- Universal application for low, middle and high wind
- 3-phase permanent magnets (High efficiency due to strong permanent magnets (NdFeB magnets, 150 ° temperature resistant)
- Aerodynamic design
- Powder coated aluminum housing
- Low noise
- Power transmission through slip ring, thereby no twisting of the cable possible
- Durable and low maintenance
- New blades are more performances and hand made.
We are pleased to introduce our new IstaBreeze® wind generator helicopter series.
3 wing version hand laminated
The newly developed IstaBreeze® Heli 2.0 is a wind turbine for long-term professional use that automatically delivers reliable energy even under extreme conditions.
The generous dimensions of the generator components and the heat dissipation through the grooves in the nacelle housing ensure a low heat load, which ensures a long service life even at high ambient temperatures.
The generator shaft runs in permanently lubricated, robust deep groove ball bearings made of stainless steel. The support element of the Heli series is equipped with azimuth pivot bearings.
Product features Heli 2 On Grid:
Weight: 81
Speed range: 0 rpm - 800 rpm
Rated voltage: 350VDC
Wear element: Powder-coated steel
Working range: 150 - 600 rpm (low speed wind turbine)
Rated power: 2.0 KW
Ampere: Max 10a
BLADE SPECIFICATION
Material: Carbon fiber (extremely stiff and quiet) Made in Germany!
Noise: 40 db
Weight: 1600 g (per blade)
Rotor Diameter: 250 cm
Color: white hand laminated
Blade length: 125 cm
On-grid inverters for wind turbines
On-grid inverters for wind turbines are key components that convert the electrical energy generated by wind turbines into a format suitable for the public power grid. These inverters are crucial for feeding electricity into the grid and ensuring energy quality. The main features and functions are:
Conversion of direct current (DC) to alternating current (AC): The inverter converts the direct current generated by the wind turbine into alternating current
that has the same frequency and voltage as the public power grid. This enables seamless feed-in to the grid.
Maximum power point tracking (MPPT): This technology optimizes energy production by continuously adjusting the operating point of the wind turbine to obtain the maximum yield from wind power. This is done by monitoring the current wind conditions and the performance of the turbine.
Network synchronization: On-grid inverters ensure that the energy generated by the inverter is in sync with the power grid. This is crucial for the safety and stability of the power grid and prevents disruptions.
security features: They are equipped with various safety features to ensure safe operation. These include overload protection, overtemperature protection and the ability to interrupt the feed-in in the event of a mains interruption (anti-islanding function).
Monitoring and control: Many on-grid inverters offer built-in monitoring features that allow the wind turbine performance to be tracked in real time. This can be done through an APP or web portal, making it easy to monitor operational data, energy production and system status.
Easy integration: These inverters are designed for integration with various wind turbine and energy management systems, making them easy to adapt to different applications and installation types.
Use as a solar inverter: On-grid inverters can also be used as solar inverters to convert the DC energy generated by solar panels into grid-compatible AC power, making them versatile for both wind and solar energy applications.
Operating options: If desired, the inverter can be operated either with batteries to store excess energy or without batteries to feed the generated electricity directly into the grid. This offers flexibility in energy supply and the use of renewable resources.
On-grid inverters are critical to the efficiency and performance of wind turbines, ensuring that the energy generated can be used effectively and fed into the grid, thus helping to promote renewable energy and reduce dependence on fossil fuels.
General parameters
battery type: Lithium or lead-acid battery
Nominal battery voltage: 48V
Maximum charge/discharge capacity: 50A (configurable)
PV input parameters
Maximum DC input voltage: 500V
MPP meeting area: 120-450V
Maximum input current: 18A (varies depending on model)
AC output parameters (On-Grid)
Nominal output: Depending on model (3-6 kVA)
Maximum output power: 15% above rated power
rated capacity: Varies per model
output frequency: 50 / 60Hz
THD (Total Harmonic Distortion): <2%
AC output parameters (off-grid)
Maximum output power: 1,5N for 60s, 2N for 5s, 3,2N for 15ms (depending on model)
Nominal power (off-grid): Varies per model
THD (Total Harmonic Distortion): <2%
Efficiency
Maximum efficiency (PV): 97,6%
European Efficiency (PV): 97%
protective functions
- PV protection against reverse polarity
- Short circuit protection
- overvoltage protection
- battery protection
These inverters are versatile and offer options to operate with or without batteries, depending on your needs.
On-grid wind generator controller with integrated load control (5KW or 10KW)
Maximize your wind energy utilization with our advanced on-grid wind generator controller. This controller is available in 3KW, 5KW or 10KW power variants and provides reliable grid feed-in in Connection with our inverter.
Key Features:
Powerful and Efficient: Supports optimized conversion of wind energy into grid-compatible alternating current.
Integrated load control: Protects your system by automatically adjusting to variable wind conditions.
User friendly: Easy to install and can be integrated into existing power systems.
Comprehensive protection: Includes overvoltage, overcurrent and overtemperature protection.
Flexible: Suitable for a variety of wind turbines depending on selection 5KW or 10KW.
Robust design: Manufactured for long life and high efficiency outdoors.
Get an efficient and reliable system for your wind turbine with our on-grid wind generator controller. Perfect for modern, future-proof energy projects.
| Model | FKJ-GT3KW |
|---|---|
| Nominal power of the wind turbine | 3 kW |
| Wind turbine max. power | 6 kW |
| Wind turbine rated voltage | AC 220V |
| Solar panels power (optional) | 900 W |
| Other specifications | Rectifier, control, DC output |
| Automatic protection function | Overvoltage protection, mains shutdown protection, regulated supply output, arrester |
| Manual function | Manual brake, reset, emergency switch |
| display mode | LCD |
| Show content | Wind turbines voltage, current, power; solar voltage, current, power; DC output voltage, DC output current, DC output power, total power |
| PWM constant voltage | ≥ 320 DC |
| 3-phase dump load voltage of the wind turbine | 350 ± 5VDC |
| Wind turbine 3 phase dump load time lapse | 60 -70 minutes |
| Solar panels fuse | 4A |
| PWM Dump Load Fuse | 16A |
| DC output protection | 20A |
| Working environment temperature | -30-60 ° C |
| Relative humidity | <90% no condensation |
| Noise (1m) | |
| Degree of protection | IP20 (indoor) IP65 (outdoor) |
| Cooling process | Forced air cooling |
| Communication interface (optional) | RS485/USB/GPRS/WiFi/Ethernet |
| Temperature compensation (optional) | -4 mV/°C/2V, -35°C ~ +80°C, Accuracy: ± 1°C |
| Controller size (mm) | 510 x 360 x 240 |
| Weight of the controller | 17 kg |
| Dump load size (mm) | 400 x 410 x 250 |
| Weight of dump load | 13 kg |
