Stepper Motors
AM32482R070000
Two phase, 48 steps per revolution
Key data
- Holding torque at boosted current:
- 152 mNm
- Step angle (full step):
- 7.5 °
- Diameter:
- 32 mm
- Length:
- 42 mm
Advantages
- Cost effective positioning drive without encoder
- High power density
- Very high acceleration
- Extremely fast change of direction possible
- Long-lasting
- Wide operating temperature range
- Full-, half- and micro-stepping operation possible
- Extremely low rotor inertia
| Productcategory: | Stepper Motors | |
|---|---|---|
| Productfamily: | FAULHABER Stepper Motors | |
| Steps per revolution: | 48 | |
| Rotor inertia: | J | 900 ·10⁻⁹ kgm² |
| Angular acceleration: | αmax. | 169 ·10³ rad/s² |
| Thermal resistance Rth1: | Rth1 | 3.4 K/W |
| Thermal resistance Rth2: | Rth2 | 9 K/W |
| Thermal time constant (winding): | τw1 | 19 s |
| Thermal time constant (housing): | τw2 | 900 s |
| Housing material: | aluminium, black anodized | |
| Operating temperature, min.: | -35 °C | |
| Operating temperature, max.: | 70 °C | |
| Winding temperature, max.: | 130 °C | |
| Mass: | 160 g |
Download
3D-CAD Files
Datasheet
Technical Information
Application note
AN 001 - Stepper motor basics
AN 002 - Reading and understanding a torque curve
AN 003 - Drivers and controllers: how to drive a stepper motor?
AN 004 - When and why using an encoder
AN 005 - Stepper motors and Gearheads
AN 006 - How to get a linear motion from a stepper motor?
AN 006 - Lead Screw
AN 007 - Recommendations for soldering a cable on a stepper motor
AN 008 - Thermal behavior of a stepper motor
AN 009 - Choosing the proper lubricant
AN 010 - Cables and connectors options
AN 011 - Final quality control data
AN 012 - Custom solutions (A and E number)
AN 013 - Improving reliability: redundant stepper motor
AN 014 - Using the stepper motor HTML animation
AN 015 - Microstepping
AN 020 - Large DM Steppers connection
AN 022 - Torque and Temperature Calculator user guide