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// Class for controlling each extruder
//
// Adrian Bowyer 14 May 2009
#ifndef EXTRUDER_H
#define EXTRUDER_H
#define EXTRUDER_COUNT 1
void manageAllExtruders();
void newExtruder(byte e);
/**********************************************************************************************
* Sanguino/RepRap Motherboard v 1.0
*/
#if MOTHERBOARD < 2
#define EXTRUDER_FORWARD true
#define EXTRUDER_REVERSE false
class extruder
{
public:
extruder(byte md_pin, byte ms_pin, byte h_pin, byte f_pin, byte t_pin, byte vd_pin, byte ve_pin, byte se_pin);
void waitForTemperature();
void valveSet(bool open, int dTime);
void setDirection(bool direction);
// void set_speed(float es);
void setCooler(byte e_speed);
void setTemperature(int temp);
int getTemperature();
void manage();
// Interrupt setup and handling functions for stepper-driven extruders
// void interrupt();
void sStep();
void enableStep();
void disableStep();
private:
//these our the default values for the extruder.
byte e_speed;
int target_celsius;
int max_celsius;
byte heater_low;
byte heater_high;
byte heater_current;
int extrude_step_count;
// These are used for temperature control
byte count ;
int oldT, newT;
//this is for doing encoder based extruder control
// int rpm;
// long e_delay;
// int error;
// int last_extruder_error;
// int error_delta;
bool e_direction;
bool valve_open;
// The pins we control
byte motor_dir_pin, motor_speed_pin, heater_pin, fan_pin, temp_pin, valve_dir_pin, valve_en_pin, step_en_pin;
byte wait_till_hot();
//byte wait_till_cool();
void temperatureError();
int sampleTemperature();
};
inline void extruder::enableStep()
{
if(step_en_pin < 0)
return;
digitalWrite(step_en_pin, ENABLE_ON);
}
inline void extruder::disableStep()
{
if(step_en_pin < 0)
return;
#if DISABLE_E
digitalWrite(step_en_pin, !ENABLE_ON);
#endif
}
inline void extruder::sStep()
{
digitalWrite(motor_speed_pin, HIGH);
delayMicrosecondsInterruptible(5);
digitalWrite(motor_speed_pin, LOW);
}
inline void extruder::temperatureError()
{
Serial.print("E: ");
Serial.println(getTemperature());
}
inline void extruder::setDirection(bool dir)
{
e_direction = dir;
digitalWrite(motor_dir_pin, e_direction);
}
inline void extruder::setCooler(byte sp)
{
if(step_en_pin >= 0) // Step enable conflicts with the fan
return;
analogWrite(fan_pin, sp);
}
/**********************************************************************************************
* RepRap Motherboard v 1.x (x >= 1)
* Extruder is now on RS485
*/
#else
#define WAIT_T 'W' // wait_for_temperature();
#define VALVE 'V' // valve_set(bool open, int dTime);
#define DIRECTION 'D' // set_direction(bool direction);
#define COOL 'C' // set_cooler(byte e_speed);
#define SET_T 'T' // set_temperature(int temp);
#define GET_T 't' // get_temperature();
#define STEP 'S' // step();
#define ENABLE 'E' // enableStep();
#define DISABLE 'e' // disableStep();
#define PREAD 'R' // read the pot voltage
#define SPWM 'M' // Set the motor PWM
#define PING 'P' // Just acknowledge
class extruder
{
public:
extruder(char name);
void waitForTemperature();
void valveSet(bool open, int dTime);
void setDirection(bool direction);
void setCooler(byte e_speed);
void setTemperature(int temp);
int getTemperature();
void manage();
void sStep();
void enableStep();
void disableStep();
int potVoltage();
void setPWM(int p);
bool ping();
private:
char my_name;
char commandBuffer[RS485_BUF_LEN];
char* reply;
bool stp;
void buildCommand(char c);
void buildCommand(char c, char v);
void buildNumberCommand(char c, int v);
};
inline extruder::extruder(char name)
{
my_name = name;
// int v = potVoltage();
// strcpy(debugstring, reply);
// setPWM(v);
pinMode(E_STEP_PIN, OUTPUT);
pinMode(E_DIR_PIN, OUTPUT);
digitalWrite(E_STEP_PIN, 0);
digitalWrite(E_DIR_PIN, 0);
stp = false;
}
inline void extruder::buildCommand(char c)
{
commandBuffer[0] = c;
commandBuffer[1] = 0;
}
inline void extruder::buildCommand(char c, char v)
{
commandBuffer[0] = c;
commandBuffer[1] = v;
commandBuffer[2] = 0;
}
inline void extruder::buildNumberCommand(char c, int v)
{
commandBuffer[0] = c;
itoa(v, &commandBuffer[1], 10);
}
inline void extruder::waitForTemperature()
{
}
inline void extruder::valveSet(bool open, int dTime)
{
if(open)
buildCommand(VALVE, '1');
else
buildCommand(VALVE, '0');
talker.sendPacketAndCheckAcknowledgement(my_name, commandBuffer);
delay(dTime);
}
inline void extruder::setCooler(byte e_speed)
{
buildNumberCommand(COOL, e_speed);
talker.sendPacketAndCheckAcknowledgement(my_name, commandBuffer);
}
inline void extruder::setTemperature(int temp)
{
buildNumberCommand(SET_T, temp);
talker.sendPacketAndCheckAcknowledgement(my_name, commandBuffer);
}
inline int extruder::getTemperature()
{
buildCommand(GET_T);
char* reply = talker.sendPacketAndGetReply(my_name, commandBuffer);
return(atoi(reply));
//return 10;
}
inline void extruder::manage()
{
}
inline void extruder::setDirection(bool direction)
{
// if(direction)
// buildCommand(DIRECTION, '1');
// else
// buildCommand(DIRECTION, '0');
// talker.sendPacketAndCheckAcknowledgement(my_name, commandBuffer);
if(direction)
digitalWrite(E_DIR_PIN, 1);
else
digitalWrite(E_DIR_PIN, 0);
}
inline void extruder::sStep()
{
//buildCommand(STEP);
//talker.sendPacketAndCheckAcknowledgement(my_name, commandBuffer);
stp = !stp;
if(stp)
digitalWrite(E_STEP_PIN, 1);
else
digitalWrite(E_STEP_PIN, 0);
}
inline void extruder::enableStep()
{
// Not needed
/*
buildCommand(ENABLE);
talker.sendPacketAndGetReply(my_name, commandBuffer);
*/
}
inline void extruder::disableStep()
{
// Disabling the extrude stepper causes the backpressure to
// turn the motor the wrong way. Leave it on.
//buildCommand(DISABLE);
//talker.sendPacketAndCheckAcknowledgement(my_name, commandBuffer);
}
inline int extruder::potVoltage()
{
buildCommand(PREAD);
char* reply = talker.sendPacketAndGetReply(my_name, commandBuffer);
return(atoi(reply));
}
inline void extruder::setPWM(int p)
{
buildNumberCommand(SPWM, p);
talker.sendPacketAndCheckAcknowledgement(my_name, commandBuffer);
}
inline bool extruder::ping()
{
buildCommand(PING);
return talker.sendPacketAndCheckAcknowledgement(my_name, commandBuffer);
}
#endif
extern extruder* ex[ ];
extern byte extruder_in_use;
#endif
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