ISO CERTIFIED COMPANY.

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ISO 9001 - 2015 CERTIFIED COMPANY

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About Us

SAMSON SOLAR ENERGY is Karnataka’s leading company in solar power sector. Established in 2012, we specialize in design, engineering, supply, installation, commissioning, operations and maintenance of solar power systems, ranging from KW capacities. Samson Solar leadership team brings wealth of business experience of working in national, professional environment. Head quartered in Dharwad (India), SAMSON Solar has installation base of 16 Districts across Karnataka and installation in Middle East.Over the years, Samson Solar has developed and commercialized unique solar power solutions customized for each application. These include

rooftop systems for different types of roofs (RCC floor, industrial metal roof), solarized petrol

pumps, DC water pumps for agriculture and domestic requirement.

Samsonn Solar has strong focus on continuous efficiency improvement and reduction in Rs./

watt through innovative solutions & vertical integration. With our knowledge of the photovoltaic domain, we are able to leverage global sourcing of high quality, reliable and cost effective

solar panels and other components.Samson Solar offers CAPEX as well as BOOT models for its customers. We also support open access customers and investors.Samson Solar is category ’A’ channel partner of MNRE.

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Our Vission & Mission

Vission

To encourage the utilization of renewable by citizens in their day to day lives by

innovating,manufacturing and supplying high-performance,cost-effective efficient Renewable

Energy products.To encourage the utilization of renewable energy in day-to-day lives by innovating manufacturing renewable Energy products.

Mission

Provide high quality, efficient, affordable and hassle-free Renewable Energy products backed by

effective after-sales service to ensure high customer satisfaction Contribute to Nation Building by encouraging citizens to utilize renewable energy in day-to-day lives and carbon footprint for sustenance of healthy life on the planet.

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Who We Are

SAMSON SOLAR ENERGY is Karnataka’s leading company in solar power sector. Established in 2012, we specialize in design, engineering, supply, installation, commissioning, operations and maintenance of solar power systems, ranging from KW capacities. Samson Solar leadership team brings wealth of business experience of working in national, professional environment. Head quartered in Dharwad (India),SAMSON Solar has installation base of 16 Districts across Karnataka and installation in Middle East.Over the years, Samson Solar has developed and commercialized unique solar power solutions customized for each application. These include

rooftop systems for different types of roofs (RCC floor, industrial metal roof), solarized petrol

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How We Work

Collecting Information from the client.

Analysing the requirement provided by the client.

Reverting back to the client to inform about the estimated time required for completion of project.

Finally installation of the product which will be completed with the estimated time.

Step

1

ST Step

2

ND Step

3

RD Step

4

TH

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Solar Rooftops

A rooftop photovoltaic power station, or rooftop PV system, is a photovoltaic system that has its electricity-generating solar panels mounted on the rooftop of a residential or commercial building or structure.[1] The various components of such a system include photovoltaic modules, mounting systems, cables, solar inverters and other electrical accessories.[2]

Rooftop mounted systems are small compared to ground-mounted photovoltaic power stations with capacities in the megawatt range. Rooftop PV systems on residential buildings typically feature a capacity of about 5 to 20 kilowatts (kW), while those mounted on commercial buildings often reach 100 kilowatts or more.

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Solar Rooftops

COMPONENTS OF A ROOFTOP SOLAR ARRAY:

The following section contains the most commonly utilized components of a rooftop solar array. Though designs may vary with roof type (eg. metal vs shingle), roof angle, and shading concerns, most arrays consist of some variation of the following components.

1. Solar Panels produce carbon free electricity when irradiated with (sun)light. Often made of Silicon, solar panels are made of smaller solar cells which typically number 6 cells per panel. Multiple solar panels strung together make up a solar array. Solar panels are generally protected by tempered glass and secured with an aluminum frame. The front of a solar panel is very durable whereas the back of a panel is generally more vulnerable. 2. Mounting clamps generally consist of aluminum

brackets and stainless steel bolts that secure solar panels to one another on the roof and onto the rails. Clamps often vary in design in order to

account for various roof and rail configurations.

3. Racking or rails are made of metal and often

lie in a parallel configuration on the roof for the

panels to lie on. It is important that the rails are level enough for the panels to be evenly mounted.

4. Mounts attach the rails and the entire array to the surface of the roof. These mounts are often

L brackets that are bolted through flashing and

into the rafters of the roof. Mounts vary in design

due to the wide range of roof configurations and

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Solar Rooftops

5. Flashings are a durable metal plate that provide a water resistant seal between the mounts and

roof surface. Oftentimes, caulk is used to seal the flashing to the roof and it resembles a metal roof

shingle.

6. DC/AC wiring for inverters connect wires between panels and into a micro inverter or string

inverter. [11]No cables should touch the roof surface or hang from the array to avoid weathering and the deterioration of cables.

7. Micro inverters are mounted to the bottom of the panel and convert DC power from the panels into AC power that can be sent into the grid. Micro inverters allow for the optimization of each panel

when shading occurs and specific data from individual panels.

TECHNICAL CHALLENGES

There are many technical challenges to integrating large amounts of rooftop PV systems to the powergrid. For example:

Reverse Power Flow

The electric power grid was not designed for two way power flow at the distribution level.

Distribution feeders are usually designed as a radial system for one way power flow transmitted

over long distances from large centralized generators to customer loads at the end of the

distribution feeder. Now with localized and distributed solar PV generation on rooftops, reverse flow causes power to flow to the substation and transformer, causing significant challenges. This has

adverse effects on protection coordination and voltage regulators.

Ramp rates

Rapid fluctuations of generation from PV systems due to intermittent clouds cause undesirable

levels of voltage variability in the distribution feeder. At high penetration of rooftop PV, this voltage variability reduces the stability of the grid due to transient imbalance in load and generation and causes voltage and frequency to exceed set limits if not countered by power controls. That is, the centralized generators cannot ramp fast enough to match the variability of the PV systems causing frequency mismatch in the nearby system. This could lead to blackouts. This is an example of how a simple localized rooftop PV system can affect the larger power grid. The issue is partially mitigated by distributing solar panels over a wide area, and by adding storage.

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5 kw Installed at Dharwad

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15 kw Installed at Dharwad

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10 kw Installed at Hubli

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20 kw Installed at Hyderabad

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Street Lights at Shirkol

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2000 LPD Installed at Dharwad

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3 HP Solar Water Pump at Koppal

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Our Clients

And more than 1500+ Happy

Customers

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