Eaton Bussmann Inc. LPJ-30SP
Bussmann Low-Peak™ LPJ-30SP Current Limiting Time Delay Fuse, 30 A, 600 VAC/300 VDC, 300/100 kA, Class J, Cylindrical Body
Class J Fuses
12565
LPJ-30SP
Eaton Bussmann Inc.
$0.00
/ ea
- Amperage Rating: 30
- Body Size: 0.81 in Dia x 2.25 in L
- Body Type: Cylindrical
- Class: J
- Element: Dual
- Indicating/Non-Indicating: Non-Indicating
- Interrupt Rating: 300/100
- Material: Melamine
- Mounting Type: Holder
- Rejection/Non-Rejection: Non-Rejection
- Response Time: 10
- Series: LPJ
- terminal type: Ferrule
- Type: Current Limiting
- Voltage Rating: 600 VAC/300 VDC
Eaton Bussmann series LPJ fuse, Bussmann Fuse 600V, 30 A, 300 kA
- Features
- Separate overload and short circuit elements provide time delay for sizing of high inrush loads linked with class J current limitation
- Selective coordination ratio of 2:1 (within Low-Peak® fuse family) prevents electrical shutdowns from extending beyond the failed circuit
- Series combination ratings with branch circuit breakers allows broad range of coverage, independent of breaker manufacturer
- Proper sizing can provide "No Damage" type 2 coordinated protection for NEMA® and IEC® motor controllers
- Space saving package for equipment down sizing
- Industry's only UL listed and CSA Certified fuse with a 300 kA interrupt rating that allows for simple, worry free installation in virtually any application
- Fast short circuit protection and dual element, time delay performance provide ultimate protection
- Reduces existing fuse inventory by up to 33% when upgrading to Low-Peak® fuses
- Consistent 2:1 ampacity ratios for all Low-Peak® fuses make selective coordination easy
- Long time delay minimizes needless fuse openings due to temporary overloads and transient surges
- Current limitation protects downstream components against damaging thermal and magnetic effects of short circuit currents
- Dual element fuses have lower resistance than ordinary fuses, hence they run cooler
- They can often be sized for back up protection against motor burnout from overload or single phasing if other overload protective devices fail