Infrared Fighting Tank
Intro: Infrared Fighting Tank
This project is to make two infrared fighting tanks with Starter Robot Kits, some mechanical parts and electric modules. They are controlled with 2.4G wireless joystick. So, how to make it?
BUY NOWSTEP 1: Parts Required
2 x Starter Robot Kit(Bluetooth or IR version)
2 x Me USB Host
2 x Me RJ25 Adapter
2 x LED RGB Strip-Addressable, Sealed(0.5M)
2 x Me RGB LED
2 x Me Infrared Receiver Decode
2 x Me 7-Segment Serial Display
2 x LED - Infrared
2 x Resistor - 330 Ω
2 x Dupont Wire Male to Male Cable Line
4 x Socket Cap Screw M4x22-Button Head
18 x Socket Cap Screw M4x14-Button
12 x Nut 4mm
2 x 2.4G Wireless Joystick
STEP 2: Assemble the Tank
Follow the instructions of Starter Robot Kit user manual to assemble the tank.
Assemble the tank gun with following parts:
Beam0808-136-Blue x 2
Beam0824-032-Blue x 1
Beam0808-024-Blue x 1
Socket Cap Screw M4x22-Button Head x 2
Socket Cap Screw M4x14-Button Head x 4
Nut 4mm x 2
Attach Beam0808-312 at the end of tank and install electronic modules.
STEP 3: Soldering and Wiring
Solder a infrared transmitter with infrared LED, 330 Ω resistor and dupont wires. Wrap it with electric tape. Connect anode and cathode of infrared LED with black cable and red cable of dupont wire, respectively.
Connect electric modules with Orion board via RJ25 cables as follows:
Infrared transmitter: Port 2
Me RGB LED: Port 3
Me 7-Segment Serial Display: Port 4
Me Infrared Receiver Decode: Port 5
Me USB Host: Port 6
Me RJ25 Adapter: Port 7
LED RGB Strip: Me RJ25 Adapter Slot 2
Fix infrared transmitter with tape.
STEP 4: Programing
Download Makeblock library and put it under Arduino libraries. The Arduino source code for infrared fighting tank is as follows:
#include "MeOrion.h"
#include <SoftwareSerial.h> #include "MeIR.h"
MeIR irsend; MeDCMotor MotorL(M1); MeDCMotor MotorR(M2); MeRGBLed ledBottom(PORT_3); Me7SegmentDisplay disp(PORT_4); MeInfraredReceiver infraredReceiverDecode(PORT_5); MeUSBHost joypad(PORT_6); // Corresponding buffer data of keys on the Joystick // Default:128-127-128-127-15-0-0-128 // L1:128-127-128-127-15-1-0-128 // R1:128-127-128-127-15-2-0-128 // L2:128-127-128-127-15-4-0-128 // R2:128-127-128-127-15-8-0-128 // Triangle key:128-127-128-127-31-0-0-128 (0001 1111) // Square key:128-127-128-127-143-0-0-128 (1000 1111) // X key:128-127-128-127-79-0-0-128 (0100 1111) // Circle key:128-127-128-127-47-0-0-128 (0010 1111) // Up:128-127-128-127-0-0-0-128 (0000 0000) // Down:128-127-128-127-4-0-0-128 (0000 0100) // Left:128-127-128-127-6-0-0-128 (0000 0110) // Right:128-127-128-127-2-0-0-128 (0000 0010) // Select:128-127-128-127-15-16-0-128 // Start:128-127-128-127-15-32-0-128 // Joystick:Right X-Right Y-Left X-Left Y-15-0-0-128 MeRGBLed ledTop(PORT_7, SLOT2, 15);
int moveSpeed = 200; uint8_t ReceiverCode; int bulletNumber = 16; int khz = 38; // 38kHz carrier frequency for the NEC protocol float lifeValue = 8; boolean gotShootIndex = 1;
void setup() { infraredReceiverDecode.begin(); Serial.println("InfraredReceiverDecode Start!"); Serial.begin(9600); joypad.init(USB1_0);
disp.display(bulletNumber); displayLifeValue();
int delayTime = 360; for (uint8_t t = 0; t < 16; t++) // blink led { ledBottom.setColor(200,0,0); // led on ledBottom.show(); delay(delayTime); ledBottom.setColor(0,0,0); // led off ledBottom.show(); delay(delayTime); delayTime -= 20; } }
void shoot() { // shoot, bullet number -1 bulletNumber -= 1;
if(bulletNumber>=0) { unsigned int irSignal[] = {9000, 4500, 560, 560, 560, 560, 560, 1690, 560, 560, 560, 560, 560, 560, 560, 560, 560, 560, 560, 1690, 560, 1690, 560, 560, 560, 1690, 560, 1690, 560, 1690, 560, 1690, 560, 1690, 560, 560, 560, 560, 560, 560, 560, 1690, 560, 560, 560, 560, 560, 560, 560, 560, 560, 1690, 560, 1690, 560, 1690, 560, 560, 560, 1690, 560, 1690, 560, 1690, 560, 1690, 560, 39416, 9000, 2210, 560}; //AnalysIR Batch Export (IRremote) - RAW irsend.sendRaw(irSignal, sizeof(irSignal) / sizeof(irSignal[0]), khz); // send ir signal
ledBottom.setColor(0,0,200); ledBottom.show(); Backward(); buzzerOn(); delay(100); Stop();
Forward(); delay(80); ledBottom.setColor(0,0,0); ledBottom.show(); Stop(); buzzerOff(); } else { bulletNumber=0; } disp.display(bulletNumber); }
void gotShoot() { Serial.println(ReceiverCode); if(ReceiverCode == 0x08) { Serial.println("got shoot"); lifeValue -= 0.5; if(lifeValue<0) { lifeValue = 0; } ledTop.setColorAt(lifeValue, 0, 0, 0); ledTop.show();
if(gotShootIndex){ ledBottom.setColor(200,0,0); // backward and flash red led ledBottom.show(); Backward(); delay(100); ledBottom.setColor(0,0,0); ledBottom.show(); Stop(); } gotShootIndex = !gotShootIndex; } }
void displayLifeValue() { lifeValue = 8; for(int8_t t=0; t<lifeValue; t++) { // light led ledTop.setColorAt(t, 200,0,0); ledTop.show(); delay(150); } }
void loop() {
if(infraredReceiverDecode.available()) { ReceiverCode = infraredReceiverDecode.read(); gotShoot(); }
if(!joypad.device_online) { joypad.probeDevice(); delay(1000); } else { int len = joypad.host_recv(); parseJoystick(joypad.RECV_BUFFER); delay(5); } }
void parseJoystick(unsigned char *buf) //Analytic function, print 8 bytes from USB Host { // print buffer data to debug // int i = 0; // for(i = 0; i < 7; i++) // { // Serial.print(buf[i]); // Serial.print('-'); // } // Serial.println(buf[7]); // delay(10);
switch (buf[5]) { case 1: // L1 reset life value displayLifeValue(); break; case 2: // R1 reset bullet number bulletNumber = 16; disp.display(bulletNumber); break; case 4: // L2 break; case 8: // R2 break; default: break; }
if ((128 != buf[0]) || (127 != buf[1]) || (128 != buf[2]) || (127 != buf[3])) { // buf[0]-buf[3] corresponding to the left and right joystick
} else { switch (buf[4]) { case 79: // X Stop(); break; case 0: // up Forward(); break; case 4: // down Backward(); break; case 6: // left TurnLeft(); break; case 2: // right TurnRight(); break; case 143: // square key
break; case 31: // triangle key shoot(); break; case 47: // circle key break; default: Stop(); break; } } }
void Forward() { MotorL.run(-moveSpeed); MotorR.run(moveSpeed); } void Backward() { MotorL.run(moveSpeed); MotorR.run(-moveSpeed); } void TurnLeft() { MotorL.run(moveSpeed); MotorR.run(moveSpeed); } void TurnRight() { MotorL.run(-moveSpeed); MotorR.run(-moveSpeed); } void Stop() { MotorL.run(0); MotorR.run(0); }
STEP 5: Upload Code and Fire
Follow the above steps to make another tank, upload code to Orion board with Arduino IDE, plug usb module into Me USB Host, connect joystick with tank, you're ready to fire and have fun.
15 Comments
laith mohamed 8 years ago
Its engineering + fun ..... thats awesome
Eugene_Liu 8 years ago
Bro, this is one of most exciting project I even see here. I love. Just few quick thoughts: 1. could you let code to control one of the tank to fight with another one ? 2. further more, could these 2 tanks fight remotely through internet ? 3. maybe there is competition ?
Great work !
Makeblock Robotics 8 years ago
Thanks for your advice. The tank gets shot if its infrared receiver module receive IR signal from another tank. Fighting remotely through internet is really cool. More work need to be done, like adding wifi module.
I-robostein 8 years ago
Amazing!!!!! but as the others... what is the effective range
other than that it is cool
Makeblock Robotics 8 years ago
Do you mean the shooting range? They work fine within 1.5m.
Jonathanrjpereira 8 years ago
are those 2 PS3 controllers?
Makeblock Robotics 8 years ago
No, they are ordinary 2.4G wireless Joysticks.
alpersunter 8 years ago
Imetomi 8 years ago
WOOW! Amazing job!
Alexander heron the inventor 8 years ago
damn it bro,you didn't reply again,i failed again with your voice controlled drone.Btw i made my own instructables.Btw this project is wicked,you should make a drone laser tag
Srijal97 8 years ago
Awesome! love the recoil!
What is the effective range?
Makeblock Robotics 8 years ago
Thanks, they work fine within 1.5m.
Morealin 8 years ago
Makeblock Robotics 8 years ago
They work fine within 1.5m.
Jedi_zombie85 8 years ago
hahaha amazing