Transcript Short study of a very simple LVDS shift possibility

Short study of a very simple LVDS shift
The Barcelone VFE chip output is CMOS, -1.65/+1.65 volt. This output is then
convert into serial LVDS format. Without chip modification or special shift on the
SPD VFE board, the LVDS signals have a typical commun mode voltage of
-1.65+1.2=-.45 V and a +/- 350mV differential swing .
They are sent to the PS FE board, on which the power supplies are 3.3 V and - 3.3 V .
A level shift of 1.65 volt between SPD VFE to PS FE board is needed.
Some ideas to do this were investigated by Barcelone and Clermont people, but up to
now all the solutions found show a lot of default (see D. Gascon document for details)
This level problem has some importance: On the VFE board 64 level shift cells are
power and area consuming. On the other hand, on the PS FE board, there is not a lot
of free area, and an extra power supply is not simple.
The goal of this study is to see if the following items are possible:
- The level shift is made on the PS FE board.(a little more confortable ...???)
- It is done on the serialised data (only 14 translations instead of 64...but @280 Mhz)
- It is done without extra power supply.
- If possible use only very few extra components.
Basic ideas
The LVDS transmission is current (3.5 mA), fully differential
The 350 mV swing is obtained under the 100 Ohms cable load.
The receiver is also differential.
Thanks to all these points, the idea is to see if the LVDS driver-receiver is
capable to make itself this (voltage) level shift.
- The driver seems to be able to work up to 4 V power supply: We can gain
something like 400-700 mV.
- The transmission is current driving: It seems to be possible to biased
by 500-1000 mV (?), just by changing the resistive load.
To study this, an LVDS output stage was designed with CADENCE IC tools
to be able to simulate the effect a self-shift load.
LDVS output stage scheme
(From National semiconductor site)
LVDS output stage simulation model
Simulation result
LVDS biased tentative
4 Volts supply : -1.65, +2.35
« T » load at the end of the cable
to fix the common mode voltage
at 1.2 V (Biased by 1.65 V)
Serial resistors to
decrease the current in the
output transistors.
LVDS-shift result (?) (simulation)
Finally the shift of 1.65 Volt
is obtained, which gives
the classical common
mode voltage at the input of
the LVDS (1.2 V)
To be carefully tested !!!
Cable effect cancellation