Reliable Support, Year-Round

Experience unwavering reliability with FERT.solar’s AMC packages, providing dedicated support and maintenance for your solar system.

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Pro-Active Maintenance
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Why Maintenance of Your Solar Plant is Important
Optimal Performance

Regular maintenance ensures that your solar system operates at its optimal capacity, maximizing energy production.

Preventing Efficiency Loss

Cleaning and upkeep prevent the accumulation of dirt and debris on solar panels, averting potential efficiency losses.

System Longevity

Scheduled maintenance enhances the lifespan of your solar system, protecting your long-term investment.

Risk Mitigation

Proactive maintenance helps identify and address potential issues, reducing the risk of system failures and unexpected downtime.

Ensuring Safety

Regular checks on electrical components and wiring contribute to system safety, preventing hazards and ensuring compliance with safety standards.

Preserving Financial Returns

By addressing issues promptly and optimizing performance, maintenance safeguards the financial returns of your solar investment over the years.

Optimal Performance
Preventing Efficiency Loss
System Longevity
Risk Mitigation
Ensuring Safety
Preserving Financial Returns
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We Understand Solar
We provide Comprehensive Maintenance

We offer a blend of expertise, cutting-edge technology, and well-defined processes to ensure compliance and elevate the performance of your solar assets. Our Operations and Maintenance (O&M) systems empower you with effective monitoring and control, allowing you to manage the costs associated with risk effectively.

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Proactive Maintenance Solutions

Our comprehensive maintenance service packages are tailored to meet the distinct needs of solar plant owners, project developers, and investors.

Operational Intelligence

As your trusted partner in solar plant operations and maintenance, we offer valuable technical insights into your power plant, enhancing your understanding of their impact on financial returns.

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Warranty Support

Our services extend to long-term maintenance planning with equipment manufacturers or contractors, providing valuable assistance in warranty claims for a seamless solar experience.

Value Driven Approach
Maximize Your Investment Through AMC

AMC services offer a Strategic Approach to Amplify Yield, Minimize Downtime, and Safeguard Your Assets, thereby Enhancing Your Investment Value.

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What our AMC includes
What Our AMC Includes?
Structured to Address Predictive, Preventive, and Corrective Maintenance for Your Solar PV Installation.
1
|   Panels Cleaning

Scheduled cleaning thrice a month to maintain optimal performance.

2
| Vegetation & Shading Management

Regular clearing of vegetation and shading from nearby trees and plants to prevent efficiency loss.

3
| Electrical Checks

Thorough checks including thermal imaging for loose connections, string current, voltage, etc.

4
| Sensor & SCADA Calibration

Calibration of sensors, SCADA, and monitoring systems to ensure accurate data.

5
|   Alarm Handling

Regular checks on inverter functionality, diagnosing abnormal behavior in the power plant.

6
| Alarm Handling

Swift response within 48 hours for alarm handling and error notification.

7
| Manufacturing Faults Management

Notification and management of manufacturing faults, overseeing repairs and upgrades.

8
| Fortnightly Reporting

Regular reporting every two weeks to keep you informed about the system’s performance.

9
|   Warranty Claim Assistance

Assistance with warranty claims for seamless issue resolution.

10
| Provided Spares

Supply of essential spares like MC4 connectors, fuses, electrical components, and inverters.

What our AMC includes
We Add Value to Your Project
Optimized Solar Panel Yield

Strategically enhancing solar panel yield at your plant.

Maximized Generation Uptime

Ensuring maximum plant uptime for optimized energy generation.

Comprehensive Periodic Maintenance

Regularly maintaining all civil, electrical, & mechanical components.

Risk Assessment Updates

Providing timely updates on risk assessments & necessary precautions.

Energy Production & Performance Audits

Conducting regular audits to monitor energy production & assess system.

Swift Service Support

Offering service support within 48 hours for corrective, reactive, & ad-hoc maintenance.

Condition-Based Maintenance

Implementing condition-based maintenance strategies, especially for challenging sites.

Failure Mode Analysis

Conducting comprehensive failure mode analysis & risk assessments for proactive system management.

Optimized Solar Panel Yield
Maximized Generation Uptime
Comprehensive Periodic Maintenance
Risk Assessment Updates
Energy Production & Performance Audits
Swift Service Support
Condition-Based Maintenance
Failure Mode Analysis
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Testimontials
Our Customers Recommend Us

Explore Customer Feedback and Testimonials to Discover Why Our Clients recommend us.

FERT.solar turned my solar journey from a worry to a seamless experience. Being a working professional, I was initially concerned about execution and energy generation. The daily updates from their team provided reassurance, and obtaining subsidies through them was incredibly easy. With regular maintenance taken care of effortlessly, FERT.solar not only transformed my worries into confidence but also made the transition to solar energy remarkably smooth. Highly recommend their expertise and hassle-free services. all I had to do was complete a simple form.
K R Prakash
Hyderabad
I’m truly impressed with FERT.solar’s quick response and high technical expertise. Their team patiently cleared all my doubts, taking the time to guide me through every step of the process and explain the intricacies of their products in detail. This level of professionalism and commitment to customer understanding made my decision to go solar with them not just easy but also highly informed. Kudos to FERT.solar for their exceptional service!
S N Ramesh
Trivandrum
FERT.solar surpassed expectations in handling our commercial solar project. Their highly professional demeanor, adherence to global standards, and rigorous commitment to high-quality and safety procedures were evident throughout. The project was executed with precision and attention to detail, instilling confidence in our decision. Choosing FERT.solar for our commercial venture meant choosing excellence, making them a reliable partner for top-notch solar solutions in the business sector.
Muralya Group
Hyderabad
FERT.solar has been an invaluable partner for our housing society’s solar initiative. Their professionalism, dedication to global standards, and rigorous focus on high-quality and safety procedures have set a benchmark. From the initial consultation to the final installation, their team patiently guided us through the process, ensuring every detail was covered. Opting for FERT.solar was choosing a trusted ally for our housing society’s sustainable future, and we appreciate their unwavering commitment to excellence.
SFS Granderia
Hyderabad
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"FERT.solar turned my solar journey from a worry to a seamless experience. Being a working professional, I was initially concerned about execution and energy generation. The daily updates from their team provided reassurance, and obtaining subsidies through them was incredibly easy. With regular maintenance taken care of effortlessly, FERT.solar not only transformed my worries into confidence but also made the transition to solar energy remarkably smooth. Highly recommend their expertise and hassle-free services. all I had to do was complete a simple form."

Arunsreekumar

Trivandrum

"I’m truly impressed with FERT.solar’s quick response and high technical expertise. Their team patiently cleared all my doubts, taking the time to guide me through every step of the process and explain the intricacies of their products in detail. This level of professionalism and commitment to customer understanding made my decision to go solar with them not just easy but also highly informed. Kudos to FERT.solar for their exceptional service!"

S N Ramesh

Trivandrum

"FERT.solar surpassed expectations in handling our commercial solar project. Their highly professional demeanor, adherence to global standards, and rigorous commitment to high-quality and safety procedures were evident throughout. The project was executed with precision and attention to detail, instilling confidence in our decision. Choosing FERT.solar for our commercial venture meant choosing excellence, making them a reliable partner for top-notch solar solutions in the business sector."

Muralya Group

Position, Company name

"FERT.solar has been an invaluable partner for our housing society’s solar initiative. Their professionalism, dedication to global standards, and rigorous focus on high-quality and safety procedures have set a benchmark. From the initial consultation to the final installation, their team patiently guided us through the process, ensuring every detail was covered. Opting for FERT.solar was choosing a trusted ally for our housing society’s sustainable future, and we appreciate their unwavering commitment to excellence."

SFS Granderia

Position, Company name

Get Answers to Your Solar Queries

Frequently  Asked Questions

General
What Is a Solar Rooftop System?

A solar rooftop system constitutes a sophisticated assembly designed to transform sunlight directly into electrical energy for everyday use. This system integrates several key components:

  1. Solar Panels with PV Cells: These panels are the heart of the system, where the photovoltaic (PV) cells are located. They capture sunlight and initiate the conversion process into electricity.
  2. Solar Inverter: This device converts the direct current (DC) produced by the solar panels into alternating current (AC), making the electricity suitable for home or business use.
  3. Solar Panel Mounting Structures: These structures securely hold the solar panels in place, ensuring they are optimally positioned to capture sunlight.
  4. AC and DC Cables: These cables transport the electrical current from the solar panels to the inverter and then into your home or business.
  5. AC Combiner Box: This box combines the AC output from multiple inverters, streamlining the process of connecting the solar system to the electrical grid.
  6. DC Combiner Box: Similar to the AC combiner box, this component consolidates the DC output from multiple panels before it's converted to AC by the inverter.
  7. Earthing Cables: These provide a safe path for any excess electricity to be discharged into the ground, protecting the system and your property from electrical surges.
  8. MC4 Connectors: These are specialized connectors used to link solar panels, inverters, and other components securely and efficiently, ensuring a stable electrical connection.
How Does a Solar Rooftop System Work?

The operation of a solar rooftop system is predicated on the photovoltaic effect, a process through which sunlight is directly converted into electrical energy. This occurs when sunlight interacts with the PV cells in solar panels, triggering the conversion of light into DC electricity. To make this electricity usable for standard appliances, an AC combiner box then converts the DC power into AC power.

The produced AC electricity is directed into a bidirectional meter, which performs multiple crucial functions. It not only feeds electricity into your property but also manages the exportation of surplus energy back to the electricity grid (DISCOM) and facilitates the importation of power from the grid when the output of the rooftop solar system is insufficient to meet your daily energy needs. This ensures a consistent and efficient supply of electricity, leveraging renewable solar energy to meet consumption demands while contributing to environmental sustainability.

What factors are important to consider when planning to go solar?

When planning to go solar, it is important to consider:

  1. How much of your energy needs can you meet with solar?
  2. How much can you save by going solar?
  3. Do you have enough shadow-free space (land or roof)?
  4. How much do you want to invest in your solar PV system?
  5. Every Solar PV system is customized based on your site conditions. Therefore, you need a fair assessment of your energy requirements, site conditions and the solar energy generation potential at your site which would directly impact your savings.
Key Considerations for Installing a Rooftop Solar Power System

When planning the installation of a rooftop solar power system, several crucial factors must be carefully considered to ensure optimal electricity generation. The uniqueness of each rooftop requires a customized approach to system design and meticulous attention during installation.

Here's what you need to keep in mind:

1. Orientation and Tilt Angle:

  1. Solar panels should ideally face the south direction to capture maximum sunlight throughout the day.
  2. The tilt angle of the panels is typically around 30% in India, although this may need adjustment based on the specific height and orientation of your installation site.

2. Secure Mounting:

  1. To withstand adverse weather conditions, solar panels must be securely mounted using anchor bolts or a concrete foundation.
  2. The tilt angle of the panels is typically around 30% in India, although this may need adjustment based on the specific height and orientation of your installation site.

3. Minimizing Transmission Losses:

  1. Position UPS units and batteries as close to the solar panels as possible to reduce DC transmission losses.

4. Electrical Configuration:

  1. It's essential to ensure that the system does not exceed the maximum permissible voltage when panels are connected in series.
  2. Maintain a minimum gap of 5 mm between panels to accommodate material expansion.

5. Uniformity and Shade Avoidance:

  1. Use solar panels of the same type (monocrystalline or polycrystalline) and power class to ensure consistency and efficiency.
  2. Avoid any shading on the panels from trees, buildings, or other obstructions to prevent energy losses and hotspot formation.
How to Apply for a Solar Rooftop Subsidy?

Applying for a solar rooftop subsidy through the Direct Benefit Transfer (DBT) scheme is a straightforward process. You have the option to contact us directly for assistance; our team is ready to guide you through every step, ensuring a hassle-free experience. Alternatively, you can follow these detailed steps for a smooth application process on your own:

  • Visit the National Portal for Rooftop Solar to access all necessary information.
  • Download and Install the Sandes App from the website, which is essential for the application process.
  • Register as a Customer on the Sandes app to start your subsidy application journey.
  • Await DISCOM assessment of the technical feasibility of installing a solar rooftop system at your home.
  • Receive a No Objection Certificate (NOC) from the official, confirming your eligibility.
  • Select FERT.solar as your preferred solar installation company following the approval.
  • Discuss Your Project with us, finalize the details, and sign an agreement to kickstart the installation process.
  • Make the Payment to begin the installation of your solar rooftop system.
  • Receive a Work Completion Report from us, after which we'll apply for a net meter installation on your behalf.
  • Obtain a Commissioning Certificate, marking the successful installation and operational status of your solar system.
  • Submit Your Bank Details and a canceled cheque copy through the National Portal for Rooftop Solar, enabling the subsidy transaction.
  • Receive the Subsidy in Your Bank Account within 30 days post-verification by the fund handling agency.

By adhering to these steps, you can efficiently navigate the application process and start benefiting from solar energy with the help of the subsidy.

What is the solar panel for home price in India without a subsidy?

Understanding the cost of solar panels for your home or residential complex without subsidies is essential for accurate budgeting and planning. We have prepared an updated price list as of 2024, that reflects the various sizes of rooftop solar systems available in India, excluding any subsidies. The variation in price is attributed to differences in panel types, technology used, and the quality of installation. Here are the updated estimated price ranges:

  • 3 kW Rooftop Solar System: ₹1,77,000 - ₹2,86,000
  • 5 kW Rooftop Solar System: ₹2,58,000 - ₹4,08,000
  • 10 kW Rooftop Solar System: ₹4,71,000 - ₹7,20,000
Why Consider Solar Energy?

Choosing solar energy is an excellent decision for both your wallet and the environment. It offers significant savings on your monthly electricity bills, allowing you to benefit financially while also making a positive impact on the planet. Solar power is a clean, renewable source of energy that contributes to reducing pollution (including air, noise, and land pollution) and does not produce greenhouse gases, thereby helping to mitigate climate change. Embracing solar energy is not just an investment in your home, but a commitment to a sustainable and healthier planet.

Is Solar Power Safe?

Absolutely. Solar power generates electricity that is identical in quality and safety to the power supplied by your local electricity provider, with the distinction being its source. Solar energy stands out as one of the safest forms of electricity, posing no hazards and emitting no toxic or harmful gases during its production process. It's an environmentally friendly alternative that ensures your energy consumption does not compromise the health of our planet.

How Can I Get a Rooftop Solar System Installed?

If you're interested in a rooftop solar installation, the main prerequisites are having enough free space on your roof and access to that space. You can initiate the process by filling out the project inquiry form on our website, or by contacting us directly via WhatsApp or phone at 85-47-48-00. Our dedicated team will get in touch with you to understand your requirements and preferences better. After finalizing the project details, we take responsibility for the entire lifecycle of your solar installation—ranging from design and setup to maintenance—to ensure a smooth and worry-free experience for you.

Essential Components for a Comprehensive Residential Solar Power System

When setting up a residential solar power plant, it's vital to look beyond the obvious components such as solar panels, inverters, and batteries. FERT.solar emphasizes the importance of several additional elements that are critical to ensuring the system's efficient operation and safety. Compromising on the quality of these components could significantly risk the integrity and functionality of your solar setup.

1. ACDC DB / Junction Boxes:

  1. Function: They serve as protective enclosures for wiring connections, ensuring that all electrical links are safely contained.
  2. Importance: These boxes prevent direct exposure of connections to environmental elements, thereby reducing the risk of short circuits or fires.

2. Conduits:

  1. Function: Conduits are used to protect and route electrical wiring throughout the solar power system.
  2. Variety: They come in different types, including rigid and flexible conduits, to suit various installation needs and environments. The choice between them depends on factors like the installation location, exposure to environmental elements, and the need for durability.

3. Lightning Arrestors:

  1. Function: These devices are designed to protect your solar power system from lightning strikes by diverting the surge directly to the ground.
  2. Importance: Lightning arrestors are particularly crucial in areas prone to thunderstorms, providing a safeguard for the solar panels, inverters, and other sensitive components from electrical surges.

4. Earthing/Grounding System:

  1. Function: A properly implemented earthing system ensures that any excess electricity is safely discharged into the earth.
  2. Safety: This system is essential for preventing electrical overloads, protecting both the solar power system and your household from potential electrical hazards. It acts as a critical fail-safe, ensuring that in the event of a lightning strike or power surge, the risk of damage to the system and danger to occupants is minimized.
What Are the Different Types of Solar Power Systems?

Solar power systems can be categorized into three types based on their connection to the power grid or their use of battery storage systems:

  1. On-Grid Solar Systems: These systems are integrated with the public electricity grid and utilize standard solar inverters. The primary advantage is the ability to feed any surplus solar energy back into the grid, often earning the producer feed-in tariffs or credits under the "Net-Metering Policy." This policy, which compensates for the energy exported, is currently implemented in most Indian states.
  2. Off-Grid Solar Systems: These systems operate independently from the electricity grid and rely on battery storage to provide power. To ensure reliability throughout the year, including during winter when sunlight is scarce, off-grid systems must be carefully designed to have sufficient power generation capacity and battery storage.
  3. Hybrid Solar Systems: Combining the benefits of solar generation with battery storage, hybrid systems offer versatility in energy usage. They store solar energy collected during the day for use at night. Once the stored energy is exhausted, the system seamlessly switches to the grid, ensuring a constant power supply. Hybrid systems are increasingly popular due to their ability to offer the best of both grid-connected and off-grid solutions.

Each system type offers distinct advantages and is suited to different needs, from maximizing financial returns and energy independence to ensuring power availability during grid outages.

What are different types of solar panels ?

The solar panel market offers a variety of technologies, each with its unique benefits and applications. Here are some of the primary types of solar panels available:

  1. Polycrystalline Solar Panels:
    Description: Polycrystalline (or multi-crystalline) panels are recognized by their bluish hue and squared-off look, a result of the silicon fragments melted together to form the solar cells.
    Pros: They are more cost-effective than other types and offer a good balance of efficiency and affordability for residential and commercial use.
    Cons: Polycrystalline panels have a slightly lower efficiency and heat tolerance compared to mono-crystalline panels.
  2. Mono PERC Half Cut Solar Panels:
    Description: These panels use monocrystalline cells that have been cut in half, which improves performance and durability. PERC (Passivated Emitter and Rear Cell) technology adds a layer to the back of the cell, enhancing efficiency by reflecting light back into the cell.
    Pros: Higher efficiency and better performance in low light conditions compared to traditional monocrystalline panels. The half-cut design reduces resistance and increases durability.
    Cons: They can be more expensive due to the advanced technology and manufacturing processes involved.
  3. Bifacial Solar Panels:
    Description: Bifacial panels can absorb light from both the front and back sides, capturing reflected sunlight from the surface beneath the panel as well as direct sunlight.
    Pros: Increased energy generation potential, making them highly efficient. They are especially beneficial in installations where the rear side can capture significant reflected light.
    Cons: The installation and system design may be more complex to optimize the benefits of the dual-sided design. They may also require a more specialized mounting system.
  4. TOPCon Solar Panels:
    Description: Tunnel Oxide Passivated Contact (TOPCon) panels are a type of high-efficiency monocrystalline silicon solar panel. They utilize a tunnel oxide layer in conjunction with a highly doped polysilicon layer to enhance the solar cell's efficiency.
    Pros: TOPCon panels offer very high efficiency and excellent performance in various light conditions, with better temperature coefficients and reduced degradation over time.
    Cons: The technology is relatively new and can be more expensive than traditional monocrystalline or polycrystalline options.
What are different types of solar inverters available ?

Solar inverters play a crucial role in converting direct current (DC) generated by solar panels into alternating current (AC) that can be used by home appliances and fed into the electricity grid. The two primary types of solar inverters are string inverters and micro inverters, each with its distinct characteristics and advantages.

String Inverters:

  1. Description: String inverters are the most common and traditionally used solar inverter type. In a string inverter system, solar panels are connected in a series to form a "string." The DC electricity from these panels flows to a single, centralized inverter where it's converted to AC electricity.
  2. Pros: String inverters are cost-effective and have a proven track record of reliability. They are ideal for installations where solar panels are positioned to receive similar sunlight exposure, minimizing the impact of shading.
  3. Cons: The performance of the entire string is affected by the weakest panel. If one panel is shaded or underperforming, the output of all panels in the string is reduced to match the lowest-performing panel.

Micro Inverters:

  1. Description: Micro inverters are installed on each solar panel in the system, allowing each panel to convert DC to AC independently. This setup maximizes the efficiency of each solar panel.
  2. Pros: Micro inverters offer enhanced energy production, especially in situations with variable shading or orientation. They allow for individual panel monitoring, making it easier to identify and rectify issues with specific panels.
  3. Cons: The initial cost of micro inverter systems is generally higher than string inverter systems due to the need for multiple inverters. However, the potential increase in energy yield and detailed monitoring capabilities can offset this cost over time.

Choosing between a string inverter and micro inverter depends on the specific requirements of the solar installation, including the layout, shading conditions, and budget. Micro inverters offer more flexibility and efficiency in complex installations, while string inverters are a cost-effective solution for simpler, unshaded installations.

Expected Daily Energy Production

On a bright, sunny day, a 1 kWp solar installation can generate approximately 4 to 5.5 units of electricity. This indicates the range of units that can be produced daily under optimal weather conditions, serving as a benchmark for anticipated system performance. The savings on your electricity bill are directly linked to the capacity of your solar panel installation. In a sun-rich country like India, with an average of 4-5 hours of strong sunlight for about 300 days annually, a 1000Wp (1 kWp) solar panel system is expected to produce around 4-5 units each sunny day.

How critical is the quality of the structure on which the solar panels are mounted?

At FERT.solar, we cannot overstate the importance of high-quality mounting structures for solar panels. The structure serves as the foundation of your solar power system, ensuring the stability and durability of the panels over their lifespan. Given the varied environmental conditions they must withstand, from heavy rains and strong winds to extreme temperatures, the integrity of these structures directly impacts the efficiency and safety of your solar installation.

A robust mounting structure not only secures your panels in the optimal position for sunlight exposure but also protects them against physical damage, maintaining system performance at its peak. Additionally, proper alignment and angling, facilitated by a well-designed structure, significantly enhance energy production efficiency.

Choosing the right materials and design for your solar panel mounting structure is crucial. At FERT.solar, our experts meticulously select and recommend structures based on thorough assessments of your location, roof type, and specific environmental conditions, ensuring that your solar power system is built on a foundation that guarantees performance, longevity, and safety.

Do Solar Panels Work During Monsoon and Winter?

Yes, solar panels are capable of generating electricity even during monsoon seasons and winter months, though their efficiency might be somewhat diminished in cloudy or rainy conditions. This decrease in efficiency is accounted for in the energy production estimates that are provided for each project, ensuring realistic expectations for energy generation throughout the year.

Can Rooftop Solar PV Systems Generate Power During a Power Outage?

No, rooftop solar PV systems typically do not operate or produce electricity during power outages for safety reasons. Blackouts often result from damages to the electricity grid. If a solar inverter continued to supply power to a compromised grid, it could endanger individuals working on repairs. To address the challenge of frequent power outages, SolarSquare Energy offers the option to integrate a lithium-ion (Li-ion) storage battery with your solar power system. This battery stores surplus electricity generated during daylight hours, providing a reliable backup power source for use during the night or in case of a power failure.

How Much Electricity Does a Solar Plant Generate?

The amount of electricity a solar plant generates varies based on several factors, including the level of solar radiation, the amount of sunlight received, the design of the plant, and the quality of its components. On average, a 1 kW solar plant is capable of producing approximately 4 units of electricity each day.

What Appliances Can Be Powered by Solar Energy?

Solar power plants can efficiently operate a wide range of equipment, from heavy machinery in industrial settings to common household electrical and electronic appliances. The electricity produced by the solar plant seamlessly integrates with your existing grid or diesel generator setup, ensuring stable voltage levels regardless of the number of appliances in use.

How to Determine the Right Size for a Solar Plant?

Selecting the appropriate size for your solar plant involves considering the following factors:

  • Your pattern of electricity consumption
  • The available area free of shadows
  • The level of solar irradiation in your region

When you express interest in a solar project with FERT.solar, we conduct a thorough analysis to scientifically determine the most suitable project size for your needs.

What Is Net Metering?

Net metering is a billing mechanism that credits solar energy system owners for the electricity they add to the grid. Excess power generated by solar panels and sent to the grid can be retrieved, or "drawn back," when the solar system is not producing electricity, such as at night. This system allows the bi-directional electricity meter to run backwards for the energy "net metered," ensuring customers are only billed for their "net" energy usage.

Why Choose FERT.solar for Your Solar Rooftop Project?
  • Expertise and Certification: FERT.solar’s team of experts is certified and trained to deliver high-quality installations, adhering to the highest industry standards.
  • Custom Solutions: We understand that every roof is unique. Our team provides customized solutions that fit the specific needs and constraints of your property.
  • Comprehensive Service Package: From initial consultation to post-installation maintenance, FERT.solar offers comprehensive service packages, including AMC and free services, depending on the selected package.
  • Commitment to Customer Satisfaction: Your satisfaction is our top priority. We strive to ensure a seamless and positive experience throughout your solar journey with us.
Solar Maintenance
What is the Lifespan of a Rooftop Solar System?

The lifespan of a rooftop solar system is typically around 25 -30 years. The key components of this system include solar panels and inverters. Solar panels come with a warranty of 25 -30 years, whereas inverters have a warranty period ranging from 5 to 25 years.

Are Solar Rooftop Projects Expensive to Maintain?

Solar rooftop systems are known for their low maintenance costs due to their minimal moving parts. FERT.solar offers AMC and free services based on the package selected.

Will Installing Solar Projects Damage My Roof?

FERT.solar adheres to UL certification, one of the highest quality and safety standards globally, ensuring no damage to your existing structures during the installation or operation of the solar plant. We employ various techniques, including non-penetrating structures and waterproofing solutions, to preserve your roof's integrity.

Is it Necessary to Clean My Solar Plant?

Maintaining the cleanliness of your solar panels by cleaning them once or twice a month is recommended. For safety and to avoid interference with electricity production, it is best to clean the panels early in the morning or at night. Use a damp cloth, soft nylon brush, or sponge for cleaning and ensure the panels are dry afterwards. Avoid using metal brushes or detergents as they can damage the panel surfaces.

Can I Install a Solar Project on a Non-Concrete Roof?

Solar power plants can be installed on various types of roofs, regardless of their material or shape. For roofs made of brittle materials (like Asbestos) or those with compromised integrity, FERT.solar offers roof replacement options as part of the solar rooftop project solution.

Solar Economics
What is the Lifespan of a Rooftop Solar System?

The lifespan of a rooftop solar system is typically around 25 -30 years. The key components of this system include solar panels and inverters. Solar panels come with a warranty of 25 -30 years, whereas inverters have a warranty period ranging from 5 to 25 years.

Are Solar Rooftop Projects Expensive to Maintain?

Solar rooftop systems are known for their low maintenance costs due to their minimal moving parts. FERT.solar offers AMC and free services based on the package selected.

Will Installing Solar Projects Damage My Roof?

FERT.solar adheres to UL certification, one of the highest quality and safety standards globally, ensuring no damage to your existing structures during the installation or operation of the solar plant. We employ various techniques, including non-penetrating structures and waterproofing solutions, to preserve your roof's integrity.

Is it Necessary to Clean My Solar Plant?

Maintaining the cleanliness of your solar panels by cleaning them once or twice a month is recommended. For safety and to avoid interference with electricity production, it is best to clean the panels early in the morning or at night. Use a damp cloth, soft nylon brush, or sponge for cleaning and ensure the panels are dry afterwards. Avoid using metal brushes or detergents as they can damage the panel surfaces.

Can I Install a Solar Project on a Non-Concrete Roof?

Solar power plants can be installed on various types of roofs, regardless of their material or shape. For roofs made of brittle materials (like Asbestos) or those with compromised integrity, FERT.solar offers roof replacement options as part of the solar rooftop project solution.

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