ABB 2TFH100125R1001 Moulded Case Breaker - Tmax XT
Part Number: 2TFH100125R1001
Quick Summary
ABB 2TFH100125R1001 Moulded Case Circuit Breaker delivers reliable overcurrent protection for industrial switchgear. Engineers often struggle balancing safety with nuisance trips and downtime. It complies with IEC 60947-2, CE conformity, and RoHS directives, ensuring regulatory readiness across global sites. As part of the SACE Tmax XT family, it integrates with ABB EcoSolutions for lifecycle optimization and predictable maintenance windows. The 3P design, front extended terminals, and compact form factor simplify installation in crowded panels while delivering robust protection. This device supports scalable configurations for mixed voltage environments, helping procurement teams standardize breakers without sacrificing performance or compliance.
Product Information
Extended Description
2TFH100125R1001 ABB: XT1S160 TMD125/1250 FEF 3P
Environmental Product Declaration - EPD
NoDecNee
REACH Declaration
REACh Declaration ABB Sace circuit breakers
RoHS Information
RoHS Declaration ABB Sace circuit breakers
RoHS Status
Following EU Directive 2011/65/EU and Amendment 2015/863 July 22, 2019
Conflict Minerals Reporting Template (CMRT)
CMRT - Conflict Minerals Reporting Template
Environmental Information
Breakers - Packaging disposal information
Customs Tariff Number
85362000
Product Main Type
SACE Tmax XT
Product Name
Moulded Case Circuit Breaker
Product Type
Automatic Circuit Breaker
Version
F
Current Type
AC/DC
Electrical Durability
8000 cycle | 120 cycles per hour
Mechanical Durability
25000 cycle | 240 cycles per hour
Number of Poles
3P
Power Loss
at Rated Operating Conditions per Pole 10.7 W
Rated Current (In)
125 A
Rated Impulse Withstand Voltage (Uimp)
8 kV
Rated Insulation Voltage (Ui)
800 V
Rated Operational Voltage
690 V AC | 500 V DC
Rated Service Short-Circuit Breaking Capacity (Ics)
(220 V AC) 63.75 kA | (230 V AC) 63.75 kA | (240 V AC) 63.75 kA | (380 V AC) 50 kA | (415 V AC) 37.5 kA | (440 V AC) 25 kA | (500 V AC) 18 kA | (525 V AC) 17.5 kA | (690 V AC) 5 kA | (250 V DC) 2 Poles in Series 50 kA | (500 V DC) 3 Poles in Series 50 kA
Rated Ultimate Short-Circuit Breaking Capacity (Icu)
(220 V AC) 85 kA | (230 V AC) 85 kA | (240 V AC) 85 kA | (380 V AC) 50 kA | (415 V AC) 50 kA | (440 V AC) 50 kA | (500 V AC) 36 kA | (525 V AC) 35 kA | (690 V AC) 8 kA | (250 V DC) 2 Poles in Series 50 kA | (500 V DC) 3 Poles in Series 50 kA
Rated Uninterrupted Current (Iu)
160 A
Release
TMD
Release Type
TM
Remarks
ATLAS
Short-Circuit Performance Level
S
Standards
IEC60947-2 | GB/T 14028.2
Sub-type
XT1
Terminal Connection Type
Front Extended
Data Sheet, Technical Information
SACE Tmax XT IEC Low voltage molded case circuit-breakers Catalog | SACE Tmax XT IEC TECHNICAL CHARACTERISTICS Low voltage molded case circuit-breakers
Declaration of Conformity - CE
EC Declaration of Conformity Tmax XT1
Instructions and Manuals
Installation instructions XT1
WEEE Category
5. Small Equipment (No External Dimension More Than 50 cm)
3P 125 A rated current with Ics up to 63.75 kA at 230–240 V and Icu up to 85 kA at 220–240 V provides reliable fault interruption for motor feeders and distribution circuits. This reduces the risk of cascading faults, minimizes unplanned downtime, and supports standardization across global plants. It is well suited for three-phase distribution panels in manufacturing, packaging lines, and process skids where fast isolation is essential. Ui of 800 V insulation and rated operational voltage of 690 VAC / 500 V DC give wide compatibility with diverse industrial equipment and emerging DC drives. This enables panel builders to source a single MCCB for mixed voltage architectures, reducing spare parts inventory and enabling faster commissioning in global projects. Electrical durability of 8000 cycles at 120 cycles per hour and mechanical durability of 25000 cycles at 240 cycles per hour translate into long service life and predictable performance under heavy switching. In demanding environments—hot workshops, dusty panels, or frequent start/stop cycles—this resilience supports maintenance planning and reduces unexpected replacements. Front Extended terminal connections simplify wiring in tight panel spaces, speeding installation and reducing wiring errors during commissioning. The per-pole power loss of 10.7 W under rated conditions helps minimize heat and cooling needs in compact switchgear. Compliance and environmental declarations accompany this device: RoHS and CE declarations, CMRT for supply-chain transparency, WEEE guidance, and packaging disposal information. The product aligns with the SACE Tmax XT line and ABB EcoSolutions, while the customs tariff number 85362000 supports global procurement and trade compliance.
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FAQs
Yes. This device is a 3P moulded case circuit breaker with Front Extended terminals, designed for SACE Tmax XT applications. It fits standard three-phase distribution panels, simplifies wiring, reduces torqueing errors, and provides reliable isolation for motor feeders and downstream components in both ABB and third-party enclosures.
It features a 125 A rated current with Ics up to 63.75 kA at 230–240 V, and Icu up to 85 kA at 220–240 V. It operates at 690 VAC / 500 V DC with Ui = 800 V, and supports AC/DC current types, making it suitable for mixed-voltage industrial installations.
Ideal for motor feeders, distribution panels, and process lines in manufacturing, water treatment, and packaging. Its 3P design and high fault-current capability enable reliable protection in demanding automation environments, while the front-terminal design accelerates commissioning in crowded switchgear layouts.
This MCCB complies with IEC 60947-2, GB/T 14028.2, and carries CE conformity and RoHS declarations. It also supports CMRT for supply-chain transparency and WEEE guidance. EPD information is listed as NoDecNee, aligning with ABB EcoSolutions environmental data.
Electrical durability is rated at 8000 cycles and mechanical durability at 25000 cycles, with a per-pole power loss of 10.7 W under rated conditions. These factors translate to longer service life, reduced maintenance, fewer unplanned outages, and lower life-cycle costs in automated production environments.