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MSP Series Energy Storage Inverter – MSP100HC

This is a highly efficient and reliable energy storage inverter mainly developed for small and medium-sized energy storage microgrids. It is equipped with a grid-connected and off-grid switching device, supporting multiple units to operate in parallel, oil-engine hybrid operation, and rapid grid-connected and off-grid switching. It is applicable to various scenarios such as small-scale industrial and commercial enterprises, small island microgrids, farms, villas, and battery secondary utilization, meeting the needs of different users.

System Overview

Industrial and Commercial Energy Storage + Emergency Power Backup

This system combines energy storage solutions with emergency power backup capabilities to ensure uninterrupted power supply for industrial and commercial applications.
Small and Medium-Sized Optical Storage-Diesel Microgrid

A microgrid system that integrates optical energy storage and diesel power generation, suitable for small and medium-sized applications to provide reliable and sustainable energy.
Mobile Energy Storage

Portable energy storage units that can be easily transported and deployed to provide power where and when it is needed.
Optical Storage Charging Station

Charging stations equipped with optical energy storage technology to efficiently store and utilize solar energy for charging purposes.

Product Highlights

01. Grid-connected inverter: A type of inverter designed to connect to the electrical grid, enabling the flow of power between the local power generation system and the grid.
02. 125% overloading capacity: This feature allows the system to handle loads that are 25% higher than its rated capacity for certain durations, offering flexibility during peak demand.
03. Oil-electric hybrid mode: Combines oil-based and electric power sources to create a more efficient and reliable power solution, taking advantage of both energy forms.
04. Seamless switching function: Enables smooth transition between different power sources or operating modes without interruption to the power supply.
05. Three-phase independent grid-connection control technology: Allows independent control and management of each of the three phases in a three-phase electrical system, improving overall system performance and stability.
06. Microgrid battery heterostructure: Refers to a specialized structure used in microgrid batteries, which can enhance battery performance, storage capacity, and overall efficiency within a microgrid system.

Product Parameters

Parameter	MSP100HC
Battery-side Parameters
Maximum Battery Voltage	950V
Rated Battery Range	600V
Rated Battery Voltage Range	Grid-connected: 600V-950V / Off-grid: 650V-950V
Maximum Battery Current	180A
AC Side (Grid-connected)
Rated Power	100kVA
Rated Current	152A
Rated Grid Voltage	400V/230V
Grid Voltage Range	-20% ~ 15%
Grid Frequency Range	50Hz(47Hz ~ 52Hz) or 60Hz(57Hz ~ 62Hz)
Current Harmonic	< 3%
Power Factor	-1 ~ 1
AC Side (Off-grid)
Rated Output Power	100kVA
Maximum Output Power	110kVA
Maximum Output Current	152A
Rated Voltage	400V/230V
Output Voltage Harmonic	< 1.5%
Unbalance Degree	100%
Output Overload	1.1 times long-term / 1.25 times 100S / 1.5 times 100ms
System Parameters
Grid/Off-grid Switching Time	< 10 ms
Maximum Efficiency	98.50%
Power Consumption	Standby < 15W / No-load < 130W
Protection Grade	IP20 (Core control part IP5X)
Dimensions	WLH: 440720220mm
Weight	48kg
Temperature Range	-30 ~ 60°C (Derating used above 45°C)
Humidity	0 ~ 100%
Cooling Method	Intelligent forced air cooling
Altitude	4000m (Derating used above 3000m)

Project Overview

SunCare Hospital, a leading healthcare institution committed to sustainable operations and patient well-being, partnered with us to transition its energy source to solar. The project involved the full design and installation of a customized solar power system to reduce operating costs, increase energy reliability, and support the hospital's green initiatives.

Project Objectives

This project was designed to meet the hospital’s energy needs while promoting sustainability, reducing costs, and ensuring uninterrupted service for patients and essential medical operations.

Significantly reduce electricity costs for hospital operations
Ensure uninterrupted power supply for critical medical equipment
Support the hospital’s sustainability goals and reduce carbon footprint
Inspire environmental awareness within the healthcare sector

Key Results & Benefits

35% reduction in monthly electricity bills
Estimated 210 tons of CO₂ emissions avoided annually
Return on investment projected within 4.8 years
Improved energy resilience for essential hospital services
Strengthened public image as a green healthcare leader

What We Delivered

We provided a complete solar solution tailored to the hospital’s needs, ensuring performance, safety, and long-term energy savings without disrupting daily operations.

Custom Energy Assessment

We analyzed usage patterns and infrastructure to design a system that meets specific energy needs.

Seamless Installation Without Disruption

Our team installed efficiently with zero interruption to hospital operations and strict safety procedures.

Tailored Solar System Design

We created a solar layout that maximizes efficiency while matching the hospital’s structure and goals.

Reliable Backup and Monitoring System

We integrated smart monitoring and backup support to ensure continuous power for critical medical equipment.

Our Impact

This project is more than just an energy upgrade, it is a commitment to health, sustainability, and community leadership. The SunCare Hospital solar installation reflects how renewable energy can enhance essential services without compromise.

Client Testimonial

"Working with Solarize was a smooth experience. Their team truly understood our hospital’s needs and delivered a solution that saves energy, ensures reliability, and supports our long-term sustainability goals."

Dr. Lisa

Director of Operations, SunCare Hospital

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