Difference between revisions of "Open Source Electric Drive Cube Robot"
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− | [[File: | + | [[File:Boxz Materials.jpg||1000px|left]] |
==Principle of the Experiment== | ==Principle of the Experiment== | ||
*There are various kinds of Robot cars, such as robot car of tracking, barrier, Bluetooth control, which with different functions and need to adopt different sensors. | *There are various kinds of Robot cars, such as robot car of tracking, barrier, Bluetooth control, which with different functions and need to adopt different sensors. | ||
*However, all those Robot cars are basically controlled in the same way, that is, moving in four directions. | *However, all those Robot cars are basically controlled in the same way, that is, moving in four directions. | ||
− | |||
*Here we adopt two-wheel drive structure. By control the rotation of two wheels, we can achieve moving forward and backward, or spinning. Of course, it needs auxiliary wheel to keep balance. | *Here we adopt two-wheel drive structure. By control the rotation of two wheels, we can achieve moving forward and backward, or spinning. Of course, it needs auxiliary wheel to keep balance. | ||
*This car has a simple structure, including wheels, body and control system. | *This car has a simple structure, including wheels, body and control system. | ||
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==Installation== | ==Installation== | ||
− | *'''Step1''': | + | |
+ | *'''Step1''': | ||
+ | **Adopt '''Motor fixation base''' to fixate the two '''N20 gear motors ''' on the '''Structure-A1'''. | ||
+ | **Assemble the '''Wheels''', '''tyres''' and '''Couplings''', then install them with the fixated '''N20 gear motor'''. | ||
+ | |||
[[File:Cubestep1.jpg||600px|center]] | [[File:Cubestep1.jpg||600px|center]] | ||
− | *'''Step2''':Insert A2 into the slot of | + | |
+ | |||
+ | *'''Step2''': | ||
+ | *Insert '''Structure-A2''' into the slot of the two sides of '''Structure-A1'''. | ||
+ | *Use two '''Structure-A4''' to fixate the bottom of '''Auxiliary wheel''' on the '''Structure-A3'''. | ||
+ | *Prepare '''Structure-A3''' and '''Structure-B1''' from up to down as the picture shows below. | ||
[[File:Cubestep2.jpg||600px|center]] | [[File:Cubestep2.jpg||600px|center]] | ||
− | *'''Step3''': | + | |
+ | |||
+ | *'''Step3''': | ||
+ | *Fixate the'''Structure-B2''' and '''Structure-C1''' on the two sides. | ||
[[File:Cubestep3.jpg||600px|center]] | [[File:Cubestep3.jpg||600px|center]] | ||
− | *'''Step4''': | + | |
+ | *'''Step4''': | ||
+ | *Stack the following modules on the'''[[Microduino-Robot]]'''. | ||
+ | **Core module: '''[[Microduino-Core]]''' | ||
+ | **Communication module: | ||
+ | ***Under Joypad mode, the communication module is '''[[Microduino-nRF24]]'''('''Install the antenna firstly''') | ||
+ | ***Under Bluetooth mode, the communication module is '''[[Microduino-BT]]''' | ||
+ | *Connect '''Battery''' to the '''Battery interface''' on the base of '''[[Microduino-Robot]]'''. | ||
+ | *Connect two '''N20 gear motors''' to the A.A/A.B motor interfaces on the base of '''[[Microduino-Robot]]'''. | ||
+ | *Fixate '''[[Microduino-Robot]]''' on'''Structure-B1''' with screws. | ||
[[File:Cubestep4.jpg||600px|center]] | [[File:Cubestep4.jpg||600px|center]] | ||
− | *'''Step5''':Fixate C2 | + | |
+ | |||
+ | *'''Step5''': | ||
+ | *Fixate '''Auxiliary wheels''' on '''Structure-C2''' with two '''Structure-C3'''. | ||
+ | *Insert the '''Structure-C2''' to the front side. | ||
[[File:Cubestep5.jpg||600px|center]] | [[File:Cubestep5.jpg||600px|center]] | ||
− | *'''Step6''': | + | |
+ | *'''Step6''': | ||
+ | *Insert'''Structure-D2''' to the back side and stick the antenna. | ||
+ | *Put the '''Structure-D1''' on the top and by here, congratulations! You just completed the installation. | ||
[[File:Cubestep6.jpg||600px|center]] | [[File:Cubestep6.jpg||600px|center]] | ||
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===Guide for Bluetooth Control=== | ===Guide for Bluetooth Control=== | ||
− | * | + | *First of all, download remote control APP(Android): '''[[File:mTank.rar]]''' |
+ | *Confirm that the version of your phone is above Android 4.3 and the Bluetooth is open. | ||
+ | *Search the Bluetooth device named '''"Microduino"''', and connect to it. | ||
+ | *Then you can control it remotely by APP. | ||
+ | *For details, please refer to '''[[mRobot]]''' | ||
==Code Description== | ==Code Description== | ||
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</source> | </source> | ||
− | == | + | == FAQ== |
+ | *Q:'''How to choose Joypad mode or Bluetooth mode for this CUBE robot? ''' | ||
+ | **A:You don't have to select manually but stack nRF24 module when power-on. The system will enter the Joypad mode by default, or it'll enter Bluetooth mode. | ||
+ | |||
+ | *Q:'''What type of battery does the CUBE robot support? ''' | ||
+ | **A:It supports 3.7V 1S lithium battery. | ||
+ | |||
+ | *Q:'''How to connect the motors? ''' | ||
+ | **A:You can connect the two motors to the A.A/A.B interfaces respectively. | ||
+ | |||
+ | *Q:'''Does my phone support Bluetooth control? ''' | ||
+ | **A:It is supportable for phones of Android 4.3 or higher. | ||
+ | |||
|} | |} |
Latest revision as of 03:13, 30 March 2017
ContentsOutline
Bill of MaterialBill of Modules(Joypad mode)
Bill of Module(Bluetooth mode)
Other Material
Principle of the Experiment
Program Download
Programming
Installation
Instructions of the Remote Control
Guide for Joypad Control
Guide for Bluetooth Control
Code Description
#define NRF_CHANNEL 70 //nRF channel
#define CHANNEL_THROTTLE 2 //Throttle channel
#define CHANNEL_STEERING 1 //Steering channel
#define motor_fixL 1 //Speed correction (-1 to 1)
#define motor_fixR 1 // Speed correction (-1 to 1) FAQ
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