Part Number: TPS61093-Q1 Hi team,
My customer acceptable for voltage fluctuation on TPS61093-Q1.
In datasheet, voltage changes nearly 500mV when load change.
Is there any way to suppress this fluctuation?
Regards,
Youhei MIYAOKA
Part Number: TPS61093-Q1 Hi team,
My customer have questions about 9.2.1 15V Output Boost Converter in datasheet.
1. How much RV required for C3.
2. Is it possible to add snubber circuit even diode integrated.
3. In 7.3 Recommended Operating Conditions …
Part Number: TPS61093 Hi,
Customer has an issue with inductor Acoustic Noise.
Input voltage : Max 150mAh@ Alkaline Battery 2.0~ 3.2V
Output voltage : 17V
Output current : 15 ~ 20mA
Changes to Inductor 10uH products do not remove Acoustic Noise.
It seems…
Hi IIya,
Sorry for missing this case asked during holiday.
I'd like to check whether the Vin will be pulled down below UVLO when the output pulse coming. So I need the following information, please help check if available:
What's the time duration…
Part Number: TPS61093 Hi,
My customer does not required discharge function. What device is recommend with TPS61093 without discharge function? Please advise us.
His requirement spec is as follows:
Vin 1.5V-3V
Vout 12V
Current Min 100mA
No need discharge…
Part Number: TPS61093 Hi there,
I use TPS61093 for setting output voltage 8.0(tolerance±0.3V).
When output voltage comes from other unit, and its value is 8.4V above the setting output voltage, what will happen.
IC is damaged? or break?
Please…
Part Number: TPS61093 I have weird issue I would like help in resolving please.
I am using the TPS61093 as a boost converter.
Input voltage is a regulated 3.1V. Output voltage should be between 14.0 and 15.0V, to drive an OLED display per the OLD display…
Part Number: TPS61093
Hi Team,
In TPS61093 datasheet, it could realize the overcurrent and overvoltage protection.
As for overvoltage protection, how could it realize?
Part Number: TPS61093 HI,
We're using TPS61093 to boost the output voltage to 6.75V. We can reach 6.75V in the end, but during the ramp-up. we can see a two-step behavior as below.
Please help to explain why there's a two-step behavior like this and…