TC275TP64F200NDCLXUMA1: Features, Specs & More
In an era where vehicles transform into intelligent, safety-critical systems, Infineon's AURIX™ TC364DP64F300WAAKXUMA1 microcontroller emerges as a cornerstone of innovation. Engineered for ISO 26262 ASIL-D compliance, this 32-bit TriCore™ MCU delivers uncompromising performance in electric powertrains, autonomous safety systems, and industrial automation. In this comprehensive article, we'll delve into the intricacies of the TC275TP64F200NDCLXUMA1, uncovering its definition, key features, specifications, applications, and a closer look at its manufacturer.
Catalog
TC275TP64F200NDCLXUMA1's Overview
TC275TP64F200NDCLXUMA1's Manufacturer
TC275TP64F200NDCLXUMA1's Overview
The TC364DP64F300WAAKXUMA1 is a 32-bit microcontroller from Infineon's AURIX™ family, based on the Dual TriCore RISC architecture. Each integrates a 32-bit RISC processor, DSP capabilities, and a pipelined FPU, executing 2 MAC operations/cycle for real-time signal processing. It has multi-layer memory hierarchy to ensure data integrity under extreme conditions, such as 4 MB ECC-protected Flash, 672 KB SRAM (with ECC), and 192 KB scratchpad RAM. This architecture minimizes latency for time-sensitive tasks like brake control while offloading analytics to secondary cores.
Key Features
Let's delve into the standout features that make the TC275TP64F200NDCLXUMA1 a standout in the world of electronics:
· It utilizes a 32-bit TriCore RISC CPU core operating at up to 200 MHz frequency.
· It's equipped with 4MB of Flash memory for program storage.
· It includes 472KB of RAM for efficient data handling.
· It supports a dual supply voltage of 3.3V and 5V, with a maximum operating voltage of 5.5V.
· It features 112 general-purpose input/output pins for flexible interfacing.
· It contains four CAN controllers for robust automotive network communication.
· It's integrated single 12-bit ADC with 40 channels for precise analog signal processing.
· It operates reliably over a temperature range from -40°C to 150°C, suited for harsh automotive environments.
· It's packaged in a 176-pin LQFP EP surface mount with gull-wing leads.
· It complies with AEC-Q100 standards for automotive quality and reliability.
· It includes one watchdog timer to ensure system stability and fault detection.
Specifications
Now, let's take a closer look at the technical specifications that define the capabilities of the TC275TP64F200NDCLXUMA1:
Type | Parameter |
Family Name | AURIX |
Instruction Set Architecture | RISC |
Device Core | TriCore |
Maximum CPU Frequency (MHz) | 200 |
Maximum Clock Rate (MHz) | 200 |
Data Bus Width (bit) | 32 |
Program Memory Type | Flash |
Program Memory Size | 4MB |
RAM Size | 472KB |
Programmability | Yes |
Interface Type | CAN |
Number of I/Os | 112 |
No. of Timers | 4 |
Number of ADCs | 1 |
ADC Channels | 40 |
ADC Resolution (bit) | 12 |
USART | 0 |
UART | 0 |
USB | 0 |
SPI | 0 |
I2C | 0 |
I2S | 0 |
CAN | 4 |
Ethernet | 0 |
Watchdog | 1 |
Special Features | CAN Controller |
Minimum Operating Supply Voltage (V) | 3 |
Typical Operating Supply Voltage (V) | 5|3.3 |
Maximum Operating Supply Voltage (V) | 5.5 |
Maximum Power Dissipation (mW) | 1480 |
Minimum Operating Temperature (°C) | -40 |
Maximum Operating Temperature (°C) | 150 |
Packaging | Tape and Reel |
Mounting | Surface Mount |
Package Height | 1.4 mm |
Package Width | 24 mm |
Package Length | 24 mm |
PCB changed | 176 |
Standard Package Name | QFP |
Supplier Package | LQFP EP |
Pin Count | 176 |
Lead Shape | Gull-wing |
* TC275TP64F200NDCLXUMA1's Datasheet
Applications
This MCU is widely applied in automotive electronic systems where high processing power and real-time communication are essential. Typical use cases include:
· EV Powertrains: such as coordinated control of traction inverters, on-board chargers (OBC), and DC-DC converters using GTM and ADC clusters.
· Safety Controllers: such as airbag deployment, electric power steering (EPS), and brake-by-wire systems leveraging ASIL-D mechanisms.
· Vehicle Networking: such as central gateways processing CAN FD/Ethernet traffic with HSM-secured communication.
· Robotic Servo Drives: such as multi-axis control via <2 µs PWM resolution and SENT feedback interfaces.
· Renewable Energy: such as solar or wind inverter control with deterministic response to grid faults.
TC275TP64F200NDCLXUMA1's Manufacturer
Established in 1999, Infineon Technologies has emerged as a global leader in semiconductor solutions, pioneering innovations that power various industries worldwide. Headquartered in Neubiberg, Germany, the company has played a pivotal role in shaping the landscape of modern electronics. Infineon specializes in designing and manufacturing advanced semiconductor technologies, encompassing power management, automotive electronics, industrial applications, and security solutions.
Conclusion
The Infineon TC364DP64F300WAAKXUMA1 is a powerful, automotive-grade MCU that offers a balance of speed, memory, and connectivity tailored for demanding vehicle applications. Its robust design, extensive CAN interfaces, and high operating temperature range make it an excellent choice for engineers developing next-generation automotive electronics. If your project requires a reliable microcontroller capable of handling complex tasks while ensuring safety and compliance, the TC364DP64F300WAAKXUMA1 is definitely worth considering.
