Part Number: TPS61033-Q1 Other Parts Discussed in Thread: TPS61022 Hi team,
I'm working on developing a booster circuit for an application and need some guidance. We require a booster that can accept an input voltage ranging from 2.2V to 4.2V and…
Part Number: TPS61033-Q1 Tool/software: Hello team,
About TPS61033-Q1,we use to boost 3.3V to 5.15V in our system.
The design shown below.
It shows that the Gain and Phase crossover 0 several times no matter 0.5A,1A or 1.5A load.
We have confirmed the…
Part Number: TPS61033 Other Parts Discussed in Thread: TPS61230A , TPS61230 , , TPS61022 , TPS61253A
The IOT device is powered by a 3.6V 14.5Ah LiSOCl2 Non-rechargeable battery. The device contains 2 powerful consumers: a GSM/LTE module and a UHF RF module…
Part Number: TPS61021A Other Parts Discussed in Thread: TIDA-01387 , , TPS61033 App Note TIDA-01387 describes "how to power GPRS modules in smart meters using LISOCL2 batteries. GPRS modules require peak current of up to 2 A"
This app note re…
Part Number: WEBENCH-POWER-DESIGNER Other Parts Discussed in Thread: TPS61033 Hi support team,
It seems that TPS61033 does not support WEBENCH. Do you know the support schedule?
Regards, Dice-K
Part Number: TPS61033 Dear sir or madam,
I would like to ask you to check the schematic for the TPS61033.
Please check the following and give me your advice.
1. Application : TPS61033 supply 4.9V to the TDD based Power amplifier (Max TX duty : > 75…
Part Number: TPS61033 Hi support team,
Is it possible to switch the MODE pin high/low during operation to switch to FPWM or Auto PFM? Will VOUT be temporarily interrupted?
Regards, Dice-K
Part Number: TPS61033 Hi support team, This is a question regarding PFM operation.
Is there a way to calculate the waveform and frequency of PFM under the following conditions?
VIN = 5.3V VOUT= 5.5V IOUT= 0.05A L = 2.2μH
Is it best to check by experiment…
Part Number: TPS61033 Other Parts Discussed in Thread: TPS61023 , TLV61070A , TPS61020
Hi support team, I would like to calculate IOUT to shift to PFM.
Does it shift to PFM when the inductor valley current is 0A?
Calculating with the following conditions…