Part Number: SN74LVC2G125-Q1 Hi team,
The customer's design does not match the description in the DS. They connected OE to GND:
Please help confirm whether this design is feasible. If a pull-up must be connected, what is the recommended value…
Part Number: SN74LVC2G125-Q1 Hello, I am performing Signal Integrity analysis for which I need IBIS model for SN74LVC2G125-Q1.
I looked into the technical documents of this part but it is not available there.
Please help me to get the IBIS model for…
Part Number: SN74LVC2G125-Q1 Hi Team,
My customer would like to select a buffer, SN74LVC2G125-Q1 is not suitable for all the requirement.
Although SN74LVC2G125-Q1 is Q1, but it only support -40 to 85 in datasheet.
Customer require Max tpd of 2…
The TCA9517-Q1 is an I²C buffer and is designed for bidirectional open-drain signals. It would work, but the SN74LVC2G125-Q1 is cheaper and more robust in this application. If you need an active-high enable signal, use 2× SN74LVC1G126-Q1.
At 1.8 V, the 2N7001T-Q1 indeed has more drive strength (8 mA) than LVC (4 mA).
Alternatively, use multiple LVC outputs in parallel (SN74LVC2G125-Q1, SN74LVC125A-Q1).
Hi Deepak,
Thanks for the detailed information. There's one thing missing though - what's the load that is to be driven?
If you're driving a 12 cm or less trace with 30pF or less total load capacitance, I would recommend using any of these options…
Hi Yoshida-san,
The best Q100 qualified device I found was SN74LVC2G125-Q1.
This device has a maximum t pd of 9.1 ns at 1.8 V supply, and will support over-voltage inputs up to 6.5 V.
Part Number: THVD1552 Other Parts Discussed in Thread: SN74LVC2G125 , SN74LVC1G08 , THVD1452 Hi, staff
Enable signal connection for different supply voltages
Q1: Drive the THVD1552 RE(2) with SN74LVC2G125 2Y-OUT(3). The Vcc of the SN74LVC2G125 is…
