Part Number: DS90LT012AQ-Q1 Other Parts Discussed in Thread: SN65MLVD3 , SN65LVDS180-Q1 To whom it may concern - I need to set up an LVDS receiver for Failsafe State= LOW . I require a variant that operates from -40°C to 125°C , such as e.g. the DS90LT012AQ…
Part Number: DS90LT012AQ-Q1 Team,
Can I inquire if the DS90LT012AQ-Q1 is capable of having LVDS input voltage / signaling present but the receiver is powered down?
What would be the leakage on the TTL output in this scenario?
example scenario…
Part Number: DS90LV011AQ-Q1 Other Parts Discussed in Thread: DS90LT012AQ-Q1 Tool/software: Dear Support Team,
We are integrating the DS90LV011AQ-Q1 (transmitter) and DS90LT012AQ-Q1 (receiver) into a new project. These components will be located on separate…
Part Number: DS90LT012AQ-Q1 Hi
We refer AN-1194 application report.
http://www.ti.com/lit/an/snla051b/snla051b.pdf
In this user guide, there is the example figure of external failsafe as Figure 3.
IN+ : R1=8K pull up
IN- : R3 = 4.99K pull…
Part Number: DS90LT012AQ-Q1
Hi
I have question of AC coupling in LVDS to LVDS solution.
We want to extend transfer distance from driver to receiver using 10m cable. According to page 6 of DS90LT012AQ datasheet, 10M distance can be acceptable with…
Part Number: DS90LV028AQ-Q1 Other Parts Discussed in Thread: DS90LT012AQ-Q1 Hi Team,
Do we have any information on the change in prop delay of these buffers over temperature? Or typical jitter?
DS90LV028AQ-Q1
DS90LT012AQ-Q1
-Mitchell
Part Number: SN65LVDT2 Other Parts Discussed in Thread: DS90LT012AQ-Q1 , SN65LVDS2 , DS90LT012A , DS90LV012A Hi Team,
Can you suggest an alternative for SN65LVDT2? I found SN65LVDS2 however, the SOT23 package is out of stock. Is DS90LT012AQ-Q1 a good…
Part Number: DS90LT012A
Hi
For DS90LT012AQ , understand from the datasheet that the Theta_JC is 107degC/W.
https://www.ti.com/lit/ds/symlink/ds90lt012aq-q1.pdf?ts=1656066562026&ref_url=https%253A%252F%252Fwww.google.com%252F
I would like…
It is not possible to design a complete circuit without knowing the electrical characteristics of the clock signal. Anyway, assuming that you do not know the DC voltage of the clipped sine, you have to derive the reference voltage for the comparator from…