Flexible OLED display technology makes future electronic products full of possibilities
Including EMS vendors, well-known academic institutions, and the US Department of Energy, in the recent past, allied to the display technology of the next generation of electronic devices, or to invest in new development work. These efforts are expected to further accelerate the expansion of advanced display technology. Earlier, Sanmina-SCI signed an agreement with Solar Inverter manufacturer KACO new energy Inc.; MIT showed solar panels that could be printed on paper; and in Roches eMagin at the University of Technology is working with the US Department of Energy to develop the next generation of organic light-emitting diodes (OLEDs). OLED is a technology that can develop displays on flexible substrates. Proponents of OLED displays promise that one day, consumers will be able to carry a solar-powered display that can be rolled up wherever they are, and that they may be about the size of a cigar. This is definitely possible. OLEDs have been widely used in smartphones, digital cameras and other electronic products. OLEDs require little or no backlighting and can be sprayed onto glass, plastic or other substrates. OLEDs can be developed with flexible displays and are more suitable for bright sunlight, because OLEDs do not require a light source unlike other display technologies. But as of now, the adoption of OLED displays still has some limitations, because they are still mostly used on small screens. However, some companies, including eMagin, have been working to improve the manufacturing technology of OLEDs, hoping to make them suitable for large-size displays. Another obstacle to the popularity of OLEDs is that OLEDs require luminescent materials. Andrew G. Sculley, president and CEO of eMagin, said that while OLEDs offer more efficient, brighter, and faster electronic displays, about 80% of the light is wasted. Therefore, in cooperation with the US Department of Energy, it will be possible to significantly improve the luminous efficiency of equipment by developing a technology that uses nanoparticle based on plasmon-scattered light. The better news is that OLEDs are likely to be powered by solar energy. MIT researchers showed a few solar panels that could be printed on paper. It is reported that this paper photovoltaic array is constructed by an oxidizing chemical vapor deposition process at temperatures below 120 °C. Not only ordinary uncoated paper, but even cloth or plastic can be used. Researchers at MIT printed the solar cell on a layer of PET plastic and folded it 1,000 times and found it still working. It is indeed feasible to develop a flexible, solar-powered OLED display. However, mass production capacity is also indispensable. EMS Sanmina-SCI is working with inverter manufacturer KACO to reduce the manufacturing costs of solar powered products. In addition, Sanmina-SCI has set up a core team for new products and established a new dedicated production line for design assembly analysis, designing customized tool sets, establishing detailed documentation, and creating a new independent global supply chain. Logistics support system. Display technology is becoming the key to all electronic products, including Apple, and is also working to consolidate its iPad's display component sources. OLEDs are a technology that can help current display manufacturers overcome the power consumption challenge. In the future, OLED technology is likely to change the rules of the game, allowing electronics manufacturers to develop new products in combination with power savings, flexibility and strong manufacturing capabilities. The main function of the MPPT Solar Controller is to realize maximum power point tracking (MPPT) in the solar power generation system to improve the energy utilization efficiency of solar panels. It is an advanced charge controller that can adjust the output voltage and current of the Solar Panel in real-time to keep the solar panel operating at the maximum power output point. 10 amp mppt solar charge controller, solar charge controller 10 amp, 36v mppt solar charge controller, dc dc mppt charger, lithium ion solar charge controller Ningbo Autrends International Trade Co., Ltd. , https://www.aitsolarpanels.com
Main effect:
Maximum power point tracking: MPPT Solar Controller can accurately calculate the maximum power output point of the solar panel by monitoring the voltage and current of the solar panel in real-time and according to the characteristics of the solar panel. It then adjusts the panel's output voltage and current to keep it operating at its maximum power output point, maximizing the solar panel's energy conversion efficiency.
High energy utilization rate: MPPT Solar Controller's maximum power point tracking function can ensure that the solar panel is always operating in the best working condition, making full use of solar energy, thereby improving the energy utilization rate of the photovoltaic power generation system.
Charge control: In addition to achieving maximum power point tracking, MPPT Solar Controller also has a charge control function to protect the battery from overcharge and over-discharge damage.
Differences from other charge controllers:
Maximum power point tracking function: MPPT Solar Controller is a charge controller specially used in solar power generation systems. The biggest difference is that it has a maximum power point tracking function, which is used to improve the energy conversion efficiency of solar panels. Other charge controllers may not have this unique feature.
Energy efficiency: MPPT Solar Controller can improve the energy efficiency of solar panels through maximum power point tracking technology. Other charge controllers may only be able to charge in a fixed manner and cannot achieve maximum power point tracking.
Application scenarios: MPPT Solar Controller is mainly used in solar power generation systems, while other charge controllers may be suitable for different types of energy generation systems, such as wind power, hydropower, etc.
Overall, the main role of the MPPT Solar Controller is to achieve maximum power point tracking, improve the energy conversion efficiency of the solar panel, and protect the battery from overcharge and over-discharge damage. Compared with other charge controllers, it has unique advantages in energy utilization efficiency and maximum power point tracking and is suitable for applications in solar power generation systems.