Assembling RhoCoCo: Difference between revisions
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Farnell only delivered 49 keys, not 50, so I left the middle of the three-key spacebar out for now. | Farnell only delivered 49 keys, not 50, so I left the middle of the three-key spacebar out for now. | ||
Next up was soldering the SD-card holder, as I was already afraid of, the card holder had two plastic pins, I had no holes for in the PCB. The datasheet of the card holder was very fuzzy about these two pins, and I could not determine if they really existed. Easy solution was to cut the pins off. Fortunately all the other (solder) pins seemed to | Next up was soldering the SD-card holder, as I was already afraid of, the card holder had two plastic pins, I had designed no holes for in the PCB. The datasheet of the card holder was very fuzzy about these two pins, and I could not determine if they really existed, and exactly where they were located. Easy solution was to cut the pins off. Fortunately all the other (solder) pins I seemed to had placed correctly. | ||
This is the PCB, with only the card reader soldered to it. | This is the PCB, with only the card reader soldered to it. | ||
Revision as of 21:47, 30 March 2019
| Project Assembling a RhoCoCo home computer | |
|---|---|
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| This text describes how to assemble a RhoCoCo home computer from two PCB's, ten (socketed) integrated circuits, a dozen connectors and various other parts. | |
| Status | Initializing |
| Contact | Mahjongg |
| Last Update | 2019-03-30 |
We need, two PCB's, the parts from this list: File:RHOCOCO rev 1.8 assembly list.pdf
a soldering iron, and this assembly drawing to locate each part. File:Rhococo rev 1.8 component overview.pdf
In principle we start by soldering the only SMT part to the PCB, the SD-card-connector, this might have been pre-assembled for you. Then we do the resistors, and the diodes by bending them into shape.
I practice I decided I wanted to build up the keyboard first, but quickly ran up to a problem, all the holes in the keyboard PCB for the keys were too small (smaller than 1mm) to fit the pins of the keys through, and I had to drill all 400 holes with a 1.5mm drill (through a stack of three PCB's). I should have checked if the hole size of this library footprint was correct.
Then I soldered 49 keys, and two connector strips to the PCB's.
This is the result: 
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Farnell only delivered 49 keys, not 50, so I left the middle of the three-key spacebar out for now.
Next up was soldering the SD-card holder, as I was already afraid of, the card holder had two plastic pins, I had designed no holes for in the PCB. The datasheet of the card holder was very fuzzy about these two pins, and I could not determine if they really existed, and exactly where they were located. Easy solution was to cut the pins off. Fortunately all the other (solder) pins I seemed to had placed correctly.
This is the PCB, with only the card reader soldered to it.
You can also see a resistor in this picture, and that it only just fits, with its leads bent straight at the body of the resistor. all resistors I used were designed with 3/10" pitch, for the smallest footprint with classic 1/4Watt resistors possible.
Then I started soldering the resistors, here you can see the 240 Ohm resistors, before soldering, legs bent outwards a bit to keep them in place for soldering.
