30KW/40KW, DC240V/384V to AC110V/120V/220V/230V/240V | Inverter & Converter with 50A/100A PWM/MPPT Charge Controller | DC to AC Converter for Solar Panel
■ Solar DC to AC Converter Feature
1 Solar converter dc to ac built-in PWM or MPPT controller optional;
2 Pure sine wave output;
3 High efficiency toroidal transformer lower loss ;
4 Intelligent LCD integration display;
5 AC charge current 0-20A adjustable; battery capacity configuration more flexible;
6 Three types working modes adjustable:AC first, DC first, energy-saving mode;
7 Frequency adaptive function, adapt to different grid environments;
8 Added fault code query function,facilitate user to monitor the operation state in real time;
9 Supports diesel or gasoline generator, adapt any tough electricity situation;
10 RS485 communication port/APP optional.
■ Solar DC to AC Converter Specification
|Input||DC Input Voltage Range||10.5-15VDC（Single battery voltage）|
|AC Input Voltage Range||
92VAC~128VAC(110VAC） / 102VAC~138VAC（120VAC） / 185VAC~255VAC（220VAC） /
195VAC~265VAC（230VAC） / 205VAC~275VAC（ 240VAC） (8KW~40KW)
|AC Input Frequency Range||45Hz~55Hz（50Hz）/ 55Hz~65Hz（60Hz）|
|Max AC charging current||0A~20A（Depending on the model，The maximum charging power is 1/4 of the rated power）|
|AC charging method||Three-stage (constant current, constant voltage, floating charge)|
|Output Voltage(Battery Mode)||110VAC±2% / 120VAC±2% / 220VAC±2% / 230VAC±2% / 240VAC±2%|
|Output Frequency(Battery Mode)||50Hz±0.5 or 60Hz±0.5|
|Output Wave(Battery Mode)||Pure Sine Wave|
|Output Voltage(AC Mode)||Follow input|
|Output Frequency(AC Mode)||Tracking Automatically|
Output waveform distortion
|No load loss(Battery Mode)||≤1% rated power|
|No load loss(AC Mode)||≤2% rated power（ charger does not work in AC mode）|
No load loss
(Energy saving Mode)
|VRLA Battery||Charge Voltage :14.2V; Float Voltage:13.8V(Single battery voltage)|
Charging and discharging parameters of different types of batteries can be customized according to user requirements
(charging and discharging parameters of different types of batteries can be set through the operation panel)
|Protection||Battery undervoltage alarm||Factory default: 11V（Single battery voltage）|
|Battery undervoltage protection||Factory default: 10.5V（Single battery voltage）|
|Battery overvoltage alarm||Factory default: 15V（Single battery voltage）|
|Battery overvoltage protection||Factory default: 17V（Single battery voltage）|
|Battery overvoltage recovery voltage||Factory default: 14.5V（Single battery voltage）|
|Overload power protection||Automatic protection (battery mode), circuit breaker or insurance (AC mode)|
|Converter output short circuit protection||Automatic protection (battery mode), circuit breaker or insurance (AC mode)|
|Temperature protection||>90°C（Shut down output）|
|Alarm||A||Normal working condition, buzzer has no alarm sound|
|B||Buzzer sounds 4 times per second when battery failure, voltage abnormality, overload protection|
|C||When the machine is turned on for the first time, the buzzer will prompt 5 when the machine is normal|
Inside Solar controller
|Charging Mode||PWM or MPPT|
|PV Input Voltage Range||PWM: 300V-400V(240V system)； 480V-704V(384V system) / MPPT: 300V-400V(240V system)；480V-640V(384V system)|
Max PV Input Voltage(Voc)
(At the lowest temperature)
|PWM: 500V(240V system) ;750V(384V system) / MPPT: 500V(240V system) ;800V(384V system)|
|PV Array Maximum Power||
240V system: (PWM:14KW(50A)/28KW(100A)) / (MPPT:14KW(50A)/14*2KW(100A))；
384V system: (PWM:22.4KW(50A)/44.8KW(100A)) / (MPPT:22.4KW(50A)/22.4*2KW(100A))
|Maximum conversion efficiency||>95%|
|Working Mode||Battery First/AC First/Saving Energy Mode|
|Thermal method||Cooling fan in intelligent control|
|Communication(Optional)||RS485/APP（WIFI monitoring or GPRS monitoring）|
|Elevation||2000m（More than derating）|
|Humidity||0%~95% ,No condensation|
|Note: All specifications are subject to charge without prior notice|
■ Solar DC to AC Converter Details
■ Solar DC to AC Converter Wiring Diagram
We offer 3 optional working modes for solar converter dc to ac (transfer time≤4ms):
01 Grid priority mode: When the power grid and battery are connected to the inverter, power grid will supply power to the loads directly after voltage being stabilized and charge batteries via inverter. When the power grid is cut off, the battery will automatically continue to supply power via inverter.
02 Energy saving mode: If the power of the connected AC loads is lower than 5% of the inverter’s rated power, there will be no output from the inverter. Only the chip of inverter is working. The power consumption of the inverter is only 1~6W. The LCD shows the output voltage 0. If the power of the connected loads is over 5%, within 5S the inverter will automatically convert DC to AC to supply power for the loads . The LCD shows the output voltage.
03 Battery priority mode: When the power grid and battery are connected to the inverter, battery will supply power to the loads first. When battery capacity is not enough, the power grid will continue to supply power automatically.
■ Why Choose Us？
■ About Xindun Power
■ Solar DC to AC Converter Factory
■ Qualifications and Certificates
■ Global Solar Exhibitions
Q1: Are you a factory?
A: Yes, we are the top 10 power supply manufacturers in China, with over 7000 square meters production area. We focus on dc to ac converters, solar charge controllers, solar generators and solar power system solution. We cooperate with some famous brands all over the world, can provide customized production or add your logo on products.
Q2: What is the price of solar dc to ac converter?
A: Tell me your requirements, such as power, voltage, charging current, quantity, and whether there are other functional requirements. We will give you the most favorable ex factory price. Solar dc to ac converter factory direct sales, no middlemen earn price difference.
Q3: What type of converters do you produce?
A: We produce various types of converters: pure sine wave converters, off-grid converters, on/off grid converters, solar hybrid converters, single phase converters, 3 phase converters, low frequency converters, high frequency converters, etc. Don’t know which type of converter to choose? Contact XINDUN now!
Q4: What's the difference between solar converter and hybrid converter?
A: Converter is design to turn DC (Direct Current) into AC (Alternating Current). Both solar converter and hybrid converter are widely used in PV solar energy into electric energy. Hybrid converter contains the function of a solar converter, also adds a built-in solar charge controller. Also it can be a combination of off grid and grid tie converter in one machine with same description as you called hybrid converter.
Q5: How to solve the dc to ac converter solar technical problem?
A: We will provide market and product training services, 24 hours after-service consultancy just for you and to make your problem to solveeasily.