Part Number: SN74AUP1T34-Q1 The Features section on page 1 says the maximum tPD at 3.3V is 3.7ns.
We have some parts in stock that are simply labelled "U4J" on the part. They were in the bin for the SN74AUP1T34QDCKRQ1.
The datasheet for that…
Part Number: SN74AUP1T34 Other Parts Discussed in Thread: SN74LV1T34 , SN74LVC1G17 , SN74AUC1G17 , SN74AUP1G17 , SN74AUP1G34 , SN74LVC1G34 Hi,
I`m using the SN74AUP1T34 in my design to up convert a logic level from 1.8V to 3.3V and 3.3V to 1.8V. The SN74AUP1T34…
Part Number: SN74AUP1T34 Other Parts Discussed in Thread: TINA-TI I am planning to use this part in one of the designs where we need to drive clock for six devices with 1.8V level(19 MHZ). There is only a IBIS model available in the product page. Is there…
Part Number: SN74AUP1T34 Hi Team,
Is VCCA and VCCB independent to each other?
Customer wants to design VCCA = 3.3V, VCCB = 1.8V, or VCCA = 1.8V, VCCB = 3.3V, both scenario could be.
Thanks!
Andrew
Part Number: SN74AUP1T34 Other Parts Discussed in Thread: LMG1020 Hello,
We need to convert 3.3V cmos logic to logic for a gate driver where -2.5V is high and -5V is low. Do we have any voltage translators or ICs that can help accomplish this?
Thanks! …
Part Number: SN74AUP1T34 Hello,
I'd like to double check when both VCCA and VCCB are unpowered:
- that the output will remain HiZ when input voltage is 3.3V (generated by external source that is powered earlier than the VCCA/B).
- there will not be…
Part Number: SN74AUP1T34 Other Parts Discussed in Thread: SN74LV1T126 Hi,
I have data line of module X that has typical voltage of 1.8V. I am planning to connect it to both VCCA (power) and A (data) pins. Then, the B will be connected MCU GPIO of 3.3V.…
Part Number: SN74AUP1T34 Other Parts Discussed in Thread: 2N7001T Hello,
I was wondering if this part would allow you to go down in voltage as well as up. The datasheet only mentions going up in voltage and I would like to go down to 1.8V from 3.3V.
…
Part Number: SN74AUP1T34 Other Parts Discussed in Thread: SN74LVC1T45 I want to run this part at 4.2 Volts over the specified temperature. Since I am only operating at very slow switching frequencies (i.e. less than 1 hz) can I drive this at 4.2 Volts…
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