TiLDA Balance: Difference between revisions
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m Danspencer101 moved page Project:TiLDA Balance to TiLDA Balance over redirect |
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== First bot == | == First bot == | ||
I want a quick and cheap entry point for people to achieve first before forking out for expensive parts. | |||
<gallery> | <gallery widths=200px > | ||
File:msemtd-tilda-balance-IMAG1553.jpg | gearmotor, smooth side with m3 bolts | File:msemtd-tilda-balance-IMAG1553.jpg | gearmotor, smooth side with m3 bolts | ||
File:msemtd-tilda-balance-IMAG1554.jpg | gearmotor, side view | File:msemtd-tilda-balance-IMAG1554.jpg | gearmotor, side view | ||
| Line 19: | Line 19: | ||
File:msemtd-tilda-balance-IMAG1508.jpg | TiLDA | File:msemtd-tilda-balance-IMAG1508.jpg | TiLDA | ||
</gallery> | </gallery> | ||
* Getting to grips with development on TiLDA: see EMF wiki for the most part (https://wiki.emfcamp.org/wiki/TiLDA_MKe) | * Getting to grips with development on TiLDA: see EMF wiki for the most part (https://wiki.emfcamp.org/wiki/TiLDA_MKe) | ||
| Line 28: | Line 27: | ||
** orientation of the device and mapping to "normal" badge orientation | ** orientation of the device and mapping to "normal" badge orientation | ||
* libs... TODO | * libs... TODO | ||
* Cheap little motors: | * Cheap little motors: almost ubiquitous little gearmotors with wheels £4.30 from China on eBay | ||
** 2Pcs Smart Car Robot Plastic Tire Wheel with DC Biaxial Gear Motor for Arduino http://cgi.ebay.co.uk/ws/eBayISAPI.dll?ViewItemVersion&item=271534358812&view=all&tid=1348546156017 | |||
** Model : HC02-48, Working voltage: 3-6V, Specification: Biaxial, Reduction ratio: 1:48, 3V no load: 125 R/M, 3 V no load with 66 mm wheel: 26 m/min, 5 V no lode: 208 R/M, 5 V nolode with 66 mm wheel: 44 m/min, Torque: 0.8 kg/cm, Speed: fast | |||
* Cheap motor drivers: ubiquitous L298N module | * Cheap motor drivers: ubiquitous L298N module | ||
** £3.59 http://www.ebay.co.uk/itm/371130909842?_trksid=p2059210.m2749.l2649&ssPageName=STRK%3AMEBIDX%3AIT | |||
** https://www.sparkfun.com/datasheets/Components/General/L298N.pdf | |||
* Battery power: separate power supply from rechargeable AA batteries direct to motor driver. | * Battery power: separate power supply from rechargeable AA batteries direct to motor driver. | ||
=== prototype body === | |||
* Laser cut (naturally!) from 3mm ply. Acrylic may be a bit brittle for the crashing that will occur! | |||
* box out the motors as "legs" and form pegs to connect those to a smallish horizontal platform | |||
* the motor driver can dangle below the platform, twixt the legs to "catch the breeze"! | |||
* the TiLDA will be mounted above the platform in a variety of orientations configurable in the software | |||
<gallery widths=200px> | |||
File:msemtd-tilda-balance-IMAG1563.jpg | laser leg development - cutouts for bits | |||
File:msemtd-tilda-balance-IMAG1564.jpg | leg 3-sided box | |||
File:msemtd-tilda-balance-IMAG1565.jpg | wraps around gearmotor body and bolts on | |||
File:msemtd-tilda-balance-IMAG1566.jpg | platform designed - dry fit | |||
File:msemtd-tilda-balance-IMAG1567.jpg | glue up | |||
File:msemtd-tilda-balance-IMAG1568.jpg | with motor driver board | |||
File:msemtd-tilda-balance-IMAG1569.jpg | upright | |||
</gallery> | |||
=== prototype software === | |||
* choose how much of the emfcampbadge software to integrate | |||
** e.g. do we want to just add RTOS tasks to the existing badge software? | |||
** the display driver and menu system would be handy | |||
* basic PID (proportional-integral-derivative) controller - see http://en.wikipedia.org/wiki/PID_controller | |||
* existing instructable using MPU6050: http://www.instructables.com/id/Balancing-Instructable-Robot/ | |||
* how is the MPU connected: See schematic [[File:TiLDA_Mk2_Prototype_v0.333.pdf]] | |||
== Stretch Goals == | == Stretch Goals == | ||
| Line 36: | Line 67: | ||
* Total Segway domination - human or multi-human carrying! | * Total Segway domination - human or multi-human carrying! | ||
* wheel-less eerie ball/egg | * wheel-less eerie ball/egg | ||
[[Category:Projects]] | |||
Latest revision as of 11:59, 5 February 2019
First entry of https://wiki.emfcamp.org/wiki/Badge_Creations !!!
I'm working on making use of the TiLDA with its MPU-6050 as the brains of a balancing platform (initially a little balance-bot but eventually a ridable Segway-like platform if all goes well). The MPU-6050 has a 3-axis gyroscope, 3-axis accelerometer, and a Digital Motion Processor(TM) (DMP) integrated into a tiny little package on the back of the badge (IC2). It can do a lot of the grunt work leaving the badge micro plenty of space and time to do the other cool stuff.
--Michael Erskine (talk) 4 September 2014
- The MPU-6050
First bot
I want a quick and cheap entry point for people to achieve first before forking out for expensive parts.
-
gearmotor, smooth side with m3 bolts -
gearmotor, side view -
cheap L298N motor driver board (eBay) -
wheel, gearmotor, driver -
wheel mounted on gearmotor -
TiLDA
- Getting to grips with development on TiLDA: see EMF wiki for the most part (https://wiki.emfcamp.org/wiki/TiLDA_MKe)
- https://github.com/emfcamp/Mk2-Firmware
- MPU-6050
- MPU = Motion Processing Unit
- compare TiLDA usage with that of Sparkfun breakout schematic at https://cdn.sparkfun.com/datasheets/Sensors/IMU/Triple_Axis_Accelerometer-Gyro_Breakout_-_MPU-6050_v12.pdf
- orientation of the device and mapping to "normal" badge orientation
- libs... TODO
- Cheap little motors: almost ubiquitous little gearmotors with wheels £4.30 from China on eBay
- 2Pcs Smart Car Robot Plastic Tire Wheel with DC Biaxial Gear Motor for Arduino http://cgi.ebay.co.uk/ws/eBayISAPI.dll?ViewItemVersion&item=271534358812&view=all&tid=1348546156017
- Model : HC02-48, Working voltage: 3-6V, Specification: Biaxial, Reduction ratio: 1:48, 3V no load: 125 R/M, 3 V no load with 66 mm wheel: 26 m/min, 5 V no lode: 208 R/M, 5 V nolode with 66 mm wheel: 44 m/min, Torque: 0.8 kg/cm, Speed: fast
- Cheap motor drivers: ubiquitous L298N module
- Battery power: separate power supply from rechargeable AA batteries direct to motor driver.
prototype body
- Laser cut (naturally!) from 3mm ply. Acrylic may be a bit brittle for the crashing that will occur!
- box out the motors as "legs" and form pegs to connect those to a smallish horizontal platform
- the motor driver can dangle below the platform, twixt the legs to "catch the breeze"!
- the TiLDA will be mounted above the platform in a variety of orientations configurable in the software
-
laser leg development - cutouts for bits -
leg 3-sided box -
wraps around gearmotor body and bolts on -
platform designed - dry fit -
glue up -
with motor driver board -
upright
prototype software
- choose how much of the emfcampbadge software to integrate
- e.g. do we want to just add RTOS tasks to the existing badge software?
- the display driver and menu system would be handy
- basic PID (proportional-integral-derivative) controller - see http://en.wikipedia.org/wiki/PID_controller
- existing instructable using MPU6050: http://www.instructables.com/id/Balancing-Instructable-Robot/
- how is the MPU connected: See schematic File:TiLDA Mk2 Prototype v0.333.pdf
Stretch Goals
- Ball balancing: http://youtu.be/dr5xdpLL58A
- Total Segway domination - human or multi-human carrying!
- wheel-less eerie ball/egg