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Created 2020-10-02
Modified 2021-02-10
TL;DR - a small low cost APRS tracker, which uses an arduino and a radio module.
Recently I was handed two kits with the understanding that if I could get both working, I could keep one.
F4GOH's blog post[1] has more info, but not quite enough to make it easy to just pick up and build.
1: https://hamprojects.wordpress.com/2015/07/01/afsk-dra818-aprs-tracker/
I have one working, now I'm going to make the other, and document the process to help anyone else do the same.
The PCB looks like this
Green PCB with F4GOH written on it [IMG]
Underside of Green PCB with F4GOH written on it [IMG]
This is taken from the "Bill of Materials" for V2, from the zip file "DRAPRSV2", from F4GOH DRAPRS repo on github[2], but I've added the extra bits that my PCB has too.
2: https://github.com/f4goh/DRAPRS
I have split this PCB in two, but you don't have to. I will refer to the arduino board (right half) and the TRX board (left half).
All the surface mount capacitors are the same, so let's start there.
PCB with capacitors highlighted [IMG]
underside arduino PCB with resistors highlighted [IMG]
TRX PCB with resistors highlighted [IMG]
arduino PCB with resistors highlighted [IMG]
TRX PCB with diode and transistor highlighted [IMG]
Now we're onto the easy bits!
I'm leaving the ICs for last...
Now is a good point to add the arduino, before any other headers are added around it to make life difficult.
I wanted everything to be as low profile as possible, so I soldered my arduino directly onto the headers. Be sure you want this, and maybe test the arduino first, before you do it!
Arduino PCB with arduino and other components fitted [IMG]
I don't plan to use the SD or low power, so left those headers off
This is the main bit, the radio module.
A little tricky to get in position, because it's so big AND surface mount. Hold it in place with tweezers and solder one corner pin, then the opposite, and hope it's straight!
It's ok if the top three pins on the left connect to the shield, as they are all ground, but probably best to avoid? The bottom left pin is power, so DO NOT connect that to the shield.
TRX PCB with module fitted [IMG]
Some quick tests, look for continuity between:
Put your multimeter in diode test mode, and it should light the LED with positive on the top, but it will be very dim
This is fairly simple, but some tips:
Stacked PCBs viewed from the top [IMG]
Stacked PCBs viewed from the bottom [IMG]
In most cases, the wires of these won't match the PCB nicely, so you will need to make up a wiring harness thing.
I have **VK2828U7G5LF** and only the middle four wires are needed. I won't give colours because they seem to change...
Counting from the left:
1. E - not used
2. G - Ground, goes to left pin on PCB
3. R - RX on GPS, goes to TX on the PCB
4. T - TX on GPS, goes to RX on the PCB
5. V - Volts in, goes to the remaining pin on the PCB
6. B - PPS signal, not used
Remember to put the heat shrink on before soldering stuff together!
Stacked PCBs with GPS modules connected in foreground [IMG]
For me this was easier because I didn't have to solder wires...
From the top of the arduino board:
1. GND - GND on screen
2. VDD on screen
3. SDA on screen
4. SCK on screen
At this point the hardware is done!
I'm not going to cover connecting power etc. as that is entirely up to you, and there are many ways it can be done.
Next time I'll talk about software.
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