Micros
Freescale introduces i.MX53 processors for in-car multimedia applications
As consumers increasingly embrace downloadable applications that run on popular mobile products such as tablets and smartphones, automakers are looking to differentiate new car models with high performance driver information systems (DIS) that enable similar use cases for customisable in-dash applications and fully reconfigurable instrument clusters.
To mBecause the visual aspect of the end product is foremost in the user’s impression of performance and quality, Freescale incorporates two independent graphics processing engines to render high frame rate graphics required for reconfigurable and highly realistic looking display-based instrument clusters. This allows automobile designers to migrate from fixed analogue instrument clusters to a single display-based cluster that can be customised across vehicle families.
“Freescale’s history of leadership in the automotive industry gives us the insight to deliver solutions that meet the quality, reliability and longevity specs this market requires,” said Bernd Lienhard, vice president and general manager of Freescale’s Multimedia Applications Division. “Our advanced i.MX53 automotive processors enhance driver’s experiences by enabling new applications and larger, more intuitive displays, which increasingly influence automotive purchasing decisions.”
The i.MX53x family builds on Freescale’s previous generation i.MX51 processor that powers Ford’s recently introduced MyFord Touch. Ford’s next-generation touch screen multimedia infotainment platform provides a smarter, safer, simpler way to connect drivers with in-car technologies and their digital lives:
The i.MX53x processors are based on Freescale’s latest implementation of the ARM Cortex™-A8 core, which delivers 800 MHz of performance in automotive environments. For reconfigurable instrument cluster applications, the i.MX534 offers dual graphics processors for ultra fast rendering of 2D needles, combined with 3D images. The i.MX536 adds a dedicated hardware video processor capable of full 1080p video decode and 720p encode with minimal CPU loading for advanced multimedia applications. Both processors include a 400MHz external memory interface that supports common DDR2 and DDR3 memories as well as low power DDR2. The products’ dual parallel display ports and on board LVDS interface enable dual display applications. High performance multichannel audio and audio mixing applications are enabled via enhanced serial audio interface technology, multiple I2S I/O ports and a hardware based asynchronous sample rate converter.