PIE3.5K-24-PRO pure sine wave hybrid solar inverter 3500w 24v

Prostar PIE3.5K-24-PRO pure sine wave hybrid solar inverter 3500w 24v can deliver reliable and efficient power management for both residential and commercial applications. This inverter is ideal for hybrid solar power setups, seamlessly integrating solar energy with battery storage and grid or generator input.

The hybrid solar inverter’s primary function is to convert DC electricity, either from solar panels or batteries, into alternating current (AC) electricity. Pure sine wave output ensures that the AC power is smooth, stable, and suitable for sensitive electronics like computers, medical equipment, and home appliances. This pure sine wave output mimics the quality of electricity provided by the utility grid, ensuring optimal performance of connected devices.

The hybrid solar inverter 3500w 24v supports battery storage, which allows excess solar energy to be stored in batteries for use when solar power isn’t available, such as during nighttime or overcast days.

 

 

Hybrid Solar Inverter 3500W Features

Pure Sine Wave Output

It provides high-quality, clean power, protecting sensitive electronics and appliances.

Lithium Battery Wake-up Function

Equipped with advanced technology to wake up lithium batteries, optimizing the use of modern battery systems.

Selectable High Power Charging Current

Users can choose high charging current levels to suit specific battery charging needs.

WiFi Monitoring Ready

Equipped with an RJ45 communication interface, allowing for easy integration with WiFi monitoring systems for real-time performance tracking.

Auto Restart Feature

Automatically restarts the system when the AC mains power recovers, ensuring uninterrupted operation.

Battery Equalization Function

Helps maintain and balance the battery cells, optimizing performance and extending the overall battery life.

 

Hybrid Solar Inverter Introduction

 

1. LCD Display
2. Status Indicator
3. Charging Indicator
4. Fault Indicator
5. Function Buttons
6. Grounding
7. AC INPUT
8. AC OUTPUT
9. Battey Connection
10. PV INPUT
11. RJ45 Communication Interface (for WiFi)
12. Power ON/OFF

 

Off Grid Solar Inverter Details

TOP View

 

Side View

Button View

 

Lithium Battery Wake-up Explanation

This feature allows the battery to enter standby mode and automatically power down when it reaches a low voltage or a low state of charge (SOC). When an external power source, such as solar (PV) power or AC power, becomes available—typically the following day—the system automatically exits standby mode. As long as the power source remains stable, the system transitions into its normal operating mode and begins charging the battery. This process is fully automated, requiring no manual intervention. Customers do not need to press a button or restart the system manually. The system seamlessly reactivates and restores itself to standby mode upon detecting the availability of AC or PV power, ensuring hassle-free and uninterrupted operation.

Why Lithium Battery Need to Wake UP?

Lithium-ion batteries can sometimes enter a state called “sleep mode” or “deep discharge mode” when their voltage drops below a certain threshold, typically due to extended periods of disuse or over-discharge. In this state, the battery appears inactive or non-responsive to charging attempts. Here are the reasons why a lithium battery might need to be “woken up”:

Safety Circuit Activation

Most lithium-ion batteries come equipped with a protective circuit to prevent over-discharge. When the voltage drops too low, this circuit cuts off power to prevent damage. The battery needs to be “woken up” by bypassing or gradually raising the voltage above the cut-off threshold so that charging can resume.

Prevention of Over-Discharge Damage

Deep discharge can permanently damage a lithium battery’s cells. The wake-up process is a controlled way of restoring normal operation without stressing the battery’s chemistry.

Cell Balancing

The battery management systems (BMS) can shut off battery cells that are imbalanced. Waking up the battery might allow the system to balance the cells again before it resumes normal operation.

Low Self-Discharge

Lithium-ion batteries have a low self-discharge rate but can still lose charge over time if left unused. In cases of extended storage, they can reach a very low voltage, and waking up is required to initiate charging.

 

Hybrid Solar Inverter Applications

Residential Solar Power Systems

Ideal for home installations where energy independence and power continuity are crucial. The inverter seamlessly integrates solar power, battery storage, and utility grid input, ensuring homes have power even during grid outages.

Rural and Remote Locations

In areas with limited or no access to the utility grid, such as rural or remote locations, this inverter provides a reliable power source by combining solar energy and battery backup.

Emergency Backup Power Systems

The inverter can be used as part of an emergency backup system, providing reliable power during grid outages. It seamlessly switches between the solar energy system and the generator or utility mains, ensuring uninterrupted power for critical loads.

Farms and Agricultural Facilities

The inverter is a perfect fit for farms that utilize solar energy to power equipment such as irrigation systems, lighting, and refrigeration, while its robust design can withstand harsh outdoor environments.

 

The Articles You may Like

• What Can You Run Off a 3000W Inverter
• How Long will 48V 100AH Lithium Battery Last?
• Uninterruptible power supply – Wikipedia
• Considering When Choose Reliable UPS Systems for Your Application
• Hybrid Solar Inverters Provide Off-grid Power Availability
• Why 3 Phase Solar Power Inverter is Essential for Large-Scale Solar Projects
• Can Off Grid Solar Inverter Charge Controller Run without Battery