SLUSFJ0A June 2024 – September 2024 BQ51013C-Q1
PRODUCTION DATA
Refer to the PDF data sheet for device specific package drawings
The Dynamic Rectifier Control algorithm offers the end system designer optimal transient response for a given maximum output current setting. This is achieved by providing enough voltage headroom across the internal regulator at light loads in order to maintain regulation during a load transient. The WPC system has a relatively slow global feedback loop where it can take more than 90 ms to converge on a new rectifier voltage target. Therefore, the transient response is dependent on the loosely coupled transformers output impedance profile. The Dynamic Rectifier Control allows for a 2 V change in rectified voltage before the transient response will be observed at the output of the internal regulator (output of the BQ51013C-Q1). A 1-A application allows up to a 1.5-Ω output impedance. The Dynamic Rectifier Control behavior is illustrated in Figure 7-4 where RILIM is set to 220 Ω.