Difference between revisions of "Explore Robo"
Line 47: | Line 47: | ||
=Mechanical= | =Mechanical= | ||
==Assembling the Robot== | ==Assembling the Robot== | ||
+ | ===Quick Video=== | ||
+ | {{#ev:youtube|AYSAGtPI3KU|600}} | ||
===Mounting the BO Motor with Clamps=== | ===Mounting the BO Motor with Clamps=== | ||
[[File:Robo Wheel mouting 7.JPG|framed|Attaching BO Clamps to BO Motor]] | [[File:Robo Wheel mouting 7.JPG|framed|Attaching BO Clamps to BO Motor]] |
Revision as of 10:37, 16 October 2014
- Robotics board based on Atmega8 MCU.
- Sensor shield to make line follower, light follower and obstacle avoidance robot.
- Inbuilt DTMF decoder (MT8870) to make a Mobile controlled Robot
- USB to UART convertor (CP2102) for communicating with computer, make a computer controlled Robot.
- MCU with bootloader, no external programmer required.
- Compatible with Arduino Software.
- Electronics
- Robotics Board Based on Atmega8, with L293D driver and MT8870 DTMF Decoder
- Sensor Sheild for line, light and obstacle detecting robots
- Mechanical
- Chasis(Red and White Basis)
- BO Motor Clamps
- DC BO Motors 150 RPM
- Wheels x2
- Castor Wheel
- Screws
- Battery Holder x2
- Other
- USB Cable
- 5 Pin Sensor cable
Mechanical
Assembling the Robot
Quick Video
Mounting the BO Motor with Clamps
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Attaching Wheels to chasis
Assembling the Base
Electronics
Robo Controller Board
- The Robo Board: This is the heart of the robot. The board has following ICs
- Motor Driver: A L293D Motor driver on board is used to control the two driving motors of the Robot
- DTMF Decoder: A MT8870 or compatible IC is used to convert DTMF mobile tones to digits, which helps in making Mobile controlled Robot
- Microcontroller: The board feature a Atmega8 (Atmega328 can also be used) controller. Figure below shows the way in which various units are connected to the microcontroller.
Sensor Sheild
The sensor sheild has a comparator IC that gives logical high when any of the right, Middle or left sensors are detected.The sensor sheild has following sensors:
- 3 IR pairs for line following
- 3 IR Pairs for obstacle avoidance
- 3 Light Dependent Resistors
Notice the DIP switch shown in the image below, it used to select the above three sensor options.
Downloads
Code
Robo_Board Schematic
Sensor Sheild Schematic
Bootloader: optiboot
The Explore Robo uses optiboot. Find the modified source code here. Fuse settings on Explore Robo:
L FUSE H FUSE LOCK 0xFF 0xDC 0xCF Fuse bit details *Do not modify fuse bits unless you're sure of what you're doing!
Programming
Using the Board with AVR Studio and Flashing with XploreFlash
Step 1: Xplore flash is based on various opensource software, it requires avrdude. Avrdude is part of WinAVR GCC complier. Download and install it.Step 2:To connect Development board with computer USB driver is required. Windows USB to UART Drivers for CP2102
- For Other Operating system please download from Silicon Labs website.
Step 3: Download and install XploreFlash GUI. (XploreFlash GUI is based on AVRDUDESS)
Step 4: Follow the steps on images below to flash the board.
Check for COM port
Hit Detect MCU
Browse file and Flash
Note: The GUI software will require .NET framework 2.0 or later please download and install it.
Using the Board with Arduino Software
->For the board to appear in the arduino software add the following lines in the boards.txt file.
File location:e.g: C:\Program Files\Arduino\hardware\arduino#################################################
atmega8.name=Explore Robo w/ ATmega8
atmega8.upload.protocol=arduino
atmega8.upload.maximum_size=7168
atmega8.upload.speed=19200
atmega8.bootloader.low_fuses=0xdf
atmega8.bootloader.high_fuses=0xca
atmega8.bootloader.path=atmega8
atmega8.bootloader.file=ATmegaBOOT-prod-firmware-2009-11-07.hex
atmega8.bootloader.unlock_bits=0x3F
atmega8.bootloader.lock_bits=0x0F
atmega8.build.mcu=atmega8
atmega8.build.f_cpu=16000000L
atmega8.build.core=arduino
atmega8.build.variant=standard
Steps
1.The board shows up in arduino software
2.Check exact COM port