Part Number: TPS7A05 Hi Team,
I see there is Iq vs Vin @ Iout=1mA, do we have data @ Iout = 0A? will Iq increase when Iout change from 1mA to 0A? Thanks.
BRs
GIven
Part Number: TPS7A05 Hi,
If the recommended operating conditions table considers the 50% derating, does that mean that the 22uF max Cout really means that the actual max capacitance is 11uF? Or can we use an ACTUAL Cout of 22uF?
Are there stability issues…
Part Number: TPS7A05 Hi team,
I have a few questions about TPS7A05.
1. Do you have any materials about temperature shift? If do, I wonder the typical value and maximum value of it. The unit is ppm/C.
2. Have you tested long time stability of the device…
Part Number: TPS7A05 Hi Team,
customer would like know the maximum dropout voltage in 3.3Vout and Iout=20~30mA. I noticed that the dropout voltage is described only in the Iout=200mA. Thank you.
Sincerely
Frank
Part Number: TPS7A05 Other Parts Discussed in Thread: TPS7A03 Dear Sir,
Let me explain customer design first!
As customer application(Tag related product), they will induce and generate 3.6V/2s pulse from ANT(coil) for TPS7A05 EN input.
After TPS7A05…
Part Number: TPS7A05 I have below doubts on LDO's Quiescent Current 1)I_ground current mentioned in datasheet is the Quiescent Current of the LDO? 2)Is Quiescent Current is directly proportional to Package size of LDO? If so...Iq of smaller size package…
Part Number: TPS7A05 Hi team,
My customer want to check with about the TPS7A05 input and output cap. Does it OK for them to use 0.47uF with 01005 very small cap? What the effective input and output cap requirement?
Thanks and Best Regards,
Will
Part Number: TPS7A05 Hi,
I have a 3V-rated DC vibration motor in my design. The design is a wearable product so space is extremely limited. We are using a 4.2V LiPo battery to power the system and the rest of the circuits are powered by a 1.8V regulator…
Part Number: TPS7A05 Hi,
for most LDOs, we have minimum output capacitor requirement.
I would like to know what would happen if we use output capacitors who has lower capacitance value than the recommended minimum value? Why do we have such minimum value…