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| The perfboard Photovore with diagnostic wires to figure the input/output wiring |
As the Photovore shield failed, I had a look at the various components on it which could have failed, due to the little amount of parts on the modular Photovore PCB, it indicated that either the dual comparator was blown, or I had implemented the comparator chip into circuit incorrectly.
I started by simply swapping the comparator chip out and replacing it with another, completely new chip and the result? No difference in result. This caused me to presume that I had made an error when designing the PCB of the Photovore, so I made a mock-up of the circuit on a solderless breadboard which again, did not work, even when I attempted multiple circuits found online and within the simulation software.
Now without a Photovore shield, I needed another circuit that would perform similarly; I looked back through my notes on various original circuit design concepts and found a suitably simple circuit which I decided not to use previously as it required only 2 inverters and inverters are only packaged as a large hex NOT gate, therefore I would be using a large chip which could be replaced with a smaller DIP chip.
This new circuit is simple, it sets two LDRs up as a voltage divider, and the first inverter takes the split signal and turns it into a clean, digital signal, this is then fed to one of the motors, while that signal is inverted again for the other motor.
I quickly wired it up on a solderless breadboard to test the circuit, then continued to transfer it onto a perfboard shield. As you can see in the images, the perfboard shield is similar size, and no moderation to the headers was required to make them slot together correctly, due to the layout of the PCB.
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| The original Photovore PCB next to the freshly cut perfboard |
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| The perfboard shield with the stackable headers in place |
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| The finished DIY Photovore |
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| The new Photovore shield on the chassis |
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