Littelfuse T3500 Series User Manual

T3500 frequency deviation relay, Grid

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T3500 Frequency Deviation Relay

• Protection of generators from

frequency deviation on the grid

• Visual indication of power, ready,

pick-up and relay tripping

• Accepts high supply voltage

variations: 60 - 110%

• Cost effective and highly reliable

compact design

• 50 hours burn-in before final test

• Operating temperature range:

-20°C to +70°C

• Flame retardant enclosure

• DIN rail or screw mounting

Application

When generators are operating in

parallel with the grid (utility) it is

important to detect that the grid supply

is present. With the grid connected the

system frequency is very stable, but if

there is an interruption of the grid, a

frequency deviation will occur and this

will be detected by the T3500.

Thus the T3500 provides a good

protection to a generator, operating in

parallel with the grid, as the frequency

deviations can damage the generator as

well as the switchgear.

Function

The relay is a D frequency / D time

relay. The working principle of the unit

can be understood as a flywheel. This

means that the unit will adjust itself to

the frequency of the connected grid.

Slow changes in the grid frequency will

not cause the unit to trip, as the

flywheel will only adjust itself to the

new frequency. However a rapid change

in the frequency of 0.5 - 1.5 Hz/sec.,

which is adjustable on the front, will

cause the relay to trip.

When the supply voltage is connected

the output relay is energized and a

delay of 4 sec. is introduced in order to

allow for the measuring circuit to

adjust. The “ready” LED will indicate

and if the input frequency deviates

above the setting in either direction,

the “pick-up” LED will indicate, and

provided the frequency deviation

continues for more than 100 msec., the

output relay will de-energize and this

will be indicated on the “relay” LED.

The 100 msec. delay can be omitted by

bridging terminals 19 and 20 or it can

be reduced to 50 msec. by inserting a

resistor of 620 k between terminals 19

and 20.

The output relay can not be energized

again until the unit has been reset by

disconnecting the supply or by using

the blocking input by connecting

terminals 18 and 19.

As long as the blocking input is present,

the unit will not make any

measurement. This function can be used

to make the unit inactive when the

circuit breaker is open and the

generator thus not operating in parallel

with the grid.

The blocking signal can be a signal from

the circuit breaker auxiliary contact,

present when the breaker is open. The

“ready” LED will be off as long as the

blocking signal is present.

When the blocking signal is cancelled a

delay of 4 sec. is again introduced. After

the delay the “ready” LED will come on

light, indicating that the unit is again

ready to make measurements.

Interconnecting terminals 5 and 6 will

perform a test of the unit by

introducing a phase shift. The phase

shift should cause the relay to trip.

Connection Diagram. Output relay normally energized. Relay shown de-energized.

TRIP

6

NO DELAY

BLOCKING

20

G

19

18

TEST

1

5

3

2

8

10

9

RESET

L 2

3

L

L 1

GRID

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