Robobot circuits

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(Raspberry PI)
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Figure 5. PCB with more trace details.
 
Figure 5. PCB with more trace details.
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== Line sensor ==
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[[File:line_sensor_3.1_circuit.png | 700px]]
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Figure 6. Circuit diagram for the line sensor. 8 sensors with a change amplifier and analog output. The 18 LEDs provides the blinking light (1kHz).
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[[File:line_sensor_3.1_PCB_3D.png]]
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Figure 7. The PCB in 3D view.
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[[File:line_sensor_3.1_PCB.png]]
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Figure 8. PCB layout.
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== Raspberry PI ==
 
== Raspberry PI ==
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[[File:Raspberry_Pi_GPIO_pins.png | 500px]]
 
[[File:Raspberry_Pi_GPIO_pins.png | 500px]]
  
Figure 5. GPIO pin numbers.
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Figure 9. GPIO pin numbers.

Revision as of 10:58, 28 December 2023

Back to Robobot_B

Contents

Digital IO

Circuit diagram

Digital IO-circuit.png

Figure 1. The circuit diagram should ensure that each IO pin can function as both input and output. If input, then the pin has active pull down, i.e. for input to change, it must be pulled high, to at least 3.3V, but 5 or 12V will work too. If output, then a transistor is active when output is high, and can draw at least 1A from the 12V supply. The 5V and 3.3V can supply no more than 100mA.

PCB

Digital IO-PCB.png

Figure 2. The PCB layout for the digital IO circuit.

Regbot

Circuit diagram

Regbot 6.3.png

Figure 3. The Regbot circuit.

PCB - 3D view

Regbot 6.3 PCB.png

PCB

Figure 4. Ecpected view of PCB.

Regbot 6.3 PCB 2.png

Figure 5. PCB with more trace details.

Line sensor

Line sensor 3.1 circuit.png

Figure 6. Circuit diagram for the line sensor. 8 sensors with a change amplifier and analog output. The 18 LEDs provides the blinking light (1kHz).

Line sensor 3.1 PCB 3D.png

Figure 7. The PCB in 3D view.

Line sensor 3.1 PCB.png

Figure 8. PCB layout.


Raspberry PI

Raspberry Pi GPIO pins.png

Figure 9. GPIO pin numbers.

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