Part Number: DS90LV012A Hi,
Recently I download DS90LV012ATMF ibis model. In this model missing AMI,DLL files. I need those details. please share those details
Example :
IBIS-AMI models consist of three main components:
Analog models for the transmitter…
Part Number: DS90LV012A Hi,
Im using this part DS90LV012ATMF with a CML AC coupled differential at the input and I would like to know the exact termination and biasing needed, can you please help.
Thanks,
Joseph
Part Number: DS90LV012A Hi Sir,
My customer would like design DS90LV012.
Would you please review U7217 DS90LV012ATMF schematic and layout and provide your comment?
https://txn.box.com/s/6e64d0rixvn2a8e5mqbi7xkdsdegfj73
layout viewer
https://txn.box…
Part Number: DS90LV012A Hello Team,
I want to use DS90LV012A with LVPECL input. In that case, do I need AC coupling or DC coupling for input as LVPECL to LVDS? If yes, kind coupling should I use between AC or DC?
Best regards,
Part Number: TMS320F28384D Other Parts Discussed in Thread: AMC1305L25 , DS90LV011A , DS90LV012A Dear Sir ,
We are developing motor controller based on C2000 28384x Chip , and considering to measure the currents of the motor using Sigma delta modulator…
Part Number: DS92LV010A Other Parts Discussed in Thread: DS90LV012A , I am currently working on a layout for DS92LV010A and DS90LV012A. Is it better to lay it out as a “T” with 2 terminated LVDS branches or use a single much longer branch in a “C” configuration…
The THVD2450 and THVD2450V are different devices.
For unidirectional signals, you do not need a termination resistor at the driver, so the load is lower.
But to reduce power consumption for distances less than 10 m, do not use RS-422 but LVDS. Use drivers…
Part Number: DS90LT012AQ-Q1 Other Parts Discussed in Thread: DS90LV012A , SN65LVDS4 , SN74AUC1G125 , SN74AXC1T45-Q1 Hi all
My customer is running simulations for the DS90LT012AQMFE/NOPB using the IBIS-Model from the TI page:
https://www.ti.com/lit/zip/sn…
To convert CMOS to CML, you can use any CML repeater (e.g., SN65CML100) and drive its input with the single-ended signal; see How to Use a 3.3-V LVDS Buffer as a Low-Voltage LVDS Driver . It's likely that you can do this directly with the SFP+ transceiver…