Conexiones y Código para Carrito Seguidor de Línea

Thought for 2 sec

No hice cambios en el proyecto en esta sesión. Sí te dejo el cableado recomendado y un programa base para que armes tu carrito seguidor de línea con Arduino Uno R3 + L298N + 2 motores DC + 2 sensores IR FC-51 + fuente de 9 V.

1) Conexiones recomendadas Alimentación

Importante: una batería/fuente de 9 V tipo rectangular normalmente no sirve bien para 2 motores + Arduino; se cae mucho el voltaje y da poca corriente. Mejor usa:

6xAA, o
2 celdas Li-ion 18650, o
una batería capaz de entregar al menos 1 A.

Si igual vas a probar con 9 V:

9 V → pin 12V/Vs del L298N
GND de la fuente → GND del L298N
GND del L298N → GND del Arduino
Esto es obligatorio para que todo comparta referencia.

Arduino

Puedes alimentar el Arduino así:

opción simple: 9 V → VIN del Arduino, y GND común
No recomiendo usar LM317 para esto si no sabes ajustarlo bien; además desperdicia energía en calor.

Motores al L298N

Motor izquierdo → OUT1 y OUT2
Motor derecho → OUT3 y OUT4

Control del L298N con Arduino

Usa estos pines:

ENA → Arduino 5 (PWM)
IN1 → Arduino 8
IN2 → Arduino 9
IN3 → Arduino 10
IN4 → Arduino 11
ENB → Arduino 6 (PWM)

Sensores FC-51

Cada FC-51 tiene típicamente:

VCC
GND
DO (salida digital)

Conexión:

Sensor izquierdo:
- VCC → 5V Arduino
- GND → GND Arduino
- DO → A0 o 2
Sensor derecho:
- VCC → 5V Arduino
- GND → GND Arduino
- DO → A1 o 3

Yo usaré:

Izquierdo DO → A0
Derecho DO → A1

En muchos FC-51, cuando detectan negro/blanco el nivel puede invertirse según ajuste del potenciómetro. Eso se corrige en software.

2) Esquema rápido de conexión Fuente

Fuente 9V (+) → L298N 12V
Fuente 9V (-) → L298N GND
L298N GND → Arduino GND
Fuente 9V (+) → VIN Arduino (opcional si alimentas el Arduino desde la misma fuente)

L298N a Arduino

ENA → D5
IN1 → D8
IN2 → D9
IN3 → D10
IN4 → D11
ENB → D6

Sensores

FC-51 izquierdo DO → A0
FC-51 derecho DO → A1
Ambos VCC → 5V
Ambos GND → GND

3) Sobre el LM317T

Para este proyecto no lo necesitas si ya tienes:

la fuente de 9 V, y
el regulador del Arduino / módulo L298N.

Si insistes en usar el LM317T, solo úsalo si entiendes bien:

cálculo de resistencias para sacar 5 V,
capacitores de entrada/salida,
disipación térmica.

Para un carrito seguidor de línea escolar, lo más simple es no usar LM317.

4) Programa base Arduino

Este código asume:

LOW = línea negra detectada
HIGH = fondo blanco

Si te funciona al revés, te indico abajo cómo invertirlo.

Cpp
// Pines L298N
const int ENA = 5;
const int IN1 = 8;
const int IN2 = 9;
const int IN3 = 10;
const int IN4 = 11;
const int ENB = 6;

// Sensores
const int sensorIzq = A0;
const int sensorDer = A1;

// Velocidades
int velBase = 160;
int velGiro = 130;

void setup() {
  pinMode(ENA, OUTPUT);
  pinMode(IN1, OUTPUT);
  pinMode(IN2, OUTPUT);
  pinMode(IN3, OUTPUT);
  pinMode(IN4, OUTPUT);
  pinMode(ENB, OUTPUT);

  pinMode(sensorIzq, INPUT);
  pinMode(sensorDer, INPUT);

  Serial.begin(9600);
  detener();
}

void loop() {
  int izq = digitalRead(sensorIzq);
  int der = digitalRead(sensorDer);

  Serial.print("Izq: ");
  Serial.print(izq);
  Serial.print("  Der: ");
  Serial.println(der);

  // Caso 1: ambos sobre blanco
  if (izq == HIGH && der == HIGH) {
    avanzar(velBase, velBase);
  }
  // Caso 2: sensor izquierdo detecta línea
  else if (izq == LOW && der == HIGH) {
    girarIzquierda(velGiro, velBase);
  }
  // Caso 3: sensor derecho detecta línea
  else if (izq == HIGH && der == LOW) {
    girarDerecha(velBase, velGiro);
  }
  // Caso 4: ambos detectan línea
  else if (izq == LOW && der == LOW) {
    detener();
  }
}

void avanzar(int velIzq, int velDer) {
  // Motor izquierdo adelante
  digitalWrite(IN1, HIGH);
  digitalWrite(IN2, LOW);

  // Motor derecho adelante
  digitalWrite(IN3, HIGH);
  digitalWrite(IN4, LOW);

  analogWrite(ENA, velIzq);
  analogWrite(ENB, velDer);
}

void girarIzquierda(int velIzq, int velDer) {
  // Reducir/parar motor izquierdo, mantener derecho
  digitalWrite(IN1, LOW);
  digitalWrite(IN2, LOW);

  digitalWrite(IN3, HIGH);
  digitalWrite(IN4, LOW);

  analogWrite(ENA, 0);
  analogWrite(ENB, velDer);
}

void girarDerecha(int velIzq, int velDer) {
  digitalWrite(IN1, HIGH);
  digitalWrite(IN2, LOW);

  digitalWrite(IN3, LOW);
  digitalWrite(IN4, LOW);

  analogWrite(ENA, velIzq);
  analogWrite(ENB, 0);
}

void detener() {
  digitalWrite(IN1, LOW);
  digitalWrite(IN2, LOW);
  digitalWrite(IN3, LOW);
  digitalWrite(IN4, LOW);

  analogWrite(ENA, 0);
  analogWrite(ENB, 0);
}

5) Si los sensores funcionan invertidos

A veces en el FC-51:

LOW = blanco
HIGH = negro

Si ves que se comporta al revés, cambia estas condiciones:

Cpp
if (izq == HIGH && der == HIGH)

por la lógica inversa según tus lecturas del monitor serial.

Haz esta prueba:

abre Monitor Serial
mueve el sensor sobre blanco y negro
anota cuándo marca 0 y cuándo 1

Luego ajustas la lógica.

6) Ajuste práctico del seguidor de línea

Ajusta el potenciómetro de cada FC-51 hasta que detecte bien la línea.
Separa los sensores unos centímetros, uno a la izquierda y otro a la derecha del centro.
Empieza con velocidad baja: 120 a 160
Si zigzaguea mucho, baja velocidad o cambia la lógica de giro.

7) Errores comunes

No unir GND del Arduino con GND del L298N
Usar batería rectangular de 9 V y que el carro no tenga fuerza
Conectar sensores a 9 V en vez de 5 V
No usar pines PWM en ENA/ENB
Invertir cables del motor; si gira al revés, intercambia los dos cables de ese motor

8) Qué falta por hacer

Montar el cableado físico
Probar el sentido de giro de ambos motores
Verificar si el FC-51 entrega lógica invertida o no
Ajustar velocidades y sensibilidad

Si quieres, te puedo dar ahora un diagrama de conexiones pin por pin más ordenado o un código mejorado para que el carrito gire más suave.

Diagrama pin a pin

Código más suave

Revisar U6

Calcular LM317T

Agregar componentes

// Definición de los pines de control de giro de los motores In1, In2, In3 e In4
int Motor1A = 27;
int Motor1B = 26;
int Motor2A = 25;
int Motor2B = 33;
// Sensores infrarrojo - izquierdo , derecho y centro
int infraPin1 = 2;
int infraPin2 = 4;
int infraPin3 = 16;
// Variables para la captura de los valores: 1 - fondo claro y 0 - línea negra
int valorInfra1 = 0;
int valorInfra2 = 0;
int valorInfra3 = 0;
// Configuración inicial
void setup() {
    Serial.begin(9600);
    delay(1000);
    // Establecemos modo de los pines de los sensores infrarrojo
    pinMode(infraPin1, INPUT);
    pinMode(infraPin2, INPUT);

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Did you mean 'Intl'?Line: 8:5: Cannot find name 'infraPin1'.Line: 9:1: Cannot find name 'int'.Line: 9:5: Cannot find name 'infraPin2'.Line: 10:1: Cannot find name 'int'.Line: 10:5: Cannot find name 'infraPin3'.Line: 12:1: Cannot find name 'int'.Line: 12:5: Cannot find name 'valorInfra1'.Line: 13:1: Cannot find name 'int'.Line: 13:5: Cannot find name 'valorInfra2'.Line: 14:1: Cannot find name 'int'.Line: 14:5: Cannot find name 'valorInfra3'.Line: 16:6: Cannot find name 'setup'.Line: 17:5: Cannot find name 'Serial'.Line: 19:5: Cannot find name 'delay'.Line: 21:5: Cannot find name 'pinMode'.Line: 21:13: Cannot find name 'infraPin1'.Line: 21:24: Cannot find name 'INPUT'.Line: 22:5: Cannot find name 'pinMode'.Line: 22:13: Cannot find name 'infraPin2'.Line: 22:24: Cannot find name 'INPUT'.Line: 23:5: Cannot find name 'pinMode'.Line: 23:13: Cannot find name 'infraPin3'.Line: 23:24: Cannot find name 'INPUT'.Line: 25:5: Cannot find name 'pinMode'.Line: 25:13: Cannot find name 'Motor1A'.Line: 25:22: Cannot find name 'OUTPUT'.Line: 26:5: Cannot find name 'pinMode'.Line: 26:13: Cannot find name 'Motor1B'.Line: 26:22: Cannot find name 'OUTPUT'.Line: 27:5: Cannot find name 'pinMode'.Line: 27:13: Cannot find name 'Motor2A'.Line: 27:22: Cannot find name 'OUTPUT'.Line: 28:5: Cannot find name 'pinMode'.Line: 28:13: Cannot find name 'Motor2B'.Line: 28:22: Cannot find name 'OUTPUT'.Line: 30:5: Cannot find name 'digitalWrite'.Line: 30:18: Cannot find name 'Motor1A'.Line: 30:27: Cannot find name 'LOW'.Line: 31:5: Cannot find name 'digitalWrite'.Line: 31:18: Cannot find name 'Motor1B'.Line: 31:27: Cannot find name 'LOW'.Line: 32:5: Cannot find name 'digitalWrite'.Line: 32:18: Cannot find name 'Motor2A'.Line: 32:27: Cannot find name 'LOW'.Line: 33:5: Cannot find name 'digitalWrite'.Line: 33:18: Cannot find name 'Motor2B'.Line: 33:27: Cannot find name 'LOW'.Line: 36:6: Cannot find name 'loop'.Line: 38:5: Cannot find name 'valorInfra1'.Line: 38:19: Cannot find name 'digitalRead'.Line: 38:31: Cannot find name 'infraPin1'.Line: 39:5: Cannot find name 'valorInfra2'.Line: 39:19: Cannot find name 'digitalRead'.Line: 39:31: Cannot find name 'infraPin2'.Line: 40:5: Cannot find name 'valorInfra3'.Line: 40:19: Cannot find name 'digitalRead'.Line: 40:31: Cannot find name 'infraPin3'.Line: 42:5: Cannot find name 'Serial'.Line: 42:20: Cannot find name 'valorInfra1'.Line: 43:5: Cannot find name 'Serial'.Line: 43:20: Cannot find name 'valorInfra2'.Line: 44:5: Cannot find name 'Serial'.Line: 44:20: Cannot find name 'valorInfra3'.Line: 47:9: Cannot find name 'valorInfra1'.Line: 47:29: Cannot find name 'valorInfra2'.Line: 47:49: Cannot find name 'valorInfra3'.Line: 48:9: Cannot find name 'Serial'.Line: 49:9: Cannot find name 'digitalWrite'.Line: 49:22: Cannot find name 'Motor1A'.Line: 49:31: Cannot find name 'HIGH'.Line: 50:9: Cannot find name 'digitalWrite'.Line: 50:22: Cannot find name 'Motor1B'.Line: 50:31: Cannot find name 'LOW'.Line: 51:9: Cannot find name 'digitalWrite'.Line: 51:22: Cannot find name 'Motor2A'.Line: 51:31: Cannot find name 'HIGH'.Line: 52:9: Cannot find name 'digitalWrite'.Line: 52:22: Cannot find name 'Motor2B'.Line: 52:31: Cannot find name 'LOW'.Line: 53:16: Cannot find name 'valorInfra1'.Line: 53:36: Cannot find name 'valorInfra2'.Line: 53:56: Cannot find name 'valorInfra3'.Line: 54:9: Cannot find name 'Serial'.Line: 56:9: Cannot find name 'digitalWrite'.Line: 56:22: Cannot find name 'Motor1A'.Line: 56:31: Cannot find name 'LOW'.Line: 57:9: Cannot find name 'digitalWrite'.Line: 57:22: Cannot find name 'Motor1B'.Line: 57:31: Cannot find name 'LOW'.Line: 58:9: Cannot find name 'delay'.Line: 59:9: Cannot find name 'digitalWrite'.Line: 59:22: Cannot find name 'Motor2A'.Line: 59:31: Cannot find name 'LOW'.Line: 60:9: Cannot find name 'digitalWrite'.Line: 60:22: Cannot find name 'Motor2B'.Line: 60:31: Cannot find name 'HIGH'.Line: 61:16: Cannot find name 'valorInfra1'.Line: 61:36: Cannot find name 'valorInfra2'.Line: 61:56: Cannot find name 'valorInfra3'.Line: 62:9: Cannot find name 'Serial'.Line: 64:9: Cannot find name 'digitalWrite'.Line: 64:22: Cannot find name 'Motor1A'.Line: 64:31: Cannot find name 'LOW'.Line: 65:9: Cannot find name 'digitalWrite'.Line: 65:22: Cannot find name 'Motor1B'.Line: 65:31: Cannot find name 'LOW'.Line: 66:9: Cannot find name 'delay'.Line: 67:9: Cannot find name 'digitalWrite'.Line: 67:22: Cannot find name 'Motor2A'.Line: 67:31: Cannot find name 'LOW'.Line: 69:9: Cannot find name 'digitalWrite'.Line: 69:22: Cannot find name 'Motor2B'.Line: 69:31: Cannot find name 'HIGH'.Line: 72:14: Cannot find name 'valorInfra1'.Line: 72:34: Cannot find name 'valorInfra2'.Line: 72:54: Cannot find name 'valorInfra3'.Line: 73:9: Cannot find name 'Serial'.Line: 75:9: Cannot find name 'digitalWrite'.Line: 75:22: Cannot find name 'Motor1A'.Line: 75:31: Cannot find name 'HIGH'.Line: 76:9: Cannot find name 'digitalWrite'.Line: 76:22: Cannot find name 'Motor1B'.Line: 76:31: Cannot find name 'LOW'.Line: 77:9: Cannot find name 'delay'.Line: 78:9: Cannot find name 'digitalWrite'.Line: 78:22: Cannot find name 'Motor2A'.Line: 78:31: Cannot find name 'LOW'.Line: 79:9: Cannot find name 'digitalWrite'.Line: 79:22: Cannot find name 'Motor2B'.Line: 79:31: Cannot find name 'LOW'.Line: 80:16: Cannot find name 'valorInfra1'.Line: 80:36: Cannot find name 'valorInfra2'.Line: 80:56: Cannot find name 'valorInfra3'.Line: 81:9: Cannot find name 'Serial'.Line: 83:9: Cannot find name 'digitalWrite'.Line: 83:22: Cannot find name 'Motor1A'.Line: 83:31: Cannot find name 'HIGH'.Line: 84:9: Cannot find name 'digitalWrite'.Line: 84:22: Cannot find name 'Motor1B'.Line: 84:31: Cannot find name 'LOW'.Line: 85:9: Cannot find name 'delay'.Line: 86:9: Cannot find name 'digitalWrite'.Line: 86:22: Cannot find name 'Motor2A'.Line: 86:31: Cannot find name 'LOW'.Line: 87:9: Cannot find name 'digitalWrite'.Line: 87:22: Cannot find name 'Motor2B'.Line: 87:31: Cannot find name 'LOW'.Line: 91:14: Cannot find name 'valorInfra1'.Line: 91:34: Cannot find name 'valorInfra2'.Line: 91:54: Cannot find name 'valorInfra3'.Line: 92:9: Cannot find name 'Serial'.Line: 94:9: Cannot find name 'digitalWrite'.Line: 94:22: Cannot find name 'Motor1A'.Line: 94:31: Cannot find name 'LOW'.Line: 95:9: Cannot find name 'digitalWrite'.Line: 95:22: Cannot find name 'Motor1B'.Line: 95:31: Cannot find name 'LOW'.Line: 96:9: Cannot find name 'digitalWrite'.Line: 96:22: Cannot find name 'Motor2A'.Line: 96:31: Cannot find name 'LOW'.Line: 97:9: Cannot find name 'digitalWrite'.Line: 97:22: Cannot find name 'Motor2B'.Line: 97:31: Cannot find name 'LOW'.Line: 3:1: Unexpected keyword or identifier.Line: 4:1: Unexpected keyword or identifier.Line: 5:1: Unexpected keyword or identifier.Line: 6:1: Unexpected keyword or identifier.Line: 8:1: Unexpected keyword or identifier.Line: 9:1: Unexpected keyword or identifier.Line: 10:1: Unexpected keyword or identifier.Line: 12:1: Unexpected keyword or identifier.Line: 13:1: Unexpected keyword or identifier.Line: 14:1: Unexpected keyword or identifier.Line: 16:14: ';' expected.Line: 36:13: ';' expected.

Reviews

Generic Inductor
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Project Name

Cultural White Translation Collar

Description

Welcome to your new project. Imagine what you can build here.

Properties

Properties describe core aspects of the project.

Pricing & Availability

Distributor	Qty 1
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soda13 / Cultural White Translation Collar

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