Part Number: SN74AUC1G126 Hi Team,
Good day. I am posting this inquiry on behalf of the customer.
"The SN74AUC1G126 bus buffer gate is operational at 0.8-V to 2.7-V VCC but is designed specifically for 1.65-V to 1.95-V VCC operation.
I don't understand…
Part Number: SN74LVC2G126 Other Parts Discussed in Thread: SN74AUC1G126 Hi,
is it possible to use a pull-up resistor applied to the output of this device to fix the output to high value when in hi-z mode?
Thanks
Section 9.2.3 tells you that pull-up resistors on the A side are needed. For unidirectional downconversion, a buffer with overvoltage-tolerant inputs like the SN74AUC244/SN74AUC1G126 would be simpler and more robust.
Part Number: SN74LVC2G126 Other Parts Discussed in Thread: SN74AUC2G126 , SN74AUC1G126 With VDD = 1.8V± 5%, can this device support 66.66MHz input square wave?
What is the expected Tr/Tf for CL = 15pF in this case?
Has this device been observed to…
Other Parts Discussed in Thread: SN74AUC1G126 Hi,
I'd like to ask a question about this part: http://focus.ti.com/docs/prod/folders/print/sn74auc1g126.html
I'm operating it at 1.8V and it is buffering a 26MHz clock. I don't have tools to simulate…
Were these waveform really measured with a 50 Ω probe? SPI signals require a high-impedance load.
These look like signal reflections. How long are both traces?
For a unidirectional signal, you could use a simple buffer like the SN74LVC1G126 (or…
In that case, the SN74AUC1G125 or SN74AUC1G126 will do what you want.
Supply the device with 2.5V to get the 2.5V output, and the inputs can be up to 3.6V.
Part Number: SN74LVC1G126 Other Parts Discussed in Thread: SN74AUC1G126 My customer need tpd parameter accurate range and tolerance under their actual condition-- Vcc=1.8V and tr/tf about 7ns. The spec in datasheet is under condition of tr/tf=2ns, so it…