ABB 1SBX209321R1222 Reversing Contactor - IEC/EN 60947-4-1

Part Number: 1SBX209321R1222
1SBX209321R1222
Manufacturer
ABB
Part number
1SBX209321R1222
Category

Quick Summary

ABB 1SBX209321R1222 reversing contactor enables reliable motor direction control for industrial automation and conveyor systems. Engineers often struggle with coil voltage compatibility and wiring clarity in compact control panels, which can slow commissioning. This device complies with IEC/EN 60947-4-1 and UL/CSA standards, delivering robust performance in hazardous environments while maintaining easy DIN rail mounting. By integrating compatible coil voltages of 48–130 V and a 690 V main circuit rating, it offers a scalable solution that reduces spare part diversity, speeds maintenance, and improves overall machine uptime. The combination of industry standards and ABB quality supports safer, compliant, and cost-effective automation projects.

Product Information

Extended Description

1SBX209321R1222 ABB: AF52R-30-22-12 48-130V50/60HZ-DC Reversing Contactor
Minimum Order Quantity
1 piece
Instructions and Manuals (Part 2)
Contactors and Overload relays guide
CAD Dimensional Drawing
Information - 2D and 3D files for CAD systems
Product Net Width
110 mm
Product Net Depth / Length
144 mm
Product Net Height
151 mm
Product Net Weight
2.386 kg
Number of Main Contacts NO
3
Number of Main Contacts NC
0
Number of Auxiliary Contacts NO
2
Number of Auxiliary Contacts NC
2
Number of Poles
3P
Standards
IEC/EN 60947-1, IEC/EN 60947-4-1, UL 60335-2-40 LZGH2 A2L, UL 60947-1, UL 60947-4-1, CSA C22.2 No. 60335-2-40 LZGH2 A2L, CSA C22.2 No. 60947-1:22, CSA C22.2 No. 60947-4-1:22
Rated Operational Voltage
Auxiliary Circuit 690 V | Main Circuit 690 V
Rated Frequency (f)
Auxiliary Circuit 50 / 60 Hz | Control Circuit 50 / 60 Hz | Main Circuit 50 / 60 Hz
Rated Operational Current AC-1 (Ie)
(1000 V) 60 °C 80 A | (690 V) 40 °C 100 A | (690 V) 70 °C 70 A
Rated Operational Current AC-3 (Ie)
(415 V) 60 °C 53 A | (440 V) 60 °C 53 A | (500 V) 60 °C 45 A | (690 V) 60 °C 35 A | (380 / 400 V) 60 °C 53 A | (220 / 230 / 240 V) 60 °C 53 A
Rated Operational Current AC-3e (Ie)
(415 V) 60 °C 53 A | (440 V) 60 °C 53 A | (500 V) 60 °C 45 A | (690 V) 60 °C 35 A | (380 / 400 V) 60 °C 53 A | (220 / 230 / 240 V) 60 °C 53 A
Rated Operational Current AC-15 (Ie)
(500 V) 2 A | (690 V) 2 A | (24 / 127 V) 6 A | (220 / 240 V) 4 A | (400 / 440 V) 3 A
Rated Operational Current DC-13 (Ie)
(24 V) 6 A / 144 W | (48 V) 2.8 A / 134 W | (72 V) 1 A / 72 W | (110 V) 0.55 A / 60 W | (125 V) 0.55 A / 69 W | (220 V) 0.27 A / 60 W | (250 V) 0.27 A / 68 W | (400 V) 0.15 A / 60 W | (500 V) 0.13 A / 65 W | (600 V) 0.1 A / 60 W
Rated Operational Power AC-3 (Pe)
(415 V) 30 kW | (440 V) 30 kW | (500 V) 30 kW | (690 V) 30 kW | (380 / 400 V) 22 kW | (220 / 230 / 240 V) 15 kW
Rated Operational Power AC-3e (Pe)
(415 V) 30 kW | (440 V) 30 kW | (500 V) 30 kW | (690 V) 30 kW | (380 / 400 V) 22 kW | (220 / 230 / 240 V) 15 kW
Rated Short-time Withstand Current Low Voltage (Icw)
at 40 °C Ambient Temp, in Free Air, from a Cold State 10 s 600 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 15 min 110 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 1 min 250 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 1 s 1000 A | at 40 °C Ambient Temp, in Free Air, from a Cold State 30 s 350 A | for 0.1 s 140 A | for 1 s 100 A
Maximum Breaking Capacity
cos phi=0.45 (cos phi=0.35 for Ie > 100 A) at 440 V 950 A | cos phi=0.45 (cos phi=0.35 for Ie > 100 A) at 690 V 600 A
Rated Insulation Voltage (Ui)
acc. to IEC 60947-4-1 690 V | acc. to IEC 60947-5-1 690 V | acc. to UL/CSA 600 V
Rated Impulse Withstand Voltage (Uimp)
6 kV
Maximum Electrical Switching Frequency
(AC-15) 1200 cycles per hour | (DC-13) 900 cycles per hour
Rated Control Circuit Voltage (Uc)
50 Hz 48 ... 130 V | 60 Hz 48 ... 130 V | DC Operation 48 ... 130 V
Coil Consumption
Average Holding Value 50 / 60 Hz 4 V·A | Average Holding Value 50 Hz 4 V·A | Average Holding Value 60 Hz 4 V·A | Average Holding Value DC 2 W | Average Holding Value, from Warm State 2 W
Power Loss
at 6 A per Pole 0.1 W | at Rated Operating Conditions AC-1 per Pole 6.3 W | at Rated Operating Conditions AC-3 per Pole 1.7 W
Mounting on DIN Rail
TH35-15 (35 x 15 mm Mounting Rail) acc. to IEC 60715 | TH35-7.5 (35 x 7.5 mm Mounting Rail) acc. to IEC 60715
Mounting by Screws (not supplied)
2 x M4 or 2 x M6 screws placed diagonally
Connecting Capacity Main Circuit
Flexible with Ferrule 1/2x 4 ... 35 mm² | Flexible with Insulated Ferrule 1/2x 4 ... 35 mm² | Rigid Stranded 1/2x 6 ... 35 mm²
Connecting Capacity Control Circuit
Flexible with Ferrule 1/2x 0.75 ... 2.5 mm² | Flexible with Insulated Ferrule 1x 0.75 ... 2.5 mm² | Flexible with Insulated Ferrule 2x 0.75 ... 1.5 mm² | Rigid Solid 1/2x 1 ... 2.5 mm² | Rigid Stranded 1/2x 1 ... 2.5 mm²
Wire Stripping Length
Auxiliary Circuit 10 mm | Control Circuit 10 mm | Main Circuit 16 mm
Degree of Protection
acc. to IEC 60529, IEC 60947-1, EN 60529 Main Terminals IP10
Recommended Screw Driver
Pozidriv PZ
Tightening Torque
Auxiliary Circuit 1.2 N·m | Control Circuit 1.2 N·m | Main Circuit 4 N·m
Terminal Type
Screw Terminals
Product Name
Contactor Starter
Maximum Operating Voltage UL/CSA
Main Circuit 600 V
Connecting Capacity Main Circuit UL/CSA
Rigid Stranded 1/2x 10-2 AWG
Connecting Capacity Control Circuit UL/CSA
Rigid Solid 1/2x 18-14 AWG | Rigid Stranded 1/2x 18-14 AWG
Tightening Torque UL/CSA
Auxiliary Circuit 11 in·lb | Control Circuit 11 in·lb | Main Circuit 35 in·lb
Ambient Air Temperature
Close to Contactor Fitted with Thermal O/L Relay -40 ... 70 °C | Close to Contactor without Thermal O/L Relay -40 ... 70 °C | Close to Contactor for Storage -60 ... +80 °C
Pollution Degree
3
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)
A2L Certificate – UL
UL-US Certificate of Compliance AF40 ... AF96 3-pole contactors - UL 60335-2-40 Household and Similar Electrical Appliances - Safety - Part 2-40: Particular Requirements for Electrical Heat Pumps, Air-Conditioners and Dehumidifiers | UL-CA Certificate of Compliance AF40 ... AF96 3-pole contactors - CSA C22.2 No. 60335-2-40 Household and Similar Electrical Appliances - Safety - Part 2-40: Particular Requirements for Electrical Heat Pumps, Air-Conditioners and Dehumidifiers
CB Certificate
CB Certificate AF(S)40(B), (S)AF52(B), AF(S)65(B) 3 and 4-pole contactors
CCC Certificate
CQC Certificate, Contactor, AF*40-30-**-**, AF40-40-**-**, AF40-22-**-**, AF*52-30-**-**, AF52-40-**-**,AF*65-30-**-**, Made in France
UL Certificate
UL-US-L312527-1141-10303102-9 | UL-CA-L312527-4141-10303102-9
Package Level 1 Units
box 1 piece
Package Level 1 Gross Weight
2.586 kg
Package Level 1 EAN
3471523019997
ETIM 7
EC000010 - Combination of contactors
ETIM 8
EC000010 - Combination of contactors
ETIM 9
EC000010 - Combination of contactors
eClass
V11.0 : 27371003
UNSPSC
39121529
Feature → Business Impact → Application: 3-pole design with 3 main NO contacts and 2 NO / 2 NC auxiliary contacts enables compact, high-capacity motor control in single starter units, reducing panel space and wiring complexity. This translates to faster installation and lower wiring costs in packaging lines and process automation projects. Application: small to medium industrial machinery with 690 V main circuits and DC/AC control power. Feature → Business Impact → Application: 48–130 V control circuit support for both AC and DC operation provides flexibility across different control architectures, improving compatibility with existing PLC outputs and field devices. Application: machine tools and material handling where control voltage diversity is common. Feature → Business Impact → Application: DIN rail mounting TH35-15 or TH35-7.5 simplifies fixed-layout panel design and reduces mounting time. Application: automation cabinets with standardized rail systems. Feature → Business Impact → Application: screw terminals with flexible/ferrule and rigid conductor connections up to 35 mm² main circuit and 2.5 mm² control circuit enhances reliability under vibration, minimizing reworks and maintenance calls. Application: heavy-use conveyors and pumps. Feature → Business Impact → Application: Rated operational currents AC-3 up to 53 A and DC-13 values across multiple voltages deliver predictable switching performance for motor drives and heating equipment. Application: HVAC and manufacturing lines. Feature → Business Impact → Application: High insulation and impulse withstand ratings (Ui 690 V; Ui UL/CSA 600 V; Ui 600 V) ensure safe operation in complex electrical environments. Application: safety-critical installations. Feature → Business Impact → Application: Compact weight around 2.386 kg with dimensions 110 mm x 144 mm x 151 mm supports space-constrained panels without sacrificing performance. Application: small switchgear enclosures. Feature → Business Impact → Application: Wide ambient temperature range (-40 to 70 °C) reduces the need for cooling and expands application outdoors and harsh indoor environments. Application: process plants and outdoor equipment. Feature → Business Impact → Application: Comprehensive certificates (IEC/EN 60947-1, 60947-4-1, UL, CSA, CB) ensure streamlined compliance across regional manufacturing sites. Application: global product rollouts and integrator projects. Feature → Business Impact → Application: Power loss and coil consumption values provide predictable operating costs and thermal management in continuous duty cycles. Application: energy-conscious automation systems. Feature → Business Impact → Application: Terminal type and wiring guidelines (Screw Terminals, copper conductors) support robust field connections and straightforward maintenance. Application: retrofit projects and new builds alike.

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FAQs

For installation, ensure DIN rail mounting on TH35-15 or TH35-7.5 rails, use 2 x M4 or 2 x M6 screws diagonally for mounting, and connect the Main Circuit with flexible/or rigid conductors within 1/2x 6...35 mm² range. Control Circuit terminals accept 0.75...2.5 mm², and maintain proper stripping lengths to secure a reliable, vibration-resistant connection. This reduces commissioning time and downtime during maintenance.
The device supports AC-3 operation up to 53 A at rated voltages (example: 415–690 V) and DC-13 up to 0.27–0.55 A depending on the voltage (e.g., 24–600 V). It features a 690 V rated insulation voltage, a maximum short-time withstand current, and a 6 kV impulse withstand, enabling reliable switching for motor loads and load-current control while meeting IEC/EN 60947-4-1 and related standards.
Yes. It is designed for DIN rail mounting (TH35-15 and TH35-7.5) and features screw terminals for secure main and control connections. The compact dimensions (110 mm x 144 mm x 151 mm) and integrated mounting rails make it ideal for space-constrained panels, while retaining easy access for wiring and maintenance.
This contactor complies with IEC/EN 60947-1, IEC/EN 60947-4-1, UL 60335-2-40 (LZGH2 A2L) and CSA/CB listings. RoHS and REACH declarations confirm material compliance, and TSCA is acknowledged for safety. These certifications support global manufacturing and product approvals across regions.
The device offers reliable, heavy-duty switching with low loss (coil holding values as low as 2–4 W) and predictable power loss per pole. Its robust terminal connections, wide operating temperature range, and standardization with common rail systems reduce spare part diversity, shorten maintenance intervals, and improve system uptime, contributing to lower total cost of ownership in automation projects.