ABB XT2SU3100FFF000XXX Tmax XT Low Voltage Molded Case Circuit Breaker, 600/690 VAC, 100 A, 22 kA Interrupt, 3 Poles, Thermal Magnetic/Electronic/Ekip LSI Trip
XT2SU3100FFF000XXX
MFG #: XT2SU3100FFF000XXX
Requires Quote
Non-Stock Item
- Amperage Rating: 100 A
- Connection Type: Front Line/Load Side
- Country of Origin: IT
- Dimensions: 5.12 in H x 3.54 in W x 3.25 in D
- Frame: XT2 125A
- Frequency Rating: 50/60 Hz
- Insulation Type: Double Insulated
- Interrupt Rating: 22 kA
- Manufacturer Name: ABB
- Number of Poles: 3
- Series: Tmax XT
- Temperature Rating: -13 to 158 deg F
- Trip Type: Thermal Magnetic/Electronic/Ekip LSI
- Type: Low Voltage
- Voltage Rating: 600/690 VAC
Tmax XT molded case circuit breakers guarantee an extremely high performance level while being progressively smaller in size, simple to install and able to provide increasingly better safety.
- Application
- Standards
- Item Features
For all distribution levels from the main low voltage switchboard to the sub-switchboards in the installation
UL Listed|CSA Certified|IEC Certified
- Specific electronic trip units for energy metering, motor protection and generator protection in addition to a Modbus communication module for integration in a supervision system
- F front terminals, no lugs installed on line and load side termination (top/bottom)
- Wide range of keylocks and padlocking options, plug-in and withdrawable versions to speed up maintenance operations and improved diagnostic to have ready to use information about breakers status
- A dedicated range of accessories and a renewed solution for electronic trip units to adapt Tmax XT to different applications scenarios installation flexibility
- XTraordinary limiting characteristics allow savings in copper and footprint in switchboard, high selectivity values and very compact motor protection solutions high breaking capacity
- 22 kA standard breaking capacity
- Frame XT2 to 125 A, 600 V (UL)/160 A (IEC), 690 V thermal magnetic and electronic protection
- Feature high specific let-through current peak and energy limiting characteristics that allow the circuits and equipment on the load side to be sized in optimum way