10kw 10000W Grid Tie Wind Generator Inverter for on Grid Wind Power System with WiFi GPRS
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- 10kw 10000W Grid Tie Wind Generator Inverter for on Grid Wind Power System with WiFi GPRS
10kw 10000W Grid Tie Wind Generator Inverter for on Grid Wind Power System with WiFi GPRS
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Product Description
The On grid wind turbine system is composed of wind turbine, on grid controller, on grid inverter, metering device, and power distribution system. Wind energy is converted into AC electrical energy by the wind turbine, and then converted into DC electrical energy by the on grid controller, and then DC electrical energy is converted into AC electrical energy of the same frequency and phase as the grid by the on grid inverter, and part of the power is supplied to the local load. Surplus power is fed into the grid.
On grid wind turbine inverter performance characteristics
(1) The main circuit uses the DSP chip produced by the American TI company, German Infineon IGBT module, drive protection is the Japanese Mitsubishi movement, and the on grid output part use isolation transformer, which is safe and reliable;
(2) Using SPWM pulse width modulation technology, pure sine wave output, automatic synchronous tracking with the grid, power factor close to 1, low current harmonic content, no pollution to the grid, no impact;
(3) Wind turbine input maximum power tracking technology (MPPT)
(4) The power curve of the wind turbine can be set, the default is 20 points, and the internal expansion is 50
(5) 7-inch color touch screen display, system operation data and fault information at a glance, and convenient parameter setting;
(6) On grid inverter current closed-loop control, controllable and adjustable;
(7) The input DC voltage range is wide, adapt to the needs of different occasions;
(8) Frequency disturbance detection technology to realize anti-island control;
(9) The comprehensive power protection scheme and perfect self-detection and protection functions will stop the on grid inverter when a system failure occurs.
(10) Circuit structure is compact, the maximum efficiency≥98%
(11) Support RS485, WiFi, GPRS, Ethernet and other communication methods. You can monitor the working status of the on grid wind power generation system in real time through the PC or mobile phone, and you can also query the historical working status. The mobile terminal is compatible with Android and IOS. All data can be connected to the Internet of Things.
10KW on grid wind turbine controller and on gridwind generator inverter parameters
| On grid wind turbine controller | WGMC10K380 | WGMC20K380 | WGMC30K380 | |||
| Wind turbine input | ||||||
| Power | 10KW | 20KW | 30KW | |||
| Max. Control power / current | 20KW/40A | 40KW/80A | 60KW/120A | |||
| Rated voltage of wind turbine (AC) | 380V/400V | 380V/400V | 380V/400V | |||
| Input voltage range | AC | 0-600V | 0-600V | 0-600V | ||
| DC | 0-900V | 0-900V | 0-900V | |||
| Braking voltage (DC) | Default | 550V±1% | 550V±1% | 550V±1% | ||
| Set range | 530-560V | 530-560V | 530-560V | |||
| Braking current (DC) | Default | 30A | 60A | 90A | ||
| Set range | 0-30A | 0-60A | 0-90A | |||
| Braking time | Default | 10-20 min | ||||
| Set range | 0-5000 min | |||||
| * Generator overspeed control | Default | >300 rpm/min | ||||
| Set range | 0-1000 rpm/min | |||||
| * Over wind speed control | Default | 14 m/s | ||||
| Set range | 0-45 m/s | |||||
| Manual control | Manual brake, *remote control brake (with communication function) | |||||
| Automatic control function | Dump load control, * yaw, * pitch, * mechanical brake, * hydraulic brake, * electromagnetic brake |
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| * PV. Input | ||||||
| Rated power (increased) | 5KWp | 5KWp | 5KWp | |||
| Working voltage (DC) | 550V / 660V | 550V / 660V | 550V / 660V | |||
| DC output parameters | ||||||
| Output voltage range (DC) | 0-550V | 0-550V | 0-550V | |||
| Constant voltage (DC) | Default | 520V±1% | 520V±1% | 520V±1% | ||
| Set range | 510-540V | 510-540V | 510-540V | |||
| Constant current (DC) | Default | 24A | 48A | 72A | ||
| Set range | 0-24A | 0-48A | 0-72A | |||
| On grid wind turbine inverter | DMWG10KTL | DMWG20KTL | DMWG30KTL | |||
| Rated output power (AC) | 10KW | 20KW | 30KW | |||
| Max. Output power (AC) | 11KW | 22KW | 33KW | |||
| Input voltage rang (DC) | 0-800V | 0-800V | 0-800V | |||
| MPPT Voltage range (DC)(DC) | 150V-700V | 150V-700V | 150V-700V | |||
| Max. Input current (DC) | 2.4A | 44.9A | 67.3A | |||
| Rated current | 20.4A | 40.8A | 61.2A | |||
| THD Current harmonic | <3%(at rated power) | |||||
| Power factor | >0.99 | |||||
| Max. efficiency | 98% | |||||
| Allowable grid voltage range (AC) | 220V/380V/440V/480V (Three-phase)±20% | |||||
| Allowable grid frequency range | 50Hz/60Hz±10% | |||||
| Automatic operation conditions | DC input and power grid meet the requirements, and the inverter operates automatically | |||||
| Restart time after power failure | 2min(Adjustable) | |||||
| General parameters | ||||||
| Function | Rectification, DC output, output voltage control, output current control, Dump load control, control parameter setting, wind turbine curve setting | |||||
| Automatic protection | Control part: Over voltage protection, over current protection, reverse connection protection, lightning arrester Inverter part: Polarity reverse connection protection, short circuit protection, island effect protection, LVRT,overheat protection, overload protection, ground fault protection, etc |
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| Display | Touch screen, LCD | |||||
| Monitoring content | Wind turbine voltage, current, power, solar panel voltage, current, power, DC output voltage, current, power, inverter output power, * cumulative power generation, * power generation at any time, * rotational speed, * wind speed | |||||
| Protection level | IP20(Indoor)IP65 (Outdoors) | |||||
| Telematics | RS485/USB/GPRS/WIFI/Ethernet (optional) | |||||
| Environment |
th style=”border:1px solid #ccc;padding:10px;background:#f5f5f5;text-align:left;font-size:13px;font-weight:bold;” >[‘Nature of Source Flow:’, ‘Active Inverter’] th style=”border:1px solid #ccc;padding:10px;background:#f5f5f5;text-align:left;font-size:13px;font-weight:bold;” >[‘Certification:’, ‘ISO9001, RoHS, CE’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Power’, ’10KW’, ’20KW’, ’30KW’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Max. Control power / current’, ’20KW/40A’, ’40KW/80A’, ’60KW/120A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Rated voltage of wind turbine (AC)’, ‘380V/400V’, ‘380V/400V’, ‘380V/400V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input voltage range’, ‘AC’, ‘0-600V’, ‘0-600V’, ‘0-600V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘DC’, ‘0-900V’, ‘0-900V’, ‘0-900V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Braking voltage (DC)’, ‘Default’, ‘550V±1%’, ‘550V±1%’, ‘550V±1%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘530-560V’, ‘530-560V’, ‘530-560V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Braking current (DC)’, ‘Default’, ’30A’, ’60A’, ’90A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘0-30A’, ‘0-60A’, ‘0-90A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Braking time’, ‘Default’, ’10-20 min’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘0-5000 min’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘* Generator overspeed control’, ‘Default’, ‘>300 rpm/min’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘0-1000 rpm/min’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘* Over wind speed control’, ‘Default’, ’14 m/s’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘0-45 m/s’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Manual control’, ‘Manual brake, *remote control brake (with communication function)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Automatic control function’, ‘Dump load control, * yaw, * pitch, * mechanical brake, * hydraulic brake, * electromagnetic brake’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Rated power (increased)’, ‘5KWp’, ‘5KWp’, ‘5KWp’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Working voltage (DC)’, ‘550V / 660V’, ‘550V / 660V’, ‘550V / 660V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output voltage range (DC)’, ‘0-550V’, ‘0-550V’, ‘0-550V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Constant voltage (DC)’, ‘Default’, ‘520V±1%’, ‘520V±1%’, ‘520V±1%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘510-540V’, ‘510-540V’, ‘510-540V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Constant current (DC)’, ‘Default’, ’24A’, ’48A’, ’72A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘0-24A’, ‘0-48A’, ‘0-72A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘On grid wind turbine inverter’, ‘DMWG10KTL’, ‘DMWG20KTL’, ‘DMWG30KTL’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Rated output power (AC)’, ’10KW’, ’20KW’, ’30KW’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Max. Output power (AC)’, ’11KW’, ’22KW’, ’33KW’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input voltage rang (DC)’, ‘0-800V’, ‘0-800V’, ‘0-800V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘MPPT Voltage range (DC)(DC)’, ‘150V-700V’, ‘150V-700V’, ‘150V-700V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Max. Input current (DC)’, ‘2.4A’, ‘44.9A’, ‘67.3A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Rated current’, ‘20.4A’, ‘40.8A’, ‘61.2A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘THD Current harmonic’, ‘<3%(at rated power)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Power factor’, ‘>0.99’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Max. efficiency’, ‘98%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Allowable grid voltage range (AC)’, ‘220V/380V/440V/480V (Three-phase)±20%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Allowable grid frequency range’, ’50Hz/60Hz±10%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Automatic operation conditions’, ‘DC input and power grid meet the requirements, and the inverter operates automatically’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Restart time after power failure’, ‘2min(Adjustable)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Function’, ‘Rectification, DC output, output voltage control, output current control, Dump load control, control parameter setting, wind turbine curve setting’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Automatic protection’, ‘Control part: Over voltage protection, over current protection, reverse connection protection, lightning arresterInverter part: Polarity reverse connection protection, short circuit protection, island effect protection, LVRT,overheat protection, overload protection, ground fault protection, etc’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Display’, ‘Touch screen, LCD’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Monitoring content’, ‘Wind turbine voltage, current, power, solar panel voltage, current, power, DC output voltage, current, power, inverter output power, * cumulative power generation, * power generation at any time, * rotational speed, * wind speed’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Protection level’, ‘IP20(Indoor)IP65 (Outdoors)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Telematics’, ‘RS485/USB/GPRS/WIFI/Ethernet (optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Environment’, ‘Operating amb. Temp. & Humxa0 -30-60°C,<90% no condensation’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Noise (1m)’, ‘<40dB’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Refrigeration mode’, ‘Forced air cooling’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Controller size / weight’, ‘400*230*550mmxa0xa0 23kg’, ‘500*230*620mmxa0xa0xa0 35kg’, ‘500*230*620mmxa0xa0xa0 38kg’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Dump load size / weight’, ‘690*450*530mmxa0xa0 36kg’, ‘980*880*540mmxa0xa0xa0 70kg’, ‘980*880*540mmxa0xa0xa0 70kg’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Inverter size / weight’, ‘690*275*770mmxa0xa0 42kg’, ‘690*275*770mmxa0xa0xa0 58kg’, ‘690*275*770mmxa0xa0xa0 65kg’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[”, ”, ”, ”, ”, ”, ”] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Power’, ‘3KW’, ‘5KW’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Max. Control power /xa0current’, ‘6KW/20A’, ’10KW/34A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Rated voltage of wind turbine (AC)’, ‘220V’, ‘220V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input voltage range’, ‘AC’, ‘0-330V’, ‘0-330V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘DC’, ‘0-450V’, ‘0-450V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Braking voltagexa0(DC)’, ‘Default’, ‘350V±1%’, ‘350V±1%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘320-350V’, ‘320-350V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Braking currentxa0(DC)’, ‘Default’, ’15A’, ’25A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘0-15A’, ‘0-25A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Braking time’, ‘Default’, ’10-20 min’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘0-5000 min’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘*xa0Generator overspeed control’, ‘Default’, ‘>300 rpm/min’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘0-1000 rpm/min’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘*xa0Over wind speed control’, ‘Default’, ’14 m/s’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘0-45 m/s’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Manual control’, ‘Manual brake,*remote control brake (with communication function)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Automatic control function’, ‘Dump load control, *xa0yaw, *xa0pitch, *xa0mechanical brake, *xa0hydraulic brake,xa0* electromagnetic brake’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Rated power (increased)’, ‘3KWp’, ‘3KWp’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Working voltage (DC)’, ‘320V /xa0400V’, ‘320V /xa0400V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Output voltage range (DC)’, ‘0-350V’, ‘0-350V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Constant voltage (DC)’, ‘Default’, ‘310V±1%’, ‘310V±1%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘300-330V’, ‘300-330V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Constant current (DC)’, ‘Default’, ’12A’, ’20A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Set range’, ‘0-12A’, ‘0-20A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘On grid wind turbine inverter’, ‘DMWG3KTL’, ‘DMWG5KTL’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Rated output power (AC)’, ‘3KW’, ‘5KW’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Max. Output power (AC)’, ‘3.3KW’, ‘5.5KW’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Input voltage rang (DC)’, ‘0-450V’, ‘0-450V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘MPPT Voltage range (DC)’, ‘100V-400V’, ‘100V-400V’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Max. Input current (DC)’, ‘11.2A’, ‘18.7A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Rated current’, ‘10.2A’, ’17A’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘THD Current harmonic’, ‘<3%(at rated power)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Power factor’, ‘>0.99’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Max. efficiency’, ‘98%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Allowable grid voltage range (AC)’, ‘110V/120V/220V (Single-phase)±20%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Allowable grid frequency range’, ’50Hz/60Hz±10%’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Automatic operation conditions’, ‘DC input and power grid meet the requirements, the inverter operates automatically’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Restart time after power failure’, ‘2min(Adjustable)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Function’, ‘Rectification, DC output, output voltage control, output current control, Dump load control, control parameter setting, wind turbine curve setting’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Automatic protection’, ‘Control part: Over voltage protection, over current protection, reverse connection protection, lightning arresterInverter part: Polarity reverse connection protection, short circuit protection, island effect protection,LVRT,overheat protection, overload protection, ground fault protection, etc’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Display’, ‘Touch screen, LCD’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Monitoring content’, ‘Wind turbine voltage ,xa0current, power, solar panel voltage, current, power, DC output voltage, current, power, inverter output power, *xa0cumulative power generation, *xa0power generation at any time, *xa0rotational speed, *xa0wind speed’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Protection level’, ‘IP20(Indoor)IP65 (Outdoors)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Telematics’, ‘RS485/USB/GPRS/WIFI/Ethernet (optional)’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Environment’, ‘Operating amb. Temp. &xa0Humxa0xa0-30-60°C,<90% no condensation’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Noise (1m)’, ‘<40dB’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Refrigeration mode’, ‘Forced air cooling’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Controller size /xa0weight’, ‘360*230*480mmxa0xa0xa0xa0xa0xa0xa017kg’, ‘360*230*480mmxa0xa0xa0xa0xa0xa0xa018kg’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Dump load size /xa0weight’, ‘400*400*250mmxa0xa0xa0xa0xa0xa0xa012kg’, ‘600*450*380mmxa0xa0xa0xa0xa0xa0xa028kg’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Inverter size /xa0weight’, ‘450*275*770mmxa0xa0xa0xa0xa0xa0xa039kg’, ‘450*275*770mmxa0xa0xa0xa0xa0xa0xa044kg’] td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[”, ”, ”, ”, ”, ”, ”] |
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Key Features
- Manufacturer/Factory & Trading Company: Manufacturer/Factory & Trading Company