JAJSF16D march 2013 – september 2020 BQ51013B
PRODUCTION DATA
The Dynamic Efficiency Scaling feature allows for the loss characteristics of the BQ51013B to be scaled based on the maximum expected output power in the end application. This effectively optimizes the efficiency for each application. This feature is achieved by scaling the loss of the internal LDO based on a percentage of the maximum output current. Note that the maximum output current is set by the KIMAX term and the RILIM resistance (where RILIM = KIMAX / IMAX). The flow diagram shown in Figure 8-3 illustrates how the rectifier is dynamically controlled (Dynamic Rectifier Control) based on a fixed percentage of the IMAX setting. Table 8-1 summarizes how the rectifier behavior is dynamically adjusted based on two different RILIM settings.
OUTPUT CURRENT PERCENTAGE | RILIM = 500 Ω IMAX = 0.5 A | RILIM = 220 Ω IMAX = 1.14 A | VRECT |
---|---|---|---|
0 to 10% | 0 A to 0.05 A | 0 A to 0.114 A | 7.08 V |
10 to 20% | 0.05 A to 0.1 A | 0.114 A to 0.227 A | 6.28 V |
20 to 40% | 0.1 A to 0.2 A | 0.227 A to 0.454 A | 5.53 V |
>40% | > 0.2 A | > 0.454 A | 5.11 V |
Figure 7-5 illustrates the shift in the Dynamic Rectifier Control behavior based on the two different RILIM settings. With the rectifier voltage (VRECT) being the input to the internal LDO, this adjustment in the Dynamic Rectifier Control thresholds will dynamically adjust the power dissipation across the LDO where:
Figure 7-3 illustrates how the system efficiency is improved due to the Dynamic Efficiency Scaling feature. Note that this feature balances efficiency with optimal system transient response.