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Part Number: TPS5410 Tool/software: Hi,
I am using the circuit diagram in the attachment. I aim for an input voltage range of 13-32V. The output voltage will be 5V. The current drawn is at 100mA.
I am currently experiencing a problem. When I apply 24V…
Part Number: TPS5410 Other Parts Discussed in Thread: TPS5420 , Tool/software: Hi team,
I was using TPS5410 but the inrush current was larger than expected and I am thinking of changing to TPS5420. Is there any problem if I use exactly the same peripheral…
Part Number: TPS5410-EP Tool/software: Is there an issue with equations 5 and 6 in the datasheet for this IC? I cant seem to get values that make sense (peak current less than my desired output current). Am I doing this wrong? Or is there possibly another…
Part Number: TPS5410 Tool/software: Hi team,
I have made some prototype boards and it takes about 200ms for the voltage to stabilize with the following waveform. When another lot of IC was mounted on this board, the output was stabilized immediately. …
Part Number: TPS5410 Tool/software: Hi
I am working on TPS5410.
I just want to know if there is any calculator to calculate the compensation values
Regards
Part Number: TPS5410-Q1 Other Parts Discussed in Thread: LMR66410-Q1 Hi,
In the app note SLVA237C , the compensation loop is modified in case ceramic capacitors (very low ESR) are used. My question is: In case the inductor already provides high ESR (chip…
Part Number: TPS5410 Hello, I'd like to know the difference between TPS5410D and TPS5410MDREP. Are there any enhancements to the MDREP compared to the old one? Is the TPS5410MDREP a drop-in replacement to the TPS5410D?
Part Number: TPS5410-EP Other Parts Discussed in Thread: TPS5410-Q1 , TPS5410
Hello,
I was going through the thermal calculations and I noticed that the Quiescent Current Loss formula doesn't seem right. I believe it needs the quiescent current added…
Part Number: TPS5410 Hi team,
In our TPS5410 datasheet, there is description as following: ''The system will ignore the overcurrent indicator for the leading edge blanking time at the beginning of each cycle to avoid any turn-on noise glitches''…
