AURIX™ 32-bit microcontrollers for automotive
and industrial applications
Highly integrated and performance optimized
Issue 2020
www.infineon.com/aurix
�Contents
TriCore™ family concept 3
AURIX™ for powertrain applications 36
Evolution of TriCore™ generations 4
AURIX™ for xEV applications 43
TriCore™ based product roadmap 5
AURIX™ for safety applications 48
AURIX™ product selector 6
AURIX™ for connectivity applications 61
PRO-SIL™ safety concept 7
AURIX™ for transportation applications 67
AURIX™ family housing options 8
AURIX™ for industrial applications 75
AURIX™ family system architecture 9
Tool partners 85
Peripheral highlights 14
AURIX™ security features 18
Embedded software (AUTOSAR etc.) 21
Development support 23
Multicore software development with AURIX™ 24
Kits and evaluation boards 25
Ease of use 29
AURIX™ solution finder 29
AURIX™ forum 30
Artificial intelligence in AURIX™ TC3xx 31
AURIX™ Development Studio 32
AURIX™ and XMC™ PDH partners 33
2
�Family highlights
› Compatibility and scalability
› Lowest system cost
› Industry benchmark system
performance
Powertrain
Applications
› Powertrain domain controller
› Gasoline direct injection
› Gasoline multi-port injection
xEV
Applications
› Battery management
› Off-board charging
› Charging station
Safety
Applications
› Chassis domain control
› Electric Power Steering (EPS)
› Active suspension control system
› Advanced airbag system
› Braking ECU
› Multi-purpose camera configuration
Connectivity
Applications
› Body domain controller
› Connected gateway
› Advanced body applications
› Pixel lighting
Transportation
Applications
› Commercial and
Agricultural Vehicle (CAV)
› Fun vehicle
› Transportation
Industrial &
Multimarket
Applications
› Mobile controller
› Inverter
› Wind turbine inverter
› Servo drives
› Easy to use
› Broad portfolio
› Certified to automotive standards
› Diesel direct injection
› Automatic transmission
› Transfer case/torque vectoring
› Inverter
› Low-voltage DC-DC
› High-voltage DC-DC
› Short-range radar (24/60 GHz) system
› Long-range radar (76/77 GHz) system
› LIDAR systems
› LED pixel lighting
› Sensor fusion
› eHorizon
› In-vehicle wireless charger
› Telematics
› V2x communication
› Trucks
› Drones
› Avionics
› Solar panel
› Robotics
› Medical
› Elevator
3
�Evolution of TriCore™ generations
In 1999, Infineon launched the first generation of the AUDO
(AUtomotive unifieD processOr) family. Based on a unified
RISC/MCU/DSP processor core, this 32-bit TriCore™ microcontroller was a computational power horse. And the company has evolved and optimized the concept ever since –
culminating in what is now the sixth TriCore™ generation.
AUDO
AUDO NG
(Next generation)
AUDO future
Thanks to its high real-time performance, embedded safety
and security features, the TriCore™ family is the ideal platform for a wide range of automotive applications. These
include powertrain engine management and transmission,
electric and hybrid vehicles, chassis domains, braking
systems, electric power steering systems, airbags, connectivity and advanced driver assistance systems to support the trend toward autonomous, clean and connected
cars. TriCore™-based products also deliver the versatility
required for the industrial, CAV and transportation sector,
excelling in optimized motor control applications and
signal processing. Infineon’s broad product portfolio
allows engineers to choose from a wide range of memories,
4
peripheral sets, frequencies, temperatures and packaging
options. And all this with a high degree of compatibility
across generations.
The TriCore™ success story continues with the AURIX™
TC2xx multicore family. AURIX™ combines easy-to-use
AUDO MAX
AURIX™
TC2xx
AURIX™
TC3xx
functional safety support, strong performance and a futureproven security solution in a highly scalable product family.
The next natural evolution in terms of performance is the
AURIX™ TC3xx, which is manufactured in 40 nm embedded
flash technology and designed for ultimate reliability in
harsh automotive environments. As before with AURIX™, the
dual frontend concept ensures continuous supply. An extensive ecosystem is available including the AUTOSAR libraries
which Infineon has been developing since 2005. Plus the
safety software is also available to help manufacturers meet
SIL/ASIL safety standards.
�TriCore™ based product roadmap
Production
Segment
AUDO family
90 nm
Development
AURIX™
TC2xx
AURIX™
TC3xx
65 nm
40 nm
TC39xXA
TC1798
6x 300 MHz, 16 MB
300 MHz, 4 MB
TC39xXX
TC29xTX
6x 300 MHz, 16 MB
TC29xTP
6x 300 MHz, 16 MB
3x 300 MHz, 8 MB
3x 300 MHz, 8 MB
TC39xXP
TC3E7Qx
High end
TC27xTP
3x 200 MHz, 4 MB
4x 300 MHz, 12 MB
TC38xQP
4x 300 MHz, 10 MB
TC1793
270 MHz, 4 MB
TC37xTX
3x 300 MHz, 6 MB
TC37xTP
TC1791
3x 300 MHz, 6 MB
240 MHz, 4 MB
TC3AxQA
3x 300 MHz, 4 MB
Mid range
TC26xD
2x 200 MHz, 2.5 MB
TC357TA
3x 300 MHz, 4 MB
TC1784
180 MHz, 2.5 MB
TC36xDP
TC1782
2x 300 MHz, 4 MB
180 MHz, 2.5 MB
TC1728
133 MHz, 1.5 MB
TC1724
80 MHz, 1.5 MB
Low end
TC23xLX
200 MHz, 2 MB
TC23xLP
200 MHz, 2 MB
TC33xDA
2x 200 MHz, 2 MB
TC33xLP
200 MHz, 2 MB
TC22xL
133 MHz, 1 MB
TC32x
160 MHz, 1 MB
TC21xL
133 MHz, 0.5 MB
Companion
chips
AURIX™ 1st generation
TLF35584
TLF35584
TLF30684
AURIX™ 2nd generation
5
�AURIX™ product selector
AURIX™ TC3xx family product naming system
Brand
Device
Primary
option
Secondary option
Temperature range
K -40 ... +125°C
L -40 ... +150°C
Package type
Frequency
Memory type
Memory size
Feature package
Core
architecture
Package
Series
Architecture
TriCore™
Temperature
range
Infineon
product
identifier
SA K – TC 3 7 5 T P – 96 F 3 0 0 W
Frequency
160 MHz
200 MHz
300 MHz
Series
9 series
8 series
7 series
6 series
3 series
2 series
E series
A series
Package class
9 516 – pin
8 233 – pin
7 292 – pin
6 180 – pin
5 176 – pin
4 144 – pin
3 100 – pin
2 80 – pin
0 Bare die
Core architecture
X Hexa core
Q Quad core
T Triple core
D Dual core
L Single core
Feature package
A ADAS extended memory
E Emulation device
F Extended flash
G Additional connectivity
H ADAS standard feature
M MotionWise software
P Standard feature
T ADAS + emulation
X Extended feature
C, V, Z Customer specific
Flash size code
16 1 MB
32 2 MB
64 4 MB
96 6 MB
128 8 MB
160 10 MB
192 12 MB
256 16 MB
Package type code
W LQFP 0.5 mm pitch
F TQFP 0.4 mm pitch
S LFBGA 0.8 mm pitch
No letter for bare die
AURIX™ TC2xx family product naming system
Primary
option
Temperature range
K -40 ... +125°C
L -40 ... +150°C
Series
9 series
8 series
7 series
6 series
3 series
2 series
E series
A series
6
Package type
Frequency
– 64 F 20 0 N
Feature package
Core
architecture
Package
Series
Architecture
TriCore™
Temperature
range
Infineon
product
identifier
SA K – TC 2 7 5 T
Secondary option
Memory type
Device
Memory size
Brand
Frequency
160 MHz
200 MHz
300 MHz
Package class
9 516 – pin
8 416 – pin
7 292 – pin
5 176 – pin
4 144 – pin
3 100 – pin
2 80 – pin
0 Bare die
Core architecture
T Triple core
D Dual core
S Single core
L Single core with
lockstep
Feature package
– Production device, no HSM
A ADAS enhanced, HSM enabled
E Emulation device, no HSM
F Emulation device, HSM enabled
P Production device, HSM enabled
X Extended feature, HSM enabled
C Customer specific
Flash size code
8
0.5 MB
16 1 MB
24 1.5 MB
32 2 MB
40 2.5 MB
64 4 MB
96 6 MB
128 8 MB
Package type code
N CAN FD ISO frame
W LQFP 0.5 mm pitch
F TQFP 0.4 mm pitch
L BGA 1.0 mm pitch
S LFBGA 0.8 mm pitch
Q Fusion Quad QFP
0.5 mm pitch
�Infineon PRO-SIL™
The functional complexity and levels of integration of realtime, safety-critical applications continue to increase.
Safety standards such as IEC 61508 and ISO 26262, mandate more robust products and functional safety concepts
in automotive and industrial applications.
Infineon’s PRO-SIL™ trademark designates the Infineon
products that contain SIL-supporting (Safety Integrity
Level) features. The purpose of SIL-supporting features
involves assisting the overall system design in attaining
the desired SIL (according to IEC 61508) or ASIL (according
to ISO 26262) level for safety systems with high efficiency.
Products with the PRO-SIL™ label will help you to select
Infineon products.
PRO-SIL™ highlights
› Broad hardware portfolio, including sensors and micro-
controllers, along with analog and power management
ICs that provide SIL-supporting features
› An independent functional safety management organization supports the ISO 26262 safety lifecycle
› Safety documentation, such as a safety manual and safety
analysis summary report, can be made available for dedicated PRO-SIL™ products (NDA may be required)
Safety hardware
features
› Infineon offers expert system integrator support for
achieving the required ASIL on system level
› Infineon’s PRO-SIL™ logo will guide you to our products
(hardware, software, safety documentation) with
SIL-supporting features. Infineon’s activities result in
simplified integration in safety-related applications.
Safety
software
(optional)
Safety
documentation
+
+
Safety-focused
organization and project management
Infineon quality management system
Zero Defect culture
www.infineon.com/prosil
7
�AURIX™ family housing options
Package information for maximum scalability
BGA-416
LFBGA-292
27
0.8
1.27
23
0.8
17
1
17
27
25
0.8
25
BGA -233
23
LFBGA-516
0.8
1
BGA-180
1.27
LQFP-176
LQFP-144
26
22
22
0.8
0.5
0.5
26
12
0.8
12
0.5
0.5
TQFP-144
TQFP-100
18
TQFP-80
14
0.4
0.4
0.4
18
14
12
12
0.4
0.4
0.4
TriCore™ upgrade paths
LFBGA-516
LFBGA-292
BGA scalability
25 x 25 mm
17 x 17 mm
› LFBGA-292 and LFBGA-516 are ball compatible so that customers can build one PCB for both packages
8
www.infineon.com/packages
�AURIX™ TC2xx family system architecture
Powerful 1st generation AURIX™ TC2xx system architecture
AURIX™ is Infineon’s current family of microcontrollers
that serve the precise needs of the automotive industry in
terms of performance and safety. Its innovative multicore
architecture, based on up to three independent 32-bit
TriCore™ CPUs, has been designed to meet the highest
safety standards, while simultaneously increasing performance significantly.
Customers wanting to reduce their time-to-market
can now cut down their MCU safety development by 30%.
By the same token, a performance surplus of 50% up to
100% allows for more functionality and offers a sufficient
resource buffer for future requirements, keeping the power
consumption on the single-core microcontroller level.
While protecting IP, and preventing theft and fraud, AURIX™
provides an already built-in hardware security module.
Using the AURIX™ platform, automotive developers will
be able to control powertrain and safety applications with
one single MCU platform. Developments using AURIX™
will require less effort to achieve the ASIL-D standard than
Thanks to its special feature set, AURIX™ is the perfect
match for powertrain applications (including hybrid and
electrical vehicles) as well as safety applications (such as
steering, braking, airbag and advanced driver assistance
systems).
with a classical lockstep architecture.
FPU
PMI
PMU
LMU
DMI
overlay
TriCore™
1.6P
Data flash
BROM
key flash
RAM
Progr.
flash
Progr.
flash
SRI cross bar
Diverse
lockstep core
Diverse
lockstep core
FPU
PMI
DMI
overlay
TriCore™
1.6P
PMI
FPU
TriCore™
1.6E
Bridge
DMI
stand-by
overlay
SDMA
System peripheral bus
System peripheral bus
PLL &
PLL ERAY
HSSL
BCU
SCU
STM
HSM
DS-ADCx
ADCx
IOM
FCE
I2C
PSI5
SENT
EVR
QSPIx
GPT12x
ASCLINx
CCU6x
Ports
MSCx
MultiCAN+
FlexRay
Ethernet
GTM
OCDS
5 or 3.3 V
single supply
9
�AURIX™ TC2xx family system architecture
AURIX™ TC2xx family package scalability
9x Series
up to 8 MB
TC297
300 MHz
7x Series
up to 4 MB
6x Series
up to 2.5 MB
TC264
200 MHz
3x Series
up to 2 MB
TC233
200 MHz
TC234
200 MHz
2x Series
up to 1 MB
TC222
133 MHz
TC223
133 MHz
TC224
133 MHz
1x Series
up to 512 KB
TC212
133 MHz
TC213
133 MHz
TC214
133 MHz
TQFP-80
TQFP-100
TQFP-144
LQFP-144
Flash
Package
TC275
200 MHz
TC277
200 MHz
TC265
200 MHz
TC267
200 MHz
TC299
300 MHz
BGA-416
LFBGA-516
TC237
200 MHz
LQFP-176
LFBGA-292
Upgrade/downgrade with pin-compatible packages
› The LFBGA-516 package is a superset of the LFBGA-292
› Combination PCBs can be designed for I/O and feature upgrades
› Advanced package technologies deliver the best price/performance ratio
› Customers can choose between different devices in the same pin-compatible package
10
TC298
300 MHz
�Evolution from TC2xx to TC3xx – easy migration with focus on reuse
› Fast conversion of existing AURIX™ TC2xx designs
– Backwards compatibility
– High AURIX™ family compatibility to pinout of existing QFP-100/144/176 and BGA packages
› Flexibility – scalability within the AURIX™ family
– Up-/downgrade paths for devices in identical packages
– Compatible pin-out of QFP/BGA package options enabling combi designs
› High pin to pin compability between the AURIX™ TC2xx/TC3xx generation
› A high scalability with a very large portfolio for both AURIX™ TC2xx & TC3xx.
AURIX™ TC3xx provides an upgrade on key parameters with focus on SW & HW reuse
Performance increase & reduction of power
Increased from 3 to 6 cores
Developed in 40 nm for power consumption reduction
Scalable & backwards compatible to TC2xx
Fully compatible devices with focus on HW & SW reuse
Functional safety
ISO 26262 compliant enabling ASIL-D level
Enhanced security
Upgraded to Full EVITA support
Improved networking
Richer peripheral set
SOTA
Full support of SOTA A/B swap
11
�AURIX™ TC3xx family system architecture
Scalable 2nd generation AURIX™ TC3xx system architecture
The latest AURIX™ TC3xx microcontrollers are also well-suited
for safety-critical applications to support clean, autonomous
and connected cars. Ranging from classic airbag, braking and
power steering to fail-operational systems supported by sensor-based systems using radar, LIDAR or camera technologies.
The AURIX™ TC3xx combines performance with a powerful
safety architecture and offers enhanced security with the
second-generation HSM with asymmetric cryptography
accelerators and Full EVITA support. This combination
makes the family the ideal fit for domain control and data
fusion applications supporting the next levels of autonomous driving.
The implemented connectivity features, in combination
with the highest level of security, enable connected cars
with applications such as a telematics unit, connected gateway or in-vehicle wireless charging for portable devices.
The AURIX™ TC3xx family is pin compatible with the AURIX™
TC2xx family and offers increased flash memory sizes of
up to 16 MByte, over 6 MByte of integrated RAM and up to
six TriCore™ 1.62 embedded cores, each with a full clock
frequency of 300 MHz. New features include a new radar
processing sub-system with up to two dedicated Signal
Processing Units (SPU), Gigabit Ethernet, additional CAN FD
and LIN interfaces and an eMMC interface for external flash.
To make the car clean, the new family is well-suited to new
systems in electrical and hybrid drives – specifically hybrid
domain control, inverter control, battery management,
on-board charger and DC-DC converters, in addition to
engine management and transmission control systems.
AURIX™ TC3xx – scalable family – from low-cost to high-performance applications
IO pads
all 5 V/3.3 V
FPU
PSPR, PCACHE
DSPR, DCACHE
Safety
› LBIST
› MBIST upgrade
CPU5
CPU4
CPU2
CPU1
TC 1.6P
CPU0
CPU3
Checker core
Checker core
Checker core
Checker core
SPU
RIF
CIF
Performance
› New TriCore™ 162 generation
› New instructions
› Up to 6 CPUs at 300 MHz
› New direct flash access path
HSM: Full EVITA compliance
› New accelerators ECC256/SHA256
› Available on all devices
ADAS
› LVDS IF
› Signal processing unit
SPU
RIF
ADC
Dflash
Pflash
0…5
LMU
Large
MEM
DAM
Mini
MCDS
› Improvement of existing ADC
› Reduction of capacitive load
Delta-sigma
› Enhanced concept
Memories
ETH
MAC
HSSL
HSCT
› Larger SRAM
› SRAM/flash ratio increased
› Enhanced MPU
› A/B swap support
SENT
PSI5S
PSI5
I2C
Stand-by control unit
› Low-power modes
ASC LIN
CAN FD
ERAY
STM
GPT
CCU6
GTM
EDS ADC
FCOMP
Secondary ADC
Primary ADC
SFI
bridge
System
peripheral
bus
EVADC
12
DMA
QSPI/I2S (emulation)
eMMC/SDIO
StdBy ctrl
HSM
FCE
MSC
HSDPM
SCU
IOM
Port
System resource interconnect
Ethernet
› 1 Gbit/s ETH
› QoS services
› Remote DMA
eMMC/SDIO
› External NAND flash IF
�AURIX™ TC3xx package scalability
6x
300 MHz
9xA Series
16 MB
6x
300 MHz
9x Series
16 MB
4x
300 MHz
Ex Series
12 MB
TC3E7Qx
300 MHz
4x
300 MHz
8x Series
10 MB
TC387Q
300 MHz
3x
300 MHz
7xX Series
6 MB
TC377TX
300 MHz
3x
300 MHz
7x Series
6 MB
2x
300 MHz
6x Series
4 MB
4x
300 MHz
Ax Series
4 MB
3x
300 MHz
5xA Series
4 MB
TC356TA
300 MHz
TC357TA
300 MHz
2x
300 MHz
3xA Series
2 MB
TC336DA
300 MHz
TC337DA
300 MHz
1x
300 MHz
3x Series
2 MB
TC332L
300 MHz
TC333L
300 MHz
TC334L
300 MHz
TC336L
300 MHz
TC337L
300 MHz
1x
160 MHz
2x Series
1 MB
TC322L
160 MHz
TC323L
160 MHz
TC324L
160 MHz
TQFP-80
TQFP-100
LQFP-144
TQFP-144
Flash
Package
TC397XA
300 MHz
Control and Actuate
Sense and Compute
TC364D
300 MHz
TC397X
300 MHz
TC366D
300 MHz
TC375T
300 MHz
TC377T
300 MHz
TC365D
300 MHz
TC367D
300 MHz
TC3A8Q
300 MHz
TC399X
300 MHz
TC389Q
300 MHz
TC3A7Q
300 MHz
TC327L
160 MHz
BGA-180
LQFP-176
BGA-233
LFBGA-292 LFBGA-516
› Advanced package technologies deliver the best price/performance ratio
› Customers can choose between different devices in the same pin-compatible package
MCU scalability
Safety/security concept
› Performance and flash
› Pin compatibility
› Binary-compatible cores
› ISO 26262 compliance
› Hardware security support Full EVITA
› IEC 61508 compliant
AURIX™ TC3xx
Power consumption
› On-chip SC DC-DC high-efficiency power supply
› Integrated stand-by controller
Connectivity
› Ethernet: up to 2x 1 GB
› CAN FD: up to 20 channels
› LIN: up to 24 channels
› eMMC IF
13
�Peripheral highlights
Multi-AUTOSAR OS support on one microcontroller
› AURIX™ provides a memory protection system for each
core plus an additional distributed hardware-based
resource management system
› Each peripheral and shared SRAM has a resource
management unit that works as a local access protection
mechanism to grant or deny access
› When combined with the memory protection system, this
hardware can be used to prevent selected direct access
from certain tasks or cores to peripherals or regions of
SRAMs and instead redirect the attempted access to a
hypervisor function
Safety
agent
› The hypervisor can arbitrate/grant/deny access and
therefore provide paravirtualization of mixed-criticality
tasks in a unified sub-system architecture with a minimal
CPU overhead
› AURIX™ therefore provides the ability to run mixed-criticality software requiring real-time access while still
enforcing encapsulation and freedom of interference
between cores, even when the cores are not running time
and memory-protected operating systems
APP
...
APP
... ...
Safety monitor
AUTOSAR
Hypervisor
Supervisor/user
AURIX™
AURIX™ protection system overview
› Hardware support for freedom of interference
– Between software components
– Between hardware parts
– Between hardware parts and software components
› Timing protection
APP
APP
AUTOSAR
core 0
APP
APP
AUTOSAR
core 1
Hypervisor
Hardware
14
APP
APP
AUTOSAR
core 2
�Infineon® diverse lockstep concept
› Lockstep architecture designed to control and mitigate
common cause factors
– Physical isolation
– Instruction-level execution diversity: 2-cycle delay
– Circuit-level design and timing diversity
› Layout-level diversity
› Diversity controlled and verified by state‑of‑the‑art
design methods
› Special design of clock and reset networks
› Careful design of lockstep comparator
› Main core and diverse lockstep core run the same software
in parallel to detect computational errors
› Like normal locksteps, both cores are physically separated
and have a time delay between their execution
› Diverse lockstep core has been additionally transformed
to provide architectural hardware diversity and further
reduce common cause failures
BUS
Main core
Delay
Delay
Delay
Delay
Lockstep
core
Lockstep CPU
Compare
BUS
Error
Lockstep
AURIX™ family communication innovation
AURIX™ Multi-CAN/CAN FD
› Up to 20 CAN nodes with FD support available
› CAN standard V2.0 B active
› AURIX™ family support ISO 11898-1 DIS 2015
› Resonator ready with asynchronous operation and
choice of clock source
› Frequency scaling without baud rate change
› Energy saving: pretended networking and partial
networking (ISO 11898-6 transceiver support)
support (also in CAN FD mode)
› Safety support: countable total amount of bus errors
› Message objects can be freely assigned among the nodes
› Configurable FIFO length, automatic gateway
mode support
› Acceptance mask filtering for each message object
AURIX™
ISO 11898-6 transceiver
support
15
�Peripheral highlights
AURIX™ Ethernet module
Key highlight features
AURIX™ TC3xx
TriCore™ x
TriCore™ 3
Ethernet MAC filter
› MAC/VLAN/protocol filter for fast frame processing
TriCore™ 2
TriCore™ 1
QoS
› 8 queues/DMAs for frame separation
› 4 transmit/4 receive
› IEEE 802.1AS (for IEEE 1588-2008)
› Shapers for bandwidth control
– 802.1 credit-based shaper
– Time-aware shaper
CPU
RAM
RAM
Data
Data
CPU
Status
Control
Status
Control
SRI crossbar
DMAs
Filter
Freedom from interference
› DMA operation → separated by hardware
› No impact of queue operation on other queues, DMAs etc.
› Independent control of each queue
› Status/control in RAM → fast direct stack access
Shaper
Queues
Interfaces
› MII/RMII for 100 MBaud
› RGMII for 1 GBaud
Queues
DMAs
Ethernet QoS MAC
xMII
100/1000 Mbps
“Remote DMA” – fast data copy – RAM to RAM
› Data transfer by DMA with no CPU required for transfer
› Transfers triggered by hardware or by software
› Transfers are hardware protected (in AURIX™)
› Full-duplex transfers, low latency mode
› All Ethernet standards and conformance tests are valid
SOME/IP
DoIP
“AVB”
IEEE 1722
IEEE 802.1Q control
TCP/UDP
IEEE 802.1AS
IPv4/IPv6
Precision
Time Protocol
(PTP)
IEEE 802.1Qav
IEEE 802.1Qbv
prelim.
Credit-based
shaper
Time-based
shaper
Clock sync, time stamp
Protocol filter
VLAN filter
MAC filter
16
Software implementation, “Stacks”
Hardware implementation,
available in AURIX™ TC3xx
�AURIX™ TC3xx stand-by controller
Low power consumption, higher energy efficiency, easy implementation
AURIX™ TC3xx MCU
8-bit MCU
Stand-by
domain
Performance domain
2 K boot ROM
320 Byte RAM
T0 and T1
UART
8 K XRAM
+ arbiter
CAN FD
wake-up filter
SCU
SSC
WDG
T2 CCU
WTC
JTAG/DAP
Features and benefits
› Feature available across whole AURIX™ TC3xx family
› Integrated 8-bit MCU (ISO 26262 QM module)
› Stand-alone operation
– Separate power supply at core and IOs
– Separate clock
– Separate GPIOs
› Standard tooling support enabling fast design-in
› Real-time clock for periodic wake-up
› Flexible choice of peripherals: LIN/SPI
› Shared I/O with performance domain
› Extremely low current consumption ~ µA range
Port 34
8-bit MCU
70 kHz – 20 MHz
Port 33
Internal bus
Stand-by
controller
4 channel
8-bit ADC
Application recommendation
› Enhanced availability: continue a limited set of functions
while the main CPUs are rebooting after a reset
(typ. watchdog reset)
› Steering and braking comfort: temporary torque supply
during main MCU
› Stand-by operation: extremely low-power operation while
the vehicle is parked
› (H)EV battery management: monitor the battery’s state-ofheath and charge over a long parking period, e.g. vacation
› Keyless-go: trigger main MCU for key communication
› Fuel leakage supervision: on-board diagnostics and monitoring of tank pressure, e.g. while parked
eMMC/SDIO interface on
DMA and
interrupt
control
FIFO
buffer
Data
control unit
Clock
generation
Module
control and
registers
CMD
Command
control unit
Clock
control
IO port
Bus interface
Use cases
› External serial NAND-flash
› Wi-Fi modems
› Camera modules
Protocol unit
Peripheral bus
2 standard protocols supported
› SDIO 2.0
– 6 pins: 4 data, CLK, CMD
– 3.3 V, 50 MHz max. clock
› eMMC
– 10 pins: 8 data, CLK, CMD
– 3.3 V, 20 MHz
D0-7
CLK
17
�AURIX™ security features
AURIX™ security hardware
Infineon’s AURIX™ 32-bit microcontroller family, with its embedded Hardware Security Module (HSM), is a perfect fit for automotive applications where secure on-board communication is
required. Infineon not only offers a scalable portfolio of compatible AURIX™ devices with integrated HSM, but also the necessary
software packages and support services. Furthermore, a bestin-class solution for automotive security can be achieved by
combining AURIX™ microcontrollers with an Infineon embedded
SIM (eSIM) and Infineon tamper-proof secure elements (TPM).
AURIX™ Hardware Security Module (HSM)
HSM provides a secure computing platform, consisting of a
32-bit CPU, special access-protected memory for storing the
cryptographic keys and unique subscriber identifiers and
dedicated hardware accelerators for the various automotive
security use cases. A firewall separates HSM from the rest of
the AURIX™ microcontroller.
The AURIX™ hardware security module offers a highly
flexible and programmable solution based on:
› Crypto and algorithm agility via software to support customer-specific solutions powered by a 32-bits CPU
› AIS31-compliant True Random Number Generator (TRNG)
with high random entropy over lifetime
› State-of-the-art AES-128 hardware accelerator matching
performance for automotive protocols
› State-of-the-art PKC ECC 256 hardware accelerator for
asymmetric encryption (only 2nd generation AURIX™ HSM)
› State-of-the-art HASH SHA2-256 hardware accelerator for
hashing (only 2nd generation AURIX™ HSM)
› Secured key storage provided by a separated HSM-SFLASH
portion. Alternative secure key storage feasible in dedicated HSM-PFLASH sections.
Customer benefits
› Secured platform – HSM provides a secured platform,
separated from the rest of the microcontroller by a firewall, thereby creating a trusted execution environment.
› Security standard compliance – AURIX™ HSM fulfills SHE
HIS and EVITA Medium standards, while the 2nd generation AURIX™ HSM supports up to Full EVITA. In addition to
fulfilling the aforementioned standards, HSM generations
provide additional functionalities.
› Backward compatibility – AURIX™ security solutions are
backward compatible with the security SHE HIS implementations in previous TriCore™ based microcontroller
families. Furthermore, the 2nd generation AURIX™ HSM is
backward compatible with the 1st generation HSM.
› Security differentiation – customized secure OEM or
tier1 crypto apps can be processed within a trusted HSM
execution environment, therefore allowing an independent HSM-specific software code review with reference to
the huge application host software from multiple parties.
This helps to harden the security level by reliably avoiding
potential security backdoors.
› Convergence of security and safety – AURIX™ microcontrollers address both functional safety as well as
IT-security requirements, making sure they are properly
integrated and don’t conflict with one another.
› Secured failure analysis – AURIX™ HSM offers a 256-bit
password for debugger access protection to prevent
unauthorized access to the debugging resources.
Typical use cases
› Secured boot
› Secured on-board communication
› Software Over the Air (SOTA) updates
› IP and tuning protection
› Diagnostics via OBD/protected FAR flow/debug protection
› Immobilizer
Download our new whitepaper and learn how to increase security in automotive ECU using Infineon’s microcontroller AURIX™
https://www.infineon.com/car-security-whitepaper
18
www.infineon.com/aurix-security-solutions
�AURIX™ security hardware
AURIX™ hardware security module – anchor of trust thanks to separated logical protection domain
Trusted execution environment
Flash
HSM
HSM domain
TriCore™ 0
TriCore™ 1
32-bit CPU
SRAM
Bridge
Firewall
SRAM
Boot
ROM
Peripherals
Peripherals
AES-128
PKC
ECC 256
HASH
SHA 2
Peripherals
TRNG
Timers and
watchdog
Full EVITA
On-board COM
External COM
HSM domain creates a trusted execution environment
› 32-bit ARM® MCU separated by security firewall
› Background integrity checks of host application
www.infineon.com/aurix-security-solutions
Root of trust functions
› Integrity monitoring
– Secure boot, on-the-fly checks
› Secure key storage
– Protected data and program flash
› Strong key generation
– AIS31-compliant True Random Number Generator (TRNG)
› Crypto accelerators
– Symmetric: hardware AES-128
– Asymmetric: hardware ECC-256, SHA-2
19
�AURIX™ security features
Infineon’s AURIX™ 32-bit microcontroller family offers a wide
portfolio of compatible devices with an embedded Hardware
Security Module (HSM), which offers cost-efficient solutions for
all typical automotive security applications. The SHE+ driver
controls the hardware security peripheral in the HSM domain
and interacts with the TriCore™ host core. SHE+ comes with
the AUTOSAR CRY interface for integrating the HSM security
features into an automotive application, including interface
to AUTOSAR, communication from TriCore™ to HSM and vice
versa, key storage functionality and security peripheral drivers.
SHE HIS
HSM SHE+ TC2xx
TC3xx crypto driver
via partners
10 keys
20 keys
Configurable
Symmetric
data encryption/decryption
hardware-based AES-128-bit
(ECB, CBC)
l
l
MAC generation/verification
Optional
l
l
–
l
l
SHE PRNG
l
l
Secure boot
Optional
l
l
Debug access
–
Enhanced by HSM debug options
Enhanced by HSM debug options
Other SHE services
l
l
l
Asymmetric encryption/decryption
–
–
software-based RSA1024
software-based ECC256
Tuning protection
Immobilizer
Key management
Safe MAC verification
Random number management
Typical applications
Possible extensions, depending on
specific tier 1/OEM use case
Secure-on-board communication
Key management
l
l
l
Symmetric
data encryption/decryption
l
l
l
MAC generation/verification
l
l
l
(optional)
(optional)
l
l
l
Secure boot
(optional)
(optional)
(optional)
Debug access
(for development)
(for development)
(for development)
Other SHE services
l
l
l
Asymmetric encryption/decryption
l
l
l
Safe MAC verification
Random number management
20
www.infineon.com/aurix-security-solutions
�Embedded software
Infineon software product overview
Tools
Modeling
tools
Libraries
Configuration
tools
Microcontroller
abstraction drivers
Applications driver
Safety driver
System software
(services, OS, communication,
memory manager etc.)
Security driver
Application software
HW
Operation software
Appl. software
Software
Hardware
Focus areas
› Microcontroller abstract drivers
Via 3rd parties
– AUTOSAR MCAL (includes Multicore support)
› Safety drivers
– PRO-SIL™ SafeTcore (AUDO MAX)
– PRO-SIL™ SafeTlib (AURIX™ TC2xx)
– PRO-SIL™ SBST Software-Based Self-Test
(AURIX™ TC3xx)
– Safety libraries for AURIX™ TC3xx via software partners
› Security software
– SHE+ driver (AURIX™ TC2xx)
– AUTOSAR crypto driver (AURIX™ TC3xx) via
software partners
– Intrusion Detection Prevention Systems (IDPS) via
software partners
System
software
›
– AUTOSAR BSW via software partners
– RTOS, communication stacks, etc. for industrial
applications via software partners
› Libraries
– DSP library
– iLLD low-level peripheral drives
– Libraries via software partners
(e.g. LAPACK math library)
› Free TriCore™ tools
– Free TriCore™ entry tool chain
– Altium free tools for TriCore™/AURIX™
– Free TASKING VX-toolset for AURIX™
– Free TASKING Pin Mapper for AURIX™
– Infineon tools
– MemTool
– DAS tool interface
– AURIX™ Development Studio
Note: List of all SW and tool partner can be find on page 86.
Standardized driver
Compatibility and reduced
time-to-market
Qualified release
Compliant with CMM L3,
lower development cost
Free evaluation version
From sales contact
Documented product release
Easy to use
MC-ISAR
Efficient implementation
Lowest resource consumption
Application independence
From chassis through body
to powertrain
21
�Embedded software
Infineon AUTOSAR MCAL drivers
MC-ISAR TC2xx/TC3xx product overview
Device
AURIX™ TC2xx
AURIX™ TC3xx
Safety claim at product
release
AUTOSAR version
4.0.3
4.2.2/4.4.0
TC3xx
› MCU
› WDG
› GPT
› SPI
› Port
› DIO
› ICU
› PWM
› ADC
› CAN
› CanTrcv
› LIN
› FLS
› FEE
› BFX
› CRC
› MCU
› WDG
› GPT
› SPI
› Port
› DIO
› ICU (supporting GTM → new CCU6 and
› ASIL-B functionality claim
MCAL drivers
MC-ISAR Basic
package
MC-ISA COM
enchanced
package
› FlexRay (not for TC22x, 1x)
› Ethernet (for ASRv4 only,
MCISAR MCD
MCAL complex
drivers
› UART, MSC (not for TC23x,
not for TC23x, 2x, 1x)
GPT12)
› PWM (supporting GTM → new CCU6)
› ADC
› CAN
› CanTrcv
› LIN
› FLS
› FEE
› OCU (not for all devices)
› BFX
› CRC
› FlexRay
› Ethernet
› ASIL-D process to ensure
freedom from interference
in memory space
› CD: new production release DS-ADC, SMU
› CD: DMA, FLSloader, UART, SMU, DS-ADC
› ASIL-B functionality claim
› Demo code only for: HSSL
› DEMOCD (demo code/App note – not
› No safety claim
Configuration tool
Tresos
Tresos
Compiler
› TASKING
› Windriver Diab
› HighTec GNU
› Migrate to TASKING
› HighTec GNU
› Windriver
› Greenhills for AUTOSAR 4.2.2 on request
Delivery package
Source code, documentation
Source code, documentation
2x, 1x), DMA, FLSloader
(not for all devices)
(not for TC23x, 2x, 1x),
SENT, I²C (not for TC23x,
2x, 1x), STM, DS-AC (not for
TC23x, 2x, 1x), SMU, IOM
22
– Except for CAN, CabTrcv,
LIN
ASIL-D
process to ensure
›
freedom from interference
in memory space
released for production): HSSL, SENT, I²C,
IOM, STM, IRQ
– Except for CAN, CabTrcv,
LIN
› ASIL-D process to ensure
freedom from interference
in memory space
�Development support
Emulation device
› Emulation Devices (ED) are a very powerful solution
for calibration, measurement, rapid prototyping and
debugging
› Emulation logic and RAM are added next to the
unchanged Production Device (PD) part on the same chip
› Cost-optimized PD, feature-rich ED
› Same package for ED and PD, and a minimum or no
additional external circuitry, allow a highly cost-optimized ECU design
› Proven solution with broad tool support from leading
automotive and debug tool vendors
AURIX™ highlights
› Up to 4 MByte RAM for calibration with the same access
speed as on-chip flash
› Automotive measurement bandwidth (XCP) 15/30 MByte/s
via regular 2/3-pin DAP interface
Trace and measurement
Multicore Debug Solution (MCDS)
Contemporary vehicles are designed to meet rising market
demands for engine performance, engine responsiveness,
torque, drivability, fuel economy and emissions.
Infineon’s proven Multicore Debug Solution (MCDS) enables
manufacturers to design and optimize features to support
these automotive trends. Unique MCDS features include
the fully time-aligned parallel trace of many different
on-chip sources, along with its highly powerful trigger
capabilities.
Key features
› Tracing of CPUs, buses, performance events and
peripheral internal states
› Real time, cycle accurate and in parallel
› Up to 1 MByte on-chip trace RAM (40 Gbit/s bandwidth)
› Very powerful trigger capabilities
› No additional pins needed besides the DAP interface
› New Compact Function Trace (CFT) mode for continuous
program trace via DAP
› New fine-grained data trace qualification for automotive
measurement
23
�Multicore software development with AURIX™
The right partner for each development stage
Due to increasing performance demands in the automotive
industry, multicore architectures are becoming ever more
popular. The AURIX™ microcontroller family offers all the
benefits of real-time hardware while supporting a multicore architecture capable of both asymmetrical and symmetrical multi-processing, and enabling the creation of
ASIL-D systems for automotive applications.
Despite the fact that multicore architectures provide
performance benefits, they also result in challenges with
regard to software (SW) development. At Infineon, we
fully understand the increasing performance demands
across multiple applications, as well as the challenges that
customers face when designing multicore software. To
enable customers to achieve optimal performance when
using the powerful AURIX™ architecture, Infineon has built
up a network of strong partnerships with companies highly
Multicore
know-how
Multicore
SW design
Multicore SW
development
MCAL Multicore
support
Multicore
performance
evaluation
Multicore SW
optimization
24
specialized in multicore software development. Infineon’s
multicore partners can offer the best multicore expertise
and tools on the market for each stage of the software
design process, covering everything from the initial multicore knowledge acquisition phase right up to final optimization of the multicore software.
Infineon proactively addresses the challenges of multicore
software development by offering special AURIX™ –
dedicated literature and training for multicore software
development. Furthermore, Infineon also participates
in the organization of dedicated conferences, such as
the EMCC (Embedded Multi-Core Conference)
http://www.multicore-conference.com where various
car manufacturers and suppliers share their experiences,
challenges and latest findings from the field of multicore
architecture.
�Kits and evaluation boards
AURIX™ TC2xx – starter kits
AURIX™ TriBoards kits
› Full evaluation board for development to write
and debug your 1st programs
› Includes getting started advice, free TriCore™
entry tool chain, technical documentation,
compiler and debugger
› TriBoard available for every silicon
AURIX™ TFT kits
› Low cost board for early evaluation with limited
access to signals
› Additional touchscreen display for
convenient handling
› TFT board available for every silicon
› Click on the following to find/purchase the kit:
www.infineon.com/aurix-kits
Arduino ShieldBuddy kit
› The Hitex TC275 ShieldBuddy follows the Arduino standard
› Compatible with 100’s of Arduino application shields
› Evaluation licenses available
› Ideal for getting started on a high-end real time embedded industrial
or automotive application as well as students and hobbyists
AURIX™ lite kit
› AURIX™ TC275 device in LQFP-176 package
› FTDI based debugger with micro USB
NEW
› Use of Arduino Uno/compatible platform
› Coming soon
25
�Kits and evaluation boards
AURIX™ TC2xx – application kits
Motor control
KIT_AURIX_TC234_MOTORCTR
› TC234 application kit with TFT display incl. safety
supply TLF35584
› Driving of a 3-phase PMSM/BLCD (12 V/max. 50 W)
› Click on the following to find/purchase the kit:
www.infineon.com/cms/en/product/
evaluation-boards/kit_aurix_tc234_motorctr/
› BLDC motor from Nanotec integrated
› Software available with flexible configuration
24 GHz radar
KIT_ATV_24GHZ_RADAR
› Range-Doppler radar system with two Rx antennas
and one Tx antenna based on AURIX™ TC264DA and
BGT24ATR12
› Click on the following to find/purchase the kit:
www.infineon.com/cms/en/product/
evaluation-boards/kit_atv_24ghz_radar/
Wireless charging
KIT_AURIX_TC21_SC
› Supports all fast charge smartphones
› Unique power drive architecture minimizes EMI
› Improved accuracy Foreign Object Detection (FOD)
› Click on the following to find/purchase the kit:
www.infineon.com/cms/en/product/
evaluation-boards/kit_aurix_tc21_sc/
26
› Allows implementation and testing of
24 GHz radar applications as
Doppler movement detectors, FSK or
FMCW range/position measurement
�Kits and evaluation boards
AURIX™ TC3xx – starter kits
AURIX™ 2G standard TriBoard
› Full evaluation board for development to write and
debug your 1 programs
› Includes getting started advice, free TriCore™
entry tool Chain, technical documentation,
compiler and debugger.
st
AURIX™ 2G TFT application kit
› Low cost board for early evaluation with limited
access to signals
› Additional touchscreen display for
convenient handling
› Available for standard and ADAS pinout’s for
selected devices
› TriBoard available for all productive silicon
(TC38x, TC39x)
› Standard TriBoard availability
› TriBoard available for all productive silicon
(TC38x, TC39x)
› Basic application kit TFT availability
Arduino ShieldBuddy kit
› The Hitex TC375 ShieldBuddy follows
NEW
AURIX™ lite kit
› AURIX™ TC375 device in LQFP-176 package
› FTDI based debugger with micro USB
› Coming soon
NEW
the Arduino standard
› Compatible with 100’s of Arduino application shields
› Evaluation licenses available
› Launched at embedded world
27
�Kits and evaluation boards
AURIX™ TC3xx – application kits
NEW
New hybrid kit for inverter applications
› IFX system offering: such as power modules,
gate drivers, current and position sensors to develop
inverter systems
Gateway 24 V board for CAV, bus, truck
› Includes AURIX™ TC397 x2 with & automotive Ethernet
switch Realtek RTL9047AA switch available for standard
and ADAS pinout’s
› Click on the following to find/purchase the kit:
www.infineon.com/24Vgatewayboard
Automotive secure gateway 12 V
› Includes AURIX™ TC377TX with & automotive Ethernet
switch Marvell 88Q5050
› Click on the following to find/purchase the kit:
www.infineon.com/12Vgatewayboard
Motor control board TC3xx
› Based on TC397
› Software FOC (Field Oriented Control) algorithm:
encoder as position sensor (GPT12)
› 3-phase current sensing (EVADC), PWM generation
(GTM), communication with drive board (QSPI)
commands via TFT display (QSPI)
28
› Software to start development of inverter for
3-phase motors
› AURIX™ 2G hardware optimized logic board for testing
different hybrid kits for inverter applications
› Rich connectivity: connect up to:
NEW
1000Base-TI, 100Base-T1 x5, CAN-FD x12,
LIN x4, and FlexRay devices x4
› Rich connectivity: connect up to:
NEW
1000Base-T1 x2, 100Base-T1 x5, CAN-FD x12,
LIN x2 , and FlexRay devices x2
NEW
�Ease of use
Solution finder
Infineon solution finder is an easy to use online tool for finding, comparing and buying semiconductor products in an
application context visualized by block diagrams and combined with electrical and thermal simulations powered by
Infineon Designer, PLECS and PowerEsim. Currently it covers motor control and drives from different industries with
focus on power semiconductor and controller, Switched
Mode Power Supplies (SMPS), LED lighting and DC-DC
Point of Load (PoL) converters. You can choose the suitable
AURIX™ TC2xx or XMC™ device according to the application,
industry and parameters that you are looking for, in the
different filters and solutions that this tool is providing.
Solution finder – check solutions (PLECS)
2
1
Integration level
3
List of suggested solutions
4
Trade-off ratings
Actions
5
List of alternative prodcts
1
2
Selected solutions
Actions to report, partner and buy
3
4
Solution
architecture
www.infineon.com/solutionfinder
Evaluation board
(detailed BOM)
29
�Ease of use
AURIX™ forum
Following the strategy of going wider to the mass market
for AURIX™ TC2xx and AURIX™ TC3xx. The AURIX™ Forum
came as the first platform of support for our mass market
and core account customers. We strongly improved the
maintenance of the forum, as it supports the customers to
find answers quickly by themselves.
We provided FAQs about the most critical topics, which has
strongly increased the traffic in our AURIX™ forum.
Now our customers can find the support needed in our
Forum.
2020/01
2019/12
2019/11
2019/10
2019/09
2019/08
2019/07
2019/06
2019/05
2019/04
2019/03
2019/02
2019/01
2018/12
2018/11
2018/10
2018/09
2018/08
2018/07
2018/06
2018/05
2018/04
2018/03
2018/02
2018/01
2017/12
2017/11
2017/10
2017/09
2017/08
2017/07
2017/06
2017/05
No. of posts per month
› A maintained forum helps customers to find answers quickly by themselves
› Fundamental support to the mass market customers
› Promoting materials, trainings, banners & products as support to the mass market customers
30
www.infineonforums.com
�Ease of use
Artificial intelligence in AURIX™ TC3xx
Artificial Intelligence is not limited to high end applications anymore and has entered the embedded world within the
last decade. We enter a new era of innovation possibilities for the automotive industry, where AI brings much more
than the well-known automated driving, with solutions regarding connected cars or safety concerns, among others.
AURIX™ performances enable optimizing AI algorithms to face the challenge growing amount of data vs. communication
and processing technology.
Partnership
Teraky‘s Intelligent Signal Processing product running on AURIX™ TC3xx presented at OktoberTech2019.
Simultaneously processes 50 signals and reduces the data by 95% at low latency and low percentage of CPU capacity.
Key benefits
› Up to 6.9 MB SRAM
› Up to 1.8 GMACs
› Up to 6 CPUs @ 300 MHz
› DSP capability up to 1.8 GFLOPS
› Up to 4000 DMIPS (with 2400 DMIPS ASILD)
› Low power consumption
Suggested products
› TC39x
System diagram
Radar
SRAM
32-bit MCU
Multicore/Lockstep
AURIX™
Machine learning
K-means
KNN
Decision tree
Deep learning
MLP
CNN
RNN
HSSL
Inter chip connectivity
RIF
Extended
memory
Camera
...
CIF
Lidar
RBF accelerator
Function approximation
Virtual sensing
System modeling
Calibration
...
EBU
31
�Ease of use
AURIX™ Development Studio
The AURIX™ Development Studio is a free of charge Integrated Development Environment (IDE) for the TriCore™-based
AURIX™ microcontroller family. It is a comprehensive development environment, including Eclipse IDE, C-compiler and
multicore debugger, Infineon Low-Level Driver (iLLD), with no time and code-size limitations that enables editing, compiling, and debugging of application code.
The AURIX™ Development Studio is supported by expert trainings
Code examples, trainings and all the technical documentation you may need are readily available at your fingertips
› Integrated Development Environment (IDE)
› AURIX™ TC2xx microcontroller expert-training: https://www.infineon.com/aurix-expert-training
› AURIX™ TC2xx microcontroller quick-trainings
› GitHub for the code examples: https://github.com/Infineon/AURIX_code_examples?intc=0560030
› AURIX™ forum for more questions and support: https://www.infineonforums.com/
You can download the IDE through our webpage: https://www.infineon.com/aurixdevelopmentstudio
The AURIX™ Development Studio is composed of three parts, which are linked to each other in a connected system.
Inf
in
Infine
o
expert n we
tra b
in
AURIX™
Development
Studio
AU
b code
itHu
n G les
eo xamp
e
e
sit gs
in
IDE
nt
e
m
D e velo p
S tu d i o
RIX ™
KIT_AURIX_TC297_TFT the AURIX™ TC275 ShieldBuddy in combination with AURIX™ Development Studio:
You can use AURIX™ Development Studio with the following kits
› KIT_AURIX_TC275_ARD_SB
› KIT_AURIX_TC297_TFT
32
www.infineon.com/aurixdevelopmentstudio
�AURIX™ and XMC™ PDH partners
Preferred Design Houses (PDH) and software resellers
Optimized open-market customer support set up for systems using AURIX™ and XMC™, including software and other
Infineon products, such as power products, sensor products and modules.
The preferred design house extends the support force by specifying and customizing the know-how. Furthermore, it brings
an additional value for customer service. The preferred design house supports the set up for systems using AURIX™ and
XMC™ , including software and other Infineon products. Our partners are trained to use AURIX™ and XMC™.
Classic
(Free of charge)
Premium
› 1
level customer support covering
Infineon products/solutions
Technical interface and support to the customer
st
›
› Project management and project-specific application
support
Specification of general software defining required layers,
control and data flow structure etc.
Specification and implementation of custom device drivers
Optimization of software components with regard to
speed/code size
(Consultancy mode)
›
To be agreed between
customers and PDH
›
›
› Driving design at customer
› Basic training for design teams at customer
› 24 h response time to the customer
› Software testing
› Support for project-specific functional
safety engineering
› Project-specific support for security solution
› Safety support
› Security support
› Multicore support
Infineon releases its new Preferred Design Houses (PDH) partner ecosystem where each PDH partner has its own webpage.
The new partners’ ecosystem enables our PDHs to better promote their services and facilitate the access to information to our
customers.
You can discover our PDH webpage via our PDH table shown in the all MCU webpages (see table below) or you can go directly to
www.infineon.com/preferreddesignhouse
www.infineon.com/preferreddesignhouse
33
�AURIX™ and XMC™ PDH partners
Click on the logo to get directed to Hitex PDH webpage for a detailed overview on the offered services.
Basic
•
Essential principles and elementary know-how to support
a customer; provision of basic training for design teams
34
Advanced
•
Expert
High-level project-specific
application support/consulting
•
Extensive knowledge and ability
to fully support development
www.infineon.com/preferreddesignhouse
�TASKING Pin Mapper
The Pin Mapper can save a substantial amount of time for developers and provides assurance that no pin conflicts exist. In
addition, the pin mapper generates a data file for PCB design, eliminating the chance for errors when passing data manually.
Benefits of the TASKING Pin Mapper for AURIX™
› The Pin Mapper tool reduces developer time and costs,
while improving the quality of results.
› Configuration takes place via an intuitive eclipse based
GUI with built-in knowledge about AURIX™ devices and
packages. This saves the developer from the tedious task
of consulting piles of device manuals and maintaining
configuration settings in spreadsheets.
› Configuration errors/conflicts are detected at entry time and
can be either automatically resolved by the built-in conflicts
solver or solved manually. Whereas traditionally such errors
remain hidden until code has been generated and is tested.
› The Pin Mapper reduces miscommunication between
individuals and teams by creating all project files from
one source. The Pin Mapper creates:
– Device initialization code in ISO-C format
– A spreadsheet (CVS) file for project documentation
– A schematic symbol block that can be imported by PCB
design tools such as Altium Designer
Supported TriCore™ devices
› AURIX™ family (TC22x, TC23x, TC26x, TC27x, TC29x)
› AURIX™ 2G family (TC38x, TC39x,...)
Free TriCore™ entry tool chain
This free-of-charge entry tool chain provides all the features required to develop and test software for TriCore™ and
AURIX™. The tool can be used with all available TriCore™ and AURIX™ starter kits and application boards.
Key features
› Eclipse-based IDE
› Project wizard to easily define the project properties
for device and board support
› High-performance GNU C compiler
› Integrated source-level debugger
› On-chip flash programming support
For further information on TriCore™ tools, please visit www.infineon.com/aurix-tools
35
�Applications
AURIX™ for powertrain and xEV applications
The new powertrain
Emission free mobility will be the driving force in the automotive industry for the next decades. The transition from burning
natural resources to sustainable electrified mobility is inevitable. Certainly, this is a disruptive and challenging undertaking
to the well-established automotive industry, but it also provides opportunities – we call it the era of “the new powertrain”.
Energy efficiency for conventional powertrain
Electronic automotive components are key to raising fuel
efficiency levels and cutting emissions. The latest environment protection agency standards – Euro 6 and the
upcoming Euro 7 for passenger cars and Euro 3 and Euro 4
for motorcycles – are driving developments in advanced
engine management.
Now with up to six embedded TriCore™ cores and 300 MHz
operation, the AURIX™ TC3xx family members have the
real-time performance needed for improved combustion
technologies such as Homogeneous Charge Compression
Ignition (HCCI) as well as for direct injection, smart turbocharger and valve actuation applications
36
AURIX™ is also ideal for a range of innovative transmission
technologies such as Double Clutch Transmission (DCT)
and modern Continuous Variable Transmission (CVT). The
AURIX™ family offers high temperature operation of up to
150°C junction enabling operation in the harsh transmission environment. This is also of benefit in transfer case
(4WD) applications, where AURIX™ is a leader in systems
requiring the challenging combination of high temperature,
safety and security.
A key benefit of AURIX™ in powertrain is it’s scalability
between generations, which enables customers to follow
a platform approach with tooling and software costs being
shared across multiple applications. This approach can help
customers to venture into the opportunities presented by
the new xEV applications as part of “the new powertrain”.
www.infineon.com/powertrain
�AURIX™ for
powertrain applications
The new powertrain: motion control and energy management
The new powertrain refers to the change of mind, from
enhancing a combustion engine with electrification
towards a pure electric driven vehicle. Motion control and
energy management describes well what “the new powertrain” is about: motion control is self-explanatory, referring
to the acceleration as well as deceleration of a vehicle.
Energy management describes the management, conversion and distribution of energy using various sources.
While they excel in fuel economy, driving experience and
reducing CO2 emissions, Hybrid Electric Vehicles (HEV) and
Electric Vehicles (EV) have the drawbacks of a higher cost,
limited drive-range and safety concerns (e.g. risk of battery
over-charging). Thanks to their high performance, functional integration and application-based software support,
TriCore™ products are the ideal solution for (H)EV motor
drives and are perfectly positioned to support lithium ion
batteries which will likely be the energy storage system of
choice in the near future.
Automotive security
Quality and business continuity
Scalable family concept
AURIX™
“the new powertrain”
leadership
Functional safety
Hot temperature
Extensive ecosystem
No other MCU family can offer this combination of functionality across
multiple compatible products for powertrain and xEV
Flexible inverter implementation for
motion control
Energy management for battery and new
technology to come
TriCore™ offers a CPU load of less than 3% at 300 MHz
frequency for the complete Field-Oriented Control (FOC)
algorithm. The TriCore™ AURIX™ family offers multicore
architecture, allowing inverter control, hybrid torque management and DC-DC conversion to be executed within one
single microcontroller. Nevertheless, the TriCore™ AURIX™
family has built-in resolver functionality, helping customers
to save the cost of implementing an external resolver IC.
Often seen as the master micro in battery balancing topology, the TriCore™ AURIX™ family proposes a 32-bit stand-by
domain combined with an integrated 8-bit standby controller, essential for battery balancing under low-power mode
(e.g. vacation parking). As cross-border charging becomes
popular, AURIX™ has increased its SRAM to flash ratio to
enable various charging protocols. Infineon is the market
leader in providing Hardware Security Module (HSM), a feature that prevents the main CPU from illegal manipulation,
making the billing for battery charging more trustworthy.
37
�AURIX™ for
powertrain applications
Applications
Powertrain Domain Controller (PDC)
Application example
Automotive instrumentation ports
› Production device = 10 MB/sec
+12 V from battery
Safety system
power supply
TLF35582
CAN FD
CAN FD
Ethernet
CAN
transceivers
TLE6250/50
TLE7250
Safety
watchdog
32-bit MCU
Multicore
AURIX™
Ethernet
transceiver
Automotive instrumentation ports
› Production device = 10 MB/sec
› Engineering = 250 MB/sec
Application features
› Human-machine interface
› Torque coordination
› Driving strategy control
› Cruise control
› Charging coordination
› Thermal management & environment models
› Predictive functions
› Safety and fail-operational
› Firewall and security
Suggested products
› TC29x
› TC39x
› TC3E7
› TC387
38
System benefits
› Microcontroller with best-in-class real-time performance
› Scalable platform – performance, memory size and I/Os
› Support A/B swap for SOTA
› Rich legacy peripherals (CAN FD, LIN, ...) for integrated
gateway application
› Enhanced communication (Ethernet) for fast connection
to network & SoC
› External memory interface for data logging
› HSSL connectivity for direct coupling with SoC
› Availability of AUTOSAR 4.x
› Supports safety levels up to ASIL-D
www.infineon.com/driving-domain-controller
�AURIX™ for
powertrain applications
Applications
Gasoline direct injection
Application example
Engine management
Safety system
power supply
TLF35584
Typical partitioning for GDI discrete and solenoid
Safety
watchdog
Pedal position
TLE4997E2/98C3/98P3
Low-side ignition
GDI driver
HSM
EGR: throttle position
TLE4997E2/98C3/98P3
Fuel level
TLE4997E2/98C3/98P3
Swirl/tumble flap
TLE4997E2/98C3/98P3
32-bit MCU
Multicore/
Lockstep
AURIX™
Throttle position
TLE4998S3/S3C/S4
Temperature
Barometric pressure
KP234, KP253
OptiMOS™
MOSFET
IPG20N10S4L-35A
IPD26N06S2L-35
AUIRLL2705
Battery (KL30)
Key (KL15)
Knock sensor(s)
8 A ch.
General-purpose
H-Bridge
TLE9201SG
5 A ch.
H-bridge for EGR
TLE9201SG
5 A ch.
Low-side driver
On-off outputs
TLE8108EM
In-cylinder pressure
sensors
2x
8x
4x
Lambda sensor
Low-side driver
PWM outputs
TLE8718SA
Crankshaft
TLE5025C E6747
TLE4921-5U
Camshaft
TLE4986
6x
H-Bridge for throttle
TLE8209-2SA
Low-side driver
PWM, current sense
TLE8102SG
AUIPS2041L
Manifold air pressure
KP214N2611
KP229E2701
4x
TLE9251VSJ
TLE9250XSJ
…
FlexRay
transceiver
TLE9221SX
LIN transceiver 2ch.
… TLE7259-3GE
TLE7259-3LE
2x
Ignition plugs
Solenoid
injectors
(eGas) throttle
Turbocharger
wastegate
EGR throttle
O2
Relays
Solenoids
WT
Solenoid
4x
2x
Relays
MIL
Lamp
Powertrain CAN
Thanks to its state-of-the-art safety features, the TriCore™ AURIX™ family enables systems to achieve the highest safety
level up to ASIL-D. The scalable AURIX™ family includes the GTM, the de-facto industry standard timing module that supports highly complex engine management, while meeting the market’s most stringent emissions regulations.
Application features
› Direct injection
› Scalable software-based knock detection
› Variable valve control
› Throttle and EGR control
› Turbocharging
› Catalyst after-treatment
› Start/stop system
Suggested products
› TC27x
› TC39x
› TC3Ex
www.infineon.com/gasolineengine
System benefits
› Microcontroller with best-in-class real-time performance
› Scalable platform – performance, memory size and I/Os
› Committed to reduce CO2 by 20%
› Anti-theft protection and tuning protection
› Increased knock detection accuracy via DS-ADC
› Enhanced communication (Ethernet)
› Dedicated peripherals for powertrain
› Supports safety levels up to ASIL-D
39
�AURIX™ for
powertrain applications
Applications
Diesel direct injection
Application example
Battery (KL30)
Key (KL15)
Engine management
Safety system
power supply
TLF35584
typical partitioning for DDI discrete
Safety
watchdog
PROFET™
BTS5008-1EKB
AUIR3320S
6x 8 A
Fast IGBT
IKD04N60RA
AUIRGR4045D
6x 8 A
Glow plugs
Pedal position
TLE4997E2/98C3/98P3
EGR: throttle position
TLE4997E2/98C3/98P3
Fuel level
TLE4997E2/98C3/98P3
H-bridge for throttle
TLE8209-2SA
Swirl/tumble flap
TLE4997E2/98C3/98P3
Throttle position
TLE4998S3/S3C/S4
General-purpose
H-bridge
TLE8209-4SA
TLE9201SG
32-bit MCU
Multicore/
Lockstep
AURIX™
Temperature
H-bridge for EGR
TLE8209-2SA
TLE9201SG
Barometric pressure
KP234, KP253
Low-side driver
PWM, current sense
TLE8102SG
AUIPS2041L
Manifold air pressure
KP214N2611
KP229E2701
Low-side driver
On-off outputs
TLE8108EM
Knock sensor(s)
In-cylinder pressure
sensors
5 A ch.
5 A ch.
2x 5/9 A
4x 0.5 A
4x 2.6 A
Lambda sensor
Low-side driver
PWM outputs
TLE8718SA
Crankshaft
TLE5025C E6747
TLE4921-5U
Camshaft
TLE4986
8 A ch.
TLE9251VSJ
TLE9250XSJ
…
FlexRay
transceiver
TLE9221SX
…
LIN transceiver 2 ch.
TLE7259-3GE
TLE7259-3LE
2x 2.6 A
Piezo injectors
(eGas) throttle
Turbocharger
wastegate
EGR throttle
O2
Relays
Solenoids
VVT
Solenoid
4x 1.7 A
2x 1 A
Relays
MIL
Lamp
Powertrain CAN
Thanks to its state-of-the-art safety features, the TriCore™ AURIX™ family enables systems to achieve the highest safety
level up to ASIL-D. The scalable AURIX™ family includes the GTM, the de-facto industry standard timing module that supports highly complex engine management, while meeting the market’s most stringent emissions regulations.
Application features
› Direct injection (piezo/magnetic)
› In-cylinder pressure measurement
› Hardware-supported security enhancements
› Throttle and EGR control
› Turbocharging
› Diesel particulate filter
› ‘Blue’ after-treatment support (e.g. urea-based SCR)
Suggested products
› TC27x › TC3Ex
› TC29x › TC38x
› TC39x
40
System benefits
› Microcontroller with best-in-class real-time performance
› Scalable platform – performance, memory size and I/Os
› Committed to reducing NOx and particulate matter in line
with the Euro 6 standard
› Hardware-supported IP/anti-theft protection and
tuning protection
› Increased accuracy with in-cylinder pressure sensing
via DS-ADC
› Enhanced communication (Ethernet)
› Dedicated peripherals for powertrain
› Supports safety levels up to ASIL-D
www.infineon.com/dieselengine
�AURIX™ for
powertrain applications
Applications
Double-clutch transmission – electrical control
Application example
Battery (KL30), key (KL15)
7-speed double-clutch
transmission
Typical partitioning
for constant current control
Safety system
power supply
TLF35584
3-phase
driver IC
TLE9180
Safety
watchdog
M
Rotor position
iGMR sensor
TLE5012B E1000
1st
clutch
PRNDL switches
TLE4964-1K
TLE4966-3K
HSM
3-phase
driver IC
TLE9180
Shift position sensor
TLE4997E2
TLE4998C3
32-bit MCU
Multicore/
Lockstep
AURIX™
Temperature
sensor
M
Rotor position
iGMR sensor
TLE5012B E1000
2nd
clutch
3-phase
driver IC
TLE9180
Rotor position
iGMR sensor
TLE5009 E1000
TLE5012B E1000
M
Rotor position
iGMR sensor
TLE5012B E1000
Even
gears
Shift position sensor
TLE4951CB
TLE4954CB
Powertrain
FlexRay
3-phase
driver IC
TLE9180
FlexRay
transceiver
TLE9221SX
TLE9251VSJ
TLE9250XSJ
Diagnostics/instrumentation CAN
LIN transceiver
TLE7259-3GE
TLE7259-3LE
Diagnostics/
instrumentation
M
Rotor position
iGMR sensor
TLE5012B E1000
Odd
gears
OptiMOS™-T2 40 V
24x IPB80N04S4-04
24x IPC100N04S4-02
24x IPD90N04S4-04
24x AUIRFS8403
24x AUIRFR8403
Thanks to its state-of-the-art safety features, the new TriCore™ AURIX™ family enables systems to achieve the highest
safety level up to ASIL-D. The rich scalability of the AURIX™ family permits a platform approach that meets the needs of
a range of transmission systems. Furthermore, the hot temperature package and bare die solutions enable AURIX™ to be
used in both attached and integrated control units.
Application features
› Ultra-fast gear switching
› Closely coupled with engine control via high-speed
CAN/CAN FD/FlexRay link
› Supports four 3-phase DC-brushless E-drives (dry-DCT)
› High microcontroller junction bare die temperature
Suggested products
› TC270
› TC275
› TC37x
› TC38x
www.infineon.com/electriccontrol-dct
System benefits
› Improved fast clutch control
› Feature set optimized for wet and dry DCT designs
› Continuous torque on wheels ensures a dynamic driving
experience
› Hot bare die capabilities enable microcontrollers to be
placed directly where they are needed in the system
› Infineon e-motor driver
› Supports safety levels up to ASIL-D
41
�AURIX™ for
powertrain applications
Applications
Transfer case
Application example
+12 V from battery
Transfer case
Safety system
power supply
TLF35584
VSens
VTx
WD
VMCU
HSM
Speed sensors
TLE4955C
TLE4941PLUSC
Speed
2x MOSFET
20–40 V N-Channel
IPD90N04S4-04
IPC70N04S5-4R8
AUIRFR8401
Safety
watchdog
32-bit MCU Multicore/
Lockstep AURIX™
3-phase
driver IC
TLE9180D-21QK
TLE7183
TLE7185
TLE7189
AUIRS20302S
Valve
driver
TLE7182
BTN89x2
PROFET™+
HITFET™+
M
6x MOSFET
20–40 V N-channel
IPC90N04S5-3R6
IPD90N04S4-04
AUIRFR8401
Rotor position/current sense
Transceiver
TLE9250SJ
TLE9251VSJ
Transceiver
TLE9221SX
Rotor position
iGMR sensor
TLE5009
TLE5012B
Status LEDs
Front, rear
axle lock
Relays
SPIDER+
TLE75xx
FlexRay (optional)
HS-CAN
In Four-Wheel Drive (4WD) and All-Wheel Drive (AWD) vehicles, the transfer case is the part of the drivetrain responsible
for the transfer of torque from the transmission to the front and rear wheels. The market now demands increased
performance to drive BLDC motors and ever-greater functional safety requirements. AURIX™ has the state-of-the-art
safety features required to enable systems to achieve ASIL-D, the highest safety level.
Application features
› More accurate torque distribution, enabling new features
such as higher comfort and flexible settings
› Fuel economy improvements due to advanced slip control
› Safety requirements up to ASIL-D
› Extended ambient temperature range to meet stringent
environment requirements
› Secure CAN communication
Suggested products
› TC23x
› TC33x
42
System benefits
› Advanced timer unit for totally flexible PWM generation
and hardware input capture
› Redundant flexible 12-bit ADC
› Scalability over flash, RAM and peripherals, offering the
best cost-performance ratio
› High microcontroller junction bare die temperature
› Supports the safety level ASIL-D
› Safety software: Infineon SafeTcore library
› Availability of AUTOSAR 4.x
› HSM security module to prevent tampering
www.infineon.com/transfercase
�AURIX™ for
xEV applications
Applications
AURIX™ for xEV applications
On-board charger
Controls the charging of the battery with AC-DC
converter module (off-board and inductive
charging solutions are also possible).
HV-LV DC-DC converter
Charges conventional 12 V power supply net from
the high-voltage battery and replaces belt driven
alternator.
Battery management system
Controls battery state during charging and
discharging and implements intelligent features
to extend a battery’s lifetime (e.g. state of health,
state of charge).
Powertrain domain controller
Controls inter-communication between xEV powertrain ECUs (e.g. inverter, battery management,
transmission, engine) and includes centralized
powertrain functions (e.g. torque control, gear
selection).
Auxiliaries
Trend from belt-driven auxiliaries (e.g. waterpump, HVAC compressor, PTC heater) to electric
solutions. These are inverters and converters or
high-side/low-side switches.
Inverter
Controls the electric motor for optimal efficiency
whilst driving and controls regenerative braking.
www.infineon.com/HEV
43
�AURIX™ for
xEV applications
Applications
xEV main inverter
Application example
Safety system supply TLF35584
Window- and Q/Awatchdog
Boost-/buckpre-regulator
StdBy
LDO
UV-/OV-/errormonitoring
µC
LDO
Ref
LDO
Safe state
controller
Tracker 1
Tracker 2
Com
LDO
Powertrain domain
AURIX™ TC37x
32-bit MCU
EiceSIL™
driver IC
8x CAN
Lockstep
DC-DC converter
PWM
GTM
PWM
1x Ethernet
PMSM
A
N
PWM
PWM
1x FlexRay
IGBT
HybridPACK™
B
Lockstep
300 MHz
CPU1
SAR-ADC
Resolver
300 MHz
CPU0
PWM generation
space vector
modulation
Synchronized 3-phase
current measurement
Resolver interface
C
1x I2C
ADC
Motor control
hybrid domain control
DC-DC converter
resolver speed and position
S
300 MHz
CPU2
Speed
and
position
DS-ADC
The inverter controls the electric motor in an electric or hybrid drivetrain. Its function is equivalent to an Engine Management System (EMS) in vehicles with an internal combustion engine. Therefore, the inverter is a key component for
achieving optimal vehicle dynamics in an electric or hybrid vehicle. In addition to driving the electric motor, it converts
the regenerated braking energy and feeds it into the battery. Consequently, a vehicle’s range is significantly impacted by
the efficiency of the control strategy of an inverter. In addition to efficiency, functional safety and security are key requirements for an inverter system in order to control a vehicle’s dynamics.
Application features
› Three cores for task split (base SW, FuSa, app SW)
› Lockstep architecture
› 50% performance increase compared to AURIX™ TC2xx
› Optimized PWM pattern generation in GTM
Suggested products
› TC27x
› TC29x
› TC37x
› TC38x
44
System benefits
› Resolver IC replacement with DS-ADC (cost saving)
› Facilitates integration with other xEV applications
› Supports safety levels up to ASIL-D
www.infineon.com/HEV-main-inverter
�AURIX™ for
xEV applications
Applications
DC-DC converter (low voltage to 12 V)
48 V
Application example
12 V
48 V
DC-DC
Converter
DC-DC
Converter
GPT12
15 V
DS
ADC
32-bit MCU
Multicore/
Lockstep
AURIX™
Voltage monitoring
stand-by supply
Tracker 1
Tracker 2
LDO1
LDO_ref
LDO_COM
CAN
1 ch.
5 V/0.6 A
AUIRS
2012
AUIRS
2012
AUIRS
2012
15 V
CS
OpAmp
CS
OpAmp
CS
OpAmp
CS
OpAmp
AUIRS
3241S
48 V
IOM
GTM
SPI
5 V/0.2 A
HS-CAN
15 V
Flash 2.5 MB
RAM 76/112 kB
SPI, ADC,
GTM, CAN
5 V ref
SPI
AUIRS
2012
12 V
CAN
SPI
ASC
LIN
ADC
AUIRS
2012
AUIRS
2012
AUIRS
2012
AUIRS
2012
15 V
CS
OpAmp
CS
OpAmp
CS
OpAmp
CS
OpAmp
AUIRS
3241S
The DC-DC converter ECU is responsible for the conversion of voltage between the low voltage domain (typically 48 V to
60 V) and the 12 V domain in mild hybrid cars. The 48 V domain powers stop-start motors, hybrid motors, and turbochargers, enabling engine downsizing and better fuel economy and performance.
Application features
› Supports current control-specific features
› Fast compare ADCs with support for up to 5 Msps
› Supports flexible PWM generation via a scalable timer
across the family
› Supports DC-DC converter for 48 V systems and for
high-voltage systems
› CAN FD support
› Ethernet support
System benefits
› Scalability across the family supporting seamless migration in different DC-DC power and efficiency classes
› Enables sub-system integration (communication handling + DC-DC control) thanks to the AURIX™ multicore
performance
› Supports bi-directional DC-DC converter functionality
› Supports safety levels up to ASIL-D
Suggested products
› TC26x
› TC36x
› TC27x
› TC37x
www.infineon.com/DC-DC
45
�AURIX™ for
xEV applications
Applications
xEV battery management system
Application example
Tx
Host controller
IBCB
HV+
TLE8001QK
12 V battery
connection
Safety system
power supply
TLF35584
IBCB
Rx
Safety
watchdog
Tx
IBCB
TLE8001QK
32-bit MCU
Multicore/Lockstep
AURIX™
IBCB
Rx
Tx
GPIO
GPIO
SoC
algorithm
SoH
algorithm
Safety
monitor
Battery
pass
Rx
IBCB
IBCB
TLE8001QK
TLE8001QK
IBCB
Battery
stack
IBCB
Rx
Tx
Tx
IBCB
TLE8001QK
IBCB
Rx
Tx
PT global
CAN
IBCB
TLE9251VSJ
TLE9250XSJ
TLE8001QK
IBCB
Rx
HV-
The battery management system controls the battery state during charging and discharging. Intelligent functionality is
needed to extend the battery lifetime, which has a considerable impact on the total cost of ownership. The State of Health
(SoH), State of Charge (SoC) and Depth of Discharge (DoD) of the battery is permanently monitored.
Application features
› Multicore and lockstep core architecture
› Fast communication interface
› Integrated low-power 8-bit stand-by controller
› Hardware Security Module (HSM)
Suggested products
› TC23x
› TC26x
› TC27x
› TC33x
› TC36x
› TC37x
46
System benefits
› Standard UART communication (available MCAL driver)
supporting robust and cost optimized (capacitive coupling)
› Optional fault wake-up function from cell monitoring IC
(TLE9012AQU) via TLE9015QU to TLF35584
› Synchronized accurate voltage measurement throughout
all cells in the battery
› Battery security enabled through Hardware Security
Module (HSM)
�AURIX™ for
xEV applications
Applications
EV charging station
Application example
AC power in
AC-DC
including
PFC
DC-DC
stage
DC power to batteries
Gate driver and galvanic isolation
AURIX™/XMC™
Internal power supply
Communication to user
Human-Machine
Interface
(HMI)
Authentication
and
encryption
Communication to car – end user
Off-board charging, where users can charge plug-in hybrids and pure EVs in private garages and open parking lots, demands
an optimized solution with high MCU switching frequency to stay efficient and cost competitive. The Infineon XMC™ family is
the answer! If you have security or safety requirements, you can scale from XMC™ family to AURIX™ to support your solution.
Application features
› Platform concept to allow extensive customization
› RAM: 8 kB up to 352 kB
› Flash: 16 kB up to 2 MB
› Accurate analog-mixed signal peripherals
› Fast timer/PMW peripherals
› Rich communication interfaces
› 16–196 pin-count packages
› Long-term availability
System benefits
› Scalable family with compatibility: software, pin-out
› Performance, efficiency and cost competitiveness
› Great scalability and software re-use across the whole
family
› Rich ecosystem and tooling environment for a shorter
time-to-market
Suggested products
› XMC4xxx – 32-bit ARM® Cortex®-M4 MCU
www.infineon.com/ev-charging
47
�Applications
AURIX™ for safety applications
AURIX™ made for safety
The AURIX™ architecture is designed in accordance with
an ISO 26262-compliant process to efficiently meet ASIL-D
requirements.
The platform uses up to four cores in a diverse lockstep
architecture combined with cutting-edge safety technology, such as safe internal communication buses or a
distributed memory protection system. Innovative encapsulation techniques allow the integration of software with
various safety levels (QM to ASIL-D) from different sources,
thereby significantly reducing system complexity. Thanks
to this optimized approach, multiple applications and
operating systems (such as steering, braking, airbag and
advanced driver assistance systems) are seamlessly hosted
on a unified platform. This leads to productivity gains of
up to 30%, resulting in a smaller development outlay and
reduced time-to-market for our customers.
Furthermore, Infineon extends the microcontroller
safety roadmap with devices dedicated to the Advanced
Driver Assistance System (ADAS) segment, such as radar
or camera applications. Innovation has been focused on
system partitioning in order to further integrate system
functionality and consequently reduce the complexity
and area, providing our customers with highly optimized
48
solutions. The new devices include high-speed interfaces,
integrated hardware acceleration and enhanced ECU
validation and instrumentation tools. All ADAS devices
support ISO 26262 safety methodology, meaning that they
can be involved in automatic decisions to assist drivers,
such as emergency braking.
AURIX™ made for scalability
Thanks to its market-leading expertise, Infineon has trans
lated customer demands for individual scalability into
a universal product roadmap. Designed to optimize its
customers’ investment, the AURIX™ family comes with a
comprehensive range of fully modular components, thereby
ensuring long-term design flexibility. The devices range from
an ultra high-end, 300 MHz six-core device with 16 MB of
embedded flash, down to 160 MHz and 1 MB flash.
The package portfolio includes a BGA-516 package with
a ball-compatible BGA-292 package (I/O subset), and
compatible QFP-176, QFP-144, QFP-100 to BGA-196 and
QFP-80 packages.
�AURIX™ for
safety applications
Applications
Chassis domain control
Application example
+12 V from battery
Chassis
domain control
ECU
Safety system
power supply
TLF35584
VSens
Safety
watchdog
VTx
VMCU
WD
HSM
X
2–4x
Position sensor
Linear hall
TLE4997
TLE4998
Position
32-bit MCU Multicore/
Lockstep AURIX™
Sensor
interface
Inertia
sensors
Y
Z
ωx
Vehicle level
ωy
CAN transceiver
TLE9251SJ
TLE9250VSJ
FlexRay
transceiver
TLE9222PX
Chassis CAN-bus
Vehicle stability
control ECU
ωz
FlexRay
Steering toque
Electronic power
steering ECU
Steering angle
Torque sensor
4x speed
2x iGMR sensor
TLE5012B
Wheel speed sensor
TLE4941
TLE4942
TLE5041
Steering angle sensor
Wheel speed sensor
TLE4997
TLE4998
4x
Thanks to its state-of-the-art safety features, the new TriCore™ AURIX™ family enables systems to achieve the highest
ASIL-D safety level, which is already required in contemporary domain control systems. The latest diverse lockstep
technology with clock delay (diverse lockstep core) significantly reduces the software overhead and enables fast time-tomarket. Thanks to a scalable multicore system and innovative encapsulation techniques, this supports the integration of
software with mixed-criticality levels from different sources, thereby allowing multiple applications and operating systems
to be seamlessly hosted on a unified platform.
Application features
› TriCore™ DSP functionality
› Best-in-class performance with up to six-core 300 MHz
› Supports the floating point and fix point with all cores
› Up to 6.9 MB of internal RAM
› Communication peripherals: CAN, LIN, FlexRay, Ethernet
› Innovative single supply of 5 V or 3.3 V
› External memory interface
› ISO 26262 conformance to support
safety requirements up to ASIL-D
› Availability of AUTOSAR 4.x
www.infineon.com/chassis_domain_control
System benefits
› Advanced communication with FlexRay and Ethernet
› Highest available performance with integrated FPU
› Flexible DMA unit
› Scalability over flash, RAM and peripherals
› Proven safety concept to support ISO 26262
› Innovative supply concept leads to best-in-class
power consumption
Suggested products
› TC37x
› TC38x
› TC39x
› TC3E7
49
�AURIX™ for
safety applications
Applications
Scalable EPS solution
Application examples
+12 V from battery
Safety system
power supply
TLF35384
Torque sensor
TLE4998
Steering
torque
Electric
Power Steering
(EPS)
Safety
watchdog
32-bit MCU Multicore
AURIX™
3-phase
driver IC
TLE9183
CAN
transceiver
TLE6251
TLE7250
M
OptiMOS™-T2 40 V
7x IPB180N04S4-01
Rotor position
iGMR sensor
TLE5009/12
Current sense
(shunt substitute)
TLE4990/97/98
Rotor position / current sense
HS-CAN
Thanks to its state-of-the-art safety features, the new TriCore™ AURIX™ family enables systems to achieve the highest
ASIL-D safety level, which is already required in contemporary steering systems.
The latest diverse lockstep technology with clock delay (diverse lockstep core) significantly reduces the software overhead
and enables fast time-to-market.
Its rich scalability meets a variety of different electric power steering system demands.
Application features
› Flash 512 KB – 8 MB
› Scalable flash from 1 – 16 MB
› Performance 160 MHz – 6x 300 MHz
› Advanced timer unit for totally flexible PWM generation
and hardware input capture
› Redundant flexible 12-bit ADC
› Hardware SENT interface for a low CPU load
› Hardware built-in self-test
› ISO 26262 conformance to support
safety requirements up to ASIL-D
› Availability of AUTOSAR 4.x
50
System benefits
› Scalability over flash, RAM and peripherals offering the
best cost-performance ratio
› Serves all kinds of EPS systems, such as column or
belt drive
› Proven safety concept to support ISO 26262
› Innovative supply concept leads to best-in-class
power consumption
Suggested products
› TC22x
› TC23x
› TC32x
› TC33x
› TC36x
www.infineon.com/eps
�AURIX™ for
safety applications
Application example
+12 V from battery
Safety system
power supply
TLF35584
#1
Reverse polarity protection
Safety
watchdog
#1
Torque angle
sensor #2
#2
TLE4999C
TLE5014D
32-bit MCU
Multicore
AURIX™
Main
inverter
3-phase
driver IC
#1
#2
Backup/support
inverter
3-phase
driver IC
#2
Phase cut-off
TLE9180
TLE9180
M
Torque angle
sensor #1
TLE4999C
TLE5014D
Rotor position
iGMR sensor
TLE6308D or
TLE6012BD
OptiMOS™- 40 V
TLE7251V
TLE7250V
TLE8251V
TLE7251V
TLE7250V
TLE8251V
OptiMOS™- 40 V
Rotor postion
HS-CAN
HS-CAN
Infineon EPS system solution for high-availability autonomous drive systems L0–L3
› 1x MCU + 2x inverters for high-available EPS
System benefits
› Multicore MCU with dual power stage and dual torque sensor
– Dual cores to separately control dual motors or
6 phase motors
– Separately resettable cores to keep 1 motor running
while one CPU resets
– Ability to recover most frequent errors identified,
no software reset required
Dual inverter PWM and multi ADCs
Secured high-speed communication with domain
controller: CAN FD, FlexRay, SPI and Ethernet
›
›
www.infineon.com/eps
51
�AURIX™ for
safety applications
Applications
Scalable EPS solution
Application examples
+12 V from battery
+ secondary power
Safety system
power supply
TLF35584
Torque angle
sensor #1
TLE4999C
TLE5014D
32-bit
Multicore
Master
MCU #1
Safety system
power supply
TLF35584
Reverse polarity protection
Safety
watchdog
Backup/support
inverter
Main
inverter
3-phase
driver IC
#1
3-phase
driver IC
#2
Phase cut-off
TLE9180
TLE9180
AURIX™
Safety
watchdog
32-bit
Multicore
Slave
MCU #2
Torque angle
sensor #2
TLE4999C
TLE5014D
AURIX™
M
Rotor position
iGMR sensor
Rotor position
TLE6308 D
iGMR sensor
TLE6012BD
TLE6308D or
TLE6012BD
OptiMOS™- 40 V
TLE7251V
TLE7250V
TLE8251V
TLE7251V
TLE7250V
TLE8251V
OptiMOS™- 40 V
Rotor position
Rotor postion
Electrical isolation
MCU communication/monitoring
HS-CAN
TLE7251V
TLE7250V
TLE8251V
HS-CAN
HS-CAN
Infineon EPS system solution for fail-operational autonomous drive systems L3-L5
› 2x MCUs are used, each MCU has 1x inverter for
fail-operational or high-available EPS
System benefits
› Highly scalable ASIL-D performance architecture to
support the master/slave concept
Advanced timers for PWM generation and
ADC synchronization
Small package options: BGA-196 (12 x 12) or TQFP-80 (14 x 14)
for full redundancy
›
›
52
www.infineon.com/eps
�AURIX™ for
safety applications
Applications
Brake Vehicle Stability Control (VSC)
Application example
ABS/VSC ECU
3x MOSFET
IPD15N06S2L-64
AUIRFS3306
Braking system IC
Multiple
supply control
w. reset
generation
Window/signature
watchdog
supervision
safety logic
HSM
Wheel speed sensors
TLE4941PLUSC
TLE4941C
TLE5041PLUSC
Wheel speed
sensor supply
and
signal
conditioning
SPI
32-bit MCU Multicore/
Lockstep AURIX™
High-voltage
outputs
High-voltage
enable outputs
K-line
transceiver
Sensor
cluster
(ESC only)
CAN
transceiver
TLE9250SJ
TLE9250VSJ
HS-CAN
FlexRay
transceiver
TLE9222PX
Pump MOSFET
driver
MOSFET
IPB80N06S2-H5
AUIRF7648M2TR
Safety MOSFET
driver
MOSFET
IPC100N04S4-02
AUIRFN8403
Solenoid
driver
TLE6217
TLE6217G
AUIPS2041L
Solenoid
Solenoid
driver
TLE6217
TLE6217G
AUIPS2041L
Solenoid
Solenoid
driver
TLE6217
TLE6217G
AUIPS2041L
Solenoid
Pump
M
Solenoid
Solenoid
Solenoid
Solenoid
Solenoid
Solenoid
ESC
only
Solenoid
Solenoid
Solenoid
FlexRay
Thanks to its state-of-the-art safety features, the new TriCore™ AURIX™ family enables systems to achieve the highest
ASIL-D safety level, which is already required in contemporary braking systems. The latest diverse lockstep technology
with clock delay (diverse lockstep core) significantly reduces the software overhead and enables fast time-to-market.
The scalability supports an optimized cost-performance fit for basic ABS systems up to highly integrated ESC systems.
Application features
› Scalable flash 1 – 16 MB
› Performance 160 MHz – 6x 300 MHz
› Dedicated peripheral set: LIN, CAN, SPI, FlexRay, Ethernet
› Advanced timer unit for totally flexible PWM generation
and hardware input capture
› Redundant flexible 12-bit ADC
› Hardware SENT interface for a low CPU load
› Hardware built-in self-test overhead
› Safety software: Infineon SafeTcore library
› ISO 26262 conformance to support
safety requirements up to ASIL-D
› Availability of AUTOSAR 4.x
www.infineon.com/braking
System benefits
› Scalability over flash, RAM, performance and peripherals
leads to an optimized cost-performance fit
› Proven safety concept to support ISO 26262
validated by 3rd party
› Innovative supply concept leads to best‑in‑class power
consumption and saves external component costs
Suggested products
› TC36x
› TC37x
› TC38x
› TC39x
› TC3E7
53
�AURIX™ for
safety applications
Applications
Multi-purpose camera
Application example
+12 V from battery
VSens
VTx
Safety
watchdog
WD
VMCU
HS-CAN
PMIC
HSM
e.g. Aptina, OmniVision
Automotive
high
dynamic
range camera
LVDS
CSI-2
Vision SoC
ETH
SPI
32-bit MCU Multicore/
Lockstep AURIX™
CAN
transceiver
TLE9250VSJ
FlexRay
transceiver
TLE9222LC
FlexRay
Safety system
power supply
TLF35582
Ethernet transceiver
(optional)
The AURIX™ family will enhance classic safety features with dedicated features to cater for multi-purpose camera systems.
Thanks to its rich connectivity, scalable portfolio of performance, eRAM and eFlash, AURIX™ is the ideal companion for the
high-performance vision SoC.
Application features
› TriCore™ DSP functionality
› Best-in-class performance: up to six TriCore™
with 300 MHz per core
› Innovative single supply of 5 V or 3.3 V
› Rich peripherals including Ethernet 100 Mbit/s and
1 Gbit/s, multiple CAN FD, multiple SPIs
› Portfolio offering up to 6.9 MB embedded RAM
› External memory interface
› ISO 26262 conformance to support
safety requirements up to ASIL-D
54
System benefits
› High scalability option with pin-to-pin compatibility and
an identical safety and security concept across the whole
family, for easy development and fast go-to-market
› High integration leads to reduced complexity
› Innovative supply concept leads to best‑in‑class
power consumption
Suggested products
› TC233LP
› TC277TP
› TC333LP
› TC367DP
› TC377TP
www.infineon.com/multi-purpose-camera-configuration
�AURIX™ for
safety applications
Applications
Active suspension control system
Application example
+12 V from battery
Safety system
power supply
TLF35584
VSens
VTx
MOSFET
IPB120N10S4-03
Safety
watchdog
VMCU
+12 V
4-channel
LS-switch IC
TLE8104E
AUIPS2041L
WD
4x
+12 V
HSM
2–4x
Position sensor
Linear hall
TLE4997E2
TLE4998C4
Vehicle level
6-channel
LS-switch IC
TLE6232GP
32-bit MCU
Multicore/
Lockstep AURIX™
6x
+12 V
Quad constant
current
control IC
TLE7242-2G
Vehicle level
Octal constant
current
control IC
TLE8242-2L
FlexRay
transceiver
TLE9222PX
HS-CAN
Valve
solenoid
Valve
solenoid
Proportional
valve solenoid
4x MOSFET
IPB180N08S4-02
AUIRFS3107
+12 V
CAN
transceiver
TLE9250SJ
TLE9250VSJ
Active
suspension
control ECU
Proportional
valve solenoid
8x MOSFET
IPB140N08S4-04
AUIRFS3107
FlexRay
Thanks to its state-of-the-art safety features, the new TriCore™ AURIX™ family enables systems to achieve the highest
ASIL-D safety level, which is already required in contemporary suspension systems.
The latest diverse lockstep technology with clock delay (diverse lockstep core) significantly reduces the software overhead
and enables fast time-to-market.
The scalability supports an optimized fit in order to meet different OEM specifications.
Application features
› TriCore™ DSP functionality
› Best‑in‑class performance: up to six TriCore™
with 300 MHz per core
› Supports the floating point and fix point with all cores
› Up to 6.9 MB
› Communication peripherals: CAN, LIN, FlexRay, Ethernet
› Innovative single supply of 5 V or 3.3 V
› Wide range of packages from 80–516 pin
› ISO 26262 conformance to support
safety requirements up to ASIL-D
› Availability of AUTOSAR 4.x
www.infineon.com/suspension
System benefits
› Scalability over flash, RAM and peripherals, offering the
best cost-performance ratio
› Proven safety concept to support ISO 26262
› Innovative supply concept leads to best‑in‑class power
consumption and saves external component costs
Suggested products
› TC33x
› TC36x
› TC37x
55
�AURIX™ for
safety applications
Applications
Airbag system
Application example
+12 V from battery
Power supply
buck, boost, linear, watchdog,
reset, buckle switch interface
TLE87601)
Pressure sensor
KP108-AD
KP200
Vsat
Pressure sensor
KP108-AD
Vfire
Vlogic
HSM
KP200
ADXL15x
ADXL15x
Door
Warning lamp
Satellite
sensor
interface
TLE7729T
Sensor
SPI bus
KP200
KP200
Airbag off
32-bit MCU
Multicore/
Lockstep
AURIX™
Pressure sensor
KP108-AD
Pressure sensor
KP108-AD
Buckle switch
TLE4976L
TLE4976-1K
TLE4976-2K
Buckle switch
TLE4976L
TLE4976-1K
TLE4976-2K
Firing SPI bus
Pedestrian protection sensor IC
Door
Airbag ECU
Yaw, roll, pitch
+
low-g
x, y, z sensors
CAN
transceiver
TLE9250VSJ
TLE9250XSJ
CAN
LIN
transceiver
TLE7259-3GE
LIN
Squib driver
8-channel
TLE875x1)
Squib driver
4-channel
TLE875x1)
Squib driver
8-channel
TLE875x1)
CAN bus or LIN bus
1) Coming soon
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Squib
Reversible belt
pretensioners
Thanks to its state-of-the-art safety features, the new TriCore™ AURIX™ family enables systems to achieve the highest
safety level up to ASIL-D. Its scalability allows the selection of a single-core solution for basic airbag systems and multicore
solutions for airbag systems with an integrated sensor cluster. The best cost-performance fit is offered by the wide range of
flash, performance and peripheral options available within the AURIX™ family.
Application features
› Scalable flash 1 – 16 MB
› Performance 160 MHz – 6x 300 MHz
› Dedicated peripheral set: CAN, LIN, SPI, FlexRay, Ethernet
› Advanced timer unit, totally flexible PWM generation and
hardware input capture
› Redundant flexible 12-bit ADC
› Hardware SENT interface for a low CPU load
› Hardware built-in self-test overhead
› Safety software: Infineon SafeTcore library
› ISO 26262 conformance to support
safety requirements up to ASIL-D
› Availability of AUTOSAR 4.x
56
System benefits
› Scalability over flash, RAM and peripherals, offering the
best cost-performance ratio
› Serves all kinds of EPS systems, such as column or
belt drive
› Proven safety concept to support ISO 26262
› Innovative supply concept leads to best‑in‑class power
consumption
Suggested products
› TC22x
› TC23x
› TC32x
› TC33x
› TC36x
www.infineon.com/airbag
�AURIX™ for
safety applications
Applications
Automotive 24 GHz radar system
Application example
+12 V from battery
Safety system
power supply
TLF35584
Regulator
TLE8366E
3.3 V/600 mA
VSens
Coarse
Y
Y
Y
Y
Y
Y
Fine
Tx1
Tx2
Safety
watchdog
VTx
DAC-PLL
(optional)
WD
VMCU
HSM
32-bit MCU Multicore/
Lockstep AURIX™
24 GHz
radar
transceiver
BGT24ATR12
Rx1
Rx2
Rx3
Rx4
24 GHz
radar
receiver
BGT24AR2
BGT24MR2
LP filter
and
LNA
CAN
transceiver
TLE9251SJ
TLE9251VSJ
FlexRay
transceiver
TLE9221SX
24 GHz radar system
HS-CAN
FlexRay
The new TriCore™ AURIX™ family will enhance classic safety features with dedicated features to meet the needs of
24 GHz radar systems. The combination of new features and increased SRAM, in conjunction with outstanding safety features, enables a high level of integration and reduction of complexity.
Application features
› Up to 752 KB RAM for radar image storage
› Radar signal processing with windowing functionality
› Flexibility in radar signal acquisition
with 4x internal ADCs
› Possibility to connect external ADCs
(interface to connect up to 16-bit ADCs)
› High-precision input timers
› High-precision output timers for DAC
› Innovative single supply of 5 V or 3.3 V
› ISO 26262 compliance to support
safety requirements up to ASIL-D
› Availability of AUTOSAR 4.x
› Continuous, precise and flexible bit-streaming
machine (HSPDM) in AURIX™ TC3xx, to replace
the external DAC controlling the ramp generator
www.infineon.com/radar
System benefits
› High integration leads to significant cost savings
› High integration leads to reduced complexity
› ISO 26262 compliance supports safe input for functions
such as emergency braking
› Innovative supply concept
› Cost savings on the DAC component by using the AURIX™
TC3xx, which integrates the HSPDM IP
Suggested products
› TC23xLA
› TC26xDA
› TC33xDA
57
�AURIX™ for
safety applications
Applications
Highly integrated automotive 77 GHz radar chipset
Application example
VBatt
� TLF30
160 � A
S8
G
X
URI ™2
77 GHz
radar ECU
ADAS safety supply
UV-/OV-monitoring
window-watchdog
�R
682 X
Filtering
Analog
Y
Y
Y
Y
Y
Tx2
Tx3
Rx1
Digital
SPI
RXS816xPL
77 GHz
transmitter
receiver
+
PLL + ADCs
+
ADC interface
RIF
RIF
Clk
Clk-in
…
Y
Tx1
VMCU
VMMIC
Rx4
VCore
VTrx
Sync
TLF306821)
WWD
32-bit MCU
Multicore
AURIX™
2nd generation
TC33/x35x
SPU
FFT
Acquisition
RAM
Ethernet
Y
VTrx
VTrx
HS-CAN
FlexRay-bus
Thanks to its proprietary radar accelerator IP, the new TriCore™ AURIX™ TC3xx family will bring another level of performance
to radar applications, as well as fulfilling the ever-growing requirements regarding safety and security in the ADAS market.
Application features
› TriCore™ DSP functionality
› Best-in-class performance: up to six TriCore™
with up to 300 MHz per core
› Dedicated radar cluster with its own radar interface
(RIF, LVDS-based) and accelerators (SPU), offering not
only FFT but also filtering (CFAR), along with windowing
and signal power measures capabilities
› Up to 4 MB RAM for radar image storage
› High-precision input timers
› Innovative single supply of 5 V or 3.3 V
› External memory interface
› ISO 26262 compliance to support safety
requirements up to ASIL-D
› Availability of AUTOSAR 4.x
58
System benefits
› Family concept with three products for fast go-to-market
and scalable radar portfolio
› Rich features implemented in hardware to attain an
optimal performance/consumption ratio and reduce the
amount of components, leading to cost savings
› ISO 26262 compliance supports safe input for functions
such as emergency braking
Suggested products
› TC33xDA
› TC35xTA
› TC39xxA
› TC39XA
› TC3AxQA
www.infineon.com/radar
�AURIX™ for
safety applications
Applications
Sensor fusion
Application examples
Low cost sensor fusion
Main stream sensor fusion
+12 V from battery
+12 V from battery
Safety system
power supply
TLF35584
CAN FD
CAN FD
ADAS
smart sensors
FlexRay
FlexRay
CAN
transceivers
TLE6250/50
TLE7250
FlexRay
transceiver
TLE92xx
LIN
LIN
transceiver
Ethernet
Ethernet
transceiver
Safety system
power supply
TLF30684
Safety
watchdog
CAN FD
32-bit MCU
Multicore
AURIX™
CAN FD
FlexRay
FlexRay
CAN
transceivers
TLE6250/50
TLE7250
FlexRay
transceiver
TLE9221
LIN
LIN
transceiver
Ethernet
Ethernet
transceiver
Safety
watchdog
Ethernet
transceiver
32-bit MCU
Multicore
AURIX™
HSSL
Ethernet
32-bit MCU
Multicore
AURIX™
CAN
transceivers
TLE6250/50
TLE7250
ADAS smart
sensors
LIN
transceivers
Ultrasonic sensors
The new TriCore™ AURIX™ TC3xx family offers a scalable product portfolio to address the needs of low-resolution grid
fusion applications.
Application features
› TriCore™ DSP functionality
› Best-in-class performance: up to six TriCore™ with up to
300 MHz per core, up to 2400 DMIP ASIL-D capable per MCU
› Up to 4 MB RAM for grid information treatment
› Up to 16 MB eFlash to support A/B swap SOTA
› HSSL connectivity for easy coupling of two AURIX™
› Ethernet up to 1 Gbit/s for fast connection to network
and main SoC
› External memory interface (eMMC) for data logging
› ISO 26262 compliance to support safety requirements
up to ASIL-D
› Availability of AUTOSAR 4.x
www.infineon.com/sensorfusion
System benefits
› Family concept with PIN and software compatibility, for
maximum re-use and fast go-to-market
› Low power consumption for compact low/mid-end solutions
› Rich legacy peripherals (CAN FD, LIN, …) for integrated
gateway application and multi-sensor architecture
Suggested products
› TC29xTA
› TC35xTA
› TC37xTX
› TC38xQP
› TC39xXX
› TC3E7Qx
59
�AURIX™ for
safety applications
Applications
Sensor fusion: L2+-L5
Application example – Domain controller for autonomous drive
+12 V from battery
Safety system
power supply
TLF35584
TLF30684
CAN FD
CAN FD
ADAS smart sensors
FlexRay
FlexRay
LIN
CAN
transceivers
TLE6250/50
TLE7250
Supply
Safety
watchdog
DRAM
32-bit MCU
Multicore
AURIX™
FlexRay
transceiver
TLE92xx
LIN
transceiver
HSSL,
multi-channel SPI
Application
processor
Ethernet
switch
eMMC
ADAS sensors (radar, camera, LIDAR, GPS)
The new TriCore™ AURIX™ TC3xx family offers a scalable product portfolio to address the needs of sensor fusion applications, from stand-alone object fusion to companionship for a high-end AD ECU.
Application features
› TriCore™ DSP functionality
› Best-in-class performance: up to six TriCore™ with up to
300 MHz per core, up to 2400 DMIP ASIL-D capable per MCU
› Up to 4 MB RAM for grid information treatment
› Up to 16 MB eFlash to support A/B swap SOTA
› HSSL connectivity for direct coupling with SoC
› Ethernet up to 1 Gbit/s for fast connection to network and SoC
› External memory interface (eMMC) for data logging
› ISO 26262 compliance to support safety requirements
up to ASIL-D
› Availability of AUTOSAR 4.x
60
System benefits
› Family concept with PIN and software compatibility,
for maximum re-use and fast go-to-market
› Rich legacy peripherals (CAN FD, LIN, …) for integrated
gateway application
Suggested products
› TC29xTA
› TC37xTX
› TC38xQP
› TC39xXX
› TC377TX
www.infineon.com/sensorfusion
�Applications
AURIX™ for connectivity applications
Connectivity electronics systems embrace a broad variety
of applications inside the car, covering comfort, safety
and security as well as high-performance computing and
in-vehicle networking. This leads to the key strengths of
the AURIX™ family:
› AUTOSAR – AUTOSAR 4 facilitates the easy design of
multicore architectures into vehicles. Infineon is one of the
first implementers of a multicore architecture with AURIX™
ready for AUTOSAR 4.x. Furthermore, Infineon also provides the MCAL drivers developed in accordance with the
CMM 3 level.
› Power consumption – An innovative supply concept auto
matically adapts the power consumption to the actual
performance requirements. Furthermore, the new trend
of pretended networking and ECU degradation is actively
supported.
› Safety – The trend is toward the integration of safety
targets in the requirements of advanced body systems,
such as lighting, BDC etc. To achieve the required ASIL
level according to ISO 26262, AURIX™ has the capability to
cover targets up to the highest ASIL-D safety integrity level.
› Security – In the future, the need for a high level of secu
rity will also expand into body applications. Cars are
expected to hold even more information as they become
smart cards on wheels for simplifying financial transactions at gas pumps, charging stations, parking lots, toll
booths, drive-through shops and more. The vehicle will
act as a smart card and pay your fee/fare – sometimes
automatically. Hardware-based security is more robust
than software-only security. AURIX™ provides a dedicated
module, the HSM (Hardware Secure Module), to cover the
highest level of security.
› Enhanced communication – As cars incorporate an in-
creasing amount of electronics, the body electronics
module’s responsibilities increase to handle the additional
components and message traffic. Due to the gateway
functionality of the BDC, AURIX™ has enhanced communication capabilities to support communication between
CAN FD, LIN, FlexRay and Ethernet buses.
61
�AURIX™ for
connectivity applications
Applications
Advanced gateway architecture
Application example
Gateway ECU
System base chip
Application
processor
(optional)
6 MB flash
TC377TX
4 MB SRAM
Stand-by
controller
3x
TriCore™
300 MHz
eMMC/
SDIO
Full EVITA
HSM
up to
2xGB
Ethernet
12 LINs
SOTA
flash
memory
LIN
transceiver
FlexRay
transceiver
FlexRay
Gbit
Ethernet
MAC
20 CAN FD
CAN FD
transceiver
Ethernet switch
Domain
controller 1
Domain
controller 2
Domain
controller n
Ethernet OBD
In gateway applications, AURIX™ TC3xx microcontrollers support the latest communications interfaces and feature a Gigabit
Ethernet interface, up to 12 ISO 11898-1-compliant CAN FD channels and up to 24 LIN channels. An additional eMMC interface for
external flash interfacing enables local data storage, supporting software-over-the-air update concepts.
Application features
› High-performance processing: up to six-core 300 MHz
› Automotive up to 2xGB Ethernet
› Up to 20 CAN FD
› eMMC for external flash
› Hardware security module
› AUTOSAR 4.2 support
62
System benefits
› Integrated, cost-efficient solution for a connected
gateway with SOTA, secure on-board communication…
› Fast secure boot
› Gateway board to reduce the development outlay
Suggested products
› TC36x
› TC37x
› TC3E7
› TC38x
› TC39x
www.infineon.com/gateway
�AURIX™ for
connectivity applications
Applications
Telematics control unit and V2X
Application example
Battery (KL30/31)
Backup battery
Central
storage3)
Mute
button
Safety system
power supply
TLF35584
Buck
converter
Safety
watchdog
Power Management
Integrated Circuit (PMIC)
eUICC1)
SLI 97
eMMC
SDIO
32-bit MCU
Multicore/
Lockstep
AURIX™
Emergency
call button
Airbag
I/F
SLI 97 V2X
HSM
RF
transceiver
1 Gbit
ETH
Application
processor
and
modem
ETH
switch
Key
I/F
LED
I/F
TLE9250SJ
CAN
TLE7250G
Vehicle network
ETH
PHY
Central
gateway
ETH
PHY
Head unit
RF
switches
GPS
LNA2)
LTE/3G
LNA
Antenna
tuner
Flash
RF diodes / transistors
Cellular
GNSS
WiFi
SRDAM
Audio
codec
HSM
Active antenna supplies
TLF4277-2EL
TLF4277-2LD
Audio
amp.
Mic.
Mic.
Spk.
1) Universal integrated circuit card (embedded SIM)
2) Low-Noise Amplifiers
3) Depending on customer architecture part of gateway, telematics etc.
The telematics control unit connects the car to the outside world, thereby enabling numerous new applications and functionalities. Software in different ECUs can be updated remotely, to either add new features or remove any software bugs
that might be found during operation. This reduces the number of recalls and related costs, while increasing customer
satisfaction. The opportunity to add new features opens up the door to new business models and revenue streams.
Application features
› eCall
› Remote diagnostics
› Payment systems
› Software update
› Feature upgrades
› Internet services
› etc.
Application features
› Superior Hardware Security Solution (HSM) + functional
safety up to ASIL-D (e.g. eCall, V2x communication,
software update of safety-critical ECUs)
› Automotive and consumer interfaces
(incl. CAN/-FD, FlexRay, Ethernet etc.)
› Highly scalable product portfolio
(starting with 2 MB and QFP-100 at the lowest end)
System benefits
› System supplies, bock converter, active antenna
supplies etc.
› Secure elements (eUICC, OPTIGA™ TPM 2.0,
SLI 97 V2X etc.)
› RF switches, RF diodes/transistors, low-noise amplifiers
(GPS, LTE etc.)
› Silicon microphone
Suggested products
› TC23x
› TC33x
› TC3Ex
› TC36x
› TC37x
www.infineon.com/car-security
63
�AURIX™ for
connectivity applications
Applications
High-feature body domain control unit
Application example
Left
front-light control
Right
front-light control
PROFET™ – single, dual and quad-channel high-side driver
SPOC™ – SPI-based multi-channel high-side driver family
I/O
LIN bus
CAN bus
+12 V from
battery
LIN transceiver
TLE7259-3GE
TLE7258SJ
TLE7269G
32-bit MCU
Multicore/
Lockstep
AURIX™
CAN transceiver
TLE7250G
TLE6251-3G
TLE6251D
System supply
TLF35584
SPI
FlexRay
transceiver
TLE9221SX
CAN transceiver
TLE7250G
TLE6251-3G
TLE6251D
Relays
SPIDER+
multi-channel
high-/low-side
driver
I/O
CAN bus
HSM
Communication
FlexRay
Ethernet
PHY
HITFET™
low-side
drivers
Interior light
Logic signals on VBAT level
e.g. switched VBAT rails
LITIX™ Basic
current
sources
for LEDs
RKE/PKE/TPMS
TDA52xx
(receiver)
TDA5340
(transceiver)
Supply
Ethernet
LEDs
SPI
I/O
RF transmitter
TDK51xx
PMA51xx
Tire pressure
monitor
SP37
SPI
PROFET™ – single, dual and quad-channel high-side driver
SPOC™ – SPI-based multi-channel high-side driver family
Left
rear-light control
Right
rear-light control
Body Domain Control unit (BDC) application comprising internal and external lighting systems, as well as control of relays
and voltage rails and further comfort functions such as door and wiper control. The central gateway manages all internal
interfaces (i.e. motor management, in-car entertainment, dashboard or convenience control) and communication with
external interfaces for after-sales software updates. The AURIX™ multicore concept enables the integration of two applications in one device, e.g. BDC and gateway.
Application features
› Scalable MCU family from single to multicore
› Encapsulation feature allows interference-free software
development for multiple applications
› Embedded EEPROM
› Advanced communication peripherals:
CAN, LIN, SPI, FlexRay, Ethernet
› ISO 26262 conformance to support safety requirements
up to ASIL-D
› Availability of AUTOSAR 4.x
64
System benefits
› Enables pretended networking and ECU degradation
› High integration leads to significant cost savings
› High integration leads to reduced complexity
› ISO 26262 compliance supports ASIL requirements
› Innovative supply concept leads to best-in-class power
consumption
Suggested products
› TC36x
› TC39x
TC37x
›
› TC3E7
› TC38x
www.infineon.com/bdc_advanced
�AURIX™ for
connectivity applications
Applications
Wireless charger solution
Application example
3-coil wireless charger solution
VBAT
5–40 V
TLD5190QV
(buck/boost)
TLS4120
pre-regulator
IPG20N06S4L-11A (60 V)
IPG20N10S4L-22 (100 V)
(coil switches)
IPG16N10S4L-61A
(2x dual FET)
AURIX™
SAK-TC212S-8F133SC
5 V gate
DRV
Wireless charger
controller
TLS203B0
(LDO)
AUIRS2301S
driver
IPG20N04S4L-18A
(dual FET)
NFC radio
CAN
interface
TLE9251VSJ
(CAN)
Coil #1
Coil #2
Coil #3
Higher integrated version with SBC
VBAT
5–40 V
TLD5190QV
(buck/boost)
IPG20N06S4L-11A (60 V)
IPG20N10S4L-22 (100 V)
(coil switches)
IPG16N10S4L-61A
(2x dual FET)
5 V gate DRV
CAN
interface
TLE9471-3
SBC
3.3 V
CAN
AURIX™
SAK-TC212S-8F133SC
Wireless charger
controller
AUIRS2301S
driver
IPG20N04S4L-11A
NFC radio
Coil #1
A multi-mode charger with ultimate flexibility
› High-efficiency 15 W charging without exotic thermal
management
› Multi-mode supporting Q-inverters and fast charge on
the same hardware
› Supports future products and standards with
a firmware upgrade
› Charger is backward compatible with all lower-power
and legacy Q-inverters devices
› Supports single and multi-coil charging surfaces
› Allows the easy addition of custom features for
differentiated applications
Fully compatible with the automotive environment
› Controlled-frequency operation prevents interference
with other systems and reduces EMI
› Operates on 6–19 V input supply, supporting stop/start
› Protected from load dump, double battery and
reverse battery
› Supports CAN for integration into the automotive
communications infrastructure
› Full thermal management support, including system
monitoring and charge-rate fold back
www.infineon.com/wirelesscharging
Coil #2
System benefits
› Supports greater coil-to-coil Z height than competing
solutions
› A higher efficiency than other solutions means a larger
charging “sweet spot”
› Total front-to-back solution ensures maximum efficiency,
minimal thermal impact and ease of certification
› Reference design is self-protected (load dump, reverse
battery etc.)
› A single AURIX™ supports wireless charging, system application, CAN and external NFC interface functions
› Can support charging two devices using a single controller
› Built-in security functionality meets the latest automotive
requirements
› Proven fixed frequency/variable voltage hardware and
software architecture
› Proven EMI performance
› Certified WPC 1.2.2 (15 W) on multiple previous products
Suggested products
› TC21x
› TC22x
› TC23x
65
�AURIX™ for
connectivity applications
Applications
Pixel lighting
Application example
+12 V from battery
Safety system
power supply
TLF35582
CAN FD
CAN FD
Ethernet
CAN
transceivers
TLE6250/50
TLE7250
Safety
watchdog
GTM
e.g.: RGB
DLP
32-bit MCU
Multicore
AURIX™
TC3xx
LCD
LED
matrices
SPI
Ethernet
transceiver
Automotive instrumentation ports
› Production device = 10 MB/sec
› Engineering = 250 MB/sec
The new TriCore™ AURIX™ TC3xx family offers a scalable product portfolio to address low to high-definition safe headlight
systems.
Application features
› TriCore™ DSP functionality
› Best-in-class performance: up to six TriCore™ with up to
300 MHz per core
› Complete family qualified for automotive grade 0
› Up to 6.9 MB RAM for light distribution processing
› Up to 16 MB eFlash to support A/B swap SOTA
› GTM cluster to emulate the main peripheral protocols of
this market
› Ethernet up to 1 Gbit/s for fast connection to network
› External memory interface (eMMC) for data logging
› Availability of AUTOSAR 4.x
66
System benefits
› Enables smart headlight solutions , to save connectivity
costs
› Family concept with PIN and software compatibility, for
maximum portfolio scalability, re-use and fast go-to-market
› Compatibility with all major headlight driver solutions
› Rich legacy peripherals (CAN FD, LIN, …)
Suggested products
› TC367DP
› TC377TP/X
› TC387QP
› TC397XP/X
www.infineon.com/pixel-lighting
�Applications
Commercial and Agricultural Vehicles (CAV)
AURIX™ is Infineon’s brand-new family of microcontrollers,
designed to precisely meet the needs of the 24–60 V industry in terms of performance, memory, scalability, safety and
security.
Its innovative multicore architecture supports the latest
trends in connectivity, such as Ethernet and CAN FD, as well
as safety (IEC 61508/ISO 25119/ISO 26262) and security.
While supporting a high performance, the innovative
supply concept with integrated DC-DC converter leads to
best-in-class power consumption.
The scalable AURIX™ family leads to the most optimized
cost-performance application fit.
AURIX™ addresses CAV requirements and challenges
External memory extension
Lots of IOs
Safety
› Expensive external RAMs
› Short life cycles
› Design complexity
› No memory integrity support
› Hundreds of valves, actuators
› Increasingly rigorous safety
› Special devices with extended
› Different packages up to 516 pins
› Multiple ADCs, communication
› IEC 61508 family safety concept
› Lockstep
› Safety support
SRAM
› Up to 2.7 MB SRAM
www.infineon.com/CAV
and LEDs
› Many analog signals to be
measured
› Communication interfaces
interfaces
standards
› Expensive dual-channel
approach
› Tedious work until certification
67
�AURIX™ for
transportation applications
Applications
Hydraulic/pneumatic management system
CAVs are under mounting pressure to provide highest possible availability and
lowest-possible operating costs as operators strive to maximize profits. Hydraulic or pneumatic system are key applications toward such targets, providing
great reliability and low operational cost. The new TriCore™ AURIX™ TC3xx family offers a scalable product portfolio to address all the demands for valve control
management.carry out a variety of protective and diagnostic functions.
Hydraulic system overview
+24 V
BTT6050-2EKA
Pedal
TLE4253
Inlet
TLE4271
TLE4990
Inlet
VBAT
+
-
OUT
BTT6030-1EKA
32-bit MCU
Multicore/
Lockstep
AURIX™
BTT6050-2EKA
Outlet
Pump
TLE7250G1)
TLE6251DS1)
Reservoir
Chassis
CAN bus
1) �If ECU permanently supplied, you may need to add
external protection against load dump 400 ms above 40 V.
1) If ECU permanently supplied, you may need to add external protection against load dump 400 ms above 40 V.
Hydraulic management system has to be precise and robust enough to withstand harsh environments and engineered to
carry out a variety of protective and diagnostic functions.
Application features
› Valves and pumps can be driven via linear activation or
demand-controlled via PWM signals
› Integrated solution reduces the design outlay
› Pin-to-pin and software compatibility
› AECQ-100 qualified
Suggested products
› TC32x
› TC33x
› TC36x
› TC37x
68
Key benefits
› AURIX™ advanced timer unit for dynamic PWM generation
and hardware input capture
› Scalability over flash, RAM and peripherals, offering the
best cost-performance ratio
› High microcontroller junction bare die temperature to
withstand high temperature environments.
› AURIX™ safety requirements supported up ISO 26262 ASIL-D
www.infineon.com/CAV
�AURIX™ for
transportation applications
Pneumatic system overview
+24 V
BTT6050-2EKA
Pedal
TLE4253
Inlet
TLE4271
TLE4990
Inlet
VBAT
+
-
OUT
BTT6030-1EKA
32-bit MCU
Multicore/
Lockstep
AURIX™
BTT6050-2EKA
Outlet
Compressor
pump
TLE7250G1)
TLE6251DS1)
Chassis
CAN bus
1) If ECU permanently supplied, you may need to add external protection against load dump 400 ms above 40 V.
Pneumatic management system is typically chosen for its cost effectiveness and ease of integration
(no need for a reservoir) compared to its hydraulic counterpart.
Application features
› Valves and pumps can be driven via linear activation or
demand-controlled via PWM signals
› Integrated solution reduces the design outlay
› Pin-to-pin and software compatibility
› AECQ-100 qualified
Key benefits
› AURIX™ advanced timer unit for dynamic PWM generation
and hardware input capture
› Scalability over flash, RAM and peripherals, offering the
best cost-performance ratio
› High microcontroller junction bare die temperature to withstand high temperature environments.
› AURIX™ safety requirements supported up to ISO 26262
ASIL-D
Suggested products
› TC32x
› TC33x
› TC36x
› TC37x
www.infineon.com/CAV
69
�AURIX™ for
transportation applications
Applications
Radar 24 GHz
Application example
+24 V from battery
Low-noise
power supply
TLE8366EV
TLS208D
Safety system
power supply
TLF35584
VSens
3.3 V/600 mA
Coarse
Y
Optional
DAC-PLL
Fine
Tx1
VTx
Safety
watchdog
VMCU
WD
32-bit MCU
Multicore/Lockstep
AURIX™
200 MHz
input timer
BGT24ATR12
Y
SPI
Rx1
LPF + LNA
FFT engine
Acquisition
RAM
4x ADCs
FFT engine
CAN
transceiver
TLE6251
TLE7250
24 GHz short radar system
HS-CAN
FlexRay
transceiver
TLE9221
FlexRay
Self-driving technologies have the potential to revolutionize the CAV sector. Driverless machines can operate 24/7 – whether on a construction site or the freeway. Autonomous systems eliminate the need for downtime as well as the most common cause of accidents: people. In agriculture, autonomous tractors can spread fertilizer and plant seeds with utmost
precision. The new TriCore™ AURIX™ family will enhance classic safety features with dedicated features to meet the needs
of 24 GHz radar systems.
Application features
› High integration leads to significant cost savings
› Small PCB footprint
› Hardware compliance with ISO 61508 up to SIL 3 supports
safe input for functions such as emergency braking
› Low cost in BOM as the AURIX™ microcontroller replaces
additional DSP and external memory
Suggested products
› TC23xLA
› TC26xDA
› TC33xDA
70
Key benefits
› Up to 752 KB RAM for radar image storage
› Radar signal processing with windowing functionality
› Flexibility in radar signal acquisition with 4x internal ADCs
› Possibility to connect external ADCs (interface to connect
up to 16-bit ADCs)
› High-precision input/output timers
› ISO 26262 compliance to support safety requirements up
to ASIL-D
› Continuous, precise and flexible bit-streaming machine
(HSPDM) in AURIX™ TC3xx, to replace the external DAC
controlling the ramp generator
www.infineon.com/cav-24ghz
�AURIX™ for
transportation applications
Applications
Gateway 24 V
Application example
+24 V from battery
TLE9278
OPTIREG™
PMIC
PMIC
OPTIREG™
PMIC
SBC
(4x CAN)
TLE9250
TLE9251
32-bit MCU
Multicore
AURIX™
TLE9221
HSSL
Ethernet switch
Ethernet
transceiver
Vehicle
interfaces
32-bit MCU
Multicore
AURIX™
SOTA
memory
OPTIGA™ TPM
Ethernet
transceivers
TCU, infotainment
Not different from a passenger cars, in order to comply with Megatrends like CO2 emissions, ADAS and Connectivity, CAVs need
sophisticated systems which can offer cost efficient and high performant computational power. Such requirements demand high
complexity E/E architectures with respect to in-vehicle communication networks, power networks, connectivity, safety and security. In order to reliably and securely transfer different types of data through different network protocols, CAVs make use of a Gateway controller, which perform as a hub among all the functional domains that share data. The high computing performance and
multiple connectivity interfaces of the new TriCore™ AURIX™ family makes it the ideal microcontroller for gateway applications.
Application features
Key benefits
› 24 V compliant gateway
› AURIX™ computing performance, flexibility, scalability,
integrated safety and security support
› Enable high complexity E/E architectures
› Data transfer across different functional domains working › AURIX™ multiple connectivity capabilities, including up to
in different network protocols
2 Gigabit Ethernet interfaces
› Gateway board to reduce the development outlay
› High integration leads to significant cost savings and
reduced complexity
Suggested products
› AURIX™ Hardware Security Solution (HSM) provides the
TC37x
highest level of security
›
› TC39x
› Hardware compliance with ISO 26262 up to ASIL-D
71
�AURIX™ for
transportation applications
Applications
In cabin wireless charging
Application example
3-coil wireless charger solution
VBAT
5–40 V
TLD5190QV
(buck/boost)
TLS4120
pre-regulator
IPG20N06S4L-11A (60 V)
IPG20N10S4L-22 (100 V)
(coil switches)
IPG16N10S4L-61A
(2x dual FET)
AURIX™
SAK-TC212S-8F133SC
5 V gate
DRV
Wireless charger
controller
TLS203B0
(LDO)
AUIRS2301S
driver
IPG20N04S4L-18A
(dual FET)
NFC radio
CAN
interface
TLE9251VSJ
(CAN)
Coil #1
Coil #2
Coil #3
Higher integrated version with SBC
VBAT
5–40 V
TLD5190QV
(buck/boost)
IPG20N06S4L-11A (60 V)
IPG20N10S4L-22 (100 V)
(coil switches)
IPG16N10S4L-61A
(2x dual FET)
5 V gate DRV
CAN
interface
TLE9471-3
SBC
3.3 V
CAN
AURIX™
SAK-TC212S-8F133SC
Wireless charger
controller
AUIRS2301S
driver
IPG20N04S4L-11A
NFC radio
Coil #1
Coil #2
As farmers seek to increase crop yields, access to data that like field mapping, planting calculations, spray logs, soil sampling tools and weather predictions, can help them make decisions to maximize output. However, none of this would be
possible if, after a long travel to the field, their tablet, phone, personal computer or even a necessary Powertool runs out of
battery. Therefore, Infineon has developed a wireless power controller system using AURIX™ family microcontrollers that
helps the next-generation wireless charging systems meet strict safety, environmental and regulatory requirements, while
still enabling industry-leading charging performance and efficiency in a CAV environment (e.g. armrest of a tractor).
Key features
› High-efficiency 15 W charging without exotic thermal
management
› Multi-mode supporting Q-inverters and fast charge on the
same hardware
› Supports single and multi-coil charging surfaces
› Allows the easy addition of custom features for differentiated applications
Suggested products
› TC212S-8F133SC
72
System benefits
› Supports greater coil-to-coil Z height than competing solutions
› Total front-to-back solution ensures maximum efficiency,
minimal thermal impact and ease of certification
› A single AURIX™ device supports wireless charging, system
application, CAN and external NFC interface functions
› One AURIX™ controller can support charging two devices
at the same time
› Built-in security functionality meets the latest CAV/automotive requirements
› Proven fixed frequency/variable voltage hardware and
software architecture
› Proven EMI performance
› Certified WPC 1.2.2 (15 W)
�AURIX™ for
transportation applications
Applications
Drones/multicopter
Application example
M
M
Front
camera
tor
Mo trol
n
co
M
Corner
radar
M
Mo
co tor
ntr
ol
Down
camera
Flight
controller
Battery
management
system
Landing
radar
Mo
co tor
ntr
ol
Corner
radar
Motor
control
Motor
control
Corner
radar
tor
Mo trol
n
co
M
Corner
radar
M
Infineon’s comprehensive portfolio of high-quality products contains the widest spectrum of multicopter components on
the market. We offer everything from industrial XMC™ controllers to the AURIX™ family, supporting everything from motor
control of the rotors to autonomous flying support with 24 GHz radar. Thanks to an optimized feature set, we can support
both consumer (XMC™ family) and commercial drones (AURIX™ family). The new safety requirements can be covered with
the AURIX™ family which supports IEC 61508/SIL-3 and ISO 26262/ASIL-D.
www.infineon.com/multicopters
73
�AURIX™ for
transportation applications
Applications
Drones/multicopter
Application example
Power management
Authentication
LDO
Battery management
DC-DC
Authentication
and remote control
Gate driver
3-phase
inverter
24 GHz
radar sensor
XMC™/AURIX™
Microcontroller
and
digital control ICs
Security
2.4/5.0 GHz
wireless
Current sensing
ESD
Hall latches or
angle sensor
Current or position sensing
Remote control
USB
LTE/GPS
LED
Joystick
Pressure sensor
CAN
Video camera
M
Motor drive
Gimbal
XMC1400
Microcontroller
M
Angle sensor
Hall latches
Application features
› Commercial drone solution based on AURIX™ family
› Decentralized architecture
› Single chip solution – AURIX™ for flight control, motor
control, radar sensors, BMS and power conversion providing optimum balance between BOM cost and performance
Suggested products
› TC37x
› TC39x
74
Key benefits
› Dedicated motor control unit using AURIX™ CCU6 & GTM
for fine motor tuning, as well as multicore architecture to
drive several motor per device
› Redundant sensors input for safety and sensor fusion
enabling a smooth and precise flight control
› AURIX™ functional safety capabilities compliant with
IEC 61508 SIL 3
› AURIX™ Hardware Security Module (HSM) provides secure
authentication for original parts, protection against manipulation and secure SOTA software updates.
› 24 GHz radar can be used to measure the presence of
objects, measure the range, speed/velocity, ascertain
proximity, and determine the position of objects
www.infineon.com/multicopters
�Applications
AURIX™ for industrial applications
AURIX™ for high-performance, multicore and safety-demanding applications
The AURIX™ 32-bit microcontroller family is based on the
Infineon TriCore™ high-performance core concept and
provides a highly scalable family from single core to multicore.
The AURIX™ family enables the highest integrated safe
memory sizes (SRAM up to 6.9 MB and flash memory up
to 16 MB) and all memory is protected by hardware Error
Correction Code (ECC). The devices reach more than 600
DMIPS at clock rates of up to 6x 300 MHz and combine MCU
and DSP instructions with an integrated FPU.
The integrated peripheral set is primarily targeted toward
motor control and power conversion, providing high-performance ADCs, DS ADCs and a full set of diverse high-performance timers. This is one of the very few in the industry
that is able to drive the upcoming three-level inverter
topologies. Furthermore, the AURIX™ family supports the
latest connectivity, such as Ethernet, CAN FD, FlexRay and
multiple other high-speed interfaces.
www.infineon.com/industrial
Providing security and functional safety
In a global economy, IP protection and secure communication plays an increasingly important role. This demand
is accounted for by the integration of special security
modules providing the required means of safe key storage,
along with secure boot and encryption on the hardware
level. As one of the leaders in functional safety, Infineon has
designed the TriCore™ MCUs to meet the growing demand
for functional safety in the industrial market as specified
in IEC 61508. Via our cooperation partner Hitex, Infineon
offers a complete package comprising a microcontroller,
safety supply with integrated watchdog TLF35584, software
and documentation, achieving safety integrity levels up to
SIL3.
The new generation of TriCore™-based microcontrollers
– AURIX™ – provides another significant performance
milestone by integrating up to six cores in one device. The
multicore concept is targeted at running concurrent applications in parallel. Some of the integrated cores integrate
lockstep functionality and the peripherals can be allocated
to individual cores. This facilitates running a combination
of safety-critical tasks, such as controlling an inverter, with
non-critical tasks, such as network communication, on a
single MCU.
75
�AURIX™ for
industrial applications
Applications
Infineon Microcontrollers for
industrial applications
Infineon has combined its wealth of experience in microcontroller design to offer a wide portfolio that can cover a
broad range of industrial applications. It is based on:
› The XMC™ family for real-time critical applications where an industry-standard core is needed
› The AURIX™ family for applications where more performance, connectivity, safety and security are needed
Arm® Cortex®-M
TriCore™
XMC4000
AURIX™
AURIX™
2nd generation
1st generation
XMC1000
Performance
Embedded Power ICs
XMC1000
XMC4000
AURIX™ 1st generation
AURIX™ 2nd generation
Embedded
Power ICs
(System-on-Chip)
Arm® Cortex®-M
CPU up to 40 MHz
Flash: 36–128 kB
Package: 48 pins
XMC1000
Arm® Cortex®-M0
CPU up to 48 MHz
Flash: 8–200 kB
Package: 16 –64 pins
XMC4000
Arm® Cortex®-M4F
CPU up to 144 MHz
Flash: 64 k– 2 MB
Package: 48–196 pins
AURIX™ TC2x1)
TriCore™
Up to 3x multicore
CPU up to 300 MHz
Flash: 0.5–8 MB
Package: 80–516 pins
Consumer and industrial
Embedded Power ICs
AURIX™ TC3x1)
TriCore™
Up to 6x multicore
CPU up to 300 MHz
Flash: 1–16 MB
Package: 100–516 pins
Computation power
1) AURIX™ devices add safety and CAN FD
76
www.infineon.com/industrial
�AURIX™ for
industrial applications
Applications
Servo drives
Application example
Multi-protocol
industrial Ethernet (FPGA)
Ext. RAM
8 MB
Operator HMI
CAN/RS485
Safety unit
AURIX™
or 2x XMC44xx
Abs-encoder
setValue-encoder
32-bit MCU
AURIX™
Motorfeedback 1
Motorfeedback 2
EEProms
Control signals
Power stage
Housekeeping
XMC1000
Application features
› High computing performances
› High level of accuracy, integration and efficiency
› Safety management in line with current norms
› Supports a different variant of drives portfolio
› Security features that protect intellectual property from
counterfeiting
Suggested products
› TC26x
› TC27x
› TC29xT
› TC33x
› TC36x
› TC37x
› TC38x
› TC39x
› XMC1000
› XMC44xx
www.infineon.com/motorcontrol
System benefits
› Scalable portfolio
› High computing performance thanks to
multicore architecture
› Ability to drive numerous servo motors
› High flexibility thanks to tailored peripherals
› Integrated safety support
› Integrated security with hardware security module
› Large portfolio with long-term availability
77
�AURIX™ for
industrial applications
Applications
Industrial robotics
Application example
Power management
SMPS
LDO
DC-DC
Authentication
Gate driver
Security
CAN
3-phase
inverter
32-bit MCU
AURIX™
Current sensing
Wireless
USB
EtherCAT
Hall latches
or
XMC™
Output signal
Communications
Gyro
Sensor interface
XMC4xxx
78
Pressure sensor
Light/optical sensor
3D image sensor
Application features
› High computing performances
› High level of accuracy, integration and efficiency
› Safety management in line with current norms
› Various topologies for axes, joints and motors
› Security features that protect intellectual property
from counterfeiting
Suggested products
› TC23x
› TC38x
TC33x
›
› TC39x
› TC36x
› XMC4xxx
› TC37x
Actuators
Radar sensor
Accelerometer
Sensing
Position sensing
Angle sensor
LEDs
Human-device
interface
Pushbutton
M
System benefits
› High computing performance: up to 6x 300 MHz
› High flexibility thanks to tailored peripherals
› Integrated safety support
(EN ISO 10218 and ISO/TS15066)
› Integrated security with hardware security module
› Robust 3 V-, 5 V-, LVDS – PortPins
› Large portfolio with long-term availability
www.infineon.com/industrial-robotics
�AURIX™ for
industrial applications
Applications
Industrial motor drives
Application example
Safety system supply TLF35584
Window- and Q/Awatchdog
Boost-/buckpre-regulator
StdBy
LDO
UV-/OV-/errormonitoring
µC
LDO
Ref
LDO
Safe state
controller
Tracker 1
Tracker 2
Com
LDO
Powertrain domain
AURIX™ TC37x
32-bit MCU
EiceSIL™
driver IC
8x CAN
Lockstep
DC-DC converter
PWM
GTM
PWM
1x Ethernet
Lockstep
300 MHz
CPU1
Synchronized 3-phase
current measurement
Resolver interface
S
C
SAR-ADC
Resolver
300 MHz
CPU0
PWM generation
space vector
modulation
B
1x I2C
ADC
Motor control
hybrid domain control
DC-DC converter
resolver speed and position
PMSM
A
N
PWM
PWM
1x FlexRay
IGBT
HybridPACK™
300 MHz
CPU2
Speed
and
position
DS-ADC
Industrial motor drives have become more and more sophisticated over the years as they have to drive different motors, a
large amount of sensors and communication requirements. But beyond those, Safety becomes key to protect the humans
interacting with the machines. Therefore are various redundancy mechanisms required. This is what AURIX™ portfolio
offers combined with high reliability and long lifetime management.
Key benefits
› Dedicated motor control units: CCU6 & GTM for fine motor
tuning
› Redundant sensors input for safety and sensor fusion
› DS-ADC-enabled direct resolver to microcontroller
› Numerous ADC inputs
› BOM saving
› Multicore architecture to drive several motor per device
› Emergency STOP
www.infineon.com/motor-control
Suggested products
› TC2xx: TC21x, TC22x, TC23x, TC26x, TC27x, TC29x
› TC3xx: TC32x, TC33x, TC35x, TC36x, TC37x, TC38x, TC39x
79
�AURIX™ for
industrial applications
Applications
Elevators
Application example
Communication/schedule/data process
32-bit MCU AURIX™
Main inverter for lift
(AURIX™ or XMC™)
CAN
External control panel
floor 1
XMC14xx
Elevator car
CAN
External control panel
floor 2
XMC14xx
External control panel
floor x
XMC14xx
Internal control panel
XMC14xx
Door control sensor, etc.
XMC14xx
Door motor control
XMC4xxx
Modern elevators have strong safety requirements. The new TriCore™ family AURIX™ with state-of-the-art safety features
enables your system to meet the highest safety levels that are required in your system.
Combining AURIX™ and XMC™ families from Infineon is enabling you a power-ful solution that will reduce your software
overhead signifi-cantly and help your fast time-to-market.
Application features
› Multiprocessor support for reliability and safety
› Platform concept to allow extensive customization
› Up to 12 CAN for communication in system
› External bus interface (32-bit) with cache
› SRAM up to 6.9 MB
› Flash up to 16 MB
› Long-term availability
System benefits
› High computing performance: up to 6x 300 MHz
› Scalable family with compatibility: SW, pin-out
› High-speed asymmetric single/dual/triple core
› Up to 12 CAN or CAN FD nodes
› Resolver I/F
› Encoder I/F with digital noise filter
› Safety requirements supported up to IEC 61508/SIL-3
Suggested products
› AURIX™: TC33x, TC36x, TC37x, TC38x, TC39x
› XMC™: XMC14xx, XMC4xxx
80
www.infineon.com/industrial
�AURIX™ for
industrial applications
Applications
Inverters
Application example
Safety system
power supply
TLF35584
PMSM
A
N
IGBT
EconoPIM™
Safety
watchdog
B
S
C
EiceDRIVER™
PWM
CAN transceiver
TLE62xx
Fieldbus/FPGA/
external memory
CAN
32-bit MCU
AURIX™
12x
SAR-ADC
Resolver
EBU
SPI
IO
Speed
&
position
14x
DS-ADC
Inverters are key components and, regardless of whether the motor is synchronous, asynchronous or brushless DC, the
inverter always functions in a similar way and is controlled by an integrated PCB, which should be designed to minimize
switching losses and maximize thermal efficiency. Infineon is providing you solutions to support those requirements.s
Application features
› Multi-axis controller for two 3-phase complementary PWMs
› Multiple modulation strategies (SVPWM, DPWM, soft-PWM,
direct torque control) to support requirements aimed
at reducing noise emissions and increasing efficiency
› Ready for four Q-inverters, matrix-inverters
› Field-oriented control with less than 10% CPU load
› Multiprocessor support for reliability and safety
› Support for 3-level inverter topologies
› High computing performance up to 6x 300 MHz
› Up to 6.9 MB internal RAM
System benefits
› Scalable and compatible portfolio
› Diverse high-performance timer architectures
› Up to 12 SAR-ADCs 12-bit resolution
› Up to 14 DS-ADC
› Resolver I/F
› Encoder I/F with digital noise filter
› Very fast control loop
› IEC 61508 support – Safety Integrity Level (SIL) 1 to 3
› Innovative single power supply concept
› Large portfolio with long-term availability
Suggested products
› TC33x
› TC36x
› TC37x
› TC38x
› TC39x
www.infineon.com/industrial
81
�AURIX™ for
industrial applications
Applications
Wind turbines
Application example
AC
AC
generator
Inverter
Rectifier
~230 V
PWM
PWM
Blade pitch
control
ADC
Wind
sensor
32-bit MCU
AURIX™
ADC
Grid phase
monitoring
New sources of renewable energy, such as wind, are increasing to meet growing demand while helping reduce CO2 emissions. In parallel, generation and distribution are driven by strong innovation requirements that can be fulfilled with our
strong portfolio. Our microcontrollers can support the high level of connectivity and dataflow required as well as efficiently
manage the high power energy generated with the best cost – performance ratio.
Application features
› Reliable blade pitch control
› Increased wind turbine efficiency
› Multiple modulation strategies (SVPWM, DPWM, soft-PWM,
direct torque control) to support requirements aimed
at reducing noise emissions and increasing efficiency
› Multiprocessor support for reliability and safety
› Support for 3-level inverter topologies
Suggested products
› TC33x
› TC36x
› TC37x
› TC38x
› TC39x
82
System benefits
› Scalable and compatible portfolio
› Diverse high-performance timer architectures
› Up to 12 SAR-ADCs 12-bit resolution
› Up to 14 DS-ADC
› Resolver I/F
› Encoder I/F with digital noise filter
› IEC 61508 support – Safety Integrity Level (SIL) 1 to 3
› Large portfolio with long-term availability
www.infineon.com/wind
�AURIX™ for
industrial applications
Applications
Solar panels
Application example
DC
AC
IGBT
EconoPIM™
~230 V
EiceDRIVER™
Grid phase
monitoring and
synchronization
MPPT
PWM
ADC
Safety system
power supply
TLF35584
32-bit MCU
AURIX™
ADC
Safety
watchdog
Renewable energy standards require a certain amount of the energy produced to be generated from renewable sources
such as wind and solar. Some countries include some more specific requirements which further incentivize the deployment of particular energy technologies. In this contest, there is an increasing demand for solar power generation systems.
Application features
› Multi-phase PWM controller for single or multiple strings
› Multiple modulation strategies (SVPWM, DPWM,
soft-PWM, direct torque control) to support requirements
aimed at reducing noise emissions and increasing
efficiency
› Maximum Power Point Tracking (MPPT) to extract
maximum power from solar panels
› Grid phase monitoring and synchronization to ensure
power factor unity
› Current control to avoid disharmony and determine
the feed-in refund
› Support for 3-level inverter topologies
System benefits
› Scalable and compatible portfolio
› Diverse high-performance timer architectures
› Up to 12 SAR-ADCs 12-bit resolution
› Up to 14 DS-ADC
› Resolver I/F
› Encoder I/F with digital noise filter
› IEC 61508 support – Safety Integrity Level (SIL) 1 to 3
› DSP library available
› Large portfolio with long-term availability
Suggested products
› TC33x
› TC36x
› TC37x
› TC38x
› TC39x
www.infineon.com/solar
83
�AURIX™ for
industrial applications
Applications
Safe PLC
Application example
AURIX™
XMC™ 43/4800
XMC™ 43/4800
XMC™ 43/4800
XMC™ 43/4800
EtherCAT®
master
EtherCAT®
slave
EtherCAT®
slave
EtherCAT®
slave
EtherCAT®
slave
IN
IN
IN
IN
EtherCAT®
OUT
EtherCAT®
OUT
EtherCAT®
OUT
EtherCAT®
At the heart of most industrial control and factory automation systems is a programmable logic controller (PLC). Commonly referred to as the “brain” of a factory, a PLC controls a wide range of functions by receiving and processing data
from sensors and machines. It then uses this data to control and actuate external devices. Because it’s used in industrial
applications, a PLC must be robust. Moreover, a successful design must offer reliability, system stability and 100% interoperability with connected automation systems.
Key benefits
› AURIX™ as EtherCAT® master
– SW development via PDH RT labs
– Safety IEC 61508 (SIL3) high performance
– Scalability and SW reusability across family
› XMC™ as EtherCAT® slave controller
– Certified software available with no license cost
– No additional external component required
– BOM and PCB savings
– Enablement of EtherCAT® technology in harsh environment with 125°C ambient temperature
84
Suggested products
› AURIX™ TC2xx
› AURIX™ TC3xx
› XMC™ 43xx
› XMC™ 48xx
�TriCore™/AURIX™ software and tool partner ecosystem
AURIX™
Embedded software RTOS and AUTOSAR
Modelling, simulation and virtual prototyping
Integrated Compiler Environments
Software automation and auto code generation
Timing and scheduling analysis
Flash tools and programming services
Debugger, test and verification
Data measurement, calibration and rapit prototyping
Software verification and rule checker
Evaluation boards and SDKs
Training and engineering services
Free tools and software
85
�Feature overview AURIX™ family
263
84/10 DS
Yes
6
4x ASCLIN, 6x QSPI, 3x MSC, 2x I2C, 15x SENT, HSSL,
5x PSI5, 2x FlexRay, Ethernet
K
LFBGA-516
EVR, WUT, HSM
TC299TP
300
8000
728
FPU
3/1
263
84/10 DS
Yes
6
4x ASCLIN, 6x QSPI, 3x MSC, 2x I2C, 15x SENT, HSSL,
5x PSI5, 2x FlexRay, Ethernet, CAN FD
K
LFBGA-516
EVR, WUT, HSM
TC298TP
300
8000
728
FPU
3/1
232
60/10 DS
Yes
6
4x ASCLIN, 6x QSPI, 3x MSC, 2x I2C, 15x SENT, HSSL,
5x PSI5, 2x FlexRay, Ethernet
K
LBGA-416
EVR, WUT, HSM
TC297TA
300
8000
2728
FPU, FFT,
CIF
3/1
169
60/10 DS
No
6
4x ASCLIN, 6x QSPI, 3x MSC, 2x I2C, 15x SENT, HSSL,
5x PSI5, 2x FlexRay, Ethernet
K
LFBGA-292
EVR, WUT, HSM
TC297TX
300
8000
2728
FPU
3/1
263
60/10 DS
No
6
4x ASCLIN, 6x QSPI, 3x MSC, 2x I2C, 15x SENT, HSSL,
5x PSI5, 2x FlexRay, Ethernet
K
LFBGA-292
EVR, WUT, HSM
TC297TP
300
8000
728
FPU
3/1
169
60/10 DS
No
6
4x ASCLIN, 6x QSPI, 3x MSC, 2x I2C, 15x SENT, HSSL,
5x PSI5, 2x FlexRay, Ethernet, CAN FD
K
LFBGA-292
EVR, WUT, HSM
TC277TP
200
4000
472
FPU
3/2
169
60/6 DS
No
4
4x ASCLIN, 4x QSPI, 2x MSC, HSSL, I2C, 10x SENT,
3x PSI5, FlexRay, Ethernet, CAN FD
K
LFBGA-292
EVR, WUT, HSM
TC275TP
200
4000
472
FPU
3/2
112
48/6 DS
No
4
4x ASCLIN, 4x QSPI, 2x MSC, HSSL, I2C, 10x SENT,
3x PSI5, FlexRay, Ethernet, CAN FD
K
LQFP-176
EVR, WUT, HSM
TC267D
200
2500
240
FPU
02/1
169
50/3 DS
No
5
4x ASCLIN, 4x QSPI, 2x MSC, I2C, 10x SENT,
3x PSI5, HSSL, FlexRay, Ethernet, CAN FD
K
LFBGA-292
EVR, WUT
TC265D
200
2500
240
FPU
2/1
112
50/3 DS
No
5
4x ASCLIN, 4x QSPI, 2x MSC, I2C, 10x SENT, HSSL,
3x PSI5, FlexRay, Ethernet, CAN FD
K
LQFP-176
EVR, WUT
TC264DA
200
2500
752
FPU, FFT,
CIF
2/1
88
40/3 DS
No
5
4x ASCLIN, 4x QSPI, 2x MSC, I2C, 10x SENT, HSSL,
3x PSI5, FlexRay, Ethernet, CAN FD
K
LQFP-144
EVR, WUT
TC264D
200
2500
240
FPU
2/1
88
40/3 DS
No
5
4x ASCLIN, 4x QSPI, 2x MSC, I2C, 10x SENT, HSSL,
3x PSI5, FlexRay, Ethernet, CAN FD
K
LQFP-144
EVR, WUT
TC237LP
200
2000
192
FPU
1/1
120
24
No
6
2x ASCLIN, 4x QSPI, 4x SENT, FlexRay, CAN FD
K
LFBGA-292
EVR, WUT, HSM
TC234LA
200
2000
704
FPU, FFT
1/1
120
24
No
6
2x ASCLIN, 4x QSPI, 4x SENT, FlexRay, Ethernet
K
TQFP-144
EVR, WUT, HSM
TC234LX
200
2000
704
FPU
1/1
120
24
No
6
2x ASCLIN, 4x QSPI, 4x SENT, FlexRay, Ethernet
K
TQFP-144
EVR, WUT, HSM
TC234LP
200
2000
192
FPU
1/1
120
24
No
6
2x ASCLIN, 4x QSPI, 4x SENT, FlexRay, CAN FD
K
TQFP-144
EVR, WUT, HSM
TC233LP
200
2000
192
FPU
1/1
78
24
No
6
2x ASCLIN, 4x QSPI, 4x SENT, FlexRay, CAN FD
K
TQFP-100
EVR, WUT, HSM
TC224L
133
1000
96
FPU
1/1
120
24
No
3
2x ASCLIN, 4x QSPI, 4x SENT
K
TQFP-144
EVR, WUT
TC223L
133
1000
96
FPU
1/1
78
24
No
3
2x ASCLIN, 4x QSPI, 4x SENT
K
TQFP-100
EVR, WUT
TC222L
133
1000
96
FPU
1/1
59
14
No
3
2x ASCLIN, 4x QSPI, 4x SENT
K
TQFP-80
EVR, WUT
TC214L
133
500
96
FPU
1/1
120
24
No
3
2x ASCLIN, 4x QSPI, 4x SENT
K
TQFP-144
EVR, WUT
TC213L
133
500
96
FPU
1/1
78
24
No
3
2x ASCLIN, 4x QSPI, 4x SENT
K
TQFP-100
EVR, WUT
TC212L
133
500
96
FPU
1/1
59
14
No
3
2x ASCLIN, 4x QSPI, 4x SENT
K
TQFP-80
EVR, WUT
Additional features/
remarks 4)
External bus interface
3/1
Packages
Number of ADC
channels
FPU
Temperature ranges 3)
Timed I/O
GPI/O
2728
CAN/CAN FD nodes
Cores/lockstep
8000
Co-processor 1)
SRAM (incl. cache)
[KByte]
300
Max clock frequency
[MHz]
TC299TX
Product type
Program memory
[KByte]
Communication interfaces 2)
TriCore™ microcontroller
AURIX™ TC2xx family
1) CIF = Camera and external ADC interface, FFT = Fast Fourier Transform Accelerator, FPU = Floating Point Unit, PCP = Peripheral Control Processor
2) ASC = Asynchronous Serial Channel, ASCLIN = Asyn/Synchronous Local Interconnect Network, HSSL = High Speed Serial Link, I2C = Inter-Integrated Circuit,
LIN = Local Interconnect Network, MLI = Micro Link Interface, MSC = Micro Second Channel, PSI5 = Peripheral Sensor Interface 5, QSPI = Queued Serial Peripheral Interface,
SENT = Single Edge Nibble Transmission, SSC = Synchronous Serial Channel
3) Ambient temperature range: A = -40 ... 140°C, B = 0 ... 70°C, F = -40 ... 85°C, H = -40 ... 110°C, K = -40 ... 125°C, L = -40 ... 150°C, X = -40 ... 105°C
4) EVR = Embedded Voltage Regulator, HSM = Hardware Security Module, WUT = Wake-Up Timer
86
www.infineon.com/TriCore
�EBU, eMMC,
2x HSSL
6x SPI, 2x FlexRay, 12x LIN,
25x SENT, 4x PSI5, 2x I2C, 4x MSC
EVITA full
K, L
LFBGA-516
5 V/3.3 V EVR,
8-bit SCR
TC399XP
6/4
300
16000
2816
no
12
1
EBU, eMMC,
2x HSSL
6x SPI, 2x FlexRay, 12x LIN,
25x SENT, 4x PSI5, 2x I2C, 4x MSC
EVITA full
K, L
LFBGA-516
5 V/3.3 V EVR,
8-bit SCR
TC397XX
6/4
300
16000
6912
no
12
1
eMMC, 2x
HSSL
6x SPI, 2x FlexRay, 12x LIN,
25x SENT, 4x PSI5, 2x I2C, 4x MSC
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC397XP
6/4
300
16000
2816
no
12
1
eMMC, 2x
HSSL
6x SPI, 2x FlexRay, 12x LIN,
25x SENT, 4x PSI5, 2x I2C, 4x MSC
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC397XA
6/4
300
16000
6912
2x SPU/
8x 400 Mbit/s LVDS
12
1
2x HSSL
6x SPI, 2x FlexRay, 12x LIN,
25x SENT, 4x PSI5, 2x I2C, 4x MSC
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC3E7QX
4/2
300
12000
1824
no
20
1
HSSL
5x SPI, 2x FlexRay, 24x LIN,
25x SENT, 4x PSI5, 2x I2C, 3x MSC
EVITA full
K, L
BGA-291
5 V/3.3 V EVR,
8-bit SCR
TC389QP
4/2
300
10000
1568
no
12
1
HSSL
5x SPI, 2x FlexRay, 24x LIN,
25x SENT, 4x PSI5, 2x I2C, 3x MSC
EVITA full
K, L
LFBGA-516
5 V/3.3 V EVR,
8-bit SCR
TC387QP
4/2
300
10000
1568
no
12
1
HSSL
5x SPI, 2x FlexRay, 24x LIN,
25x SENT, 4x PSI5, 2x I2C, 3x MSC
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC377TX
3/3
300
6000
4208
no
12
2
eMMC,
HSSL
5x SPI, 1x FlexRay, 12x LIN,
15x SENT, 2x PSI5, 1x I2C, 2x MSC
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC377TP
3/2
300
6000
1136
no
8
1
HSSL
5x SPI, 1x FlexRay, 12x LIN,
15x SENT, 2x PSI5, 1x I2C, 2x MSC
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC375TP
3/2
300
6000
1136
no
8
1
HSSL
5x SPI, 1x FlexRay, 12x LIN,
15x SENT, 2x PSI5, 1x I2C, 2x MSC
EVITA full
K, L
LQFP-176
5 V/3.3 V EVR,
8-bit SCR
TC367DP
2/2
300
4000
672
no
8
1
HSSL
4x SPI, 1x FlexRay, 12x LIN,
10x SENT, 2x PSI5, 1x I2C, 1x MSC
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC366DP
2/2
300
4000
672
no
8
1
HSSL
4x SPI, 1x FlexRay, 12x LIN,
10x SENT, 2x PSI5, 1x I2C, 1x MSC
EVITA full
K, L
BGA-180
5 V/3.3 V EVR,
8-bit SCR
TC365DP
2/2
300
4000
672
no
8
1
HSSL
4x SPI, 1x FlexRay, 12x LIN,
10x SENT, 2x PSI5, 1x I2C, 1x MSC
EVITA full
K, L
LQFP-176
5 V/3.3 V EVR,
8-bit SCR
TC364DP
2/2
300
4000
672
no
8
1
HSSL
4x SPI, 1x FlexRay, 12x LIN, 10x
SENT, 2x PSI5, 1x I2C, 1x MSC
EVITA full
K, L
TQFP-144
5 V/3.3 V EVR,
8-bit SCR
TC364DP
2/2
300
4000
672
no
8
1
HSSL
4x SPI, 1x FlexRay, 12x LIN,
10x SENT, 2x PSI5, 1x I2C, 1x MSC
EVITA full
K, L
LQFP-144
5 V/3.3 V EVR,
8-bit SCR
TC3A7QA
4/2
300
4000
7456
2x SPU/
8x 600 Mbit/s LVDS
8
1
no
4x SPI, 1x FlexRay, 4x LIN
EVITA full
K, L
BGA-292
5 V/3.3 V EVR,
8-bit SCR
TC3A8QA
4/2
300
4000
7456
2x SPU/
8x 600 Mbit/s LVDS
8
1
no
4x SPI, 1x FlexRay, 4x LIN
EVITA full
K, L
BGA-233
5 V/3.3 V EVR,
8-bit SCR
TC357TA
3/2
300
4000
3664
2x SPU/
8x 400 Mbit/s LVDS
8
1
no
4x SPI, 1x FlexRay, 4x LIN
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC356TA
3/2
300
4000
3664
2x SPU/
8x 400 Mbit/s LVDS
8
1
no
4x SPI, 1x FlexRay, 4x LIN
EVITA full
K, L
BGA-180
5 V/3.3 V EVR,
8-bit SCR
TC337DA
2/1
300
2000
1568
1x SPU/
4x 400 Mbit/s LVDS
8
1
eMMC
4x SPI, 1x FlexRay,12x LIN,
6x SENT
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC336DA
2/1
300
2000
1568
1x SPU/
4x 400 Mbit/s LVDS
8
1
eMMC
4x SPI, 1x FlexRay,12x LIN,
6x SENT
EVITA full
K, L
BGA-180
5 V/3.3 V EVR,
8-bit SCR
TC337LP
1/1
300
2000
248
no
8
no
no
4x SPI, 1x FlexRay, 12x LIN,
6x SENT
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC336LP
1/1
300
2000
248
no
8
no
no
4x SPI, 1x FlexRay, 12x LIN,
6x SENT
EVITA full
K, L
BGA-180
5 V/3.3 V EVR,
8-bit SCR
TC334LP
1/1
300
2000
248
no
8
no
no
4x SPI, 1x FlexRay, 12x LIN,
6x SENT
EVITA full
K, L
TQFP-144
5 V/3.3 V EVR,
8-bit SCR
TC333LP
1/1
300
2000
248
no
8
no
no
4x SPI, 1x FlexRay, 12x LIN,
6x SENT
EVITA full
K, L
TQFP-100
5 V/3.3 V EVR,
8-bit SCR
TC332LP
1/1
300
2000
248
no
8
no
no
4x SPI, 1x FlexRay, 12x LIN,
6x SENT
EVITA full
K, L
TQFP-80
5 V/3.3 V EVR,
8-bit SCR
TC327LP
1/1
160
1000
96
no
8
no
no
4x SPI, 6x SENT, 6x LIN
EVITA full
K, L
LFBGA-292
5 V/3.3 V EVR,
8-bit SCR
TC324LP
1/1
160
1000
96
no
8
no
no
4x SPI, 6x SENT, 6x LIN
EVITA full
K, L
TQFP-144
5 V/3.3 V EVR,
8-bit SCR
TC323LP
1/1
160
1000
96
no
8
no
no
4x SPI, 6x SENT, 6x LIN
EVITA full
K, L
TQFP-100
5 V/3.3 V EVR,
8-bit SCR
TC322LP
1/1
160
1000
96
no
8
no
no
4x SPI, 6x SENT, 6x LIN
EVITA full
K, L
TQFP-80
5 V/3.3 V EVR,
8-bit SCR
Additional
features/
remarks 3)
Communication
interfaces
1
Packages
External bus
interface 2)
12
Temperature
ranges
Ethernet
100/1000 Mbit
no
HSM
CAN/CAN FD
nodes
6912
SRAM (incl.
cache) [KByte]
16000
Program
memory
[KByte]
300
Max clock
frequency
[MHz]
6/4
Cores/lockstep
TC399XX
Product type
Radar
accelerator/
radar interface 1)
TriCore™ microcontroller
AURIX™ TC3xx family
1) SPU = Signal Processing Unit
2) HSSL
= �High-Speed Serial Link
3) 8-bit SCR = Standby Controller for Low Power Modes, EVR = Embedded Voltage Regulator
www.infineon.com/TriCore
87
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Published by
Infineon Technologies AG
81726 Munich, Germany
© 2020 Infineon Technologies AG.
All rights reserved.
Document number: B158-I0090-V7-7600-EU-EC-P
Date: 02 / 2020
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