Service-Oriented Gateway
Overview
Designs
The MPC-LS-VNP-RDB is a reference design engineered for vehicle network processing (VNP) applications.
Specifications
Service-Oriented Gateway
Vehicle Network Processors
Safety Microcontrollers
PMIC
- VR5510 : Multi-Channel (9) PMIC for S32G Processor – 8 High Power, 1 Low Power, fit for ASIL D Safety level
CAN PHY
- TJA1046TK : Dual high-speed CAN transceiver with Standby mode
- TJA1046VTK : VeLIO Certified, Dual High-speed CAN transceivers with Standby Mode for Automotive Applications
Secure CAN PHY
- Secure CAN Transceivers : Secure TJA115x CAN Transceiver Family
- TJA1462 : CAN Signal Improvement Capability Transceiver with Standby Mode
- TJA1463 : CAN Signal Improvement Capability Transceiver with Sleep Mode
- TJA144x : Automotive CAN FD Transceiver Family
LIN PHY
Ethernet
- SJA1110 : Multi-Gig Safe and Secure TSN Ethernet Switch with Integrated 100BASE-T1 PHYs
FlexRay Star
SPI-QuadLIN
- SJA1124 : Quad LIN leader transceiver with LIN leader controller
Secure Element
Service-Oriented Gateway
Design Resources
Documents ( 1 )
Documents
White Paper ( 1 )
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Training and Events
Unlocking the Full Potential of Vehicle Data with S32G Processors
This on-demand training will introduce the concept of "vehicle network processing" and explore how future vehicles will require a better performance and networking.
New Approach to Automotive Ethernet Packet Processing
Explore how the S32G Vehicle Network Processor and the SJA1110 Multi-Gig, 10-port TSN Ethernet switch address challenges facing vehicle networking.
Addressing the Rise of Automotive Gateways and New Vehicle Architectures with the NXP S32G Vehicle Network Processor
Explore the vehicle gateway market and new applications for vehicle network processing, including the S32G architecture, trends and key features.
Technology Advancements Enabling New Connected Vehicle Opportunities
Explore NXP solutions for service-oriented gateways and connectivity to drive new connected vehicle capabilities and business opportunities.
Zonal Architecture for Future Cars
Explore the concept of zonal architecture for vehicles, where functions are grouped by proximity, and NXP products that play a role in this new concept.
From the Cloud to the Car—Use Cases
Explore use cases such as OTA updates, in-car/in-cloud data analytics and SDN, examined from the data connectivity and security perspectives.
Orchestrating Complex and Secure Automotive OTA Software Updates and Data Management Using Airbiquity OTAmatic® on The NXP S32G Processor
Lean fundamentals and emerging trends of automotive OTA and electrical architecture to demonstrate how to deploy vehicle-wide updates of everything from firmware to software, including machine learning models and edge analytics modules using the technology integration of Airbiquity OTAmatic and the S32G Vehicle Network Processor.
Redefining Connected Vehicles With Service-Oriented Gateways
Explores how vehicle service-oriented gateways will play a pivotal role to redefine connected vehicles, help transform OEMs from carmakers into data-driven service providers and bring new user experiences and capabilities to consumers.
Get to Know the S32G Vehicle Network Processor
S32G is a new type of automotive processor needed to safely and securely transport and process all the vehicle data.
MAR18
Enabling a Connected EV Management System with NXP GoldBox and GreenBox Platforms and AWS Cloud Services
In this session, we will provide insights into the implementation of the Connected EV Management System based on the NXP GoldBox based on the S32G vehicle network processor for service-oriented gateways and the GreenBox based on the S32S for propulsion domain control, along with the key software and cloud technologies from AWS, and how they all work together to provide value propositions for connected EVs.