• Offer Profile
  • AMSC generates the ideas, technologies and solutions that meet the world’s demand for smarter, cleaner … better energy.

    Through its Windtec Solutions, AMSC enables manufacturers to launch best-in-class wind turbines quickly, effectively and profitably. Through its Gridtec Solutions, AMSC provides the engineering planning services and advanced grid systems that optimize network reliability, efficiency and performance. The company’s solutions are now powering gigawatts of renewable energy globally and enhancing the performance and reliability of power networks in more than a dozen countries. Founded in 1987, AMSC is headquartered near Boston, Massachusetts with operations in Asia, Australia, Europe and North America.
Product Portfolio
  • GRIDTEC

  • AMSC's Gridtec Solutions are a set of engineering planning services and advanced grid systems that optimize network reliability, efficiency and performance from the point of generation through transmission and distribution.

    We supply components, systems and solutions to some of the industry's biggest names. From wind parks to solar power plants and from utilities to large industrial manufacturers, our commitment is to deliver the right solution for our customers, each and every time.

    Whether a simple component or complex system-level solution, we focus on ensuring that the investment is right, and right for you - delivering reliability, security, efficiency, scalability and tangible long-term benefits.

    For invaluable advice and compelling solutions, we are the partner you can turn to.
  • RENEWABLE INTERCONNECTIVITY SOLUTIONS

  • Renewable sources of energy will play a significant role in the future of power. Wind and solar installations continue to increase as utilities and power providers are looking for more sustainable, abundant and cleaner sources of energy.

    However, the intermittent nature of wind and solar can create voltage stability problems between the transmission system and the provider. In response, utilities and regulators are increasingly imposing strict grid interconnection requirements. Renewable energy producers must condition the power in order to interconnect with the power grid and not interfere with the grid’s overall performance.

    Our Renewable Interconnectivity Solutions enable wind and solar energy generation systems to meet these emerging requirements. We understand our customers’ needs and take a customized approach that results in a cost-effective solution. Our solutions enhance the ability of renewable energy power plants to stay online and help prevent the nuisance tripping of solar inverters and wind turbine generators. In turn, this helps maximize the power plant’s output, which leads to increased revenues. Our offerings include:
    • D-VAR® Systems

    • Ideal for meeting grid interconnection standards

      Located at the wind or solar plant substation, our D-VAR system cost effectively provides the critical dynamic reactive compensation essential to connect renewable power plants to the grid effectively and in compliance with even the most stringent interconnection requirements.
    • DVAR-RT™ Systems

    • In-turbine solution to improve ride-through ability

      Located inside individual turbine towers, our patent-pending DVAR-RT system can be easily and cost effectively added to new turbines or retrofitted to existing turbines. It enables individual wind turbines to continue operating smoothly by dramatically improving the ability of the turbines to ride through power grid voltage disturbances that might otherwise interrupt operation.
    • Wind-RT™ Systems

    • Simplest and most cost effective LVRT retrofit option
      Developed specifically to meet China’s grid codes, the Wind-RT retrofit system detects voltage dips on the power system and quickly (within 20 ms) isolates the turbine from the power grid. It then acts to precisely absorb the power generated by the wind turbine to maintain constant turbine speed and torque while providing reactive power to keep the turbine magnetized and at a constant voltage. Once the voltage recovers, the turbine is smoothly reconnected to the power grid, resulting in dramatically improved LVRT and more power generation.
  • More Gridtec Solutions

    • NETWORK PLANNING AND APPLICATIONS

    • Ensuring that transmission and distribution networks meet the needs of system operators often means dealing with a variety of vendors that have multiple sets of solutions.

      Given the challenges associated with defining a total system-optimized solution – from initial planning through equipment supply to final commissioning – it takes an organization with diverse capabilities to ensure success for the customer.

      AMSC’s Network Planning and Applications Group has the expertise and experience to help system owners and operators address these challenges. We work closely with utilities and energy developers to analyze power grid issues and engineer the right solutions. From a feasibility study or project concept, through system installation and commissioning, to model validation and grid code compliance, our team ensures that the solutions meet each customer’s unique application requirements.

      Network Planning and Applications Group: Planning, Design, Support, Solutions.
    • UTILITY REACTIVE POWER SOLUTIONS

    • Today’s utilities are faced with unprecedented challenges. Rapidly rising demand is coupled with the need to generate and deliver energy more efficiently, reliably and cost effectively, while also having minimum impact on the environment.

      As more renewable plants come online and new load centers continue to develop far away from the generation source, grid congestion is becoming more prevalent. These bottlenecks lead to power outages and grid disturbances that cost the economy billions of dollars every year.

      Our Utility Reactive Power Solutions are meeting these challenges head on and helping utilities deliver more power to customers. Our highly efficient, compact FACTS (Flexible AC Transmission Systems) solutions increase power flow through enhanced stability, availability, quality and reliability. Our utility-scale power electronics and expertise allow utilities to cost effectively manage their T&D networks while reducing transmission loss and minimizing environmental impact.

      Utility Reactive Power Compensation Solutions: Increase, Enhance, Improve.
    • SUPERCONDUCTOR CABLE SYSTEMS

    • In cities around the world, power demands are increasing. Space is limited. Electricity is essential. Economic growth is at stake.

      From North America to Europe to Asia, grand power networks are being planned. Wind and solar power must be carried vast distances. Power must be shared between disparate regions. Renewable energy targets may not be attained.

      AMSC’s Superconductor Power Cable Systems are available today to meet these pressing challenges. From system engineering to implementation – right down to the base superconductor technology itself, which uses AMSC’s Amperium™ wire – we offer the solutions. And we have partnered with industry leaders such as LS Cable, Nexans and Ultera to complete successful power cables projects in Asia, North America and Europe.

      From transmission to distribution and from alternating current (AC) to direct current (DC), we have the experience and the solutions to help grid operators meet rising power demands.

      Superconductor Power Cable Systems: Compact, Resilient, Smart, Powerful.
    • FAULT CURRENT LIMITERS

    • Stand-Alone Fault Current Limiters
      As electrical demand increases, more power generation must be added to the grid. Along with this growth in power generation comes increasing fault current levels. These power surges can be caused by equipment failures, severe weather, accidents or even acts of willful destruction. Such faults can damage major, expensive components and, if not cleared quickly, can lead to lengthy and costly outages.

      Used in a substation, fault current limiters (FCLs) act as surge protectors for the power grid. These smart grid systems can help protect the grid by reducing the destructive nature of faults, extending the life of existing substation equipment and allowing utilities to defer or eliminate equipment replacements or upgrades.

      Fault Current Limiting Cables

      Fault current limiting technology can also be embedded within power cable systems. An FCL cable can be used to connect existing substations, enabling power sharing between regions. This is a compelling proposition for utilities in that it ensures system redundancy for critical urban infrastructure, increases system reliability and mitigates power disruptions caused by environmental or human factors. We have successfully completed qualification tests at Oak Ridge National Laboratory in the U.S. for this proprietary technology.

      We have collaborated with industry leaders such as Nexans and Siemens to successfully develop and demonstrate FCL technology. Additionally, our Amperium™ superconductor wire can be tailored specifically for fault current limiting applications.

      Fault Current Limiters: Resilient, Reliable, Secure.
    • POWER QUALITY SOLUTIONS

    • Every year, billions of dollars in revenue are lost due to momentary power quality problems. The slightest variations in voltage can cause hours of downtime, resulting in lost productivity and the need to recalibrate equipment.

      Twenty-first century industrial companies are embracing automation, miniaturization and computer-controlled manufacturing processes to boost their productivity and be more competitive. However, advanced systems can be highly sensitive to even the briefest variations in electrical power quality. When this declines for even a few milliseconds, computer-driven devices can fail on several levels. Adjustable speed drives can stop, fuses can blow, lights can blink, motors can slow down and PLCs and other process control equipment can drop out – compromising your operations.

      Our Power Quality Solutions cost effectively provide efficiency, protection and secure connection, helping industrial facilities achieve smooth operation and realize their full profit potential. We offer modular, cost-effective power quality solutions for a variety of industrial applications.

      We routinely solve problems caused by starting up large motors, metal shredders and crushers; or operating sawmills, pump or pipeline stations, shipyards, coal mines, feed plants or similar processes.

      Power Quality Solutions: Stable, Reliable, Productivity.
  • WINDTEC

      • AMSC’s Windtec Solutions include a host of electronic controls and systems as well as wind turbine designs and engineering services that are relied upon by some of the world’s largest and most respected manufacturers.
        Our controls and systems – ranging from converter and control cabinets to advanced software systems – are maximizing turbine availability, reliability and energy output for thousands of wind turbines worldwide. We also are reducing the cost of wind energy by providing technology transfer of optimized electrical and mechanical wind turbine designs as well as component contract engineering services.

        From turbine conception to wind farm connection, AMSC’s knowledge, experience and performance provide a lasting competitive advantage.

        We can do all of this for you; we are the partner you can turn to.
  • DESIGNS

  • To maintain an edge in the highly competitive and dynamic wind industry, wind turbine manufacturers need differentiated solutions. To do this, manufacturers require the most advanced technology to ensure best energy harvest with their wind turbines and support their business development strategy.

    New and established wind turbine manufacturers rely on AMSC to collaborate on state-of-the-art wind turbine designs and stay competitive in a fast-moving market. With a range of offerings from 1.65 MW to 10 MW, AMSC provides enhanced turbine designs, tested and certified according to international standards, and complete electrical and mechanical wind turbine system designs for self-manufacturing.

    By licensing an AMSC wind turbine design, our partners also gain access to our experienced design and development professionals as well as supply chain development and localization support services. The end result is a holistic solution that is tailored to fit your specific needs to maximize power generation and your return on investment.
    Designs: Proven, Advanced, Differentiated, Optimized.
    • 1.65 MW - Capitalize on opportunities in emerging markets

    • Proven over a decade
      The wt1650df turbine is one of the world’s most tested megawatt-scale models available today for wind power generation. It is backed by 10 years of reliable  peration from thousands of wind turbines. The wt1650df is cost efficient to manufacture and utilizes state-of-the-art technologies, including an integrated drivetrain and the advanced wt82 rotor blade designed for self-manufacturing.

      High efficiency over the entire speed range
      The wt1650df wind turbine is equipped with a doubly-fed, three-phase induction generator. The IGBT-based converter with advanced power electronics ensures that the generator works with high efficiency over the entire range of wind speeds.

      Unique pitch system maximizes generation and reliability
      When wind speeds exceed rated speed, the advanced wt1650df pitch system quickly and smoothly adjusts the rotor blade angle to match the wind. If an overall pitch drive fault occurs, the integrated and patented SafetyLOCK™ system allows the blades to turn into a feathering position, even if electrical power is not available.

      Compliance with all grid codes
      The wt1650df wind turbines fulfill all international grid code requirements and have low voltage ride-through (LVRT) capability.

      Real-time information with continuous monitoring and alarm handling
      AMSC’s advanced wtCMS™ condition monitoring system provides continuous monitoring of the key system components. This gives operators real-time information about the turbine status as well as detailed and comprehensive analysis tools to optimize maintenance activities. The fully integrated system allows intelligent measurement, turbine control interaction and the analysis of monitoring and performance data. In addition, wtSCADA™ remote operation and wtDataCenter™ analyzing packages are available to provide a harmonized control system with supervisory control and data acquisition to actively monitor, analyze and operate entire wind farms.

      The 1.65 MW turbine is available in 50 Hz or 60 Hz and for all climate conditions, with 65 m, 70 m or 80 m hub heights.
    • 2.0 MW - Optimized power curves for maximum efficiency

    • The wt2000df (doubly-fed) and wt2000fc (full-scale conversion) models offer some of the most efficient power curves in the global wind market due to optimized integrated electric systems and blade designs. In addition, the wt2000 wind turbine fulfills all grid code requirements and offers real-time information through continuous monitoring.

      Optimized for top efficiency

      The wt2000’s platform’s optimized integrated electric systems and blade designs result in some of the most efficient power curves for initial class power generation today. The wt2000df features a doubly-fed, three-phase induction generator. The wt2000fc uses a synchronous generator (SG) and full-scale converter. The IGBT- based converter with advanced power electronics ensures that the generator works  with high efficiency over the entire range of wind speeds.

      Compliance with all grid codes

      The wt2000df and wt2000fc wind turbines fulfill all international grid code requirements and have low voltage ride-through (LVRT) capability.

      Real-time information with continuous monitoring and alarm handling

      AMSC’s advanced wtCMS™ condition monitoring system provides continuous monitoring of the key system components. This gives operators real-time information about the turbine status as well as detailed and comprehensive analysis tools to optimize maintenance activities. The fully integrated system allows intelligent measurement, turbine  control interaction and the analysis of monitoring and performance data. In addition, wtSCADA™ remote operation and wtDataCenter™ analyzing packages are available to provide a harmonized control   system with supervisory control and data acquisition to actively monitor, analyze and operate entire wind farms.

      Suits all climate conditions
      The 2.0 MW designs are available for 50 Hz or 60 Hz and for all climate conditions, with 70 m, 80 m or 100 m hub heights.
    • 3.0 MW - Best energy harvest at low wind conditions

    • The wt3000dd (direct drive), wt3000df (doubly-fed) and wt3000fc (full-scale conversion) models have been designed to offer the lowest possible cost of energy and highest reliability, providing customers with significant advantages on the global wind market. The wt3000 design provides high efficiency, grid code compliance and real-time monitoring.

      High efficiency over entire speed range

      The wt3000’s optimized integrated electric systems and blade designs result in some of the most efficient power curves in the industry today. The wt3000dd is equipped with a direct drive, multi-pole permanent magnet synchronous generator. The wt3000df features a doubly-fed, three-phase induction generator. The wt3000fc uses a permanent magnet synchronous generator (PMSG), electrical excited synchronous generator or asynchronous generator with a full- cale converter system. The IGBT-based converter with advanced power electronics ensures that the generator works with high efficiency over the entire speed range. All wt3000 wind turbine models use a state-ofthe-art electrical pitch system design. They are available in 50 Hz or 60 Hz and for all climate conditions, in different hub heights, different rotor diameter and blade types to meet various type classes.

      Compliance with global grid codes
      All wt3000 wind turbines fulfill the most demanding international grid code requirements and have low voltage ride-through (LVRT) capability.

      Real-time information with continuous monitoring and alarm handling
      AMSC’s advanced wtCMS™ condition monitoring system provides continuous monitoring of the key system components. This gives operators real-time information about the turbine status as well as detailed comprehensive analysis tools to optimize maintenance activities. The fully integrated system allows intelligent measurement, turbine control interaction, and the analysis of monitoring and performance data. In addition, wtSCADA™ remote operation and wtDataCenter™ analyzing packages are available to provide a harmonized control system with supervisory control and data acquisition to actively monitor, analyze and operate entire wind farms.
    • 5.5 MW – Capitalize on the rise of offshore wind

    • The wt5500df (doubly-fed) and wt5500fc (full-scale conversion) models have been designed for customers seeking to manufacture 5.5 MW wind turbines with the best in quality design, efficiency and performance. The wt5500 design focuses on the lowest cost of energy and highest reliability, supported by active turbine and condition monitoring.

      High efficiency for offshore generation
      The wt5500 design uses an advanced electrical individual pitch control system design. It is available in 50 or 60 Hz, for all climate conditions and in different hub heights, different rotor diameters and blade types to meet all type classes.

      The wt5500df features a doubly-fed, threephase induction generator. The wt5500fc uses a permanent magnet synchronous generator (PMSG), electrical excited synchronous generator or asynchronous generator with a full-scale  converter. The generator works with high efficiency over the entire speed range. This is ensured by the IGBT-based converter with advanced power electronics.

      Compliance with global grid codes
      The wt5500 wind turbines fulfill the most demanding international grid code requirements and have low voltage ride-through (LVRT) capability.

      Real-time information with continuous monitoring and alarm handling
      AMSC’s advanced wtCMS™ condition monitoring system provides continuous monitoring of the key system components. This gives operators real-time information about the turbine status as well as detailed and comprehensive analysis tools to optimize maintenance activities. The fully integrated system allows intelligent measurement, turbine control interaction and the analysis of monitoring and performance data. In addition, wtSCADA™ remote operation and wtDataCenter™ analyzing packages are available to provide a harmonized control system with supervisory control and data acquisition to actively monitor, analyze and operate entire wind parks.
  • 10.0 MW SeaTitan™ Wind Turbine

  • Providing a path to significantly lower the cost of offshore wind power, AMSC is developing the SeaTitan wind turbine to maximize “power per tower.” With the ability to produce 10 MW of power or more, the SeaTitan model promises to be the world’s most powerful turbine. It is based on a lighter weight and highly reliable direct drive design, ensuring a perfect fit for the harsh offshore operational conditions.

    Superconductor generator eliminates tolerance and deformation issues
    The SeaTitan wind turbine design employs a high temperature superconductor (HTS) generator, which is significantly smaller and lighter than a generator using conventional technologies. The superconductor generator has a large air gap to eliminate issues with tolerance, deformation and rare earth material availability. The generator is integrated as part of the turbine and decoupled from the loadcarrying components. Generator torque is transferred directly from the stator to the mainframe.

    Amperium™ wire is key to low cost and light weight
    AMSC’s Amperium wire is used for the HTS rotors instead of copper wire. These wires can carry over 100 times more power than copper wires of the same dimensions. Therefore, the generator is much smaller, lighter and more efficient than conventional large-scale wind turbine generators and produces the highest known power-to-weight ratio. This reduces the costs associated with the supporting mast structure, foundations, floatation systems and installation.

    Direct drive lowers maintenance need
    The direct drive model does not use a gearbox, which is one of the most maintenance-intensive wind turbine components and extremely costly with breakdowns at sea. In addition, no couplings are needed with the direct drive.

    High efficiency for offshore generation
    The SeaTitan turbine connects the superconductor generator to the grid with a full-scale converter. The IGBT-based converter with advanced power electronics ensures that the generator works with high efficiency over the entire speed range.

    The SeaTitan turbine uses an advanced electrical individual pitch control system design. It is available in 50 Hz or 60 Hz.

    Compliance with global grid codes
    The SeaTitan turbine fulfills the most demanding international grid code requirements and has low voltage ridethrough (LVRT) capability.

    Real-time information with continuous monitoring and alarm handling
    AMSC’s advanced wtCMS™ condition monitoring system provides continuous monitoring of the key system components. This gives operators real-time information about the turbine status as well as detailed and comprehensive analysis tools to optimize maintenance activities. The fully integrated system allows intelligent measurement, turbine control interaction, and the analysis of monitoring and performance data. In addition, wtSCADA™ remote operation and wtDataCenter™ analyzing packages are available to provide a harmonized control system with supervisory control and data acquisition to actively monitor, analyze and operate entire wind farms.
  • GENERATORS & DRIVETRAINS

  • Rising pollution levels, increasing carbon emissions, volatile fuel prices and a desire for energy independence. These are among the factors that have fueled a tremendous increase in the use of renewable energy, with wind power being one of the major contributors to the overall energy mix.

    The industry continues to seek new and advanced technologies that lower both wind park capital costs and operating and maintenance costs while boosting energy yields. Put simply: the industry seeks to continue to lower the Levelized Cost of Electricity (LCOE).

    AMSC’s Generator and Drivetrain Solutions are designed to help customers turn wind into profit. Our offerings include:
    • Direct Drive
      (DD)

    • A smart, straightforward design that eliminates the need for gearboxes, the direct drive configuration has fewer moving parts and therefore can reduce maintenance costs and provide higher wind turbine availability.
    • Doubly-Fed Induction (DF)

    • Referred to as DFIG, doubly-fed induction generators have been a widely used technology in wind turbines. This solution has a multi-phase wound rotor and a multi-phase slip ring assembly with brushes for access to the rotor. Recently, designs without brushes (brushless) have been introduced.
    • Full-Scale Conversion (FC)

    • In a full-scale conversion drivetrain, the wind turbine gearbox is protected because the generator is not connected directly to the grid and therefore subjected to grid faults that can create excessive stress on the drivetrain. A highly efficient solution that also provides a better power quality to the grid, the FC solution has a redundant system that provides protection in case of a converter failure.
    • HTS Direct Drive
      (HTS DD)

    • AMSC’s direct drive superconductor generator design technology utilizes power dense superconductors to create a smaller, lighter and more efficient machine that produces higher power ratings and energy yields while loweres installation, operating and maintenance costs.
       
    • SuperGEAR™
      (SG) System

    • AMSC’s patented SuperGEAR drivetrain provides the wind turbine’s generator with a direct connection to the utility grid. With no converter or transformer required, it produces the best possible power quality available on the global market. This drivetrain solution enables smaller and lighter nacelles with higher and more stable efficiency and reliability – characteristics that are particularly crucial for offshore wind installations.
  • CONTROLS & SYSTEMS

  • Wind turbine OEMs must push the performance limits of their turbine designs in order to remain competitive and maximize wind park revenue potential. They need to extract optimal energy from the wind by enhancing turbine performance, increasing component lifetime and improving power quality.

    In the offshore arena, the industry is demanding a world-class power generation plant – guaranteeing high availability, enhanced durability and precision quality and control – so that every possible kilowatt-hour can be extracted from the wind.

    AMSC’s smart control systems meet these challenges. Our wtECS™ (Electrical Control Systems) helps to lower the levelized cost of electricity so that wind can compete more effectively with conventional power sources and customers can increase their return on investments. Whether you want an entire wind turbine control system or just individual system components, we have what it takes to complete your turbine power electronics and controls strategy.

    Our Wind Turbine Controls and Systems provide higher availability, reliability and optimized energy output from your wind turbine, wherever your operations, whatever the conditions. Our offerings include:
    • Electrical pitch systems for optimum performance

    • Located in the rotating hub, our pitch control system enables operators to gain optimal power from wind at below rated wind speed by adjusting the blade angle; to control the speed of the wind turbine by holding a constant level at rated wind speed; and to minimize mechanical loads due to variable speed operations.
    • Nacelle cabinets for ideal power distribution and turbine control

    • The nacelle cabinet is split into the power cabinet and the control cabinet. The nacelle cabinet collects all signals and controls all devices in the hub and nacelle, including that of the water- and oil-cooling system, heating system, brakes and fans, yaw system, pressures and temperatures, wind speeds, wind direction, and oil and monitoring signals.
    • Yaw controls for maximum power output

    • Yaw controls ensure that the turbine is constantly facing into the wind to maximize the effective rotor area and, as a result, power. Our unique expertise in all aspects of control systems means we can optimize the performance of the yaw controls so they are fully integrated into the turbine’s entire control scheme.
    • Converter systems for optimized connection to any grid frequency

    • The converter system, utilizing AMSC’s PowerModule™ power converter, coordinates variable speeds of the wind turbine with the fixed frequency of a grid, fulfilling worldwide grid codes and maintaining the capability for both low voltage ride-through (LVRT) and for reactive power management.
    • Internal power supply cabinet for rapid service

    • The internal power supply (IPS) cabinet is the distribution cabinet for auxiliaries of the entire wind turbine and provides access for operation and maintenance work.
    • Tower base cabinet for full control

    • The tower base cabinet allows full control and operation of the wind turbine and provides information on all operated and measured signals.
       
    • Software for optimized wind turbine operation, monitoring and analysis

    • AMSC provides the entire software solution for wind turbines, including SCADA as well as pitch, converter, yaw- and condition monitoring systems (including hardware) that are required by the wind turbine for functionality.
  • BEARING DESIGN

  • As wind turbines evolve from small megawatt towers to multi-megawatt energy systems, the components that make the turbine function and operate must evolve too. To keep the turbine running more reliably and for longer periods of time, all of the components must be optimized to work together in harmony.

    Wind turbine bearings are prone to reliability issues as they are often exposed to dynamic and unpredictable stresses from rapidly changing load variations and wind flux. Failure for the bearings to perform their mission-critical function could decrease wind turbine uptime, resulting in less wind energy being turned into profit.

    With over 30 years of experience in wind bearing designs, our team of engineers has a deep, fundamental understanding of bearing performance and design for any turbine size and drivetrain configuration. This intimate knowledge of wind turbine systems allows for highly optimized bearing designs for virtually all applications and environments. In addition, our state-of-the-art condition monitoring systems and customized software for advanced analysis of dynamic bearings systems can proactively detect problems such as erosion and degradation before they occur.
    Bearing Designs: Innovative, Reliable, Durable, Flexible.
  • SOFTWARE

  • Often located in remote locations, wind turbines are frequently left unattended, facing harsh environmental conditions such as high wind speeds, storms, snow, ice and severe heat. Due to these highly variable and dynamic operating conditions, significant mechanical stress is often placed on the turbine and its components. Preventative maintenance and proactive strategies to minimize O&M costs are key to providing a safe, cost-effective and reliable power output with an acceptable equipment lifetime.

    Whether monitoring an individual turbine or controlling an entire wind park, owners/operators need immediate access to the right information to instantly respond to any issues, reduce costly component failures and maximize generation. They must have the ability to coordinate each turbine and know which are operating at capacity and which require attention, while always maintaining a holistic view of the whole park’s performance. They need to be capable of collecting, coordinating and visualizing turbine and total park performance data.

    With our Wind Turbine Software Solutions, we offer the full range of monitoring, control and support, and can define the approach that best meets our customers’ needs. In a constantly challenging and changing environment, our software solutions offer wind park owners and operators reliable, proactive asset management and real-time control to maximize power output and minimize O&M costs. Wind Turbine Software: Reliability, Proactivity, Control.
    • SCADA

    • Through our wtSCADA™ solution, the acquisition and storage of real-time data and historic data can be executed by a single system without the need of a separate, direct connection to the programmable logic controllers (PLC) of any individual wind turbine.
    • Condition Monitoring System

    • Through our wtCMS™ solution, wind park operators are able to employ a fully condition-based, proactive maintenance strategy. The system provides the operator with virtually real-time information regarding the condition of selected sub-systems and components, helping to run Wind Energy Converters (WECs) for as long as possible and reducing downtime and repairs – proactively maximizing your return on investment.
    • Wind Park Controller

    • Our wtWPC™ tool manages the behavior of multiple WECs, uniting them into a self-contained power plant and offering a single, defined interface to the utility grid.
  • SERVICES

  • Whether you are new to the wind business or are launching a new offering, to be competitive, you need to make sure that you have the tools, processes, supply chain, factories and skilled employees in place to build the most reliable, efficient and optimized wind turbines. Your employees need to have in-depth training on design, documentation, technology and the complete turbine lifecycle, from assembly and installation through testing and commissioning to operation and maintenance. You need to have trusted component manufacturers throughout your supply chain, providing you with quality products and services. You also need to ensure that your factories are designed to accommodate future growth without incurring large capital expenditures. From employee training to factory set-up and supply chain management, building a wind turbine business is a highly complex process.

    AMSC can do all of this for you. By partnering with us, you will have a relationship with our team of professionals who will enable you to have all the necessary technical knowledge and training that you need to be successful. We can localize your supply chain through our network of global partners. We design your factories to ensure you can keep up with growth. From factory set-up to employee training, we supply our partners with the tools, knowledge and support to be manufacturing new lines of wind turbines in as little as 12 months.

    With AMSC’s Wind Turbine Services, you can be confident that you will have the foundation in place to make your wind turbine business a success. And you can be confident that we will be there beside you – every step of the way.
    Wind Turbine Services: Partnership, Trust, Confidence.
  • HTS WIRE

  • AMSC’s high temperature superconductor (HTS) Amperium™ wire conducts more than 100 times the electrical current of copper wire of similar dimensions. The second generation (2G) wire is available in both copper (Cu) and brass laminate.

    HTS Wire: Compact, Versatile, Efficient, Strong.
    • Brass

    • Used in high-current AC or DC cable applications, such as power transmission and distribution, high-capacity Amperium wire offers a significant increase in the amount of power that can be carried regardless of voltage. Amperium wire’s unique laminated construction combined with the dual impedance characteristic of superconductors, allows for the construction of cables with intrinsic fault current limiting capability. This provides high capacity under normal conditions and high resistance during fault conditions. AMSC’s brass laminated superconductor wire provides high strength and stability with ease of stranding and handling.
    • Copper

    • Used in power dense coils for applications such as synchronous motors, generators and magnets, our copper laminated Amperium wire can dramatically reduce the size and weight of large-scale electrical equipment. This product provides significantly greater power throughput and efficiency as well as high strength and stability with outstanding bend tolerance.
  • POWER CONVERTERS

  • The demand for power conversion is ever increasing. Major drivers for this rise in demand include the growth of distributed generation systems and uninterruptible power supply (UPS) systems, higher system efficiency requirements, and increased demand for higher levels of power quality and power reliability.

    AMSC’s cost-effective power converters have customizable configurations that enable end users to rapidly develop power systems that will get their products to market faster and maintain their competitive edge.

    PowerModule™ power converters can reduce the cost and cycle time associated with developing a power conversion system. This reduction in time can provide earlier revenue realization, taking on additional projects, or further design refinement. Regarded as a standard, proven building block, PowerModule power converters have been utilized in thousands of wind turbines and grid interconnection solutions supporting gigawatts of renewable power around the world.

    PowerModule power converters support a systematic development approach by reducing the amount of unknown variables. They can be quickly configured to meet both your hardware and software needs, making them ideal platforms for evaluating new technologies in power switches, thermal designs and control strategies. As a result, you can focus on key technology unknowns, accelerating the development of electric power systems and offering a cost-effective core component for volume production.
      • PowerModule PM1000 and PM3000 Series

      • The AMSC PM1000 and PM3000 power converters are a fully integrated, intelligent and modular systems that significantly reduce development costs and time to market for power systems across a wide spectrum of industries and applications.
        PM1000 series -- 150 kW to 500 kW.
        PM3000 series -- 500 kW to 1 MW.
      • PowerModule System Developer Kits

      • The AMSC PowerModule System Developer Kit (SDK) provides users with the ability to unlock the versatility of our PM1000 and PM3000 power converters and rapidly develop and launch numerous custom power system applications.

        Using the PowerVisum™ graphical user interface (GUI), you can quickly configure, monitor, troubleshoot and command individual power processors in one or more PowerModule converters using the standard software application modules for converting AC-DC, DC-DC, DC-AC or AC-AC.

        The PowerVisum GUI provides an intuitive interface on your computer for programming, setting up the converter parameters, passing parameters back to the user interface for display or calculations, and controlling the system by the operator. Through the PowerVisum GUI, you can integrate, diagnose and reconfigure a PowerModule power conversion system in real time.
  • MARINE SOLUTIONS

  • Like virtually all other industries, ship builders, owners and operators are seeking innovative ways to increase system reliability, security and efficiency. Whether you are operating a cruise ships or a war ship, your cargo is precious and your operating costs are increasing.

    AMSC is truly a holistic provider of power solutions. Our capabilities don’t end with generation, transmission or delivery – our solutions extend to end use. For the marine sector, our power management, propulsion and defense solutions are designed to help customers increase system efficiencies, enhance power quality and boost reliability and security.

    Our offerings for the marine industry include:
    • Power Conversion Solutions

    • Our power conversion systems enable more stable power supplies for a variety of vessels, from commercial tug boats to navy warships.
    • Motors and Generators

    • Employing our proprietary superconductor wire, marine motors and generators are incredibly compact, efficient and power dense propulsion systems.
    • Degaussing Systems

    • Employing our proprietary superconductor wire, today’s naval ships are beginning to employ lightweight and highly efficient 21st century “cloaking” systems.
    • Superconductor Wire & Coils

    • We offer proprietary wire and coils that are ideally suited for marine applications, such as motors, generators and degaussing systems.