A home with rooftop solar panel. Pradhanmantri Narendra modi announce suryodaya yojna in India.

What is the Pradhan Mantri Suryodaya Yojana?

The Pradhan Mantri Suryodaya Yojana (PMSY) is an Indian government scheme that aims to provide reliable daytime power to rural areas and help poor and middle-class people like farmers. In this scheme, people will get relief from their electricity bills. The objective of this scheme is to reduce the electricity bills of poor or middle-class people. Let us know about this scheme.

Under the Suryodaya Yojana, rooftop solar panels will be installed in more than 1 crore houses. With the help of these rooftop solar panels, people will have a source of energy. Actually, the government has started this scheme to promote self-reliance in the energy sector.

Under PMSY, solar energy will be used to provide electricity access to poor or middle-class people.

क्या है प्रधानमंत्री सूर्योदय योजना?

Eligibility for the Pradhan Mantri Suryodaya Yojana

  1. Only Indians will get the benefit of this scheme.
  2. The annual income of the applicant will be less than Rs 1.5 lakh.
  3. All documents must be correct at the time of application.
  4. The applicant should not be in government service.

Documents are required for the Pradhan Mantri Suryodaya Yojana

  1. Aadhaar Card.
  2. Valid address proof.
  3. Electricity bill (last 3 to 6 months).
  4. Income source certificate.
  5. Valid mobile number.
  6. Bank passbook and account number.
  7. Passport-size photo.
  8. Ration card.

How to apply for Pradhan Mantri Suryodaya Yojana (PMSY)

Here is a step-by-step process to apply suryodaya yojna

  1. You have to go to the official website of the Pradhan Mantri Suryodaya Yojana (https://solarrooftop.gov.in/).
  2. After this, you have to select Apply on the home page.
  3. Now select your state and district and enter the remaining information.
  4. After this, you have to fill out the electricity bill number.
  5. After filling in the electricity cost information and basic information, enter the solar panel details.
  6. Now measure the area of ​​your roof and fill it.
  7. You have to select and apply rooftop solar panels according to the area of ​​the roof.
  8. Submit the application.

After the completion of the application, the government will deposit the subsidy amount for installing rooftop solar panels under this scheme in your bank account.

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a solar panels on a roof

A Comprehensive Guide to Solar Panel Subsidy in Uttar Pradesh

Since fossil fuel prices have increased, the cost of producing power has risen. To cut costs, individuals are searching for alternate sustainable energy production techniques these days. Installing a solar power plant is one of the greatest alternatives that have emerged in this regard if you are located in Uttar Pradesh. UP’s geographical position provides the whole year with abundant solar radiation. Also, the government here offers attractive solar panel subsidy, so things are a whole lot cheaper.

Do you want to know what the solar panel subsidy in Uttar Pradesh is and ways to have your home’s rooftop solar system subsidized by the government? Then your click was correct.

What is the Solar Panel Subsidy Program in Uttar Pradesh?

The Uttar Pradesh (UP) government is offering a solar panel subsidy for homeowners who install solar photovoltaic (PV) systems on their houses. The goal is to promote the adoption of renewable solar energy at the residential level.

Subsidies will be provided for solar panel systems with capacities starting at 1 kilowatt (kW). The subsidies will cover a percentage of the total cost of purchasing and installing the solar panels, inverters, and other system components.

In general, a 3kW solar system is the best choice for rooftop solar systems on houses. A 3kW solar system is generally considered the best for homes because a 3kW solar panel system is adequate to meet the daily electricity requirements of most homes.

Solar Panel Subsidy in Uttar Pradesh

Families in Uttar Pradesh have the chance to lower the cost of solar panel systems and get electricity for their homes at zero cost. Under the Rooftop Solar Program Phase II, you can get Central Financial Assistance (CFA) or Solar Subsidy Support of a set amount for every kW in your system. This scheme benefits only residential consumers and housing societies.

For rooftop solar panel systems in the residential sector, the central financial support has been increased up to ₹18,000/kW from the previous ₹14,588/kW for solar power plant projects up to 3 kW and ₹9,000/kW from ₹7,294 for solar power plant projects above 3 kW and up to 10 kW.

Subsidies on Residential Solar Rooftop Plants in Uttar Pradesh

Solar Plant Size (kW)CFA (₹)UP State SubsidyTotal Subsidy in UP
1 kW Solar System₹14,588.00₹15,000.00₹45,000.00
2 kW Solar System₹29,176.00₹30,000.00₹90,000.00
3 kW or above Solar System₹43,764.00₹30,000.00₹1,08,000.00

Note: Only after your installed RTS plant has passed the inspection and commissioning, which will integrate the net metering mechanism, does approval on a CFA/subsidy application proceed. CFA/subsidy is determined according to the total solar system capacity, as approved by your local DISCOM.

What size of solar panel system is needed to be installed?

When looking to install a solar panel system on your home, it is important to correctly size the system. But how will you know what size solar panel system you need to install in your home?

The optimal solar panel system size depends on three main factors:

Electricity Usage: The solar panel capacity should match your home’s electricity usage, as reflected in your monthly electricity bills.

For example, if your total electricity bill is Rs. 5,000, a 5 kW system ought to be installed.

Sanctioned Load Limit: The amount of load sanctioned by your electricity board also determines solar capacity limits. The solar system installation process uses only 80% of the sanctioned load.

For example, if you have a sanctioned load of 5 kW from the utility company, then your rooftop solar system size should not exceed 80% of that limit, which is 4 kW. Exceeding this requires a sanctioned load upgrade.

Available Roof Space: Maximum Plant Size (kw) = Shadow-Free Area (sq. ft.) /100

For example, if you have 1800 square feet of shadow-free space on your roof, the largest solar power plant you may install is 18 kW.

In summary, size your planned solar panel system based on:

  • Monthly electricity expenditure
  • Existing sanctioned loads
  • Available roof area

Whoever has the least value among these three should have a solar system of that size installed.

10 Points Before Buying a solar panel system in 2024

Reasons why UTL solar installations are better than others?

A common reason for any solar power plant failure could be its products, like solar panels, inverters, or even the installing engineers who did not install the solar power plant properly. In such cases, no one is ready to admit their mistake and blame each other. UTL Solar takes care of all this so that you do not have to face such troubles in the future.

For installations, UTL Solar always chooses top-notch materials that don’t break easily or cost a lot of money. Additionally, UTL solar installation comes with a 10-year guarantee, so you won’t have to worry about your solar system at all.

How to Apply for Solar Panel Subsidy in Uttar Pradesh in 2024?

To apply for solar panel subsidy in Uttar Pradesh, you have to upload installation reports (details of the solar system, manufacturer’s information on the inverter and panel, etc., and necessary photographs like earthing process and lightning arrester potential blocker structure photos) after setting up net metering grid-connected solar systems.

Step 1:

Apply for Solar: There are two ways to apply: online and offline. Apply in whichever way you are comfortable.

Step 2:

If you live in Uttar Pradesh and are a resident of Uttar Pradesh, DISCOM details can be found here. The list of 8 DISCOMS in Uttar Pradesh is listed below:

  1. Paschimanchal Vidyut Vitran Nigam Limited.
  2. U.P. Power Corporation Limited.
  3. Dakshinanchal Vidyut Vitran Nigam Limited.
  4. Noida Power Company Limited.
  5. Kanpur Electric Supply Company Ltd.
  6. Torrent Power Limited.
  7. Purvanchal Vidut Vitran Nigam Limited.
  8. Madhyanchal Vidyut Vitran Nigam Limited.

What is the entire process for applying for the solar panel subsidy in Uttar Pradesh?

To apply for a solar panel subsidy in Uttar Pradesh in 2024, you can follow the following steps:

Step 1: Site Survey. Book Engineer Visit.

Step 2: Systems Capacity, Costing and Performance Assessment

Step 3: Buy Solar System and Installation

Step 4: Apply for Net Metering

Step 5: After 30 days of rooftop solar panel installation, one can apply for the solar subsidy.

Know more: Rooftop Solar Panel Subsidy in India


Many households are beginning to see that switching to solar is a win financially, economically, and environmentally. Finally, with the spur of the solar panel subsidy scheme alongside it, installing a solar panel system can fit any home and budget in Uttar Pradesh.

On the other hand, government subsidies are only available until RTS installations reach 40GW. To promote sustainable growth and development, the world is turning towards renewable alternatives. For this reason, right now is the best time to use solar PV technology in your own home.


क्या उत्तर प्रदेश में सोलर सब्सिडी उपलब्ध है?

हां, उत्तर प्रदेश सरकार सोलर पर सब्सिडी देती है।

3 किलोवाट सोलर पैनल लगवाने में कितना खर्चा आयेगा?

3kW सोलर पैनल लगवाने का खर्चा, पॉली पैनल के साथ 2 लाख 7 हज़ार और मोनो पैनल के साथ 2 लाख 16 हज़ार आता है।

सोलर पैनल में सब्सिडी क्या होता है?

सरकार की तरफ से सोलर पैनल लगवाने पर कुछ पैसों की रियायत दी जाती है, जो आपके बैंक अकाउंट में पैसा सरकार भेजती है।

5 किलोवाट सोलर पैनल में कितना खर्चा आता है?

सिंगल फेस पॉली पैनल के साथ 3 लाख 25 हज़ार और मोनो पैनल के साथ 3 लाख 35 हज़ार तक का खर्चा आता है

10 किलोवाट का सोलर पैनल लगवाने में कितना खर्चा आता है?

पॉली पैनल के साथ 6 लाख तक और मोनो पैनल के साथ 6 लाख 30 हज़ार तक का खर्चा आता है

सोलर प्लांट लगाने के लिए कितनी जमीन चाहिए?

ये डिपेंड करता है की आप कितने kW का लगवाना चाहते हैं। उदाहरण के लिए 2kW के लिए 200sqft का जगह चाहिए।

सोलर पैनल कितने साल तक चलता है?

सोलर पैनल 25 साल या उस से भी अधिक समय तक चल सकता है, अगर उसका मैनेटेनेंस अच्छे से किया जाए।

1 किलोवाट सोलर पैनल की कीमत क्या है?

1kW सोलर पैनल की कीमत 70,000 के करीब पड़ती है

1 किलोवाट के सोलर पैनल से क्या क्या चला सकते हैं?

अगर घर् का मीटर 1kW का है तो वो 1kW तक का पूरा लोड चलाएगा

कितने किलोवाट का सोलर पैनल लगवाने पर एसी चला सकते हैं

ये डिपैंड करता है की आपको AC कितने घंटे चलाने हैं… अगर on-grid है तो 2-3 kW का सोलर पैनल लगवाना पड़ेगा

a Next-Gen yellow Gamma Plus MPPT Solar Inverter with a digital display

Gamma+: The Next-Generation MPPT Solar Inverter That Will Cut Your Electricity Bills

If you are Buying a 1.4 kVA -1.5 kVA standard solar Inverter then you also have to purchase four solar panels of around 330W capacity in the composition.

A gamma plus MPPT solar inverter is a next generation solar inverter which produces 30% more electricity while using fewer solar panels. When compared to other solar inverters, GAMMA plus solar inverter is incredibly efficient. Thanks to its r-MPPT Technology, it can produce power equivalent to four solar panels with just three solar panels.

What is r-MPPT technology?

rMPPT stands for Rapid Maximum Power Point Tracking technology. As sunlight changes from morning to evening, the voltage of solar panels keeps varying. At different voltage levels, the power output is different. To get the maximum possible power, the system needs to continuously monitor and adapt to the panel’s voltage.

This is what rMPPT technology does efficiently. By tracking and adjusting the operating point through the day, it ensures up to 30% more solar energy can be harvested compared to traditional controllers.

In simple words, rMPPT is a smart solar tracking system. It monitors and adapts to the changing conditions to squeeze the maximum power from morning to evening. The result is higher solar energy output for all your electricity needs.

Why does UTL’s GAMMA Plus MPPT technology outshine the competition?

The Gamma+ MPPT Solar Inverter has consistently been the top choice among consumers. Besides being 30 % more effective, it has several other amazing qualities. Let’s take a look at these aspects of it.

The r-MPPT technology is implemented into the UTL Solar Gamma+ Inverter. It is commonly known as Rapid Maximum Power Point Tracking; it is one of the most cutting-edge technologies utilized in solar inverters.

r-MPPT (rapid maximum power point tracking technology) measures the fluctuations in solar panel voltage that result from changes in exposure to light. So, it is used whenever you need to monitor and record the varying solar panel voltage, as well as its highest extracted output. By being able to track optimally from sunrise to sunset, it is possible to increase extractable solar energy by as much as 30 %.

Advanced Dual Power Backup with Single Battery

The UTL Solar Gamma+ inverter provides an innovative way to get dual backup support from just a single battery. Its built-in MPPT solar charger allows solar energy to act as a second power source, eliminating the need for an additional battery bank.

This inverter also stands out with its stylish LCD panel that monitors system status. It can run critical loads either from solar input or an AC generator when grid power is unavailable.

The Gamma+ delivers maximum flexibility – it works efficiently with SMF, Gel, Tubular or any other battery type you may have. Smart features like MPPT tracking, priority load support, and generator compatibility make this a great single battery solar solution for uninterrupted power.

Key features of Gamma+ MPPT Solar Inverter

Gamma Plus MPPT solar Inverter comes with several special solar and inverter features that make it a versatile and efficient energy solution:

Solar Features:

  • Solar Priority Load & 2nd Battery Support – Allows prioritizing solar power to critical loads and charging a secondary battery bank.
  • Built-in MPPT Charge Controller – Ensures up to 30% more efficiency from solar panels by maximum power point tracking.
  • Supports up to 1000W Solar Input – High solar input capacity for running larger loads.
  • 100% Solar Panel Tracking – Maximizes solar energy harvesting throughout the day.
  • Compatible with 12V & 24V Solar Panels – Flexible support for different system voltages.

Inverter Features:

  • Pure Sine Wave Inverter – Provides clean AC power safe for sensitive devices.
  • Multi-Color LCD Display – Intuitive monitoring and control.
  • 50Hz & 60Hz Frequency Support – Compatible with both grid standards.
  • Multiple Charging Modes – Optimized battery charging with bulk, absorption and float stages.
  • Comprehensive Protections – Prevents damage from issues like low battery, overloading, short circuit etc.
  • Compatible with Generators & IT Loads – Flexible backup power options.
  • Works with Different Battery Types – Supports flooded, Gel, Tubular batteries.

The combination of advanced MPPT solar charging, priority load support, pure sine wave output, and flexible compatibility make this an excellent solar hybrid inverter for off-grid and backup power needs. The display and multiple modes provide ease of use and system optimization.

PWM Vs MPPT Solar Inverter: आइए जानते हैं कौन सा सोलर इन्वर्टर आपके लिए सबसे अच्छा रहेगा?

Know more: How GAMMA Plus MPPT Solar Inverter Saves Your Money?

How you can get UTL GAMMA+ MPPT solar inverter

When compared to other solar inverters, GAMMA+ MPPT solar inverter is extremely effective. Due to its r-MPPT Technology, it can produce the same power that four solar panels produce with just three solar panels. Therefore, you can prevent paying for the installation of a single solar panel by selecting UTL’s Gamma Solar Inverter and saving between Rs. 8,000 and Rs. 9,000. Hence, the cost of your GAMMA+ Solar Inverter is completely covered and it is free for you.

Gamma plus mppt solar inverters is great choice for converting solar power. They last a long time, need little maintenance, and are eco-friendly. These “MPPT” inverters can capture more energy from solar panels. So you can count on solar-powered UTL inverters to harvest and deliver solar energy day after day. You can purchase gamma plus mppt solar inverter through UTL authorized dealers across India, retail stores, online platforms, and our UTL Solar websites.

solar inverter battery for home

How to Choose the Best Solar Inverter Battery for Your Home

Solar inverters are a great way to reduce your energy bills by converting the sun’s energy into usable electricity. But before you can choose the best solar inverter for your home, you need to know a little bit about solar inverters and batteries. In this post, we will discuss the different types of solar inverters and batteries, their features and advantages, and which one is best for your home. After reading this post, you will be able to choose the right solar inverter battery for your home and reduce your energy bills.

Understanding Inverter Battery Sizes

It’s important to understand the different inverter battery sizes so you can choose the one that is best for your needs.

There are three main types of solar inverter batteries: lead acid, nickel-cadmium, and lithium ion.

Lead acid batteries are the oldest type of battery and are still used in some applications. They have a longer life but are heavier and more expensive.

Nickel-cadmium batteries are lighter and more affordable, but they don’t last as long as lead acid batteries. Lithium-ion batteries are the latest types of battery and are the most powerful in performance. They also have the longest life, but they are more expensive than the other two types of batteries.

Choosing the Right Inverter Battery Type

When choosing the best solar inverter battery type for your home, you have a few things to consider.

What is Your Home’s Usage?

Are you mainly using the battery for backup power in the event of a power outage, or are you using it for extended periods of time to power your home during the day?

What is Your Budget?

Do you want to spend the most money possible, or are you looking for something that is affordable?

What Do You Need the Battery For?

Are you using it to power lights, a refrigerator, a air conditioner, or some other electrical device?

How Much Weight is the Battery Carrying?

The heavier the battery, the more weight it will support and the more difficult it will be to move.

Is the Battery Compatible with Your Solar Inverter?

Most solar inverter batteries are designed to work with specific types of solar inverters.

Is the Battery Durable?

Will it last for years, or is it designed to last for a specific number of years?

What Type of Warranty Does the Battery Come With?

Some batteries come with a lifetime warranty, while others have a warranty that lasts for a specific number of years.

Is the Battery Easy to Install?

Will you need to hire a professional installer, or can you do it yourself?

What is the Battery’s Noise Level?

Some batteries are very loud, while others are not as loud.

Is the Battery Easy to Maintain?

Will you need to change the battery’s acid, or is the battery designed to be maintenance free? If you want to find the best solar inverter battery for your home, you need to consider all of these factors.

Evaluating Solar Inverter Battery Specifications

When looking to purchase a solar inverter battery, it is important to understand the specifications of the battery. There are a few things to consider when evaluating solar inverter battery specifications.

One of the most important things to consider is the battery’s amp hour rating. This is the amount of amp hours the battery can hold and is measured in amp hours.

Another important factor to consider is the battery’s watt hours rating. This is the watt hours that the battery can hold and is measured in watt hours.

The battery’s voltage rating is also important and should be at or above the system’s battery voltage. Other important factors to consider when purchasing a solar inverter battery are the battery’s depth of discharge and the battery’s warranty.

Considering Solar Inverter Battery Cost

When you’re deciding which solar inverter battery to buy for your home, you’ll want to take into account the cost of the battery, the cost of the installation, and the cost of the solar energy systems.

The cost of the battery will depend on the size of the battery, the type of battery, and the brand. The cost of the installation will depend on the location of the solar inverter battery, the type of solar inverter battery, and the type of solar energy system. The cost of the solar energy systems will depend on the size of the solar energy systems, the type of solar energy system, and the type of solar inverter battery.

When you’re buying a solar inverter battery, make sure to compare the costs of the different types of solar inverter batteries and solar energy systems to find the one that’s best for you.

Making a Decision on a Solar Inverter Battery Purchase

When it comes to choosing the right solar inverter battery for your home, there are a few things you need to take into account. One of the most important factors is your home’s energy needs.

This will help you to figure out how much solar inverter battery your home will need to power all of the devices in your home. If you’re not sure what your home’s average daily energy usage is, you can use Energy and Power Consumption Calculator to get an estimate.

You’ll want to make sure the solar inverter battery you choose can handle your home’s energy needs, and the most another important factor is to consider your budget.

You’ll want to find a solar inverter battery that’s reasonably priced and has the features you need. Finally, you’ll want to make sure the solar inverter battery you choose is compatible with your home’s electrical system.

Preparing for the Solar Inverter Battery Installation

Before you choose a solar inverter battery to power your home, there are a few things you should do.

First, estimate how much power your home will need. This will help you figure out what size solar inverter battery you need.

Second, be sure to get an estimate for the cost of the installation. This includes the cost of the battery, wiring, and insurance.

Third, be sure to factor in the cost of maintenance. This includes checking the battery for wear and tear, and replacing it if necessary.

Finally, be sure to choose a solar inverter battery that is compatible with your home’s existing wiring. Once you have all of this information, you can start the process of choosing a solar inverter battery.

Financing a Solar Inverter Battery Installation

Choosing the right solar inverter battery for your home is important. Not only do you have to consider the size and type of battery you need, but you need to consider the cost of the installation, the cost of the battery, and the cost of the inverter.

The cost of the installation will vary depending on the size of the battery, the type of installation, and the type of inverter. The average cost of an inverter installation is about Rs. 5,000. The cost of the battery will vary depending on the size of the battery, the brand, and the type of battery. The average battery price is about Rs. 10,000. The cost of the solar inverter will vary depending on the brand, the type of inverter, and the installation. The average price of a solar inverter is about Rs. 8,000. When you combine the cost of the installation, the cost of the battery, and the cost of the inverter, you can get a ballpark estimate of the cost of the solar inverter battery for your home.

Maintenance & Upkeep for a Solar Inverter Battery

One of the great things about solar inverter batteries is that they require very little maintenance. However, there are a few things you should keep in mind to help keep your battery running smoothly.

First and foremost, always make sure the battery is properly ventilated. This means that the battery should have a good amount of air flow to it so that the gases created by the battery can escape.

Another important thing to keep in mind is to clean the battery every few months. This can be done by using a diluted bleach solution or a baking soda solution. Make sure to rinse off the solution before you put the battery back in service. Lastly, make sure to monitor the battery’s voltage and ampacity regularly. This will help you keep tabs on the health of the battery and make necessary repairs or replacements.

Troubleshooting Solar Inverter Battery Issues

There are a few things you can do to troubleshoot solar inverter battery issues. One of the most common problems is that the battery isn’t getting the energy it needs to run the system. This can be caused by a few things, like a bad battery, low solar energy, or poor wiring.

If you’re having trouble getting your solar inverter battery to start, you can try a few things. First, make sure the battery is properly connected to the solar inverter. Verify that the wires are properly hooked up and that the batteries are in the correct orientation. You can also try a different battery if the original battery is giving you trouble. If the system is still not working, you may need to check the solar energy. Make sure there is enough solar energy hitting the solar inverter to power the system. You can check this by measuring the solar energy output with a solar meter. If the solar energy is low, you may need to replace the solar panels or the solar inverter battery.


When it comes to selecting the right solar inverter battery for your home, there are a few factors you’ll want to consider. First, the wattage of the inverter battery you choose will need to be compatible with the wattage of the solar panels you’re using. Second, you’ll need to consider the battery’s lifespan, as well as its charging time. Third, you’ll want to make sure the inverter battery is compatible with your home’s electrical wiring. And finally, make sure you have a good understanding of the inverter battery warranty in case something goes wrong.

an on-grid solar panel system with a city in the background

Benefits of On-Grid Solar System

With the increasing demand for renewable energy, on-grid solar systems have emerged as a popular and effective solution. By harnessing the power of the grid, on-grid solar systems offer numerous benefits that make them a compelling choice for both residential and commercial applications. In this blog, we will discuss the numerous benefits of on-grid solar in brief.

Understanding On-Grid Solar

Before delving into the benefits of on-grid solar, it is important to understand what exactly these systems entail.

On-grid solar system are a fascinating and innovative way to harness the power of the sun and integrate it with the traditional power grid. These systems, also known as grid-tied or grid-connected solar, offer numerous benefits and have gained popularity in recent years.

How you Can Reduce your Electricity Bill Up to Zero with Grid-tie Solar System

Defining On-Grid Solar

On-grid solar, as the name suggests, refers to photovoltaic (PV) systems that are connected to the main electricity grid. Unlike off-grid solar systems that rely solely on solar power, on-grid systems are designed to work in parallel with the traditional power grid. This means that they can draw electricity from the grid when needed and also feed excess energy back into the grid.

One of the key features of on-grid solar systems is their ability to seamlessly integrate with the existing power infrastructure. This allows for a reliable and efficient energy supply, as on-grid systems can supplement the electricity generated by the solar panels with power from the grid when necessary.

How On-Grid Solar Systems Work

Understanding the inner workings of on-grid solar systems can provide valuable insights into their functionality and benefits. In an on-grid solar system, the solar panels, typically installed on rooftops or in open areas, generate electricity from sunlight. This electrical energy is then converted from direct current (DC) to alternating current (AC) by the inverter, making it compatible with the grid.

But what happens when the solar panels produce more electricity than is immediately needed? This is where the beauty of on-grid solar systems truly shines. The excess energy generated by the solar panels is fed back into the grid, effectively becoming a contribution to the overall energy supply. This not only reduces the reliance on non-renewable energy sources but also allows on-grid solar system owners to potentially receive credit for the excess electricity they generate.

Net metering, a billing arrangement offered by many utility companies, plays a crucial role in maximizing the benefits of on-grid solar systems. With net metering, any excess electricity generated by the solar panels is measured and credited to the system owner’s account. This credit can then be used to offset future electricity bills, effectively reducing the overall cost of energy consumption.

Furthermore, on-grid solar systems provide a level of flexibility and convenience that is unparalleled. During times when the solar panels do not generate enough electricity to meet the demand, power can be drawn from the grid to supplement the energy supply. This ensures a consistent and reliable source of electricity, regardless of the weather conditions or fluctuations in solar energy production.

It is worth noting that on-grid solar systems not only benefit individual system owners but also contribute to the overall sustainability and resilience of the power grid. By decentralizing energy production and incorporating renewable sources like solar, on-grid systems help reduce the strain on the grid and promote a cleaner and more sustainable energy future.

3 Kw On-grid Solar System Price and Technical Details

In conclusion, on-grid solar systems offer a multitude of advantages, from reducing electricity bills to contributing to a greener and more sustainable energy landscape. By understanding how these systems work and the benefits they provide, individuals and communities can make informed decisions about integrating solar power into their lives.

Why On-Grid Solar is a Best Choice for Home and Business Owners

The Economic Benefits of On-Grid Solar

In addition to being environmentally friendly, on-grid solar systems offer compelling economic advantages. Let’s explore some of the key reasons why on-grid solar is not only a sustainable choice but also a financially wise decision.

Cost-Effectiveness of On-Grid Solar

One of the primary advantages of on-grid solar systems is their cost-effectiveness. Unlike off-grid systems, on-grid solar systems do not require batteries for energy storage. This eliminates the need for expensive battery installations and reduces the overall cost of the system. By leveraging the existing power grid infrastructure, on-grid solar systems can be installed and maintained at a significantly lower cost.

Moreover, by reducing reliance on conventional electricity sources, on-grid solar enables homeowners and businesses to save money on their utility bills in the long run. As the sun’s energy is harnessed to power homes and establishments, the need for purchasing electricity from the grid decreases. This translates into substantial savings over time, making on-grid solar a financially attractive option.

Financial Incentives and Policies

Many governments and utility companies offer financial incentives and policies to promote the adoption of on-grid solar systems. These incentives can include tax credits, rebates, grants, and favorable net-metering arrangements.

Tax credits are a common form of incentive, allowing individuals and businesses to deduct a portion of their solar system installation costs from their tax liability. This reduces the upfront investment required and makes on-grid solar more affordable. Rebates, on the other hand, provide direct cash incentives to offset the cost of installing solar panels.

Grants are another financial incentive that can be offered by governments or organizations to support the implementation of on-grid solar systems. These grants can cover a significant portion of the installation costs, making it even more financially viable for individuals and businesses to adopt on-grid solar.

Net metering, a policy implemented by many utility companies, allows on-grid solar system owners to sell excess electricity generated back to the grid. This means that when the solar panels produce more electricity than is consumed, the surplus is fed into the grid, and the owner receives credits or compensation for the energy contributed. This arrangement not only helps offset the initial investment but also accelerates the return on investment for on-grid solar systems.

By combining these financial incentives and policies, governments and utility companies are actively encouraging the adoption of on-grid solar systems. These measures not only make the initial investment more attractive but also contribute to the overall economic viability of on-grid solar.

Environmental Impact of On-Grid Solar

Beyond economic advantages, on-grid solar systems help mitigate the environmental impact of conventional energy sources.

On-grid solar systems have gained significant attention in recent years due to their positive environmental impact. By harnessing the power of the sun, these systems reduce dependence on fossil fuels, which emit harmful greenhouse gases. This reduction in carbon emissions plays a crucial role in combating climate change and its detrimental effects on the planet.

The main advantage of on-grid solar systems is their ability to reduce the carbon footprint associated with electricity generation. Traditional energy sources, such as coal and natural gas, release large amounts of carbon dioxide and other greenhouse gases into the atmosphere when burned for power. In contrast, solar energy is clean and renewable, producing no emissions during operation. This makes on-grid solar systems a sustainable and environmentally friendly alternative to conventional energy sources.

Reducing Carbon Footprint

By utilizing solar power, on-grid systems reduce dependence on fossil fuels, which emit harmful greenhouse gases. The clean and renewable nature of solar energy contributes to a significant reduction in carbon emissions, aiding in the fight against climate change.

In addition to reducing carbon emissions, on-grid solar systems also help to improve air quality. Traditional energy sources release not only carbon dioxide but also other pollutants, such as sulfur dioxide, nitrogen oxides, and particulate matter. These pollutants have been linked to respiratory problems, cardiovascular diseases, and other health issues. By transitioning to on-grid solar systems, communities can enjoy cleaner and healthier air, leading to improved overall well-being.

Furthermore, on-grid solar systems play a crucial role in reducing the environmental impact of electricity generation. Traditional power plants require large amounts of water for cooling purposes, which can have detrimental effects on local ecosystems. Solar energy, on the other hand, does not require water for operation, making it a more sustainable choice. By adopting on-grid solar systems, we can conserve water resources and protect aquatic habitats.

Sustainable Energy Production

On-grid solar systems promote sustainable energy production by harnessing the abundant and freely available energy from the sun. Unlike non-renewable energy sources, such as coal or natural gas, solar energy does not deplete natural resources. This renewable aspect ensures a long-term energy solution that minimizes environmental degradation.

Moreover, on-grid solar systems offer a decentralized energy production model, which reduces the need for extensive transmission and distribution infrastructure.

Additionally, on-grid solar systems contribute to the resilience of the electricity grid. By generating electricity at the point of consumption, these systems reduce the vulnerability of the grid to disruptions caused by extreme weather events or other emergencies. This enhances the overall reliability and stability of the energy supply, ensuring uninterrupted power.

Reliability and Efficiency of On-Grid Solar

Another key advantage of on-grid solar systems is their reliability and efficiency.

Dependability of Grid Connection

With on-grid solar, the connection to the main electricity grid ensures a constant and stable power supply. This eliminates concerns about power shortages or fluctuations, providing peace of mind to system owners. Additionally, on-grid systems enable easy access to power during periods of low sunlight or high energy demand.

Maximizing Solar Energy Usage

On-grid solar systems maximize the usage of solar energy by maintaining a balance between electricity generated and consumed. By feeding excess energy into the grid, system owners can ensure that none of the potential power goes to waste.

The Future of On-Grid Solar

The benefits of on-grid solar have positioned it as an integral part of the future energy landscape.

On-grid Solar: Complete Details of Working. Price, Installation Guide and Subsidy

Technological Advancements in On-Grid Solar

Ongoing technological advancements in on-grid solar systems are making them even more efficient, affordable, and easier to integrate. Innovations such as more efficient solar panels, advanced inverters, and smart grid technologies are paving the way for increased adoption and improved performance.

Global Trends in On-Grid Solar Adoption

Around the world, the adoption of on-grid solar systems is rapidly growing. Countries like India, China, and the US are leading the way, emphasizing the importance of clean energy and sustainable practices. This global trend indicates a promising future for on-grid solar in meeting the world’s energy demands.

Know more: How Installing UTL Solar Power Plant Will Save you a lot of Money

UTL On-grid Solar PCU Range Start from 1kw to 110kw

Off-Grid Solar Inverters

A Beginner’s Guide to Off-Grid Solar Inverters

In recent years, off-grid solar inverters have become increasingly popular as a sustainable and reliable source of energy. Whether you are looking to reduce your carbon footprint or simply want to be more independent from the grid, understanding solar inverters is key to harnessing the power of the sun. In this article, we will provide a beginner’s guide to off-grid solar inverters and everything you need to know to make an informed decision.

Understanding Solar Energy and Off-Grid Solar Systems

Solar energy is a renewable resource that is harnessed from the sun’s rays. It is abundant, clean, and free of charge. Solar energy has gained significant attention in recent years due to its environmental benefits and potential for reducing reliance on fossil fuels. Solar power systems, such as off-grid solar system, have become increasingly popular as a sustainable energy solution.

Off-grid systems, also known as standalone systems, are not connected to the electrical grid. They function independently by generating and storing their own electricity through solar panels. These systems offer a viable alternative to traditional power sources, particularly in remote areas where access to the grid is limited or unreliable.

One of the key components of off-grid systems is the solar inverter. Solar inverters play a important role in converting the direct current generated by the solar panels into alternating current. They ensure that the electricity produced by the panels is compatible with the electrical appliances and systems we use in our daily lives.

What is an Off-Grid Solar System?

An off-grid solar system is a self-sufficient energy solution that operates independently of the utility grid. It consists of several components that work together to provide electricity without relying on external power sources. In addition to solar panels, off-grid solar systems typically include batteries for energy storage, charge controllers, and inverters.

The batteries in an off-grid solar system are used to store excess electricity generated by the solar panels during the day. This stored energy can then be used during periods when there is no sunlight, such as at night or during cloudy days. The charge controller regulates the charging and discharging of the batteries, ensuring their longevity and optimal performance.

Solar inverters, are an essential part of off-grid solar systems. They convert the DC electricity produced by the solar panels and stored in the batteries into AC electricity. Off-grid solar systems are commonly used in remote areas where access to the grid is limited or unreliable. They provide a reliable source of electricity, especially in locations where traditional power infrastructure is not available.

Introduction to Solar Inverters

Solar inverters are essential components of off-grid systems. They are responsible for converting the DC electricity generated by the solar panels into AC electricity. When it comes to harnessing solar energy, solar inverters play a crucial role in ensuring that the energy generated by the solar panels can be utilized efficiently. Without these inverters, the DC electricity produced by the solar panels would be unusable for most household appliances and devices, as they require AC electricity to function.

However, the role of solar inverters goes beyond just converting power. They also provide important protective functions to ensure the safety and longevity of the system. For example, solar inverters have built-in mechanisms to prevent overvoltage, overcurrent, and short circuits. These protective features help safeguard the system from damage and ensure that it operates smoothly.

Role of Solar Inverters in Off-Grid Solar Systems

In an off-grid solar system, solar inverters are responsible for managing the flow of electricity. They convert the DC electricity from the solar panels into AC electricity that can be used to power household appliances or stored in batteries for later use. Solar inverters also ensure that the system operates optimally, maximizing energy production and protecting the batteries from damage.

Off-grid solar systems are commonly used in remote areas where access to the electrical grid is limited. These systems rely on solar panels to generate electricity, which is then stored in batteries for use during times when the sun is not shining.

Solar inverters play a crucial role in this setup by facilitating the conversion of DC electricity into AC electricity that can be used to power appliances or charge the batteries.

How Off-Grid Solar Inverters Work?

Understanding the inner workings of off-grid solar inverters is essential for maximizing energy production and ensuring the longevity of the system.

The Conversion Process

Once the DC electricity is generated by the solar panels, it travels to the solar inverter. The inverter then converts the DC power into AC power, which is used to power household appliances or exported to the grid if a grid connection is available. This conversion process is vital in making the electricity compatible with common electrical devices and appliances.

Energy Storage and Usage

In off-grid systems, solar inverters work in conjunction with batteries to store excess energy for later use. When the solar panels generate more electricity than is needed, the surplus energy is stored in batteries. This stored energy can then be used during periods of low sunlight or at night when the solar panels are not generating electricity. Solar inverters ensure the smooth transfer of energy between the panels, batteries, and appliances, providing a reliable power source round the clock.

Choosing the Right Off-Grid Solar Inverter

When selecting an off-grid solar inverter, several factors should be considered to ensure optimal performance & compatibility with the rest of the system. Here are some key factors to keep in mind:

Factors to Consider

Power rating: The inverter should be able to handle the maximum power output of the solar panels for efficient energy conversion.

Voltage compatibility: The inverter’s voltage range should match the system’s battery and panel voltages to ensure seamless integration.

Efficiency: Look for inverters with high conversion efficiency to maximize energy production and minimize losses.

Reliability: Consider the reputation and reliability of the inverter manufacturer and choose a trusted brand.

Installation and Maintenance of Off-Grid Solar Inverters

Proper installation and maintenance are essential for the smooth operation and longevity of off-grid solar inverters. Follow these guidelines to ensure a successful installation:

Step-by-Step Installation Process

  • Assess your energy needs and design a system that meets your requirements.
  • Install the solar panels on a suitable location with optimal sunlight exposure.
  • Connect the panels to the solar inverter, ensuring correct polarity and proper cable management.
  • Connect the inverter to the batteries, charge controller, and other system components per the manufacturer’s instructions.
  • Test the system to ensure all connections are secure and functioning correctly.

Tips for Proper Maintenance

  • Regularly clean the solar panels to remove dust and debris that may reduce their efficiency.
  • Inspect the cables and connections for signs of wear or damage and replace if necessary.
  • Monitor the system’s performance and keep an eye on battery levels to ensure optimal energy storage and usage.
  • By following these installation and maintenance guidelines, you can ensure that your off-grid solar inverter operates at peak performance, providing you with clean and reliable energy for years to come.

UTL Off Grid Solar PCU

UTL is a leading solar company in India providing top-quality solar products, including a complete “Off Grid Solar System. Our off-grid solar system eliminates the need for electricity from the main power grid by combining photovoltaic panels and solar batteries. It consists of various solar components like solar panels, solar inverters, and solar batteries. Investing in UTL’s off-grid solar system not only saves you money but also helps protect the environment. Our products are manufactured using advanced technologies, ensuring excellent performance. UTL solar systems can be conveniently installed on rooftops or even on the ground. Experience the benefits of clean and reliable energy with UTL’s off-grid solar solutions.

UTL r-MPPT Solar PCU will generate up to 30% more electricity and will show it Every day till 31 March 2025.


Off-grid solar inverters are crucial components in standalone systems that convert the DC electricity generated by solar panels into AC electricity for powering our homes and devices.

By considering factors such as power rating, voltage compatibility, efficiency, and reliability, you can choose the right inverter for your off-grid system. Additionally, proper installation and regular maintenance play a significant role in ensuring optimal performance and longevity.

solar panel system for home

Why Solar Panel System Is Best Investment For Electricity Generation

Are you looking to save money on your utility bills? Installing solar power is one of the best investments for your future. Solar power is an amazing source of power leaving zero carbon footprints. Installing solar panel system at your home or commercial premises lets you save your electricity bill. It ultimately contributes towards a greener and more sustainable planet compared to other energy sources.

Powerful PV Solar Panels

In the modern day, investing in solar panels is quite an amazing option as it has been setting the benchmarks as the best renewable source of energy. Save your money with affordable solar panel price from the leading manufacturers.

These Solar-powered products enable zero carbon footprint and you have more options to explore. Solar panels are suitable for a variety of purposes, such as rooftop installations, agricultural pumping applications, large-scale utility systems and more.

The solar system involves the panel arrangement generating electricity using energy from the sun. Its setup consists of solar panels, a mounting structure, batteries, an inverter and more. These are also enabled with the ACDB/DCDB for supplying the electricity to your premises.

Learn how to install solar panel system for home in India. Click here to know the ins and outs of solar panel installation in India.

Guide to Install Solar Panel System at Home

Reliable Source Of Energy

Solar panels especially absorb sunlight extensively, producing electricity. These are converted from the DC to AC using solar inverters. The solar battery especially stores extra power with a mounting structure. It also holds the panels in place assuring to provide the best range of energy.

Solar power system generates electricity which can be suitable for running electrical appliance in your home or commercial space. Get the complete solar panel price list before choosing the solar panels for your premises.

Types of Solar System

There are three main types of solar system installation that can turn your home into a solar home.

On-Grid Solar System

Are you looking to install the On-Grid Solar System in your home or commercial units? These solar panels are designed for switching between the grid and the solar system on the premises. The on-grid solar system connects your home to the solar system as well as the utility grid. You can easily get a reasonably affordable solar plate price with ensuring high-quality products.

On-Grid Solar System is an ideal option for homeowners or businesses facing heavy electricity bills on a regular basis. This Solar System reduces electricity bills abundantly. It is also the cheapest residential solar system. These are helpful for getting electricity from these two sources.

UTL On Grid PCU Range

Off-Grid Solar System

The Off-Grid Solar Systems are designed effectively for remote residences. It is the best power bank completely independent from the utility grid. These solar systems are also known as battery-based systems or stand-alone systems.

Investing in these solar panels is helpful for getting backups during emergencies or outages. You can check out the updated solar panel price in India that you didn’t get before. Off-Grid Solar Systems are enabled with a solar battery, which stores the energy for future usage.

UTL Off Grid PCU Range

Hybrid Solar System

The hybrid solar system especially combines the functionality and features of the off-grid solar system and on-grid solar system. These are connected to conventional utility power grids along with battery backup systems. Are you looking for the solar panel price per watt? Here is your best option for getting complete details of solar panels, solar inverters and accessories along with the discounted price.

UTL Hybrid PCU Range

आप अपने शहर में सबसे बड़ा सोलर सिस्टम कैसे लगा सकते है, जानने के लिए वीडियो देखें

Off Grid Solar System – Hybrid Solar System – Solar Panel System for Home

A solar panel system for a home is a great way to generate electricity from the sun’s energy. These systems typically consist of solar panels, an inverter, and a monitoring system. The solar panels convert sunlight into direct current (DC) electricity, which is then sent to the inverter to be converted into alternating current (AC) electricity. This AC electricity is then used to power the appliances and lights in your home, and any excess energy can be sent back to the grid for credits on your utility bill.

A monitoring system allows you to track your energy production and usage, so you can see how much energy you are producing and using in real-time. Installing a solar panel system for your home can significantly reduce your electricity costs and your carbon footprint, while also providing a reliable source of energy. It’s important to consult with a professional to determine the right solar panel system for your home based on your energy consumption and location.

A solar system comes in various sizes like 1kW/12V, 1kW/24V, 2kW/24V, 3kW/48V, 5kW/48V in Off Grid Solar System and 1kW/24V, 2kW/48V, 3kW/48V, 5kW/96V in Hybrid Solar System. UTL also offering solar panel system in other sizes like 7.5kW, 10kW, 15kW, 20kW, 30kW, 50kW and 100kW which is best for big houses, offices, and commercial shops etc.

Why solar energy is important for the future

5 Reasons – Why Solar Energy is Important for the Future

Every other day we read about the rising pollution, the hiking of fuel prices, and the depletion of fossil fuels. Headlines of various newspapers talk about these issues, there are special telecasts on various channels that highlight these issues to make people aware and responsible towards these global issues.

These issues are interrelated. Think would these issues still persist if people were aware and responsible? Think why these issues are getting alarming day by day.

The prime reason is not using renewable green sources of energy.

Environmental Impact of Solar Energy

When we talk about strong reasons why solar energy is important for the future, reduced pollution has to be the most important.

After all, we don’t want our future generations to live on paid oxygen!

The following reasons why solar power technology is a boon to fuel the future.

Less Pollution: Cleaner & Greener Environment

How much fossil fuel do you use in your day-to-day activities? Now think how much is consumed by the people living near you? The amount keeps getting bigger. We all love a clean-fresh environment, and still knowingly or unknowingly we are harming the environment. Burning fossil fuels for our daily energy needs produces toxic emissions like nitrogen oxide, carbon monoxide, carbon dioxide, sulphur dioxide etc.

The only solution to this problem is switching to green energy options like Solar energy. Using solar panels to generate electricity reduces carbon footprint and helps the environment to stay protected.

More Jobs

Solar sector is booming, with awareness people and commercial sectors have started installing solar panels. As this industry grows, it can be estimated that the solar field will be needing skilled laborers, employees, service engineers and marketing professionals who will keep this sector running.

Read our blog: How to Start Solar Energy Business in India with Less Investment

No More Power Outrage

We are too dependent on something that doesn’t let us be independent. Even if you wish to stay in places that’s far away from cities/ towns, away from residential setups you can’t, because there’s no electricity available in such remote areas. But with solar power now it’s possible to stay remotely.

With this we can boast that shortage of fossil fuels will never bother again. With the increasing demand of solar power there shall be a huge decrease in power outages.

Solar Saves Money

Solar is green for both the environment and pockets! 

Investing in the solar sector can be a boon for the investors, as solar is a booming sector. Many companies like UTL Solar, are known to be the leading in the solar industry.

Installing solar panels is a one -time investment, once you’ve paid your initial investment cost you can enjoy free electricity for the rest of its life. A solar panel has a long term guarantee period of 25 years.

Everything You Need To Know About Solar Panel

Basically with solar power one can save their money on electricity bills.

It also regulates the evaluation of housing loans and its prices. Imagine a house that has solar panels installed on its roof, and it claims to reduce your electricity bill or make it ₹0/- 

On the other hand there’s another house that runs on the electricity coming from the local grid.

Which house has more value? The house with more value will always cost more.

आइए देखते हैं क्या सोलर वास्तव में आपके पैसे बचाता है?

Suitable for Indian Climate

Another strong reason why solar energy is important for the future is, we know India is a blessed county that receives ample amounts of sunlight. This can be a game changer and a leading light for the solar sector companies especially in India, as this country has a suitable climate for harvesting solar power.

These reasons make a strong base for the solar sector to grow,  solar power secures the future by reducing the carbon footprint and gives new opportunities to the youth and welcomes new economical grounds. If you’re interested to know more about solar visit our website.

आप अपने शहर में सबसे बड़ा सोलर सिस्टम कैसे लगा सकते है, जानने के लिए वीडियो देखें।

UTL is 25 years old  and is one of the leading companies in the solar field, it is known to be India’s most preferred solar inverter brand.

How to Maintain Your Solar Panels 5 Easy Steps

How to Maintain Your Solar Panels: 5 Easy Steps

Are you someone who has invested in a solar system?  Or someone who’s planning to invest in solar panels for home? Do you wonder about how solar panels need to be maintained?

Well, this blog is all about how to maintain solar panels easily to keep them at their optimum condition for smooth and optimum performance.

Here are the top three most common concerns regarding solar panel maintenance issues:

  1. Do solar panels need cleaning?
  2. Will the solar panels stop working if they are not cleaned/ maintained regularly?
  3. How much time & money is required to maintain the solar panels?

Solar panels need very little care when it comes to maintenance. Regular cleaning of solar panels is not required unless you stay in an area that’s too dusty/ sandy. The solar panel’s efficiency will drop if dust/ sand/ pollen accumulates over the surface. Thus it’s important to keep the surface clean and for that, the output generated by the solar panels should be monitored regularly. If you notice any drop in the efficiency of the solar panels, then your solar panels might just need a basic cleaning. If your solar panels are placed correctly by your installer after a proper rooftop survey like UTL Solar does, then rains can be a boon for you!

Yes, you read it right! Rains can wash away the dirt/ dust particles time-to-time that accumulates on the surface of the solar panels.

Here are some solar panel tips for easy maintenance, you can save this article for future reference.

Make sure the Solar Panels are not Shaded

If the branches of a tree happen to shade the solar panels, try trimming them. Shading can lower the efficiency of solar panels.

Monitor the Inverter Daily

Keep an eye on the components of the solar system you have installed, inverters indicate if there’s any potential damage.

Keep a Note of the Daily Energy Yield

By taking note of daily solar-electricity production you will be able to see if the solar panels are working at their maximum potential or not. In case of any fluctuation due to weather inconsistencies, there’s no need to worry but if there’s any deviation otherwise you will need to clean up the solar panels/ call a trained service person depending on the situation.

Get it Serviced at least Once a Year

It’s important to get your solar panels serviced at least once a year. Hire trained technicians to check and service if required. This will save your solar panels from unexpected major damages.

You must always make a smart move by buying solar panels for home from the right place that offers good services as UTL does.

Keep your Solar Panels Clean

Keeping solar panels clean is important. And now it’s time to answer the most asked question “can I clean the solar panels myself?”, the answer to this question is yes!

Yes, readers! You can clean your solar panels by yourself, but here are some precautionary tips that you must follow while cleaning the solar panels. Following these solar panel cleaning tips will not only help you protect your solar panels but also save your panels from any major damage.

  • Shut down the solar system while cleaning solar panels and don’t forget to switch off the whole solar main switch.
  • Always refer to the user manual given by your manufacturer for special-care instructions.
  • Clean the solar panels at a comparatively cool temperature. Mornings are best for cleaning as there is natural light, moreover, the morning moisture makes the cleaning easier.
  • Never use pressure washers, hard soaps, or scrubs to wash solar panels. It’s always better to use distilled water at the normal temperature & soft cloth.
  • If you’re using a brush/ broom make sure it’s used only for cleaning solar panels and not for daily chores. Don’t use anything that will cause scratches on the surface of solar panels.

Here, Everything You Need To Know About Solar Panel

gamma solar inverter

How is Gamma+ the Best Inverter for Your Home?

A twenty-four-hour power supply is rare in India. Very few areas in metropolitan cities can boast of having a continuous supply of electricity. This has resulted in the rise of inverters in India. With time people have evolved to be more conscious environmentally. In recent times people try to make conscious decisions while buying a product to save both their money and the environment by doing their bit of research.

Inverters have evolved as technology advanced with time. We have seen the important rise of solar energy in the last two decades. Moreover, in the last ten years, we have seen the cost of electricity per unit has doubled whereas the cost of solar panels per watt reduced five times. According to the trends we can assume that in the next ten years solar energy will be cheaper than electricity. So, you can see that solar is becoming a necessity and it’s the future!

Working of a Typical Home Inverter

A typical home inverter/UPS system has an inverter and battery system connected to the home power connection. When the electricity comes from the grid, the UPS/inverter system uses the electricity from the grid to charge the battery. When the power is turned off, the inverter takes DC power from the battery and converts it to AC power used by household appliances. There is a circuit breaker in the system to detect whether the grid is not supplying power and switch the UPS to battery mode.

Working of a Solar Inverter

An off-grid solar inverter has an assembly of charge controllers, batteries, solar panels, controllers, and inverter. The batteries are charged using solar panels and the inverter has the same function of converting DC to AC. It can also have an automated switch to sense if the grid is not supplying power that can change the power source of the connected home from the grid to batteries. Depending on the need the system can be designed to:

  1. To completely rely on solar power
  2. Charge the batteries from solar power when the sun is available and from the grid when it is not.

Normal solar inverters have PWM (pulse width modulation) charge controllers, PWM very

It is an old technology which produces only 1.5-2 units of electricity in a day from a 1kw panel. UTL Solar’s Shamsi inverter has a PWM charge controller.

Inverters have become more intelligent and cost-saving, with time the charge controllers advanced to MPPT (maximum power point tracking) technology that produces 3-3.5 units of electricity throughout the day with a 1 kW solar panel.

Now let’s talk about rMPPT that’s the latest and most advanced technology when it comes to solar inverters. rMPPT is more advanced than MPPT. It produces up to 30% more electricity than MPPT. With rMPPT technology, we can produce 4-5 units from 1kw Solar Panel. UTL Solar has patent rights over this technology.

That’s why UTL SOLAR is a company that sells the best inverter for home.

Let’s see WHY Gamma+ Inverter is the Best for Your Home?

This inverter is exactly what you need, we all want to save our hard-earned money. Gamma + inverter is engineered to give the best ROI (return on investment) as it has used rMPPT charge controllers that are more advanced than MPPT charge controllers. With the rMPPT solar technology, Gamma+ inverter saves 30% extra solar energy within the same investment.

How is Gamma+ Inverter Budget-friendly?

It uses the sun’s energy to charge batteries and save electricity from the grid to reduce your electricity bills, moreover, the Gamma+ inverter is almost cost-free.

If you need battery backup for 2 batteries then install one battery of 12V and if you need battery backup for 3 batteries then install two batteries 12V x 2), As GAMMA+ inverter generates backup for two batteries with just one battery as it has rMPPT technology that backs up for the second battery.

How is Gamma+ Inverter Cost-free?

If you take a normal solar inverter (1400/1500 VA) then you would need 4 solar panels of 330 W, but with UTL Solar’s Gamma+ inverter you can generate the same amount of electricity with just 3 solar panels of 330 W. Here you save the buying cost and the installation cost of 1 solar panel which is about ₹8000/- to ₹9000/- With this amount, you can get a Gamma+ inverter without paying extra.

Now you need to decide whether you want to buy a normal solar inverter by paying the full amount of the inverter that gives you less return on investment, or Gamma+ inverter SPGS (solar power generating system) that gives you maximum return on investment and get the Gamma+ inverter for free.

अधिक जानकारी के लिए Video देखे

Features that Make Gamma+ Best Inverter for Home:

Controller-based Design, Pure Sine Wave Built-in rMPPT Charge Controller

MPPT is a technique used with photovoltaic (PV) solar systems to maximize power extraction under all conditions. rMPPT, or maximum power point tracker is an electronic DC to DC converter that optimizes the match between the solar array (PV panels), and the battery bank. To put it simply, they convert a higher voltage DC output from solar panels down to the lower voltage needed to charge batteries.

LCD Display

Gamma+ inverter is available with LCD, for a better user interface. It shows battery voltage, charging current, output voltage, output frequency, output load percentage, Input voltage, Input frequency, solar voltage, solar current & consumption solar power. It has four switches to configure Operational mode – Grid charger, IT Load, SMF/Tub, boost charging & mode selection.

User Configurable by LCD

All the parameters like battery charging voltage, battery high cut, battery low cut, battery charging current can be adjusted manually by the user as per their choice or requirement.

Charging Multi Stage (Bulk, Absorption & Float) Auto Equalize

To increase the life of the battery, maintain the gravity and temperature, and increase the backup of the battery we use the stages of charging and equalize automatically in a month.

Compatible with DG as an input Source

The frequency of DG output is a very vital parameter that always varies. And if the system is in DG enable mode, then the system will be compatible to take any of the frequencies as the input source frequency. Thus, it can be operated with a generator as well.

Compatible with IT Load

IT mode is used for IT loads which provide protections to IT instruments like computers, printers, etc. In IT mode the change over time is very less so that there should not be any kind of breakdown in power supply.

Operating Mode Selection

Cities – PCU Mode    – Priority   Solar →Battery → Grid

If there is more electricity in the cities, then it will run your load with generated solar power and battery. This way cuts your electricity bill.

Villages – Smart Mode – Priority   Solar → Grid → Battery

In most of the towns generating electricity and saving bills are dual tasks; it will operate the loads with a synchronized combination of both generated solar power and grid electricity.

Towns – Hybrid Mode – Priority for load   Grid →Solar →Battery and Priority for battery charging    Solar → Grid

This mode will operate the load by generating solar power and grid electricity during the day and keep the battery charged for night backup.

The transformer used in the GAMMA+ inverter has copper-coated aluminium, by which its losses are reduced and efficiency is increased.

So, as explained, if you are planning to buy a solar inverter, GAMMA +solar inverter is a great choice.