Part Number: TPS62063
Hi All,
I have a question about TPS62063.
Does the TPS62063 support pre-bias statup function?
When the input voltage is dropped, the output drops slowly, so a reverse current is generated, but is there a function to protect it? …
Part Number: TPS62063
For this circuit, we have 5v i/p and 3.3v o/p is required. Only on one board, there is a problem that we are getting 1.3v at the SW pin. And at the FB pin 0.462v. Also, what is the internal feedback resistors value?
Part Number: TPS62063 Tool/software: WEBENCH® Design Tools Hello Everyone, We are working on PSPICE/LTSPICE simulation for power circuitry. We require unencrypted PSPICE model for TI part number- TPS62063 to simulate the circuit in LTSPICE tool.
How do…
Part Number: TPS62063 Hi Support Team,
I took a look into the data sheet but cant find information about the minimum current which should drain at the exit to prevent the ic entering automatically power save mode.
Can you provide me with the information…
Other Parts Discussed in Thread: TPS62063 Dear support member,
My customer use TPS62063.
Would you teach capacitor value and resister value at phase compensation built in TPS62063?
Best regard.
Bob Lee.
Other Parts Discussed in Thread: TPS62063
Hello all,
I was wondering if someone would be able to help me out with a strange issue I have with the TPS62063 Step Down Converter. My schematic is as below and I have put a 150 ohm load on the output to draw…
Hi Yuan,
For your application of Vin = 5V; Vout = 3.3V; Ioutmax = 0.5 A; start-up time <= 500us. I can recommend the TPS62063 with fixed Vout at 3.3V. It has a start up time of 500 us.
A converter with a faster start-up time would be the TPS62237 at…
Other Parts Discussed in Thread: CC1310 , CC1190 , TPS62063 Ok - we are working on (again) design for CC1310 chipset for using higher power (per designs) with CC1310 chips. Now we have a new ceramic filter for the CC1310 for RF frequency, etc. So - TI -…
Other Parts Discussed in Thread: LMR10515 , TPS62063 , TPS62751 Hi,
I'm looking for smallest power supply solution. My design requirements are: VinMin = 4.0V, VinMax = 5.0V.
Output requirement is Vout = 3.3V, Iout = 1.5A.
Using TI Webench, it proposed…