Schneider Electric BRS Series Single Shaft Stepper Motor, 4.52Nm Torque, 325 V, 1.8°, 85 x 85mm Frame, 12mm Shaft

Subtotal (1 unit)*

£1,256.29

(exc. VAT)

£1,507.55

(inc. VAT)

Add to Basket
Select or type quantity
New product - Preorder today
  • Shipping from 28 November 2025
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Units
Per unit
1 +£1,256.29

*price indicative

RS Stock No.:
653-896
Mfr. Part No.:
BRS39AW360FCA
Brand:
Schneider Electric
Find similar products by selecting one or more attributes.
Select all

Brand

Schneider Electric

Stepper Motor Type

Single Shaft

Step Angle

1.8°

Holding Torque

4.52Nm

Supply Voltage

325 V

Frame Size

85 x 85mm

Shaft Diameter

12mm

Series

BRS

COO (Country of Origin):
FR
The Schneider Electric Stepper motor is designed to deliver precise motion control in various applications. Boasting a robust 3-phase architecture, this motor features a nominal torque of 4.52 Nm and a maximum mechanical speed of 3000 rpm, ensuring reliable performance. Its compact design, with a shaft diameter of 12 mm and a length of 98 mm, makes it suitable for diverse mounting environments. Integrated with a holding brake, this motor enhances operational safety and stability during motion. Crafted to align with the Lexium SD3 series, it provides seamless compatibility, making it an ideal choice for motion control solutions in industrial settings.

High torque output of 4.52 Nm ensures effective performance
Rated for a maximum mechanical speed of 3000 rpm for rapid operation
Compact dimensions facilitate easy installation in constrained spaces
Incorporates a holding brake to improve system safety
Flange mounting support aids in versatile mounting options
Offers enhanced resolution options with multiple step angles ranging from 1.8° to 0.036°
Robust construction improves service life, rated at 20,000 hours for the bearing
Natural convection cooling method ensures efficient thermal management
IP41 and IP56 ratings protect against dust and moisture ingress
Environmentally considerate design with PVC-free materials

Related links