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Games for your brain


Contents
 
 
Mechanics
Electrical engineering
Electric motors
Electrochemistry
Heat engines
Semiconductors
Basic circuits
Metrology
 
Robots
- Rover No.1
- Lander
- Curiosity Pi
- R4-Automuseum
- R5
- R6
- Power rails
 
Computer
Machines
Miscellaneous projects
Addendum


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<<< Lander         R4-Automuseum >>>

R3 - construction

Read how to control a rover
Drive Curiosity Pi

The video about the construction details



Updates:

Parts list

Device Number Usage Source / details
Board 1 (small piece) Base plate small signal transistors servos  
L4940V5 2 Voltage regulator 5V  
Capacitor 0.1μF 2 Voltage regulation  
Capasitor 4.7μF 2 Voltage regulation  
2N7000 7 Small signal transistors
Voltage transformation servos 3.3V to 5V
LED switches
 
Resistor 16kΩ 11 GPIO protection
Voltage transformation servos
 
Resistor 180Ω 7 Current limitation LEDs  
Resistor 220kΩ 3 Voltage transformation servos  
Webcam
z.B. Logitech C525
1 Camera  
Miniservo 3 Camera angle, steering, drive  
LEDs Optional Illumination LED flashlight
Wheels
3cm diameter
2 Rear wheels Do-it-yourself store
Metal plate 1 Chassis Computer housing
Raspberry Pi 1 Hostcomputer of Rover  

Components

Curiosity Pi
Figure 1:
The Raspberry Pi, a cheap tiny computer, operates as the host computer of R3.
The dimensions are approximately 20 x 12 x 22cm (LxWxH) including power pole. The housing could be slightly larger. When I build this Rover I did not consider that a powered USB hub has also to be to stored inside of the housing.
The webcam is a Logitech C525 with a maximum resolution of 1280x720 Pixel. The autofocus is able to catch even very close by objects. The camera can be turned around it's horizontal axis by a servo, so you can observe objects below and above the Rover.
5 LEDs are used as headlight.
Curiosity Pi
Figure 2:
The Rover is a threewheeler. The two rear wheels are fixed and the single front wheel is driven by a hacked servo while the steering is done by another servo.
There is a special reason for using a metal front wheel and the sliding contact besides of it:
If the Rover is driving on a metal plate, the Raspberry Pi can communicate with other computers by a single GPIO pin. Inside of my RoboSpatium you can control the Space Shuttle, which is connected to an Atmega8 microcontroller.

Electronics

Electronic boards Curiosity Pi
Figure 3:
The electronic is much simpler than at my previous Rovers. The GPIOs make it easy to control peripherals.

Power cabling Curiosity Pi
Figure 4:
The cabling from the power supply to the Rover is long and thin. To be able to copmpensate the voltage drop at those cabling, it is attached to an power output of 12V. At the power pole of the Rover those 12V are converted to just 5V. The WLAN stick is very sensible against voltage peaks and the voltage regulators I have used have a maximum current of just 2A. Hence I am using two of them. Number one (great heat sink) is for the Raspberry Pi and the USB hub and number two for the servos and the LEDs.


Circuit layout Curiosity Pi
Figure 5:

Control software

At the column download you can find a simple version of the used software.

More questions about R3?

There is a topic about the rover at the Raspberry forum.
You can find my mail address at the column imprint


<<< Lander         R4-Automuseum >>>



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