Aerogenerador trifásico Deming Dmwg-30kstl con inversor de conexión a red CE

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  • Aerogenerador trifásico Deming Dmwg-30kstl con inversor de conexión a red CE
Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter

Aerogenerador trifásico Deming Dmwg-30kstl con inversor de conexión a red CE

  • DEMING
Energy Producers Ltd
  • Categoría
Categorías:
  • Fecha
2026-04-05
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$5700

Proyectos generales

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Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter
Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter
Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter
Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter
Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter
Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter
Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter
Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter
Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter
Deming Dmwg-30kstl on Grid Three Phase Wind Turbine Inverter with CE Grid Tie Inverter

Descripción del producto

Descripción del producto

El sistema de aerogenerador conectado a la red se compone de aerogenerador, controlador conectado a la red, inversor conectado a la red, dispositivo de medición y sistema de distribución de energía. El aerogenerador convierte la energía eólica en energía eléctrica de CA, el regulador de red la transforma en energía eléctrica de CC y el inversor de red convierte la energía eléctrica de CC en energía eléctrica de CA de la misma frecuencia y fase que la red. La energía sobrante se inyecta en la red.
Características de funcionamiento de los inversores de aerogeneradores conectados a la red

(1) El circuito principal utiliza el chip DSP producido por la empresa estadounidense TI, el módulo alemán Infineon IGBT, la protección de accionamiento es el movimiento japonés Mitsubishi, y la parte de salida a la red utiliza transformador de aislamiento, que es seguro y fiable; 

(2) Utilizando tecnología de modulación por ancho de pulsos SPWM, salida de onda sinusoidal pura, seguimiento síncrono automático con la red, factor de potencia cercano a 1, bajo contenido de armónicos de corriente, sin contaminación para la red, sin impacto;

(3) Tecnología de seguimiento de la potencia máxima de entrada del aerogenerador (MPPT)

(4) La curva de potencia del aerogenerador se puede ajustar, por defecto es de 20 puntos, y la expansión interna es del 50

(5) 7-inch color touch screen display, system operation data and fault information at a glance, and convenient parameter setting;

(6) Control en bucle cerrado de la corriente del inversor de red, controlable y ajustable;

(7) El rango de voltaje DC de entrada es amplio, se adapta a las necesidades de diferentes ocasiones;

(8) Tecnología de detección de perturbaciones de frecuencia para realizar el control anti-islas;

(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) Soporta RS485, WiFi, GPRS, Ethernet y otros métodos de comunicación. Puede supervisar el estado de funcionamiento del sistema de generación de energía eólica en red en tiempo real a través del PC o el teléfono móvil, y también puede consultar el estado de funcionamiento histórico. El terminal móvil es compatible con Android e IOS. Todos los datos pueden conectarse al Internet de las Cosas.
 

Detailed Photos

 

 

Product Parameters

  20KW on grid wind turbine controller and on gridwind  generator inverter parameters 

 

th style=”border:1px solid #ccc;padding:10px;background:#f5f5f5;text-align:left;font-size:13px;font-weight:bold;” >[‘Personalización:’, ‘Disponible’]

th style=”border:1px solid #ccc;padding:10px;background:#f5f5f5;text-align:left;font-size:13px;font-weight:bold;” >[‘Naturaleza del flujo fuente:’, ‘Inversor activo’]

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;” >[‘On grid wind turbine controller’, ‘WGMC10K380’, ‘WGMC20K380’, ‘WGMC30K380’]

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;” >[‘Factor de potencia’, ‘>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;” >[‘Rango de frecuencia de red admisible’, ’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;” >[‘Nivel de protección’, ‘IP20(Interior)IP65 (Exterior)’]

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;” >[‘Ruido (1m)’, ‘<40dB’]

td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Modo de refrigeración’, ‘Refrigeración por aire forzado’]

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;” >[‘On grid wind turbine controller’, ‘WGMC3K220’, ‘WGMC5K220’, ”]

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;” >[‘Factor de potencia’, ‘>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;” >[‘Rango de frecuencia de red admisible’, ’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;” >[‘Nivel de protección’, ‘IP20(Interior)IP65 (Exterior)’]

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;” >[‘Ruido (1m)’, ‘<40dB’]

td style=”border:1px solid #ccc;padding:8px;font-size:12px;” >[‘Modo de refrigeración’, ‘Refrigeración por aire forzado’]

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;” >[”, ”, ”, ”, ”, ”, ”]

On grid wind turbine controller WGMC10K380 WGMC20K380 WGMC30K380
Wind turbine input
Potencia 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
Rango de tensión de entrada CA 0-600V 0-600V 0-600V
DC 0-900V 0-900V 0-900V
Tensión de frenado (CC) 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
Control manual Manual brake, *remote control brake (with communication function)
Función de control automático Control de carga de descarga, * guiñada, * cabeceo, * freno mecánico, * freno hidráulico,
* freno electromagnético
* 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
Rango de tensión de entrada (CC) 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
Corriente nominal 20.4A 40.8A 61.2A
THD Current harmonic <3%(at rated power)
Factor de potencia >0.99
Eficiencia máxima 98%
Allowable grid voltage range (AC) 220V/380V/440V/480V (Three-phase)±20%
Rango de frecuencia de red admisible 50Hz/60Hz±10%
Condiciones de funcionamiento automático DC input and power grid meet the requirements, and the inverter operates automatically
Tiempo de reinicio tras un corte de corriente 2min(Adjustable)
Parámetros generales
Función Rectification, DC output, output voltage control, output current control, Dump load control, control parameter setting, wind turbine curve setting
Protección automática 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
Mostrar Touch screen, LCD
Supervisión de contenidos 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
Nivel de protección IP20(Interior)IP65 (Exterior)
Telemática RS485/USB/GPRS/WIFI/Ethernet (optional)

Características principales

  • Fabricante/Fábrica y empresa comercial: Fabricante/Fábrica y empresa comercial