Solar Hybrid on off Grid Inverter for 200kw 300kw 400kw Energy Storage System

Onduleur solaire hybride hors réseau pour système de stockage d'énergie 200kw 300kw 400kw

Producteurs d'énergie Ltd

Catégories : Onduleur de puissance

2026-04-05

$5700

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Description du produit

Product description
Deming Power energy storage products and system solutions solve power supply problems in areas with no and weak electricity, and achieve smart power supply and demand allocation. This system is designed for three-phase energy storage system, which can realize the functions of On grid power generation, off-grid inversion, and city power reverse charging. If the power grid is disconnected, the storage system can automatically and seamlessly switch to off-grid operation mode to ensure uninterrupted power supply.
1)Power peaking and valley filling. Meet various needs of customers;
2)Smooth output power, improve the proportion of grid acceptance;
3)  Ensure electricity safety;
Performance characteristics
(1)The 32-bit DSP (Digital Processor TI 2812) +ARM (Touch Screen Master Chip) platform is used for touch screen display and operation, which facilitates field operation and parameter setup. The core driver of DSP control and ARM realize peripheral functions such as display and communication to improve power reliability.
(2)Support RS485, WiFi, GPRS, Ethernet communication, satisfy customer remote monitoring and other functions; can display AC and DC side voltage, current, operation mode, operation status, fault information, and can upload related data to the Internet of Things platform through the communication interface, and can start and stop power supply, parameter settings and other operations through the computer or mobile phone;
(3)Adopt three-phase four-bridge arm structure, which can carry 100% unbalanced load;;
(4)Designed for smart grids and smart microgrids, accept grid dispatching, cut peaks and fill valleys;
(5)Meets the access of lead-acid accumulator, lithium power, super capacitor, vanadium battery and other different energy storage forms, and has a wide range of applications.
                                            off grid and on grid hybrid solar power system (Bidirectional system)
                                                              off grid and on grid wind turbine solar hybrid power system

Technical parameters of bidirectional inverter 300KW-1000KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Mode de fonctionnement td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Mode de câblage AC td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Puissance de sortie nominale

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >300KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >500KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Capacité de surcharge de la sortie

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >330KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >550KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Puissance maximale en courant continu

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >330KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >550KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Plage de tension continue Vdc

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >400-800Vdc

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Tension nominale recommandée pour la batterie

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >480V

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >600V

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Courant de charge nominal

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >625A

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >833A

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Courant d'entrée maximal

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >688A

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >917A

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Précision de la tension

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >±1%

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Précision du débit constant

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >±1%

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Ondulation du courant continu

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” ><1% IPP

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Tension nominale du réseau (AC)

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >220V / 380V / 440V

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Plage de tension du réseau (AC)

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >±20%

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Fréquence nominale du réseau

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >50Hz / 60Hz

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Gamme de fréquences de la grille

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >±10%

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Puissance nominale (THD) td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Facteur de puissance td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Tension de sortie nominale (AC) td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Distorsion de la tension de sortie td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Fréquence de sortie nominale td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Plage de transition de tension td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Temps de commutation du réseau marche/arrêt td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Rendement de conversion maximal td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Bruit td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Degré de protection td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Température de fonctionnement td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Méthode de refroidissement td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Humidité de fonctionnement td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Altitude de travail td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Arrêt d'urgence td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Affichage td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Mode de communication td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Dimensions

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >2010*1060*2000mm

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >2800*1200*2000mm

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Poids

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >1.5t

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >2.5t

AC Side parameters
En continu
Triphasé à quatre fils
1000KW
1100KW
DC voltage range
1100KW
500-900Vdc
600V
1667A
1833A
±1%
±1%
<1% IPP
On Grid charging and discharging mode Constant power
220V / 380V / 440V
±20%
50Hz / 60Hz
±10%
<3%(grille standard)
0,8 en tête-1-0,8 en queue, réglable
Independent inverter mode
220V / 380V / 440V±1%
resistive load)
50Hz / 60Hz ±1%
<10% (Resistance load 0% <=>100%)
System Parameters
0ms
95%( Transformateur d'isolation inclus)
<60dB
IP20
-25ºC~+45ºC
Refroidissement par air
0~95%
≤6000m, (Reduced usage for more than 2000m)
Oui (via le bouton d'arrêt d'urgence)
Écran tactile
RS485, WIFI, GPRS, Ethernet (protocole Modbus)
400012002000mm
4t

*Above parameter only for reference. Could be custom made to user specifications
.Technical parameters of bidirectional inverter 50KW-200KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >50KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >100KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Capacité de surcharge de la sortie

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >55KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >110KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Puissance maximale en courant continu

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >55KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >110KW

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Plage de tension continue Vdc

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >350-800Vdc

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Tension nominale recommandée pour la batterie

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >384V/420V/480V

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >420V/480V

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Courant de charge nominal

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >130A/119A/104A

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >238A/208A

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >Courant d'entrée maximal

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >143A/130A/115A

td style=”border:1px solid #ccc;padding:8px;font-size:12px ;” >262A/229A