Part Number: TPSM82823 Tool/software: Dear team,
We are looking for Iq of TPSM82823 which operate in 100% duty cycle design condition?
Did you have data on hand and can share with us?
Regards,
Ben
Part Number: TPSM82823AEVM-127 Tool/software: Hi team,
The customer evaluates TPSM82823A-EVM but found that when power on in 3.3V->1.8V,3A condition, the output has been dropped down as below. But they can power on the devices with output 1.8V, 1.5A…
Part Number: TPSM82823 Hello,
In the datasheet section 9.2.1.2.3 it is mentioned that the maximum output capacitance should not exceed 47uF.
Is it ok to connect higher capacitance (a few hundreds of uF) through ferrite bead?
The Layout will be:
TPSM82823…
Part Number: TPSM82823A Other Parts Discussed in Thread: TPSM82823 Hi team,
What is the typical and min height of TPSM82823? I get only the max height of the device from the DS.
Part Number: TPSM82823 Other Parts Discussed in Thread: TPS82085 , TPSM82864A , TPSM82810 , TPSM82813 Hello,
The thermal resistance information found in the TPSM82823 datasheet is significantly higher than other products with similar specifications.
Is the…
Part Number: TPSM82823 Hi team,
Customer would like to know about statistical dispersion for their evaluation.
As for High-side FET switch current limit in the below table, Is it correct to assume that there is a normally distributed variation in the…
Part Number: TPSM82823 Hi team,
My customer is tring to use TPSM82823SILR, then we have below 2 questions.
- FB signal through Via
Now they're thinking F B signal is through Via and and connected with R and C at back side, because they don't have many…
Part Number: TPSM82823 Hi,
We want to know if TPSM82823SILR is ROHS compliant. In TI website its not mentioned. Please refer screenshot below. However in datasheet ROHS is mentioned. Hence we want confirmation whether its ROHS compliant or not ,as we…
Part Number: TPSM82823 Hello team,
Is my understanding correct? If it is any error, please point out.
<Question>
In low dropout operation, equation(4) is adopted. So if Vin=3.3V(max of RDP is 80mΩ) and Iout=3A, drop voltage is 0.24V at FET and inductor…
