Renesas Mobile Product Portfolio - Bringing high speed broadband to every industry
The Renesas Mobile modem is the world's most frequently used modem, with over 2 billion deployments to date. This modem technology is available to customers in the form of slim modem platforms, embedded modules or mobile phone platforms that deliver reliable broadband connectivity through LTE and DC-HSPA+ technology for mobile devices, cars and the M2M market.
The modem is complemented by Renesas Mobile's application processors which combine thousands of man years of expertise in highly integreated, optimised products. Our broad portfolio allows customers to build world leading products in many areas:
Designed to reduce risk and time to market for exciting new LTE triple and quad mode devices.
Car Infotainment Platforms:
Powerful and efficient platforms for navigation, infotainment and converged mobile automotive devices.
Wireless Modem Chipsets:
Modem platforms designed to deliver triple-mode LTE and dual-mode DC-HSPA+ connectivity to for high-end smartphones, tablets and datacards.
USB Datacard Platforms:
Complete solutions that enable a rapid time to market for dual- and triple-mode USB datacards.
Renesas Mobile world leading modem optimised for integration into embedded systems to enable M2M connectivity.
High graphics performance and low power processors for next generation mobile devices.
Stunning hardware accelerated 3D and HD graphics capability on multi-core ARM processors leading to unrivalled performance. World leading area and performance. Supporting all leading Operatins Systems.
Slim Modem Platforms
Highly integrated, high performance stand alone 2G/3G/HSPA/LTE-FDD/LTE-TDD modem platform solutions including the RF system and power management for M2M, datacards, tablets and smart phones. Confidence through maturity.
Multi-mode Mobile Phone Platforms
World leading modem technology combined with high performance APEs with stunning graphics supporting all major OSs for smartphones and tablets in both single die and two chip implementations.