Category: Electronics

Explorations in things electronic

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Project: Heathkit GC-1092A digital clock

Starting to tackle some of the projects that have been stacking up on the workbench. First one up is a Heathkit GC-1092A digital clock (serial number 00433). This was part of a collection from KB4NNM (SK) that was donated to the club earlier this year that’s been sitting on the workbench waiting for me to have time to get to. Decode Systems has a very useful page on Heathkit clocks.

Heathkit GC-1092A digital clock
Heathkit GC-1092A digital clock

Aside from a bit of dust and a few scratches and scrapes on the case, it’s in pretty decent condition. The clock works well, although the numbers flicker sometimes, especially when handling the clock. Haven’t tested the alarm capabilities yet. Setting the clock and alarm is done with a bank of switches on the bottom of the clock. A helpful sticker shows how to set things with the switches.

Setting switches for the Heathkit GC-1092A clock
Setting switches for the Heathkit GC-1092A clock

Removing 4 easily accessible screws from the bottom lets you take the top of the case off, revealing a fairly densely populated (for through-hole components anyway) circuit board and a big chunky transformer. Sitting in center stage is the brains of the operation, a MOSTEK MK5017AA clock chip (the white ceramic IC package in the center). There’s some corrosion on the heat spreader for the IC, but operation doesn’t seem to be affected.

Heathkit GC-1092A main circuit board and transformer
Heathkit GC-1092A main circuit board and transformer

The underside of the board has two large filtering capacitors, and the setting switches and speaker are attached to the case below the board.

Below the main board of the Heathkit GC-1092A clock
Below the main board of the Heathkit GC-1092A clock

The front panel contains the 3 2-digit 7-segment display units (Beckman SP-352). There are also a couple of 555 timer chips on the board, but I haven’t explored the schematic enough to know what they’re doing. Probably something related to the alarm function.

Heathkit GC-1092A display circuit board
Heathkit GC-1092A display circuit board

I’ll need to do some more research and studying the schematic to see if I can figure out the display flickering problem. Closing this clock back up and putting it back on the pile for now.

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Galaxy S7 X-ray

Radiograph of my Galaxy S7.  80 kVp, 2.8 mAs, Canon Aero DR detector.

Galaxy S7 x-ray
Galaxy S7 x-ray

The large rectangular gray block is the battery.  Superimposed on the battery, the NFC and wireless charging coils are easily seen.  Volume buttons are on the upper left side, and the power button is on the right side. The rear camera is the square object in the upper middle.  The selfie camera is the white donut shaped object just above and to the right of the rear camera.  There’s the micro-USB port at the bottom middle, and the headphone jack to the left of the USB port.

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Beacon teardown

At the AAPM 2018 annual meeting, attendees received a BLE (Bluetooth Low Energy) beacon that was used to track attendance at sessions for continuing education and SAM (Self Assessment Module) credits.

Little blue beacon
Little blue beacon
Little blue beacon
Little blue beacon

The website stamped on the beacon redirects to a company called Gimbal where you can purchase the beacons for $5 each or get a whole case of 1650 for the same unit price.  They also provide web based software for managing the beacons.  The manual for the beacon contains some specs, instructions for using the beacon with the Gimbal software, and links to API docs for creating apps to use with the beacon.

The beacon opens pretty easily using a quarter.  Most of the beacon’s innards are taken up by a CR2032 coin cell that powers a tiny little circuit board underneath a plastic cover.

Beacon innards
Beacon innards

A bit of careful prying to release the cover (also held down by a couple dabs of adhesive) reveals the circuit board.  Three contact pads presumably for testing/programming are easily visible.

Beacon innards
Beacon innards
Beacon innards
Beacon innards
Beacon PCB
Beacon PCB

Not much identifying info on the little IC at the heart of the beacon.
4348695
2500D0A
2AJ
P36V G4

Guessing the first number would be a product identifier with the next line (2500D0A) maybe being a date code.  Google led me to a reasonably informative post about the beacons.

Seems to be a fairly simple device and beacons in general might be something fun and interesting to get into.

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Breadboard jumper wire reference

Used an Adafruit Perma-Proto board to make this reference guide for the breadboard jumper wires I’ve acquired recently.

Jumper wire reference
Jumper wire reference

The bottom one has wires from sets that I bought before my local Radio Shack stores closed, and the top ones are from the 700 piece kit from Sparkfun. Since they each used different colours for the various lengths, I thought it would be useful to have a reference guide for what length each colour was.

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Bench power supply

A Sparkfun bench top power board kit let me take a 300 W power supply salvaged from a dead computer and use it as a bench power supply.

It’s a handy little kit that takes the power supply motherboard connection and breaks out the +12V, -12V, 5V and 3.3V DC to fused 5 way binding posts.

Sparkfun bench power supply kit
Sparkfun bench power supply kit
Computer power supply
Computer power supply

According to the label on the power supply, it can source 17A at +12V, 0.2A at -12V, 19A at 3.3V, and 15A at 5V. That should be more than enough for any projects I’ll run off it.

I also picked up a few of these simple little 3-digit voltmeters that I’ll connect across the outputs to show the voltages.

Next will be to figure  out an enclosure to contain everything.