Part Number: TPS82150 Other Parts Discussed in Thread: TIDA-01405 Tool/software: Hi,
I am designing an inverting buck-boost using the TPS82150 and I try to figure out if the input capacitors should be connected to -Vout or to GND.
Vin is 5V or 12V (I…
Part Number: TPS82150 To calculate a reliability number according to MIL-HDBK-217 for the TPS82150 I have assumed that it falls into the "MOS Technology" "Linear Microcircuits" Technology. I would need the range of the number of transistors. I have not…
Part Number: TPS82140 Other Parts Discussed in Thread: TPS82150 , Tool/software: Hi
What are the differences between TPS82140 & TPS82150 besides current capabilities?
I can't find any difference in datasheets (efficiency, switching frequency and other…
Part Number: TPS82150 Other Parts Discussed in Thread: TPS82130 The customer said there is no marking in the the device.
But why in the datasheet, there is a 5S?
Part Number: TPS82150 Dear TI team,
I have a client who suffers from a placement problem at the assembly line in the mass production stage, Could you please provide a guidance document on how to check in DVM that the component was correctly assembled? …
Part Number: TPS82150 Hello team - is the gold finish for the TPS82150SILR ENIG or electroplated? If it’s electroplated, then would you please send me the thickness range or max. thickness for the gold.
Thank you!
Part Number: TPS82150 Other Parts Discussed in Thread: TPS82130 , TPS82140 , Hi team
Could you help check if TPS82130/TPS82140 are the drop-in replacement option for TPS82150?
My customer met the shortage of TPS82150 and wants the backup solution, TPS82130…
Part Number: TPS82150 Hello,
We are using a buck converter part number TPS82150SILT.
the nominal voltage input of the converter in the design is 16V, output voltage is 4V and the nominal current drawn from the converter is about 20mA. During testing,…
Part Number: TPS82150 Hi
I want to ask about TPS82150's start up time.
I simulated TPS82150's start up sequence using PSpice for TI.
I made 5V,3.3V,1.8V,1.2V & 1.0V from 12V using this IC.
Start up sequence is below
1st start up :5V,1.0…