Part Number: SN65LVDS4 Hi team,
My customer wants to use SN65LVDS4 for differential-to-single-ended CLK conversion in their application.
But they have the concern that the single-ended CLK will be impacted by other interferences and couple back to input…
Part Number: SN65LVDS4 Hello Team,
why is the signaling rate limited for the LVDS4 while the LVDS1 was going down to DC? (see below).
Can't the LVDS4 be used down to DC?
Thanks and Best Regards,
Hans
Part Number: SN65LVDS4 Hello,
could you tell if a similar transceiver with an input voltage range of 1.2V to 3.3V is available ?
Thank you very much.
Best regards
Adnan
Part Number: SN65LVDS4 Hi,
I know that it is not recommended to use with VCC=2.5V and VDD=1.8V. But then I'd like to know what issue will be happened if it's operated with this condition. Will excessive heat up be happened due to unexpected higher…
Hello,
We don't have a differential to single-ended devices similar to the ones I mentioned above.
We have 'protocol' translators like converting LVPECL → LVCMOS or LVDS → LVCMOS. On the SN65LVDS4 , you can choose the LVCMOS voltage…
Hello Hassan,
Unfortunately we do not have any 1.8V LVDS driver or transceiver device. As you mentioned above, we do have the SN65LVDS4 and DS90LVRA2 both LVDS receivers at 1.8V.
Our solution at the moment is to level shift from 1.8V to 3.3V. We have an…
Other Parts Discussed in Thread: SN65MLVD2 , SN65MLVD047 , SN65LVDS4 Hi All,
In the current design I am using TX device: sn65mlvd047 , RX device: sn65mlvd2
I want to replace the RX device to sn65lvds4 from sn65mlvd2. Do you see any issues with this?
The reason…
I need to know what the voltage tolerance is for Vcc and Vdd both at 1.8V. If Vdd is exactly 1.8V, can Vcc be 1.8V +/- 5% (1.71V to 1.89V) for example.
This has to work over the -40C to +85C temp range and the data sheet stated output loads
