Electric Motor Glossary

A	B	C	D	E	F	G	H	I	K	L	M	N	O	P	R	S	T	U	V	W

A	B	C	D	E	F	G	H
I	K	L	M	N	O	P	R
S	T	U	V	W

A

Actuator: A device that converts forms of energy to rotating or linear mechanical energy. By doing so, actuators create mechanical motion. 

Across The Line Start: A method of motor starting that applies full line voltage to the motor. The motor is connected straight to the power source.

Adjustable Speed Drive: A mechanical, fluid or electrical device that variably changes an input speed to an output speed matching operating requirements.

AGMA (American Gear Manufacturers Association): A standards-setting organization.  Gear products manufacturers and users comprise AGMA. AGMA standards help bring uniformity to the design and application of gear products.

Air-Over (AO): Motors for fan or blower service cooled by the air stream from the fan or blower.

Alternating Current (AC): The standard power supply available from electric utilities.

Ambient Temperature: The temperature of the air which, when coming into contact with the heated parts of a motor, carries off its heat. Ambient temperature is also known as room temperature.

Ampere (Amp): The standard unit of electric current. The current produced by a pressure of one volt in a circuit having a resistance of one ohm.

Armature:

• The rotating part of a brush-type direct current motor.
• In an induction motor, the squirrel cage rotor.

Axial Movement: Often called “endplay.” The endwise movement of motor or gear shafts. Usually expressed in thousandths of an inch.

B

Back Driving: Driving the output shaft of a gear reducer. In other words, using it to increase speed rather than reduce speed. Worm gear reducers are not suitable for service as speed increasers. 

Base Speed: Nameplate rating where the motor will develop rated HP at rated load and voltage. With AC systems, it is commonly the point where 60 Hz is applied to the induction motor.

Bearings:

• Sleeve: Common in home-appliance motors.
• Ball: Used in situations requiring high shaft load capacity. Ball bearings are usually used in industrial and agricultural motors.
• Roller: Used on output shafts of heavy-duty gear reducers. Also found on some high-horsepower motors for maximum overhung and thrust load capacities.

Breakaway Torque: The torque required to start a machine from standstill.

Breakdown Torque: The most torque a motor can achieve with rated voltage applied at rated frequency, without a sudden drop in speed or stalling.

Brush: The current-conducting material in a DC motor. Brushes are usually graphite, or a combination of graphite and other materials. The brush rides on the commutator of a motor and forms an electrical connection between the armature and the power source.

C

Canadian Standards Association (CSA): The agency that sets safety standards for motors and other electrical equipment used in Canada.

Capacitance: As the measure of electrical storage potential of a capacitor, the unit of capacitance is the farad. Typical values are expressed in microfarads.

Capacitor: A device that stores electrical energy. Used on single-phase motors, a capacitor can provide a starting boost. They also allow lower current during operation.

Center Distance: A basic measurement or size reference for worm gear reducers. Found by measuring from the centerline of the worm to the centerline of the worm wheel.

Centrifugal Starting Switch (Governor): A mechanism that disconnects the starting circuit of a motor. This is usually activated when the rotor reaches approximately 75% of operating speed.

Cogging: Non-uniform or erratic rotation of a direct current motor. It usually occurs at low speeds and may be a function of the adjustable speed control or of the motor design.

Commutator: Part of a DC motor armature. Commutators switch the electrical current to various armature windings. Properly sequenced switching creates the motor torque. The commutator also transmits electrical current to the moving armature. It does so through brushes that ride on the commutator.

Continuous Duty: The continuous rating is the highest constant load that can be carried continuously without exceeding established temperature rise limitations under prescribed conditions of load and within the limitations of established standards.

Counter Electromotive Force: Voltage that opposes line voltage. This is caused by induced magnetic field in a motor armature or rotor.

Current, AC: Power supply provided by the electric utility company or alternators.

Current, DC: Power supply provided by batteries, generators (not alternators), or a rectified source used for special applications.

D

Definite Purpose Motor: A motor design with standard ratings, standard operating characteristics and mechanical construction. These motors operate under service conditions other than usual or for use on a particular type of application (NEMA®). 

Duty Cycle: The relationship between the operating time and the resting time of an electric motor. Motor ratings according to duty are:

• Continuous duty, the operation of loads for over one hour.
• Intermittent duty, the operation during alternate periods of load and rest. Intermittent duty is usually expressed as 5 minutes, 30 minutes or one hour.

E

Efficiency: The ratio of the input power compared to the output. Efficiency is usually expressed as a percentage.

Enclosure: The term describing motor housing. The most common industrial types are:

• Open Drip Proof (ODP),
• Totally Enclosed Fan Cooled (TEFC),
• Totally Enclosed Non-Ventilated (TENV),
• Totally Enclosed Air Over (TEAO).

End shield (Endbell, End Frame): The part of a motor that houses the bearing supporting the rotor. Also acts as a protective guard to the internal parts of the motor. Sometimes called end bell, endplate or end bracket.

Excitation: The act of creating magnetic lines of force from a motor winding by applying voltage.

Explosion-Proof Motors: These motors meet UL and CSA standards for use in hazardous (explosive) locations. Usually have a UL or CSA label affixed to the motor. If a location's atmosphere contains (or may contain) gas, vapor, or dust in explosive quantities, it is considered hazardous.

F

Field: The stationary part of a DC motor, commonly consisting of permanent magnets. Sometimes used also to describe the stator of an AC motor.

Flanged Reducer: Usually refers to a gear reducer having provisions for close coupling of a motor either via a hollow (quill) shaft or flexible coupling. Most often refers to applications with a NEMA C-face motor.

Foot-Pound: Energy required to raise a one-pound weight against the force of gravity the distance of one foot. A measure of torque. Inch pound is also used on smaller motors and gear reducers. An inch-pound represents the energy needed to lift one pound one inch. An inch-ounce represents the energy needed to lift one ounce one inch.

Form Factor: Indicates how much AC component is present in the DC output from a rectified AC supply. Unfiltered SCR (thyristor) drives have a form factor (FF) of 1.40. Pure DC, as from a battery, has a form factor of 1.0. Filtered thyristor and pulse width modulated drives often have a form factor of 1.05.

Frame: Standardized motor mounting and shaft dimensions as established by NEMA or IEC.

Frequency: AC frequency is an expression of how often a complete cycle occurs. Cycles per second describe how many complete cycles occur in a given time increment. Hertz (hz) describes cycles per second so that time as well as number of cycles is specified. The standard power supply in North America is 60 hz. Most of the rest of the world has 50 hz power.

Full Load Amperes (FLA): A motor draws line current (amperage) when operating at rated load and voltage on motor nameplate. Important for proper wire size selection, and motor starter or drive selection. Also called full load current.

Full Load Torque: The torque a motor produces at its rated horsepower and full-load speed.

Fuse: A piece of metal, connected in the circuit to be protected, that melts and interrupts the circuit when excess current flows.

G

Generator: Any machine that converts mechanical energy into electrical energy.

General Purpose Motor: This motor has a continuous duty rating and NEMA A or B design. Listed and offered in standard ratings with standard operating characteristics and mechanical construction for use under usual service conditions without restriction to a particular application or type of application (NEMA®). 

Grounded Circuit:

• An electrical circuit coupled to earth ground to establish a reference point.
• A malfunction caused by insulation breakdown. This allows current flow to ground rather than through the intended circuit.

H

Hertz: Frequency, in cycles per second, of AC power; usually 60 hz in North America, 50 hz in the rest of the world. Named after H. R. Hertz, the German scientist who discovered electrical oscillations.

High Voltage Test: Used to test the adequacy of a motor's insulation. The test is conducted by applying a voltage greater than the working voltage. Also called high potential test or “hi-pot.”

Horsepower: A measure of the rate of work. 33,000 pounds lifted one foot in one minute, or 550 pounds lifted one foot in one second. Exactly 746 watts of electrical power equals one horsepower. Torque and RPM may be used in relating to the horsepower of a motor. For fractional horsepower motors, the following formula may be used.

• HP = T (in.-oz) x 9.917 x N x 107
• where,
• HP = horsepower
• T = Torque
• N = revolutions per minute

Hysteresis: The lagging of magnetism in a magnetic metal, behind the magnetizing flux which produces it.

I

IEC (International Electrotechnical Commission): The worldwide organization that promotes international unification of standards or norms. Its formal decisions on technical matters express, as nearly as possible, an international consensus.

IGBT: Stands for isolated gate bipolar transistor. The most common and fastest-acting semiconductor switch used in pulse width modulated (PWM) AC drives.

Impedance: The total opposition in an electric circuit to the flow of an alternating current. Expressed in ohms.

Induction Motor: The simplest and most rugged electric motor. Induction motors consist of a wound stator and a rotor assembly. In an AC induction motor, the alternating current flowing through the stator induces electric current in the rotor. The stator is the motor's primary member, the rotor is the motor's secondary member. The power supply connects only to the stator. The combined electromagnetic effects of the currents produce the force to create rotation.

Inertia: A measure of a body’s resistance to changes in velocity. This happens whether the body is at rest or moving at a constant velocity. The velocity can be either linear or rotational. The moment of inertia (WK2) is the product of the weight (W) of an object and the square of the radius of gyration (K2). The radius of gyration is a measure of how the mass of the object is distributed about the axis of rotation. WK2 is usually expressed in units of lb-ft2. 

Insulation: Motor insulation is classified by highest allowable operating temperature. NEMA classifications for motor insulation class include: Class A = 105°C, Class B = 130°C, Class F = 155°C and Class H = 180°C.

Input Horsepower: The power applied to the input shaft of a gear reducer. The input horsepower rating of a reducer is the maximum horsepower the reducer can safely handle.

Integral Horsepower Motor: A motor rated one horsepower or larger at 1800 RPM. By NEMA definitions, this is any motor having a three digit frame number, for example, 143T.

Intermittent Duty: A motor that never reaches equilibrium temperature, but can cool down (to ambient temperature) between operations. For example, a crane, hoist or machine tool motor is often rated for 15, 30 or 60 minute duty.

Inrush Current: The initial surge of current into the windings. Inrush current can be up to ten times higher than the constant needed current. This is possible because of low initial resistance. 

Inverter: An electronic device that changes direct current to alternating current. Also called an AC drive.

K

Kilowatt: A unit of power equal to 1000 watts and approximately equal to 1.34 horsepower.

L

Load: The work required of a motor to drive attached equipment. Expressed in horsepower or torque at a certain motor speed.

Locked Rotor Current: Measured current with the rotor locked and with rated voltage and frequency applied to the motor.

Locked Rotor Torque: Measured torque with the rotor locked and with rated voltage and frequency applied to the motor.

M

Magnetic Polarity: Distinguishes the location of north and south poles of a magnet. Magnetic lines of force emanate from the north pole of a magnet and terminate at the south pole.

Mechanical Rating: The highest power or torque a gear reducer can transmit. Many industrial reducers have a safety margin equal to 200% or more of their mechanical rating. This allows for momentary overloads during start-up or other transient overloads.

Motor Types: Classified by operating characteristics and/or type of power required. The AC induction motor (or AC motor) is the most common. There are several kinds of AC motors, including, for single-phase operation: 

• shaded pole, 
• permanent split capacitor (PSC),
• split phase,
• capacitor start/induction run and
• capacitor start/capacitor run.

Polyphase or three-phase motors are used in larger applications. Other types of motors found in industry are direct current (DC) motors, gearmotors, brake motors and other types.

Mounting: The most common motor mounts include:

• rigid base,
• resilient base
• C face or D flange, and
• extended through bolts.

Gear reducers are similarly base-mounted, flange mounted, or shaft-mounted.

N

National Electric Code (NEC): A safety code regarding the use of electricity. The National Fire Protection Institute sponsors the NEC. Insurance inspectors and many government bodies use the NEC to regulate building codes.

No Load (Conditions): The state of a machine rotating at normal speed under rated conditions, but when no output is required from it.

NEMA (National Electrical Manufacturers Association): A nonprofit trade organization, supported by manufacturers of electrical apparatus and supplies in the United States. Its standards alleviate misunderstanding and help buyers select the proper products. NEMA motors meet standards that cover frame sizes and dimensions, horsepower ratings, service factors, temperature rises and various performance characteristics.

O

Open Circuit: A break in an electrical circuit that prevents normal current flow.

Output Horsepower: The amount of horsepower available at the output shaft of a gear reducer. Output horsepower is always less than the input horsepower. This is due to the efficiency of the reducer.

Output Shaft: The shaft of a speed reducer assembly connected to the load. Also called the drive shaft or the slow speed shaft.

Overload Protection: There are four choices in protection: manual (inherent type), automatic (inherent type), thermostats, and none. A manual overload must be physically reset to restart the motor. An automatic thermal overload will stop the motor when it is overloaded or overheated and restart it after the motor has cooled down. None means the motor has no protection. Thermostats are embedded in the winding and connected to the motor starter control circuit

Overhung Load: A force applied at right angles to a shaft beyond the shaft’s outermost bearing. This shaft-bending load must be supported by the bearing.

P

Part Winding Start (PWS):A method of reduced voltage starting. PWS applies power to only one set of windings, then to the other set as the motor comes up to speed.

Phase: The number of individual voltages applied to an AC motor. A single-phase motor has one voltage in the shape of a sine wave applied to it. A three-phase motor has three individual voltages applied to it. The three phases are at 120 degrees with respect to each other so that peaks of voltage occur at even time intervals to balance the power received and delivered by the motor throughout its 360 degrees of rotation.

Plugging: A method of braking a motor involving applying partial or full voltage in reverse to bring the motor to zero speed.

Polarity: In electric circuits, polarity indicates which terminal is positive and which is negative. As applied to magnets, it indicates which pole is north and which pole is south.

Poles: Magnetic devices set up inside the motor by the placement and connection of the windings. Divide the number of poles into 7200 to determine the motor’s normal speed. For example, 7200 divided by 2 poles equals 3600 RPM.

Power Factor: The ratio of “apparent power” (expressed in kVA) and true or “real power” (expressed in kW).

Power Factor	=	Real Power
		Apparent Power

Apparent power is calculated by a formula involving the “real power,” that which is supplied by the power system to actually turn the motor, and “reactive power,” which is used strictly to develop a magnetic field within the motor. Electric utilities prefer power factors as close to 100% as possible, and sometimes charge penalties for power factors below 90%. Power factor is often improved or “corrected” using capacitors. Power factor does not necessarily relate to motor efficiency, but is a component of total energy consumption.

Prime Mover: In industry, the prime mover is most often an electric motor. Other prime movers can be engines, hydraulic or air motors. The use of a prime mover other than an electric motor may need special application considerations.

Pull Out Torque: Also called breakdown torque or maximum torque. Pull out torque is the highest torque a motor can deliver without stalling.

Pull Up Torque: The minimum torque delivered by a motor between zero and the rated RPM. This is equal to the highest load a motor can accelerate to rated RPM.

Pulse Width Modulation (PWM): The most common frequency synthesizing system in AC drives. PWM is also used in some DC drives for voltage control.

R

Reactance: The opposition to a flow of current other than pure resistance. Inductive reactance is the opposition to change of current in an inductance (coil of wire). Capacitive reactance is the opposition to change of voltage in a capacitor.

Rectifier: A device or circuit for changing AC to DC.

Regenerative Drive: A drive that allows a motor to provide both motoring and braking torque. Most common with DC drives.

Relay: A device having two separate circuits. Relays are built so a small current in one of the circuits controls a large current in the other circuit. A motor starting relay opens or closes the starting circuit under predetermined electrical conditions in the main circuit (run winding).

Reluctance: The characteristics of a magnetic field which resist the flow of magnetic lines of force through it.

Resistor: A device that resists the flow of electrical current for the purpose of operation, protection or control. There are two types of resistors - fixed and variable. A fixed resistor has a fixed value of ohms while a variable resistor is adjustable.

Rotation: The direction in which a shaft turns is either clockwise (CW) or counter clockwise (CCW). When specifying rotation, also state if viewed from the shaft or opposite shaft end of motor.

Rotor: The rotating component of an induction AC motor. Typically constructed of a laminated, cylindrical iron core with slots for cast-aluminum conductors. Short-circuiting end rings complete the “squirrel cage,” which rotates when the moving magnetic field induces a current in the shorted conductors.

S

SCR Drive: Named after the silicon controlled rectifiers that are at the heart of these controls. SCR drives are the most common type of general purpose drive for direct current motors.

Self-Locking: The inability of a gear reducer to be driven backwards by its load. Most general purpose reducers are not self-locking.

Service Factor (Gearing): A method of adjusting a reducer’s load carrying characteristics to reflect the application’s load characteristics. AGMA (American Gear Manufacturers Association) has established standardized service factor information.

Service Factor (Motors): A measure of the overload capacity built into a motor. A 1.15 SF means the motor can deliver 15% more than the rated horsepower without injurious overheating. A 1.0 SF motor should not be loaded beyond its rated horsepower. Service factors will vary for different horsepower motors and for different speeds.

Short Circuit: A fault or defect in a winding. These faults cause part of the normal electrical circuit to be bypassed. Short circuits frequently result in overheating of the winding and burnout.

Slip: (1) The difference between rotating magnetic field speed (synchronous speed) and rotor speed of AC induction motors. Usually expressed as a percentage of synchronous speed. (2) The difference between the speed of the rotating magnetic field (which is always synchronous) and the rotor in a non-synchronous induction motor is know as slip and is expressed as a percentage of a synchronous speed. Slip generally increases with an increase in torque.

Speed Regulation: In adjustable speed drive systems, speed regulation measures the motor and control’s ability to maintain a constant preset speed despite changes in load from zero to 100%. It is expressed as a percentage of the drive system’s rated full load speed.

Stator: The fixed part of an AC motor. Stators consist of copper windings within steel laminations.

T

Temperature Rise: The amount by which a motor, operating under rated conditions, is hotter than its surrounding ambient temperature.

Temperature Tests: These determine the temperature of certain parts of a motor, above the ambient temperature, while operating under specific environmental conditions.

Thermal Protector: A device, sensitive to current and heat, which protects the motor against overheating due to overload or failure to start. Basic types include automatic rest, manual reset and resistance temperature detectors.

Thermal Rating: The power or torque a gear reducer can transmit continuously. This rating is based upon the reducer’s ability to dissipate the heat caused by friction.

Thermistors: Are conductive ceramic materials, whose resistance remains relatively constant over a broad temperature range, then changes abruptly at a design threshold point, creating essentially a solid-state thermal switch. Attached control modules register this abrupt resistance change and produce an amplified output signal, usually a contact closure or fault trip annunciation. Thermistors are more accurate and faster responding than thermostats.

Thermostat: A protector, which is temperature-sensing only, that is mounted on the stator winding. Two leads from the device must be connected to a control circuit, which initiates corrective action. The customer must specify if the thermostats are to be normally closed or normally open.

Thermocouple: A pair of dissimilar conductors joined to produce a thermoelectric effect and used to accurately determine temperature. Thermocouples are used in laboratory testing of motors to determine the internal temperature of the motor winding.

Thrust Load: Force imposed on a shaft parallel to a shaft’s axis. Thrust loads are often induced by the driven machine. Be sure the thrust load rating of a gear reducer is sufficient so that its shafts and bearings can absorb the load without premature failure.

Torque: The turning effort or force applied to a shaft, usually expressed in inch-pounds or inch-ounces for fractional and sub-fractional HP motors.

Starting Torque: Force produced by a motor as it begins to turn from standstill and accelerate (sometimes called locked rotor torque).

Full-Load Torque: The force produced by a motor running at rated full-load speed at rated horsepower.

Breakdown Torque: The maximum torque a motor will develop under increasing load conditions without an abrupt drop in speed and power. Sometimes called pull-out torque.

Pull-Up Torque: The minimum torque delivered by a motor between zero and the rated RPM, equal to the maximum load a motor can accelerate to rated RPM.

Transformer: Used to isolate line voltage from a circuit or to change voltage and current to lower or higher values. Constructed of primary and secondary windings around a common magnetic core.

U

Underwriters Laboratories (UL): Independent United States testing organization that sets safety standards for motors and other electrical equipment.

V

Vector Drive: An AC drive with enhanced processing capability that provides positioning accuracy and fast response to speed and torque changes. Often used with feedback devices in a closed-loop system.

Voltage: A unit of electromotive force that, when applied to conductors, will produce current in the conductors.

W

Watt: The amount of power required to maintain a current of 1 ampere at a pressure of one volt when the two are in phase with each other. One horsepower is equal to 746 watts.

Winding: Motor winding typically refers to the process of wrapping coils of copper wire around a core. In an AC induction motor, the primary winding is a stator consisting of wire coils inserted into slots within steel laminations. The secondary winding of an AC induction motor is usually not a winding at all, but rather a cast rotor assembly. In a permanent magnet DC motor, the winding is the rotating armature.