6502.org Forum  Projects  Code  Documents  Tools  Forum
It is currently Sun Nov 24, 2024 10:26 pm

All times are UTC




Post new topic Reply to topic  [ 20 posts ]  Go to page Previous  1, 2
Author Message
PostPosted: Mon Jun 10, 2013 5:20 am 
Offline
User avatar

Joined: Tue Nov 16, 2010 8:00 am
Posts: 2353
Location: Gouda, The Netherlands
enso wrote:
With the first one, I assumed a BGA mounting issue - a short somewhere... But with 3 behaving the same way, I suspect that I did something stupid, like grounding some pins that should not be grounded...

I am very confident in my ability to solder the 484 pin BGA, at least.

I agree that a soldering problem doesn't seem likely, but you could try pulling off the FPGA and analyze the damage to see how they were soldered.


Top
 Profile  
Reply with quote  
PostPosted: Mon Jun 10, 2013 10:41 am 
Offline

Joined: Mon Mar 02, 2009 7:27 pm
Posts: 3258
Location: NC, USA
Xilinx sells a Spartan 3A/3AN Starter Kit using a 484-pin XC3S700 and they have a schematic on their website.

_________________
65Org16:https://github.com/ElEctric-EyE/verilog-6502


Top
 Profile  
Reply with quote  
PostPosted: Mon Jun 10, 2013 3:16 pm 
Offline
User avatar

Joined: Sat Sep 29, 2012 10:15 pm
Posts: 904
Arlet wrote:
... you could try pulling off the FPGA and analyze the damage to see how they were soldered.

I may have to resort to this. I have a couple of 200ANs off the boards from previous attempts, having to do with solderpaste application.

ElectricEyE- Thanks for the schematic pointer. I will refer to it and check the wiring. These boards usually have way too many devices connected, but should be helpful anyway.

Possible explanation

Because my circuit is a 2-layer board, I routed some power and ground buses directly across unused IO pins deep inside the grid, thinking that it should not matter. At some later point I think I grounded the PUDC_B pin, enabling internal pullup resistors during configuration (I can't remember why I did this). This, of course, turnes the grounded pins and their respective pullups into little heaters.

If this is the case, the boards are actually usable since the heating is not terminal and the issue should go away after configuration, which should not take more than a few seconds.

Is the 0.8A current consumption consistent with 10-20 shorted IO pins? It seems a little high, but well within the range of possible. I am away from the circuit, will check this later today.

Edit: looking at the layout I counted 49 inner pins that are grounded by the power distribution bus. With a meter, 3.3V power grid draws approximately 730mA. That's about 15mA per pin, perfectly explaining the problem.

Next task: create a simple test circuit and configure the FPGA, which should fix the problem...

_________________
In theory, there is no difference between theory and practice. In practice, there is. ...Jan van de Snepscheut


Top
 Profile  
Reply with quote  
PostPosted: Mon Jun 10, 2013 6:12 pm 
Offline
User avatar

Joined: Sat Sep 29, 2012 10:15 pm
Posts: 904
I created a simple test circuit that turns an LED on basted on another pin. That works fine.

Power consumption remains .8A! WTF...

I modified the UCF file with names for all the grounded pins, set them up as inputs in the 'top.v' file. Still drawing .8A ... Checked with FPGA explorer to make sure the IOBs are not optimised out - they are all there. Out of desperation, listed all pins shorted to the 3.3V bus as inputs as well, even though it makes less sense. Nope, still 0.8A, running hot.

So as far as I can tell, it works but runs in 'ungreen' mode, sucking power somewhere...

_________________
In theory, there is no difference between theory and practice. In practice, there is. ...Jan van de Snepscheut


Top
 Profile  
Reply with quote  
PostPosted: Mon Jun 10, 2013 6:31 pm 
Offline
User avatar

Joined: Sat Sep 29, 2012 10:15 pm
Posts: 904
It's a short between VCC and VINT. Bare board shows the 2 buses as isolated, fine. The soldered version with 1.2V only shows 1.2V on the 3.3V bus, and vice versa when connected to one supply only. With both connected, VINT reads 2.9V. How did I miss it before? Will go looking for the problem.

Interestingly, connecting just VCC (that is driving VINT at 3.3V) works fine! Probably reducing the lifespan of the chip substantially, but surprisingly resilitent.

PROBLEM FOUND

Stupid every day! Pin P11 was erroneously connected to VINT instead of VAUX/VCC. It sits in the VINT checkerboard pattern, so I see why I missed it. 3 XC3S700AN chips added to the future 'reballing' box.

Thank you for your help.

_________________
In theory, there is no difference between theory and practice. In practice, there is. ...Jan van de Snepscheut


Top
 Profile  
Reply with quote  
Display posts from previous:  Sort by  
Post new topic Reply to topic  [ 20 posts ]  Go to page Previous  1, 2

All times are UTC


Who is online

Users browsing this forum: No registered users and 3 guests


You cannot post new topics in this forum
You cannot reply to topics in this forum
You cannot edit your posts in this forum
You cannot delete your posts in this forum
You cannot post attachments in this forum

Search for:
Jump to: