ABB’s Baldor-Reliance EC Titanium™ product line utilizes Ferrite Assisted Synchronous Reluctance (FASR) technology with non-rare earth magnet materials to meet and exceed IE5 efficiency. Suitable for constant and variable torque applications, the EC Titanium offers excellent performance across a wide speed load range and above base speed conditions.
“The EC Titanium™ product line is economic and efficient, even at partial loads where most fans operate,” says Mark Gmitro, Global Product Manager for variable speed motors, ABB. “The real advantage is that efficiency stays high at any speed; including operation above base speed, allowing for greater fan design optimization.”
The near unity power factor of the EC Titanium enables the use of smaller drives, reducing the footprint and weight of the integrated system. Additionally, the integrated motor drive solution saves considerable control panel space and reduces wiring costs by placing the drive on top of or on the opposite drive end of the motor.
Integrated motor drive models are ABB Ability™ ready with built in capability allowing building operators to have greater connectivity and transparency of their equipment.
The Baldor-Reliance EC Titanium™ product line is offered in standard NEMA dimensions and can be provided with IEC mounting compatibility. Ratings are available as a motor only option from 1 to 20 HP (0.75 – 15 kW), as an integrated motor with a top mount drive in ratings of 1 to 10 HP (0.75 – 7.5 kW), or axial mounted drive in ratings 1 to 7.5 HP (0.75 – 5.5 kW).
ABB (ABBN: SIX Swiss Ex) is a technology leader that is driving the digital transformation of industries. With a history of innovation spanning more than 130 years, ABB has four customer-focused, globally leading businesses: Electrification, Industrial Automation, Motion, and Robotics & Discrete Automation, supported by the ABB Ability™ digital platform. ABB’s Power Grids business will be divested to Hitachi in 2020. ABB operates in more than 100 countries with about 147,000 employees. www.abb.com