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... | @@ -18,7 +18,7 @@ Resources: |
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- https://github.com/libre-computer-project
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- https://github.com/libre-computer-project
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Notes:
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Notes:
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- The board is powered with a **micro-USB connector**
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- The board is powered with a **micro-USB connector**. Make sure the power supply and the micro-USB cable are rated correctly. If either cannot provide the required power, the SBC will not boot.
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- The official Raspberry Pi 3 B enclosure works fine and provides GPIO access, but the push-pins of the heatsink stick out at the bottom of the board. We need to drill two holes in the bottom of the case for the push pints to stick through. If you want to use the IR sensor, you need to drill an additional hole for that too.
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- The official Raspberry Pi 3 B enclosure works fine and provides GPIO access, but the push-pins of the heatsink stick out at the bottom of the board. We need to drill two holes in the bottom of the case for the push pints to stick through. If you want to use the IR sensor, you need to drill an additional hole for that too.
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- The PCB of the Le Potato board can be a bit wider than the Raspberry Pi. For the board to fit well in the case, you might need to file off a few millimeters from the PCB sides/corners on the IR sensor side.
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- The PCB of the Le Potato board can be a bit wider than the Raspberry Pi. For the board to fit well in the case, you might need to file off a few millimeters from the PCB sides/corners on the IR sensor side.
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- The board has no WiFi or Bluetooth. Functionality can be added with USB 2.0 dongles.
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- The board has no WiFi or Bluetooth. Functionality can be added with USB 2.0 dongles.
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