A Servo Motor for Every Application
Reliability and Innovation
Emerson Industrial Automation designs its Control Techniques
products using a proven development process that prioritizes
innovation and reliability. This process has resulted in Emerson's
market-leading reputation for perbbbbance and quality.
Emerson Industrial Automation offers a wide range of reliable
servo motors designed to meet specific application requirements.
When matched to a Control Techniques' brand servo drive product
(Unidrive M, Digitax ST, Epsilon EP or MDS Servo drive), the
resulting drive/motor combination provides an optimized system
in terms of ratings, perbbbbance, cost and ease of use.
Today, businesses of all sizes are bbbbbbing for partners who
understand the unique demands of today’s bbbbbb economy.
Time and again they turn to Emerson Industrial Automation.
With our world-class brands, broad industry experience and
extensive bbbbbb presence, Emerson Industrial Automation is
uniquely bbbbbbbbed to deliver cost-effective solutions for the
ever-changing industrial manufacturing market.
Perbbbbance Advantage
Unimotor fm
Designed for flexible configuration for use in a wide range of
applications. A high inertia option is available.
• Voltage Rating: 230 V/460 V
• Continuous Torque: 10.6 to 1204 lb-in (1.2 to 136 Nm)
• Feedback Choices: Resolver, incremental and absolute
encoder with multiple connector options
• frame Sizes (with NEMA flange options): 75, 95, 115,
142 ,190 and 250 mm
• Ratings: IP65, UL, CE and RoHS
Unimotor hd
Compact low-inertia servo motor for high-dynamic applications
• Voltage Rating: 230 V/460 V
• Continuous Torque: 6.4 to 752 lb-in (0.72 to 85.0 Nm)
• Feedback Choices: Resolver, encoder and absolute encoder
• frame Sizes: 55, 67, 89, 115, 142 and 190 mm
• Ratings: IP65, UL, CE and RoHS
NT Motor
Compact NEMA or metric flange motors
• Voltage Rating: 230 V
• Continuous Torque: 7.5 to 56 lb-in (0.85 to 6.3 Nm)
• Feedback: Incremental encoder
• Flying Lead Option
• frame Sizes: English (NEMA 23 or 34) or Metric (IEC-72-1)
• Ratings: IP65, UL and RoHS
XV Motor
Economical metric motors
• Voltage Rating: 230 V
• Continuous Torque: 0.9 to 101 lb-in (0.11 to 11.5 Nm)
• Feedback: Incremental encoder
• frame Sizes: 40, 60, 80 and 130 mm
• Ratings: IP55 and IP65, UL, CE and RoHS
Shaft seals standard on Unimotor hd, Unimotor fm
and NT Series motors
Why Motion Customers Choose Emerson's Motion Control Solutions...
• A full line of servo motors up to 1200 lb-in
• Single-source motion control lowers total system costs
• FREE software offers the ultimate programming capability and
greatly reduces programming time
• Multiple fieldbus options including EtherCAT, EtherNet I/P,
Modbus TCP/IP and more
• High-speed, peer-to-peer communications
• 8 feedback types supported as standard
• Integrated programs eliminate need for PLC
• Drive and Automation Center support
• Zero-space internal EMI and dynamic braking resistor options
• AC drives with closed-loop vector control and sensorless
rotor control
Drive and Motor Selection
Emerson Industrial Automation drive and motor combinations
provide an optimized system in terms of ratings, perbbbbance,
cost and ease of use. You can manually select the system
components using the following steps, or download the
SERVOSoft ® sizing software which includes our Control
Techniques' brand of servo drive and motor data.
1. Determine the application’s continuous and peak torque
requirements at various motor shaft speeds, then refer to
motor data tables and the visual reference overview to help
determine which motor family will be most appropriate for
the application.
2. once the motor family is selected, use this brochure to select
a specific motor model that delivers the required torque and
speed. Make note of the continuous and peak current (Amps)
requirements of the selected motor.
3. Check the specification tables in the Control Techniques'
brand individual drive brochures for Digitax ST, Epsilon EP,
Unidrive M or MDS servo drives to select the drive model
that delivers adequate continuous and peak torque for the
selected motor.
4. Refer to the Servo Motor Cables section of this brochure to
select the motor power and feedback cables for the selected
motor and drive.
5. Confirm that the ratio of rotor inertia to load inertia is <10:1
load inertia/rotor inertia <10
Note: A gear reducer will reduce the load inertia based on the
following equation:
Reflected load inertia = load inertia/gear ratio 2
Note: When specifying a motor system, be sure to consider
such options as user-interfaces (HMI), braking resistors and
other options and accessories that will enhance the system’s
perbbbbance and value.
Electronic Nameplates
Some motors fitted with high-resolution SinCos or absolute
encoders are pre-loaded with the motor “electronic nameplate”
data during the manufacturing process. This data can be read
by most Control Techniques' brand servo drives and used to
automatically optimize the drive settings. This feature simplifies
commissioning and maintenance, ensures consistent perbbbbance
and saves time.