ams-OSRAM AG
At ams OSRAM, we pioneer differentiating light and sensor solutions. We combine engineering excellence and global manufacturing capabilities with passion for cutting-edge innovation.
- +43 3136 500-0
- Tobelbader Strasse 30
Premstaetten, 8141
Austria
Categories
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Miniature Camera Modules
NanEye
The NanEye miniature CMOS image sensors and corresponding camera module configurations are available in modular form factors as small as 1 mm x 1mm. Various optics options are available.
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Proximity
Proximity detection sensors measure reflected infrared (IR) energy to detect the presence of an object or person. The devices include an integrated LED driver and, in some devices, an integrated LED. The proximity detection devices provide four programmable LED drive currents and IR pulse repetitions. The proximity detection circuitry compensates for ambient light, allowing it to operate in environments ranging from bright sunlight to dark rooms. The wide dynamic range allows operation in short-distance detection applications behind dark glass, such as mobile phones. Proximity detection sensors can be used to replace a mechanical switch or to sense human gestures.
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Smart Lighting Management
Single-chip solutions enable IoT connectivity and precise control of smart lights and replacement lamps.
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Flash Vs. Scan
A LiDAR system can observe the complete field of view (FOV) at once, called Flash systems. Flash typically works well for short to mid-range (0-100m), and by capturing the complete scene at once also objects with high relative speeds can be detected properly. Another implementation is to focus on a subset of the FOV, consequentially look at the next subsets, until the complete FOV is covered, called Scanning. Scanning can focus the light on the subset instead of the full FOV, and therefore can do object detection at a longer range compared to Flash.
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Wireless Sensor Tags & Interfaces
NFC and UHF RFID sensor tags offer a highly integrated solution for remote sensor data logging. The tags conform to the specifications of the NFC/ISO15693 as well as the UHF RFID standards. Featuring on-chip temperature sensing and the exclusive cool-Log™ technology, these sensor tags enable innovative and cost-sensitive solutions in food and pharmaceutical cold-chain management, industrial process control, remote monitoring and healthcare applications. NFiC™ ICs from ams lower the barriers to NFC integration in electronic devices thanks to their small footprint, high data rate, flexible data transfer modes, fully passive NFC tag emulation and advanced energy harvesting. NFC/HF interface tags are best suited to demanding consumer and industrial applications such as zero-power device configuration and set-up, feature-rich contactless cards for payment and authentication, smart toys and connected cars.
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Smart Lighting
The AS721x/AS722x are complete System-on-Chip (SoC) sensor-integrated IoT smart lighting managers for color-tunable white lighting applications. They also support daylight harvesting and color/lumen maintenance lighting applications. 0-10V control and network-enabled high-level command inputs are combined with industry-standard PWM and 0-10V outputs for direct control of LED power systems.
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Signal Converters
ams signal converters contain four or eight signal channels, and can be dynamically programmed in-process by means of multiple amplification levels. This makes them very well suited for multi-channel sensor systems in applications with dynamic amplification and a high sensor bandwidth. All the converters small: they are available in space-saving (Q)SOP packages or as Chip-on-Board(COB) packages.
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XYZ Color Sensor
AS7261
Calibrated XYZ color sensor provides complete, integrated platform for handheld color analyzers, color calibration and mobile analysis devices. Tri-stimulus XYZ realized by silicon interference filters. UART or I²C slave digital Interface. 16-bit ADC with digital access. Programmable LED drivers. 20-pin LGA package 4.5mm x 4.7mm x 2.5mm, with built-in aperture. Compact true-color sensing. Applications; Color/CCT sensing, Fluid or reagent analysis, Color point comparison, Display calibration.
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3D Sensing
The rapidly growing field of 3D sensing is currently addressed by the following 3D camera technologies: stereoscopic imaging, time-of-flight (ToF) sensing, and structured light.
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Color Sensor
The color sensor product family includes both RGB (Red, Green, Blue) and high-accuracy XYZ light sensors for precise color measurement, determination, and discrimination. XYZ sensors are capable of providing xy chromaticity co-ordinates in accordance with the CIE 1931 color map. The ams color sensors include filters to block unwanted IR light in the visible spectral range, enabling highly accurate color measurement. Their high sensitivity coupled with their wide dynamic range make them well suited to continuous color temperature measurement of ambient light in display management systems, and automatic-white-balance assistance in camera applications. Some products have additional IR channels to assist with IR light source identification.
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Medical & Health
High-performance sensors and sensor interface solutions from ams provide for more precise and accurate diagnostic information while exposing the patient to a lower dose of radiation.
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DC-DC Charge Pumps
Charge pumps – inductorless boost converters – from ams operate at up to 90% efficiency.
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Wireless Sensor Nodes
Wireless technologies from ams are notable for their extreme high performance, low power consumption and small board footprint.
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Structured Light
Structured light systems from ams enable 3D imaging applications to achieve extremely high accuracy. Accurate structured light technology is behind the user face recognition being implemented in smartphones. Structured light products and design expertise from ams help customers get to market quickly and scale up production rapidly.
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Sensor Interfaces
Sensor interface ICs enable a system to read out information from the input signal generated by complex sensors, providing a suitable output signal that is easy for a host system to display or process. ams sensor interfaces offer high accuracy, precision and sensitivity even when operating in harsh environments.
