ATOM one is the smallest Full HD camera with Dual 3G-SDI output.
The camera is based on Sony’s IMX174 image sensor that provides exceptional image performance with multi matrix support.
ASIC, FPGA and SoC development
System on Chip (SoC), FPGA and embedded software designs for consumer electronics, telecommunications and automotive industries
ASIC, FPGA und SoC Entwicklung
Ihr deutsches Systemhaus für die Chip und FPGA Entwicklung im deutschspraching Raum. Embedded Software Entwicklung und Leiterkartenentwicklung auf höchstem Niveau.
Cutting-edge Image Processing for ADAS
Experience the future of driving with our state-of-the-art components for automotive safety!
Bildverarbeitung für Fahrerassistenzsysteme
Algorithmen und Komponenten für das autonome Fahren. Embedded Software Entwicklung nach ISO 26262. Autosar Entwicklung auf Infineon Aurix Bausteinen.
Arria 10 System on Module
The Arria 10 SOM is an Arria 10 SoC System on Module with an emphasis on embedded and automotive vision applications. Using Alteras Arria 10 SoC Devices in the 29x29 mm package, the module off ers a multitude of interfaces in a small 10 cm by 6 cm form factor.
The challenge in camera-based Advanced Driver Assistance Systems (ADAS) is to standardise the various output signals and turn them into a distortion-free image. Semiconductor design company Dream Chip has developed a uniform SoC architecture that will reduce the complexity of such devices and provides for a functional unit for image signal pre-processing.
According to Dream Chip, experience shows that purely software-based approaches do not meet the computing power requirements of certain application-specific image transformations. Instead, raw image signal pre-processing in the camera translates into a decisive difference in terms of scalability and cost. Based on this perception, Dream Chip has developed a technology that assumes the task of pre-processing these data and that enables designers to integrate multiple different cameras on a single SoC.
Dream Chip's architecture offers the possibility to chose between pure hardware and pure software implementations as well as any combination thereof, according to the requirements for resource efficiency, power efficiency and flexibility. It will fully exploit the potential of the recently introduced European 14/28 mm FDSOI (Fully Depleted Silicon on Insulator) process in terms of cost and complexity reduction. Furthermore, the architecture enables implementing diverse camera applications for ADAS on a single SoC - for instance a 360° top view camera, a stereo front view camera and digital rear view mirror applications with up to four cameras.