ABB 3GFT352720-ADB High dynamic performance motors - IP23
Part Number: 3GFT352720-ADB
Quick Summary
ABB 3GFT352720-ADB High dynamic performance motor is a robust solution delivering precise torque and rapid speed response for demanding automation tasks in packaging, metalworking, and process lines. Engineers often struggle with downtime, energy waste, and inconsistent starting performance; this motor addresses those pain points with a rugged welded steel frame and a compact 355 mm footprint. Key certifications include IP23 protection for versatile indoor/outdoor use, IC06 insulation for reliable heat management, and WEEE compliance supporting sustainable manufacturing. The design integrates with ABB drive platforms, enhancing compatibility with modern controls and delivering predictable efficiency gains, while enabling longer maintenance intervals and lower lifecycle costs in capital-intensive manufacturing environments.
Product Information
ABB Type Designation
M3FT 355B 4
Invoice Description
M3FT 355B 4
Product Name
High dynamic performance motors
Product Type
3FTB__M3FT__HDP__IP23_
Made To Order
No
Minimum Order Quantity
1 piece
Order Multiple
1 piece
Selling Unit of Measure
piece
Country of Origin
Finland (FI) | China (CN)
Customs Tariff Number
85015394
Electrical Data
Temperature Class Default
--
Motor Operational Voltage
370 V
Operating Frequency (fsw)
17.200 Hz
Altitude
1000 m
Ambient Temperature
40 °C
IC Class
IC06
IE Class Data (50 Hz)
IE Class NA | Full Load (100%) 90.4 % | Partial Load (75%) 92.3 % | Partial Load (50%) 93.8 %
IP Class
IP23
Insulation Class
ICLH
Direction of Rotation
Both sides
Number of Poles (High)
4
Two Speed Motor
No
Type of Duty
S9
Voltage Code
D
Frame Material
Welded Steel
Frame Size
355
Bearing
6326M/C3
Bearing NDE
6322/C3VL0241
IM Class
IMB3 IM1001
Terminator Box Location
D-End top
Package Level 1 Units
0 pallet (lift)
Product Net Weight
3700 kg
Gross Weight
3730 kg
WEEE Category
4. Large Equipment (Any External Dimension More Than 50 cm)
UNSPSC
26101100
High dynamic performance is enabled by the 4-pole design and the rigid 355 frame, delivering stable torque across rapid speed changes. This translates to smoother starts, faster ramp rates, and reduced cycle times on conveyors, pumps, and machine tools in demanding environments. The M3FT family designation and the ABB heritage ensure integration with standard drives, controls, and motor protection schemes, reducing development time for new lines and enabling tighter motor control within existing automation architectures. IP23 protection combined with a welded steel frame provides reliable operation in typical factory environments, while the 370 V operating voltage broadens compatibility with regional power systems. The unit’s D-End top terminator box simplifies wiring and service access, and its 355 frame mates with common coupling and mounting patterns. With an operating altitude up to 1000 m and ambient temperature up to 40 °C, it remains robust in challenging plant floors and busy production halls. Energy performance is competitive, with IE Class NA data showing Full Load efficiency around 90.4%, and partial-load figures of 92.3% at 75% and 93.8% at 50% load. These figures translate into meaningful energy savings over the motor lifecycle and contribute to lower operating costs for continuous-process applications. The motor’s insulation class ICLH supports higher heat tolerance, while the IC06 class helps manage thermal rise in demanding duty cycles. Mechanical design emphasizes longevity and serviceability: welded steel frame, 6326M/C3 bearings, and IMB3 IM1001 mounting simplify installation and align with common maintenance practices. The bearing arrangement and robust enclosure reduce wear in high-cycle applications, while the 1-piece MOQ and straightforward ordering support efficient project planning. With a net weight of 3700 kg and a gross weight of 3730 kg, this unit handles heavy-load applications while maintaining installation stability. Environmental and regulatory alignment is straightforward: UNSPSC 26101100, WEEE category 4, and country-of-origin notes (Finland/China) help with sourcing, compliance, and lifecycle planning. The combination of standard parts, documented specifications, and widely used terminal-box access points ensures compatibility with existing ABB ecosystems and minimizes integration risk in complex plant environments.
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FAQs
Install the 355 frame on a solid base, connect to a 370 V three-phase supply, and use a compatible ABB drive or soft starter. Take advantage of the D-End top terminal box for straightforward wiring access, ensure frame alignment with standard couplings, and verify mounting compatibility with IMB3 IM1001. Consider altitude up to 1000 m and ambient temperature up to 40 °C during commissioning.
This motor reports IE Class NA efficiency with Full Load around 90.4%. At partial loads, efficiency remains strong: about 92.3% at 75% load and 93.8% at 50% load. These figures support energy savings across continuous processes and align with common industrial duty cycles for pumps and conveyors.
Yes. The motor is designed for continuous heavy-duty service (S9 duty) with a robust welded steel frame, 4-pole configuration, and a 355 frame size. Its IP23 enclosure and insulation class ICLH accommodate demanding environments, while the bearing and mounting system (6326M/C3, IMB3 IM1001) support reliable, long-term operation in high-cycle applications.
Key certifications include IP23 protection for versatile use, IC06 insulation class for thermal management, and WEEE compliance supporting responsible recycling. The product also lists UNSPSC 26101100 for procurement categorization, with country of origin noted as Finland (FI) or China (CN), aiding regulatory and supply-chain considerations.
The combination of a rugged welded steel frame, robust bearings (6326M/C3) and reliable IM mounting reduces wear and maintenance frequency in high-cycle operations. The compatibility with ABB drive ecosystems and stable efficiency contributes to lower energy costs and predictable performance, delivering a lower total cost of ownership over the motor’s service life.