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wernermisc/labsw/LOG
2011-09-05 15:31:04 -03:00

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--- Thu 2011-09-01 ------------------------------------------------------------
PCB milling #1:
- setup:
- board is pertinax
- locally sourced "W.T." (Taiwan) mounting tape
- measurements:
- board: 101.6 mm x 44.6 mm (nom. 102.0 mm x 50.0 mm)
- defects found:
- drill broke on first hole, due to insufficient clearance found in
run #2. Second drill just cleared the board by sheer luck.
- drill/mill depth too shallow
- column cavities too wide
- changes for next run:
- narrow column cavities from 8.4 mm to 8.0 mm (bad idea, see below)
PCB milling #2;
- changes made:
- board is FR4
- corrected depth
- defects found:
- clearance insufficient (top copper damaged; endmill broke)
- changes for next run:
- increase clearance by 1 mm
- future: include board thickness in gp2rml clearance calculation
(gp2rml calculates "clearance" from the highest point in the plot,
which for PCBs also happens to be the lowest point, and thus
includes the board itself and the vertical overshoot. 2 mm are
sufficient for 0.8 mm boards, but 1.6 mm boards need at least
0.8 mm more.)
PCB milling #3:
- changes made:
- corrected clearance
- Tesa 5767 mounting tape (no longer available)
- measurements:
- column cavity: ~7.6 mm x 10.3 mm (nom. 8.0 x 10.4 mm)
- board: 102.2 mm x 50.2 mm (nom. 102.0 mm x 50.0 mm)
- "narrow tongue": 9.1 mm (nom. 9.0 mm)
- "wide tongue": 14.1 mm (nom. 14.0 mm)
- defects found:
- column cavities too narrow (also in design; need 8.4 mm)
- 100 mil header holes a little bit too small
- 200 mil header holes much too small
- rear edge touches wall
- front edge very close to buttons (not sure how close)
- changes for next run:
- widen column cavities by 0.2 mm on each side
- compensate tool for 0.1 mm of board deflection on each side
--- Fri 2011-09-02 ------------------------------------------------------------
Layout printed on #3:
- infrastructure:
- tried new approach of transferring both sides: instead of stapling
the two sheets, put adhesive tape around the edges. The result is
acceptable, but not as good as the work-intensive one side at a time
approach used for ben-wpan.
- battery pack for laminator control broke down mechanically. Replaced
with adapter for obscure 500 mil pack I had laying around.
- problems found:
- "make it look like an accident" isn't such a good idea for the trace
connecting the relays to 5V. I was tempted to scratch off the toner,
thinking the pin had bled into the trace.
- annulus around DIP pins seems too small for 35 mil holes. The holes
are nominally only 0.5 mm, but that in turn may make them too small.
- changes for next run:
- make 5V relay traces go clearly for the centers of the respective pins
- determine correct hole size for DIP
--- Sat 2011-09-03 ------------------------------------------------------------
Soldered #3:
- problems found:
- DIP copper rings were too small for easy soldering, as expected
- cosmetic: screw-down headers (K1, K2) are very loose and end up
visibly angled
- cosmetic: vias between OUT opto-couplers are a bit close to the
sockets, making them almost disappear under them. Would be nicer if
they had more clearance.
- MCU and DIP sockets should have orientation markings on the copper
layer. In other news, Chip Quick is quite suitable for removing a
misplaced 32-LQFP.
- the footprints of the 1 W resistors (R7-R10) are way too short.
Placed 0805 instead.
--- Sun 2011-09-04 ------------------------------------------------------------
Milled face plate #0:
- setup:
- board is pertinax
- locally sourced "W.T." (Taiwan) mounting tape
- measurements:
- board: 104.0-104.1 mm x 35.1-35.6 mm (nom. 104.0 mm x 35.0 mm)
- button hole: 12.6-12.8 mm x 11.3-11.6 mm (nom. 12.6 x 11.3 mm)
- defects found:
- engraving depth (0.2 mm) is a bit shallow, probably due to board
curvature
- got the banana jack diameter wrong: should be 8 mm, not 6 mm
- button holes show significant deviation from tool path on lower
edge
- changes for next run:
- increase engraving depth to 0.5 mm (board is 1.6 mm)
- correct banana jack hole diameter
Milled face plate #1:
- changes made:
- increased engraving depth to 0.5 mm
- increased banana jack hole diameter to 8.0 mm
- defects found:
- job didn't complete because board became unstuck while milling
- the 8.0 mm hole is still a bit too tight if jack sleeve is at
upper end of tolerance range
- noticed that the button holes are milled last, after cutting the
board outline. This explains the poor accuracy.
--- Mon 2011-09-05 ------------------------------------------------------------
Milled face plate #2:
- changes made:
- board is unclad FR4
- added a bit more adhesive tape
- increased banana jack hole diameter from 8.0 mm to 8.1 mm, to
accommodate also jacks that are at the upper end of the tolerance
range
- corrected order of tool paths issues by cameo
- measurements:
- board: 104.1-104.2 mm x 35.1 mm (nom. 104.0 mm x 35.0 mm)
- button hole: 12.5-12.6 mm x 11.3-11.4 mm (nom. 12.6 x 11.3 mm)
- defects found:
- tight horizontal fit in the case
- LED holder have considerable play and retainer rings are loose to
the point of being useless
- adhesive tape now sticks almost too well :-) (it was hard to pry
the board loose after milling)
Milled face plate #3:
- changes made:
- reduced board width from 104.0 mm to 103.6 mm
- reduced LED hole from 6.9 mm to 6.2 mm
- problems encountered:
- raw board wasn't quite large enough for the entire face plate, but
it seems I missed it by only < 0.1 mm.
- depth was too shallow, at the cost of the logo
- measurements:
- board: 103.8 mm x 35.1 mm (nom. 103.6 mm x 35.0 mm)
- defects found:
- LED holder works better but is still a bit wobbly
- (EE issue) there's a bit of current from 5 V through the opt-coupler
LEDs to the pull-ups. Work-around: add 10 kOhm in parallel to each
LED.
---------------------
(next PCB run)
- changes made:
- made 5V relay traces go clearly for the centers of the respective pins
- changed DIP hole size from 0.5 mm to 0.8 mm, hole-to-copper ratio from
2.5 to 2
Pending:
- widen column cavities by 0.2 mm on each side
- consider pulling in front edge a little in buttons area
- uncopper mounting holes (using "loop" as "if" in fped)
- change mill nominal diameter from 35 mil to 26-27 mil
- move vias between OUT opto-couplers 0.2 mm to the center
- add orientation markings on copper layer for MCU and DIP sockets
- verify 2512 footprint of 1 W resistors
- add ground zones
- solve opto LED current. Three approaches:
1) add 10 k in parallel to LED (tested workaround)
2) disable internal pull-ups and add external pull-ups to IN_*
and to buttons
3) drive opto LEDs from 3.3 V instead of 5 V