PHYD12K-3P-HV IP65 12kw pure sine wave solar inverter 3 phase

Prostar PHYD12K-3P-HV IP65 12kw pure sine wave solar inverter 3 phase allows for seamless self-consumption of solar power while also providing the ability to feed excess energy back into the grid, optimizing energy usage and reducing electricity bills.

In the event of a power outage, the high voltage 12kw pure sine wave solar inverter automatically restarts when AC power is restored, ensuring continuous operation and minimal disruption.

Designed to work seamlessly with lithium batteries, this 3 phase 12kw pure sine wave solar inverter provides a safe and efficient means to store and utilize renewable energy. It supports the latest battery technology, making it ideal for modern solar systems.

Users can easily set the priority for power supply from either the battery or the grid, providing flexibility in energy management based on individual needs.

12KW Pure Sine Wave Solar Inverter Features

Three-Phase Operation

Designed for three-phase grid connection, ensuring stable power supply and compatibility with most commercial and industrial electrical systems.

Mains and Generator Compatibility

The solar inverter is compatible with mains voltage and generator power, offering flexibility in power sourcing and backup solutions.

On/Off-Grid Capability

This inverter seamlessly operates in both on-grid and off-grid conditions, providing reliable energy management in various situations.

High Battery Voltage for Lithium Batteries

Optimized for high battery voltage systems, especially lithium batteries, the inverter ensures efficient energy storage and usage.

Parallel Operation

The inverter can be paralleled up to 10 units for both on-grid and off-grid operations, allowing for scalable solutions in larger power installations.

Peak Shaving

Support peak shaving, allowing users to reduce energy costs by managing and minimizing peak demand charges.

100% Three-Phase Unbalanced Output

With the ability to handle a 100% unbalanced load across the three phases, this hybrid solar inverter ensures stable and efficient power distribution even under challenging conditions.

IP65 Protection

With its IP65-rated enclosure, it is resistant to dust, water, and other environmental factors, making it suitable for both indoor and outdoor installations.

Efficient Cooling System

The inverter’s advanced cooling system ensures optimal performance and longevity, even under high load conditions.

Hybrid Solar Inverter Diagram

 

Hybrid Inverter Overviews

CT Sensor Connection

Connecting a Current Transformer (CT) sensor to an IP65 3-phase hybrid solar inverter is an important step for accurately measuring the current flowing through the system, which in turn allows for precise energy management and monitoring.

 

Ensure that the CT connected to the live wire of Phase 1 is connected to CT1 input on the inverter, CT for Phase 2 to CT2, and CT for Phase 3 to CT3.

Energy Meter Installation Wiring Diagram

#1. CHINT Meter Wiring

 

#2. Eastron Meter Wiring

 

Parallel Connection

For the high battery voltage hybrid solar inverter in parallel operation, the lead-acid battery is not supported. Please use approved lithium battery.

Parallel operation requires precise voltage matching and synchronization between batteries. Lithium batteries are usually more consistent in their voltage output, making them better suited for this type of operation.

Applications of IP65 Hybrid Inverter

Residential Homes

• Ideal for homeowners looking to reduce their electricity bills by generating their own power.
• Provides backup power during grid outages, ensuring continuous power supply for essential appliances.

Commercial Buildings

• Suitable for offices, retail stores, and other commercial facilities that require reliable and sustainable power solutions.
• Can help businesses save on energy costs and reduce their carbon footprint.

Industrial Facilities

• Ideal for factories, warehouses, and manufacturing plants where consistent power supply is critical.
• Supports peak shaving to manage peak demand charges and reduce overall operational costs.

Remote Areas and Off-Grid Locations

• Perfect for remote locations where grid access is limited or unreliable.
• Enables standalone power systems that can operate independently of the main grid.

Agricultural Operations

• Useful for farms and ranches where solar energy can power irrigation systems, lighting, and other essential equipment.
• Can also provide backup power for critical operations during outages.

 

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