Part Number: TPS61235P Hello,
Does TI have light load efficiency data for this part? I see that it has a light load PFM mode. Customer is interested in the <1mA range.
Thanks,
Michael
Part Number: TPS61235P Hello,
I want to validate that the design for enabling the TPS61235PRWLR will not leak much voltage and will work properly. Going into the Vin pin with a 1M ohm resistor in series with a switch that when it is turned on it will go…
Part Number: TPS61235P Other Parts Discussed in Thread: TPS22965 Hi Team,
According to our customer, the output voltage of TPS61235 drops to 2V when connected to a 2.5A load. Please see the details of his inquiry below.
I'm currently developing a simple…
Part Number: TPS61235P Other Parts Discussed in Thread: TPS61236P , BQ24170
I have a device that powers a SOC using EITHER 5V USB or via the 5V output from the TPS61235P.
Currently, when the device is powered by USB, it can feed 5V backwards directly…
Part Number: TPS61235P Using the schematic layout for the TPS61236 EMV board replacing the inductor from the spec sheet, SPM6530T-1R0M120, and using a TPS61235P without the voltage setting 1M and 332k resistors
The boost converter is shutting off at…
Part Number: TPS61235P Hi,
Please review my schematic below
The voltage and current will come from a LIPO Battery(3.7V/6000mAh). I'd like to boost converter to output 5.1V and 3A max as my output will be going to my load which will be a Raspberry…
Part Number: TPS61235P Hi,
Please review my pcb layout. Ideal 5.1V/3A max output with using the CC feature to limit current to 3A. I have not created a GND polygon pour to connect all the GND connections because of difficulty to see traces and compnents…
Part Number: TPS61235P Hi,
I want to use the TPS61235 boost converter to step up voltage coming from a lipo battery that would be attached to a battery charger IC that has a power path feature which is where the input of the TPS61235 would come from…
Part Number: TPS61235P Hi,
I was wondering why are there different symbols for ground. Id like to use the CC feature and connect a ~41.4k ohm resistor in parallel with a 10uF capacitor to get an ideal limit of 3A as it would be ideal to get an Voutput…