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livebox:assembly [2012/04/18 11:28] – [Additional control hardware] minerva9 | livebox:assembly [2013/04/13 10:07] – [HAH PCB assembly notes] minerva9 | ||
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====== HAH PCB assembly notes ====== | ====== HAH PCB assembly notes ====== | ||
- | {{: | + | {{: |
+ | Click image for enlargement | ||
Before starting, make sure that you have all of the parts that you require. Components are packaged as per the [[http:// | Before starting, make sure that you have all of the parts that you require. Components are packaged as per the [[http:// | ||
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You will need a soldering iron, some fine solder and a small pair of wire-cutters. | You will need a soldering iron, some fine solder and a small pair of wire-cutters. | ||
- | The order in which you populate the components on the PCB is not critical. We usually start with the RJ11 socket. The socket is a tight fit. Be sure that all six pins align with the holes in the PCB before applying too much pressure. Then fit the zenner diode, D6, directly behind the RJ11 socket. Observe polarity - the bar on the component should match the bar on the PCB legend. Now, fit R6 (1K5 ohm), just to the side of the RJ11 socket. | + | The order in which you populate the components on the PCB is not critical. We usually start with the RJ11 socket. The socket is a tight fit. If you warm the part a little, fitting is easier. Be sure that all six pins align with the holes in the PCB before applying too much pressure. Then fit the zenner diode, D6, directly behind the RJ11 socket. Observe polarity - the bar on the component should match the bar on the PCB legend. Now, fit R6 (1K5 ohm), just to the side of the RJ11 socket. |
The socket for the microcontroller is next. We use a 20pin socket + an 8pin socket. \\ | The socket for the microcontroller is next. We use a 20pin socket + an 8pin socket. \\ | ||
Remember to align the notch on the socket with the notch on the PCB legend. Now, fit the two caps and the xtal. {{ : | Remember to align the notch on the socket with the notch on the PCB legend. Now, fit the two caps and the xtal. {{ : | ||
- | Jumper JP1 should be left unfitted. JP3 should be fitted and jumper-ed to short pins 1 and 2. JP4 should be fitted and pins 1 and 2 shorted. Note that our newer PCBs don't need any jumpers. | + | Jumper JP1 should be left unfitted. JP3 should be fitted and jumper-ed to short pins 1 and 2. JP4 should be fitted and pins 1 and 2 shorted. Note that our newer PCBs only have one jumper (JP1), which should be fitted and jumper-ed. |
If you have relays to fit, it is easier to fit the diode, resistor (4K7 ohm) and transistor (required to drive the relay) before fitting the relay itself. <note warning> | If you have relays to fit, it is easier to fit the diode, resistor (4K7 ohm) and transistor (required to drive the relay) before fitting the relay itself. <note warning> | ||
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{{: | {{: | ||
- | Solder the aerial (a 6.47" piece of wire) onto the RF module solder pad connector (marked ' | + | Solder the aerial (a 6.47" piece of wire) onto the RF module solder pad connector (marked ' |
\\ | \\ | ||
{{: | {{: | ||
\\ | \\ | ||
Next, fit the voltage regulator (marked as IC1 on the PCB legend).\\ | Next, fit the voltage regulator (marked as IC1 on the PCB legend).\\ | ||
+ | This regulates the 15V feed from the Livebox down to 12V for the RF module. | ||
Ensure that the flat side on the component matches the PCB legend. | Ensure that the flat side on the component matches the PCB legend. | ||