Advantages of three-phase permanent magnet AC synchronous motor: increased efficiency by 3% -5%, smaller size, lighter weight, high reliability and low maintenance, low noise.
| Power: | 200kW |
|---|---|
| System Type: | Permanent magnet generator |
| Quantity: | |
|---|---|
| Rated speed (r.p.m.) | 88 | Rated torque (n.m) | 21705 |
| Rated voltage (V) | DC 380 | number of poles | 68 |
| Insulation level | F | Efficiency (%) | ≥95 |
| Generator configuration | Star connection, three-phase three wire, AC output | Service life | >20 years |
| Weight (kg) | 2500 | Starting torque (n.m) | ≤110.6 |
The 200kW Permanent Magnet Three-Phase AC Host represents the pinnacle of medium-scale renewable energy technology, backed by 15 years of industry experience in wind turbine design and manufacturing. This customizable, manufacturer-shipped turbine delivers exceptional performance for commercial and industrial applications requiring reliable, scalable power generation. Optimized for wind speeds between 3.8m/s and 32m/s, it achieves an impressive annual energy output of up to 420,000 kWh in optimal conditions, making it suitable for utility-scale distributed generation, renewable energy farms, and large industrial facilities. What distinguishes this model is its highly customizable configuration – from tower height to grid integration options – ensuring perfect alignment with specific project requirements. Leveraging 15 years of technical refinement, the turbine combines a high-efficiency permanent magnet three-phase AC generator with intelligent control systems, delivering both maximum energy capture and long-term reliability.
Drawing on our decade-and-a-half of engineering expertise, the turbine offers extensive customization options including variable hub heights (35m to 55m), multiple tower designs (lattice or tubular), and flexible output configurations (400V/690V three-phase AC) . This adaptability ensures optimal performance across diverse geographical and meteorological conditions, from coastal regions to inland industrial zones. Each customization is validated through our proprietary performance simulation software developed from 15 years of field data.
The core of the system is a state-of-the-art permanent magnet three-phase AC generator achieving 97.2% conversion efficiency across a wide load range. This brushless design eliminates commutator losses and requires minimal maintenance, with a rated operational life of 120,000 hours . The generator's compact design reduces nacelle weight by 18% compared to conventional alternatives, lowering structural loads and foundation costs.
Engineered to withstand harsh operating conditions, the turbine features hot-dip galvanized steel components, corrosion-resistant blade coatings, and a weather-sealed nacelle with IP66 protection rating . It operates reliably in temperatures ranging from -30°C to +55°C and includes optional cold climate packages for regions with extreme winter conditions, demonstrating our accumulated knowledge in environmental engineering.
Building on 15 years of control algorithm development, the turbine's intelligent management system includes dual MPPT controllers with 99.9% tracking accuracy, LVRT capability, and advanced grid support features. The SCADA-integrated monitoring system provides real-time performance data and predictive maintenance alerts, maximizing uptime and simplifying fleet management for multi-turbine installations .
Energy utilities deploy the 200kW turbine in distributed generation networks to meet renewable energy targets, leveraging its high efficiency and grid-friendly operation to support network stability while reducing transmission losses.
Developers utilize multiple customizable turbines to create optimized wind farm configurations, with each unit adjusted to specific site conditions (wind shear, turbulence) for maximum overall project performance and return on investment.
Manufacturing plants, data centers, and industrial complexes integrate the turbine to offset significant electricity consumption, reducing energy costs and meeting corporate sustainability commitments through on-site renewable generation.
Large agricultural operations and cooperatives utilize the turbine to power energy-intensive processes such as grain drying, cold storage, and irrigation systems, achieving energy independence for critical agricultural infrastructure.
Our extensive experience translates into proven design optimization, component selection, and performance validation. We've incorporated lessons from thousands of turbine operating hours, resulting in enhanced reliability (98.5% annual availability), reduced maintenance requirements (30% lower than first-generation models), and superior energy capture in real-world conditions – not just laboratory settings .
Customizations include tower height, foundation type, output voltage, control parameters, and environmental adaptations. Standard modifications typically add 2-4 weeks to production time, while major custom configurations require 6-8 weeks. Our engineering team works directly with clients to optimize specifications based on site-specific wind data and project requirements .
The turbine is fully certified to EU CE standards (Machinery Directive 2006/42/EC, EMC Directive 2014/30/EU), IEC 61400-1:2019, IEC 61400-22 power performance standards, and ISO 9001 quality management. It meets grid codes for most major markets, with additional certification packages available for specific regional requirements .
Each turbine includes a 5-year standard warranty with optional extension to 10 years. Manufacturer-direct shipping includes complete installation documentation, commissioning support, and operator training. Our global service network provides technical support, with remote diagnostics capabilities and spare parts availability backed by our 15-year supply chain expertise .
