On Aug 1, 5:29=A0pm, "BobW" <nimby_GIMME_SOME_S...@roadrunner.com>
wrote:
> "Nico Coesel" <n...@puntnl.niks> wrote in message
>
> news:4a749265.358227234@news.planet.nl...
>
>
>
> > "BobW" <nimby_GIMME_SOME_S...@roadrunner.com> wrote:
>
> >>"Nico Coesel" <n...@puntnl.niks> wrote in message
> >>news:4a7477d0.351422078@news.planet.nl...
> >>> Some food fo thought:
>
> >>> I'm working on a new design in which I need to bring 64 LVDS (250Mbps
> >>> each/ 125MHz fmax) lines into a Spartan3 FPGA. The distance between
> >>> the source and the FPGA is less than 2" / 5cm. Ofcourse there is a
> >>> solid ground plane underneath the signals (the board will have at
> >>> least 4 layers).
>
> >>> I'm wondering if I can save a lot of pins if I feed the LVDS signals
> >>> single ended into the FPGA (terminate the pair close to the FPGA and
> >>> leave one end dangling). I could bias the Vref pins on the FPGA to th=
e
> >>> centre point of the LVDS signal. If I set the input pin type to GTL i=
t
> >>> should work on paper. The LVDS signal has enough swing to exceed the
> >>> minimum signal amplitude.
>
> >>> Anyone ever tried this?
>
> >>> --
>
> >>The thing that would concern me is how to guarantee that VREF is held a=
t
> >>the
> >>centerpoint (common mode) of the signal swing. If you were only dealing
> >>with
>
> > The datasheet of the source chip specifies that. I more or less assume
> > the source chip has the same centerpoint on all outputs.
>
> >>one pair then you get tricky and extract the common-mode point from tha=
t
> >>pair - assuming that the signal was always transitioning. Knowing that
>
> > IMHO you don't need a signal that is always toggling. If you connect a
> > resistor to each leg of the pair and a capacitor to ground (resistor
> > divider between the two legs) then the voltage across the capacitor
> > should be the centre voltage no matter what the LVDS signal looks
> > like.
>
> Ahhh, yes. Silly me.
>
> I hope this works out for you. I suspect it will if you adapt VREF to the
> true centerpoint of one of the signals and if all the driver's common mod=
e
> points stay fairly close to each other.
>
> If one of those pairs is a forwarded clock, and if you decide to do the V=
REF
> adapt technique, then I wouldn't use the clock line for that function. LV=
DS
> is not intrinsically source terminated (it's high impedance drive [curren=
t
> source]). So, if you get any type of end reflection it will eventually co=
me
> back toward that receiver. Data lines are somewhat forgiving. Clock lines
> are like women.
>
> Bob
> --
> =3D=3D All google group posts are automatically deleted due to spam =3D=
=3D
You should consider running both halves of each pair up to the
Spartan 3 and terminate with 100 ohms differential near the
pin. This gets rid of the reflection issue although you end
up with more routing. It also addresses another issue found
with most LVDS drivers that I've come across. They are designed
to run into a 100 ohm differential load. Very often they
won't work properly without the load. What I see is that
the signal swing increases significantly without the load,
especially at low frequencies. Then the switching delay
increases with the increased swing. So if you have a data
bit that toggles on random clock edges, the clock to output
delay through the LVDS device will be longer after it has sat
at the same value for more than one clock period than
on edges where it toggled on the previous cycle. This
second issue could be handled with the termination
resistor near the source, but once you have the extra
parts and routing, it seems reasonable to put the
resistor where it gives the best signal integrity.
Regards,
Gabor
Reply by BobW●August 1, 20092009-08-01
"Nico Coesel" <nico@puntnl.niks> wrote in message
news:4a749265.358227234@news.planet.nl...
> "BobW" <nimby_GIMME_SOME_SPAM@roadrunner.com> wrote:
>
>>
>>"Nico Coesel" <nico@puntnl.niks> wrote in message
>>news:4a7477d0.351422078@news.planet.nl...
>>> Some food fo thought:
>>>
>>> I'm working on a new design in which I need to bring 64 LVDS (250Mbps
>>> each/ 125MHz fmax) lines into a Spartan3 FPGA. The distance between
>>> the source and the FPGA is less than 2" / 5cm. Ofcourse there is a
>>> solid ground plane underneath the signals (the board will have at
>>> least 4 layers).
>>>
>>> I'm wondering if I can save a lot of pins if I feed the LVDS signals
>>> single ended into the FPGA (terminate the pair close to the FPGA and
>>> leave one end dangling). I could bias the Vref pins on the FPGA to the
>>> centre point of the LVDS signal. If I set the input pin type to GTL it
>>> should work on paper. The LVDS signal has enough swing to exceed the
>>> minimum signal amplitude.
>>>
>>> Anyone ever tried this?
>>>
>>> --
>>
>>The thing that would concern me is how to guarantee that VREF is held at
>>the
>>centerpoint (common mode) of the signal swing. If you were only dealing
>>with
>
> The datasheet of the source chip specifies that. I more or less assume
> the source chip has the same centerpoint on all outputs.
>
>>one pair then you get tricky and extract the common-mode point from that
>>pair - assuming that the signal was always transitioning. Knowing that
>
> IMHO you don't need a signal that is always toggling. If you connect a
> resistor to each leg of the pair and a capacitor to ground (resistor
> divider between the two legs) then the voltage across the capacitor
> should be the centre voltage no matter what the LVDS signal looks
> like.
Ahhh, yes. Silly me.
I hope this works out for you. I suspect it will if you adapt VREF to the
true centerpoint of one of the signals and if all the driver's common mode
points stay fairly close to each other.
If one of those pairs is a forwarded clock, and if you decide to do the VREF
adapt technique, then I wouldn't use the clock line for that function. LVDS
is not intrinsically source terminated (it's high impedance drive [current
source]). So, if you get any type of end reflection it will eventually come
back toward that receiver. Data lines are somewhat forgiving. Clock lines
are like women.
Bob
--
== All google group posts are automatically deleted due to spam ==
>
>"Nico Coesel" <nico@puntnl.niks> wrote in message
>news:4a7477d0.351422078@news.planet.nl...
>> Some food fo thought:
>>
>> I'm working on a new design in which I need to bring 64 LVDS (250Mbps
>> each/ 125MHz fmax) lines into a Spartan3 FPGA. The distance between
>> the source and the FPGA is less than 2" / 5cm. Ofcourse there is a
>> solid ground plane underneath the signals (the board will have at
>> least 4 layers).
>>
>> I'm wondering if I can save a lot of pins if I feed the LVDS signals
>> single ended into the FPGA (terminate the pair close to the FPGA and
>> leave one end dangling). I could bias the Vref pins on the FPGA to the
>> centre point of the LVDS signal. If I set the input pin type to GTL it
>> should work on paper. The LVDS signal has enough swing to exceed the
>> minimum signal amplitude.
>>
>> Anyone ever tried this?
>>
>> --
>
>The thing that would concern me is how to guarantee that VREF is held at the
>centerpoint (common mode) of the signal swing. If you were only dealing with
The datasheet of the source chip specifies that. I more or less assume
the source chip has the same centerpoint on all outputs.
>one pair then you get tricky and extract the common-mode point from that
>pair - assuming that the signal was always transitioning. Knowing that
IMHO you don't need a signal that is always toggling. If you connect a
resistor to each leg of the pair and a capacitor to ground (resistor
divider between the two legs) then the voltage across the capacitor
should be the centre voltage no matter what the LVDS signal looks
like.
--
Failure does not prove something is impossible, failure simply
indicates you are not using the right tools...
"If it doesn't fit, use a bigger hammer!"
--------------------------------------------------------------
Reply by BobW●August 1, 20092009-08-01
"Nico Coesel" <nico@puntnl.niks> wrote in message
news:4a7477d0.351422078@news.planet.nl...
> Some food fo thought:
>
> I'm working on a new design in which I need to bring 64 LVDS (250Mbps
> each/ 125MHz fmax) lines into a Spartan3 FPGA. The distance between
> the source and the FPGA is less than 2" / 5cm. Ofcourse there is a
> solid ground plane underneath the signals (the board will have at
> least 4 layers).
>
> I'm wondering if I can save a lot of pins if I feed the LVDS signals
> single ended into the FPGA (terminate the pair close to the FPGA and
> leave one end dangling). I could bias the Vref pins on the FPGA to the
> centre point of the LVDS signal. If I set the input pin type to GTL it
> should work on paper. The LVDS signal has enough swing to exceed the
> minimum signal amplitude.
>
> Anyone ever tried this?
>
> --
The thing that would concern me is how to guarantee that VREF is held at the
centerpoint (common mode) of the signal swing. If you were only dealing with
one pair then you get tricky and extract the common-mode point from that
pair - assuming that the signal was always transitioning. Knowing that
you've selected the proper sampling point for all 64 signal will take a leap
of faith because I don't think that the common-mode points are guaranteed
that accurately.
LVDS does take a lot of pins, but its advantages (low power, low SSO
footprint, simple termination scheme), in my experience, have always
outweighed the I/O count requirements.
Bob
--
== All google group posts are automatically deleted due to spam ==
Reply by Kolja●August 1, 20092009-08-01
On 1 Aug., 19:27, n...@puntnl.niks (Nico Coesel) wrote:
> I'm wondering if I can save a lot of pins if I feed the LVDS signals
> single ended into the FPGA (terminate the pair close to the FPGA and
> leave one end dangling). I could bias the Vref pins on the FPGA to the
> centre point of the LVDS signal. If I set the input pin type to GTL it
> should work on paper. The LVDS signal has enough swing to exceed the
> minimum signal amplitude.
You have no guarantee on the common mode voltage so this is a risky
approach.
But there is no reason for that. Just use one of the existing single
ended high speed
low swing signaling standards. (HSTL, SSTL, whatever)
Also, you should use internal termination.
Kolja Sulimma
www.cronologic.de
Reply by Nico Coesel●August 1, 20092009-08-01
Some food fo thought:
I'm working on a new design in which I need to bring 64 LVDS (250Mbps
each/ 125MHz fmax) lines into a Spartan3 FPGA. The distance between
the source and the FPGA is less than 2" / 5cm. Ofcourse there is a
solid ground plane underneath the signals (the board will have at
least 4 layers).
I'm wondering if I can save a lot of pins if I feed the LVDS signals
single ended into the FPGA (terminate the pair close to the FPGA and
leave one end dangling). I could bias the Vref pins on the FPGA to the
centre point of the LVDS signal. If I set the input pin type to GTL it
should work on paper. The LVDS signal has enough swing to exceed the
minimum signal amplitude.
Anyone ever tried this?
--
Failure does not prove something is impossible, failure simply
indicates you are not using the right tools...
"If it doesn't fit, use a bigger hammer!"
--------------------------------------------------------------