ABB 1SFL607002R3111 Contactor - 1000 V IEC/UL

Part Number: 1SFL607002R3111
1SFL607002R3111
Manufacturer
ABB
Part number
1SFL607002R3111
Category

Quick Summary

The ABB 1SFL607002R3111 Contactor enables reliable motor control in industrial drives. Manufacturers commonly battle voltage fluctuations that cause mistimed switching and wasted energy in control panels. With AF technology, this 3-pole contactor accepts a wide control voltage range and features built-in surge protection, simplifying installation and improving reliability. Certification coverage includes CE and UL with UKCA alignment, supporting global deployment across safety and compliance regimes. In addition to its high-voltage capability, the unit is designed for efficient panel integration and long-term operation within modern automation environments, making it a strong fit for motor protection and control in industrial applications.

Product Information

Extended Description

1SFL607002R3111 ABB: The AF370-30-11-31 is a 3 pole - 1000 V IEC or 600 V UL contactor with Main Circuit Bars, controlling motors up to 200 kW / 400 V AC (AC-3) or 300 hp / 480 V UL and switching power circuits up to 600 A (AC-1) or 520 A UL general use. Thanks to the AF technology, the contactor has a wide control voltage range (24-60 V 50/60 Hz and 20-60 V DC), managing large control voltage variations, 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)190 ... AF(S)370
CAD Dimensional Drawing
Information - 2D and 3D files for CAD systems
Product Net Width
140 mm
Product Net Depth / Length
191 mm
Product Net Height
225 mm
Product Net Weight
3.9 kg
Number of Main Contacts NO
3
Number of Main Contacts NC
0
Number of Auxiliary Contacts NO
1
Number of Auxiliary Contacts NC
1
Number of Poles
3P
Rated Operational Voltage
Main Circuit 1000 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 600 A
Rated Operational Current AC-1 (Ie)
(1000 V) 40 °C 400 A | (1000 V) 60 °C 350 A | (1000 V) 70 °C 290 A | (690 V) 40 °C 600 A | (690 V) 60 °C 500 A | (690 V) 70 °C 400 A
Rated Operational Current AC-3 (Ie)
(415 V) 60 °C 370 A | (440 V) 60 °C 370 A | (500 V) 60 °C 350 A | (690 V) 60 °C 315 A | (1000 V) 60 °C 141 A | (380 / 400 V) 60 °C 370 A | (220 / 230 / 240 V) 60 °C 370 A
Rated Operational Power AC-3 (Pe)
(415 V) 200 kW | (440 V) 200 kW | (500 V) 250 kW | (690 V) 315 kW | (1000 V) 200 kW | (380 / 400 V) 200 kW | (220 / 230 / 240 V) 110 kW
Rated Breaking Capacity AC-3
8 x Ie AC-3
Rated Making Capacity AC-3
10 x Ie AC-3
Rated Short-time Withstand Current Low Voltage (Icw)
at 40 °C Ambient Temp, in Free Air, from a Cold State 10 s 2960 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 15 min 600 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 1 min 1208 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 1 s 3700 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 30 s 1709 A
Maximum Breaking Capacity
cos phi=0.45 (cos phi=0.35 for Ie > 100 A) at 440 V 5000 A | cos phi=0.45 (cos phi=0.35 for Ie > 100 A) at 690 V 4000 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 24 ... 60 V | 60 Hz 24...60 V | DC Operation 20...60 V
Coil Consumption
Holding at Max. Rated Control Circuit Voltage 50 Hz 9 V·A | Holding at Max. Rated Control Circuit Voltage 50 Hz 3 W | Holding at Max. Rated Control Circuit Voltage 60 Hz 9 V·A | Holding at Max. Rated Control Circuit Voltage 60 Hz 3 W | Holding at Max. Rated Control Circuit Voltage DC 3.5 W | Pull-in at Max. Rated Control Circuit Voltage 50 Hz 475 V·A | Pull-in at Max. Rated Control Circuit Voltage 60 Hz 475 V·A | Pull-in at Max. Rated Control Circuit Voltage DC 400 W
Power Loss
at Rated Operating Conditions AC-1 per Pole 72 W | at Rated Operating Conditions AC-3 per Pole 27 W
Operate Time
Between Coil De-energization and NO Contact Opening 45 ... 80 ms | Between Coil Energization and NO Contact Closing 30 ... 60 ms
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 2 x 70 ... 185 mm² | Rigid Al-Cable 1 x 185 ... 240 mm² | Rigid Cu-Cable 2 x 70 ... 185 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 M10 | Control Circuit M3.5
Tightening Torque
Auxiliary Circuit 1 N·m | Cable Lug 28 N·m | Control Circuit 1 N·m | Main Circuit 22 ... 43 N·m
Terminal Type
Main Circuit: Bars
Product Name
Block Contactor
Maximum Operating Voltage UL/CSA
Main Circuit 1000 V
General Use Rating UL/CSA
(1000 V AC) 520 A
Horsepower Rating UL/CSA
(200 ... 208 V AC) Three Phase 125 hp | (220 ... 240 V AC) Three Phase 150 hp | (440 ... 480 V AC) Three Phase 300 hp | (550 ... 600 V AC) Three Phase 350 hp
Tightening Torque UL/CSA
Auxiliary Circuit 9 in·lb | Control Circuit 9 in·lb | Main Circuit 372 in·lb
Full Load Amps Motor Use
(200 ... 208 V AC) Three Phase 359 A | (220 ... 240 V AC) Three Phase 360 A | (440 ... 480 V AC) Three Phase 361 A | (550 ... 600 V AC) Three Phase 336 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)265(B)-**(RT) to AF(S)370(B)-**(RT)
Environmental Product Declaration - EPD
Environmental Product Declaration, Contactors, AF(S)265-AF(S)370 (SE)
Improved Energy Efficiency for Customers
Product Efficiency - Product considered more energy-efficient 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 - 76.3 %
Sustainable Material Content in Product (wt. %)
Recycled Metal - 33 %
A2L Certificate – UL
UL Certificate of Compliance A2L, Contactor, AF190 - AF370
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, AF265, AF305, AF370, AX260, AX300, AX370, AFS265, AFS305, AFS370
Package Level 1 Units
box 1 piece
Package Level 1 Width
263 mm
Package Level 1 Depth / Length
203 mm
Package Level 1 Height
289 mm
Package Level 1 Gross Weight
4.6 kg
Package Level 1 EAN
7320500561904
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
Feature → Business Impact → Application: AF technology coil tolerance (24-60 VAC, 20-60 VDC) allows operation across fluctuating control voltages, reducing panel energy waste and lowering commissioning costs in automation cabinets. This translates to more stable motor start/stop sequences for conveyors and process lines, delivering improved uptime. Feature → Main circuit construction with bars and 3P topology enables high current handling up to 370 A at 690 V and 141 A at 1000 V, supporting motor drives up to ~200 kW. This ensures compact, scalable panel designs for heavy-duty fans and pumps. Feature → Built-in surge protection and compact AF block design simplify installation and maintenance, reducing field wiring and risk of nuisance trips. Application: Ideal for centralized motor control in packaging, steel, and water treatment plants where space and reliability matter. Feature → Wide control voltage range (24–60 V AC, 24–60 V DC) and low coil consumption improve energy efficiency in soft-start and remote control scenarios, decreasing heat load in electrical rooms. Application: Suitable for energy-conscious manufacturing lines and OEM integrators seeking low-energy control solutions. Feature → Auxiliary contact blocks (NO/NC) and extendable accessories enable flexible logic and interlocking schemes, reducing the need for additional relays. Application: Streamlined control architectures in machine centers and automated systems. Feature → Mechanical durability and UL/CSA, CE, UKCA certifications ensure compliance and long service life in harsh environments. Application: Industrial panels in global facilities requiring standardized safety and performance across markets.

Get a Quick Quote for a ABB 1SFL607002R3111

Chat with us on WhatsApp - fast responses guaranteed

Need to speak with someone? We'll call you back within 2 hours during business hours

Interested in ABB 1SFL607002R3111? Enquire Now

FAQs

For installation, position the contactor with the main circuit terminals accessible for lug or bar connections, and ensure the coil terminals are wired to a control circuit within the 24–60 V range. Use the recommended clearances and torque values to avoid overheating. Consider adding auxiliary contact blocks for interlocks to suit your machine logic.
AC-1 ratings include up to 600 A at 690 V in some configurations, with AC-3 ratings reaching up to 370 A at 690 V and 200 kW at 1000 V. This makes the device suitable for starting and switching inductive loads like motors in typical industrial drives. Always verify exact Ie values for your voltage and ambient conditions.
Yes, the AF370-series contactor supports motor protection and control for motors up to approximately 200 kW at 400 V AC (AC-3). The design accommodates a wide voltage range for the coil and includes surge protection, enabling reliable operation in variable networks and during peak starting transients.
The product is covered by CE Declarations, UL/CSA certifications, and UKCA alignment for appropriate markets. These certifications certify electrical safety, performance, and regulatory compliance for global deployment in industrial automation and electrical protection applications.
Upgrading to AF contactors can reduce energy losses from coil hold and inrush, improve system reliability with built-in surge protection, and shorten maintenance cycles due to robust block design. The result is lower energy consumption, fewer trips, and faster commissioning—particularly beneficial in high-cycle applications like conveyors and pumps.