Part Number: SN74AUP1G00
Hi Expert,
Could you help to check below questions for customer?
Customer uses footprint (0.56mm)larger than our recommendation (0.42mm like blue mark in figure-1).From your point of view, what will the foot print like that …
Part Number: SN74AUP1G00 Hi,
I use a 3.3V supply from a buck converter to supply the NAND-Gate. May I ask you please, in case of Zero Input voltage to buck or Floating Input of the buck, what would the Output of the NAND-Gate in this case? will it be…
Hi Kevin,
The best I can do for you is probably a NAND gate and an inverter from the same family. The simulation behavior should be pretty similar.
Unfortunately there is no Schmitt-trigger NAND gate, but the inverter does have Schmitt-triggers.
https…
Part Number: SN74AUP1G97 Other Parts Discussed in Thread: SN74AUP1G00
Hi,
I checked two datasheet of SN74AUP1Gxx series, one is input with Schmitt-Trigger SN74AUP1G97 , another is input of CMOS mode SN74AUP1G00 .
I copied the input voltage VIL & VIH spec…
Hello,
In the electrical characteristics section of the datasheet for the SN74AUP1G00, the Icc is stated to be 0.9uA max across temperature.
Please note that we are trying to ensure that all posts are answered. With any new posts, we will be sure answer…
Other Parts Discussed in Thread: TLV3401 , SN74AUP1G14 , SN74AUP1G00
I presented this issue to TI support and they bailed out on me and suggested I use this forum to see if anyone could offer a suggestion or solution, I am about to try the TLV3401 comparator…
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