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ManualsBrandsSquare D ManualsMotor StartersOverload Relay Thermal Unit, 28.1 to 31.7A, Type B, Melting Alloy, Class 20

5/98

Heater Coil

85%-115%

Trip Adjustment

Bimetal

Strip

Contact

Product Description

solder pot are combined in a one piece, nontamperable unit. Melting alloy

thermal overload relays must be reset by a deliberate hand operation after

they trip. A reset button is usually mounted on the cover of enclosed starters.

Thermal units are rated in amperes and are selected on the basis of motor

full load current, not horsepower.

Non-Compensated Bimetallic

Bimetallic thermal overload relays employ a U-shape bimetal strip

associated with a current carrying heater coil.When an overload occurs, the

heat will cause the bi-metal to deﬂect and operate a control circuit contact.

Different heaters give different trip points. In addition, most relays are

adjustable over a range of 85% to 115% of the nominal heater rating.

Bimetallic overload relays are used where the controller is remote or difﬁcult

to reach. Three wire control is recommended when automatic restarting of a

motor could be hazardous to personnel.

Automatic Reset

These relays are ﬁeld convertible from hand reset to automatic reset and

vice-versa. On automatic reset after tripping the relay, contacts will

automatically reclose when the relay has cooled down. This is an advantage

when the relays are inaccessible. However, automatic reset overload relays

should not normally be used with 2-wire control. With this arrangement, the

motor will restart when the overload relay contacts reclose after an overload

relay trip, and unless the cause of the overload has been removed, the

overload relay will trip again. This cycle will repeat and eventually the motor

will burn out due to the accumulated heat from the repeated inrush and

overload current. More important is the possibility of danger to personnel.

The unexpected restarting of a machine may ﬁnd the operator or

maintenance man in a hazardous situation as he attempts to ﬁnd out why his

machine has stopped.

Ambient Temperature Compensated Bimetallic

Ambient-compensated bimetallic overload relays are designed for one

particular situation; that is, when the motor is at a constant ambient

temperature and the controller is located separately in a varying ambient

temperature. In this case, if a standard thermal overload relay were used, it

would not trip at the same level of motor current if the controller temperature

changed. The standard thermal overload relay is always affected by the

surrounding temperature. To compensate for temperature variations, an

ambient-compensated overload relay is used. Its trip point is not affected by

temperature, and it performs consistently at the same value of current.

Thermal Overload Relay Trip Characteristics

Melting alloy and bimetallic overload relays are designed to approximate the

heat actually generated in the motor. As the motor temperature increases, so

does the temperature of the thermal unit. The motor and relay heating curves

(left) show this relationship. From this graph we can see that no matter how

high the current drawn, the overload relay will provide protection yet will not

trip unnecessarily.

Solid State Overload Relay

There are some substantial advantages to using the solid state electronic

device. The device does not require thermal units. The customer does not

have to exercise skill at the selection procedure nor is there a need to stock

Bimetallic Overload Relay with Side

Cover Removed

Overload Relay Trip Curve

Motor Damage Area

Motor Heating Curve

Time Required To Trip

0123456789101112

Minutes

100

200

300

400

500

600

Percent Full Load Current

Graph shows motor heating curve and overload relay trip curve.

Overload relay will always trip at a safe value.