Beijing Shan Hu International Technology Co., Ltd. Company
                                            Profile
Products Details
Home > products >
ROH-H-P20 Series Pure Sine Power Inverter Ultra Compact 5,500W For Wall Mounting 220/230VAC
  • ROH-H-P20 Series Pure Sine Power Inverter Ultra Compact 5,500W For Wall Mounting  220/230VAC
  • ROH-H-P20 Series Pure Sine Power Inverter Ultra Compact 5,500W For Wall Mounting  220/230VAC

ROH-H-P20 Series Pure Sine Power Inverter Ultra Compact 5,500W For Wall Mounting 220/230VAC

Product Highlights: High-durability Lithium Batteries (over 6000 Cycles)
Utility Voltage: 176VAC To 264VAC
Utility Frequency: 45Hz To 65Hz
Maximum Utility Charging Current: 100A
Inverter Rated Power (@35°C): 5,500W
Inverter Output Voltage: 220/230VAC±3%
Download

Product Details

Place of Origin:
China
Brand Name:
SANGSOLAR
Certification:
CE/TUV
Model Number:
SANGSOLAR
Minimum Order Quantity:
2 sets
Price:
Negotiated
Packaging Details:
Carton on Pallet
Delivery Time:
10-30days
Payment Terms:
TT/LC/Alibabashop
Supply Ability:
50000sets
High Light: 

compact pure sine wave inverter

,

compact pure sine power inverter

,

5

,

500w pure sine wave inverter

Product Description

Experience Advanced Energy Solutions with the ROH-H-P20 Series All-In-One Energy Storage System. This sophisticated system is designed to meet the demands of modern energy management, integrating high-durability lithium batteries with an off-grid inverter in a sleek, wall-mountable package. Capable of handling up to six lithium battery modules, each offering 5.12 kWh for a total of up to 30.72 kWh, the ROH-H-P20 ensures substantial power capacity for a variety of uses, from residential backup to off-grid applications.

The system's off-grid inverter host offers comprehensive energy solutions with its ability to manage inputs from the grid, oil generators, and solar panels while providing utility bypass and inverter output options. This allows for flexible and efficient use of available power sources, ensuring optimal energy utilization. The ROH-H-P20 features state-of-the-art DSP control technology for precise and stable operation, enhanced by MPPT technology that maximizes the efficiency of solar arrays under various conditions.

For user convenience, the unit supports extensive parallel operation capabilities, making it scalable for more extensive setups by linking multiple systems for either single-phase or three-phase output. Its user-friendly interface, complete with a large LCD screen, provides real-time system data and operational control, further simplified by remote management capabilities via Bluetooth or Wi-Fi.

Embrace the future of energy with the ROH-H-P20 Series, where functionality meets innovation in energy storage, offering a smart, space-saving solution that guarantees safety, efficiency, and reliability for all your power needs.

Product Highlights

Ultra-compact design for wall-mounting

High-durability lithium batteries (over 6000 cycles)

Pure sine wave output

Main unit supports single-phase and three-phase parallel operation (up to 12 units)

Dual PV input support enhances PV utilization efficiency

RS485 communication interface, optional Bluetooth, WiFi, 4G,etc.

Remote monitoring via App

Historical data recording function, storage capacity of 25000 records

Comprehensive electronic protection

Operating temperature range: -20℃ to 50℃

 

SUCCESSFUL PROJECTS
Latest company solutions  about Solar Farm Renewable Energy Solutions

Solar Farm Renewable Energy Solutions

Discover new ways of generating and storing energy. What are solar farms? Solar panel farms are large-scale installations of photovoltaic (PV) panels that generate electricity from sunlight. These farms can range in size from a few acres to hundreds of acres and are typically situated in rural areas where there’s ample sunlight and land availability. In the worldwide, solar farms are becoming an increasingly popular way to generate clean and renewable energy - for powering your business and selling back to the grid.   What are the benefits of solar farms? As well as providing clean, sustainable energy, solar power farms also offer a range of other benefits. They can help to reduce greenhouse gas emissions and combat climate change, and also provide opportunities for local employment, as solar farms require maintenance and monitoring. There are a few concerns raised about their impact on biodiversity and the loss of agricultural land, so in response to this, more and more countries has introduced guidelines for solar farms, which require developers to carry out environmental impact assessments and to consider the impact on local communities.   How much do solar farms cost? The cost of building a commercial solar panel farm can vary depending on the size of the installation, the location, and the quality of the PV panels used. However, according to industry experts, the average cost of building a solar farm is around €1 million per megawatt (MW) of capacity. This means that a 50MW solar farm, which is a fairly typical size in the EU, would cost around €50 million to build. Despite the initial high cost, solar farms are considered a sound investment due to the potential long-term savings on energy costs, and the opportunity to generate revenue from the sale of excess energy back to the National Grid. Solar farms in the EU usually have a lifespan of around 25 years and can generate enough electricity to power thousands of home and businesses.  
Latest company solutions  about In the intricacies of healthcare and medical systems, the importance of reliable electronic components

In the intricacies of healthcare and medical systems, the importance of reliable electronic components

​   A network core switch is an essential component of a network, typically located in the backbone or central area. It is responsible for high-capacity data transfer and plays a critical role in ensuring the smooth operation of the network. Acting as a gateway to the Wide Area Network (WAN) or the Internet, the fiber core switch facilitates connections to servers, Internet Service Providers (ISPs) through routers, and the aggregation of all other switches. To effectively handle the traffic directed to it, a core layer switch must have significant power and capacity, making it essential to be a fast, full-featured managed switch.   How Does Core Switches Work? The following sections describe how the network core switches operate in a network environment.   Network Traffic Aggregation Network core switches perform the crucial duty of aggregating network traffic from various sources, consolidating and managing it efficiently.   High-Speed Data Forwarding Core layer switches are responsible for processing and forwarding data packets rapidly and efficiently, utilizing advanced switching technologies.   Interconnectivity A core switch establishes connections between different segments and subnets within a network, enabling seamless communication and data transfer.   The aforementioned points highlight the benefits of employing a network core switch. In the event of a network failure, this equipment guarantees the reliability and integrity of data transmission by facilitating two-way data flow and enabling network self-healing. The core switch exhibits robust scalability, supporting multiple interfaces and facilitating bus network implementation. Moreover, it features an internal automatic alarm function that promptly notifies relevant personnel of any failures, ensuring timely maintenance. This convenience allows for efficient remote management and maintenance.
Latest company solutions  about High-Speed Data Forwarding

High-Speed Data Forwarding

​   A network core switch is an essential component of a network, typically located in the backbone or central area. It is responsible for high-capacity data transfer and plays a critical role in ensuring the smooth operation of the network. Acting as a gateway to the Wide Area Network (WAN) or the Internet, the fiber core switch facilitates connections to servers, Internet Service Providers (ISPs) through routers, and the aggregation of all other switches. To effectively handle the traffic directed to it, a core layer switch must have significant power and capacity, making it essential to be a fast, full-featured managed switch.   How Does Core Switches Work? The following sections describe how the network core switches operate in a network environment.   Network Traffic Aggregation Network core switches perform the crucial duty of aggregating network traffic from various sources, consolidating and managing it efficiently.   High-Speed Data Forwarding Core layer switches are responsible for processing and forwarding data packets rapidly and efficiently, utilizing advanced switching technologies.   Interconnectivity A core switch establishes connections between different segments and subnets within a network, enabling seamless communication and data transfer.   The aforementioned points highlight the benefits of employing a network core switch. In the event of a network failure, this equipment guarantees the reliability and integrity of data transmission by facilitating two-way data flow and enabling network self-healing. The core switch exhibits robust scalability, supporting multiple interfaces and facilitating bus network implementation. Moreover, it features an internal automatic alarm function that promptly notifies relevant personnel of any failures, ensuring timely maintenance. This convenience allows for efficient remote management and maintenance.