Part Number: TPS7A7002 Hi,
It is recommended to connect NC pins of LDO to large plane areas. So is it advisable to connect it to Ground Plane?
Also at what time instant will the LDO begin to limit current as soon as it detects 3.36A?
Regards,
Sharadhi…
Part Number: TPS7A7002 Under 6.1 section Absolute Maximum Rating, Current rating is said that it is internally limited. Please specify to what maximum value current is limited to.
Thanks,
Sharadhi G R
Part Number: TPS7A7002 Other Parts Discussed in Thread: LM2596 , TPS54560
Greetings, I have a problem with TPS7A7002, I hope somebody can explain me, why it behave like that. I have a device with GSM modem (SIMCom SIM800 series), which requires from 3…
Part Number: TPS7A7002
Hi,
The max dropout voltage at 1 A is 200 mV as per datasheet. This is calculated value with the following formula VDO = VIN - VOUT with VFB = GND configuration.
If i compare it with the graphs for VOUT = 3.3 V @ 1 A it looks…
Part Number: TPS7A7002
Hi Team:
in my application I should use a load capacitance of 660uF (330uF tantalium + 330uF electrolytic ), and with a feedforward capacitor of 4.7nF the TPS7A7002 and the device is working well.
Since in the datasheet of TPS7A7002…
If there is an AC current source placed on the output, then yes this loads the LDO.
Unfortunately none of our LDO models can represent the loop behavior (e.g. instability and oscillations) because the models are not a true loop for regulation and are…
Part Number: TPS7A7002 Data sheet www.ti.com/.../tps7a7002.pdf lists thermal resistance Junction to board as 29.9 C/W, and J to C (bottom) as 6.9 C/W. I am using the 29.9 C/W value in my 2-resistor model for thermal simulation. Is this value correct? …
Hey Javier,
If 3.8V is the System VCC (coming from TPS7A7002) then could you put a diode in series with the BQ24040? That would only allow the BQ24040 to provide power/current if the TPS7A7002's output was off or at least 1 diode drop below 4.2V. …
Part Number: TPS7A7002 Other Parts Discussed in Thread: TPS7A7300 What is the typical output noise voltage (10Hz to 100kHz) when operated with output of 5V and 3A?
Also, what is the PSRR when operated with the same output conditions?