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November 30, 2013 09:15
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Electric Car
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| [quote] | |
| [color=#CC6600]int[/color] motorPin1 = 7; | |
| [color=#CC6600]int[/color] motorPin2 = 8; | |
| [color=#CC6600]int[/color] enablePin_1 = 6; | |
| [color=#CC6600]int[/color] motorPin4 = 2; | |
| [color=#CC6600]int[/color] motorPin3 = 4; | |
| [color=#CC6600]int[/color] enablePin_2 =3 ; | |
| [color=#CC6600]int[/color] buzzer = 11; | |
| [color=#CC6600]int[/color] f_b_light = 12 ; | |
| [color=#CC6600]int[/color] state; | |
| [color=#CC6600]int[/color] flag=0; [color=#7E7E7E]//makes sure that the serial only prints once the state[/color] | |
| [color=#CC6600]boolean[/color] buzzerstatus = 0; | |
| [color=#CC6600]boolean[/color] LEDstatus = 0; | |
| #include <[color=#CC6600]LiquidCrystal[/color].h> | |
| [color=#CC6600]LiquidCrystal[/color] lcd(13, 10, 9, A0, A1, A2); | |
| [color=#CC6600]void[/color] [color=#CC6600][b]setup[/b][/color]() { | |
| [color=#7E7E7E]// sets the pins as outputs:[/color] | |
| lcd.[color=#CC6600]begin[/color](16, 2); | |
| [color=#CC6600]pinMode[/color](buzzer,[color=#006699]OUTPUT[/color]); | |
| [color=#CC6600]pinMode[/color](f_b_light,[color=#006699]OUTPUT[/color]); | |
| [color=#CC6600]pinMode[/color](motorPin1, [color=#006699]OUTPUT[/color]); | |
| [color=#CC6600]pinMode[/color](motorPin2, [color=#006699]OUTPUT[/color]); | |
| [color=#CC6600]pinMode[/color](enablePin_1, [color=#006699]OUTPUT[/color]); | |
| [color=#CC6600]pinMode[/color](motorPin3, [color=#006699]OUTPUT[/color]); | |
| [color=#CC6600]pinMode[/color](motorPin4, [color=#006699]OUTPUT[/color]); | |
| [color=#CC6600]pinMode[/color](enablePin_2, [color=#006699]OUTPUT[/color]); | |
| [color=#7E7E7E]// sets enablePin high so that motor can turn on:[/color] | |
| [color=#CC6600]digitalWrite[/color](enablePin_1, [color=#006699]HIGH[/color]); | |
| [color=#CC6600]digitalWrite[/color](enablePin_2, [color=#006699]HIGH[/color]); | |
| [color=#CC6600]pinMode[/color](13,[color=#006699]OUTPUT[/color]); | |
| [color=#7E7E7E]// initialize serial communication at 9600 bits per second:[/color] | |
| [color=#CC6600][b]Serial[/b][/color].[color=#CC6600]begin[/color](9600); | |
| } | |
| [color=#CC6600]void[/color] [color=#CC6600][b]loop[/b][/color]() { | |
| [color=#7E7E7E]//if some date is sent, reads it and saves in state[/color] | |
| [color=#CC6600]if[/color]([color=#CC6600][b]Serial[/b][/color].[color=#CC6600]available[/color]() > 0){ | |
| state = [color=#CC6600][b]Serial[/b][/color].[color=#CC6600]read[/color](); | |
| flag=0; | |
| } | |
| [color=#7E7E7E]// if the state is '0' the DC motor will turn off[/color] | |
| [color=#CC6600]if[/color] (state == [color=#006699]'0'[/color]) { | |
| [color=#CC6600]digitalWrite[/color](f_b_light,[color=#006699]LOW[/color]); | |
| [color=#CC6600]digitalWrite[/color](buzzer,[color=#006699]LOW[/color]); | |
| [color=#CC6600]digitalWrite[/color](motorPin1, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 2 on L293D low[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin2, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 7 on L293D low[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin3, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 2 on L293D low[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin4, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 7 on L293D low[/color] | |
| [color=#CC6600]if[/color](flag == 0){ | |
| lcd.[color=#CC6600]clear[/color](); | |
| lcd.[color=#CC6600]setCursor[/color](0, 0); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"Current State:"[/color]); | |
| lcd.[color=#CC6600]setCursor[/color](0, 1); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"STOP"[/color]); | |
| flag=1; | |
| } | |
| } | |
| [color=#7E7E7E]// if the state is '1' the motor will forward[/color] | |
| [color=#CC6600]else[/color] [color=#CC6600]if[/color] (state == [color=#006699]'1'[/color]) { | |
| [color=#CC6600]digitalWrite[/color](f_b_light,[color=#006699]LOW[/color]); | |
| [color=#CC6600]digitalWrite[/color](buzzer,[color=#006699]LOW[/color]); | |
| [color=#CC6600]digitalWrite[/color](motorPin1, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 2 on L293D low[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin2, [color=#006699]HIGH[/color]); [color=#7E7E7E]// set pin 7 on L293D high[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin3, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 2 on L293D low[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin4, [color=#006699]HIGH[/color]); [color=#7E7E7E]// set pin 7 on L293D high[/color] | |
| [color=#CC6600]if[/color](flag == 0){ | |
| lcd.[color=#CC6600]setCursor[/color](0, 0); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"Current State:"[/color]); | |
| lcd.[color=#CC6600]setCursor[/color](0, 1); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"FORWARD"[/color]); | |
| flag=1; | |
| } | |
| } | |
| [color=#7E7E7E]// if the state is '2' the motor will backward[/color] | |
| [color=#CC6600]else[/color] [color=#CC6600]if[/color] (state == [color=#006699]'2'[/color]) { | |
| [color=#CC6600]digitalWrite[/color](f_b_light,[color=#006699]LOW[/color]); | |
| [color=#CC6600]digitalWrite[/color](buzzer,[color=#006699]LOW[/color]); | |
| [color=#CC6600]digitalWrite[/color](motorPin1, [color=#006699]HIGH[/color]); [color=#7E7E7E]// set pin 2 on L293D high[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin2, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 7 on L293D low[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin3, [color=#006699]HIGH[/color]); [color=#7E7E7E]// set pin 2 on L293D high[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin4, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 7 on L293D low[/color] | |
| [color=#CC6600]if[/color](flag == 0){ | |
| lcd.[color=#CC6600]setCursor[/color](0, 0); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"Current State:"[/color]); | |
| lcd.[color=#CC6600]setCursor[/color](0, 1); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"REVERSE"[/color]); | |
| flag=1; | |
| } | |
| } | |
| [color=#CC6600]else[/color] [color=#CC6600]if[/color] (state == [color=#006699]'3'[/color]) { | |
| [color=#CC6600]digitalWrite[/color](f_b_light,[color=#006699]LOW[/color]); | |
| [color=#CC6600]digitalWrite[/color](buzzer,[color=#006699]LOW[/color]); | |
| [color=#CC6600]digitalWrite[/color](motorPin1, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 2 on L293D high[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin2, [color=#006699]HIGH[/color]); [color=#7E7E7E]// set pin 7 on L293D low[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin3, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 2 on L293D high[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin4, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 7 on L293D low[/color] | |
| [color=#CC6600]if[/color](flag == 0){ | |
| lcd.[color=#CC6600]setCursor[/color](0, 0); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"Current State:"[/color]); | |
| lcd.[color=#CC6600]setCursor[/color](0, 1); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"RIGHT"[/color]); | |
| flag=1; [color=#7E7E7E]//Left wheel forward, Right wheel static[/color] | |
| flag=1; | |
| } | |
| } | |
| [color=#CC6600]else[/color] [color=#CC6600]if[/color] (state == [color=#006699]'4'[/color]) { | |
| [color=#CC6600]digitalWrite[/color](f_b_light,[color=#006699]LOW[/color]); | |
| [color=#CC6600]digitalWrite[/color](buzzer,[color=#006699]LOW[/color]); | |
| [color=#CC6600]digitalWrite[/color](motorPin1, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 2 on L293D high[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin2, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 7 on L293D low[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin3, [color=#006699]LOW[/color]); [color=#7E7E7E]// set pin 2 on L293D high[/color] | |
| [color=#CC6600]digitalWrite[/color](motorPin4, [color=#006699]HIGH[/color]); [color=#7E7E7E]// set pin 7 on L293D low[/color] | |
| [color=#CC6600]if[/color](flag == 0){ | |
| lcd.[color=#CC6600]clear[/color](); | |
| lcd.[color=#CC6600]setCursor[/color](0, 0); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"Current State:"[/color]); | |
| lcd.[color=#CC6600]setCursor[/color](0, 1); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"LEFT"[/color]); | |
| flag=1; | |
| } | |
| } | |
| [color=#CC6600]else[/color] [color=#CC6600]if[/color] (state == [color=#006699]'5'[/color]) { | |
| [color=#CC6600]digitalWrite[/color](buzzer,[color=#006699]HIGH[/color]); | |
| [color=#CC6600]if[/color](flag == 0){ | |
| lcd.[color=#CC6600]clear[/color](); | |
| lcd.[color=#CC6600]setCursor[/color](0, 0); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"Current State:"[/color]); | |
| lcd.[color=#CC6600]setCursor[/color](0, 1); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"Buzzer ON"[/color]); | |
| flag=1; | |
| } | |
| } | |
| [color=#CC6600]else[/color] [color=#CC6600]if[/color] (state == [color=#006699]'6'[/color]) { | |
| [color=#CC6600]digitalWrite[/color](f_b_light,[color=#006699]HIGH[/color]); | |
| [color=#CC6600]if[/color](flag == 0){ | |
| lcd.[color=#CC6600]setCursor[/color](0, 0); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"Current State:"[/color]); | |
| lcd.[color=#CC6600]setCursor[/color](0, 1); | |
| lcd.[color=#CC6600]print[/color]([color=#006699]"LIGHT ON"[/color]); | |
| flag=1; | |
| } | |
| } | |
| } | |
| [/quote] |
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