ABB 2TFH100601R1001 MCCB 3P XT2 - IEC60947-2
Part Number: 2TFH100601R1001
Quick Summary
ABB 2TFH100601R1001 is a moulded case circuit breaker protecting 690 V AC power distribution. It helps minimize downtime during overloads by fast, predictable tripping and selective coordination. Certified to IEC60947-2, GB/T 14028.2, and CE, plus RoHS and REACH declarations, it meets global safety standards. As part of the SACE Tmax XT family, it delivers robust protection with compact 3P XT2 packaging for easy installation. For procurement teams, the device supports lifecycle cost reduction through low power loss per pole and high durability. Plug-in terminal connections and XT2 series accessories streamline retrofit projects and new builds. Its 3-pole design enables selective protection in panel boards and switchgear across industrial environments. This combination makes ABB 2TFH100601R1001 a reliable, future-ready choice for automation initiatives.
Product Information
Extended Description
2TFH100601R1001 ABB: XT2H160 Ekip I R10 PMP 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 Net Width
90.0 mm
Product Net Height
130 mm
Product Net Depth / Length
82.5 mm
Product Net Weight
2.54 kg
Package Level 1 Width
195 mm
Package Level 1 Height
225 mm
Package Level 1 Depth / Length
195 mm
Package Level 1 Gross Weight
2.64 kg
Product Main Type
SACE Tmax XT
Product Name
Moulded Case Circuit Breaker
Product Type
Automatic Circuit Breaker
Version
P
Current Type
AC
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 0.1 W
Rated Current (In)
10 A
Rated Impulse Withstand Voltage (Uimp)
8 kV
Rated Insulation Voltage (Ui)
1000 V
Rated Operational Voltage
690 V AC
Rated Service Short-Circuit Breaking Capacity (Ics)
(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) 30 kA | (690 V AC) 15 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) 30 kA | (690 V AC) 15 kA
Rated Uninterrupted Current (Iu)
160 A
Release
Ekip I
Release Type
EL
Remarks
ATLAS
Short-Circuit Performance Level
H
Standards
IEC60947-2 | GB/T 14028.2
Sub-type
XT2
Terminal Connection Type
Plug-In Circuit-Breakers
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 XT2
Instructions and Manuals
Installation Instructions XT2
WEEE Category
5. Small Equipment (No External Dimension More Than 50 cm)
Electrical durability and lifecycle: The device delivers 8000 electrical durability cycles (120 cycles/hour) and 25,000 mechanical cycles (240 cycles/hour). This combination reduces maintenance frequency and replacement costs, especially in panels with frequent switching, improving line availability and overall plant uptime in manufacturing and process environments. Fault-current resilience and protection: With a rated ultimate breaking capacity up to 100 kA and a Rated Short-Circuit Capability aligned to multiple voltages, it protects motors, drives, and panels from damaging fault currents, enabling safer starts and less equipment wear in heavy industrial lines. Energy efficiency and thermal management: A power loss of only 0.1 W per pole minimizes heat generation, enhances energy efficiency, and lowers cooling requirements in compact switchgear assemblies, supporting green initiatives and reduced operating costs. Installation readiness and compatibility: The XT2 three-pole design uses plug-in connections for quick, vibration-resistant mounting, simplifying retrofits and new builds across control cabinets and distribution boards. Compliance and environmental responsibility: RoHS and REACH declarations, plus CE conformity and CMRT, provide regulatory assurance and simplify supplier qualification for global projects while aligning with ABB EcoSolutions.
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FAQs
Install the MCCB using the plug-in terminal connections designed for XT2, ensuring the three-pole body aligns with the panel busbar. Verify rated current (10 A) and voltage (690 V AC) suitability for the circuit, secure the mounting, and tighten connections to specification. Use correct torque values and observe clearance/packing guidelines to ensure safe operation and reliable tripping.
The model is rated for In of 10 A, Ui of 1000 V and operational voltage of 690 V AC. It provides Icu up to 100 kA at specified voltages (including 220–690 V variants) and Uimp of 8 kV. These ratings support protection for moderate-to-heavy fault currents in industrial distribution and panel boards.
Yes. With 690 V AC operating voltage, 3P configuration, and 100 kA Icu capability, this XT2 MCCB is well-suited for 690 V distribution in manufacturing and process environments. Its selective protection, compact XT2 form factor, and plug-in terminals facilitate efficient motor protection, panel layouts, and scalable switchgear in harsh industrial conditions.
The product complies with IEC60947-2 and GB/T 14028.2 standards, carries CE conformity, and provides RoHS and REACH declarations. It is also associated with CMRT for conflict minerals reporting. These certifications help with regulatory approvals, supplier qualification, and responsible sourcing for global projects.
Expect reduced maintenance due to high electrical durability (8000 cycles) and mechanical durability (25000 cycles), which lowers replacement frequency. The low power loss per pole minimizes heat, cutting cooling energy costs. Plug-in terminals speed installation and future servicing, shortening downtime during upgrades and retrofits while maintaining reliable overcurrent protection across panels.