Part Number: 2N7001T Other Parts Discussed in Thread: SN74LVC1G11 customer reported 2N7001T heat issue.
their user scenario is
VCCA=3.3V, VCCB is 1.8V and 2N7001T input is always "high"..
According to datasheet, the power consumption in 2N7001T…
Part Number: 2N7001T Dear Sirs
I've noticed the land pads for the 2N7001TDPW package are larger than the solder mask. This is causing some creepage issues in my design. Is the reason for the land pad size for heat dissipation? I'm using this part…
Part Number: SN74AUC2G07 Other Parts Discussed in Thread: TXU0101 , 2N7001T
Tool/software:
Hello,
Is it possible to use SN74AUC2G07 with VCC=3.3V?
If so, what is VIH at VCC=3.3V? Is it still 1.7V?
The reason I ask is we have a 1.8V logic input and VCC…
Part Number: 2N7001T I would like to run up to 100Mbps and drive a 50 Ohm load powered at 3.3V preferably 1.8V. The data sheet shows a typical input slew rate of 100ns/V which seems quite contradictory to the operational bit rate advertised. The plots…
Part Number: 2N7001T Other Parts Discussed in Thread: TXS0102 , SN74AUP1T17 , SN74AHC1G125
Can I have a switching waveform as like this?
I want to confirm a good low noise signal transfer/receive device.
Part Number: 2N7001T Hi,
Could you please share the screen capture for the input and output signal when 2N7001 works at 1MHz with 2N7001TEVM supplying 3.3V to VCCA and VCCB ? Additionally, it would be helpful if you could also obtain an expanded waveform…
Part Number: 2N7001T Hi e2e,
Currently, my customer use MOSFET as switch to drive LED, and I want to recommend 2N7001T to replace MOSFET switch.
So, I want to ask that this solution is suitable?
If this solution is fine, anyone could give me some selling…
Part Number: 2N7001T Hello,
We purchased the reference 2N7001TDCKR , it has no marking per datasheet.
The material we received has TI label with correct reference and all, but the component body marking is DQ.
Please help to confirm the body marking f…
Thank you Clemens for providing this answer.
Hey Vijay,
Please see the additional resources below for more information:
Voltage Translation Application Quick Reference
Common Risks of Discrete FET Voltage Translation and Advantages of TI’s Integrated…