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IMAX1K0100-30kW/ DC 150-1000Vdc/ AC 380Vac non-isolated bidirectional AC/DC module

AC Input (Rectification): 260Vac~530Vac; 45Hz~65Hz
DC Output (Rectification): 150Vdc~1000Vdc
DC Input (Inverter): 300Vdc~1000Vdc
AC Output (Inverter): 260Vac~530Vac; Constant Power Output at 320Vac~530Vac
Conversion Efficiency: Full Load Efficiency >96%, Peak Efficiency >97%
Module Dimensions: 84mm (H) ×300mm (W) ×395mm (D) (Excluding Handles and Terminal Protrusions)
Isolation: Yes

The IMAX-1K0100 is a bidirectional AC/DC conversion module specifically designed to meet the bidirectional conversion applications in V2G, energy storage charging, secondary utilization of retired batteries, and microgrids with multiple energy inputs. It features a wide constant power voltage range, high efficiency, high power factor, high power density, low electromagnetic radiation and interference, and high reliability, reaching the international leading level.

Innovative Features:

Bidirectional energy flow: The same module realizes AC/DC bidirectional conversion function, enabling smooth transition when the current direction changes.
Wide DC output voltage range: 650Vdc-1000Vdc, suitable for charging and discharging needs of different types of batteries.
Wide temperature range: -40°C to +75°C, with derating output above +55°C, adapting to applications in various scenarios.
High power density: Power density up to 62W/in³, saving space within the system and reducing installation space.
Isolated air ducts and potting: The isolated air duct design improves heat dissipation efficiency, and the potting process significantly enhances protection capabilities such as salt spray resistance, moisture resistance, and mildew resistance of the module.

Main Characteristics:

Energy-saving and environmentally friendly: Module energy conversion efficiency >98.7%, effectively improving customer profitability.
Full digital control: Dual DSP design realizes full digital control of the charging module, ensuring high control reliability.
No-injury hot swapping: The module has a true no-injury hot swapping function, allowing plug-and-play.
Multi-module parallel operation: Up to 16 modules can operate in parallel, suitable for simultaneous use of different types of retired batteries.
Low standby power consumption: Standby power consumption less than 15W, achieving energy conservation and environmental protection.
Unique three-proof design: Unique salt spray resistance, moisture resistance, mildew resistance protection, and craftsmanship enable the module to adapt to various energy storage application scenarios.

Application Scenarios:

Energy storage systems
Integrated photovoltaic charging systems
Microgrids with DC busbars and energy storage
Stepwise utilization of retired batteries

Basic Parameters

AC Input (Rectification): 260Vac~530Vac; 45Hz~65Hz
DC Output (Rectification): 150Vdc~1000Vdc
DC Input (Inverter): 300Vdc~1000Vdc
AC Output (Inverter): 260Vac~530Vac; Constant Power Output at 320Vac~530Vac
Conversion Efficiency: Full Load Efficiency >96%, Peak Efficiency >97%
Module Dimensions: 84mm (H) ×300mm (W) ×395mm (D) (Excluding Handles and Terminal Protrusions)
Isolation: Yes

Rectification Mode

Voltage Regulation Accuracy: <±0.5%
Efficiency: Full Load Efficiency >96%, Peak Efficiency >97%
Current Regulation Accuracy: ≤±1% (Output Load 20%~100% Rated Range)
Output Voltage: 150Vdc~1000Vdc
Current Range: 0~100A
Rated Power: 30kW
Current THD: <5% (50%~100% Full Load Output Power)
Power Factor: ≥0.99 (Full Load Output)
Input Voltage/Frequency Range: 260Vac~530Vac; 45Hz~65Hz
Input Current Range: 0~48A
Rated Voltage: 380Vac, 3L+PE

Inverter Mode

Output Power Factor: Adjustable, Range 0.8~1, -0.8~-1
Efficiency: Full Load Efficiency >96%, Peak Efficiency >97%
Rated Power/Current: 30kW/40A
THD: <5%
Output AC Frequency: 50Hz/60Hz
Output AC Voltage & Power: 260Vac~530Vac; Constant Power Output at 320Vac~530Vac
DC Output Power: 100A
DC Input Voltage: 300Vdc~1000Vdc

Other Parameters

Dimensions: 84mm (H) ×300mm (W) ×395mm (D) (Excluding Handles and Terminal Protrusions)
Weight: ≤16kg
Communication Method: CAN Bus
MTBF: >500,000 Hours
Compliance Standards: TUV UL/CE
Mode Switching Time: 10ms (Battery Test)

Operating Environment

Relative Humidity: ≤95%RH, Non-Condensing
Altitude: 2000m, Derating Required Above 2000m
Cooling Method: Forced Air Cooling
Operating Temperature: -40℃~+75℃, Derating Required Above 55℃

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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