Semiconductor lighting technology is not limited to chip fabrication and packaging technology, but a system-level technology that includes optical design, thermal and power management. In terms of current LED performance, the use of low-voltage, constant-current-driven cluster LEDs has caused semiconductor lighting fixtures to address the dissipating of large amounts of heat and power management issues caused by the conversion of AC mains to low-voltage constant current. In addition, the small light-pass and high-brightness luminescence characteristics of the conventional packaged power LEDs cause very severe glare. From LED epitaxial wafers to final lighting fixtures, a series of industrial chain links such as material epitaxy → chip fabrication → die encapsulation → luminaire design and assembly are required. On the one hand, from epitaxial wafers to final lighting and display applications, all aspects of the industry chain can form independent products with their own technical barriers and research and development needs; on the other hand, the quality of the terminal application products will be affected by each link. influences. For example, the core component of semiconductor lighting is an LED chip, but the luminous efficiency of the LED chip reaches 100lm/W, which is not equal to the efficiency of the semiconductor lighting fixture. It also reaches 100lm/W; more importantly, the semiconductor lighting product needs market recognition. Comprehensive performance, including luminaire efficiency, reliability, and human eye comfort, must have significant advantages over traditional lighting products. In other words, even if the efficiency of a semiconductor lighting fixture reaches 100 lm/W, it does not mean that it will be accepted by the market. There are still many scientific problems in semiconductor lighting itself, such as lighting effects and quality including color rendering and color. Product consistency, human eye comfort, etc. Only when the development of technology makes semiconductor lighting fixtures have advantages over traditional light sources in terms of efficiency, lighting quality, design novelty, etc., semiconductor lighting can enter and continue to develop the market. On the other hand, the expansion of the market will promote production expansion and industry R&D. The increase in investment accelerates technological advancement, resulting in improved performance and a gradual decline in cost and price.
High Rate Battery,high rate discharge battery,High Rate Battery pack,high rate current battery,12V high rate batteries OREMA POWER CO., LTD. , https://www.oremabattery.com
High Rate Battery Solutions by OREMA: Powering the Future
In today's rapidly evolving energy landscape, OREMA stands at the forefront, offering the pinnacle in high rate discharge battery technology. Our RIMA UNH series, a beacon of efficiency and reliability, is engineered for critical applications, ensuring uninterrupted power supply (UPS) systems and more.
High Rate Discharge Battery Excellence:
Our high rate discharge batteries, a core part of the RIMA UNH series, are designed for heavy-load discharge applications, promising a design life of 5-12 years in floating service. These batteries excel in delivering stable performance during high current discharges, thanks to robust grids and specially formulated active materials.
Advanced AGM Technology:
At the heart of our innovation lies the advanced Absorbent Glass Mat (AGM) technology. This cutting-edge approach guarantees consistent backup power, vital for UPS systems and other critical applications. The UNH series showcases exceptional high-power discharge performance, offering abundant power in short periods, making them ideal for applications needing quick and reliable backup power sources.
Reliability in Every Cell:
Renowned for their high reliability, our batteries withstand the rigors of continuous use, providing uninterrupted power when it matters most. This resilience makes them suitable for critical power applications where any downtime or power interruption could have severe consequences.
Durability and Longevity:
Beyond reliable performance, these batteries boast impressive durability. Designed for extended life, they can endure repeated charging and discharging cycles without capacity loss. This ensures they consistently provide backup power over an extended period, offering peace of mind to our users.
Features and Benefits of RIMA 12V High Rate Batteries:
High rate discharge construction for demanding applications.
Excellent deep discharge recoverability.
High energy density design, ideal for high current and high power discharge in UPS systems.
Slow self-discharge rate (<3% per month), ensuring constant power in standby or as part of a UPS system.
Heavy-duty, threaded copper alloy terminals for easy assembly, reduced maintenance, and enhanced safety.
High tin grid alloy minimizes gassing and delays corrosion, extending battery life with maintenance-free convenience.
Diverse Applications of RIMA High Rate Battery Pack:
Our high rate batteries are versatile, catering to a wide range of applications:
Standby Use: UPS power supplies, emergency lighting, precision instrument backup, fire alarms, security systems, office automation, and more.
Solar Cell Power Generation: Street lighting, portable power supply, water pumping stations, rural power systems.
Specifications of RIMA UNH series high rate discharge batteries:
