# How-To: Motors

Servos and Steppers and Gears! Oh my!

Some of our favorite hobbyist electronics utilize motors to mobilize, making them fun and awesome! Including a motor in your project could be challenging, especially if you have never worked with them before.

The following Instructable will explain how motors work, and break down some of the most commonly used kinds of motors.

## Step 1: The Fundamentals

Before we can really begin addressing how a motor works, lets focus on what a motor does. A motor uses electromagnetism to create motion, converting electrical energy into mechanical energy.

Magnetic fields produce physical force that can move things. Every magnet has a magnetic field with a north pole and a south pole. If you try to push the north poles of two magnets together, they will repel each other. The same thing happens if you try to push two south poles together. If two poles are the same, they will repel each other. If, however, you play with two magnets and bring the north pole of one close to the south pole of another, they will attract each other and stick strongly together, opposite magnetic poles attract each-other.

An electric motor uses the attraction and repelling properties of magnets to create motion. There are two magnets in a standard electric motor: a permanent magnet, and a temporary magnet. The temporary magnet is a special kind of magnet, called an electromagnet. An electromagnet is created by passing an electric current through a wire. The permanent magnet has a magnetic field (a north pole and a south pole) all the time, but the electromagnet only has a magnetic field when there is a current flowing through the wire. The strength of the wire's electromagnetic magnetic field can be intensified by increasing the current through the wire, or by forming the wire into multiple loops.

In an electric motor, the electromagnet is placed on an axle so it can spin freely inside the magnetic field of a permanent magnet. When an electric current is passed through the wire, the resulting temporary electromagnetic field interacts with the static permanent magnet, and attractive and repelling forces are created. This excitation of the wire, or electromagnet, propel it to spin on its axle, and an electric motor is born.

Motors are classified by having the following properties:
• There's a permanent magnet (or magnets) around the edge of the motor case that remains static, so it's called the stator of a motor.
• Inside the stator, there is a wire coil, mounted on an axle that spinsaround at high speed -  this is called the rotor.
 1-40 of 67 Next »
slarti.fartfast2 months ago

do servos have noise issues like motors do? and are there low limits on current that the arduino can supply to drive them i.e. what servos suit?

thanks! i did it with a 1m pot., before uploading the code, the servo swept. some cracking sound were there. its okay i guess

coldneutron5 months ago

You're an inspiration with excellent support. Something else that may be of interest is the control of the steppers on V2 shields though a sensor. I needed such a program and I have attached a compiled sketch below:

#include <Wire.h>#include

#Define PotIn = 0

// Create the motor shield object with
Or, create it with a different I2C address (say for stacking)//

//
Connect a stepper motor with 200 steps per revolution (1.8 degree)//
to motor port #1 (M1 and M2)

// Connect a stepper motor with 200 steps
per revolution (1.8 degree)//
to motor port #2 (M3 and M4)Adafruit_StepperMotor
*myMotor2 = AFMS.getStepper(200, 2);

int potinPin = (A0); //assigns pin
stepsPin = 2;//assigns pin for stepper motor steps

int previous = 0;//to store initial potentiometer values

int Val = 0;//to store new potentiometer values

int stepsValue = 0;

int potinValue = 0;

void setup() { Serial.begin(9600);

//
set up Serial library at 9600 bps

AFMS.begin(); // create with the default
frequency 1.6KHz
//AFMS.begin(1000); // OR with a
different frequency, say 1KHz
myMotor1->setSpeed(10); // 10 rpm

myMotor2->setSpeed(10);// 10
rpm }void
stores first value

previous = map(potinValue, 0, 1023, 0, 544); //Turns ohms into steps

delay (500);

potinValue

val = map(potinValue, 0, 1023, 0, 544); //Turns ohms into steps

//
conditional statements determining movement and direction

if(val
== previous){// if potentiometer didn’t
register movement

stepsValue
= 0; // steps equal zero

}

else
if( val > previous){//if potentiometer moves clockwise

stepsValue
=(val – previous); //steps move motor forward microsteps

myMotor1->step((stepsValue),FORWARD,MICROSTEPS);

myMotor2->step((stepsValue),FORWARD,MICROSTEPS);

}

else(val
< previous){ //if potentiometer
moves counterclockwise

stepsValue
=(previous – val); // steps move motor backward microsteps

myMotor1->step(stepsValue),BACKWARD,MICROSTEPS);

myMotor2->step(stepsValue),BACKWARD,MICROSTEPS);

}

}

coldneutron5 months ago

You're and inspiration. Something else that may be of interest is the control of the stepper motors on the V2 motor shields by a sensor. I needed such a program and wrote the sketch below:

#include <Wire.h>#include

#Define PotIn = 0

// Create the motor shield object with
Or, create it with a different I2C address (say for stacking)//

//
Connect a stepper motor with 200 steps per revolution (1.8 degree)//
to motor port #1 (M1 and M2)

// Connect a stepper motor with 200 steps
per revolution (1.8 degree)//
to motor port #2 (M3 and M4)Adafruit_StepperMotor
*myMotor2 = AFMS.getStepper(200, 2);

int potinPin = (A0); //assigns pin
stepsPin = 2;//assigns pin for stepper motor steps

int previous = 0;//to store initial potentiometer values

int Val = 0;//to store new potentiometer values

int stepsValue = 0;

int potinValue = 0;

void setup() { Serial.begin(9600);

//
set up Serial library at 9600 bps

AFMS.begin(); // create with the default
frequency 1.6KHz
//AFMS.begin(1000); // OR with a
different frequency, say 1KHz
myMotor1->setSpeed(10); // 10 rpm

myMotor2->setSpeed(10);// 10
rpm }void
stores first value

previous = map(potinValue, 0, 1023, 0, 544); //Turns ohms into steps

delay (500);

potinValue

val = map(potinValue, 0, 1023, 0, 544); //Turns ohms into steps

//
conditional statements determining movement and direction

if(val
== previous){// if potentiometer didn’t
register movement

stepsValue
= 0; // steps equal zero

}

else
if( val > previous){//if potentiometer moves clockwise

stepsValue
=(val – previous); //steps move motor forward microsteps

myMotor1->step((stepsValue),FORWARD,MICROSTEPS);

myMotor2->step((stepsValue),FORWARD,MICROSTEPS);

}

else(val
< previous){ //if potentiometer
moves counterclockwise

stepsValue
=(previous – val); // steps move motor backward microsteps

myMotor1->step(stepsValue),BACKWARD,MICROSTEPS);

myMotor2->step(stepsValue),BACKWARD,MICROSTEPS);

}

}

BabluP9 months ago

does there is no need of driving ic like ULN etc. required with the uno Board to drive the stepper motor??

Jamesx10 months ago

Hi, this tutorial is awesome. I've been looking for the stepper motor depicted in step 6 and 7. Can you please tell me the model number and (if you remember) where you bought it?

audreyobscura (author)  Jamesx10 months ago

I ripped it out of an old printer - sorry.

judemo19641 year ago

Thanks a lot for your time dedicated to this short and clean tutorial

Now motors like this are not a mistery for me

nbtgoat431 year ago

Thank you for your interesting post. I am new to Arduino. bought a starter kit recently. Not even know how to start with yet.

Have bought a .

Stepper Motor Drive Controller Board Module L298N Dual H Bridge DC For
Arduino from
http://www.ebay.com/itm/Stepper-Motor-Drive-Controller-Board-Module-L298N-Dual-H-Bridge-DC-For-Arduino-/181029044810?pt=LH_DefaultDomain_0&hash=item2a262c024a.

The supplier advised me that I can use this as stand alone to drive my

STEP MOTOR 28BYJ-48 5V DC

But failed.

Regards

JoeStrummer331 year ago
I just want to make a device that runs a motor that will pull a string at a constant rate. It has to be a smooth pull, not a jerky one, and it needs to pull at a variable rate from like one inch per 3 seconds to maybe 2 inches per second. What kind of motor would you recommend? Would I really need to have an Aurduino board or could I hook up a battery directly to it somehow?
mars_crash1 year ago
Thx for the great instruction!
but how come my arduino restarts when I turn the knob to fast? can this be solved or is something broken? it seems like when the servo moves to fast it restarts I'm not sure what's going on, hope to hear from you.
audreyobscura (author)  mars_crash1 year ago
Huh. That's strage! I wonder why.... I imagine that it is incapable of processing analog data that quickly.
qame2 years ago
I built the "world's simplest motor" for my kids. They loved it. Thank you for the idea and the excellent read on motor theory. Good job!
nuwud2 years ago
This worked great for me.
cdragos george2 years ago
this is one of the most comprehensive tutorial about how to use a stepper motor with arduino board
MakeItWithJason2 years ago
Awesome illustration for a stepper motor!
MakeItWithJason2 years ago
This is a great 'able, Audrey. Thanks!
lemaxnut2 years ago
Thank you for your very clear explanation of the various motor types and the videos. I have saved it in my grandsons' "favourites" for the time when they will study this subject. I have already made them many toys using all these motor types - I favour PICAXE as I think BASIC is easier to learn for kids.
ssgsteiner2 years ago
very nice, great info and put together well.
jolizo3 years ago
Hello.
I would be very happy if someone could help me where I can find servo motor.
I mean, I usually enjoy myself dismounting printers and scanners. And I have never seen a motor like that.

att,

Jolizo
2 years ago
Hobbyking is a good source.
Alderin2 years ago
While this is a good rig to experiment with and learn about stepper motors, be careful about the load you put on your Arduino. Steppers and DC Motors can send spikes of current back to the controlling circuitry when switching from on to off due to inductance, as well as possibly drawing more current than your Arduino is designed to supply. For more permanent projects you should get or build a motor control board to isolate the more delicate logic circuits.
dlemke2 years ago
A stepper motor seems to be a regular motor, except it's segments are separated, unlike a regular motor where the segments are wired in a series to make the motor run at a constant speed and no controller is needed other than the volts/amps. Now this may be very simplified, but would this be accurate?
WelderGirl2 years ago
DavAnt- thanks for that interjection, I was specifically looking to see if the TD62003AP was an acceptable Darlington substitute for the ULN2003. Appreciated!
coolnits3 years ago
I new to complex circuits and arduino. Wat is arduino?.
And do u program arduino with a computer?
if yes - Which language ?

----- curious beginner
3 years ago
Coolnits,
Arduino is a microcontroller (like a mini, programmable computer)
You program it using the Arduino IDE (the arduino program-writing software)
You can go to Arduinio.cc for a LOT of good information about the Arduino.
It is programmed in C / C++

-Ryan
3 years ago
Coolnits, Arduino is a very powerful microcontroller which is based on an opensource platform. The website www.hackaday.com can fill you in. Seems to be ONE of the up and coming nextgen controllers. Free software downloads, free manuals and tutorials too! I have it on my wish list but have yet to actually try one or do any work with one, so I can't tell you much more other than it is based on Object Oriented Code. What's that? Dunno. Yet. I do get the Idea that it is quite popular with techies who dive deep. Good luck.
Nirgal383 years ago
I got the link to this the day after I'd finally figured out how to get a stepper working with my Arduino.

Timing is everything. :)
3 years ago
You should use a ULN2003 IC to drive stepper motors using the arduino! If i am not wrong it is a darlington array..
3 years ago
Yes, I got a stepper out of an old UMAX scanner, and it is controlled through a Toshiba TD62003AP, which is a Darlington array. There are also some smd capacitors to smooth it out I guess
airborne823 years ago
If you don't want to pay for a Arduino board and you know a little about electronics, you can build a stepper motor controller from a 555 timer IC, a 4017 decade counter IC and a ULN 2003 Darlington transistor array. To adjust the speed simply put a potentiometer ( the higher the resistance, the slower it goes) between pins 7 and 8 of the 555 timer IC. The direction can be changed using a DPDT switch from the output of the ULN2003. This works simplest when running 3 phase stepper motors which are commonly used in aviation. There isn't much information on the net about 3 phase stepper motors and how to run them, but I combined knowledge about the 3 ICs and many schematics.
3 years ago
I have to correct myself. To adjust the speed, put a potentiometer between pins 2 and 7 of the 555 timer IC.
raphsonnewton3 years ago
Where can you get the small axle?
This is a great starters tutorial for motors! It would be a perfect entry for the teachers-contest!
3 years ago
I Agree
3 years ago
Are you the Jeff Yates from (Paravet-Computers are here Co)
The inventor of Mr Salty water chlorinator and the Originater of the First Usuable Chineses Computer Keyboard. In which case please take credit for realising my basic theory with Barry to take the stepper motor to its 1,000 degree. If I remember right that took 6 months and \$30,000 to realise, congradulations, Student 6 of 20 pass
stephenfitton3 years ago
nice presentation,because you have done so well and like experimenting.
History back in the eighties they wanted stepper motors to go beyond 1.5-3 degrees I offered a solution . by oscillating the fields with different wave lengths and forms,1,000 th of one degree was achievable using the same motors..Keep up the good work.
skrubol3 years ago
The brushes are just part of the commutator. They're the switch that keeps the coil at the right polarity to keep spinning. They don't propel anything.

Also I agree with Clemtasm. A constant voltage across an 'ideal' motor will give constant speed with varying load. In real motors the speed drops with higher load due mostly to the resistance of the windings.
3 years ago
When the load on the motor increases the current consumed by the armature will also increase hence the flux will increase. Speed in inversely proportional to flux. So the speed of the motor has to decrease with increase in load over a constant load. Even in case of an ideal DC motor. Please let me know if I am wrong.
 1-40 of 67 Next »