Hybrid Electric Vehicle (HEV) Applications
Overview
Designs
Engineered for ISO 26262 ASIL D 3-phase Permanent Magnet Synchronous Motor (PMSM) control, 3-shunt current sensing, and resolver position sensing.
This automotive EV Power Inverter Control Reference Platform targets ISO 26262 ASIL D applications such as electric vehicle traction motors and DC to DC converters.
The RDGD3100F3PH5EVB is a fully functional three-phase Power Gate Drive reference design.
This Reference Design board provides a solution for 48 V Battery Management System (BMS) in vehicles.
Specifications
Choose a diagram
HEV Converter and Charger
Battery Pack Control
- MPC560xB : Ultra-Reliable MPC56xB MCU for Automotive & Industrial General Purpose
- S12XE : Ultra-Reliable S12XE High-Performance Automotive and Industrial Microcontrollers
- S12XS : S12XS Automotive and Industrial Microcontrollers (MCUs)
- S12P : S12P Automotive and Industrial Microcontrollers (MCUs)
- S12G : Ultra-Reliable S12G General Purpose Automotive and Industrial Microcontrollers
12 V Battery Monitoring
- MM912_637 : Battery Sensor with LIN for 12 V Lead-acid Batteries
DC/DC converter
- 56F824X_825X : Digital Signal Controller
HEV Powertrain
Safety SBCSafety SBCSafety SBCSafety SBCSafety SBCSafety SBCSafety SBCSafety SBCGate DriverGate DriverMicrocontrollers (MCU)Microcontrollers (MCU)Microcontrollers (MCU)Microcontrollers (MCU)Microcontrollers (MCU)Microcontrollers (MCU)Microcontrollers (MCU)Microcontrollers (MCU)Input Signal and Sensor InterfaceInput Signal and Sensor InterfaceOutput DriversOutput DriversExternal Inputs (IVN & Gateway)External Inputs (IVN & Gateway)External Inputs (IVN & Gateway)External Inputs (IVN & Gateway)External Inputs (IVN & Gateway)External Inputs (IVN & Gateway)External Inputs (IVN & Gateway)External Inputs (IVN & Gateway)Battery Management System Battery Management System Safety SBC
- FS6600 : Safety SBC for S32S2 Microcontroller, Fit for ASIL D
- FS6500 : Grade 1 and Grade 0 Safety Power System Basis Chip with CAN Flexible Data Transceiver
- FS26 : Safety System Basis Chip (SBC) with Low Power Fit for ASIL D
Gate Driver
- GD3100 : Advanced single-channel gate driver for Insulated Gate Bipolar Transistors and Silicon Carbide MOSFETs
- GD3160 : Advanced Single-Channel High-Voltage Isolated Automotive Gate Driver for SiC MOSFETs/IGBTs
Microcontrollers (MCU)
- S32S Microcontrollers for Safe Vehicle Dynamics
- NXP GreenBox Vehicle Electrification Development Platform
- MPC574xP : Ultra-Reliable MPC574xP MCU for Automotive & Industrial Safety Applications
- MPC5777C : Ultra-Reliable MPC5777C MCU for Automotive and Industrial Engine Management
- MPC564xL : Ultra-Reliable Dual-Core 32-bit MCU for Automotive and Industrial Applications
- MPC5775B and MPC5775E Microcontrollers for Battery Management Systems (BMS) and Inverter Applications
Input Signal and Sensor Interface
- CD1020 : Low-Cost 22-CH Multiple Switch Detect Interface
Output Drivers
- CD1020 : Low-Cost 22-CH Multiple Switch Detect Interface
External Inputs (IVN & Gateway)
- MPC574xB-C-G : Ultra-Reliable MCUs for Automotive and Industrial Control and Gateway
- S32G2 Processors for Vehicle Networking
Battery Management System
- Battery Management System : Battery Management System
HEV Power Inverter
Motor & Gate Driver
- GD3100 : Advanced single-channel gate driver for Insulated Gate Bipolar Transistors and Silicon Carbide MOSFETs
- GD3160 : Advanced Single-Channel High-Voltage Isolated Automotive Gate Driver for SiC MOSFETs/IGBTs
Microcontrollers (MCU)
- S32S Microcontrollers for Safe Vehicle Dynamics
- MPC5775B and MPC5775E Microcontrollers for Battery Management Systems (BMS) and Inverter Applications
- NXP GreenBox Vehicle Electrification Development Platform
- MPC5777C : Ultra-Reliable MPC5777C MCU for Automotive and Industrial Engine Management
- MPC574xP : Ultra-Reliable MPC574xP MCU for Automotive & Industrial Safety Applications
Safety SBC
- FS4500 : Grade 1 and Grade 0 safety power system basis chip with CAN flexible data transceiver
- FS26 : Safety System Basis Chip (SBC) with Low Power Fit for ASIL D
CAN Transceiver
- CAN Transceivers : CAN Transceivers
HEV Stop/Start System
Microcontrollers (MCU)
- MPC560xB : Ultra-Reliable MPC56xB MCU for Automotive & Industrial General Purpose
- S12XE : Ultra-Reliable S12XE High-Performance Automotive and Industrial Microcontrollers
- S12XS : S12XS Automotive and Industrial Microcontrollers (MCUs)
- S12P : S12P Automotive and Industrial Microcontrollers (MCUs)
- S12G : Ultra-Reliable S12G General Purpose Automotive and Industrial Microcontrollers
- S32 Automotive Platform : S32 Automotive Platform
Safety SBC
- FS4500 : Grade 1 and Grade 0 safety power system basis chip with CAN flexible data transceiver
- FS26 : Safety System Basis Chip (SBC) with Low Power Fit for ASIL D
CAN/LIN Transceiver
- CAN Transceivers : CAN Transceivers
Pre-Driver Module
MOSFET Low RDs
HEV Converter and Charger
HEV Powertrain
HEV Power Inverter
HEV Stop/Start System
Design Resources
Documents ( 2 )
Documents
Brochure ( 1 )
-
Vehicle Electrification Solutions Brochure (REV 2 )
NXP delivers the optimal performance, robust functional safety and power management that automakers and developers require for the next generation of electric and hybrid vehicles.
White Paper ( 1 )
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Safety Concept Overview of High-Voltage (HV) Traction Inverter (REV 1 )
This whitepaper presents an example of a system safety concept based on NXP componenets for a high-voltage traction inverter for electric vehicles.
Get Help
Training and Events
Functional Safety in Power Management ICs and Related System Considerations
Learn how to use a multi-PMIC approach and meet the safety requirements using NXP solutions.
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.
Next-Generation Processor Solutions for Advanced H/EVs and Safety Domain Controllers
Learn about trends in vehicle dynamics and how S32S and S32K MPUs, and the GreenBox development platform, address them.
Automotive Electrification Introduction
Explore the automotive electrification trend and how NXP is supporting the transition to sustainable electric transportation.
Designing an eTPU Dual Motor Control Solution
Design a high-performance dual motor control solution using the Time Processing Unit eTPU complex timers on the MPC5777C-DEVB development board.