SJCAM M50 Trail Camera: Dead Remote

The remote control included with the SJCAM M50 trail camera did absolutely nothing. Not only did it not turn on the camera’s WiFi, the two indicator LEDs between the buttons didn’t blink:

SJCAM M50 remote - front view
SJCAM M50 remote – front view

With not much to lose, I removed those four screws and popped the back cover:

SJCAM M50 remote - interior
SJCAM M50 remote – interior

Yup, the OEM no-name CR2032 lithium cell was dead flat discharged. A new one perked it right up, with blinky LEDs and all.

Now I can check the camera for interesting pix without hauling it into the house:

The Early Raccoon
The Early Raccoon

Plenty of critters making the rounds out there …

Car USB Charger: Structural Solder Failure

The USB charger plugged into the jack formerly known as a “cigarette lighter” and now called a “power supply socket” in the car woke up dead, with a blank LED display previously showing the battery voltage / USB current / ambient temperature. Cracking the case revealed two small circuit boards:

Car USB charger - innards
Car USB charger – innards

You can see where this is going, right?

A closer look at the base of the side contacts:

Car USB charger - broken solder
Car USB charger – broken solder

The central tab goes through the PCB and should have been soldered on the other side, leaving the springy arms free to flex. Instead, only the arm over the topside pad had any solder; the other arm just got a solder blob atop the silkscreen over those traces.

I soldered the bottom tab, although I also resoldered the side pad. After all, the structural solder survived for quite a few years, so it might well outlive the car this time.

Canon LiDE 120 Scanner vs. Sane vs. Networking: FAIL

The Canon LiDE 120 scanner on Mary’s desk gets considerable use by both of us, until a recent update of something killed network access to it. The usual searches revealed comments suggesting the sane scanner program has deliberately disabled network access to USB scanners which use the net back end, apparently to prevent loops when one instance shares a networked USB scanner already shared by another instance.

I have no clue how all that works, nor why the change has apparently taken half a dozen years to reach our scanner.

The workaround required downgrading sane on the “server” PC (the one with the Canon scanner) to the most recent version that doesn’t enforce the prohibition:

sudo pacman -U /var/cache/pacman/pkg/sane-1.1.1-2-x86_64.pkg.tar.zst

And preventing further upgrades with a stanza in /etc/pacman.conf:

IgnorePkg = sane

The pamac GUI interface now shows sane as eligible for an upgrade, then reports that it won’t do the deed. That’s survivable.

At some point, not updating the sane package will cause other problems. Perhaps by then we’ll have moved the hulking Epson ET-3830 printer/scanner upstairs and can recycle the Canon scanner.

LED Shoplight Conversion: First Failure

Having started replacing the fluorescent shop lights with LED tubes back in 2016, this was only a matter of time:

Shop Light - failing LEDs
Shop Light – failing LEDs

The next morning the dead section lit up again, albeit with a dim ring at its right end. I think one LED in that string failed open and darkened the whole string, then failed short under the voltage stress, and is now quietly simmering in there with slightly higher than usual current.

The lights over the workbench weren’t in the first wave of conversions, so they may be only four years old.

For sure, they have yet to approach their 50000 hour lifetime …

Miroco LED Floor Lamp: Driver Transistor Failure Redux

Last July I replaced the driver transistor for the cool white LED strings in our Miroco floor lamp. Apparently they got a bad batch of transistors, because the warm white LEDs suddenly stayed on while the lamp was turned off:

Miroco floor lamp - warm LEDs on while off
Miroco floor lamp – warm LEDs on while off

Confirming the diagnosis, the cool white LEDs worked fine with the light turned on:

Miroco floor lamp - all-LED mode fail
Miroco floor lamp – all-LED mode fail

With nine spare SI2306 transistors in hand from the last time in this rodeo and minus the sticky adhesive foam covering the PCB, replacing the other driver transistor was no big deal, whereupon the lamp once again worked the way it should:

Miroco floor lamp - restored warm LEDs
Miroco floor lamp – restored warm LEDs

While I was in there, I spotted a dent in the input filter cap:

Miroco floor lamp - OEM capacitor
Miroco floor lamp – OEM capacitor

Most likely I squished a wire between the cap and the U-shaped steel strut joining the two halves of the pole. I relocated the replacement cap off the circuit board into an open space with a bit more room:

Miroco floor lamp - recapped
Miroco floor lamp – recapped

The fragile wires running to the lamp head got their own sheet of silicone tape (not shown here) to isolate them from the U-strut:

Miroco floor lamp - LED wiring
Miroco floor lamp – LED wiring

Tuck all the wires back inside, snap the housing together, and it should be good for another uhh half year or two.

It’s hard to be sure about such things, but I now have eight spare transistors …

Craptastic Kitchen Scale: Button Sensor Tweaks

The four control “buttons” on the SmartHeart kitchen scale are copper-foil tabs that sense the presence of your finger though about 5 mm of white plastic and glass:

SmartHeart 19-106 Kitchen Scale - top view
SmartHeart 19-106 Kitchen Scale – top view

The main failure mode seemed to come from the microcontroller locking up and refusing to recognize any of the buttons, most annoyingly the On/Tare button, while continuing to measure whatever weight was on the scale with whatever zero point it chose. Recovery involved waiting until the thing timed out and shut itself off.

The two buttons on the left select Kilocalories for any of the various foods arrayed around the display. Depending on how it jammed during startup, it might display the Kilocalorie value for, say, sugar, while ignoring all button presses. As the manual does not mention any way to return to weights after activating the Kilocalorie function, other than turning it off, it’s not clear recognizing the other buttons would be much help.

Because we have no use for those functions, I unsoldered the wires to those sensor pads and it no longer jams in that mode:

SmartHeart 19-106 Kitchen Scale - PCB detail
SmartHeart 19-106 Kitchen Scale – PCB detail

The alert reader will note the PCB legend says I have unsoldered the ON/OFF and UNIT wires. If one believes the silkscreen, the PCB dates back to 2015, so it now carries a reprogrammed microcontroller with functions that no longer match the silkscreen.

The overall soldering quality resembles mine on a bad day.

With those out of the way, the scale still jammed and refused to recognize the remaining two buttons. I wondered if it was somehow sensing ghost fingers over both sensors and waiting for one to vanish, so I added a shield ring around the power tab:

SmartHeart 19-106 Kitchen Scale - shielded sensor
SmartHeart 19-106 Kitchen Scale – shielded sensor

That reduced the sensitivity of both sensors to the point where they pretty much didn’t work, without reducing the number of jams.

So I tried increasing the sensitivity of the power tab by replacing it with a larger copper foil sheet:

SmartHeart 19-106 Kitchen Scale - larger sensor
SmartHeart 19-106 Kitchen Scale – larger sensor

That definitely got its attention, as it will now respond to a finger hovering half an inch over the glass, as well as a finger on the bottom of the case: it can now turn on and jam while I pick it up.

More tinkering is in order, but it’s at least less awful in its current state than it was originally, so I can fix a few other things of higher priority.

Craptastic Kitchen Scale Tinkering

The health plan I use pays $100 toward the year’s over-the-counter healthcare stuff, although with a caveat: you can only buy the stuff from a specific website. As you might expect, what’s available consists of no-name generic products with absurdly high sticker prices and, just to rub it in, the hundred bucks gets paid in quarterly use-it-or-lose it installments.

Seeing as how it was free, I got a kitchen scale:

SmartHeart 19-106 Kitchen Scale - top view
SmartHeart 19-106 Kitchen Scale – top view

It has two catastrophically bad design features:

  • Terrible battery life
  • Overly sensitive controls

It runs from a pair of series-connected CR2032 non-rechargeable lithium coin cells. Which would be fine, except that the blue LED backlight stays on for 30 seconds after each button touch and draws about 10 mA.

The battery lifetime is best measured in days.

The four control “buttons” on either side of the backlit LCD are touchless sensors using copper foil stickers:

SmartHeart 19-106 Kitchen Scale - NP-BX1 retrofit
SmartHeart 19-106 Kitchen Scale – NP-BX1 retrofit

The alert reader will spot those the empty CR2032 coin cell contacts over on the left and a pair of NP-BX1 batteries in the middle.

I figured there was no need to keep feeding it coin cells while I played with it, so I conjured a holder from the vasty digital deep. Normally, that would be an OpenSCAD solid model suited for 3D printing, but in this case the lithium cells exactly filled the space between the PCB and the bottom of the case, so it became a 2D design neatly suited for laser cuttery.

Kitchen scale - NP-BX1 holder - LB layout
Kitchen scale – NP-BX1 holder – LB layout

I planned to stick the orange cutout (in 1.5 mm acrylic) as a stabilizer around the pogo pins making contact with the cell terminals from the red cutout (in 3 mm acrylic), but just melting the pins into the acrylic seemed sufficient for the purpose. Strips of adhesive sheet saved from the margins of previous projects affix the holder (not the cells!) to the scale’s upper glass layer.

As far as I can tell, the scale is perfectly happy running on 7.4 V, rather than 6.0 V. The PCB has two terminals marked +3V and +6V, so it probably depends on which LEDs they use for backlights:

SmartHeart 19-106 Kitchen Scale - PCB detail
SmartHeart 19-106 Kitchen Scale – PCB detail

The alert reader will notice a peculiarity concerning the sensor pad connections along the top edge.

More on that second bad design decision later …