You can see how to connect buttons or switches in the "Attaching Servos and Peripherals" section of the Maestro user's guide. Additionally, you can find multiple example scripts for using inputs with servos in the "Example Scripts" section of the same user's guide.
We do not have any of the technical specifications for the parts needed for this project. The manufacturer seems to be out of business since their website quit working some time ago.
Unfortunately, we do not have any specific advice for building a similar robot.
We do not use Eagle, so we do not have Eagle files. You can find DXF drill guide and 3D models files under the "Resources" tab of the connectors product page:
You should probably contact the manufacturer of your ESC to see what they recommend. Please note, as I mentioned in my previous comment, it looks like the Operative RC website is no longer functional, and we cannot offer much (if any) advice about that robot system since we did not design or manufacture it.
Our MC33926 driver carrier for Raspberry Pi will work with input voltages between 5V and 28V. Whatever voltage is applied to VIN will be the voltage out of the motor outputs, except PWM modulated. (So for a 12V supply and a 50% duty cycle, you would get results similar to running at about 6V). You will never get a higher output voltage than you input voltage.
Video: Getting started with the Maestro
- 21 May 2020Hello, Edson.
You can see how to connect buttons or switches in the "Attaching Servos and Peripherals" section of the Maestro user's guide. Additionally, you can find multiple example scripts for using inputs with servos in the "Example Scripts" section of the same user's guide.
-Derrill
Ibex: a wall-climbing robot by Operative RC
- 30 March 2020Hello,
We do not have any of the technical specifications for the parts needed for this project. The manufacturer seems to be out of business since their website quit working some time ago.
Unfortunately, we do not have any specific advice for building a similar robot.
-Derrill
Building a Raspberry Pi robot with the Romi chassis
- 13 December 2019Hello, Jason.
The forum is a better setting for troubleshooting, so please post about the issue there:
https://forum.pololu.com/
-Derrill
Video: Setting the Current Limit on Pololu Stepper Motor Driver Carriers
- 6 November 2019Hi, Chuck.
Please contact us via email at support@pololu.com for troubleshooting like this.
New product: USB 2.0 Type-C Connector Breakout Board
- 22 July 2019Hello,
We do not use Eagle, so we do not have Eagle files. You can find DXF drill guide and 3D models files under the "Resources" tab of the connectors product page:
https://www.pololu.com/product/2585/resources
-Derrill
Ibex: a wall-climbing robot by Operative RC
- 1 May 2019Hello,
You should probably contact the manufacturer of your ESC to see what they recommend. Please note, as I mentioned in my previous comment, it looks like the Operative RC website is no longer functional, and we cannot offer much (if any) advice about that robot system since we did not design or manufacture it.
-Derrill
New product: Pololu Dual MC33926 Motor Driver for Raspberry Pi
- 1 April 2019Hello, Erik.
Our MC33926 driver carrier for Raspberry Pi will work with input voltages between 5V and 28V. Whatever voltage is applied to VIN will be the voltage out of the motor outputs, except PWM modulated. (So for a 12V supply and a 50% duty cycle, you would get results similar to running at about 6V). You will never get a higher output voltage than you input voltage.
-Derrill
New product: 5-Channel Reflectance Sensor Array for Balboa 32U4 Balancing Robot
- 26 February 2019Sounds like you have a lot of good fun ahead of you! Good luck; you might post about your projects on our forum.
Firmware update for Tic Stepper Motor Controllers, with new features including limit switches and homing
- 14 February 2019Hello, Joseph.
Glad you like the new update. When you are ready to share your Mini Mill, please post about it on our forum; we are excited to see it!
-Derrill
New Tic T500 revision to address problem with missed steps
- 30 January 2019Hello, Mike.
Please email us with your order information.
-Derrill