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- Overview
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- Overview
- FM0+ 32-bit Arm® Cortex®-M0+ microcontroller (MCU) families
-
FM3 32-bit Arm® Cortex®-M3 microcontroller (MCU) families
- Overview
- FM3 CY9AFx1xK series Arm® Cortex®-M3 microcontroller (MCU)
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FM4 32-bit Arm® Cortex®-M4 microcontroller (MCU) families
- Overview
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- Overview
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32-bit TriCore™ AURIX™ – TC2xx
- Overview
- AURIX™ family – TC21xL
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- AURIX™ TC2x emulation devices
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32-bit TriCore™ AURIX™ – TC3xx
- Overview
- AURIX™ family - TC32xLP
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- AURIX™ family - TC33xLP
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- Overview
- 32-bit PSOC™ 4 Arm® Cortex®-M0/M0+
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- Overview
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- Overview
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High-side switches
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- Overview
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- Overview
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Automotive BMS
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AC-DC power conversion
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32-bit TRAVEO™ T1G Arm® Cortex® microcontroller
Driving hybrid instrument clusters, head-up displays (HUD), body control modules (BCM), as well as automotive gauges and gateways
-
On this page
TRAVEO™ T1G CY9DF56x twin motor Arm® Cortex®-R5 MCU
Powering hybrid and electric vehicle motors with dedicated dual-motor control interface and accelerators
TRAVEO™ T1G S6J311A/9/8 auto standard Arm® Cortex®-R5 MCU
Ideal for fast and safe BCM and HVAC with integrated CAN FD, SHE, and low-power operation
TRAVEO™ T1G S6J311E/D/C/B auto standard Arm® Cortex®-R5 MCU
Fast and safe BCM and HVAC with integrated CAN FD, SHE, and low-power operations
TRAVEO™ T1G S6J312A/9/8 classic cluster Arm® Cortex®-R5 MCU
Driving classic instrument clusters with stepper motor control, CAN FD, SHE, and LCDC
TRAVEO™ T1G S6J324Cx 2D graphic control+single HYPERBUS™ Arm® Cortex®-R5 MCU
Driving hybrid instrument clusters and HUDs with an industry-leading 3D and 2D graphics engine, and onboard secure hardware extension (SHE) and CAN FD
TRAVEO™ T1G S6J326Cx 3D/2D graphic control+single HYPERBUS™ Arm® Cortex®-R5 MCU
Driving hybrid instrument clusters and HUDs with an industry-leading 3D and 2D graphics engine, onboard SHE, and CAN FD
TRAVEO™ T1G S6J327Cx 2D graphic control + dual HYPERBUS™ Arm® Cortex®-R5 MCU
Driving hybrid instrument clusters and HUDs with a highly-sophisticated 2D graphics engine, SHE, and CAN FD
TRAVEO™ T1G S6J328Cx 3D/2D graphics control+dual HYPERBUS™ Arm® Cortex®-R5 MCU
Driving hybrid instrument clusters and head-up displays (HUD) with an industry-leading 3D and 2D graphics engine, onboard SHE, and CAN FD
TRAVEO™ T1G S6J32BAx 2D graphic Arm® Cortex®-R5 MCU
Driving hybrid instrument clusters and head-up displays (HUD) with a sophisticated 2D/3D graphics engine, secure hardware extension (SHE), and CAN FD
TRAVEO™ T1G S6J32MEx 3D/2D graphic control + dual HYPERBUS™ Arm® Cortex®-R5 MCU
Industry-leading 3D and 2D graphics engine with security support, high-speed CAN FD, and 4 MB flash
TRAVEO™ T1G S6J32xEy 2D graphics control with LVDS video output+dual HYPERBUS™ Arm® Cortex®-R5 MCU
Driving hybrid instrument clusters and head-up displays (HUD) with a rich 2D graphics engine, onboard SHE, CAN FD, and 4 MB flash
TRAVEO™ T1G S6J331x simple 2D graphics+single HYPERBUS™ Arm® Cortex®-R5 MCU
Driving hybrid instrument clusters and head-up displays (HUD) with a sophisticated 2D/3D graphics engine, secure hardware extension (SHE), and CAN FD
TRAVEO™ T1G S6J335x gateway+Ethernet Arm® Cortex®-R5 MCU
Ethernet AVB and 8-channel high-speed CAN FD in-vehicle network with onboard secure hardware extension (SHE) security
TRAVEO™ T1G S6J3360/S6J3370 simple graphics Arm® Cortex®-R5 MCU
Driving hybrid instrument clusters and HUDs with onboard secure hardware extension (SHE), CAN FD, and LCD bus
TRAVEO™ T1G S6J342x auto standard Arm® Cortex®-R5 MCU
Fast and safe BCM and HVAC with integrated CAN FD, SHE, and low-power operations
TRAVEO™ T1G S6J351C body application Arm® Cortex®-R5 MCU
Fast and safe BCM and HVAC with integrated CAN FD, SHE, and low-power operations
About
Infineon TRAVEO™ T1G microcontrollers are based on the Arm® Cortex®-R5 core and deliver high-performance, enhanced human-machine interfaces, high security, and advanced networking protocols tailored for a broad range of automotive applications such as electrification, HVAC, lighting, and automotive cluster displays.
Based on the powerful Arm® Cortex® R5F core in single and dual core operation, it offers state-of-the-art real-time performance as well as safety and security features. Infineon TRAVEO™ T1G MCUs are used in motor control for hybrid and electric vehicles (HEV/EV), body electronics, and entry-level 2D and 3D instrument clusters.
Infineon's TRAVEO™ T1G microcontrollers build upon the successful FR81S and FCR4 families.
The family supports the latest in-car networks, offers high-performance graphics engines optimized for a minimum memory footprint, and embeds dedicated connectivity and communication features to increase data security in the car.
While we are maintaining the longevity of the products for the automotive industry, the following products listed on this page are not recommended for new designs.
The S6J32xx series of the TRAVEO™ T1G family delivers state-of-the-art 2D and 3D graphics that Infineon has optimized to bring sophisticated and automotive-specific graphics functions to the car without increasing power consumption and BOM requirements. As the first 3D-capable Arm® Cortex®-R5 cluster MCU, Infineon's graphics engine provides greater memory savings, increased safety features, and rich image capabilities without the need for external video RAM. These, in turn, help manufacturers take advantage of lower overall system costs to proliferate the advanced driver experience previously reserved for luxury automotive brands. Infineon integrates its breakthrough HYPERBUS™ interface, enabling seamless connections with HYPERBUS™ memories, including Infineon HYPERFLASH™ and HYPERRAM™ memory, to provide customers with design simplification and faster performance in automotive systems.
The S6J31xx/S6J33xx series of the TRAVEO™ T1G family are for classic cluster applications, needles driven by stepper motors, with a basic LCD or expanding external TFT LCD panel by the LCD bus that is ideal for low-end to mid-end designs. In addition, it is a great companion MCU for high-end GPU-oriented applications. All features are common among the TRAVEO™ family - customers can easily scale up and down within the same family devices.
The TRAVEO™ S6J310x/S6J330x/S6J340x/S6J350x series of the TRAVEO™ T1G family incorporate the high-performance CAN FD interface for enhanced in-vehicle networking. The product series is focused on various automotive applications, including body control modules (BCM), heating, ventilation, and air conditioning (HVAC). In addition to the CAN FD interface operating at 5 Mbps, it also features Secure Hardware Extension (SHE) for network security and improved performance for connected cars as well as advanced partial wakeup to lower power consumption.
The TRAVEO™ MB9D560 series of the TRAVEO™ T1G family features dual Arm® Cortex®-R5 cores and operates at 200 MHz. This family of microcontrollers expands Cypress's portfolio to be utilized in hybrid electrical vehicles (HEV) and electrical vehicles (EV). The dual-core/dual motor control structure on a single chip allows simultaneous control of two motors (e.g., the motor and the generator of an electrical engine system). Both motor control modules have their own embedded interface circuits for resolver sensors and include unique hardware IP to accelerate motor control operations. The dual-core approach and several in-built diagnosis functions support the required level of functional safety.
Access to TRAVEO™ T2G Digital collaterals
Discover the future of marketing with our cutting-edge digital collaterals, seamlessly integrated into HTML for a streamlined, interactive experience. Our all-in-one solution ensures that all your marketing assets, from datasheets and user manuals to code examples and presentations, are easily accessible and beautifully displayed across any device.
Access to additional TRAVEO™ T2G technical documentation
Register to the myInfineon Collaboration Platform (myICP) and gain access to additional microcontroller information: Technical add-on documentation, training, tools, and much more. Follow these steps to get started:
- Sign up to myInfineon here.
- Send your access request to Traveo@infineon.com (with your company email address).
- You will receive a confirmation explaining how to use your new access.
Infineon TRAVEO™ T1G microcontrollers are based on the Arm® Cortex®-R5 core and deliver high-performance, enhanced human-machine interfaces, high security, and advanced networking protocols tailored for a broad range of automotive applications such as electrification, HVAC, lighting, and automotive cluster displays.
Based on the powerful Arm® Cortex® R5F core in single and dual core operation, it offers state-of-the-art real-time performance as well as safety and security features. Infineon TRAVEO™ T1G MCUs are used in motor control for hybrid and electric vehicles (HEV/EV), body electronics, and entry-level 2D and 3D instrument clusters.
Infineon's TRAVEO™ T1G microcontrollers build upon the successful FR81S and FCR4 families.
The family supports the latest in-car networks, offers high-performance graphics engines optimized for a minimum memory footprint, and embeds dedicated connectivity and communication features to increase data security in the car.
While we are maintaining the longevity of the products for the automotive industry, the following products listed on this page are not recommended for new designs.
The S6J32xx series of the TRAVEO™ T1G family delivers state-of-the-art 2D and 3D graphics that Infineon has optimized to bring sophisticated and automotive-specific graphics functions to the car without increasing power consumption and BOM requirements. As the first 3D-capable Arm® Cortex®-R5 cluster MCU, Infineon's graphics engine provides greater memory savings, increased safety features, and rich image capabilities without the need for external video RAM. These, in turn, help manufacturers take advantage of lower overall system costs to proliferate the advanced driver experience previously reserved for luxury automotive brands. Infineon integrates its breakthrough HYPERBUS™ interface, enabling seamless connections with HYPERBUS™ memories, including Infineon HYPERFLASH™ and HYPERRAM™ memory, to provide customers with design simplification and faster performance in automotive systems.
The S6J31xx/S6J33xx series of the TRAVEO™ T1G family are for classic cluster applications, needles driven by stepper motors, with a basic LCD or expanding external TFT LCD panel by the LCD bus that is ideal for low-end to mid-end designs. In addition, it is a great companion MCU for high-end GPU-oriented applications. All features are common among the TRAVEO™ family - customers can easily scale up and down within the same family devices.
The TRAVEO™ S6J310x/S6J330x/S6J340x/S6J350x series of the TRAVEO™ T1G family incorporate the high-performance CAN FD interface for enhanced in-vehicle networking. The product series is focused on various automotive applications, including body control modules (BCM), heating, ventilation, and air conditioning (HVAC). In addition to the CAN FD interface operating at 5 Mbps, it also features Secure Hardware Extension (SHE) for network security and improved performance for connected cars as well as advanced partial wakeup to lower power consumption.
The TRAVEO™ MB9D560 series of the TRAVEO™ T1G family features dual Arm® Cortex®-R5 cores and operates at 200 MHz. This family of microcontrollers expands Cypress's portfolio to be utilized in hybrid electrical vehicles (HEV) and electrical vehicles (EV). The dual-core/dual motor control structure on a single chip allows simultaneous control of two motors (e.g., the motor and the generator of an electrical engine system). Both motor control modules have their own embedded interface circuits for resolver sensors and include unique hardware IP to accelerate motor control operations. The dual-core approach and several in-built diagnosis functions support the required level of functional safety.
Access to TRAVEO™ T2G Digital collaterals
Discover the future of marketing with our cutting-edge digital collaterals, seamlessly integrated into HTML for a streamlined, interactive experience. Our all-in-one solution ensures that all your marketing assets, from datasheets and user manuals to code examples and presentations, are easily accessible and beautifully displayed across any device.
Access to additional TRAVEO™ T2G technical documentation
Register to the myInfineon Collaboration Platform (myICP) and gain access to additional microcontroller information: Technical add-on documentation, training, tools, and much more. Follow these steps to get started:
- Sign up to myInfineon here.
- Send your access request to Traveo@infineon.com (with your company email address).
- You will receive a confirmation explaining how to use your new access.