JAJSIE0G November 2019 – November 2024 LM63635-Q1
PRODUCTION DATA
The dropout performance of any buck regulator is affected by the RDSON of the power MOSFETs, the DC resistance of the inductor, and the maximum duty cycle that the controller can achieve. As the input voltage level approaches the output voltage, the off-time of the high-side MOSFET starts to approach the minimum value (see Section 6). Beyond this point, the switching can become erratic and the output voltage can fall out of regulation. To avoid this problem, the LM63635-Q1 automatically reduces the switching frequency to increase the effective duty cycle and maintain regulation. There are two definitions of dropout voltage used in this data sheet. For both definitions, the dropout voltage is the difference between the input and output voltage under a specific condition. For the first definition, the difference is taken when the switching frequency has dropped to 1850 kHz (obviously this applies to cases where the nominal switching frequency is >1850 kHz). For this condition, the output voltage is within regulation. For the second definition, the difference is taken when the output voltage has fallen by 1% of the nominal regulation value. In this condition, the switching frequency has reached the lower limit of about 130 kHz. See Section 8.2.4 for details on these characteristics. Typical overall dropout characteristics can be found in Figure 7-11.