being a baker of OpenVizsla I can say that the last update (#29) was sent on 2013-01-30
At least they have shown some photos... Not too much to be happy, but... IIRC "only" 150USD thrown away!:
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We've made great progress with this delayed near-final prototype and we wanted to share the images with you in this interim update.
They say a picture paints a thousand words..
Here is the start of the process, this is the PCB panel being stencilled with solder paste. This machine squeezes the correct amount of solder through a highly polished, laser cut metal stencil.
After the stencilling is completed and the solder placement has been checked the board it sent over to the machine that places the components on the board.
Here are the majority of the components placed into that "pick and place" machine.
The machine has a file with the coordinates of each component that needs to be placed onto the panel.
The component is picked from the reels and then placed onto the board at incredibly high speed.
panel with placed parts.
Once the placement is complete then the board is again checked and goes into the vapour phase soldering machine.
This machine uses condensation heating, reflow is achieved by sitting within a layer of saturated vapour that causes the solder paste to melt.
Here are the settings just before it starts the reflow process.
Here is a video of this process.
http://youtu.be/BDegfybAF7MOnce the board is completed the components are visually checked (using a microscope) and then they move onto X-ray inspection.
This is the X-ray inspection of the FPGA
This has been placed and soldered near perfectly (there will be some slight adjustments to the ground pad vias and solder paste so that we get even more uniformly reflowed solder there (but this certainly isn't a show stopper).
Here you can see a close up of the "via in pad" that is used to breakout some of the signals from the incredibly small FPGA.
And here is the X-ray of the XMOS part (you can even see bond-wires onto the actual silicon
inside the chip package!)
The X-ray machine is able to check the actual solder joins on a part using 3D X-ray techniques, here is an image of the USB PHY part, you can see the part itself, copper tracks, vias and other passive components nearby. This machine is amazing and really helps with checking for any hidden physical problems related to the board.
Once all that is done the PTH (plated through-hole) components are added (USB connectors etc) and the units are removed from the panel.
We hope you will agree that this has been worth the wait.
The OpenVizsla board placed on top of a Credit Card.
This board will be tested over the next few days and assuming all is well, this will move onto serial production very soon.
More updates to follow over the coming days!
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At least they have shown some photos... Not too much to be happy, but... IIRC "only" 150USD thrown away!
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