Automotive
Vehicle Networking
- Gateway
- Service-Oriented Gateway
Service-Oriented Gateway

Service-Oriented Gateway

Overview

Service-oriented gateways require high performance and networking capabilities to meet the processing requirements and high-bandwidth vehicle data usage for services. Examples of services include vehicle health monitoring or prognostics, vehicle-wide OTA updates, edge data analytics and car sharing support, with many new services expected in the future.

These services can transform the automotive industry by providing disruptive opportunities that generate new revenue streams for automakers, enhance safety and security, improve user experiences and reduce costs.

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Service-Oriented Gateway Empowers Next-Gen Vehicle Architecture

NXP Automotive Gateway

Designs

MPC-LS Vehicle Network Processing reference design

Type: Reference Design

The MPC-LS-VNP-RDB is a reference design engineered for vehicle network processing (VNP) applications.

Specifications

Vehicle Network Processors

S32G processors for Vehicle Networking

Safety Microcontrollers

S32K1 General Purpose MCUs updated

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

LIN PHY

TJA1022 : Dual LIN 2.2A/SAE J2602 transceiver
TJA1024HG : Quad LIN 2.2 A/SAE J2602 Transceiver

Ethernet

SJA1110 : Multi-Gig Safe and Secure TSN Ethernet Switch with Integrated 100BASE-T1 PHYs

FlexRay Star

TJA1085G : FlexRay Active Star Coupler – 4 Branch
TJA1085 : FlexRay Active Star Coupler – 4 Branch

SPI-QuadLIN

SJA1124 : Quad LIN master transceiver with LIN master controller

Secure Element

NCJ38A: Automotive-Qualified Embedded Secure Element (SE)

Design Resources

Documents ( 1 )

White Paper ( 1 )

Documents

White Paper ( 1 )

Future Vehicle Networks and ECUs: Architecture and Technology considerations^{(REV
0
)}
- PDF
- 439.4 kB
- 13 Sep 2017
- FVNECUA4W
- [ English ]

Training and Events

Unlocking the Full Potential of Vehicle Data with S32G Processors

Type: On-Demand
Duration: 60:41

This on-demand training will introduce the concept of "vehicle network processing" and explore how future vehicles will require a better performance and networking.

Developing advanced In-Vehicle Cloud Service Applications Using the AWS Connected Mobility Solution and The NXP S32G Processor

Type: On-Demand
Duration: 60:00

Automating the Development of AI-based Deep Learning Vehicle Health Management (VHM) Solutions on the NXP S32G Processor

Type: On-Demand
Duration: 60:00

Redefining Connected Vehicles With Service-Oriented Gateways

Type: On-Demand
Duration: 60:00

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

Type: On-Demand
Duration: 30:25

S32G is a new type of automotive processor needed to safely and securely transport and process all the vehicle data.

Designing Secure Automotive Gateway Solutions Using Time-Sensitive Network (TSN) Protocol on the NXP S32G Processor

Type: On-Demand
Duration: 60:00

Transitioning to Safe and Secure Zonal Architectures with the NXP S32G Processor

Type: On-Demand
Duration: 60:00

NOV30

Orchestrating Complex and Secure Automotive OTA Software Updates and Data Management Using Airbiquity OTAmatic^® on The NXP S32G Processor

Type: Webinar
Provider: NXP

Service-Oriented Gateway

Overview

Designs

Specifications