Part Number: LP38512-ADJ Other Parts Discussed in Thread: TPS7A52 , TPS74801 Hello,
I cannot find the LP38512-ADJ model in PSPICE for TI (just installed the latest version), also the web page doesn't list any option to get a simulation model.
LP38512…
Part Number: LP38512-ADJ Other Parts Discussed in Thread: TPS7A7001 , TPS7A57 Hi,
We configured this LDO as shown in the Typical Application circuit diagram.
Vin = 5V
Vout = 3.3V typical
Maximum load current 500mA
R1 (feedback) = Trimmer Resistor (3296W…
Part Number: LP38512-ADJ Other Parts Discussed in Thread: LP38512 Hello support team,
My customer plan to use LP38512MR-ADJ and ask some questions, could you support?
Usage setup: VIN: 3.7V, VOUT: 3.0V
*What is maximum output capacitance? They plan to…
Part Number: LP38512-ADJ Hi Team,
Would please help to confirm junction to ambient thermal resistor of LP38512-ADJ(SO PowerPad)? It's 168W/C in the datasheet, seems to be so large. The test results show it should be around 40W/C per customer's feedback…
Part Number: LP38512-ADJ Hi Experts,
Good day.
I am not sure if my understanding is correct with the LP38512-ADJ.
If I wanted to provide the lowest possible output of the subjected LDO, Vout = 500mV, based from page 10 of its datasheet guidance formula…
Part Number: LP38512-ADJ Other Parts Discussed in Thread: LP38512 , Hi Team,
Our customer is using LP38512-ADJ for 3.3V to 1.8V application for DLP DMD power supply, but recently they found there is about 1 in 10000 probability for LP38512 no 1.8V output…
Part Number: LP38512-ADJ Hi,
Planning to consider the part # LP38512-ADJ in my design.
I could not see the Iq current in the datasheet ??
Also let me know your comments suit for my application.
Vinput Min /Max : 2.2V
Vout - 0.495V to 0.6V
Iout = 500mA…
Part Number: LP38512-ADJ Other Parts Discussed in Thread: TPS7A90 , LP38512 Hello,
I wants to use TPS7A90 or LP38512-ADJ(SO package) for a project. And I want to select the device which has better thermal performance. Then I compared Theta_JA of both devices…
Hi,
Looking at the specifications of the 1910-50BBM DMD chip, the maximum supply current (ICC) is 1.29 A. This results in the pass FET of the LP38512-ADJ dissipating at most:
Pd = (Vin - Vout) * Iout = (3.3 V - 1.8 V) * 1.29 A = 1.94 W
With this much…
Part Number: LP38512-ADJ
Dear E2E,
Please help to cehck whether we have p2p LDO solution with AP7362 SO-8 package?
i found the similar one is LP38512-ADJ, but two portion different, 1) pin define is total oppsite rotation, such as pin 1 in LP part is…