IGBT Based 3 phase pwm inverter with battery charger can be used in single-phase and three-phase ac load with total power not exceeding 40kva/50kva/60kva/80kva, 192v/384vdc to 380vac.
■ 3 Phase Battery Inverter Charger Feature
1 Pure sine wave output.
2 Low DC voltage, saving system cost.
3 3 Phase hybrid inverter charger built-in PWM or MPPT charge controller.
4 AC charge current 0-45A adjustable.
5 Wide LCD screen, clearly and precisely shows icon data.
6 100% imbalance loading design, 3 times peak power.
7 Setting different working modes based on variable usage requirements.
8 DC first/AC first optional.
9 Various communication ports and remote controls (RS232/RS485/APP/SNMP/GSM optional).
■ 3 Phase Battery Inverter Charger Specification
|Input||DC Input Voltage Range||10.5VDC-15VDC（Single battery voltage）|
|AC Input Voltage Range||380Vac/400Vac±10%(customized 190Vac/200Vac)|
|AC Input Frequency Range||45Hz-55Hz（50Hz）/ 55Hz-65Hz（60Hz）|
|Max AC charging current||0-45A(Depending on the model）|
|AC charging method||Three-stage (constant current, constant voltage, floating charge)|
|Output Voltage(Battery Mode)||380Vac/400Vac±10%(customized 190Vac/200Vac)|
|Output Frequency(Battery Mode)||50/60Hz ±1%|
|Output Wave(Battery Mode)||Pure Sine Wave|
|Output waveform distortion||Linear load≤3%|
|Output Voltage(AC Mode)||Conforming to AC input|
|Output Frequency(AC Mode)||Conforming to AC input|
|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)||≤10W|
|Battery Type||VRLA Battery||Charge Voltage :13.8V; Float Voltage:13.7V（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||11V（Single battery voltage）|
|Battery undervoltage protection||10.5V（Single battery voltage）|
|Battery overvoltage alarm||15V（Single battery voltage）|
|Battery overvoltage protection||17V（Single battery voltage）|
|Battery overvoltage recovery voltage||14.5V（Single battery voltage）|
|Overload power protection||Automatic protection (battery mode), circuit breaker or insurance (AC mode)|
|Inverter 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||MPPT or PWM|
|Charging current||PWM: 100A-200A(192V&384V System) / MPPT: 50A/100A(192V&384V System)|
|PV Input Voltage Range||PWM: 240V-352V(192V System); 480V-704V(384V System) / MPPT: 240V-360V(192V System); 480V-640V(384V System)|
Max PV Input Voltage(Voc)
(At the lowest temperature)
|PWM: 400V(192V System); 750V(384V System) / MPPT: 450V(192V System); 800V(384V System)|
|PV Array Maximum Power||
192V System: (PWM:22.4KW(100A)/16.8KW*2(150A)/22.4KW*2(200A)) / (MPPT: 11.2KW(50A)/11.2KW*2(100A));
384V System: (44.8KW(100A)/33.6KW*2(150A)/44.8KW*2(200A)) / (MPPT: 22.4KW(50A)/22.4KW*2(100A))
|Maximum conversion efficiency||>95%|
|Working Mode||Battery First/AC First/Saving Energy Mode|
|Thermal method||Forced air cooling|
|Communication(Optional)||RS485/APP（WIFI monitoring or GPRS monitoring）|
|Noise||2000m（More than derating）|
|Humidity||0%~95% ,No condensation|
1. Contact us for 30kw inverter, 50kw inverter, 50kw hybrid inverter or 60kw inverter technical specification.
2. Note: All specifications are subject to charge without prior notice
■ 3 Phase Battery Inverter Charger Details
■ 3 Phase Battery Inverter Charger Wiring Diagram
We offer 2 optional working modes for 3 phase inverter charger (transfer time≤4ms):
1. Home or Industry Backup System:
When AC grid power is available, inverter charges battery, at the same time, AC grid power bypass through inverter to home or industrial appliances, such as freezer, electric drill, water pump. When AC grid power is off, it will automatic transfer switch to battery power and convert DC to AC power.
2. Wind or Solar Power system:
Convert DC to AC power. When battery power is lacking, it will automatic transfer to grid power for powering continuously.
■ 3 Phase Battery Inverter Charger Application
■ Why Choose Us？
■ About Xindun Power
■ 3 Phase Battery Inverter Charger 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 inverters, 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 3 phase battery inverter charger?
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. 3 phase battery inverter charger factory direct sales, no middlemen earn price difference.
Q3: What type of inverters do you produce?
A: We produce various types of inverters: pure sine wave inverters, off-grid inverters, on/off grid inverters, solar hybrid inverters, single phase inverters, 3 phase inverters, low frequency inverters, high frequency inverters, etc. Don’t know which type of inverter to choose? Contact XINDUN now!
Q4: What\'s the difference between pure sine wave inverter and modified sine wave inverter?
A: Pure sine wave output inverter is just as good as the public power grid, even better. Low repaired rate, long lifespan, without harmonic pollution, enviromental-friendly and appliances protected.
Modified sine wave output inverter has a negative impact on appliances and can\'t load inductive load, such as air contition, refrigerator and etc. Certain motor control circuits don\'t like the modified wave.
Q5: What\'s the difference between solar inverter and hybrid inverter?
A: Inverter is design to convert DC (Direct Current) into AC (Alternating Current). Both solar inverter and hybrid inverter are widely used in PV solar energy into electric energy. Hybrid inverter contains the function of a solar inverter, also adds a built-in solar charge controller. Also it can be a combination of off grid and grid tie inverter in one machine with same description as you called hybrid inverter.
Q6: How to solve the 3 phase battery inverter charger 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.