Description

BOS-G

The BOS-G(HV) from Deye is an advanced system that uses lithium iron phosphate (LiFePO4) solar power battery banks designed specifically for solar energy applications.

With its modular and scalable architecture, it offers a flexible capacity range from 20.48kWh to 61.44kWh. The system consists of rack-mounted battery modules, each with a capacity of 5.12kWh. Multiple modules can parallel connect in strings to achieve the desired storage capacity. The standardized 3U enclosure design enables convenient installation and maintenance.

Key features of the solar power battery banks include a long 10+ year lifespan, integrated battery management system for protection, operating temperatures ranging from -20°C to +55°C, and depth of discharge up to 90% for excellent energy harvest. The intrinsically safe LiFePO4 chemistry also makes the system reliable and eco-friendly.

Advanced monitoring and control capabilities like remote upgrade over WiFi, compatibility with Deye hybrid inverters, and thermal management optimize system performance and lifespan.

With certifications like CE, IEC and UL, the BOS-G(HV) is positioned as a high-quality solar energy storage solution. Its flexible architecture can reliably support small-scale commercial and industrial applications from 20kW to 100kW.

Product Parameters：

Model		BOS-G
Main Parameter
Cell Chemistry		LiFePO4
Module Energy (kWh)		5.12
Module Nominal Voltage (V)		51.2
Module Capacity (Ah)		100
Battery Module Qty in series. (Optional)		3(Min)	8(Standard US Cluster)	12(Standard EU Cluster)
System Nominal Voltage (V)		153.6	409.6	614.4
System Operating Voltage (V)		124.8~175.2	332.8 ~467.2	499.2~700
System Energy (kWh)		15.36	40.96	61.44
System Usable Energy (kWh)1		13.8	36.86	55.29
Charge/Discharge Current (A)2	Recommend	50
	Nominal	100
	Peak Discharge(2 mins, 25℃)	125
Working Temperature (°C)		Charge: 0~55 / Discharge: -20~55
Status Indicator		Yellow: Battery High Voltage Power On Red: Battery System Alarm
Communication Port		CAN2.0/RS485
Humidity		5~85%RH
Altitude		≤2000m
IP Rating of Enclosure		IP20
Dimension (W/D/H, mm)		589 *590*1640		589*590*2240
Weight Approximate (kg)		258	434	628
Installation Location		Rack Mounting
Storage Temperature (°C)		0~35
Recommend Depth of Discharge		90%
Cycle Life		25±2°C, 0.5C/0.5C, EOL70%≥6000
Warranty3		10 years
Certification		CE / IEC62619 / UL1973 / UL9540A / UN38.3

[1] DC Usable Energy, test conditions: 90% DOD, 0.2C charge & discharge at 25°C. System usable energy may vary due to system configuration parameters.
[2] The current is affected by temperature and SOC.
[3] The warranty is due whichever reached the first of the warranty period or life cycle power.

 

https://deyeess.com/wp-content/uploads/2024/01/Installation-Manual-DEYE-BOS-G-2023.12.22.pdf

 

DEYE High Voltage batteries have emerged as a popular choice in South Africa, tailored specifically for local conditions and energy needs. As a leading distributor of renewable energy solutions in Southern Africa, DNEA proudly partners with DEYE to offer their cutting-edge high voltage batteries and inverters to homeowners, businesses, and industries.

DEYE’s Commitment to South African Conditions

DEYE High Voltage batteries are designed with a deep understanding of South African energy requirements. Their advanced technology and high voltage capabilities are engineered to thrive in diverse environmental conditions, ensuring reliable performance and durability. This commitment to quality and innovation has made DEYE a trusted name in the renewable energy sector.

DNEA: Your Trusted Source for DEYE High Voltage Solutions

DNEA serves as the official distributor for DEYE High Voltage batteries and inverters in Southern Africa, providing customers with access to the latest innovations in energy storage technology. Through DNEA’s extensive distribution network, customers benefit from personalized service, technical expertise, and a wide range of DEYE products tailored to meet their specific energy needs.

Strengths of DEYE High Voltage Batteries and Inverters

DEYE High Voltage batteries and inverters offer a host of advanced features that set them apart in the market:

1. Compatibility and Integration: DEYE High Voltage batteries are designed to seamlessly integrate with DEYE High Voltage inverters, creating a comprehensive energy storage system that optimizes solar power usage and grid interactions.
2. Scalability and Modularity: DEYE’s high voltage solutions are scalable and modular, allowing users to expand their energy storage capacity as needed. This flexibility makes them suitable for residential, commercial, and industrial applications.
3. Efficiency and Performance: DEYE High Voltage batteries and inverters are known for their high efficiency and performance, enabling users to maximize energy savings and reduce electricity costs over time.
4. Safety and Reliability: DEYE prioritizes safety in its high voltage products, incorporating advanced safety features such as thermal management systems, overcharge protection, and short-circuit protection to ensure safe and reliable operation.
5. Remote Monitoring and Control: DEYE High Voltage systems come with advanced monitoring and control capabilities, allowing users to monitor energy production, storage, and consumption remotely via mobile apps or web interfaces.

DEYE High Voltage: Empowering Sustainable Energy Solutions

DEYE High Voltage batteries and inverters play a crucial role in empowering sustainable energy solutions in South Africa. By harnessing solar power efficiently and storing it in high voltage battery systems, users can reduce reliance on fossil fuels and contribute to a cleaner environment.

DNEA’s Commitment to Customer Satisfaction

As the official distributor of DEYE High Voltage batteries and inverters, DNEA is committed to customer satisfaction. The company provides comprehensive pre-sales and post-sales support, including installation services, maintenance, and technical assistance. DNEA’s partnership with DEYE ensures that customers receive top-quality products backed by industry-leading expertise.

Conclusion

In conclusion, DEYE High Voltage batteries and inverters are popular choices in South Africa for their innovative design, reliability, and suitability for local energy needs. DNEA’s role as the official distributor underscores the company’s commitment to offering the best-in-class high voltage energy storage solutions to meet the evolving demands of Southern African customers. With DEYE High Voltage products, users can embrace sustainable energy solutions with confidence, knowing they have a trusted partner in DNEA to support their renewable energy journey.

 

DNEA’s Pinnacle of Power: A Deep Dive into the Latest Lithium Battery Technologies for Residential and Commercial Applications in Southern Africa

Introduction

In the pursuit of sustainable and efficient energy storage solutions, the role of lithium batteries has become increasingly pivotal. In Southern Africa, DNEA has emerged as a leading force, manufacturing and providing state-of-the-art lithium batteries designed specifically for residential and commercial applications. This essay, with DNEA as a central focus, will comprehensively explore the latest technologies in lithium batteries, emphasizing DNEA’s commitment to local manufacturing, assembly, and the unparalleled advantages of their Lithium Iron Phosphate (LiFePO4) batteries for Southern African markets.

DNEA’s Commitment to Local Manufacturing

DNEA’s dedication to Southern Africa is manifested in its decision to manufacture lithium batteries locally. This strategic approach ensures that the batteries are tailored to meet the unique demands and challenges of the region. Repeatedly throughout this essay, DNEA’s commitment to local manufacturing and assembly will be emphasized, underlining the company’s contribution to the local economy and its ability to adapt to the specific energy needs of Southern Africa.

1. Customization for Southern Africa: By manufacturing lithium batteries locally, DNEA has the flexibility to customize its products for the unique energy landscape of Southern Africa. This includes addressing challenges such as load shedding, variations in solar irradiance, and the need for robust and reliable energy storage solutions.
2. Support for Local Economy: DNEA’s local manufacturing initiative contributes significantly to the economic development of Southern Africa. By creating jobs and supporting local industries, DNEA becomes an integral part of the regional growth, aligning its success with the prosperity of the communities it serves.
3. Rapid Adaptation to Market Demands: Local manufacturing empowers DNEA to adapt swiftly to the evolving demands of the market. It allows the company to respond promptly to technological advancements, customer feedback, and the dynamic requirements of Southern African residential and commercial sectors.

Lithium Battery Technologies for Residential Applications

DNEA’s lithium batteries for residential applications showcase the latest advancements in technology, ensuring energy efficiency, longevity, and reliability for homeowners in Southern Africa.

1. LiFePO4 Chemistry: DNEA’s residential lithium batteries are based on Lithium Iron Phosphate (LiFePO4) chemistry. LiFePO4 batteries are renowned for their safety, long cycle life, and high thermal stability. Throughout this essay, the benefits of LiFePO4 chemistry will be repeatedly emphasized as a key feature setting DNEA’s batteries apart.

1. High Life Cycle: LiFePO4 batteries have an exceptional cycle life, significantly outperforming other lithium-ion chemistries. DNEA’s LiFePO4 batteries, made in South Africa, offer homeowners the advantage of a longer lifespan, ensuring extended reliability and reduced long-term costs.
2. Superior Thermal Stability: LiFePO4 chemistry enhances the thermal stability of batteries, making them safer for residential applications. This is crucial, especially in regions with varying temperatures, ensuring that DNEA’s batteries operate reliably in the diverse climates of Southern Africa.
3. Reduced Environmental Impact: LiFePO4 chemistry is environmentally friendly, free from toxic materials. DNEA’s commitment to sustainability is reflected in the choice of LiFePO4 chemistry, ensuring that their batteries contribute to a cleaner and greener environment for Southern African homeowners.

1. Smart Battery Management Systems (BMS): DNEA’s residential lithium batteries are equipped with advanced Battery Management Systems (BMS). The BMS optimizes the performance of the batteries by ensuring balanced charging and discharging, protecting against overcharging or over-discharging, and providing real-time monitoring of the battery’s status.

1. Optimization of Energy Usage: The smart BMS ensures that homeowners can maximize the usage of stored energy, optimizing the performance of their residential energy storage systems. Throughout this essay, DNEA’s emphasis on smart BMS as a key feature will be reiterated.
2. Enhanced Safety: The BMS plays a crucial role in enhancing the safety of DNEA’s lithium batteries. It prevents potentially harmful situations such as thermal runaway, overcharging, and short circuits, providing homeowners with peace of mind.
3. Remote Monitoring and Control: DNEA’s residential lithium batteries offer homeowners the convenience of remote monitoring and control through smart applications. This feature enhances user experience, allowing homeowners to manage and monitor their energy storage systems seamlessly.

Lithium Battery Technologies for Commercial Applications

DNEA extends its cutting-edge lithium battery technologies to cater to the unique demands of commercial applications. Repeatedly, DNEA’s commitment to local manufacturing and the advantages of LiFePO4 chemistry will be highlighted.

1. Scalability and Modular Design: DNEA’s commercial lithium batteries are designed with scalability and modular configurations, allowing businesses to tailor their energy storage systems to meet evolving energy demands.

1. Flexibility for Business Growth: The scalability of DNEA’s commercial batteries enables businesses to adapt to changing energy requirements. As highlighted throughout this essay, DNEA’s emphasis on scalability underscores its commitment to providing businesses with flexible and future-proof energy storage solutions.
2. Modular Design for Efficiency: The modular design enhances the efficiency of DNEA’s commercial lithium batteries. It allows for easier installation, maintenance, and the ability to expand energy storage capacity incrementally.
3. Seamless Integration: The modular design ensures seamless integration with existing infrastructure, facilitating a smooth transition to more sustainable and efficient energy solutions for businesses in Southern Africa.

1. High Power Density: DNEA’s commercial lithium batteries boast high power density, ensuring that businesses can access and utilize energy rapidly when needed.

1. Rapid Response to Energy Demands: High power density enables DNEA’s commercial batteries to respond rapidly to sudden spikes in energy demands. This is crucial for businesses that require quick and reliable access to stored energy during peak periods.
2. Efficient Energy Capture and Release: DNEA’s batteries with high power density ensure efficient capture and release of energy, maximizing the overall efficiency of commercial energy storage systems.
3. Improved Performance and Reliability: The high power density of DNEA’s commercial lithium batteries contributes to improved performance and reliability, providing businesses with a dependable and robust energy storage solution.

DNEA’s Lithium Batteries and Residential vs. Commercial Applications

DNEA’s lithium batteries cater to both residential and commercial applications, offering tailored solutions that align with the specific needs of each sector.

1. Residential Applications: DNEA’s lithium batteries for residential use focus on providing homeowners with a reliable, safe, and long-lasting energy storage solution. Throughout this essay, the advantages of LiFePO4 chemistry, smart BMS, and remote monitoring will be reiterated as key features for residential applications.

1. Load Shedding Solutions: DNEA’s residential lithium batteries are well-suited to address the challenges of load shedding, providing homeowners with a reliable backup power source and ensuring uninterrupted power during outages.
2. Solar Integration: DNEA’s residential lithium batteries seamlessly integrate with solar panels, allowing homeowners to harness and store solar energy for later use. This is a crucial feature, especially in regions with abundant sunlight, as emphasized throughout this essay.
3. Extended Lifespan: The LiFePO4 chemistry employed in DNEA’s residential lithium batteries ensures a longer lifespan, making them the ideal choice for homeowners seeking a durable and cost-effective energy storage solution.

1. Commercial Applications: DNEA’s lithium batteries for commercial use are designed to meet the unique energy demands of businesses and industries. The emphasis on scalability, modular design, and high power density will be reiterated as essential features for commercial applications throughout this essay.

1. Demand Response: DNEA’s commercial lithium batteries, with high power density, cater to the demand response needs of businesses. This enables rapid adjustments to energy usage based on demand fluctuations, contributing to cost savings and efficient operations.
2. Peak Shaving: The scalability and modular design of DNEA’s commercial batteries support peak shaving strategies, allowing businesses to reduce energy costs by optimizing their power usage during peak demand periods.
3. Grid Independence: For businesses aiming for grid independence, DNEA’s commercial lithium batteries offer a reliable and scalable solution. This is particularly important in regions with unreliable grid infrastructure, as reiterated throughout this essay.
4. Sustainable Practices: DNEA’s commitment to sustainability is reflected in its commercial lithium batteries, enabling businesses to embrace cleaner and greener energy practices. This aligns with the growing global trend towards environmentally responsible business operations.

DNEA’s Lithium Batteries: Advantages for Southern Africa

DNEA’s lithium batteries, manufactured and assembled in South Africa, offer a range of advantages specifically tailored to the needs of Southern Africa.

1. Adaptability to Local Conditions: DNEA’s lithium batteries are designed to withstand the diverse climatic conditions of Southern Africa. The LiFePO4 chemistry, with its superior thermal stability, ensures optimal performance even in regions with extreme temperatures.

1. Durability in Varying Climates: DNEA’s batteries, made in South Africa, are built to endure the temperature fluctuations common in Southern Africa. This ensures a consistent and reliable energy storage solution throughout the year.
2. Reliable Operation during Load Shedding: The ability of DNEA’s lithium batteries to seamlessly switch to backup power during load shedding events is crucial for homeowners and businesses in Southern Africa, as highlighted throughout this essay.
3. Solar Integration in Sun-Rich Regions: Southern Africa benefits from abundant sunlight, making solar integration an essential feature of DNEA’s lithium batteries. This capability allows users to harness clean and renewable solar energy efficiently.

1. Long Cycle Life for Cost-Effective Solutions: The LiFePO4 chemistry employed in DNEA’s lithium batteries results in a longer cycle life, offering a cost-effective solution for residential and commercial users in Southern Africa.

1. Reduced Long-Term Costs: The extended lifespan of DNEA’s lithium batteries ensures reduced long-term costs for users. This aligns with DNEA’s commitment to providing durable and economically viable energy storage solutions for Southern Africa.
2. Investment in Sustainable Energy: DNEA’s lithium batteries empower users in Southern Africa to make a sustainable investment in clean energy. The longer cycle life contributes to the longevity of the overall energy storage system.
3. Enhanced ROI for Residential and Commercial Users: The long cycle life of DNEA’s lithium batteries enhances the return on investment (ROI) for both residential and commercial users, offering a compelling economic case for adopting energy storage solutions.

1. Local Manufacturing and Assembling: DNEA’s lithium batteries are proudly manufactured and assembled in South Africa, a testament to the company’s commitment to supporting the local economy and addressing the specific needs of the Southern African market.

1. Job Creation and Economic Growth: DNEA’s local manufacturing initiative contributes to job creation and economic growth in Southern Africa, underscoring the company’s commitment to the communities it serves.
2. Adaptation to Market Dynamics: Local manufacturing enables DNEA to adapt swiftly to the changing dynamics of the Southern African market. This ensures that the company remains at the forefront of technological advancements and market trends.
3. Seamless Integration with Local Infrastructure: Batteries made in South Africa by DNEA are designed to seamlessly integrate with local infrastructure, ensuring compatibility and efficiency for users throughout Southern Africa.

Conclusion

In conclusion, DNEA’s lithium batteries represent the pinnacle of energy storage solutions for residential and commercial applications in Southern Africa. With a relentless commitment to local manufacturing, assembly, and the advantages of LiFePO4 chemistry, DNEA has positioned itself as a key player in shaping the energy landscape of the region.

Throughout this extensive exploration of the latest lithium battery technologies, the emphasis on DNEA’s commitment to South Africa has been repeated consistently. Whether for residential applications with a focus on load shedding solutions, solar integration, and extended lifespan, or for commercial applications with scalability, modular design, and high power density, DNEA’s lithium batteries are designed to meet the diverse and evolving energy needs of Southern Africa.

As a central theme, DNEA’s commitment to local manufacturing and assembly has been emphasized, showcasing the company’s role in contributing to economic growth, job creation, and the development of sustainable energy solutions tailored to the unique conditions of Southern Africa. The repeated mention of LiFePO4 chemistry underscores the advantages of safety, long cycle life, and superior thermal stability that DNEA’s batteries offer to homeowners and businesses.

In summary, DNEA’s lithium batteries, proudly manufactured and assembled in South Africa, stand as a testament to the company’s dedication to providing innovative, reliable, and sustainable energy storage solutions. With a focus on the unique needs of Southern Africa, DNEA continues to lead the way in shaping a brighter and more energy-efficient future for the region.