Title: Indroduction to Dc motor
1Introduction to
NSF S.P.I.R.I.T. Workshop 2007
DC ELECTRIC MOTORS
2Motors Everywhere!
- The fan over the stove and in the microwave oven
- The dispose-all under the sink
- The blender
- The can opener
- The washer
- The electric screwdriver
- The vacuum cleaner and the Dustbuster mini-vac
- The electric toothbrush
- The hair dryer
Source http//electronics.howstuffworks.com/motor
2.htm
3More Motors . . .
- The electric razor
- Power windows (a motor in each window)
- Power seats (up to seven motors per seat)
- Fans for the heater and the radiator
- Windshield wipers
- Most toys that move have at least one motor
(including Tickle-me-Elmo for its vibrations) - Electric clocks
- The garage door opener
- Aquarium pumps
- Your TEKBOT
-
In Short, EVERYTHING THAT MOVES uses some type of
motor!
4Important Concepts
- How Motors Work
- The Components of a DC Electric Motor
- Whats inside the motor box?
- The parts of the motor and what they do!
- Motor Control
- How to change directions
- Concepts of Speed, Torque, Gear Ratio
- Practical considerations
- Noise, slippage, limits of operation speed,
torque
5 DC Electric Motors
- Electric Motors or Motors convert electrical
energy to mechanical motion - Motors are powered by a source of electricity
either AC or DC. - DC Electric Motors use Direct Current (DC)
sources of electricity - Batteries
- DC Power supply
- Principle of How Motors Work
- Electrical current flowing in a loop of wire will
produce a magnetic field across the loop.
- When this loop is surrounded by the field of
another magnet, the loop will turn, producing a
force (called torque) that results in mechanical
motion.
6Motor Basics
- Motors are powered by electricity, but rely on
principles of magnetism to produce mechanical
motion. - Inside a motor we find
- Permanent magnets,
- Electro-magnets,
- Or a combination of the two.
7Magnets
- A magnet is an object that possesses a magnetic
field, characterized by a North and South pole
pair. - A permanent magnet (such as this bar magnet)
stays magnetized for a long time. - An electromagnet is a magnet that is created when
electricity flows through a coil of wire. It
requires a power source (such as a battery) to
set up a magnetic field.
8A Simple Electromagnet
- A Nail with a Coil of Wire
- Q How do we set up a magnet?
- A The battery feeds current through the coil of
wire. Current in the coil of wire produces a
magnetic field (as long as the battery is
connected).
9A Simple Electromagnet
- A Nail with a Coil of Wire
- Q - How do we reverse the poles of this
electromagnet? - A By reversing the polarity of the battery!
S
N
-
10The Electromagnet in a Stationary Magnetic Field
- If we surround the electromagnet with a
stationary magnetic field, the poles of the
electromagnet will attempt to line up with the
poles of the stationary magnet. - The rotating motion is transmitted to the shaft,
providing useful mechanical work. This is how DC
motors work!
OPPOSITE POLES ATTRACT!
11DC Motor Operation Principles
- Once the poles align, the nail (and shaft) stops
rotating. - How do we make the rotation continue?
- By switching the poles of the electromagnet. When
they line up again, switch the poles the other
way, and so on. - This way, the shaft will rotate in one direction
continuously!
12Motor Terminology
- Thus, the motion of a DC motor is caused by the
interaction of two magnetic fields housed inside
the motor. - These two magnetic fields can be described by
where they are located inside the motor. - The stationary parts of the motor make up the
STATOR. - The Stator Stays Put!
- The rotating parts of the motor constitute the
ROTOR. - The Rotor Rotates!
- The Stator houses the Permanent Field Magnet.
- The electronically-controlled magnet, called the
Armature, resides on the Rotor.
13Motor Terminology
- The magnetic poles of the Armature field will
attempt to line up with the opposite magnetic
poles on the Stator. (Opposites ATTRACT). - Once opposite poles align, the movement of the
motor would stop. - However, to ensure continuous movement of the
motor, the poles of the Armature field are
electronically reversed as it reaches this point,
so it keeps turning to keep the motor shaft
moving along in the same direction! - This electronic switching of the Armature poles
is accomplished using Brushes and Commutators.
14Brushed DC Motor Components
15Brushed DC Motor ComponentDescriptions
- The Stator is a Permanent Field Magnet
- The Armature
- Is an electromagnet comprised of coils wound
around 2 or more poles of the metal rotor core - Commutator
- Attached to the rotor and turns with the rotor to
mechanically switch direction of current going to
the armature coils - Brushes
- Stationary attached to battery leads. These
metal brushes touch the Commutator terminals as
it rotates delivering electric current to the
commutator terminals. - Axle or Shaft
- Moves in rotational motion
16Brushed DC Motor Components
17How the Commutator Works
- As the rotor turns, the commutator terminals also
turn and continuously reverse polarity of the
current it gets from the stationary brushes
attached to the battery.
18Controlling Motor Direction
- To change the direction of rotation
- Simply switch the polarity of the battery leads
going to the motor (that is, switch the and
battery leads)
Direction of Rotation
CW
CCW
-
-
19Controlling Motor Direction
- In the TekBot, this switching is done using an
H-bridge motor control circuit. - A signal is sent from your hand-held tether to
the TekBot when you tell each wheel to go forward
or reverse. - This signal goes to the H-bridge circuitry on the
TekBot which sends the correct polarity to the
battery leads wired to the TekBot motors to
accomplish the desired rotation.
20Inside a Toy Motor(Similar to TekBot Motor)
21Toy DC Motor, cont.
- End Views of Motor
- Axle
- Battery Leads
- Axle will turn if connect battery leads to a 9V
battery - Reverse battery leads and axle will turn the
Opposite direction! - The white nylon cap on the motor can be removed
to reveal
22A View of the Brushes
- Inside the Nylon cap are the Brushes
- Brushes can be made of various types of metal.
- Their purpose is to transfer power to the
commutator as it spins.
23Inside the Motor, cont.
- The Axle is the rotating part of the motor that
holds the armature and commutator. - This armature is comprised of 3 electromagnets.
(3-Pole DC Motor) - Each electromagnet is a set of stacked metal
plates with thin copper wire wound around each. - The two ends of each coil wire is terminated and
wired to a contact on the commutator. - Thus, there are 3 commutator contacts in all.
24Inside the Motor, cont.
- The final piece is the stator, a permanent field
magnet. - It is formed by the motor enclosure and two
curved permanent magnets (2 Pole 1 North, 1
South) shown.
25Torque Concepts
- The movement of the motor comes from the
interaction of magnetic fields. - A magnetic force that is perpendicular to the
magnetic field and the current in the coils
delivers a rotational force - torque - that turns
the axle of the motor. - Intuitively, the higher the torque the greater
the force of rotational movement. - The higher the motor input current, the greater
the torque on the output.
26Speed Concepts
- Speed of rotation of the output shaft is measured
in RPM Revolutions Per Minute. - The speed of rotation is directly proportional to
the voltage applied to the armature windings. - This is a linear relationship up to the motors
max speed. - These motors produce high speed, low torque axle
rotation, which is improved by a gear reduction
to reduce speed and increase torque on the output
shaft.
27TekBot Motor Ratings
- GM8 - Gear Motor 8 - 1431 Offset Shaft
- 1431 gear motor (gear ratio)
- spins at 70RPM at 5V, (maximum speed)
- drawing 670mA at stall (stall current)
- generating 43 inoz torque (free running at
57.6mA). - Manufactured by Solarbotics
- http//www.solarbotics.com/
28Characteristics of Brushed DC Motors
- Very commonly used in everything from toys to
toothbrushes, electric toys to mobile robots. - Easy to control using simple control circuitry
- Small, Cheap
- Generally not used in industrial applications
29DC Motor Varieties
- Brush-type DC Motor
- Used for RPM under 5,000
- Simpliest to control
- Very common choice for hobby use
- Brushless DC Motor (a.k.a AC Synchronous Motor)
- Better suited for applications that require a
large range precise speed - Extra electronics for control and position
sensors are required - Wound-field DC Motor
- Common in industrial applications
- Allows for wide range of precision speed control
torque control - Permanent Magnet DC Motor
- The field magnet is a permanent magnet and does
not need to be activated by a current - Intermittent vs. Continuous Duty
- Continuous Duty motors can operate without an off
period. - Electric motor power rating
- hp (torque X rpm)/5,250
30References / For Further Info
- Basics of Design Engineering - DC Motors
http//www.electricmotors.machinedesign.com/guiEdi
ts/Content/bdeee3/bdeee3_5.aspx - Overview of Motor Types Tutorial
- http//www.oddparts.com/acsi/motortut.htmDC_MOTOR
- How Stuff Works - Motors
- http//electronics.howstuffworks.com/motor4.htm
- Magnets Defined
- http//en.wikipedia.org/wiki/Magnet
- Presentation Created by Alisa N. Gilmore, P.E.,
University of Nebraska-Lincoln, NSF SPIRIT, July
2007
313 Pole DC Motor
http//www.solarbotics.net/starting/200111_dcmotor
/200111_dcmotor2.html