ABB 1SFL427001R4200 Block Contactor - UL/CSA & CE

Part Number: 1SFL427001R4200
1SFL427001R4200
Manufacturer
ABB
Part number
1SFL427001R4200
Category

Quick Summary

ABB 1SFL427001R4200 Block Contactor controls three-phase motors in industrial drive systems. It addresses panel energy waste and inconsistent switching in unstable power networks. Certified to CE, UL/CSA listings and UKCA where applicable, with RoHS and REACH declarations. This AF technology delivers faster operation and built-in surge protection, reducing energy use while enabling scalable, reliable motor control. Compatible with add-on auxiliary blocks and a wide range of ABB accessories, it supports compact, maintainable control panels. For OEMs and maintenance teams, this reduces spare parts variety and simplifies stocking. In mission-critical applications, its 3-pole design and 690 V rating offer dependable protection.

Product Information

Extended Description

1SFL427001R4200 ABB: The AF116-30-00-42 is a 3 pole - 690 V IEC or 600 V UL contactor with double clamp, controlling motors up to 55 kW / 400 V AC (AC-3) or 75 hp / 480 V UL and switching power circuits up to 160 A (AC-1) or 160 A UL general use. Thanks to the AF technology, the contactor has a control voltage range (110-120 V 50/60 Hz),faster operation time, reducing panel energy consumptions and ensuring distinct operations in unstable networks. Furthermore, surge protection is built-in, offering a compact solution. AF contactors have a block type design, can be easily extended with add-on auxiliary contact blocks and an additional wide range of accessories.
Minimum Order Quantity
1 piece
Customs Tariff Number
8536490099
Data Sheet, Technical Information
1SBC100214C0202 - Main catalog Motor protection and control Manual motor starters, contactors and overload relays (PDF) - Edition 2024
Data Sheet, Technical Information (Part 2)
Contactors and Overload relays guide
Instructions and Manuals
Operating instruction, Contactor, AF(S)116, AF140, AF(S)146
CAD Dimensional Drawing
Information - 2D and 3D files for CAD systems
Product Net Width
90 mm
Product Net Depth / Length
126 mm
Product Net Height
150 mm
Product Net Weight
1.55 kg
Number of Main Contacts NO
3
Number of Main Contacts NC
0
Number of Auxiliary Contacts NO
0
Number of Auxiliary Contacts NC
0
Number of Poles
3P
Rated Operational Voltage
Main Circuit 690 V
Rated Frequency (f)
Main Circuit 50 / 60 Hz
Conventional Free-air Thermal Current (Ith)
acc. to IEC 60947-4-1, Open Contactors Θ = 40 °C 160 A
Rated Operational Current AC-1 (Ie)
(690 V) 40 °C 160 A | (690 V) 60 °C 145 A | (690 V) 70 °C 130 A
Rated Operational Current AC-3 (Ie)
(415 V) 60 °C 116 A | (440 V) 60 °C 116 A | (500 V) 60 °C 110 A | (690 V) 60 °C 65 A | (380 / 400 V) 60 °C 116 A | (220 / 230 / 240 V) 60 °C 116 A
Rated Operational Current AC-3e (Ie)
(415 V) 60 °C 116 A | (440 V) 60 °C 116 A | (500 V) 60 °C 110 A | (690 V) 60 °C 65 A | (380 / 400 V) 60 °C 116 A | (220 / 230 / 240 V) 60 °C 116 A
Rated Operational Power AC-3 (Pe)
(400 V) 55 kW | (415 V) 55 kW | (440 V) 75 kW | (500 V) 55 kW | (380 / 400 V) 55 kW | (220 / 230 / 240 V) 30 kW
Rated Operational Power AC-3e (Pe)
(415 V) 55 kW | (440 V) 75 kW | (500 V) 75 kW | (690 V) 55 kW | (380 / 400 V) 55 kW | (220 / 230 / 240 V) 30 kW
Rated Breaking Capacity AC-3
8 x Ie AC-3
Rated Breaking Capacity AC-3e
8.5 x Ie AC-3e
Rated Making Capacity AC-3
10 x Ie AC-3
Rated Making Capacity AC-3e
12 x Ie AC-3e
Rated Short-time Withstand Current Low Voltage (Icw)
at 40 °C Ambient Temp, in Free Air, from a Cold State 10 s 928 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 15 min 160 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 1 min 379 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 1 s 1300 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 30 s 536 A
Maximum Breaking Capacity
cos phi=0.45 (cos phi=0.35 for Ie > 100 A) at 440 V 2000 A | cos phi=0.45 (cos phi=0.35 for Ie > 100 A) at 690 V 1000 A
Rated Insulation Voltage (Ui)
acc. to IEC 60947-4-1 and VDE 0110 (Gr. C) 1000 V | acc. to UL/CSA 1000 V
Rated Impulse Withstand Voltage (Uimp)
Main Circuit 8 kV
Maximum Electrical Switching Frequency
(AC-1) 300 cycles per hour | (AC-2 / AC-4) 150 cycles per hour | (AC-3) 300 cycles per hour
Mechanical Durability
5 million
Maximum Mechanical Switching Frequency
300 cycles per hour
Rated Control Circuit Voltage (Uc)
50 Hz 110 ... 120 V | 60 Hz 110 ... 120 V
Coil Consumption
Holding at Max. Rated Control Circuit Voltage 50 Hz 6 V·A | Holding at Max. Rated Control Circuit Voltage 50 Hz 2 W | Holding at Max. Rated Control Circuit Voltage 60 Hz 6 V·A | Holding at Max. Rated Control Circuit Voltage 60 Hz 2 W | Pull-in at Max. Rated Control Circuit Voltage 50 Hz 180 V·A | Pull-in at Max. Rated Control Circuit Voltage 60 Hz 180 V·A
Power Loss
at Rated Operating Conditions AC-1 per Pole 12 W | at Rated Operating Conditions AC-3 per Pole 6 W
Operate Time
Between Coil De-energization and NO Contact Opening 15 ... 20 ms | Between Coil Energization and NO Contact Closing 20 ... 35 ms
Connecting Capacity Main Circuit
Flexible 2 x 10 ... 70 mm² | Rigid Cu-Cable 1 x 10 ... 95 mm²
Connecting Capacity Auxiliary Circuit
Flexible with Ferrule 1x 0.75 ... 2.5 mm² | Flexible with Ferrule 2x 0.75 ... 2.5 mm² | Flexible with Insulated Ferrule 1x 0.75 ... 2.5 mm² | Flexible with Insulated Ferrule 2x 0.75 ... 2.5 mm² | Flexible 1x 0.75 ... 2.5 mm² | Flexible 2x 0.75 ... 2.5 mm² | Solid 1x 1 ... 4 mm² | Solid 2x 1 ... 4 mm² | Stranded 1x 1 ... 4 mm² | Stranded 2x 1 ... 4 mm²
Connecting Capacity
Flexible 1 x 10 ... 70 mm² | Flexible 2 x 10 ... 70 mm² | Rigid Cu-Cable 1 x 10 ... 95 mm²
Wire Stripping Length
Auxiliary Circuit 9 mm | Control Circuit 9 mm
Degree of Protection
acc. to IEC 60529, IEC 60947-1, EN 60529 Coil Terminals IP20 | acc. to IEC 60529, IEC 60947-1, EN 60529 Main Terminals IP00
Recommended Screw Driver
Main Circuit M6 | Control Circuit M3.5
Tightening Torque
Auxiliary Circuit 1 N·m | Cable Lug 9 N·m | Control Circuit 1 N·m | Main Circuit 8 N·m
Terminal Type
Double Clamp
Product Name
Block Contactor
Maximum Operating Voltage UL/CSA
Main Circuit 600 V
General Use Rating UL/CSA
(600 V AC) 160 A
Horsepower Rating UL/CSA
(200 ... 208 V AC) Three Phase 30 hp | (220 ... 240 V AC) Three Phase 40 hp | (440 ... 480 V AC) Three Phase 75 hp | (550 ... 600 V AC) Three Phase 100 hp
Tightening Torque UL/CSA
Auxiliary Circuit 9 in·lb | Control Circuit 9 in·lb | Main Circuit 71 in·lb
Full Load Amps Motor Use
(200 ... 208 V AC) Three Phase 92 A | (220 ... 240 V AC) Three Phase 104 A | (440 ... 480 V AC) Three Phase 96 A | (550 ... 600 V AC) Three Phase 99 A
Ambient Air Temperature
Close to Contactor Fitted with Thermal O/L Relay (0.85 ... 1.1 Uc) -25 ... 55 °C | Close to Contactor without Thermal O/L Relay (0.85 ... 1.1 Uc) -40 ... 70 °C | Close to Contactor for Storage -40 ... 70 °C
Maximum Operating Altitude Permissible
Without Derating 3000 m
Conflict Minerals Reporting Template (CMRT)
CMRT - Conflict Minerals Reporting Template
REACH Declaration
REACH - Letter of Confirmation for block contactors, contactor relays, installation contactors, mini contactors, mini contactor relays, thermal overload relays, electronic overload relays and related accessories
RoHS Information
RoHS II declaration for block contactors, installation contactors, mini contactors, mini contactor relays, thermal overload relays, electronic overload relays and related accessories
RoHS Status
Following EU Directive 2011/65/EU and Amendment 2015/863 July 22, 2019
Toxic Substances Control Act - TSCA
Toxic Substances Control Act (TSCA) declaration for Contactors
WEEE B2C / B2B
Business To Business
WEEE Category
5. Small Equipment (No External Dimension More Than 50 cm)
ABB EcoSolutions
Yes
ABB Site Meeting Group Waste To Landfill Target
Non-hazardous waste is sent to a landfill, where there is no alternative option available within 100km of a facility
End Of Life Disassembling Instructions
End-of-life instruction - AF(S)116(B)-**(RT) to AF(S)205(B)-**(RT)
Environmental Product Declaration - EPD
Environmental Product Declaration, AF(S)116-AF(S)146 (SE) Contactors
Improved Energy Efficiency for Customers
Product Efficiency - Product requires less energy to operate compared to similar product on market or older products from the same line
Recyclability Rate of the Product acc. to EN45555
Design for Closing Resource Loops - Standard EN45555 - 87.8 %
Sustainable Material Content in Product (wt. %)
Recycled Metal - 37 %
A2L Certificate – UL
UL Certificate of Compliance A2L, Contactor, AF116 - AF146
Declaration of Conformity - CE
CE Declaration of Conformity - Contactor - AF116...AF370
Declaration of Conformity - UKCA
UK Declaration of Conformity - Contactors >100A
UL Certificate
cULus Certificate, Contactor, AF116-30...AF146-30, AFS116-30...AFS146-30
Package Level 1 Units
box 1 piece
Package Level 1 Width
207 mm
Package Level 1 Depth / Length
216 mm
Package Level 1 Height
150 mm
Package Level 1 Gross Weight
1.75 kg
Package Level 1 EAN
7320500560501
Object Classification Code
Q
ETIM 7
EC000066 - Power contactor, AC switching
ETIM 8
EC000066 - Power contactor, AC switching
ETIM 9
EC000066 - Power contactor, AC switching
eClass
V11.0 : 27371003
UNSPSC
39121529
IDEA Granular Category Code (IGCC)
4758 >> Iec Contactors
AF technology provides rapid coil response and integrated surge protection, delivering measurable reductions in panel inrush and energy consumption while improving network stability. This translates to safer, faster motor startup and improved process uptime in conveyors and pumps. The 3P 690 V main circuit, with AC-3 and AC-1 ratings up to 116 A, supports a wide range of motor sizes, making it suitable for general purpose and heavy-duty drives in manufacturing. The block contactor uses a double clamp terminal design for robust, vibration-resistant wiring and straightforward maintenance, while the IP ratings (IP20 coil terminals; IP00 main terminals) support safe field installation in control cabinets. Compatibility with auxiliary blocks and a broad accessory ecosystem enables you to tailor control circuits without swapping hardware. Reduced panel footprint and simplified spare parts stocking further lower total cost of ownership. Durable construction (5 million mechanical cycles) provides long service life in demanding environments. The AF116 family’s internal surge protection and UL/CSA, CE, UKCA compliance help meet strict industry standards and customer requirements. Robust performance, reliable operation, and modular expandability address common objections about scalability and maintenance costs.

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FAQs

Plan for control panel integration with space optimized mounting, ensuring coil terminals are protected from incidental contact and that main terminals are secured with the recommended tightening torques. Use the appropriate flexible or rigid conductors within the specified cross‑section range, and consider expanding functionality with add‑on auxiliary blocks to minimize wiring complexity in multi‑function drives.
AF technology provides faster coil response and built‑in surge protection, which reduces inrush, shortens motor start times, and stabilizes operation in networks with voltage fluctuations. This translates to lower energy losses during switching, enhanced motor protection during transients, and improved overall drive efficiency in light to heavy duty motor control applications.
Yes. The AF contactor is designed for modularity and can be extended with auxiliary contact blocks and a broad range of accessories, enabling customization of control circuits without replacing the base device. This simplifies upgrades, improves diagnostics, and supports scalable control architectures for evolving automation needs.
The device carries CE and UL/CSA certifications and can be UKCA compliant where applicable. It also supports RoHS and REACH declarations, and ABB provides associated UL certificates and declarations of conformity to align with global regulatory requirements for electrical protection and motor control products.
The combination of reduced energy consumption from faster, smoother switching and built‑in surge protection lowers operating costs over time. Modularity with accessory compatibility reduces spare parts diversity and simplifies maintenance, while high mechanical durability minimizes replacement cycles. Overall, expect lower lifecycle costs and improved uptime in motor‑driven processes.