DB21
DB21M
DB21
,DB21M
start_gui_tools
, ROS tools and no-vnc
DB17
DB18
DB19
Modified 2021-10-29 by tanij
A Duckiebot of configuration DB18
or above.
A stable network connection to your Duckiebot.
A flashed microcontroller (not SD card) on the HUT board, with the latest code version.
this procedure is needed only if your Duckiebot does not recognize the HUT (Dashboard > Robot > Components). Although often unnecessary, it is safe to perform on any HUT of version 2.0
and above.
Modified 2021-09-18 by tanij
This procedure flashes the microcontroller on the Duckietown HUT. This microcontroller is responsible for translating the duty cycle commands from the onboard computer to actual PWM
signals that control the motors and the LEDs (because they are “addressable” LEDs) of the Duckiebots.
A typical example of when is necessary to flash the microcontroller is when commands are sent to the motors, e.g., through keyboard control, the motors signals on the dashboard/mission control show that signals are correctly being sent, but the Duckiebot does not move.
This procedure will not be useful to fix problems such as one motor working and not the other, or LEDs showing unexpected colors when the motors work.
Modified 2022-07-14 by Jacopo Tani
Ssh into your Duckiebot by running:
laptop $ ssh duckie@DUCKIEBOT_NAME.local
Install the packages needed to compile the microcontroller firmware:
duckiebot $ sudo apt-get update
duckiebot $ sudo apt-get install bison autoconf flex gcc-avr binutils-avr gdb-avr avr-libc avrdude build-essential
Clone the firmware for the microcontroller using the following command:
duckiebot $ git clone https://github.com/duckietown/fw-device-hut.git
Navigate inside the repository you cloned :
duckiebot $ cd fw-device-hut
read the next passages carefully. Do not just copy and paste every line of code!
Copy the avrdude.conf
file in the /etc
folder of the robot. If you are running a Duckiebot with an NVIDIA Jetson Nano board run:
duckiebot $ sudo cp _avrdudeconfig_jetson_nano/avrdude.conf /etc/avrdude.conf
else, if you have a Raspberry Pi based Duckiebot, use:
duckiebot $ sudo cp _avrdudeconfig_raspberry_pi/avrdude.conf /etc/avrdude.conf
Then, test the avrdude
and set the low-level configuration with:
duckiebot $ make fuses
A successful outcome looks like:
avrdude: verifying …
avrdude: 1 bytes of efuse verified
avrdude: safemode: Fuses OK (E:FF, H:DF, L:E2)
avrdude done. Thank you.
If you see the message make: warning: Clock skew detected. Your build may be incomplete.
or the process is not stopping, stop the process pressing Ctrl-C and run:
duckiebot $ find -exec touch \{\} \;
And then retry running the make fuses
command.
To complete the procedure (in all cases, whether or not a warning was issued), remove all temporary files by running:
duckiebot $ make clean
Compile the firmware and upload it to the microcontroller:
duckiebot $ make
The resulting output should be:
.....
sudo avrdude -p attiny861 -c linuxgpio -P -q -U flash:w:main.hex
avrdude: AVR device initialized and ready to accept instructions
Reading | ################################################## | 100% 0.00s
avrdude: Device signature = 0x1e930d (probably t861)
avrdude: NOTE: "flash" memory has been specified, an erase cycle will be performed
To disable this feature, specify the -D option.
avrdude: erasing chip
avrdude: reading input file "main.hex"
avrdude: input file main.hex auto detected as Intel Hex
avrdude: writing flash (2220 bytes):
Writing | ################################################## | 100% 0.75s
avrdude: 2220 bytes of flash written
avrdude: verifying flash memory against main.hex:
avrdude: load data flash data from input file main.hex:
avrdude: input file main.hex auto detected as Intel Hex
avrdude: input file main.hex contains 2220 bytes
avrdude: reading on-chip flash data:
Reading | ################################################## | 100% 0.58s
avrdude: verifying ...
avrdude: 2220 bytes of flash verified
avrdude: safemode: Fuses OK (E:FF, H:DF, L:E2)
avrdude done. Thank you.
Remove the cloned repository to free up space:
duckiebot $ cd .. && rm -rf fw-device-hut
and finally reboot the Duckiebot:
duckiebot $ sudo reboot
After reboot your Duckiebot should move normally and LEDs respond nominally. The Dashboard / components page will show a green status for the HUT, too.