HS2030UH48L pure sine wave hybrid split phase inverter 3000w

GRANKIA HS2030UH48L pure sine wave hybrid split phase inverter 3000w can work for modern off-grid, hybrid, and backup power systems. The 48v hybrid split phase inverter 3000w offers multiple essential functions in a compact, reliable unit. It includes a high-efficiency pure sine wave inverter and an advanced MPPT solar charge controller. There is also a smart AC battery charger and an automatic transfer switch (UPS function).

The 48V hybrid split phase inverter 3000w is specifically engineered for split-phase applications. It delivers 120V for standard household appliances. It also provides 240V for high-power loads like well pumps, dryers, air conditioners, or power tools. This makes it an ideal choice for North American homes, cabins, RVs, small businesses, and remote power setups.

 

Hybrid Split Phase Inverter Key Features

True Pure Sine Wave Output

Provides stable, high-quality AC power identical to utility grid standards. This ensures safe and efficient operation of sensitive electronics, medical devices, and variable-speed motors. It also supports all household appliances without humming, overheating, or reduced lifespan.

Built-in MPPT Solar Charge Controller

High-efficiency tracking with wide PV input range up to 500V DC open circuit, maximizing solar harvest even in partial shade or variable weather.

AC Input & Charging

Supports grid/generator input with configurable priority modes (Solar/Battery first or Utility first) and powerful battery charging capability.

Support for Battery-Free Operation 

In areas with reliable grid access, the inverter can combine solar PV input and grid power to supply loads directly — ideal for reducing electricity bills while maintaining backup capability.

Time-of-Use (TOU) Optimization

Advanced charging and discharging settings let users schedule operations based on peak/off-peak electricity rates. These settings significantly lower energy costs. Users can store solar energy during low-rate periods. They can discharge it during high-rate times.

Two-Level Anti-Backflow Protection

Ensures safe grid interaction by preventing excess solar power from flowing back into the grid without permission (CT sensor compatible for zero-export setups in regions requiring it).

Technical Specifications (Representative)

• Model: HS2030UH48L,
• Rated power: 3000W,
• AC Input: 120Vac – 240Vac,
• AC Output: 120Vac / 240Vac,
• Frequency: 50/60 Hz (auto-sensing or selectable),
• DC Input: 48VDC,
• PV Input: 90-450VDC,
• Transfer time: <10 ms,
• MPPT Efficiency: ≥98%,
• Max. Charging Current: 60A
• Battery type: VRLA/AGM/LiFePO4,
• Wave Form: Pure Sine Wave,
• Communications: RS485/CAN, Optional Wi-Fi/GPRS,
• Dimension: 350x133x540.

Hybrid Split Phase Inverter Diagram

No.	Parts	Description
1	Solar Inverter	Split-phase solar inverter.
2	Battery Bank	Select the appropriate battery model according to the inverter–battery compatibility list.
3	PV String	A PV string consists of multiple photovoltaic modules connected in series.
4	Battery Breaker	Users should prepare a 2P DC circuit breaker.
5	AC Breaker	The AC breaker specifications for the LOAD and GRID must be the same for a given inverter model. The AC breaker should be provided by the end user.
6	SPDT Switch	To ensure the load can be powered by the grid during inverter maintenance, install an SPDT switch.
7	Generator	The generator’s maximum output power must be equal to or greater than the inverter’s rated power.

 

Product Details

1.LED Indicator	2.LCD Display	3.AC Input Breaker	4.Label
5.PV Input Switch	6.Ground(PE)	7.Power On/Off	8.WiFi/GPRS (Option)
9.AC Input Terminal	10.Second Output / Generator Input Terminal	11.Main Output Terminal	12.COM Communication Port
13.BMS Communication Port	14.Dry Contact	15.Battery Terminal	16.PV Input Terminal (PV1/PV2)

Split Phase Inverter Working Modes

1. Daytime – Solar Power Surplus

• The solar panels generate enough energy to supply all household loads.

• Priority of energy flow:

  1. Home loads are powered first (appliances, lighting, etc.).

  2. Batteries are charged with excess solar power.

  3. Remaining energy is exported to the grid (feed-in).

• This maximizes self-consumption and allows selling extra electricity to the utility grid.

2. Daytime – Solar Power Insufficient

• Solar energy is available but not enough to cover all loads.

• Priority of energy flow:

  1. Solar power supplies loads first.

  2. Batteries discharge to support the loads.

  3. If still insufficient, power is imported from the grid.

• This reduces grid dependency while keeping loads running continuously.

3. Nighttime – No Solar Production

• Solar panels stop producing energy.

• Priority of energy flow:

  1. Batteries discharge to power household loads.

  2. If battery power is not enough, the grid supplies the loads.

• This ensures uninterrupted power supply even at night.

How These Features Benefit You

• Enhanced Energy Management: Dual outputs + generator input allow precise control over power sources and loads, maximizing solar self-consumption while minimizing grid/generator runtime and fuel costs.
• Greater Reliability: Automatic failover between solar, battery, grid, and generator ensures minimal downtime — ideal for remote cabins, rural homes, or areas with frequent outages.
• Scalability & Flexibility: Combine with parallel operation (multiple units) for larger systems, and use batteryless mode or time-of-use settings for further optimization.

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