By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
The most energy-efficient and quickly evolving lighting technology is the light-emitting diode. High-quality Led lighting outperforms other types of illumination in terms of lifespan, toughness, and light quality.
A rising number of commercial and residential products, as well as appliances, have LED illumination. Rapid advancements in LED technology have boosted product availability, enhanced manufacturing effectiveness, and reduced costs.
Since LEDs operate far cooler than incandescent lights, there is less chance of fire or finger burns. LEDs are substantially more brittle-resistant since they are built with epoxy lenses rather than glass. LEDs produce hardly any heat.
Very energy-efficient lighting technology is LED. LEDs are perfect for many industrial uses because of their high efficiency and directed nature.
Streetlights, parking garage illumination, pathway lighting, outdoor area lighting, and refrigerated case lighting all increasingly use LEDs.
The Germany LED lighting market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
More energy-efficient LED lighting options for commercial farm production have been introduced by German lighting producer Fluence, which is owned by Osram.
The VYPR top light series now includes a new line of lights with industry-best efficacies up to 3.8 mol/J.
The flexible light sheet technology will be unveiled by Coo ledge Lighting, Inc., an LED lighting technology business, and its European operations will begin the following week at Light Building in Frankfurt, Germany.
A line of LED lights created especially for network and server enclosures has been introduced by German infrastructure major Ratal. The fixture is the smallest industrial LED fixture offered by the company.
It produces 600 lumens, which is equivalent to a 40W incandescent bulb, and satisfies the norm for data center racks.
Am OSRAM Germany has Launched Intelligent RGB LED Automotive Lighting. The new OSIRE® E3731i RGB LED has a digital core that enables low-latency communication with any microcontroller via a common serial bus interface.
Additionally, am OSRAM has created a fresh Open System Protocol (OSP) that works with the OSIRE E3731i. Any microcontroller can use OSP to provide commands to each LED separately modulating brightness and color.
Any maker of a car, LED, lighting system, or microcontroller may utilize OSP without having to obtain a license or pay any royalties.
Automotive makers can achieve innovative dynamic lighting effects in the interior of cars by utilizing the OSIRE® E3731i LED and OSP. One microcontroller can manage up to 1,000 LEDs connected in a daisy chain.
Dynamic lighting, which combines changes in color and brightness with pulsating, breathing, or moving light effects for aesthetic or practical objectives, promises to increase the value of automobiles.
The OSIRE E3731i and OSP make it possible to integrate dynamic interior lighting with a more straightforward architecture, fewer parts, less wiring, and at a lower system cost.
Customers are already attracted by these advantages, and they anticipate that the product will soon be used in production vehicles.
The development of the new intelligent LED makes use of ams OSRAM’s broad expertise in optical technologies, IC design, and production.
The OSIRE E3731i is a high-performance RGB LED that is co-packaged with an integrated circuit (IC) that has three LED drivers, a serial bus interface that supports the OSP, a temperature sensor, and on-chip memory.
The industry’s first fully integrated micro-LED light engine (hence referred to as the “PLS light engine”) has been launched by Nichia Corporation and Infineon Technologies AG for use in high-definition (HD) adaptive driving beam applications.
Automotive LED lighting technology has advanced quickly in recent years as a way for automakers to improve comfort and safety on the road.
In this sense, adaptive driving beam matrix LED technology has emerged as a key headlamp feature for focused road illumination.
For headlight applications, a high-definition (HD) light engine with more than 16,000 micro-LEDs was jointly developed by Infineon and Nichia three years ago.
The PLS light engine makes use of Nichia’s proprietary internal LED chip and micro-LED technology as well as an integrated LED driver IC from Infineon that can independently control each of the 16,384 micro-LEDs through pulse-width modulation (PWM).
The driver IC also provides on-chip temperature monitoring for efficient thermal control and separately monitors each micro-LED.
High-speed transmission of the video signal from the light pattern generator unit is made possible by integrated video interfaces.
Infineon’s driver IC, in contrast to existing HD matrix solutions, only activates the LEDs that are actually required for a light pattern.
As a result, the PLS light engine’s energy efficiency is significantly increased at a considerably smaller form factor than micromirror-based HD matrix alternatives now on the market.
Future headlamp designs will be able to be more compact and slim. Additionally, the PLS light engine enables modifications that may be digitally programmed at the factory or turned on by the car’s maker or driver as needed.
The user-friendliness can be greatly improved by taking into account, for instance, the differing needs of left- and right-handed drivers.
The new HD light considerably lowers the complexity of design and production for vehicle makers with all of these features.
