ABB 2TFH100187R1001 Moulded Case Breaker - XT1 IEC60947-2
Part Number: 2TFH100187R1001
Quick Summary
ABB 2TFH100187R1001 Moulded Case Breaker provides reliable low-voltage protection for control panels and distribution boards in industrial environments. End users struggle with downtime, wiring complexity, and compliance risk, especially when switching between machines and lines with varying fault currents. Certified to IEC60947-2 and CE with RoHS compliance, plus CMRT for responsible sourcing, this model also aligns with ABB's EcoSolutions framework. Leverage its 4P architecture, front-terminal accessibility, and optimized power loss of 10.7 W per pole to improve uptime, reduce thermal stress, and simplify maintenance. This combination supports scalable protection as your line density grows and product mix changes. It also reduces total cost of ownership through longer service life and lower energy losses.
Product Information
Extended Description
2TFH100187R1001 ABB: XT1H160 TMD125/1250 FFC 4P N=100%
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
4P
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) 75 kA | (230 V AC) 75 kA | (240 V AC) 75 kA | (380 V AC) 52.5 kA | (415 V AC) 37.5 kA | (440 V AC) 32.5 kA | (500 V AC) 25 kA | (525 V AC) 17.5 kA | (690 V AC) 5 kA | (250 V DC) 2 Poles in Series 52.5 kA | (500 V DC) 3 Poles in Series 52.5 kA
Rated Ultimate Short-Circuit Breaking Capacity (Icu)
(220 V AC) 100 kA | (230 V AC) 100 kA | (240 V AC) 100 kA | (380 V AC) 70 kA | (415 V AC) 70 kA | (440 V AC) 65 kA | (500 V AC) 50 kA | (525 V AC) 35 kA | (690 V AC) 10 kA | (250 V DC) 2 Poles in Series 70 kA | (500 V DC) 3 Poles in Series 70 kA
Rated Uninterrupted Current (Iu)
160 A
Release
TMD
Release Type
TM
Short-Circuit Performance Level
H
Standards
IEC60947-2 | GB/T 14028.2
Sub-type
XT1
Terminal Connection Type
Front for Copper Cables
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)
4P XT1 design provides synchronized protection across four poles, enabling common-trip coordination and streamlined wiring in multi-line feeders. The 125 A rated current and 690 V AC / 500 V DC operating range give reliable fault handling for mid-range industrial panels, while the 8 kV impulse withstand enhances safety against transient spikes. Business impact: reduced nuisance trips and improved panel uptime; Application: suitable for distribution boards serving motors and control circuits in manufacturing or process plants. Front-terminal connection for copper cables facilitates quick field installation and easier torque verification, lowering commissioning time and reducing terminal heat buildup. This translates into lower maintenance costs and clearer inspection trails in the inventory. Low power loss of 10.7 W per pole minimizes heat generation in cabinets, allowing denser layouts and reduced cooling requirements. The efficiency gain supports energy-conscious facilities and aligns with sustainability goals. IEC 60947-2 compliant with CE RoHS declarations ensures regulatory alignment across global sites, while CMRT data supports responsible sourcing and risk management. Icu and Ics performance in 690 V systems deliver strong short-circuit protection; when coordinated with upstream protections, you can optimize selectivity and fault clearing times. Easy compatibility with SACE Tmax XT families means you can scale across plant segments and replace older devices with minimal rewiring.
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FAQs
Ensure the panel supports four-pole assembly with front-terminal access designed for copper cables. Verify the rated current of 125 A and rated operational voltage of 690 V AC / 500 V DC, and apply the correct torque on terminal screws per the installation manual. Use compatible busbars and a NEMA/IEC-compliant enclosure to maintain clearance and heat dissipation.
At 690 V AC, the device provides Ics up to 5 kA and Icu up to 10 kA, which defines the breaker’s ability to interrupt fault currents without damage. For proper coordination, compare upstream protection to these limits and ensure the system fault current remains below Icu. This prevents nuisance trips and ensures selective protection across feeders.
Yes, for standard LV distribution panels that require four-pole protection and front-terminal copper connections. It complies with IEC 60947-2 and CE RoHS declarations, making it suitable for regulated environments. For harsher environments, use appropriate enclosure rating and ensure adequate ventilation to manage heat from 4P devices.
This MCCB aligns with IEC 60947-2 standards and CE conformity, with RoHS compliance and CMRT reporting. ABB provides an DoC and DoE documentation; WEEE category indicates packaging disposal guidance. Environmental data includes the EPD category and RoHS status reflecting EU directives 2011/65/EU and 2015/863.
Longer service life and energy efficiency translate to lower maintenance costs and reduced energy consumption, supported by 10.7 W per pole power loss. The 8000 electrical durability cycles and 25000 mechanical cycles reduce replacement frequency, while 4P design and front terminals speed preventive maintenance and commissioning across lines, delivering measurable ROI over time.