Difference between revisions of "EL Driver 1"

From Hackstrich
(status updates.)
(Status update, yay!)
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= Status =
 
= Status =
 +
* 2012-02-26: Completed PCB layout and CAM, sent off to Laen for manufacturing.  Transformer samples ordered, still need to do the Digikey order.
 
* 2012-02-25: Completed design and simulation runs, started schematic entry and BOM creation.
 
* 2012-02-25: Completed design and simulation runs, started schematic entry and BOM creation.
 
* 2012-02-21: Decided that the tolerances were just too tight on the existing design, and scrapped it.  DC-AC converter can stay, but the DC-DC side needs redesigning.  Started a redesign around the LT1737, which is similar to the LT3575 I was using, but uses an external MOSFET, which is a lot more flexible.
 
* 2012-02-21: Decided that the tolerances were just too tight on the existing design, and scrapped it.  DC-AC converter can stay, but the DC-DC side needs redesigning.  Started a redesign around the LT1737, which is similar to the LT3575 I was using, but uses an external MOSFET, which is a lot more flexible.

Revision as of 03:33, 27 February 2012

The EL Driver 1 will be an EL wire driver, that can be plugged into the EL Shield (revision 2+) and a future baseboard for standalone use.

  • Generates 80VDC @ ~50-150mA from 3-15V in using the LT3575 IC
  • Converts the 80VDC into 160v p-p using an H bridge
    • H bridge is driven from a PIC10F microcontroller
    • Can be set to low frequency, high frequency, or fed a pulse train from an external device

Status

  • 2012-02-26: Completed PCB layout and CAM, sent off to Laen for manufacturing. Transformer samples ordered, still need to do the Digikey order.
  • 2012-02-25: Completed design and simulation runs, started schematic entry and BOM creation.
  • 2012-02-21: Decided that the tolerances were just too tight on the existing design, and scrapped it. DC-AC converter can stay, but the DC-DC side needs redesigning. Started a redesign around the LT1737, which is similar to the LT3575 I was using, but uses an external MOSFET, which is a lot more flexible.
  • 2012-02-20: Built the AC converter, troubleshot the software a bunch. Now the built-in high/low frequency modes work fine, the external-sync mode works mostly, but there's a weird short pulse right before it goes into the off-time. Attempted to test, but since the HVDC side isn't generating enough voltage, it won't work yet.
  • 2012-02-18: Lots more troubleshooting, at a reduced current level so nothing gets damaged. Lowered the zener voltage in the snubber which helped a lot, but the snubber still acts too slowly. Will replace the diode in the snubber with a Schottky on Tuesday to avoid the response time associated with p-n diodes, see if that fixes it.
  • 2012-02-04: Lots more troubleshooting. No real progress other than blowing up more controller chips.
  • 2012-01-25: Symbol wasn't wrong, transformer had the mark on the wrong side (my fault, I took it apart and reassembled it wrong). Found that the voltage spike on the primary upon turn-off is blowing up the controller chip's switch.
  • 2012-01-23: Did a lot of troubleshooting. Found the transformer was in backwards, and the symbol must be wrong as once it's in right, the secondary is wired up backwards. Green-wiring the board now to fix that.
  • 2012-01-18: Assembled DC-DC section. Connected to 5V it pulls 250mA and outputs nothing. Troubleshooting needs to be done.
  • 2011-12-04: Completed board layout, finished silkscreen, CAM files output and sent to Laen. Parts still need to be ordered.
  • 2011-12-03: Completed 95% of board, 4 airwires left, then silkscreen/CAM.
  • 2011-12-02: Completed schematic and BOM.
  • 2011-12-01: Completed most of the schematic and BOM, LEDs still remaining to be done.
  • 2011-11-30: Design of flyback converter based around LT3575 finalized. Started the schematic entry.
  • 2011-11-29 and prior: LTspice simulations to finalize design.

Revision 1 Issues

  • Secondary of transformer is backwards