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- Overview
- FM0+ 32-bit Arm® Cortex®-M0+ microcontroller (MCU) families
-
FM3 32-bit Arm® Cortex®-M3 microcontroller (MCU) families
- Overview
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FM4 32-bit Arm® Cortex®-M4 microcontroller (MCU) families
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- Overview
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32-bit TriCore™ AURIX™ – TC2x
- Overview
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- AURIX™ TC2x emulation devices
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32-bit TriCore™ AURIX™ – TC3x
- Overview
- AURIX™ family - TC32xLP
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- AURIX™ family - TC33xLP
- AURIX™ family – TC35xTA (ADAS)
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- AURIX™ TC37xTE (emulation devices)
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- 32-bit TriCore™ AURIX™ – TC4x
- Overview
- PSOC™ 4 Arm® Cortex®-M0/M0+
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- Overview
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- Overview
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- Overview
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- Overview
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- Overview
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- Overview
- EZ-PD™ CCG3 USB type-C port controller PD
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- Overview
- EZ-PD™ ACG1F one-port USB-C controller
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- EZ-PD™ CMG1 USB-C EMCA controller
- EZ-PD™ CMG2 USB-C EMCA controller with EPR
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Automotive BMS
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MICROCONTROLLER
How to get started with PSOC™ Automotive
PSOC™ Automotive Ease of Use
The PSOC™ Development Ecosystem offers a highly configurable platform for creating, prototyping, and deploying embedded applications across automotive, industrial, IoT, and consumer segments. Based on Infineon’s versatile PSOC™ microcontroller family, it combines flexible hardware, an integrated software toolchain, powerful sensing and connectivity features, and comprehensive developer support to accelerate innovation from concept to production.
The PSOC™ Automotive family by Infineon delivers a versatile portfolio of microcontrollers tailored to the evolving needs of vehicle electronics. These scalable, programmable SoCs integrate analog and digital peripherals, capacitive sensing, and processing cores—making them ideal for applications across body electronics, infotainment, HMI, and lighting domains. With built-in automotive-grade robustness, ISO 26262 support, and seamless integration with ModusToolbox™, PSOC™ automotive platforms accelerate time-to-market for safe, reliable, and customizable solutions.
- 3 – 5 V supply, 24 – 48 MHz Cortex M0 / M0+,
- 16 – 384 kB Flash, Optional Op-Amps, comparators, CAN / CAN-FD, USB, LCD, Crypto, CAPSENSE™
- 3 – 5 V supply, 24 – 48 MHz Cortex M0 / M0+,
- 16 – 384 kB Flash, Optional Op-Amps, comparators, CAN / CAN-FD, USB, LCD, Crypto, CAPSENSE™
- 3 – 5 V supply, 24 – 48 MHz Cortex M0 / M0+,
- 16 – 384 kB Flash, Optional Op-Amps, comparators, CAN / CAN-FD, USB, LCD, Crypto, CAPSENSE™
- 12 V supply (42 V max), 24-48 MHz Cortex M0+ , ASIL C
- 144 kB Flash, embedded LIN-SBC (12V-LDO & PHY) 16 / 20-bit ΔΣ ADC for precise V/I measurement
- 12 V supply (42 V max), 24-48 MHz Cortex M0+ , ASIL C
- 144 kB Flash, embedded LIN-SBC (12V-LDO & PHY) 16 / 20-bit ΔΣ ADC for precise V/I measurement
- 12 V supply (42 V max), 24-48 MHz Cortex M0+ , ASIL C
- 144 kB Flash, embedded LIN-SBC (12V-LDO & PHY) 16 / 20-bit ΔΣ ADC for precise V/I measurement
- 12 V supply (42 V max), 24 – 48 MHz Cortex M0+, ASIL B
- 32 – 128 kB Flash, embedded LIN-SBC (12V-LDO & PHY), CAPSENSE™
- 12 V supply (42 V max), 24 – 48 MHz Cortex M0+, ASIL B
- 32 – 128 kB Flash, embedded LIN-SBC (12V-LDO & PHY), CAPSENSE™
- 12 V supply (42 V max), 24 – 48 MHz Cortex M0+, ASIL B
- 32 – 128 kB Flash, embedded LIN-SBC (12V-LDO & PHY), CAPSENSE™
- 8.5” – 15” touchscreens
- Multichip-support for up to 35” touchpanels / touchscreens
- 8.5” – 15” touchscreens
- Multichip-support for up to 35” touchpanels / touchscreens
- 8.5” – 15” touchscreens
- Multichip-support for up to 35” touchpanels / touchscreens
To support a seamless development experience, Infineon provides an extensive library of documentation for each product family. These resources are carefully curated to help developers at every stage—from product evaluation and selection to implementation and debugging. Whether you’re building proof of concept or preparing for production deployment, the following documents are available and regularly updated.
Infineon’s PSOC™ evaluation kits provide plug-and-play development platforms for quick prototyping and testing. These kits enable developers to explore advanced features like Capacitive Sensing (CAPSENSE™), high-precision analog functions, and low-power IoT applications.
- Next-gen CAPSENSE™ Analog
- Functional Safety (ASIL-B)
- High Voltage subsystem
- Supported by ModusToolbox
- Next-gen CAPSENSE™ Analog
- Functional Safety (ASIL-B)
- High Voltage subsystem
- Supported by ModusToolbox
- Precise SOC/SOH tracking
- Shunt base current sensing
- Wide input range and High Safety
- Supported by ModusToolbox
This video provides a comprehensive overview of the PSOC™ 4 HVMS Lite kits, focusing on their key features, kit contents, power generation flow, peripherals, and interfaces.
This training navigates how to download and install AutoPDL and IAR Embedded Workbench for the PSOC™ 4 HVPA EVK on the CYHVPA-128K-32-001 board and to program and run simple applications on the board.
This video provides a comprehensive overview of the PSOC™ 4 HVMS Lite kits, focusing on their key features, kit contents, power generation flow, peripherals, and interfaces.
This training navigates how to download and install AutoPDL and IAR Embedded Workbench for the PSOC™ 4 HVPA EVK on the CYHVPA-128K-32-001 board and to program and run simple applications on the board.
ModusToolbox™
PSOC™ Automotive 4 integrates Infineon’s best in-class capacitive sensing technology for Human Machine Interface (HMI) applications with an ARM Cortex-M0 / M0+ CPU, flash and memory. The analog peripherals (analog front-end, ADC, operational amplifiers, low- power comparators) combine with digital peripherals and communication interfaces (SENT, LIN, CAN and CAN-FD) to provide a single-chip smart sensor with high integration and a small footprint. You can achieve ultimate flexibility in your design with Infineon software defined peripherals embedded in the PSOC™ Automotive 4 architecture. All PSOC™ devices are supported in 3rd party IDE and either PSOC™ Creator and or the ModusToolbox™ IDE.
Key Features
- Up to 384-KB Flash & 32-KB SRAM
- Support multiple data collection methods such as capacitive to resistive, inductive & current sensing
- Low-power compute, optimized at a hardware level
- Up to 84 GPIO pins supporting both analog and digital signals
- CAN,CAN-FD, TX I2S, Fast I2C, Segment LCD, TCPWM x8, SCB x5
- Dedicated HW security block to support AES, SHA, TRNG, PRNG, & CRC functions
Why Use ModusToolbox™ for PSOC™ Automotive 4?
- Free of Charge
- Dedicated HW security block to support AES, SHA, TRNG, PRNG, & CRC functions
- Repositories include board support packages (BSPs), low-level resources like a hardware abstraction layer (HAL) and peripheral driver library (PDL), and middleware that enables industry-leading features such as CAPSENSE
The PSOC™ 4 HVPA series of products, provide a single-chip solution for battery management systems integrating high precision analog, high-voltage (12 V) LDO, LIN PHY and an ARM™ Cortex™ CPU which are the required functions for Intelligent battery management system (IBS). The device is developed compliant to ISO 26262, meeting all process requirements for ASIL C and hardware architectural metrics for ASIL B.
Key Features
- High-precision analog subsystem features two 16-bit delta-sigma ADC and Programmable Gain Amplifier (PGA) with automatic gain control
- PSOC™ 4 device is developed compliant to ISO 26262, meeting all process requirements up to ASIL C and hardware architectural metrics up to ASIL B
- Integrated LIN PHY transceiver and high voltage LDO (42 V tolerant) for direct 12 V operation
ModusToolbox™ Integration
- Free of Charge
- Optimized firmware development environment
- Hardware-in-the-loop simulation tools
The PSOC™ 4 High Voltage Mixed Signal (HVMS) series of products, provide a single-chip solution for automotive smart edge-sensing by integrating a multi-sense converter, programmable analog, high-voltage (12 V) LDO, LIN PHY and an ARM™ Cortex CPU. This solution fits HMI / sensing applications such as steering wheel switches, Hands on detection, or door handles, as well as general purples applications like PTC heaters or LED-lighting. The device is developed compliant to ISO 26262, meeting all process requirements for ASIL B and hardware architectural metrics for ASIL B.
Key Features
- The HV subsystem integrates high voltage LDO (42 V tolerant), and a LIN or CXPI PHY
- Developed according to ISO 26262 for ASIL-B as a safety element out of context
- Multi-sense converter integrating 5th generation CAPSENSE™
How ModusToolbox™ Enhances PSOC™ HV MS?
- Free of Charge
- Preconfigured sensor libraries
- AI/ML model integration support
- Real-time data logging & cloud connectivity
PSOC™ Automotive 4 integrates Infineon’s best in-class capacitive sensing technology for Human Machine Interface (HMI) applications with an ARM Cortex-M0 / M0+ CPU, flash and memory. The analog peripherals (analog front-end, ADC, operational amplifiers, low- power comparators) combine with digital peripherals and communication interfaces (SENT, LIN, CAN and CAN-FD) to provide a single-chip smart sensor with high integration and a small footprint. You can achieve ultimate flexibility in your design with Infineon software defined peripherals embedded in the PSOC™ Automotive 4 architecture. All PSOC™ devices are supported in 3rd party IDE and either PSOC™ Creator and or the ModusToolbox™ IDE.
Key Features
- Up to 384-KB Flash & 32-KB SRAM
- Support multiple data collection methods such as capacitive to resistive, inductive & current sensing
- Low-power compute, optimized at a hardware level
- Up to 84 GPIO pins supporting both analog and digital signals
- CAN,CAN-FD, TX I2S, Fast I2C, Segment LCD, TCPWM x8, SCB x5
- Dedicated HW security block to support AES, SHA, TRNG, PRNG, & CRC functions
Why Use ModusToolbox™ for PSOC™ Automotive 4?
- Free of Charge
- Dedicated HW security block to support AES, SHA, TRNG, PRNG, & CRC functions
- Repositories include board support packages (BSPs), low-level resources like a hardware abstraction layer (HAL) and peripheral driver library (PDL), and middleware that enables industry-leading features such as CAPSENSE
The PSOC™ 4 HVPA series of products, provide a single-chip solution for battery management systems integrating high precision analog, high-voltage (12 V) LDO, LIN PHY and an ARM™ Cortex™ CPU which are the required functions for Intelligent battery management system (IBS). The device is developed compliant to ISO 26262, meeting all process requirements for ASIL C and hardware architectural metrics for ASIL B.
Key Features
- High-precision analog subsystem features two 16-bit delta-sigma ADC and Programmable Gain Amplifier (PGA) with automatic gain control
- PSOC™ 4 device is developed compliant to ISO 26262, meeting all process requirements up to ASIL C and hardware architectural metrics up to ASIL B
- Integrated LIN PHY transceiver and high voltage LDO (42 V tolerant) for direct 12 V operation
ModusToolbox™ Integration
- Free of Charge
- Optimized firmware development environment
- Hardware-in-the-loop simulation tools
The PSOC™ 4 High Voltage Mixed Signal (HVMS) series of products, provide a single-chip solution for automotive smart edge-sensing by integrating a multi-sense converter, programmable analog, high-voltage (12 V) LDO, LIN PHY and an ARM™ Cortex CPU. This solution fits HMI / sensing applications such as steering wheel switches, Hands on detection, or door handles, as well as general purples applications like PTC heaters or LED-lighting. The device is developed compliant to ISO 26262, meeting all process requirements for ASIL B and hardware architectural metrics for ASIL B.
Key Features
- The HV subsystem integrates high voltage LDO (42 V tolerant), and a LIN or CXPI PHY
- Developed according to ISO 26262 for ASIL-B as a safety element out of context
- Multi-sense converter integrating 5th generation CAPSENSE™
How ModusToolbox™ Enhances PSOC™ HV MS?
- Free of Charge
- Preconfigured sensor libraries
- AI/ML model integration support
- Real-time data logging & cloud connectivity
Infineon offers comprehensive tutorials to help developers maximize their PSOC™ development experience. These tutorials cover everything from basic programming to advanced debugging techniques.
What You’ll Learn
- Getting Started: Setting up the Modus Toolbox and writing your first program
- Peripheral Configuration: Step-by-step instructions on configuring GPIOs, ADCs, PWMs, CAN buses
- Debugging Techniques: Learn how to use breakpoints, memory inspection, and performance analysis tools
- Real-time Data Processing: Explore how to process and analyze sensor data efficiently
- CAPSENSE™ Implementation: Hands-on guidance for capacitive touch applications
Available topics of tutorials:
- Introduction to Automotive PSOC™ microcontrollers
- PSOC™ 4 analog-to-digital converters
- PSOC™ 4 CAPSENSE™ overview
- PSOC™ 4 HVPA PACSS automatic gain control and calibration
- PSOC™ 4 High Voltage Precision Analog
Why use Infineon’s Tutorials?
- Saves Development Time – Quickly learn and implement features
- Reduces Debugging Efforts – Gain expertise in debugging techniques
- Improves Code Efficiency – Write optimized, reliable, and automotive-grade software
Infineon’s DRIVECORE is a scalable software bundle portfolio designed to streamline and accelerate software development. It simplifies the development process and reduces migration efforts, all while minimizing commercial complexities and optimizing supplier management.
Infineon’s DRIVECORE is a scalable software bundle portfolio designed to streamline and accelerate software development. It simplifies the development process and reduces migration efforts, all while minimizing commercial complexities and optimizing supplier management.
Infineon’s DRIVECORE is a scalable software bundle portfolio designed to streamline and accelerate software development. It simplifies the development process and reduces migration efforts, all while minimizing commercial complexities and optimizing supplier management.
The PSOC™ Automotive family by Infineon delivers a versatile portfolio of microcontrollers tailored to the evolving needs of vehicle electronics. These scalable, programmable SoCs integrate analog and digital peripherals, capacitive sensing, and processing cores—making them ideal for applications across body electronics, infotainment, HMI, and lighting domains. With built-in automotive-grade robustness, ISO 26262 support, and seamless integration with ModusToolbox™, PSOC™ automotive platforms accelerate time-to-market for safe, reliable, and customizable solutions.
- 3 – 5 V supply, 24 – 48 MHz Cortex M0 / M0+,
- 16 – 384 kB Flash, Optional Op-Amps, comparators, CAN / CAN-FD, USB, LCD, Crypto, CAPSENSE™
- 3 – 5 V supply, 24 – 48 MHz Cortex M0 / M0+,
- 16 – 384 kB Flash, Optional Op-Amps, comparators, CAN / CAN-FD, USB, LCD, Crypto, CAPSENSE™
- 3 – 5 V supply, 24 – 48 MHz Cortex M0 / M0+,
- 16 – 384 kB Flash, Optional Op-Amps, comparators, CAN / CAN-FD, USB, LCD, Crypto, CAPSENSE™
- 12 V supply (42 V max), 24-48 MHz Cortex M0+ , ASIL C
- 144 kB Flash, embedded LIN-SBC (12V-LDO & PHY) 16 / 20-bit ΔΣ ADC for precise V/I measurement
- 12 V supply (42 V max), 24-48 MHz Cortex M0+ , ASIL C
- 144 kB Flash, embedded LIN-SBC (12V-LDO & PHY) 16 / 20-bit ΔΣ ADC for precise V/I measurement
- 12 V supply (42 V max), 24-48 MHz Cortex M0+ , ASIL C
- 144 kB Flash, embedded LIN-SBC (12V-LDO & PHY) 16 / 20-bit ΔΣ ADC for precise V/I measurement
- 12 V supply (42 V max), 24 – 48 MHz Cortex M0+, ASIL B
- 32 – 128 kB Flash, embedded LIN-SBC (12V-LDO & PHY), CAPSENSE™
- 12 V supply (42 V max), 24 – 48 MHz Cortex M0+, ASIL B
- 32 – 128 kB Flash, embedded LIN-SBC (12V-LDO & PHY), CAPSENSE™
- 12 V supply (42 V max), 24 – 48 MHz Cortex M0+, ASIL B
- 32 – 128 kB Flash, embedded LIN-SBC (12V-LDO & PHY), CAPSENSE™
- 8.5” – 15” touchscreens
- Multichip-support for up to 35” touchpanels / touchscreens
- 8.5” – 15” touchscreens
- Multichip-support for up to 35” touchpanels / touchscreens
- 8.5” – 15” touchscreens
- Multichip-support for up to 35” touchpanels / touchscreens
To support a seamless development experience, Infineon provides an extensive library of documentation for each product family. These resources are carefully curated to help developers at every stage—from product evaluation and selection to implementation and debugging. Whether you’re building proof of concept or preparing for production deployment, the following documents are available and regularly updated.
Infineon’s PSOC™ evaluation kits provide plug-and-play development platforms for quick prototyping and testing. These kits enable developers to explore advanced features like Capacitive Sensing (CAPSENSE™), high-precision analog functions, and low-power IoT applications.
- Next-gen CAPSENSE™ Analog
- Functional Safety (ASIL-B)
- High Voltage subsystem
- Supported by ModusToolbox
- Next-gen CAPSENSE™ Analog
- Functional Safety (ASIL-B)
- High Voltage subsystem
- Supported by ModusToolbox
- Precise SOC/SOH tracking
- Shunt base current sensing
- Wide input range and High Safety
- Supported by ModusToolbox
This video provides a comprehensive overview of the PSOC™ 4 HVMS Lite kits, focusing on their key features, kit contents, power generation flow, peripherals, and interfaces.
This training navigates how to download and install AutoPDL and IAR Embedded Workbench for the PSOC™ 4 HVPA EVK on the CYHVPA-128K-32-001 board and to program and run simple applications on the board.
This video provides a comprehensive overview of the PSOC™ 4 HVMS Lite kits, focusing on their key features, kit contents, power generation flow, peripherals, and interfaces.
This training navigates how to download and install AutoPDL and IAR Embedded Workbench for the PSOC™ 4 HVPA EVK on the CYHVPA-128K-32-001 board and to program and run simple applications on the board.
ModusToolbox™
PSOC™ Automotive 4 integrates Infineon’s best in-class capacitive sensing technology for Human Machine Interface (HMI) applications with an ARM Cortex-M0 / M0+ CPU, flash and memory. The analog peripherals (analog front-end, ADC, operational amplifiers, low- power comparators) combine with digital peripherals and communication interfaces (SENT, LIN, CAN and CAN-FD) to provide a single-chip smart sensor with high integration and a small footprint. You can achieve ultimate flexibility in your design with Infineon software defined peripherals embedded in the PSOC™ Automotive 4 architecture. All PSOC™ devices are supported in 3rd party IDE and either PSOC™ Creator and or the ModusToolbox™ IDE.
Key Features
- Up to 384-KB Flash & 32-KB SRAM
- Support multiple data collection methods such as capacitive to resistive, inductive & current sensing
- Low-power compute, optimized at a hardware level
- Up to 84 GPIO pins supporting both analog and digital signals
- CAN,CAN-FD, TX I2S, Fast I2C, Segment LCD, TCPWM x8, SCB x5
- Dedicated HW security block to support AES, SHA, TRNG, PRNG, & CRC functions
Why Use ModusToolbox™ for PSOC™ Automotive 4?
- Free of Charge
- Dedicated HW security block to support AES, SHA, TRNG, PRNG, & CRC functions
- Repositories include board support packages (BSPs), low-level resources like a hardware abstraction layer (HAL) and peripheral driver library (PDL), and middleware that enables industry-leading features such as CAPSENSE
The PSOC™ 4 HVPA series of products, provide a single-chip solution for battery management systems integrating high precision analog, high-voltage (12 V) LDO, LIN PHY and an ARM™ Cortex™ CPU which are the required functions for Intelligent battery management system (IBS). The device is developed compliant to ISO 26262, meeting all process requirements for ASIL C and hardware architectural metrics for ASIL B.
Key Features
- High-precision analog subsystem features two 16-bit delta-sigma ADC and Programmable Gain Amplifier (PGA) with automatic gain control
- PSOC™ 4 device is developed compliant to ISO 26262, meeting all process requirements up to ASIL C and hardware architectural metrics up to ASIL B
- Integrated LIN PHY transceiver and high voltage LDO (42 V tolerant) for direct 12 V operation
ModusToolbox™ Integration
- Free of Charge
- Optimized firmware development environment
- Hardware-in-the-loop simulation tools
The PSOC™ 4 High Voltage Mixed Signal (HVMS) series of products, provide a single-chip solution for automotive smart edge-sensing by integrating a multi-sense converter, programmable analog, high-voltage (12 V) LDO, LIN PHY and an ARM™ Cortex CPU. This solution fits HMI / sensing applications such as steering wheel switches, Hands on detection, or door handles, as well as general purples applications like PTC heaters or LED-lighting. The device is developed compliant to ISO 26262, meeting all process requirements for ASIL B and hardware architectural metrics for ASIL B.
Key Features
- The HV subsystem integrates high voltage LDO (42 V tolerant), and a LIN or CXPI PHY
- Developed according to ISO 26262 for ASIL-B as a safety element out of context
- Multi-sense converter integrating 5th generation CAPSENSE™
How ModusToolbox™ Enhances PSOC™ HV MS?
- Free of Charge
- Preconfigured sensor libraries
- AI/ML model integration support
- Real-time data logging & cloud connectivity
PSOC™ Automotive 4 integrates Infineon’s best in-class capacitive sensing technology for Human Machine Interface (HMI) applications with an ARM Cortex-M0 / M0+ CPU, flash and memory. The analog peripherals (analog front-end, ADC, operational amplifiers, low- power comparators) combine with digital peripherals and communication interfaces (SENT, LIN, CAN and CAN-FD) to provide a single-chip smart sensor with high integration and a small footprint. You can achieve ultimate flexibility in your design with Infineon software defined peripherals embedded in the PSOC™ Automotive 4 architecture. All PSOC™ devices are supported in 3rd party IDE and either PSOC™ Creator and or the ModusToolbox™ IDE.
Key Features
- Up to 384-KB Flash & 32-KB SRAM
- Support multiple data collection methods such as capacitive to resistive, inductive & current sensing
- Low-power compute, optimized at a hardware level
- Up to 84 GPIO pins supporting both analog and digital signals
- CAN,CAN-FD, TX I2S, Fast I2C, Segment LCD, TCPWM x8, SCB x5
- Dedicated HW security block to support AES, SHA, TRNG, PRNG, & CRC functions
Why Use ModusToolbox™ for PSOC™ Automotive 4?
- Free of Charge
- Dedicated HW security block to support AES, SHA, TRNG, PRNG, & CRC functions
- Repositories include board support packages (BSPs), low-level resources like a hardware abstraction layer (HAL) and peripheral driver library (PDL), and middleware that enables industry-leading features such as CAPSENSE
The PSOC™ 4 HVPA series of products, provide a single-chip solution for battery management systems integrating high precision analog, high-voltage (12 V) LDO, LIN PHY and an ARM™ Cortex™ CPU which are the required functions for Intelligent battery management system (IBS). The device is developed compliant to ISO 26262, meeting all process requirements for ASIL C and hardware architectural metrics for ASIL B.
Key Features
- High-precision analog subsystem features two 16-bit delta-sigma ADC and Programmable Gain Amplifier (PGA) with automatic gain control
- PSOC™ 4 device is developed compliant to ISO 26262, meeting all process requirements up to ASIL C and hardware architectural metrics up to ASIL B
- Integrated LIN PHY transceiver and high voltage LDO (42 V tolerant) for direct 12 V operation
ModusToolbox™ Integration
- Free of Charge
- Optimized firmware development environment
- Hardware-in-the-loop simulation tools
The PSOC™ 4 High Voltage Mixed Signal (HVMS) series of products, provide a single-chip solution for automotive smart edge-sensing by integrating a multi-sense converter, programmable analog, high-voltage (12 V) LDO, LIN PHY and an ARM™ Cortex CPU. This solution fits HMI / sensing applications such as steering wheel switches, Hands on detection, or door handles, as well as general purples applications like PTC heaters or LED-lighting. The device is developed compliant to ISO 26262, meeting all process requirements for ASIL B and hardware architectural metrics for ASIL B.
Key Features
- The HV subsystem integrates high voltage LDO (42 V tolerant), and a LIN or CXPI PHY
- Developed according to ISO 26262 for ASIL-B as a safety element out of context
- Multi-sense converter integrating 5th generation CAPSENSE™
How ModusToolbox™ Enhances PSOC™ HV MS?
- Free of Charge
- Preconfigured sensor libraries
- AI/ML model integration support
- Real-time data logging & cloud connectivity
Infineon offers comprehensive tutorials to help developers maximize their PSOC™ development experience. These tutorials cover everything from basic programming to advanced debugging techniques.
What You’ll Learn
- Getting Started: Setting up the Modus Toolbox and writing your first program
- Peripheral Configuration: Step-by-step instructions on configuring GPIOs, ADCs, PWMs, CAN buses
- Debugging Techniques: Learn how to use breakpoints, memory inspection, and performance analysis tools
- Real-time Data Processing: Explore how to process and analyze sensor data efficiently
- CAPSENSE™ Implementation: Hands-on guidance for capacitive touch applications
Available topics of tutorials:
- Introduction to Automotive PSOC™ microcontrollers
- PSOC™ 4 analog-to-digital converters
- PSOC™ 4 CAPSENSE™ overview
- PSOC™ 4 HVPA PACSS automatic gain control and calibration
- PSOC™ 4 High Voltage Precision Analog
Why use Infineon’s Tutorials?
- Saves Development Time – Quickly learn and implement features
- Reduces Debugging Efforts – Gain expertise in debugging techniques
- Improves Code Efficiency – Write optimized, reliable, and automotive-grade software
Infineon’s DRIVECORE is a scalable software bundle portfolio designed to streamline and accelerate software development. It simplifies the development process and reduces migration efforts, all while minimizing commercial complexities and optimizing supplier management.
Infineon’s DRIVECORE is a scalable software bundle portfolio designed to streamline and accelerate software development. It simplifies the development process and reduces migration efforts, all while minimizing commercial complexities and optimizing supplier management.
Infineon’s DRIVECORE is a scalable software bundle portfolio designed to streamline and accelerate software development. It simplifies the development process and reduces migration efforts, all while minimizing commercial complexities and optimizing supplier management.