent() (τ=14s) |
4 | Design Capacity/5: C Rate based off of Design Capacity /5 or a C/5 rate in mA. |
6 | Use the value in User_Rate-mA: This gives a completely user configurable method. |
If Load Mode = 1 (Constant Power), then the following options are available:
LOAD SELECT VALUE | POWER MODEL USED |
---|---|
0 (default) | Average discharge power from previous cycle: There is an internal register that records the average discharge power through each entire discharge cycle. The previous average is stored in this register. |
1 | Present average discharge power: This is the average discharge power from the beginning of this discharge cycle until present time. |
2 | Average Current × Voltage: based off the AverageCurrent() and Voltage(). |
3 | Current × Voltage: based on a low-pass-filtered version of AverageCurrent() (τ=14s) and Voltage() |
4 | Design Energy/5: C Rate based off of Design Energy /5 or a C/5 rate in mA. |
6 | Use the value in User_Rate-mW/cW. This gives a completely user-configurable method. |