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Part Number: TPS62000-HT Other Parts Discussed in Thread: TPS62000 ,
Hello,
I am using twoTPS62000 to power a SM470R1B1 with 1.8V and 3.3V.
At 187C the 3.3V starts fluctuating between 2.9V and 3.0V - this is critical because it resets the microcontroller…
Part Number: TPS62000 Other Parts Discussed in Thread: TPS62824A Hi TI,
The L is rated at a max of Vin+0.3V. I have a 5V input and 1.2V output, but I am seeing a 6.8V spike at my L/SW pin, probably due to parasitic inductance. Is this already violating…
Part Number: TPS62000 Hi all,
I just received a request regarding design resources for the TPS62000. Could you please help advise on the below request?
We are currently working on a project involving the component TPS62000DGS to build a 3.3V power supply…
Part Number: TPS62000 Can you (or your product expert) tell me what the difference is between TI pn TPS62000DGS and TPS62000DGSG4 (both are 80 pc tubes) and TPS62000DGSR and TPS62000DGSRG4 (both are 2500 pc reels). In looking at the data sheet, I can…
Hi Anuraj,
TI takes care of this, so you don't have to.
As well, this is an extremely old device. Do you have a new design that you are working on?
Yes, you can measure the high side FET in that way. I can't think of a way to measure the low…
Part Number: TPS62000 Hello,
I am looking into using a high temperature board design using the TPS62000SHKK. I noticed that the footprint has very long leads. I am wondering what the purpose is for this. In a buck regulator, we normally want to minimize…
Part Number: TPS62000-Q1 If there fixed Open or Short movement on failure mode, please let me know in the case of below DC/DC's.
①TPS62000QDGSRQ1 (or the other TPS6200xQDGSRQ1 series)
②TPS57140QDGQRQ1
③TPS61088RHLR
※For example, failure mode is overcurrent…
Part Number: SM470R1B1M-HT Other Parts Discussed in Thread: TPS62000 , , TPS62000-HT Hello,
I am using the SM470R1B1M-HT in a high temperature system, powered by two TPS62000 DC/DC converters, one for 1.8V and one for 3.3V.
At 185C, the circuit has a jump…
Alexander,
I ended up going back to a proprietary hybrid power supply that one of my colleagues developed several years ago. It's rather large, but it does seem to work. My main goal with the TPS62000 was to find a smaller, more discrete solution…