SUNROVER has announced the successful completion of production and factory testing of its US-spec energy storage inverters, developed in partnership with ATESS. This marks a significant advancement for the renewable energy industry. These high-capacity inverters, available in 30kW and 50kW models and operating at 220VAC, are currently undergoing final packaging and are ready for global shipment to meet growing international demand. This advancement marks a key step forward for SUNROVER in its mission to provide powerful and reliable energy storage solutions for a sustainable future.   Central to SUNROVER’s success is its strategic collaboration with leading inverter manufacturers, including industry pioneers such as Atess, Solis, and Deye. These partnerships ensure that SUNROVER lithium-ion batteries deliver flawless compatibility and stable performance when integrated with inverters from these top-tier brands. By prioritizing interoperability, SUNROVER eliminates technical barriers and enhances energy efficiency, providing users with a seamless and resilient power solution.   Beyond hardware compatibility, SUNROVER offers comprehensive, tailor-made PV energy storage systems designed to meet diverse customer needs. From initial consultation to system deployment, SUNROVER’s engineering team develops customized solutions that optimize energy generation, storage, and consumption. Each system is equipped with compatible solar panels, inverters, and batteries selected to maximize ROI and sustainability.   To demonstrate transparency and foster collaboration, SUNROVER invites potential partners and clients to visit its state-of-the-art manufacturing facilities and R&D centers in China. Visitors will gain insights into SUNROVER’s quality-driven production processes and innovative technologies while discussing partnership opportunities.   With its latest inverter release and proven integration capabilities, SUNROVER is poised to lead the next wave of intelligent energy solutions—offering stability, adaptability, and a commitment to global sustainability.

Read More

TEHRAN, Iran – In a significant milestone for its global expansion, SUNROVER has successfully concluded a transformative 15-day business tour across Iran. The visit not only reinforced bilateral cooperation in renewable energy but also culminated in the signing of a landmark 15MW solar power agreement, backed by praise from national energy authorities. The delegation was warmly received by Iran’s Minister of Renewable Energy, who lauded SUNROVER’s innovative technology and strategic vision during high-level talks. The Minister highlighted the alignment between SUNROVER’s expertise and Iran’s sustainable energy goals, expressing strong confidence in the company’s ability to support the country’s transition toward green power. “This partnership marks a new chapter in Iran’s renewable energy development,” the Minister noted. A key moment of the trip was the site visit to a major textile manufacturer, where SUNROVER’s technical team reviewed ongoing and existing PV installations. Impressed by SUNROVER’s end-to-end capabilities, the client entrusted the company with the design and deployment of a fully customized 15MW grid-connected solar plant. The system is tailored to the factory’s high energy consumption profile and land characteristics, maximizing both efficiency and return on investment. The client’s management team spoke highly of SUNROVER’s customer-centric approach: “From initial assessment to technical solution design, SUNROVER demonstrated exceptional professionalism and flexibility. We are confident that this project will serve as a benchmark for industrial solar applications in Iran.” In addition, SUNROVER’s O&M specialists conducted a thorough performance review of the client’s current photovoltaic infrastructure and delivered targeted training to local technicians, further strengthening trust and long-term service reliability. Looking ahead, SUNROVER is committed to deepening its footprint in Iran’s promising renewable market and across sun-rich regions worldwide. The company specializes in delivering integrated solar-storage solutions engineered to unique client requirements—whether for industrial, commercial, or utility-scale applications. SUNROVER warmly invites international partners and potential customers to visit its headquarters, advanced manufacturing facilities, and reference projects across China. Witness firsthand how SUNROVER combines technology with dedication to power a sustainable future.

Read More

In a significant stride towards international sustainable energy collaboration, Sunrover proudly announces the signing of a landmark 6MW ground-mounted photovoltaic project in Iran. This achievement was preceded by a dedicated technical visit, where a delegation of Sunrover's engineering and operations experts traveled to Iran to conduct a comprehensive on-site assessment. The team meticulously evaluated the client's textile manufacturing facility, analyzing its unique energy consumption patterns, available land, and grid interconnection requirements. This hands-on, data-driven approach is central to Sunrover's methodology, ensuring that every photovoltaic system is not just installed but is precisely tailored to the client's specific operational and financial objectives.   The project will be powered entirely by Sunrover's high-efficiency 700W N-type solar panels, renowned for their superior performance in diverse climates, and supported by the company's robust racking systems. Solis grid-tied inverters will complete the setup, ensuring seamless and reliable integration of solar power into the factory's operations. For the textile plant, the bespoke 6MW array will deliver transformative advantages, fundamentally enhancing its energy profile. The system is designed to generate a vast amount of clean electricity, directly offsetting the factory's substantial reliance on expensive and fluctuating grid power. This translates into dramatically reduced operational expenditures, safeguarding the business against future energy price volatility and significantly lowering production costs per unit.   Beyond immediate financial savings, the Sunrover-designed system guarantees a more predictable and secure energy supply, mitigating risks associated with local grid instability. This reliability is crucial for maintaining uninterrupted manufacturing processes. Furthermore, by adopting this large-scale renewable energy solution, the textile factory will make a powerful statement about its commitment to environmental stewardship, substantially diminishing its carbon footprint and aligning with global sustainability standards to enhance its brand reputation. The success of this project, born from meticulous on-the-ground planning and a deep understanding of the client's needs, stands as a powerful testament to Sunrover's tailored approach and the trust placed in it by its Iranian partners. It marks a pivotal step in deepening collaborative ties and demonstrates Sunrover's capacity to execute complex international projects. The company eagerly anticipates welcoming more global partners to its facilities in China to witness its technical capabilities firsthand.

Read More

 August 18, 2025 – SUNROVER has dramatically accelerated its solar-plus-storage footprint in Iran, landing its elite operations and engineering team in Iran on August 16th. Demonstrating unwavering commitment, the team initiated critical customer engagements within hours of arrival, diving deep into bespoke solar-storage system designs and concrete implementation plans tailored to Iran's unique energy landscape.   The momentum surged forward dramatically on August 17th as SUNROVER leadership journeyed to Sabat for a strategic conclave with the Iranian Ministry of Renewable Energy and the nation's Minister of Energy. This pivotal session focused squarely on SUNROVER’s ambitious blueprint for deploying cutting-edge, integrated solar generation and advanced battery storage solutions across Iran.   Crucially, the meeting yielded resounding validation from Iran's highest energy authorities. Both the Ministry and the Minister of Energy explicitly lauded SUNROVER’s exceptional technical expertise and the superior performance and reliability of its solar-plus-storage product portfolio. They expressed strong confidence in SUNROVER’s capacity to deliver transformative, grid-stabilizing renewable energy projects, recognizing the company as a vital partner in achieving Iran’s clean power ambitions. This powerful endorsement underscores SUNROVER’s unique position to address Iran's specific energy challenges with its proven technology.   "This immediate, high-level recognition of SUNROVER’s capabilities marks a defining moment for our Iranian strategy," Aimee from SUNROVER stated. "The Minister's explicit confidence in our solar-storage solutions is not just an accolade; it's a powerful catalyst for rapid deployment."   The lightning-fast transition from customer consultations to securing top-tier governmental backing signals SUNROVER’s aggressive and serious commitment to becoming a cornerstone of Iran's renewable energy future. This dual-track success – immediate market penetration coupled with strategic ministerial approval – provides unparalleled momentum. SUNROVER is now uniquely positioned to swiftly translate this potent combination of customer interest and governmental trust into tangible, large-scale solar-storage installations, poised to illuminate Iran's path towards a sustainable energy future. The company is actively mobilizing resources to capitalize on this significant breakthrough and deliver projects at pace.

Read More

The SUNROVER 1.3MW rooftop distributed photovoltaic energy storage project has commenced commercial operation, marking a significant milestone in integrated clean energy solutions. This turnkey installation deploys SUNROVER's proprietary 700W N-type solar panels, Deye 50KW hybrid inverters, and SUNROVER’s 51.2V100AH rack-mounted lithium batteries – a testament to the company’s end-to-end capabilities. Technical calculations reveal the scale: approximately 1,857 high-efficiency SUNROVER panels harvest sunlight across the rooftop expanse, while 26 Deye 50KW inverters convert and manage power flow. The system’s backbone features SUNROVER’s innovative battery technology, with each 5.12kWh module (51.2V × 100Ah = 5,120Wh) forming a scalable  energy storage solution.   This project exemplifies SUNROVER’s unique position as an integrated manufacturer-engineer. With over a decade of field-proven expertise, the company seamlessly merges industrial production capabilities with specialized design proficiency. SUNROVER doesn’t just manufacture core components like its industry-leading panels and batteries; its engineering team architects customized solar-plus-storage systems from concept through commissioning. Whether designing compact residential units or multi-megawatt commercial installations like this rooftop project, SUNROVER tailors each solution to precise client specifications and site constraints.   Central to the project’s success are SUNROVER’s self-developed rack-mounted lithium batteries. Engineered for universal compatibility, these units integrate flawlessly with over 90% of third-party storage inverters available globally – including the Deye systems deployed here. Beyond interoperability, SUNROVER batteries deliver exceptional endurance, boasting a 6,000-cycle lifespan that ensures long-term operational economics. This durability, verified through rigorous testing, positions them among the most resilient storage solutions for commercial and industrial applications.   The operational 1.3MW installation underscores SUNROVER’s capacity to execute complex energy transitions. From producing high-wattage N-type panels that maximize limited rooftop space, to engineering grid-optimized storage architectures, the company controls every critical phase. For businesses seeking to reduce operational costs and carbon footprints, SUNROVER demonstrates how vertically integrated expertise – spanning manufacturing, system design, and component R&D – translates into reliable, high-yield energy assets. As distributed generation reshapes power infrastructures, this project stands as a replicable model for scalable commercial decarbonization.

Read More

On September 25th, local time, the groundbreaking ceremony for the 60MW Saguning floating photovoltaic project in Indonesia, undertaken by China Energy Construction Gezhouba Group, was held, marking the official start of construction on this green energy project with an estimated annual power generation of 129 million kWh.   The project, located in the Saguning Dam reservoir area in Bandung, West Java, Indonesia, is the first renewable energy project to commence construction since the release of the Indonesian government's New Electricity Plan (2025-2034). It will include a 60MW (AC side) floating photovoltaic power plant, a 150kV booster station, an 8.5km-long 150kV double-circuit transmission line on the same tower, and a 150kV switchyard.   The project utilizes advanced floating photovoltaic technology, with solar panels mounted on floating structures. Compared to traditional ground-based photovoltaic power plants, this not only conserves land resources but also reduces water evaporation, inhibits algae growth, and improves power generation efficiency. Upon completion, the project will save 56,000 tons of standard coal and reduce carbon dioxide emissions by 149,000 tons annually, helping Indonesia achieve its renewable energy development and green transformation goals. During construction, the project is expected to create over 1,600 direct and indirect jobs, significantly boosting local economic and social development. Once successfully operational, the project will provide a valuable model for Indonesia's energy transition and promote the implementation of more floating photovoltaic projects in Indonesian archipelago waters.

Read More

Recently, several photovoltaic projects have commenced construction, including the China Resources New Energy Xintian Sanjing 60MW Agri-PV Complementary Photovoltaic Power Generation Project, the official commencement of the EPC general contracting project for Datang's 60MW Photovoltaic Power Generation Project in Yunnan, and the commencement of construction on a 100MW photovoltaic power generation project in Shanxi.   China Resources Hunan 60MW Agri-PV Complementary Photovoltaic Power Generation Project Commences On September 15th, construction successfully commenced on the China Resources New Energy Xintian Sanjing 60MW Agri-PV Complementary Photovoltaic Power Generation Project. The project, located in Sanjing Town and Xinxu Town, Xintian County, Yongzhou City, Hunan Province, covers an area of ​​approximately 1,200 mu (approximately 1,200 mu). Invested and constructed by China Resources New Energy (Xintian) Co., Ltd., it will have an installed capacity of 60MW. The project, with an estimated total investment of 261.3021 million yuan, plans to build a new 220 kV substation, 20 new photovoltaic arrays, a total length of 4.664 kilometers of access roads, and 4.6 kilometers of buried collector lines. The project received its construction contract on September 5th.   Datang Yunnan 60MW Photovoltaic Power Generation Project Commences On September 18th, the EPC general contracting project for the Datang Yunnan Ganlongtang (60MW) Photovoltaic Power Generation Project, jointly undertaken by China Energy Engineering Group Guangxi Hydropower Engineering Bureau Co., Ltd., China Energy Engineering Group Anhui Electric Power Design Institute Co., Ltd., and China Gezhouba Group Electric Power Co., Ltd., officially commenced. The project, located in Nijiao Township, Qiubei County, Wenshan Prefecture, Yunnan Province, has a rated capacity of 60MW and consists of 3,948 photovoltaic strings and 29 photovoltaic arrays. It is equipped with 188 inverters and 29 box-type transformers, with power collected via two collector lines and connected to the Shuangyangdong 220kV substation.   Shanxi 100MW Photovoltaic Power Generation Project Commences Recently, the groundbreaking ceremony for the Shangao New Energy Group's 100MW (Phase II) photovoltaic power generation project in Hanbei Town, Wuxiang County, Changzhi City, Shanxi Province, was held at the Wuxiang Hanbei Phase I Photovoltaic Power Station. The project has a total construction capacity of 100MW, with a total investment of no more than 400 million yuan. Upon commissioning, it is expected to generate an average annual power generation of 148 million kWh and reduce carbon dioxide emissions by approximately 111,600 tons. Shangao New Energy Group Co., Ltd. (formerly known as Beijing Enterprises Clean Energy Group Co., Ltd.) is a subsidiary of Shangao Holding Group and listed on the Main Board of the Hong Kong Stock Exchange (01250.HK). The company is committed to developing clean energy and explori...

Read More

China advances the integration of AI and new energy, covering areas such as power forecasting, electricity markets, and O&M   On September 8, China’s National Development and Reform Commission (NDRC) and the National Energy Administration (NEA) jointly issued the Implementation Opinions on Promoting the High-Quality Development of ‘Artificial Intelligence+’ in the Energy Sector, calling for seizing the major strategic opportunity of AI development, focusing on application-driven objectives, and accelerating the deep integration of AI into the energy industry.   The document outlines eight typical application empowerment scenarios, including power grids, new business models, new energy, oil and gas, thermal power and hydropower.   In the field of “AI+New Energy,” the document emphasises tackling the volatility and intermittency of new energy output by accelerating AI applications in high-precision power forecasting, electricity markets, smart operation of power plants, new energy planning, and post-project evaluation.   It calls for continuously driving the upgrade and innovation in key new energy materials and products, advancing large-scale forecasting models for complex scenarios and transitional weather conditions to achieve finer scales and higher accuracy, supporting the coordinated optimisation of wide-area new energy resources, promoting smart operation and maintenance (O&M) for new energy sites in remote areas, and building an integrated smart production model for new energy that combines “weather forecasting+power forecasting+smart trading+intelligent O&M” to fully support stable new energy supply.   Additionally, the document highlights the need to address power grid security, new energy consumption, and operational efficiency under the new power system by developing applications for power supply and demand forecasting, intelligent grid diagnostic analysis, and the smart formulation of planning schemes, while strengthening the smart construction management of grid projects.   Chinese company signs 600MW Kyrgyz PV project   On September 2, CECEP Solar Energy Technology, together with Kyrgyzstan First Energy, Jiangsu Jollerge Group, and Tianjin Shiyizhongji Technology, jointly signed the “Batken Green Energy+Green Agriculture and Animal Husbandry Industrial Park” project cooperation agreement.   The project is led by the Green Energy Foundation under the Cabinet of the Kyrgyz Republic and jointly promoted by four enterprises, including Kyrgyzstan First Energy and CECEP Solar Energy.   CECEP Solar Energy will be responsible for the investment in and construction of a 600MW PV power plant in the Batken region of Kyrgyzstan, with a total investment of approximately US$400 million (equivalent to RMB 2.853 billion).   Upon completion, the power plant is expected to generate approximately 1 billion kWh of clean electricity annuall...

Read More

The Government of Uganda has authorised engineering, procurement, and construction (EPC) contractor Energy America to build a 100MWp solar PV plant, integrated with a 250MWh battery energy storage system (BESS).   Located in Kapeeka, in the central Ugandan district of Nakaseke, the project will be developed by Energy America’s regional development subsidiary, EA Astrovolt.   It will be equipped with technology designed for tropical and equatorial climates. The systems will offer high energy yields in heat and high irradiance, modular and scalable battery architecture, centralised monitoring with grid integration, and low-maintenance, long-life assets built to international standards for grid stability, off-peak delivery, and resilience in extreme conditions.   The authorisation comes from a Gazetted Policy Direction under section 16 of the Electricity Act, which is a part of the government’s plan to develop 1GW of solar-plus-storage projects in the country.   A power purchase agreement (PPA) was secured with Uganda Electricity Transmission Company Limited (UETCL), a state-owned distribution network company.   Ruth Nankabirwa Ssentamu, minister of energy and mineral development at the Republic of Uganda, said that the policy direction “will harness clean energy technology, foster local employment and skills development, and accelerate Uganda’s transition to a modern and resilient electricity system.”   The solar PV plant will be fourfold larger than the 24MW solar PV plant from UAE-based renewable power developer AMEA Power, which at the time was said to be the largest in the region. AMEA Power began construction of the Ituka solar PV plant last year and is expected to be commissioned in the third quarter of 2025.

Read More

According to data provided by the Fraunhofer Institute for Solar Energy Systems (ISE), solar power generation hit a record high in many European countries in the first half of 2025. Germany is in the lead, with a total of 40TWh of electricity delivered to the grid from its photovoltaic systems, an increase of 30% from 30.7TWh in the same period last year. Other European countries also saw significant increases in photovoltaic power generation in the first half of this year: France's photovoltaic power generation reached 15.1TWh in the first half of the year, compared with 11.3 TWh in the same period last year; Denmark increased from 2.0 TWh in the same period last year to 2.3 TWh; Poland's solar power generation in the first half of the year increased from 8.8 TWh in the first half of 2024 to 10.3 TWh in the first half of 2025.   However, despite the increase in the contribution of solar energy to the net generation of public electricity across Europe, the overall contribution of renewable energy fell from 358.1TWh in the first half of 2024 to 344.4TWh in the first half of 2025, mainly due to the decline in the contribution of wind energy. In Germany, for example, the contribution of wind power falls from 73.4 TWh in 2024 to 60.3 TWh in 2025, accounting for 31.6% of public net electricity generation. “This is about six percentage points less than in 2024, simply because there is less wind than last year,” said Professor Bruno Burger, senior scientist at Fraunhofer ISE EnergyGraph. “The increase in solar power can only partially make up for this shortfall.” Overall, the share of renewable electricity in Germany’s public net electricity generation is 60.9%, down from 65.1% in the first half of 2024.

Read More

Sunrover Power Co., Ltd has become one of the world's leading power plant developers and component builders, with sales teams all over the world and products exported to more than 80 countries and regions such as Europe, America, South Africa and Southeast Asia，etc.

Read More

Provide help for global new energy development and construction, and at the same time provide better products for customers at home and abroad, win-win cooperation, mutual benefit and mutual benefit, and jointly provide strength for the development and construction of solar energy.

Read More

Integrity, efficiency, innovation and transcendence.Customer first, believe in partners, develop together, and achieve rapid development in the field of new energy.

Read More

SUNROVER's shingled all-black 430W solar panels are packed in boxes and will be shipped to Norway soon! Contact us today and unlock the potential of solar power with Sunrover. E-mail:info@sunroverpv.com

Read More