Part Number: TPS563201 Hello,
I am evaluating a buck converter design using the TPS563201 device with a 3.3 µH (ref des L9) output inductor. The measured efficiency is approximately 68% at an input voltage of 12 V, output voltage of 3.3 V, and an output…
Part Number: TPS563201 Tool/software: I am designing a PCB layout for the TPS563201 buck converter. The output trace needs to pass through a different layer below the output inductor. I would like to know if routing the output trace in this manner will…
Part Number: TPS563201 Tool/software: Could you please provide the pressure specification that TPS563201 , when already soldered onto the motherboard, can withstand? We need this information to ensure that adding thermal pads between the SSD and motherboard…
Part Number: TPS563201 Tool/software: Hello,
I plan to use TPS563201 but need to use big polymer capacitors along with ceramic caps... but i read that it is unstable beyond just 68uF caps.
for me I intend to use 5x10u 0805 ceramics + 2 or 3 470u…
Part Number: TPS563201 Other Parts Discussed in Thread: TPS561201 Tool/software: I am currently using the TPS563201 buck converter for converting 12V to 3.3V, and we are utilizing a 2.2uH 7A rated inductor . Due to size constraints in our design, we are…
Part Number: TPS563201 Other Parts Discussed in Thread: TPS61165 , TPS563208 , TPS563200 The body diode of the main switching FET in this IC is feeding the USB VBUS power on the 5V rail back into the 12V input (VIN).
To ensure that the TPS563201 isn…
Part Number: TPS563201 I encounter three problems when I use tps563201.
1.When DCM mode,switch node have overshoot voltage.Why? Which parameter should I adjust.
2.When CCM mode, switch node have undershoot voltage.Why? Which parameter should I adjust…
