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ams OSRAM is a global leader in innovative light and sensor solutions

Publication of third quarter 2025 results on Tuesday, November 18

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Advancing LiDAR performance – with our 5-junction edge-emitting laser

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The future of automotive interior lighting with ALIYOS™

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Photon counting: A new era of precision in medical imaging is here

Next-generation CT imaging with photon counting for precise, lower-dose diagnostics.

AS5920M photon counting package solution Watch the video

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Automotive & mobility

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Innovation

We inspire with innovative light and sensor solutions, leveraging our passion, unique technologies, and extensive experience to enhance quality of life. Discover our innovations

News

Eye safety at the core

Augmented Reality (AR) and Virtual Reality (VR) are moving from niche applications into everyday life—powering education, healthcare, remote collaboration, and entertainment. Analysts project tens of millions of AR/VR devices to be shipped annually in the coming years, underscoring the need for robust, safe, and power-efficient optical components¹.

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Compact RGGB LED optimized for smart glasses

The future is right in front of our eyes: lighter, sleeker, and smarter than ever before. Smart glasses is no longer a distant vision; it is on the verge of becoming as natural to us as the smartphone is today. But turning this vision into reality requires more than just design concepts. With this in mind, ams OSRAM introduces VEGALED™ – its ultra compact RGGB optimized LED for LCoS & DMD projector applications and designed for micro-displays in smart glasses, pico projection and machine vision. This breakthrough combines exceptional temperature stability and color with high efficiency, enabling sleek, stylish, and truly wearable augmented reality experiences.

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Setting standards for eye tracking in smart glasses and AR/VR headsets

The way we interact with digital worlds is evolving rapidly, driven by the pursuit of ever more immersive, secure, and sustainable experiences.

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A new LED generation for ultra-slim signature headlamp styling

As automotive design continues to evolve, the demand for sleek, distinctive front lighting has never been greater. Thin, continuous light lines are becoming a defining element of vehicle identity, balancing aesthetics with functionality. In response to this trend, ams OSRAM unveils its latest innovation in forward lighting: the OSLON™ Compact RM, a new member in the Compact LED family designed to meet the technical and stylistic demands of next-generation headlamp systems.

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Brighter light, longer runtime, unlimited entertainment ams OSRAM expands SIRIUS HRI® series with improved Galaxy variants

ams OSRAM is launching two new variants of the SIRIUS HRI® series for entertainment lighting.

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Product highlights

OSRAM FIREFLY™, SFH 4030B

Infrared Emitter (940 nm) ams OSRAM’s innovative Thinfilm IR:6 Chip technology redefines the capabilities of IR-based applications such as eye tracking in AR/VR systems. It delivers brighter infrared illumination while extending battery life thanks to its superior efficiency. Housed in a completely dark package, it enables seamless, nearly invisible integration into modern device designs. Details and Datasheet

ams TMF8829 48x32 multi-zone Time-of-Flight sensor

Product status: Pre-ProductionThe TMF8829 is a direct time-of-flight (dToF) sensor with configurable resolution of 8x8, 16x16, 32x32 & 48x32. The device is based on SPAD, TDC, and histogram technology and achieves a detection range of up to 11000 mm with an 80° field of view. All processing of the raw data is performed on-chip, and the TMF8829 provides distance information along with confidence values, signal amplitude, and ambient light on its interface. Internally, the TMF8829 uses dToF histograms and peak detection, and therefore, it is highly tolerant to smudges on the cover glass. Additionally, the TMF8829 can handle multiple objects per depth point simultaneously without degrading accuracy. It reports the distance of all depth points with a resolution of 0.25 mm. The device uses an I3C (I²C compatible) communication interface and a fully featured SPI interface for control and raw data streaming. A VBUS supply pin allows operation of the I²C/I3C or SPI with 1.2V, 1.8V, or 3V I/O supplies. Raw data streaming, including all algorithm peak detection results, allows further processing on the host for “AI-enabled” applications. The TMF8829 is a fully contained optical module measuring only 5.7 mm x 2.9 mm x 1.5 mm. Details and Datasheet

ams TMF8806 1D Time-of-Flight Sensor

The TMF8806 is a time-of-flight (TOF) sensor in a single modular package with associated VCSEL. The TOF device is based on SPAD, TDC and histogram technology. The device achieves 500cm detection range which may be extended to 1000cm with a small firmware download. Details and Datasheet

ams AS1181 8-channel LED and VCSEL driver IC

AS1181 is an 8-channel highly integrated self-contained LED/VCSEL driver for near to eye applications such as Augmented Reality (AR) and Virtual Reality (VR) glasses. This eye-safety LED driver integrates extended safety monitoring functions to ensure eye-safe operation for smart glasses and other AR/VR applications. These safety monitors include LED short detection, LED open detection, LED overcurrent protection, LED on time monitor as well as temperature shutdown and a built-in-self test (BIST). The device is configurable via a serial wire interface (I²C or I3C) with interrupt and provides two Strobe/PWM inputs to synchronize illumination with up to two external cameras for binocular eye tracking systems. The LED current is individually programmable per channel, and it can drive up to 2 IR LEDs per current sink with a minimum ON time of 10μs and a maximum current of 66mA per channel. General purpose LED driving applications can be supported via a direct PWM input applied at the Strobe pin and it can drive RGB or white LEDs considering a maximum forward voltage of 5V. The device comes in a tiny wafer-level-chip-scale package (WLCSP) with 0.4mm pitch and dimensions of 2.9mm x 1 .75mm x 0.5mm (L x W x H). Details and Datasheet

OSRAM OSLON™ Compact RM, KW CVLDM1.TK

The OSLON™ Compact RM product family features a compact light source with a rectangular light emitting area with an aspect ratio of 1:1.5 aiming for improved optical efficiency for slim headlamp system solutions. Details and Datasheet

OSRAM OSIRE™ E3030, KRTBDSLP31.33

The ams OSRAM OSIRE™ E3030 (KRTB DSLP31.33) RGB top looker device is specifically designed for automotive interior applications. It offers individually addressable LED chips for a maximum of flexibility in terms of color point, driver selection and interconnection. Due to the delta chip orientation, the OSIRETM E3030 is ideally suited for coupling into round light guides and enables the realization of sophisticated illumination scenarios. With its increased light output (0.5W power class) it is perfectly suited for backlighting and hidden-until-lit applications. With its compact design and an height of only 0.6 mm it is perfectly suited for space limited applications. With corrosion robustness 3B the OSIRE E3030 is capable to withstand harsh environmental conditions. Details and Datasheet

ams AS8580 Capacitive Sensor

AS8580 is a capacitive sensor detecting the change of capacitance in different applications. The capacitive sensor measures the relative change of capacitance. This can be used for capacitive touch applications, proximity or human presence detection, fluid level and quality measurements as well as many other applications. AS8580 captures the sinusoidal current response caused by a forced sinusoidal voltage. Based on that, the change of capacitance in various applications can be detected. Besides capacitive changes, the resistive component in various applications can be detected as well. This can be useful e.g. to determine/compensate (environmental) disturbances such as moisture, which changes a parallel resistive component along with a change in capacitance. This high precision performance sensor also supports a multitude of diagnostic features that meet standard ASIL B functional safety requirements. The capacitive sensing IC is specifically designed to work under high electromagnetic disturbances (EMC) due to adjustable frequencies. AS8580 has a SPI Interface for reading measurement values and configuration. It is available in TSSOP-14 package and operates with 5V. Details and Datasheet

OSRAM OSLON™ Black Flat S, KW2 HIL533.TK

SMT package for High Power Forward Lighting applications widely in-use in global automotive market since several years. The leadframe based black package concept provides outstanding contrast and excellent 2nd board reliability for standard Headlamp solutions. The OSLON Black Flat S meets both excellent brightness in combination with high luminance. Details and Datasheet

OSRAM OSLON™ Black Flat S, KW3 HJL533.TK

SMT package for High Power Forward Lighting applications widely in-use in global automotive market since several years. The leadframe based black package concept provides outstanding contrast and excellent 2nd board reliability for standard Headlamp solutions. The OSLON Black Flat S meets both excellent brightness in combination with high luminance. Details and Datasheet

OSRAM OSLON™ Black Flat S, KW4 HKL533.TK

SMT package for High Power Forward Lighting applications widely in-use in global automotive market since several years. The leadframe based black package concept provides outstanding contrast and excellent 2nd board reliability for standard Headlamp solutions. The OSLON Black Flat S meets both excellent brightness in combination with high luminance. Details and Datasheet

OSRAM OSIRE™ E3635, LRTBGWSR

The ams OSRAM OSIRE™ 3635 LRTBGWSR RGB top looker device is specifically designed for automotive interior applications. It offers individually addressable LED chips for a maximum of flexibility in terms of color point, driver selection and interconnection. Due to the delta chip orientation, the LRTBGWSR is ideally suited for coupling into round lightguides and enables the realization of sophisticated illumination scenarios. The white package guarantees high brightness. Details and Datasheet

ams AS5920M Photon Counting Module

Product status: Pre-Production The AS5920M is a 72x24 pixel, four-side buttable module solution for photon counting applied for spectral computed tomography detectors. The 1728-channel proprietary Buttable System-In-Package (BSIP) integrates three AS5920 photon counting ICs as well as passive components. The BSIP allows on the top side to form electrical connections to the direct conversion CdTe or CZT sensor material, which converts each X-ray photon into charge pulses. The bottom side of the BSIP forms the digital interface to the FPGA, supply connections as well as the thermal heat dissipation to the carrier. During a CT scan, the AS5920 IC counts the X-ray photon generated charge pulses with an amplitude proportional to the energy deposited by the photon. 576-channel per AS5920 discriminates the incoming photon energy by counting the number of pulses exceeding 5 different energy thresholds. The threshold levels are adjustable by 8-bit DACs with a step size of typ. 0.7 keV/LSB, the number of comparators enabled per channel are selectable for power optimizations. Lowest power dissipation with all 5 comparators enabled is as low as typ. 0.64 mW/pixel in non-paralyzable mode having BLR enabled and typ. 0.58 mW/pixel in paralyzable mode with only static leakage compensation. A 15-bit counter register accumulates the comparator output events and transmits 14/16-bit LVDS data within an integration time of minimum 104 µs. During its maximum frame rate of 9615 Fps, the AS5920 transfers the output data via a high-speed LVDS interface to the FPGA, the device operates up to an input count rate of 250 Mcps per pixel (2 Gcps/mm²). The AS5920 has both paralyzable and non-paralyzable counting mode implemented that are selectable via SPI. In paralyzable mode, it allows for a maximum output count rate of 15 Mcps/pixel (120 Mcps/mm²) at 25 keV and exceeding 40 Mcps/pixel (>320 Mcps/mm²) in non-paralyzable mode. The signal chain of the AS5920 with its low-noise charge sensitive amplifier (CSA) and its high-speed shaper allows for lowest electronic noise of 330 electrons resulting in an ASIC-intrinsic energy resolution of the measured photon of 3.5 keV FWHM. The photon counting IC AS5920 features an on-chip voltage reference and internal temperature sensor and is embedded in the AS5920M. The AS5920M is delivered as 1728-channel, 4-side buttable module integrating three ICs in one 24.52 mm x 8.75 mm Buttable System-In-Package (BSIP). Pixel sizes of the BSIP are 341 µm x 365 µm and customizable for pixel pitch of 340 µm and above. The performance temperature range of AS5920 and AS5920M is specified from 20°C to 70°C. Recognized for its technical excellence, the AS5920M has been awarded the 2025 Best of Sensors Award for Best Imaging & Optical Sensing Solution. Gain deeper insights about Photon Counting Details and Datasheet

ams AS5952M CT Sensor Module

Product status: Pre-Production The AS5952 is a sensor chip for 64-slice CT detectors that combines the photodiodes and the readout circuit on a single CMOS chip. This sensor solution, which includes an array of 32 x 8 photodiodes with ultra-low dark current and a 256-channel ADC side-by-side, allows the assembly of the pixel array on three adjacent edges of the device. Two AS5952 ICs can be placed in Z-direction enabling the design of CT detectors with 40 mm of Z-coverage in ISO center.The AS5952 has a sensor dimension in Z-direction of 36.125 mm with a pixel dimension of 1.130x1.002 mm². Pixel dimensions can be customized on request. The sensor can be directly assembled on a substrate using a wire bonding process for manufacturing of a CT module.Improved low dose performance can be achieved because of superior dark current of max. 1 pA due to the near zero offset voltage across the photodiode. The input-related noise is very low, a max. noise level of 0.36 fC can be reached including photodiode for an input current range of 200 nA.The max. power dissipation of 1.46 mW per channel in normal mode and 1.23 mW per channel in low power mode reduces self-heating effects and lowers the overall cost of cooling the system. An internal reference voltage and bias generator reduces the bill of material. Featuring on-chip photodiodes, the AS5952 offers a cost-optimized solution for 64-slice CT detectors.The digital data readout can be accessed via a 110 MHz LVDS interface. A SPI interface is used for device configuration such as mode of operation, input current range, selection of reference voltage and enabling the calibration mode. An integrated temperature sensor enables monitoring of the junction temperature. The AS5952 is delivered as die on foil on frame.In addition we are offering the AS5952M. This module consists of 3x AS5952 integrated circuits, which are mounted onto a substrate and connected with wire bonding protected by glob top. The interface is on the bottom side through a flex connector that accepts a standard 0.3 mm thick Flexible Printed Circuit (FPC). All required passive components are located on the bottom side of the substrate. The module is available both with and without scintillator array. Watch the product video Details and Datasheet

ams TMF8806 1D Time-of-Flight Sensor

The TMF8806 is a time-of-flight (TOF) sensor in a single modular package with associated VCSEL. The TOF device is based on SPAD, TDC and histogram technology. The device achieves 500cm detection range which may be extended to 1000cm with a small firmware download. Details and Datasheet

OSRAM Power TOPLED™, LA E67F.01

PowerTOPLED, a powerful member of the TOPLED family. Thanks to their high luminous efficacy, the LEDs are ideal for rear light clusters and indicators on vehicles and for display panels for traffic control systems. Details and Datasheet

OSRAM OSCONIQ™ P 3737 (2W), GH PUSRA1.25

High-power LED with our ams OSRAM’s latest chip technology, delivering industry leading performance, superior robustness and long lifetime. With the introduction of a new color (Red 640 nm) the family offers five colors for ease of design and high flexibility for all your horticulture spectrum needs. The OSCONIQ™ P 3737 family offers Hyper Red (660 nm), Red (640nm), Deep Blue (450 nm), Far Red (730 nm) and Horti White which can cater to both narrow spectrum and full spectrum solutions to meet all crop needs for both greenhouses and vertical farms. Details and Datasheet

OSRAM OSIRE™ E5515, KRTBAELPS2.32

The ams OSRAM OSIRE KRTB AELPS2.32 RGB sidelooker device is specifically designed for automotive interior applications. It offers individually addressable LED chips for a maximum of flexibility in terms of color point, driver selection and interconnection. Due to the low profile, the OSIRE KRTB AELPS2.32 is ideally suited for coupling into thin lightguides and enables ultra compact designs. All Measurement data of every single LED is made available at 20 and 50 mA via an imprinted data matrix code. This feature helps to reduce the optical measurement effort on customer side. Details and Datasheet

Headquartered in Austria and Germany, ams OSRAM has deep engineering expertise and dedicated experts to help you be at the forefront to technology advancement.

More about ams OSRAM 110+ years of design and manufacturing experience Around 19,700 employees worldwide including 5,000 engineers 20,000+ serving more than 20,000 customers 25 major R&D locations 13,000 patents granted and applied 3 focus areas sensing, illumination, visualization

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