Motor Controllers

Home>Topics>Motor Controllers
Refine Results
  1. All
  2. Product
  3. Company
  4. Category
  5. Online Articles
  6. Magazine Articles
  1. Moving to smart motion controls

    An electronic evolution in aerospace and defense systems is causing a paradigm shift in motor control. By Courtney E. Howard An integral and essential, but often overlooked, component in mission- and safety-critical aerospace and defense systems is getting an upgrade. Engineers and systems integrators are causing a paradigm shift with the adoption of much more advanced and intelligent motor controls in land, sea, air, and space vehicles. Current and future vehicles, not to mention missions, rely on the precise, reliable, and repeatable movement of critical parts - gun turrets on ground combat vehicles, sensor gimbals packed with the latest electro-optical/infrared (EO/IR) technology on unmanned aircraft systems (UAS), actuators and control surfaces on commercial and military aircraft, and moving panels and instruments on satellites and other spacecraft. Modern motion The push toward more-electric, and even all-electric, vehicles is driving the need for intelligent motor controls. Engineers and systems integrators are incorporating more digital, electronic, intelligent, and automated systems in retrofit and forward-fit installations. Smart digital motor-control devices are taking the place of maintenance-intensive hydraulics. As hydraulic systems are phased out and more modern electric systems are ushered in, the need for intelligent motor control - encompassing the latest hardware and software - is stronger than ever. Smart motor controls are employed not only in the platforms and systems themselves, but also in the making of those solutions, such as in the control of robotic arms and other manufacturing equipment. In fact, the market for intelligent motor control centers - which house several individual motor controllers and associated power electronics - is forecast to reach $5.12 billion by 2018. The James Webb Space Telescope uses smart motor control devices from Moog. (Image: Northrop Grumman.) Growth in industrial automation is fueling the global demand for motor control centers (MCCs), according to market analysts at Frost & Sullivan in San Antonio, Texas. Intelligent MCCs (iMCCs) add remote diagnostic capabilities and features such as loss detection and predictive maintenance to the traditional MCC, helping to minimize maintenance costs, reduce equipment downtime, and bolster operator safety. Increased adoption of iMCCs is boosting overall market revenues, while MCCs are declining in revenue share because of the safety features and performance, according to authors of Frost & Sullivan's "Analysis of the Global Motor Control Centers Market" report. The percentage of customers that purchase higher-priced iMCCs is expected to rise in the long term, says Krishna Raman, Frost & Sullivan industrial automation & process control senior research analyst. "With iMCCs set to play an important role in the future of the market, manufacturers have to focus on rolling out these products. Manufacturers must develop iMCCs that can be easily integrated with other communication networks to allow customers to move to an integrated enterprise ecosystem." All-electric aircraft Lockheed Martin's F-35 Joint Strike Fighter (JSF) military combat jet and Boeing's 787 Dreamliner commercial jet are two prime examples of the move toward the all-electric aircraft. These more-electric military and commercial aircraft use sophisticated electronics and smart motor controls - rather than hydraulic equipment - in various areas, including primary flight control, high-lift, fuel, power, landing, and even propulsion systems. National Aeronautics and Space Administration (NASA) researchers at the NASA Langley Research Center in Hampton, Va., are tapping smart motor controls to advance distributed electric propulsion, the name given to ultra-quiet unmanned aircraft propulsion technology. The current technology test bed is the GL-10 Greased Lightning, a hybrid diesel-electric tiltwing unmanned aircraft that harnesses smart motor control technology to hover and fly forward and vertically - and do so quietly. The current all-electric, battery- powered demonstrator UAS is built at 50 percent scale, with a 10-foot wing span. The prototype sports 10 eight-horsepower electric engines powering 10 electric motor driven propellers: eight on the wing and two on the horizontal stabilizer. Propellers on the leading edge of the wing provide high-speed flow and lift on the wing, and also provide pitch, roll, and yaw control authority during the transition from hover to forward flight. The wings and horizontal stabilizer rotate with fixed motor pods to facilitate vertical take-off and landing (VTOL), as well as vertical flight, eliminating the need for ground support equipment such as launch catapults and landing catch mechanisms. Distributed electric propulsion on the GL-10 uses low-speed, 18-inch propellers in a speed frequency shifting approach: Digital motor controls spin each propeller at slightly different revolutions per minute (RPMs) to break up the harmonics and reduce noise. "We can fly this over at 100 feet without being able to hear it on the ground," explains Mark Moore, the GL-10's project lead at NASA Langley. "We're targeting package delivery and privacy, and no-noise-nuisance applications." NASA researchers anticipate that this technology can lead to the production and use of reduced-annoyance commercial UAS, as well as stealthy, covert intelligence, reconnaissance, and surveillance (ISR) aircraft. NASA's next distributed electric propulsion project will be a 3,000-pound, four-passenger aircraft with a 31-foot wing span. Smart motor control in space The Hubble Space Telescope (HST), launched into space 25 years ago, uses 57 actuators from Schaeffer Magnetics, now Moog Inc., for aperture door rotation and latching, high gain antenna deployment, solar panel latching, primary mirror optical figure control, secondary mirror pointing, optical filter selection for both guidance and observation, and even tape recorder drives for data storage. Today, Moog Inc.'s Space and Defense Group in East Aurora, N.Y., is providing more advanced and intelligent motor controls for the HST's replacement observatory - the James Webb Space Telescope (JWST), slated to launch in 2018. "Instead of one large primary mirror, JWST uses 18 hexagonal segments that create an effective 6.5-meter diameter primary mirror yielding over five times more light collecting area," a Moog representative describes. Adding to the motor control complexity, JWST will operate much further away from Earth than HST, away from the light and heat given off by the planet. JWST will operate in a very cold environment requiring rugged, specialized equipment and testing. The telescope's Near InfraRed Camera (NIRCam) uses Moog's cryogenic instrument actuators which allow for positioning while operating at very cold temperatures. Moog is also providing flight vibration dampening hardware in the Integrated Science Instrument Module (ISIM) to isolate loads into the large radiator panels that are critical for the cold operation of the instruments. Another area is the validation that Engineers used a Moog six degrees of freedom (6-DOF) micropositioning system, which moves a large optical payload, for ground testing and validation of the JWST Primary Mirror, to ensure the 18 mirrors will work together on the ground and in space. A combination of smart motor control and comprehensive software facilitates position control, interference avoidance, and data logging while operating in a vacuum at very cold temperatures. Military motor control The A400M multi-role, military air transport from Airbus Military in Barajas, Spain, turned heads during an impressive flight display at the 51st International Paris Air Show in Le Bourget, France, last month. Moog Inc. supplies flight controls for the new-generation military airlifter through approximately 2018. The Airbus Military A400M is designed for use in strategic, tactical, and in-theatre operations; offers more than twice the payload and volume of the transports it replaces; and boasts air- to-air refueling capabilities as a donor and receiver. Some of its unique features and functionality can be attributed to unique motor control devices. Moog is responsible for the design, manufacture, and integration of eight fly-by-wire servoactuators for control of the aircraft's primary flight surfaces. These include: conventional electrohydraulic actuators for the aileron, elevator, and certain spoilers, plus advanced technology electrohydrostatic actuators for positioning additional spoiler panels. Multimission motion control Personnel from the U.S. Army's Indirect Fire Protection Capability (IFPC) Increment 2-Intercept Product Office and the Aviation and Missile Research, Development, and Engineering Center (AMRDEC) fired three missiles from a Launch Demonstration Unit to verify tube integrity and missile stack integration of the Multi-Mission Launcher (MML). The MML next-generation air defense launcher is built on an open system architecture and will be capable of launching a variety of interceptors for comprehensive air defense against a variety of unmanned and cruise missile threats. The truck-based system can be fixed or semi-fixed, and will hold 15 launch tubes able to be fired simultaneously at different threats. MML is designed with intelligent motor control hardware and software to provide 360-degree protection by targeting unmanned aircraft, cruise missiles, artillery, mortars, and rockets. NASA's GL-10 UAS can hover and fly vertically and forward with help from intelligent motor controls.David C. Bowman - NASA Langley Trust Automation Inc., a provider of standard and custom motion and motor control systems in San Luis Obispo, Calif., developed the elevation controller system for the MML. The Trust Automation controller interfaces with a heavy-duty, electro-mechanical actuation system to provide precise electronic motion control to the MML elevation axis. The use of digital signal processing (DSP) technology and complex, proprietary software algorithms enable synchronous control for the dual actuation system required to raise and lower the MML pallet, officials say. "These platforms remain critically important to our national defense and provide the critical resources required by our armed services," says Craig Von Ilten, vice president of business development for the defense industry at Trust Automation. The three test missile launches included: an Air Intercept Missile 9-X that intercepted an unmanned aerial vehicle (UAV) after launch, as well as a Low Cost Active Seeker and a Mini Hit-to-Kill interceptor that flew ballistic trajectories. The MML is on schedule and on budget to deliver two prototypes for an engineering demonstration in March 2016. The Army plans to field the system in 2019. "This, yet again, demonstrates a positive step forward for the MML," affirms AMRDEC Director James Lackey. "MML will be critical in providing expanded ground troop area protection capabilities by enabling kinetic kill lethality effects against a variety of advanced, airborne incoming threats." COMPANY INFO Alizem Levis, Quebec shop.alizem.com Altera Corp. San Jose, Calif. altera.com Data Device Corp. Bohemia, N.Y. ddc-web.com Fairchild Semiconductor Corp. San Jose, Calif. fairchildsemi.com Galil Motion Control Rocklin, Calif. galilmc.com Hansen Corp. Princeton, Ind. hansen-motor.com Honeywell Sensing and Control Golden Valley, Minn. sensing.honeywell.com Kollmorgen Radford, Va. kollmorgen.com Lin Engineering Morgan Hill, Calif. linengineering.com Maxon Motor USA Fall River, Mass. Maxonmotorusa.com Meggitt Control Systems North Hollywood, Calif. meggitt.com Microchip Technology Chandler, Ariz. microchip.com Micromo Clearwater, Fla. Micromo.com Microsemi SoC Mountain View, Calif. microsemi.com Moog Milpitas, Calif. moog.com National Instruments Austin, Texas ni.com/motion North Atlantic Industries Bohemia, N.Y. naii.com Performance Motion Devices Boxborough, Mass. pmdcorp.com Rockwell Automation Milwaukee, Wis. rockwellautomation.com Sensitron Hauppauge, N.Y. Sensitron.com Texas Instruments Dallas ti.com Trust Automation San Luis Obispo, Calif. trustautomation.com Xilinx Inc. San Jose, Calif. xilinx.com UTC Aerospace Systems Charlotte, N.C. Utcaerospacesystems.com

    Magazine Articles

    Magazine Articles

    Thu, 16 Jul 2015

  2. Motor controllers

    Motor controllers

    Category

    Category

    Wed, 19 Dec 2012

  3. MSK's Motor Controllers

    Offers high performance parts. Output current from 5 amps to 800 amps, supply voltage range from 55 volts to 1200 volts both hermetic and plastic encapsulated modules (PEM) available.

    Product

    Product

    Tue, 13 Mar 2012

  4. Sensitron Semiconductor

    Manufactures high reliability power electronic solutions including motor controllers , smart power management and conversion, diodes and voltage protection components and embedded boards. Sensitron has over 40 years heritage of serving the complete spectrum of reliability markets including space, ...

    Company

    Company

    Thu, 22 Jan 2015

    MAE

  1. Solitron Devices Inc

    Company

    Company

    Fri, 21 Nov 2014

    MAE

  2. Motor Control Solutions

    Sensitron integrated COTS motor control solutions including Fully Integrated Motor Controllers with Ethernet, CAN, Discrete or Analog Controls, MOSFET and IGBT Drivers, 3-Phase BLDC, and Field Oriented Controllers.

    Product

    Product

    Wed, 11 May 2011

  3. International Rectifier

    Designs, develops, and manufactures high-reliability power conversion solutions for space, military, commerical aircraft, heavy-duty industrial, and medical markets. Offers radiation-hardened, high-temperature, and standard hybrid DC/DC converters with built-in EMI filtering. All are available with ...

    Company

    Company

    Tue, 17 Feb 2015

    MAE

  4. Axiomatic Technologies Corp

    Designs and manufactures CAN networked electronic controls, gateways, I/O, valve drivers, angle sensors, displays, resolvers, DC/DC converters, LVDT simulators, battery chargers, motor controllers , transient surge suppressors, and current/voltage/PWM converters.

    Company

    Company

    Fri, 3 Jan 2014

    MAE

  5. Power is paramount

    Warfighters in the field rely on novel power electronics to drive mission-critical systems.

    Magazine Articles

    Magazine Articles

    Sat, 1 May 2010

  6. Power is paramount

    Warfighters in the field rely on novel power electronics to drive mission-critical systems.

    Magazine Articles

    Magazine Articles

    Sat, 1 May 2010

  7. IR offers testing services for COTS components used in mil-aero applications

    EL SEGUNDO, Calif., 14 March 2009. International Rectifier (IR)'s HiRel Business Unit has launched Testing Services to customers seeking critical electrical, reliability, and qualification testing. IR's new suite of testing services addresses the growing need for electrical and environmental ...

    Online Articles

    Online Articles

    Sat, 14 Mar 2009

  8. Power control is trickier than it used to be

    Power-electronics designers customize components to be fast, light, and inexpensive as systems integrators shift their priorities from performance at any price to making difficult tradeoffs between cost and performance.

    Magazine Articles

    Magazine Articles

    Thu, 1 Jul 2004

Get More Results