Slide Rules: Real Engraving vs. Pilot V5RT Pens
Posted by Ed in Machine Shop, Photography & Images on 2020-02-18
A 0.5 mm Pilot V5RT pen produces good-looking results on presentation-grade paper:
Peering through a measuring magnifier shows a bit more tremble in the traces, but they’re still OK:
The desk light off to the upper left casts shadows from the reticle on the three different sheets.
A closer view of the linear scales:
The pen lines seem to be 0.25 to 0.3 mm wide, with 0.4 mm dots at the end of each stroke.
For comparison, the engraved lines on my trusty K&E Deci-Lon slide rule are under 0.1 mm:
The digits look like they’re embossed into the surface with shaped punches, rather than engraved like the lines. Of course, I don’t know how K&E’s production machinery worked.
A closer view:
I think 0.1 mm is an aggressively narrow trace width, even for a laser engraver.
Kensington Expert Mouse Scroll Ring Fix
Posted by Ed in Electronics Workbench, PC Tweakage on 2020-02-17
Apparently the newest Kensington Expert “Mouse” trackballs have a hack re-orienting the scroll ring quadrature detector. The picture from my original writeup shows the previous situation:
The quadrature detector, the black block on the left, is oriented with its lens (and, thus, the actual detectors) pointed away from the IR emitter. I thought it might be an assembly screwup, but it’s actually worse: the PCB layout is wrong.
A note from Tristan in NZ explains the situation:
So I have a later model than yours. It has a 2nd PCB chunk between where the legs normally would be. Just a floating piece with two holes for the legs, holding the legs from the board […] to the main board.It is also pointing the correct way (with the lens towards the three leg emitter).
The new quad detector has only three pins and no convex lens, but the active area now faces the emitter across the gap.
Because the interposer PCB occupies the space previously devoted to the emitter & detector leads, Kensington apparently soldered the new parts directly to the top surface without any clearance:
It’s like they failed to put through-vias to the rear or didn’t route them to the bottom another way, hence the solder is under the component
Tristan managed to wreck the detector while attempting to re-solder the intermittent joints, a situation I’m painfully familiar with. He replaced it with a quad detector harvested from a mid-90s optical mouse and it’s back in operation.
So I think the correct “fix” for the old-style PCBs (without the new interposer) is to unsolder the detector, rotate it so the lens faces the emitter, then somehow rewire the pins to the original pads. This won’t be easy and definitely won’t be pretty, but as long as it’s pointed in the right general direction it should work:
mine works off axis quite a bit
Should either of my Expert Mouse trackballs fail, now I know what to do
Many thanks to Tristan for reporting his findings!
Hiatus
Posted by Ed in Administrivia, Home Ec on 2020-02-07
Between the ACM presentation, an upcoming Digital Machinist column, and homeowner stuff “not relevant here”, I’ll be posting intermittently for a week or so.
Algorithmic Artifacts will be getting more attention!
Metal-case 5T4 Vacuum Tube Opened
Posted by Ed in Electronics Workbench, Machine Shop on 2020-02-06
I’ve always wondered what’s inside a metal-case vacuum tube:
The cutter last saw action on the EMT used in the MPCNC, so it’s intended for use on steel tubes. I thought about parting the case off in the lathe, but a tubing cutter sufficed for a first attempt, even if it couldn’t cut quite as close to the flange as I wanted.
A 5T4 tube is a full-wave rectifier with two sections:
Unsurprisingly, the guts resemble those of glass-envelope rectifier tubes in my collection, like this 5U4GB:
The metal case would be far more rugged than a glass bottle and, perhaps, the flange locked the tube into its socket against vibration.
The filaments surely weren’t thoriated, so it’s all good …
Video-rated MicroSD Card Status Report
Posted by Ed in Electronics Workbench, Photography & Images, Recumbent Bicycling, Science on 2020-02-05
Having just returned from the fourth ride of the season, it’s worthwhile to note how the MicroSD cards in the cameras are doing.
The Sony HDR-AS30V helmet camera has been running a 64 GB Sandisk high-endurance video-rated card since late August 2017:
In those 29 calendar months (maybe 20 riding months) I’ve ridden 4500-ish miles at perhaps 12 mph, so call it 375 hr = 22.5 k min. The camera fills a 4 GB file every 22.75 min, so it’s recorded 1000 files = 4 TB, which is 62× its capacity. This is better than the defunct Sandisk Extreme Pro card (3 TB & 50×) and much much better than the Sony cards (1 TB & 15×), although I have caught the camera in RCVR mode maybe twice, which means the card or camera occasionally coughs and reformats itself.
The Cycliq Fly6 rear camera uses a Sandisk 32 GB card that’s been running flawlessly since late 2017:
The new 16850 lithium cell continues to work fine, too.
The SJCam M20 rear camera also uses a Sandisk 32 GB high-endurance card and has worked fine since early 2018. An external battery eliminated all the hassle of its feeble internal batteries, although the one that’s been in there has faded to the point of just barely keeping the clock ticking over during winter weeks without rides:
All in all, paying the premium for video-rated MicroSD cards has been worthwhile!
Homage Tek CC: Subscripts & Superscripts
Posted by Ed in Electronics Workbench, Software on 2020-02-04
The GCMC typeset() function converts UTF-8 text into a vector list, with Hershey vector fonts sufficing for most CNC projects. The fonts date back to the late 1960s and lack niceties such as superscripts, so the Homage Tektronix Circuit Computer scale legends have a simpler powers-of-ten notation:
Techies understand upward-pointing carets, but … ick.
After thinking it over, poking around in the GCMC source code, and sketching alternatives, I ruled out:
- Adding superscript glyphs to the font tables
- Writing a text parser with various formatting commands
- Doing anything smart
Because I don’t need very many superscripts, a trivial approach seemed feasible. Start by defining the size & position of the superscript characters:
SuperScale = 0.75; // superscript text size ratio
SuperOffset = [0mm,0.75 * LegendTextSize.y]; // ... baseline offsetHalf-size characters came out barely readable with 0.5 mm Pilot pens:
They’re legible and might be OK with a diamond drag point.
They work better at 3/4 scale:
Because superscripts only occur at the end of the scale legends, a truly nasty hack suffices:
function ArcLegendSuper(Text,Super,Radius,Angle,Orient) {
local tp = scale(typeset(Text,TextFont),LegendTextSize);
tp += scale(typeset(Super,TextFont),LegendTextSize * SuperScale) + SuperOffset + [tp[-1].x,0mm];
local tpa = ArcText(tp,[0mm,0mm],Radius,Angle,TEXT_CENTERED,Orient);
feedrate(TextSpeed);
engrave(tpa,TravelZ,EngraveZ);
}The SuperScale constant shrinks the superscript vectorlist, SuperOffset shifts it upward, and adding [tp[-1].x,0mm] glues it to the end of the normal-size vectorlist.
Yup, that nasty.
Creating the legends goes about like you’d expect:
ArcLegendSuper("pF - picofarad x10","-12",r,a,INWARD);Presenting “numeric” superscripts as text keeps the option open for putting non-numeric stuff up there, which seemed easier than guaranteeing YAGNI.
A similar hack works for subscripts:
With even more brutal code:
Sub_C = scale(typeset("C",TextFont),LegendTextSize * SubScale) + SubOffset;
<<< snippage >>>
tp = scale(typeset("←----- τ",TextFont),LegendTextSize);
tp += Sub_C + [tp[-1].x,0mm];
tp += scale(typeset(" Scale -----→",TextFont),LegendTextSize) + [tp[-1].x,0mm];The hackage satisfied the Pareto Principle, so I’ll declare victory and move on.
Filament Spool Sidewall
Posted by Ed in Machine Shop on 2020-02-03
A new spool of retina-burn orange PETG snagged when the takeup guide let the filament fall off the inboard side and the extruder tightened the loops around the spool holder. I carefully unwound the loops without removing the spool to ensure I didn’t introduce a crossover, scraped the bird’s next off the platform, and restarted the print.
After undoing the second snag, I added a crude spool sidewall:
It’s decidedly unlovely, but I was in a hurry to get a PCB holder printed and ready for use. Worked perfectly!
I’ve rarely had a problem with any other spools and I don’t know what’s new-and-different with this one.
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