10000W Pure Sine Wave Inverter Charger 48V

SKU: PH-PI-GS10000

$3,178.80

● A reliable 10000W hybrid inverter charger, pure sine wave output and an LED/LCD display. ● Supports 5 adjustable AC charging current levels, with priority AC/DC mode. ● 48V battery input, built-in 40A/60A selectable MPPT solar charge controller. ● Features overload and output short-circuit protection. ● Suitable for stable power supply to air conditioners, refrigerators, water pumps, motors, office equipment, and lighting systems.

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Overview
Specs
Application
FAQ
Reviews

Overview

This 10000W pure sine wave inverter charger features a built-in 40A/60A MPPT charge controller, converting 48V DC power from a battery pack to AC power, supporting solar charging and providing reliable power continuity and stability. It offers 5 adjustable AC charging current levels and an LED/LCD display for easy setup and operation. The solar inverter charger 48v has multiple protection functions including overload, over-temperature, low power, and overcharge protection, making it suitable for various scenarios such as air conditioners, refrigerators, water pumps, microwave ovens, induction cookers, communication equipment, and RVs. It can serve as a backup power source for mains power or a core component of off-grid/hybrid solar energy storage systems.

Feature

10kW off-grid hybrid inverter with stable pure sine wave output, equipped with LCD display, strong load capacity
Features overload and short-circuit protection, can withstand 3 times peak power
Built-in 40A/60AMPPT solar charge controller, suitable for AC and solar system charging
5-level adjustable AC charging current, selectable AC charging switch and AC/DC priority mode.
Low-frequency transformer design, high-efficiency conversion
Apply for powering inductive loads such as TVs, computers, lighting fixtures, fans, and water pumps

Details

LCD Display: Real-time monitoring of operating mode
High-Current Battery Interface: Suitable for stable power supply under high-power loads
Remote Control Interface: Enables remote power on/off and status monitoring
High-Efficiency Heat Dissipation Vents: Effectively improves heat dissipation efficiency
Charging Input Protection: Prevents overvoltage, overcurrent, and other abnormal conditions
Inverter Output Protection: Quickly cuts off output under abnormal load conditions to protect electrical equipment
Built-in Circuit Breaker: Enhances overall system safety
Independent Power Switch: Facilitates manual control of equipment start/stop

Inverter Split-Phase Output Terminal Description

Inverter charger split-phase output terminal description

Specs

Power	10000 Watt
Phase	Single phase, Split phase
AC Input
Input Voltage Waveform	Sinusoidal (utility or generator)
Nominal input Voltage	HOT-N: 120V AC, 230V AC, 240V AC
Nominal input Voltage	Split phase (HOT-HOT): 240V AC
Low Line Disconnect	180Vac±4% (Normal) or 140Vac±4% (Wide)
Low Line Re-connect	190Vac±4% (Normal) or 150Vac±4% (Wide)
High Line Disconnect	270Vac±4% (Normal) or 270Vac±4% (Wide)
High Line Re-connect	260Vac±4% (Normal) or 260Vac±4% (Wide)
Max AC input Voltage	Max 280V
Frequency	50Hz: 41-54Hz; 60Hz: 51-64Hz
AC Output
Output Voltage Waveform	Sine wave
Power Factor	1
Nominal Output Voltage (V)	HOT1-N: 120Vac ±10%rms; HOT2-N: 120Vac ±10%rms; HO1-HOT2: 240Vac ±10%rms
Output Phase Difference	HOT1-N and HOT2-N is 180°; HOT1-N and HOT1-HOT2 is 0°; HOT2-N and HOT1-HOT2 is 180°
Nominal Output Frequency (Hz)	50Hz ± 1Hz, 60Hz ± 1Hz
AC Charger
Nominal Charger Current	20A/35A/50A/70A/90A (According to the inverter model) ; adjustable 5 stages charging current;
Over charge Protection	Bat.V≥15.5VDC for 12V battery, Bat.V≥31.0VDC for 24V battery, Bat.V≥62.0VDC for 48V battery; beeps 0.5s every 1s & fault after 60s
Solar Charger
Rated Charge Current	Alternative 40A/60A
PV Input Voltage range	15VDC-40VDC for 12VDC, 30VDC-75VDC for 24VDC, 60-145VDC for 48V
Max.PV open circuit array Voltage	12V for 40VDC, 24V for 75VDC, 48V for 145VDC
Charger mode	MPPT
PV Low Voltage Re-connect	PV≥Bat.V+3V
PV Low Voltage Disconnect	PV≦Bat.V
Effificiency	≥97%
DC Input
Battery Voltage	48VDC
Low Battery Alarm	42VDC±1.2VDC
Low DC input shut & down	40VDC±1.2VDC
High DC input Alarm & Fault	64VDC±1.2VDC
Efficiency
Efficiency (Battery Mode)	≥87%
Efficiency (Line Mode)	＞98%
Transfer Time
AC to DC	20ms (max)
DC to AC	15ms (max)
System Parameter
Over-Load Protection	110%＜load＜150%, beeps 0.5s every 1s, and Fault after 60s off the output, load＞150%, beeps 0.5s every 1s, and Fault after 20s
Output Short Circuit Protection	YES
Surge Rating	1:3 (VA)
Protections	Low battery, over charging, over load, over temp
Indicators	LED+LCD Display
General Specifications
Operating Temperature Range	0℃～40℃
Stor age Temperature	-15℃～60℃
Operation humidity	5% to 95% (non-condensing)
Audible Noise	80dB max
Cooling	Forced air, variable speed fan
Dimension (LWH)	627x416x204mm
Net Weight (kg)	73kg

Application

New Energy Power

Small Electrical Appliances

Outdoor Travel

Emergency Power Supply

FAQ

Q1: Can this inverter battery charger be used without sunlight?

Yes. Solar inverter chargers do not rely entirely on sunlight. At night or in cloudy weather, the system prioritizes battery power, converting the DC power from the battery into AC power for the load. If the battery is low and the device supports AC or generator input, it can automatically switch to AC or generator mode while simultaneously charging the battery, ensuring continuous power supply. Therefore, even without sunlight, the solar hybrid inverter charger can still operate stably.

Q2: Is a solar inverter charger suitable for off-grid or hybrid systems?

Solar inverter chargers are suitable for both off-grid and hybrid systems. In off-grid systems, it is the core power device, independently managing solar power generation, battery storage, and load power supply. In hybrid systems, the inverter charger can work in conjunction with AC power, enabling solar priority, automatic switching, and backup power functions, improving energy utilization and power supply stability. The hybrid inverter with solar battery charging is widely used in residential, commercial, and emergency backup power scenarios.

Q3: What issues should be considered when installing a solar inverter charge controller?

During installation, special attention should be paid to power matching, battery voltage, and safe environment. First, the rated power of the power inverter charger must be higher than the actual load requirement and consistent with the battery pack voltage (e.g., 24V, 48V). Second, the equipment should be installed in a well-ventilated, dry location, avoiding high temperatures and direct sunlight to ensure heat dissipation and lifespan. Simultaneously, wiring must be standardized, and circuit breakers, fuses, and grounding systems must be properly configured to ensure safe and stable solar charge converter system operation.

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