# Integrated Stepper Motor Programming

i am using an integrated stepper motor (BRUSHLESS DC SERVO MOTOR WITH INTEGRATED CONTROLLER (STEPPER MOTOR) – NEMA 24). I am using this motor to control gas valves. I want this motor to rotate at an angle of 90 degrees when input 1 is given and then back to the original position when input 2 is given. For this first I need to assign a zero position to the motor so that it always turns 90 degree and come back to that zero point. Below is the example code which is given with the motor. When we give high signal to input 1 the motor rotates and while the motor is rotating another high signal will rotate it further more thus overwriting the previous position. I am new with this type of programming and don't know what to do with this code, i want this code to be amended in such a way that when I give an input on pin 1 it should finish the first task i.e. turn 90 degrees and wait for the next input and when i give input on pin 2 it goes back to zero point. This code will be programmed inside the motor and Input signals will be sent with the help of Arduino Mega. The link for the motor is here: https://en.nanotec.com/products/1610-pd4-c6018l4204-e-01/

Motor Image Integrated Stepper Motor

``````    // in this example the position mode will be selected and started, after
the input 1 is triggered, the motor moves to a set position
(flagposition mode)

//1. Step: mapping the frequently used SDO´s
map U16 ControlWord as output 0x6040:00
map S16 ProfileVelocity as output 0x6081:00
map S32 TargetPosition as output 0x607A:00
map U32 Inputs as input 0x60FD:00
map S32 ActualPosition as input 0x6064:00
map S32 AnalogInput as input 0x3320:01

#include "wrapper.h"

//2. Step: call Main function and set the speed and mode of operation
void user()
{
od_write(0x6060,0x00, 1);       // set the mode of operation to
profile position
Out.ProfileVelocity = 200;      //sets the profile velocity to 200
rpm
Out.TargetPosition = 1000000000;  // setting the target position
(just as a limit)

//3. Step: switch on the state machine
Out.ControlWord = 0x6;              // switch to the "enable
voltage" state
do  {
yield();                // waiting for the next cycle (1ms)
}
while ( (od_read(0x6041, 0x00) & 0xEF) != 0x21);    // wait
until drive is in state "enable voltage"
// checking the statusword (0x6041) for the bitmask: xxxx xxxx
x01x 0001

Out.ControlWord = 0x7;  // switch to the "switched on" state
do  {
yield();            // waiting for the next cycle (1ms)
}
while ( (od_read(0x6041, 0x00) & 0xEF) != 0x23);   // wait until
drive is in state "switched on"
// checking the statusword (0x6041) for the bitmask: xxxx xxxx
x01x 0011

Out.ControlWord = 0x4F; // switch to the "enable operation" state ,
target position relative
do  {
yield();            // waiting for the next cycle (1ms)
}
while ( (od_read(0x6041, 0x00) & 0xEF) != 0x27);   // wait until
drive is in state "operation enabled"
// checking the statusword (0x6041) for the bitmask: xxxx xxxx
x01x 0111

Out.ControlWord = 0x5F;                             // start
yield();

while(true)             // endless loop
{
//3. Step: set new target position when input 1 (trigger) high
if((In.Inputs & 0x10000) == 0x10000)        // if input 1
(trigger)wenn Eingang 1 (trigger) high
{
Out.TargetPosition = In.ActualPosition + 2000;    //sets the
new target position depending on the actual position and analog input
Out.ProfileVelocity = 50;           // new profile velocity
is 50 rpm
yield();
Out.ControlWord = 0x2F;         // reset start bit 4, new
target position must be
acknowledged as new set point immediately(Bit 5)
yield();
Out.ControlWord = 0x3F;   // starts the absolute positioning
yield();
while((In.Inputs & 0x10000) == 0x10000)         // wait
while Input 1 still high
{
yield();
}
}
yield();
}
}
``````