ABB 2TFH100168R1001 Moulded Case Circuit Breaker - IEC60947-2
Part Number: 2TFH100168R1001
Quick Summary
ABB 2TFH100168R1001 Moulded Case Circuit Breaker protects critical power feeds in industrial facilities and data centers. Engineers often struggle with coordinating protection settings, legacy devices, and regulatory compliance across evolving plant standards. This model meets IEC60947-2 and GB/T 14028.2, with CE declarations and RoHS compliance, ensuring traceable, reliable protection. Built for easy installation and long lifecycle, it pairs with SACE Tmax XT enclosures to reduce downtime and total cost of ownership. These features support efficiency, safety, and compliance in demanding industrial environments.
Product Information
Extended Description
2TFH100168R1001 ABB: XT1H160 TMD160/1600 FFC 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 15 W
Rated Current (In)
160 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)
Feature: 160 A rated current. Business Impact: Delivers dependable feeder protection for medium-load panels with minimal nuisance trips. Application: Suitable for machine panels and distribution boards in manufacturing lines. Feature: 690 V AC / 500 V DC rated operational voltage. Business Impact: Enables safe, versatile protection across mixed power architectures, reducing device spares and configuration errors. Application: Data centers, robotics cells, and process lines with mixed supplies. Feature: 3P design with Ics up to 75 kA and Icu up to 70–100 kA (voltage dependent). Business Impact: Offers robust short-circuit protection and selectivity, improving uptime and fault localization. Application: Main feeders in industrial plants and switchgear assemblies. Feature: Release system TMD / TM with XT1 subtype. Business Impact: Quick trip performance and compatibility with standard XT1 protection schemes, lowering coordination effort. Application: New builds and retrofit projects needing fast protection tuning. Feature: Front terminal connection for copper cables. Business Impact: Simplifies wiring and reduces installation time while improving electrical integrity. Application: Panel builders and field installation teams in OEM and maintenance scopes. Feature: Electrical durability 8000 cycles; Mechanical durability 25000 cycles; Power loss 15 W per pole. Business Impact: Longer service life with predictable endurance, lowering maintenance and energy waste. Application: Continuous duty environments and high-reliability panels. Feature: RoHS, REACH, CMRT, WEEE compliance. Business Impact: Supports regulatory reporting and responsible sourcing, reducing compliance risk. Application: Procurement audits and sustainability programs in manufacturing and data centers.
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FAQs
Install in standard Tmax XT enclosures using front terminals designed for copper cables. Follow the XT1 installation instructions to ensure correct busbar connections, torqueing per conductor size, and proper isolation during maintenance. The design supports straightforward wiring, reducing commissioning time and potential wiring errors.
Rated current is 160 A. Rated operational voltage is 690 V AC / 500 V DC. Rated insulation voltage is 800 V. Rated impulse withstand voltage (Ui) is 8 kV. Short-circuit capacities include Ics up to 75 kA (voltage-dependent) and Icu up to 100 kA in suitable configurations, with 3 poles in series configuring DC ratings as applicable.
Yes. Its 3P design, high Ics/Icu ratings, and 690 V AC operating voltage make it well-suited for critical feeders in data centers and heavy machinery lines. Compatibility with SACE Tmax XT and front-cable wiring simplifies integration, while IEC60947-2 compliance supports regulatory alignment and safe operation.
The product supports IEC60947-2 and GB/T 14028.2 standards, CE Declaration of Conformity, RoHS compliance, REACH declaration, CMRT for conflict minerals, and WEEE category information. These ensure traceability, environmental responsibility, and readiness for regulatory audits.
Electrical durability is rated at 8000 cycles and mechanical durability at 25000 cycles, with 15 W power loss per pole. This combination provides long service life, reduced thermal cycling, lower maintenance frequency, and overall lifecycle cost savings for continuous-operation installations.