Real-time digital power MCUs
Utilize cutting-edge, real-time control from industry pioneers to achieve efficient digital power
Browse by core
C29 core: high performance with fast control
Next-generation 64-bit real-time core, built bottoms up for demanding control system performance. Includes advanced safety architectures and built-in security enablers.
C28 core: deterministic control
32-bit fixed- or floating-point control core, optimized for fast, predictable real-time performance in digital power control.
Arm® Cortex®-R core: standardized platform
32-bit Arm core bringing an industry standard platform along with real-time control, advanced networking, safety and security to your designs.
Browse by family
F29H85 MCUs: safety, security and control
Integrates three 200MHZ, 64-bit C29 CPU cores with advanced security — including hardware a security module (HSM) — and safety for uninterruptible power supply (UPS) and electric vehicle chargers.
F28P551MCUs: cost optimization
Low-cost modular common redundant power supply ready MCUs, pin-to-pin with F28P55 family, optimized with high performance analog and CPU horsepower for portable power stations (PPS).
F28P65 MCUs: Control and integration
Features two 200Mhz C28 cores, a coprocessor, latest pulse-width modulation and Ethernet for Control Automation Technology for string inverters, solid state transformers, UPS and battery backup units.
AM263P MCUs: ecosystem, safety and communication
Integrates four 400MHz ARM cores, EtherCAT (Parallel Redundancy Protocol, time-sensitive networking), HSM, a programmable real-time unit and a standard ecosystem for battery management and inverters.
F28P55 MCUs: edge intelligence
Combines TinyEngine™ neural network processing unit (NPU) with a 150Mhz C28 core and math coprocessor, enabling power conversion and system monitoring. Designed for power supplies and microinverters.
F28E12 MCUs: low cost control
Low-cost C28 core offering real-time control, premium analog with small package options designed for simple digital power topologies for power conversion systems, power optimizers and liquid cooling.
Explore our key technologies
Double real-time performance and enhance security support with the C29 MCU core
The C29 MCU includes the next-generation CPU of the C28 core, which has been around for over two decades. It offers a very long instruction word (VLIW) architecture with a fully protected pipeline, along with multiple instruction sizes.
Benefits:
- Improved instruction parallelism and bus throughput.
- Highly efficient real-time control with low latency.
- High-performance general-purpose and digital signal processing (DSP) capabilities.
- Better code efficiency.
- Safety Integrity Level (SIL) 3 functional safety capabilities with code isolation in hardware.
- Enhanced debugging and trace capability.
The C29 CPU – Unrivaled Real-Time Performance with Optimized Architecture on C2000 MCUs
How MCUs Built With Innovative C29 Cores Increase Real-Time Performance in High-Voltage Systems
Application Software Migration to the C29 CPU User's Guide
Improve system efficiency and safety with accurate fault detection
Edge artificial intelligence (AI) makes electronics more responsive, efficient and secure. Bringing computational power closer to the data source enables decisions on the device instead of in the cloud. Our microcontroller devices are enabled to support edge AI operations, including our edge AI-accelerated devices with our integrated TinyEngine™ NPU.
Benefits:
- Up to 99% accuracy in arc fault detection and grid system condition monitoring.
- Single-chip solution eases design and development.
- Complete tool chain and ecosystem with documentation to support quicker time to market.
- The TinyEngine™ NPU enables five to 10 times lower latency.
Optimizing system fault detection in real-time control systems with edge AI-enabled MCUs
Edge AI with C2000™ MCUs for more accurate and reliable arc fault detection
Advanced digital power conversion
Our scalable, ultra-low-latency, real-time MCUs enhance efficiency in power electronics. Our portfolio has a range of design resources to help you evaluate and develop your application.
The on-chip programmable real-time unit (PRU) subsystem on some of our devices enable low-latency processing for tasks like comms and data handling. This allows the main processor to focus on general tasks while offloading computationally expensive or time-critical workloads to the PRU.
Benefits:
- Highly accurate sensing.
- Higher performance control.
- Advanced actuation.
- Tight peripheral coupling.
Real-Time Benchmarks Showcasing C2000™ Control MCU's Optimized Signal Chain (Rev. A)
Optimizing power efficiency and density in power electronics with real-time MCUs
Enhancing the Computational Performance of the C2000™ Microcontroller Family (Rev. C)
Featured products for Real-time control MCUs
Enable run-time functional safety protections
Our MCUs include devices with Technischer Überwachungsverein (TÜV SÜD)-certified functional safety development processes, supporting industrial (up to SIL 3) safety applications.
Benefits:
- Safety-focused architecture with built-in diagnostic features.
- Certified processes to ease system-level safety assessment.
- Prebuilt software libraries to implement key safety mechanisms.
- Safety and security unit, lockstep core architecture and dual clock comparator.
- Software diagnostic library with implementation examples.
C2000™ Safety Mechanisms (Rev. B)
Functional Safety: A tunable FMEDA for C2000™ MCUs
Featured products for Functional saftey MCUs
Design secure and reliable systems
Consider our MCUs in applications that require strong security functionality. Our scalable devices are compatible with a comprehensive ecosystem of tools, libraries, software examples and documentation.
Key security modules:
- Hardware security modules
- Safety and security unit
- Dual code security module (DCSM)
- Cryptographic Acceleration
- Secure Boot, Debug & Key mechanisms
- Secure Firmware Update
Achieving Faster Secure Boot Time on AM26x Devices
Implementing Run-Time Safety and Security With the C29x Safety and Security Unit (Rev. A)
Enabling Cybersecurity for High Performance Real-Time Control Systems with C2000™ F29x Microcontrollers
Featured products for Security MCUs
AM26 MCUs with OptiFlash technology aim to minimize performance gaps compared to MCUs with integrated flash through features like a dedicated external flash controller with flash cache, hardware boot acceleration, inline error coding and encryption. This architecture enables low-latency, secure code execution while offering greater flexibility and scalability.
Enhancing System Performance Using Optiflash Memory Technology
OptiFlash Memory Technology (Rev. A)
Discover featured applications
Optimize power solutions for telecommunication rectifiers and server power applications with flexible digital power solutions
Our digital power isolated controllers help you increase efficiency and reliability both through optimized power conversion and offloading AI models from the CPU to our integrated NPUs. They improve system integration and provide advanced features and protection, such as adaptive dead-time control, live firmware updates and communication interfaces such as UART, SPI, PMBus and I2C.
Our real-time MCUs offer a software compatible platform for PFC, DC/DC energy conversion, and MCRPS specs – including security and communication.
Featured resources
- TMS320F28P550SJ – C2000™ 32-bit MCU with 150MHz 1.1MB flash C28x + CLA, five ADCs, CLB, AES and NPU
- TMS320F28P550SG – C2000™ 32-bit MCU with 150MHz 512KB flash C28x + CLA, five ADCs, CLB, AES and NPU
- TMS320F2800157 – C2000™ 32-bit MCU 120-MHz 256-KB flash with HRPWM, CAN-FD
- LAUNCHXL-F28P55X – C2000™ real-time MCU F28P55X LaunchPad™ development kit
- LAUNCHXL-F2800157 – C2000™ real-time MCU F2800157 LaunchPad™ development kit
- Designing a digital power supply: How to write firmware – Technical article
- Advancing Power Supply Solutions Through the Promise of GaN – White paper
- C2000WARE-DIGITALPOWER-SDK – DigitalPower software development kit (SDK) for C2000™ MCUs
- CCSTUDIO – Code Composer Studio™ integrated development environment (IDE)
- SYSCONFIG – System configuration tool
Accelerate your development of green energy infrastructure with our digital control solutions
Our real-time MCUs offer a scalable innovative platform with precise real-time control to increase power density and improve efficiency to meet your needs for EV charging, renewable energy storage, power-conversion systems. Our latest topology reference designs, and software packages to enable shorter development time.
Benefits:
- High-resolution PWMs help unlock the potential of gallium nitride (GaN) and silicon carbide (SiC).
- Artificial intelligence-based solar arc fault detection with ≤99% accuracy.
- PowerSUITE™ software for ease of use and reduced time to market.
Featured resources
- TIDA-010955 – Analog front end reference design for machine learning arc detection in solar applications
- TIDA-010054 – Bi-directional, dual active bridge reference design for level 3 electric vehicle charging stations
- TIDA-010954 – 600W GaN-based single-phase cycloconverter reference design
- TMS320F28P550SJ – C2000™ 32-bit MCU with 150MHz 1.1MB flash C28x + CLA, five ADCs, CLB, AES and NPU
- TMS320F28P650DK – C2000™ 32-bit MCU, 2x C28x+CLA CPU, Lock Step, 1.28-MB flash, 16-b ADC, HRPWM, EtherCAT, CAN-FD, AES
- TMS320F28P550SG – C2000™ 32-bit MCU with 150MHz 512KB flash C28x + CLA, five ADCs, CLB, AES and NPU
- LAUNCHXL-F28P55X – C2000™ real-time MCU F28P55X LaunchPad™ development kit
- LAUNCHXL-F28P65X – C2000™ real-time MCU F28P65x LaunchPad™ development kit
- C2000WARE-DIGITALPOWER-SDK – DigitalPower software development kit (SDK) for C2000™ MCUs
- CCSTUDIO – Code Composer Studio™ integrated development environment (IDE)
- SYSCONFIG – System configuration tool
Protect your home, servers and data centers by maintaining a steady flow of energy with a scalable digital power platform or standalone portable option
Our real-time MCU platform enables software development compatible UPS platform ranging from single-phase UPS to 3-phase on-line UPS for various power range and various options like bidirectional DC/DC, multi-phase capability including adjacent solutions like portable power stations.
Benefits:
- Ultra-low latency digital power control loops through our tightly coupled peripherals (ADC, PWMs, and CPUs).
- High resolution PWMs (75ps) and high switching frequencies capabilities (over 1MHz) for GaN and SiC adoption
- Software compatible real-time MCU platform for price sensitive designs and compact sizes
Featured resources
- TIDA-01606 – 11-kW, bidirectional three-phase three-level (T-type) inverter and PFC reference design
- TIDA-010954 – 600W GaN-based single-phase cycloconverter reference design
- TIDA-010210 – 11-kW, bidirectional, three-phase ANPC based on GaN reference design
- TMS320F28P550SJ – C2000™ 32-bit MCU with 150MHz 1.1MB flash C28x + CLA, five ADCs, CLB, AES and NPU
- TMS320F28P650DK – C2000™ 32-bit MCU, 2x C28x+CLA CPU, Lock Step, 1.28-MB flash, 16-b ADC, HRPWM, EtherCAT, CAN-FD, AES
- F29H850TU – C2000™ 64-bit MCU with C29x 200MHz tri-core, lockstep, functional safety compliance, 4MB
- LAUNCHXL-F28P55X – C2000™ real-time MCU F28P55X LaunchPad™ development kit
- LAUNCHXL-F28P65X – C2000™ real-time MCU F28P65x LaunchPad™ development kit
- Maximize density, power, and reliability with TI GaN and C2000™ real-time MCUs – More literature
- Get more from your GaN-based digital power designs with a C2000 real-time MCU – Technical article
- C2000WARE-DIGITALPOWER-SDK – DigitalPower software development kit (SDK) for C2000™ MCUs
- CCSTUDIO – Code Composer Studio™ integrated development environment (IDE)