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Tigo Energy Expands Rapid Shutdown Technology Portfolio with Zerun Licensing Deal

Source: tigoenergy.com

Category: News

  

Tigo Energy Partners with Zerun for Safety Technology Integration

Tigo Energy, a leading innovator in solar safety technologies, has announced a new partnership with Zerun, a prominent player in the solar industry. Under this agreement, Zerun will integrate Tigo’s advanced rapid shutdown technology into its solar product lineup. The move represents a strategic collaboration aimed at enhancing safety and efficiency in solar energy systems. Tigo’s technology, which adheres to global safety standards, will now be part of Zerun’s offerings, contributing to the growing trend of incorporating cutting-edge safety features into solar solutions.

This partnership aligns with Tigo’s long-standing mission to lead the solar industry in safety and innovation. As a recognized leader in Module Level Power Electronics (MLPE), Tigo Energy has been at the forefront of developing technologies that ensure safety, reliability, and performance in solar power systems. The company has earned over 150 patents and has maintained a strong track record of success in patent disputes. Tigo’s rapid shutdown technology is compliant with key standards such as UL 1741, IEC 63257, and the U.S. National Electric Code (NEC), ensuring that solar energy systems can operate safely and efficiently across the globe.

Tigo Energy’s Commitment to Solar Safety and Performance

Tigo Energy’s technology has already been deployed in millions of solar installations worldwide, providing optimized performance, energy monitoring, and code-required rapid shutdown at the module level. These innovations ensure the safety of critical solar infrastructure while delivering a consistent return on investment (ROI) for renewable energy systems. Tigo’s products are known for their ability to increase energy yields, reduce operating costs, and maximize the efficiency of residential, commercial, and utility-scale solar systems.

The company’s approach to solar energy is centered around its Flex MLPE solutions, which combine hardware with intelligent, cloud-based software to provide real-time energy monitoring and control. These solutions not only boost energy performance but also make it easier for installers and system owners to manage their solar energy systems. By enabling rapid shutdown capabilities, Tigo’s products help meet necessary safety codes and regulations, offering peace of mind for both solar installers and consumers.

Expanding the Reach of Innovative Solar Solutions

Zvi Alon, chairman and CEO of Tigo, expressed enthusiasm about the new partnership, welcoming Zerun to a growing group of forward-thinking companies committed to solar innovation and safety. “This licensing agreement reinforces our commitment to advancing solar energy with cutting-edge solutions that prioritize safety, reliability, and performance,” said Alon. “We look forward to expanding the reach of our patented technologies, driving progress, and creating greater value for solar installers and system owners worldwide.”

Tigo’s expansion through strategic licensing agreements, such as the one with Zerun, marks an important step in advancing solar energy’s global reach. With an emphasis on safety, performance, and technological advancement, Tigo continues to lead the charge in shaping the future of solar energy.

Balcony PV Solution: A Simple Definition

A crucial aspect in this safety matrix is the Rapid Shutdown System (RSS) for solar photovoltaic or pv (PV) installments. As solar power becomes a staple in international energy manufacturing, recognizing the nuances of quick closure systems is critical for property owners, installors, and energy professionals alike.

What is a Rapid Shutdown System?

A Rapid Shutdown System is a safety and security device developed for solar PV systems. Its main function is to de-energize the solar panels and the electrical circuits in and around them swiftly in case of an emergency, such as a fire or electric malfunction. The intent is to minimize the risk of electric shock to emergency responders and anybody near the PV system by removing the electric power to a safe level, as specified by relevant standards and codes.

The Importance of Rapid Shutdown Systems

The inception of RSS was largely as a result of safety and security concerns for first responders. Photovoltaic panel generate electrical power when exposed to light, and this can position a significant threat throughout emergency situations. In the occasion of a fire, firefighters need to access the roof where Rapid shutdown solar system solar panels are usually mounted. Without an RSS, these panels remain to produce electricity, creating potential electrical threats. By implementing RSS, the risk of electrical shock is reduced, enabling more secure emergency situation feedbacks.

Governing Landscape

The need for fast closure gadgets in solar PV systems was first introduced in the National Electrical Code (NEC) in 2014, with succeeding updates in 2017 and 2020 versions, each increasing the security requirements. These regulations define the conditions under which the systems must close down and exactly how quickly this closure needs to take place after activation. Conformity with these standards is obligatory in lots of jurisdictions, making it vital for solar PV installments to integrate RSS technology.

How Rapid Shutdown Systems Work

Rapid shutdown systems usually include a mix of specialized devices and controls that can discover an emergency situation signal and react appropriately. When triggered, either by hand or automatically, these systems promptly reduce the voltage of the photovoltaic panel ranges to safe levels-- usually to 80 volts or much less within 30 secs, according to the latest NEC criteria.

There are two primary strategies to attaining fast shutdown:

Module-Level Power Electronics (MLPEs): Devices like microinverters and DC optimizers are connected to each solar panel. These can shut down the panel or decrease its output to a safe degree individually, supplying a very granular level of control and safety and security.

String Inverter Systems with Rapid Shutdown Boxes: For systems making use of string inverters, rapid shutdown boxes are installed along the string or at the array junction. These boxes can swiftly disconnect the panels from the inverter, making sure compliance with safety requirements.

The Future of Rapid Shutdown Technology

As solar technology progresses, so as well does the elegance of security systems like RSS. Future growths are most likely to focus on improving the efficiency and assimilation of these systems, making them a lot more economical and easier to set up. Developments might consist of cordless interaction for faster response times, advanced products for even more reliable operation under extreme conditions, and smarter systems that can anticipate and stop faults prior to they necessitate a shutdown.

Fast Shutdown Systems stand for a vital crossway of safety and security and technology within the solar power market. As setups become much more common, the value of these systems in protecting lives and property can not be overemphasized. For the solar market, remaining abreast of the most recent requirements and technological advancements in RSS is not simply an issue of regulative compliance, but a commitment to safety and security and sustainability. By fostering a deeper understanding of quick shutdown systems, we can continue to harness the sunlight's power in the most safe means possible.

Everything You Need to Know About Solar Inverters

A solar inverter is a device that converts the direct current (DC) electricity that a solar panel generates from the sunlight into alternating current (AC) electricity that most homes and the electrical grid use. DC electricity is maintained at a constant voltage in one direction, while AC electricity changes direction and voltage periodically. A solar inverter is one of the most crucial equipments in a solar energy system, allowing the use of standard AC-powered equipment. Solar inverters have special functions adapted for use with photovoltaic arrays, such as maximum power point tracking and anti-islanding protection.

Types of solar Inverters

There are three main types of solar inverters available in the market of solar products and each solar inverter has its specific advancements and limitations depending on the application and the configuration of the solar system.

Here is one by one brief description of three main types of solar inverters.

String Inverters

String inverters connect a set or array of solar panels to one central device that converts the direct current (DC) from the panels to alternating current (AC) for your home or grid. They are the most used and cost-effective type of solar inverter. However, some drawbacks are below:

· A single solar panel with a drop in energy production, such as when shading occurs, can decrease the power production for the entire string of panels.

· It is usually mounted on the wall or near the power meter, which may not be aesthetically pleasing or convenient.

· It may not be compatible with complex roof or system designs that have panels facing different directions or angles.

Power Optimizers

Power optimizers are a combination of string inverters and power optimizers, which are devices that optimize the performance of each panel by adjusting the voltage and current individually. They are also known as module-level power electronics (MLPEs) along with microinverters.

Some of their advantages are:

· It reduces the impact of shading or panel mismatch on the overall system output.

· Allows for more flexibility in system design and installation.

· Provide more detailed monitoring and diagnostics for each panel.

Some of their disadvantages are:

· More expensive than string inverters.

· Always require a central inverter to convert DC to AC, which adds complexity and maintenance costs.

· It generates more heat and noise than string inverters.

Microinverters

Microinverters are small inverters that attach to each panel and convert the DC to AC individually. This type of solar inverter has Module-level power electronics (MLPEs) that can improve the performance of solar panels.

Advancements:

· They eliminate the effect of shading or panel mismatch on the system output.

· They allow for more flexibility in system design and installation.

· They provide more detailed monitoring and diagnostics for each panel.

Some of their drawbacks are:

· They are the most expensive type of solar inverter.

· They are exposed to harsh weather conditions on the roof, which may affect their lifespan and reliability.

· They may require more wiring and labor than string inverters.

Inverter for Home

Solar inverters are significant components of solar systems because they enable the conversion of solar energy into usable electricity for homes and businesses. They also help optimize the performance and efficiency of the solar panels by adjusting to the changing conditions and demands of the system. So, you need to be aware of your requirements before investing in solar inverters.

A short explanation of some of the best Inverters for home is Below:

· Some of the best solar inverter brands in India are SMA, GoodWe, ABB, Loom Solar, Fronius, GIANDEL, SMA Sunny Boy, ABB UNO, and Enphase IQ7. These brands offer high-quality, reliable, and efficient solar inverters for various applications, such as residential, commercial, and utility-scale projects. But Loom Solar is a leading solar inverter manufacturer in India, offering a range of products such as off-grid hybrid inverters, on-grid inverters, and solar charge controllers. Loom Solar inverters are designed with the latest technology, such as MPPT (Maximum Power Point Tracking), which optimizes the power output from the solar panels. Loom Solar inverters also have features such as LCD display, overload protection, low battery alarm, etc.

Some of the popular Loom Solar inverters are:

o Loom Solar 1800 VA — 24 Volt Off-Grid Hybrid Inverter: This 1.8 kW off-grid hybrid inverter can run both AC and DC loads. It can support up to 1,000 watts of solar panels and has a built-in 40 amps MPPT charge controller. It can also work with grid power or generator power when solar power is not available.

o Loom Solar 5 kW — 3 Phase on Grid Solar Inverter: This is a 5 kW on-grid inverter that can feed excess solar power to the grid and earn money. It has a high efficiency of 98% and can support up to 6.5 kW of solar panels. It also has features such as remote monitoring, dual MPPT trackers, IP65 protection, etc.

o Loom Solar 50 Ampere — 12/24 Volt MPPT Solar Charge Controller: This is a 50 amps MPPT solar charge controller that can regulate the voltage and current from the solar panels to the battery. It can increase the charging efficiency by up to 30% and extend the battery life. It also has features such as an LCD display, temperature sensor, overload protection, etc.

1 kVA Inverter Price in India

The price of a 1kVA solar inverter varies depending on the brand, technology, features, and warranty. Some of the popular brands that offer 1kVA solar inverters are Loom Solar, Microtek, Luminous, Sukam, and Polycab. The price range of a 1kVA solar inverter is between Rs. 7,000 to Rs. 85,000 depending upon the brand and type of inverter. But loom solar offers superb products at suitable prices. The cost of a 1kVA solar inverter on the Loom solar website is around Rs. 10,000 only for the on-grid inverter. You can purchase it from their website loomsolar.com or call 8750 77 88 00.

Module Level Power Electronics (MLPE) Market Size, Top Companies, Trends, Growth Factors, and Forecast to 2027

Report Title Module Level Power Electronics (MLPE) is one of the most comprehensive and important additions to the Industry Data Analytics. Provides detailed research and analysis of key aspects of the global Module Level Power Electronics (MLPE) market. Market analysts write in-depth information provided in this report is a complete analysis of the global Module Level Power Electronics (MLPE) Market, providing leading growth drivers, restraints, challenges, trends, and opportunities. Market participants can use analysis for market dynamics to plan effective growth strategies and prepare for future challenges. Each trend of the global Module Level Power Electronics (MLPE) market is carefully analysed and studied by market analysts.

Module Level Power Electronics (MLPE) Market is envisaged to record an expansion at the CAGR of 5.6% over the forecast period, 2022 – 2027.

Complete report on Module Level Power Electronics (MLPE) Market report spread across 150+ pages, list of tables & figures, profiling 10+ companies. Read Detailed Index of Full Research Study at @ 

Global Module Level Power Electronics (MLPE) Market

Module Level Power Electronics (MPLE), is the collective term for AC microinverter and DC Power Optimiser solar systems.Direct current (DC) power optimizers and microinverters (together known as module-level power electronics, or MLPE) are one of the fastest growing market segments in the solar industry.

The report forecast global Module Level Power Electronics (MLPE) market to grow to reach xxx Million USD in 2019 with a CAGR of xx% during the period 2020-2025 due to coronavirus situation. The report offers detailed coverage of Module Level Power Electronics (MLPE) industry and main market trends with impact of coronavirus. The market research includes historical and forecast market data, demand, application details, price trends, and company shares of the leading Module Level Power Electronics (MLPE) by geography. The report splits the market size, by volume and value, on the basis of application type and geography. First, this report covers the present status and the future prospects of the global Module Level Power Electronics (MLPE) market for 2015-2024. And in this report, we analyze global market from 5 geographies: Asia-Pacific[China, Southeast Asia, India, Japan, Korea, Western Asia], Europe[Germany, UK, France, Italy, Russia, Spain, Netherlands, Turkey, Switzerland], North America[United States, Canada, Mexico], Middle East & Africa[GCC, North Africa, South Africa], South America[Brazil, Argentina, Columbia, Chile, Peru]. At the same time, we classify Module Level Power Electronics (MLPE) according to the type, application by geography. More importantly, the report includes major countries market based on the type and application. Finally, the report provides detailed profile and data information analysis of leading Module Level Power Electronics (MLPE) company.

Key Content of Chapters as follows (Including and can be customized) : Part 1: Market Overview, Development, and Segment by Type, Application & Region Part 2: Company information, Sales, Cost, Margin etc. Part 3: Global Market by company, Type, Application & Geography Part 4: Asia-Pacific Market by Type, Application & Geography Part 5: Europe Market by Type, Application & Geography Part 6: North America Market by Type, Application & Geography Part 7: South America Market by Type, Application & Geography Part 8: Middle East & Africa Market by Type, Application & Geography Part 9: Market Features Part 10: Investment Opportunity Part 11: Conclusion

Market Segment as follows: By Region Asia-Pacific[China, Southeast Asia, India, Japan, Korea, Western Asia] Europe[Germany, UK, France, Italy, Russia, Spain, Netherlands, Turkey, Switzerland] North America[United States, Canada, Mexico] Middle East & Africa[GCC, North Africa, South Africa] South America[Brazil, Argentina, Columbia, Chile, Peru] Key Companies Solar Edge Enphase Tigo/SMA APSystems i-Energy Co.,Ltd. Lead Solar Chilicon BM Solar Sparq Market by Type Power Optimizer Microinverter Market by Application Residential Commercial

for sample report please visit: https://www.statzyreports.com/report.php?reportnumber=SR151682&reportnames=COVID-19-Version-Global-Module-Level-Power-Electronics-MLPE-Market-Status-2015-2019-and-Forecast-2020-2025-by-Region-C-Product-Type–6-End-Use

Phone Number (IN) – +918484035727

(US) – +1415-871-0483

Email Address Email : [email protected]

Email : [email protected]

How to Install Solar Panels

Installing solar panels on your roof is a great way to generate electricity. However, there are several things to keep in mind before you make your final decision. This article will help you to understand some of the main considerations.

Costs of solar panels

The costs of Install Solar Panels Perth vary widely depending on the size of the system and the quality of the components used. If you have a large property, you may be better off investing in a larger solar panel system. This will allow you to harness more sunlight and produce more energy.

Solar panels can be a great way to reduce your electricity bill. They can save you up to $400 a year per kilowatt. However, you'll want to ensure that you're getting a high-quality system. It's also worth examining the warranty of your new solar system.

To get the most out of your investment, make sure that you use a reputable, accredited solar installer. A quality solar company should only use panels with a 25year warranty.

Monocrystalline vs polycrystalline

Monocrystalline and polycrystalline solar panels are two of the most popular types of solar modules on the market. Choosing one can save you money and energy, but it is also important to weigh the pros and cons. Ultimately, you should choose a solar panel that is best suited for your home or business.

Both monocrystalline and polycrystalline solar panels offer the ability to generate a large amount of electricity. However, they differ in efficiency and cost.

The most basic difference is the type of silicon used. Monocrystalline is a single crystal whereas polycrystalline is composed of several different silicon cells. This is important because it offers better electricity flow and lower resistance to electrical current.

Another key difference is how the panels are manufactured. Monocrystalline panels use a molten silicon process to form small spaces between each cell. These gaps allow for more room for electrons to move.

Trina vs Ford & Doonan

If you are looking for solar panels Perth, you may have been considering Trina or Ford & Doonan. Both manufacturers offer smart, reliable and affordable solar panels. However, they have their own differences. Some of the main ones include price, reliability and the customer service.

Trina has been a pioneering manufacturer of solar cells, and it has helped drive the development of low-cost PV cells and high-efficiency cell technology. Today, they produce a wide range of panels for residential and commercial installations. They also offer advanced bifacial panels.

During the past few years, Trina has improved its customer service. Its Vertex S+ panel is the first Trina panel with a 30-year performance warranty. The panel is packed with the latest solar cell technology and uses a dual glass design.

Shading affects power production

When installing solar panels, shade can have a negative effect on the amount of power that they produce. This is due to the fact that when shade is present, the flow of electricity cannot be directed through the solar panel.

Luckily, there are several ways to mitigate the effects of shading. For example, there are MLPEs (modular power electronics) that attach to each solar cell, and they provide a number of features. These include DC optimizers that adjust the current and voltage output of each cell. They also prevent mismatches and perform maximum power point tracking at the module level.

Bypass diodes also provide some help in minimizing the impact of partial shading. Bypass diodes are devices that reroute electrical current around cells that are experiencing partial shading.

Long-term maintenance

Keeping Solar power installers Perth in tip-top shape is important to the long-term performance of your system. A well-maintained system will produce more electricity than a poorly maintained one, saving you money on utility bills.

The best way to keep your panels clean is to ensure that they don't collect too much dust and debris. This is because particles will hinder the panel's ability to absorb sunlight, which could result in a decrease in your energy output.

It is not difficult to perform a quick maintenance check on your own. Simply disconnect the power, clear the dirt and leaves, and use a garden hose to rinse off the panel.

However, if you are experiencing a reduction in your system's production, you may want to schedule a professional cleaning. You should do this at least once a year.

SMA inverter and Sollega racking set now UL-certified as rapid shutdown system

SMA America and Sollega have joined forces to certify the Sollega FastRack 510 with SMA Sunny Tripower CORE1 inverters as the first system to market that complies with UL 3741 Photovoltaic Hazard Control Systems (PVHCS) and National Electric Code (NEC) 690.12 rapid shutdown of PV Systems on buildings without module-level power electronics (MLPE) or switches.…

The post SMA inverter and Sollega racking set now UL-certified as rapid shutdown system appeared first on Solar Power World.

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