Other Parts Discussed in Thread: SN74LVC3G34 Hi team,
Our customer has a question about the package of SN74LVC3G34 in VSSOP8.
TI P/N: SN74LVC3G34DCU
Its pitch is 0.50mm, but normally VSSOP is 0.65mm pitch package, could you please double confirm if…
Other Parts Discussed in Thread: SN74LVC3G34 , UCC27517 Team,
Customer is looking for a ready to use IC/driver to: - Create a 3V logic signal at the far end of a 50R line (attenuation over the 50R line is negligible). - The signal has t_rise/fall 500ps…
This is allowed; see [FAQ] Can I connect two outputs from a CMOS logic device together directly?
It might be cheaper to combine a single-channel level shifter like the SN74AXC1T45 with a stronger buffer like the SN74LVC2G34/SN74LVC3G34/SN74LVC125A.
1. At 3.3 V, LVC family devices have the strongest outputs, and are best suited as buffers.
2. 24 inputs are a higher load than 8 inputs. How much larger the load is depends also on the trace length, so my answer is a definitive "maybe". Using SN74LVC3G34…
Part Number: SN74LVC2G125 Other Parts Discussed in Thread: SN74LVC2G14 , SN74LVC3G34 , SN74LVC2G34 Hi,
I'd like to use SN74LVC2G125 as spliter for I2S signals (MCLK, BCK, LRCK) Below is the MCLK implementation as an example, may i know if it's feasible…
Yes, LVC buffers are appropriate for this application.
3.3 V to 3.3 V does not need a translator; simply use the SN74LVC2G34.
Converting 5 V to 3.3 V can be done with any buffer with overvoltage-tolerant inputs, such as the SN74LVC1G34. (Or use the SN74LVC3G34…
Part Number: SN74LVC1G125 Other Parts Discussed in Thread: SN74AUC1G125 , SN74LVC3G34 Hi Team,
I would like to confirm if our SN74LVC1G125 can work at 100MHz at 1.8V?
Thank you and looking forward for your response.
Regards,
Maynard