Buy Solar Inverters Price in India | Off Grid & Hybrid Solar


Welcome to this comprehensive guide on solar inverters! In this article, we will explore the critical role of solar inverters in the process of harnessing solar power. Solar energy is a clean and renewable source of electricity, and understanding the function and importance of solar inverters is essential for maximizing the efficiency and effectiveness of solar power systems.

In this guide, we will delve into the world of solar inverters, explaining their purpose, types, installation, and maintenance. So, let's demystify solar inverters and unlock the power of solar energy!

What is a Solar Inverter?

A solar inverter is a vital component of a solar power system. Its primary function is to convert the direct current (DC) electricity generated by solar panels into alternating current (AC) electricity, which is the type of electricity used in homes, businesses, and industries. The conversion from DC to AC enables the electricity to be used by various appliances, lighting, and other electrical loads.

solar inverter

Types of Solar Inverters

There are different types of solar inverters available, each with its own advantages and applications. Let's explore the most common types:

Price List of Solar Inverter 2023

On-Grid Inverter Model Rating (kW) Selling Price
1kW On-Grid Inverter 1kW – 1 Phase Rs. 19,000
2kW On-Grid Inverter 2kW – 1Phase Rs. 25,000
3kW On-Grid Inverter 3kW – 1Phase Rs. 30,000
5kW On-Grid Inverter 5kW – 1Phase Rs. 45,000
6kW On-Grid Inverter 6kW – 3Phase Rs. 75,000
10kW On-Grid Inverter 10kW – 3Phase Rs. 90,000

1. String Inverters

String inverters, also known as centralized inverters, are the traditional and most widely used type of solar inverters. They are typically installed at a centralized location and connected to multiple solar panels in a series, forming a string. The DC electricity generated by the solar panels is sent to the string inverter, which converts it into AC electricity for use.

String inverters offer high efficiency and reliability. They are suitable for residential and small to medium-sized commercial installations. However, one drawback is that the performance of the entire string can be affected if one panel is shaded or experiences a drop in performance.

2. Microinverters

Microinverters are smaller inverters that are installed on each individual solar panel in a system. Unlike string inverters, microinverters work independently for each panel, converting the DC electricity into AC right at the panel level. This allows each panel to operate optimally, regardless of shading or differences in panel performance.

Microinverters offer several advantages, including increased system efficiency, improved panel-level monitoring, and enhanced safety. They are ideal for installations with complex shading issues or panels with different orientations. However, they may have a higher upfront cost compared to string inverters.

3. Power Optimizers

Power optimizers are similar to microinverters in that they are installed at the panel level. However, instead of converting DC to AC electricity, power optimizers condition the DC electricity before sending it to a centralized string inverter. They optimize the power output of each panel individually, reducing the impact of shading or panel performance variations.

Power optimizers offer increased system efficiency and improved monitoring capabilities. They are a good option for installations with partial shading or panels with different orientations. They can be more cost-effective than microinverters while still providing panel-level optimization.

4. Hybrid Inverters

Hybrid inverters, also known as multi-mode inverters, are designed to work in conjunction with energy storage systems, such as batteries. They not only convert DC electricity into AC for immediate use but also have the capability to store excess energy in batteries for later use when solar production is low or during power outages.

Hybrid inverters are suitable for both grid-tied and off-grid systems, offering increased energy independence and the flexibility to utilize stored energy. They are commonly used in residential and commercial installations where energy resilience and backup power are desired.

Installation and Integration

Installing a solar inverter requires careful consideration and expertise. Here are the key steps involved in the installation and integration process:

off grid solar panel system

  • System Design: Determine the appropriate type and capacity of the solar inverter based on your specific energy needs and the characteristics of your solar panel array.

  • Location and Mounting: Select a suitable location for the solar inverter, considering factors such as accessibility, ventilation, and proximity to the solar panel array. Ensure proper mounting according to manufacturer guidelines.

  • Wiring and Connection: Connect the solar inverter to the DC output of the solar panels ensuring correct polarity and secure connections. Connect the AC output of the inverter to the electrical distribution system of your property.

  • Safety Measures: Adhere to all safety guidelines and regulations during the installation process. Ensure proper grounding and electrical protection mechanisms are in place.

  • Configuration and Testing: Configure the settings of the solar inverter according to your system requirements. Perform thorough testing to ensure proper functionality and performance.

It is highly recommended to consult a professional solar installer for the installation and integration of solar inverters. They have the expertise and knowledge to ensure a safe and efficient setup.

Monitoring and Maintenance

Regular monitoring and maintenance of solar inverters are essential to ensure optimal performance and longevity. Here are some key aspects of monitoring and maintenance:

Monitoring System Performance: Use monitoring tools provided by the inverter manufacturer or third-party monitoring systems to track the performance of your solar power system. Monitor energy production, system efficiency, and any potential issues or errors.

Cleaning and Inspection: Regularly inspect the solar inverter for any signs of damage, corrosion, or loose connections. Keep the area around the inverter clean and free from dust, debris, and obstructions. Follow manufacturer guidelines for cleaning and maintenance.

Software Updates: Stay up-to-date with the latest firmware and software updates for your solar inverter. These updates often include improvements, bug fixes, and enhanced functionality.

Professional Maintenance: Consider scheduling periodic professional maintenance and inspections of your solar inverter system. A professional can identify potential issues, perform necessary repairs, and ensure the overall health and efficiency of your system.