LLNRK Datasheet, PDF(1/3 Page) Littelfuse – LLNRK/LLSRK Series POWR-PRO Class RK1

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LLNRK Datasheet, PDF (1/3 Pages) Littelfuse – LLNRK/LLSRK Series POWR-PRO Class RK1

LLNRK/LLSRK Series POWR-PROÂ® Class RK1

250/600 VAC s Dual-Element, Time-Delay s 1/10 â 600 Amperes

SPECIFICATIONS

Voltage Ratings: AC: 250 Volts (LLNRK)

600 Volts (LLSRK)

DC: 125 Volts (LLNRK)

300 Volts (LLSRK)

Interrupting Ratings:

AC: 200,000 amperes rms symmetrical

300,000 amperes rms symmetrical

(Littelfuse self-certified)

DC: 20,000 amperes

Ampere Range: 1/10 â 600 amperes

Approvals:

AC: Standard 248-12, Class RK1

UL Listed (File No: E81895)

CSA Certified (File No: LR29862)

QPL: Federal Specification No.WF-1814

DC: Littelfuse self-certified

AMPERE RATINGS

â110

28â10

61â4

â15100

11â8

â210

11â4

32â10

â1 *

14â10

31â2

â3

16â10

â4

18â10

41â2

1â2

â6 10

21â4

56â10

171â2

â8

21â2

* LLSRK Only.

300

100 350

110 400

125 450

150 500

175 600

200

225

250

Example part number (series & amperage): LLNRK 450

RECOMMENDED FUSE BLOCKS

LR250 series (LLNRK Series)

LR600 series (LLSRK Series)

Refer to Fuse Block section of this catalog for additional

information.

Littelfuse LLNRK and LLSRK series POWR-PROÂ® fuses

provide superior overload and short circuit protection for

service entrance, main, feeder and general-purpose branch

circuits up to 600 amperes.

LLNRK/LLSRK series fuses can be installed in existing Class

H fuse blocks to upgrade systems containing lower interrupt-

ing rating Class H one-time or renewable fuses.

APPLICATIONS

All general-purpose circuits

Motors

Transformers

Solenoids

Fluorescent lighting

All system components with high in-rush currents

FEATURES/BENEFITS

s Extremely current limiting â Reduces damage to circuits

and equipment under short-circuit conditions. Stops

damaging short circuits faster than any mechanical

protective device.

s 300kA Interrupting Rating â Littelfuse self-certified to

300,000 amperes as standard. Meets future trend towards

higher available short circuit currents.

s Reduced costs â Current limiting design often permits

use of readily available, less costly equipment. Low

resistance design reduces power consumption and utility

bills.

s Excellent time delay â True dual-element construction,

with separate non-fatiguing thermally-reversible spring-

loaded thermal overload element, withstands repeated

surges within rated time delay without opening needlessly.

Eliminates needless downtime caused by power surges or

equipment demands.

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