마이크로컨트롤러(MCU) 및 프로세서 Microcontrollers Automotive MCUs Automotive powertrain, zonal & chassis control MCUs
마이크로컨트롤러(MCU) 및 프로세서
Microcontrollers
Automotive MCUs
Automotive powertrain, zonal & chassis control MCUs

TMS320F28P559SJ-Q1

활성

차량용 C2000™ 32비트 MCU, 150MHz, 1.1MB 플래시 C28x + CLA, 5개의 ADC, CLB, AES 및 NPU 포함

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TMS320F28P559SJ-Q1

활성
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제품 상세 정보

CPU 1 C28, 1 CLA Frequency (MHz) 150 Flash memory (kByte) 1088 RAM (kByte) 133 ADC type 5 12-bit SAR Total processing (MIPS) 300 Features Configurable logic block, FPU32, InstaSPIN-FOC technology, NPU UART 4 CAN (#) 2 PWM (Ch) 24 TI functional safety category Functional Safety Quality-Managed, Functional Safety-Compliant Number of ADC channels 28, 35, 39 Direct memory access (Ch) 6 SPI 2 QEP 3 USB USB 2.0 Operating temperature range (°C) -40 to 150 Rating Automotive Communication interface CAN, FSI, I2C, LIN, PMBUS, SPI, UART Operating system FreeRTOS Hardware accelerators Control law accelerator, TinyEngine™ NPU Nonvolatile memory (kByte) 1024 Number of I2Cs 2 Security Cryptographic acceleration, Secure boot, Secure storage
CPU 1 C28, 1 CLA Frequency (MHz) 150 Flash memory (kByte) 1088 RAM (kByte) 133 ADC type 5 12-bit SAR Total processing (MIPS) 300 Features Configurable logic block, FPU32, InstaSPIN-FOC technology, NPU UART 4 CAN (#) 2 PWM (Ch) 24 TI functional safety category Functional Safety Quality-Managed, Functional Safety-Compliant Number of ADC channels 28, 35, 39 Direct memory access (Ch) 6 SPI 2 QEP 3 USB USB 2.0 Operating temperature range (°C) -40 to 150 Rating Automotive Communication interface CAN, FSI, I2C, LIN, PMBUS, SPI, UART Operating system FreeRTOS Hardware accelerators Control law accelerator, TinyEngine™ NPU Nonvolatile memory (kByte) 1024 Number of I2Cs 2 Security Cryptographic acceleration, Secure boot, Secure storage
LQFP (PM) 64 144 mm² 12 x 12 LQFP (PZ) 100 256 mm² 16 x 16 TQFP (PDT) 128 256 mm² 16 x 16 TQFP (PNA) 80 144 mm² 12 x 12 UNKNOWN (PTF) 128 See data sheet
  • Real-time processing:
    • 150MHz C28x 32-bit DSP CPU
    • Equivalent to 300MHz Arm® Cortex®-M7 based device on real-time signal chain performance (see the Real-time Benchmarks Showcasing C2000™ Control MCU’s Optimized Signal Chain Application Note
    • IEEE 754 single-precision Floating-Point Unit (FPU32)
    • Trigonometric Math Unit (TMU)
      • Support for Nonlinear Proportional Integral Derivative (NLPID) control
    • CRC Engine and Instructions (VCRC)
  • Programmable Control Law Accelerator (CLA)
  • On-chip memory
    • 1088KB of flash (ECC-protected) across five independent banks
      • Four 256KB banks
      • One 64KB bank, ideal of LFU/Bootloaders/data
    • 8KB of OTP (One Time Programmable flash memory)
    • 133KB of RAM (ECC/Parity protected)
  • Security
    • Secure Boot
    • JTAG Lock
    • Advanced Encryption Standard (AES) accelerator
    • Unique Identification (UID) number
  • Clock and system control
    • Two internal 10MHz oscillators
    • Crystal oscillator or external clock input
    • Windowed watchdog timer module
    • Missing clock detection circuitry
    • Dual-clock Comparator (DCC)
  • 3.3V I/O design
    • Internal VREG generation allows for single-supply design
    • Brownout reset (BOR) circuit
    • 5V fail-safe and tolerant capability on 4 GPIOs for PMBUS/I2C support
    • Configurable 1.35V VIH on 4 GPIOs
  • System peripherals
    • 6-channel Direct Memory Access (DMA) controller
    • 91 individually programmable multiplexed General-Purpose Input/Output (GPIO) pins (22 shared with Analog)
    • 17 digital inputs on analog pins
    • Enhanced Peripheral Interrupt Expansion (ePIE)
    • Multiple low-power mode (LPM) support
  • Communications peripherals
    • One Power-Management Bus (PMBus) interface
      • Fast Plus Mode Support - 1MHz SCL
      • 5V/3.3V/1.35V VIH support on select pins
    • Two Inter-integrated Circuit (I2C) interfaces
    • Two Controller Area Network with Flexible Data-Rate (CAN FD/MCAN) bus port
      • 4KB message RAM per MCAN module, independent of system memory
      • Ability to re-use RAM for CPU data variables if MCAN is not used
    • One Universal Serial Bus (USB 2.0 MAC + PHY)
    • Two Serial Peripheral Interface (SPI) ports
    • Three UART-compatible Serial Communication Interface (SCI)
    • One UART-compatible Local Interconnect Network (LIN) interface
    • Fast Serial Interface (FSI) with one transmitter and one receiver (up to 200Mbps)
  • Analog system
    • Five 3.9MSPS, 12-bit Analog-to-Digital Converters (ADCs)
      • Up to 39 external channels (includes one gpdac output)
      • Four integrated Post-Processing Blocks (PPB) per ADC
    • Four windowed comparators (CMPSS) with 12-bit reference Digital-to-Analog Converters (DACs)
      • Digital glitch filters
      • Low DAC output to pin capability on CMPSS1
    • One 12-bit buffered DAC output
    • Three Programmable Gain Amplifiers (PGAs)
      • Unity gain support
      • Inverting and non-inverting gain mode support
      • Programmable output filtering
  • Enhanced control peripherals
    • 24 ePWM channels with 12 channels that have high-resolution capability (150ps resolution)
      • Integrated dead-band support
      • Integrated hardware trip zones (TZs)
    • Two Enhanced Capture (eCAP) modules
    • Three Enhanced Quadrature Encoder Pulse (eQEP) modules with support for CW/CCW operation modes
    • Embedded Pattern Generator (EPG)
  • Configurable Logic Block (CLB)
    • 2 tiles
    • Augments existing peripheral capability
    • Supports position manager solutions
  • Neural-network Processing Unit (NPU)
    • Highly Optimized for Deep Convolutional Neural Networks (CNN)
    • Variable weights and data lengths
      • 8-bit and 4-bit weights
      • 8-bit and 4-bit data
    • 600MOPS (Mega Operations Per Second) at 75MHz on 8bWx8bD
    • 1200MOPS at 75MHz on 4bWx8bD
    • Up to 10x NN inferencing performance improvement vs SW techniques
    • No direct coding required, TI AI tools generate FW libraries
    • Real-time control focused Edge AI Models
      • ARC fault example
      • Motor fault example
  • Live Firmware Update (LFU)
  • Diagnostic features
    • Memory Power-On Self-Test (MPOST)
  • Functional Safety-Compliant (1)
    • Developed for functional safety applications
    • Documentation available to aid ISO 26262 and IEC 61508 system design
    • Systematic capability up to ASIL D and SIL 3
    • Hardware integrity up to ASIL B and SIL 2
  • Safety-related certification
  • Package options:
    • 128-pin Thin Quad Flatpack (TQFP)[PDT suffix]
    • 100-pin Low-profile Quad Flatpack (LQFP)[PZ suffix]
    • 80-pin TQFP [PNA suffix]
    • 64-pin LQFP [PM suffix]
    • 56-pin Very Thin Quad Flatpack No-Lead (VQFN) [RSH suffix]
  • Temperature options:
    • Junction (TJ): –40°C to 150°C

(1)Refer to the Functional Safety Manual for TMS320F28P55x Real-Time Microcontrollers and the TÜV certification for the exact part numbers that are Functional Safety-Compliant or Functional Safety Quality-Managed.
  • Real-time processing:
    • 150MHz C28x 32-bit DSP CPU
    • Equivalent to 300MHz Arm® Cortex®-M7 based device on real-time signal chain performance (see the Real-time Benchmarks Showcasing C2000™ Control MCU’s Optimized Signal Chain Application Note
    • IEEE 754 single-precision Floating-Point Unit (FPU32)
    • Trigonometric Math Unit (TMU)
      • Support for Nonlinear Proportional Integral Derivative (NLPID) control
    • CRC Engine and Instructions (VCRC)
  • Programmable Control Law Accelerator (CLA)
  • On-chip memory
    • 1088KB of flash (ECC-protected) across five independent banks
      • Four 256KB banks
      • One 64KB bank, ideal of LFU/Bootloaders/data
    • 8KB of OTP (One Time Programmable flash memory)
    • 133KB of RAM (ECC/Parity protected)
  • Security
    • Secure Boot
    • JTAG Lock
    • Advanced Encryption Standard (AES) accelerator
    • Unique Identification (UID) number
  • Clock and system control
    • Two internal 10MHz oscillators
    • Crystal oscillator or external clock input
    • Windowed watchdog timer module
    • Missing clock detection circuitry
    • Dual-clock Comparator (DCC)
  • 3.3V I/O design
    • Internal VREG generation allows for single-supply design
    • Brownout reset (BOR) circuit
    • 5V fail-safe and tolerant capability on 4 GPIOs for PMBUS/I2C support
    • Configurable 1.35V VIH on 4 GPIOs
  • System peripherals
    • 6-channel Direct Memory Access (DMA) controller
    • 91 individually programmable multiplexed General-Purpose Input/Output (GPIO) pins (22 shared with Analog)
    • 17 digital inputs on analog pins
    • Enhanced Peripheral Interrupt Expansion (ePIE)
    • Multiple low-power mode (LPM) support
  • Communications peripherals
    • One Power-Management Bus (PMBus) interface
      • Fast Plus Mode Support - 1MHz SCL
      • 5V/3.3V/1.35V VIH support on select pins
    • Two Inter-integrated Circuit (I2C) interfaces
    • Two Controller Area Network with Flexible Data-Rate (CAN FD/MCAN) bus port
      • 4KB message RAM per MCAN module, independent of system memory
      • Ability to re-use RAM for CPU data variables if MCAN is not used
    • One Universal Serial Bus (USB 2.0 MAC + PHY)
    • Two Serial Peripheral Interface (SPI) ports
    • Three UART-compatible Serial Communication Interface (SCI)
    • One UART-compatible Local Interconnect Network (LIN) interface
    • Fast Serial Interface (FSI) with one transmitter and one receiver (up to 200Mbps)
  • Analog system
    • Five 3.9MSPS, 12-bit Analog-to-Digital Converters (ADCs)
      • Up to 39 external channels (includes one gpdac output)
      • Four integrated Post-Processing Blocks (PPB) per ADC
    • Four windowed comparators (CMPSS) with 12-bit reference Digital-to-Analog Converters (DACs)
      • Digital glitch filters
      • Low DAC output to pin capability on CMPSS1
    • One 12-bit buffered DAC output
    • Three Programmable Gain Amplifiers (PGAs)
      • Unity gain support
      • Inverting and non-inverting gain mode support
      • Programmable output filtering
  • Enhanced control peripherals
    • 24 ePWM channels with 12 channels that have high-resolution capability (150ps resolution)
      • Integrated dead-band support
      • Integrated hardware trip zones (TZs)
    • Two Enhanced Capture (eCAP) modules
    • Three Enhanced Quadrature Encoder Pulse (eQEP) modules with support for CW/CCW operation modes
    • Embedded Pattern Generator (EPG)
  • Configurable Logic Block (CLB)
    • 2 tiles
    • Augments existing peripheral capability
    • Supports position manager solutions
  • Neural-network Processing Unit (NPU)
    • Highly Optimized for Deep Convolutional Neural Networks (CNN)
    • Variable weights and data lengths
      • 8-bit and 4-bit weights
      • 8-bit and 4-bit data
    • 600MOPS (Mega Operations Per Second) at 75MHz on 8bWx8bD
    • 1200MOPS at 75MHz on 4bWx8bD
    • Up to 10x NN inferencing performance improvement vs SW techniques
    • No direct coding required, TI AI tools generate FW libraries
    • Real-time control focused Edge AI Models
      • ARC fault example
      • Motor fault example
  • Live Firmware Update (LFU)
  • Diagnostic features
    • Memory Power-On Self-Test (MPOST)
  • Functional Safety-Compliant (1)
    • Developed for functional safety applications
    • Documentation available to aid ISO 26262 and IEC 61508 system design
    • Systematic capability up to ASIL D and SIL 3
    • Hardware integrity up to ASIL B and SIL 2
  • Safety-related certification
  • Package options:
    • 128-pin Thin Quad Flatpack (TQFP)[PDT suffix]
    • 100-pin Low-profile Quad Flatpack (LQFP)[PZ suffix]
    • 80-pin TQFP [PNA suffix]
    • 64-pin LQFP [PM suffix]
    • 56-pin Very Thin Quad Flatpack No-Lead (VQFN) [RSH suffix]
  • Temperature options:
    • Junction (TJ): –40°C to 150°C

(1)Refer to the Functional Safety Manual for TMS320F28P55x Real-Time Microcontrollers and the TÜV certification for the exact part numbers that are Functional Safety-Compliant or Functional Safety Quality-Managed.

The TMS320F28P55x (F28P55x) is a member of the C2000™ real-time microcontroller family of scalable, ultra-low latency devices designed for efficiency in power electronics, including but not limited to: high power density, high switching frequencies, and supporting the use of GaN and SiC technologies.

These include such applications as:

The real-time control subsystem is based on TI’s 32-bit C28x DSP core, which provides 150MHz of signal-processing performance for floating- or fixed-point code running from either on-chip flash or SRAM. The C28x CPU is further boosted by the Floating-Point Unit (FPU), Trigonometric Math Unit (TMU), and VCRC (Cyclical Redundancy Check) extended instruction sets, speeding up common algorithms key to real-time control systems.

The CLA allows significant offloading of common tasks from the main C28x CPU. The CLA is an independent 32-bit floating-point math accelerator that executes in parallel with the CPU. Additionally, the CLA has its own dedicated memory resources and it can directly access the key peripherals that are required in a typical control system. Support of a subset of ANSI C is standard, as are key features like hardware breakpoints and hardware task-switching.

The Neural-network Processing Unit (NPU) can support machine-learning inferencing using pre-trained models. Capable of 600–1200MOPS (Mega Operations Per Second) with model support for ARC fault detection or Motor Fault detection, the NPU provides up to 10x NN inferencing cycle improvement versus a SW-only-based implementation. Load and train models with the Edge AI Studio - Model Composer from TI or with the Tiny ML Modelmaker for an advanced set of capabilities. Source code for the C28x is generated by these tools, no manual coding is necessary. For customers who rely on their own AI training framework, TI’s Neural Network Compiler can help port your AI model to be compatible with many C28x-based MCUs. For those interested in reference solutions, request access to TI’s Arc Fault Detection Project or the Motor Bearing Fault Detection Project.

The F28P55x supports up to 1088KB of flash memory divided into four 256KB banks plus one 64KB bank, which enable programming one bank and execution in another bank in parallel. Up to 133KB of on-chip SRAM is also available to supplement the flash memory.

The Live Firmware Update hardware enhancements on F28P55x allow fast context switching from the old firmware to the new firmware to minimize application downtime when updating the device firmware.

High-performance analog blocks are integrated on the F28P55x real-time microcontroller (MCU) and are closely coupled with the processing and PWM units to provide optimal real-time signal chain performance. Twenty-four PWM channels, all supporting frequency-independent resolution modes, enable control of various power stages from a 3-phase inverter to power factor correction and advanced multilevel power topologies.

The inclusion of the Configurable Logic Block (CLB) allows the user to add custom logic and potentially integrate FPGA-like functions into the C2000 real-time MCU.

Interfacing is supported through various industry-standard communication ports (such as SPI, SCI, I2C, PMBus, LIN, and CAN FD) and offers multiple pin-muxing options for optimal signal placement.

Want to learn more about features that make C2000 Real-Time MCUs the right choice for your real-time control system? Check out The Essential Guide for Developing With C2000™ Real-Time Microcontrollers and visit the C2000™ real-time control MCUs page.

The Getting Started With C2000™ Real-Time Control Microcontrollers (MCUs) Getting Started Guide covers all aspects of development with C2000 devices from hardware to support resources. In addition to key reference documents, each section provides relevant links and resources to further expand on the information covered.

Ready to get started? Check out the TMDSCNCD28P55X evaluation board or the LAUNCHXL-F28P55X development kit, and download C2000Ware.

The TMS320F28P55x (F28P55x) is a member of the C2000™ real-time microcontroller family of scalable, ultra-low latency devices designed for efficiency in power electronics, including but not limited to: high power density, high switching frequencies, and supporting the use of GaN and SiC technologies.

These include such applications as:

The real-time control subsystem is based on TI’s 32-bit C28x DSP core, which provides 150MHz of signal-processing performance for floating- or fixed-point code running from either on-chip flash or SRAM. The C28x CPU is further boosted by the Floating-Point Unit (FPU), Trigonometric Math Unit (TMU), and VCRC (Cyclical Redundancy Check) extended instruction sets, speeding up common algorithms key to real-time control systems.

The CLA allows significant offloading of common tasks from the main C28x CPU. The CLA is an independent 32-bit floating-point math accelerator that executes in parallel with the CPU. Additionally, the CLA has its own dedicated memory resources and it can directly access the key peripherals that are required in a typical control system. Support of a subset of ANSI C is standard, as are key features like hardware breakpoints and hardware task-switching.

The Neural-network Processing Unit (NPU) can support machine-learning inferencing using pre-trained models. Capable of 600–1200MOPS (Mega Operations Per Second) with model support for ARC fault detection or Motor Fault detection, the NPU provides up to 10x NN inferencing cycle improvement versus a SW-only-based implementation. Load and train models with the Edge AI Studio - Model Composer from TI or with the Tiny ML Modelmaker for an advanced set of capabilities. Source code for the C28x is generated by these tools, no manual coding is necessary. For customers who rely on their own AI training framework, TI’s Neural Network Compiler can help port your AI model to be compatible with many C28x-based MCUs. For those interested in reference solutions, request access to TI’s Arc Fault Detection Project or the Motor Bearing Fault Detection Project.

The F28P55x supports up to 1088KB of flash memory divided into four 256KB banks plus one 64KB bank, which enable programming one bank and execution in another bank in parallel. Up to 133KB of on-chip SRAM is also available to supplement the flash memory.

The Live Firmware Update hardware enhancements on F28P55x allow fast context switching from the old firmware to the new firmware to minimize application downtime when updating the device firmware.

High-performance analog blocks are integrated on the F28P55x real-time microcontroller (MCU) and are closely coupled with the processing and PWM units to provide optimal real-time signal chain performance. Twenty-four PWM channels, all supporting frequency-independent resolution modes, enable control of various power stages from a 3-phase inverter to power factor correction and advanced multilevel power topologies.

The inclusion of the Configurable Logic Block (CLB) allows the user to add custom logic and potentially integrate FPGA-like functions into the C2000 real-time MCU.

Interfacing is supported through various industry-standard communication ports (such as SPI, SCI, I2C, PMBus, LIN, and CAN FD) and offers multiple pin-muxing options for optimal signal placement.

Want to learn more about features that make C2000 Real-Time MCUs the right choice for your real-time control system? Check out The Essential Guide for Developing With C2000™ Real-Time Microcontrollers and visit the C2000™ real-time control MCUs page.

The Getting Started With C2000™ Real-Time Control Microcontrollers (MCUs) Getting Started Guide covers all aspects of development with C2000 devices from hardware to support resources. In addition to key reference documents, each section provides relevant links and resources to further expand on the information covered.

Ready to get started? Check out the TMDSCNCD28P55X evaluation board or the LAUNCHXL-F28P55X development kit, and download C2000Ware.
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상위 문서 유형 직함 형식 옵션 날짜
* Data sheet TMS320F28P55x Real-Time Microcontrollers datasheet (Rev. C) PDF | HTML 2025/06/26
* Errata TMS320F28P55x Real-Time MCUs Silicon Errata (Rev. B) PDF | HTML 2025/02/20
* User guide TMS320F28P55x Real-Time Microcontrollers Technical Reference Manual (Rev. C) PDF | HTML 2025/02/21
Application note Live Firmware Update Without Device Reset on C2000™ MCUs (Rev. C) PDF | HTML 2025/10/29
Product overview Automotive Functional Safety for C2000™ Real-Time Microcontrollers (Rev. F) 2025/10/09
Application note Serial Flash Programming of C2000 Microcontrollers (Rev. I) PDF | HTML 2025/08/14
Application note MCU Control Center Tool Developer's Guide PDF | HTML 2025/08/04
Application note MCU Signal Sight Tool Developer's Guide PDF | HTML 2025/08/01
User guide C2000 Real-Time Control Peripheral Reference Guide (Rev. U) PDF | HTML 2025/07/11
Application note Implement HID and CDC USB Composite Device with TMS320F28P559SJ-Q1 in IVI PDF | HTML 2025/07/07
Application brief Enhancing EV Powertrain Efficiency: Optimizing Motor Control and Battery Performance With TMS320F28P55x MCUs PDF | HTML 2025/05/14
Application note C2000-IDE Assist Tool Migration Feature Guide PDF | HTML 2025/04/23
User guide Getting Started with Bootloading on C2000™ Microcontrollers PDF | HTML 2025/04/08
Design guide 11-kW, Bidirectional Three-Phase Three-Level (T-type) Inverter and PFC Reference Design (Rev. J) PDF | HTML 2025/02/20
Certificate TMS320F28P55x TUV SUD Functional Safety Certificate 2025/02/19
Application note Robust and Simple TCM Totem Pole PFC Control Using C2000 and GaN PDF | HTML 2025/02/13
Application note C2000 IDE Assist Tool Features Guide (Rev. A) PDF | HTML 2025/01/29
User guide Migration Between TMS320F28P5xx and TMS320F280013x/TMS320F280015x (Rev. A) PDF | HTML 2024/10/23
User guide Migration Between TMS320F28P5xx and TMS320F28003x (Rev. A) PDF | HTML 2024/09/25
Certificate Certificate of Compliance UL-CA-2340465-0 2024/05/23
Design guide Bidirectional, Dual Active Bridge Reference Design for Level 3 Electric Vehicle Charging Stations (Rev. E) PDF | HTML 2024/04/30
Application note Power Supply and Monitoring Solution for C2000 MCU Automotive Applications PDF | HTML 2024/04/17
User guide TMS320F28P55x Flash API Version 4.00.00.00 PDF | HTML 2024/04/09
Application note C2000 Type-2 Programmable Gain Amplifier Use Cases PDF | HTML 2024/04/04
Application note Migrating Software From 8-Bit (Byte) Addressable CPU’s to C28x CPU (Rev. A) PDF | HTML 2023/04/19
Application note Charge-Sharing Driving Circuits for C2000 ADCs (using PSPICE-FOR-TI) (Rev. A) PDF | HTML 2023/03/24
Application note Charge-Sharing Driving Circuits for C2000 ADCs (using TINA-TI simulation tool) (Rev. A) PDF | HTML 2023/03/24
Application note C2000 ePWM Developer’s Guide (Rev. A) PDF | HTML 2023/02/24
Application note LIN Protocol and Physical Layer Requirements (Rev. A) PDF | HTML 2022/08/24
Application note Intelligent LLC SR Control Using C2000 and UCD7138 (Rev. A) PDF | HTML 2022/06/27
Application note Implement three-phase interleaved LLC on C2000 Type-4 PWM PDF | HTML 2022/03/30
Design guide 11-kW, Bidirectional, Three-Phase ANPC Based on GaN Reference Design (Rev. A) PDF | HTML 2022/03/18
Application note C2000 Memory Power-On Self-Test (M-POST) (Rev. A) PDF | HTML 2022/03/03
Application brief Using An Op Amp for High-Side Current Sensing (Rev. A) PDF | HTML 2021/12/07
Application note C2000 SysConfig PDF | HTML 2021/10/20
Application note Getting Started with the MCAN (CAN FD) Module PDF | HTML 2021/10/20
White paper Speed Up Development With C2000™ Real-Time MCUs Using SysConfig 2021/10/20
Application note Leverage New Type ePWM Features for Multiple Phase Control PDF | HTML 2021/05/11
E-book An Engineer’s Guide to Designing with Precision Amplifiers 2021/04/29
White paper Four key design considerations when adding energy storage to solar power grids 2021/03/22
Application note CRM/ZVS PFC Implementation Based on C2000 Type-4 PWM Module PDF | HTML 2021/02/18
Application note Power Topologies in Electric Vehicle Charging Stations PDF | HTML 2020/09/16
Application note Secure BOOT On C2000 Device 2020/07/21
Application note Configurable Error Generator for Controller Area Network PDF | HTML 2019/12/19
Application note Fast Integer Division – A Differentiated Offering From C2000 Product Family PDF | HTML 2019/06/14
Application note Embedded Real-Time Analysis and Response for Control Applications PDF | HTML 2019/03/29
Circuit design Inverting op amp with non-inverting positive reference voltage circuit (Rev. A) 2019/02/04
Circuit design Non-inverting op amp with inverting positive reference voltage circuit (Rev. A) 2019/02/04
White paper Maximizing power for Level 3 EV charging stations 2018/06/12
User guide Digitally Controlled Solar Micro Inverter Using C2000 MCU CCS User's Guide (Rev. B) 2017/06/09
Application note Calculating FIT for a Mission Profile 2015/03/24
Application note AN-20 An Applications Guide for Op Amps (Rev. C) 2013/05/01
User guide Serial Peripheral Interface (SPI) for KeyStone Devices User’s Guide (Rev. A) 2012/03/30

설계 및 개발

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평가 보드

LAUNCHXL-F28P55X — C2000™ 실시간 MCU F28P55X LaunchPad™ 개발 키트

LAUNCHXL-F28P55X는 TI C2000™ 실시간 마이크로컨트롤러 시리즈 F28P55x 장치용 저비용 개발 보드입니다. 초기 평가 및 프로토타이핑에 적합하며, 귀사의 다음 애플리케이션 개발을 위한 표준화되고 사용이 간편한 플랫폼을 제공합니다. 이 확장 버전 LaunchPad™ 개발 키트는 개발을 위해 추가 핀을 제공하고 2개의 BoosterPack™ 플러그인 모듈 연결을 지원합니다. 방대한 TI MCU LaunchPad 에코시스템의 일부로, 광범위한 플러그인 모듈과 상호 호환됩니다.

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평가 보드

TMDSCNCD28P55X — TMDSCNCD28P55X controlCARD 평가 모듈

TMDSCNCD28P55X은 F28P55x 디바이스의 TI C2000™ MCU 시리즈를 위한 저비용 평가 및 개발 보드입니다. HSEC180(180핀 고속 엣지 커넥터)이 제공되며 controlCARD로 초기 평가 및 프로토타이핑에 적합합니다. TMDSCNCD28P55X, 평가를 위해 180핀 도킹 스테이션 TMDSHSECDOCK가 필요하며 별도로 구매할 수 있습니다.

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평가 보드

XDS110ISO-EVM — C2000 및 Sitara™ controlSOM용 XDS110 절연 플러그인 평가 모듈

XDS110 절연 플러그인 보드는 C2000 및 Sitara controlSOM을 위한 실시간 디버그 및 플래시 프로그래밍 평가 모듈입니다. 비절연 120핀 커넥터 또는 전기적으로 절연된 16핀 커넥터를 통해 C2000 및 Sitara controlSOM에 연결할 수 있습니다. 두 커넥터는 모두 JTAG/cJTAG/SWD 지원과 전이중 UART 포트를 갖추고 있습니다. 이 보드는 SPI(직렬 주변 기기 인터페이스), 4개의 절연 디지털-아날로그 컨버터(DAC) 채널, 최대 6개의 디지털 및 4개의 아날로그 비절연 채널 등 타깃 (...)
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평가 보드

ALGO-3P-UISP1-TI — 텍사스 인스트루먼트 장치용 Algocraft μISP1 프로그래머

μISP는 호스트 PC(RS-232, USB, LAN 연결 기능이 내장되어 있음)에 연결되어 작동하거나 단독 모드로 작동할 수 있습니다.

독립 실행형 모드의 프로그래밍 싸이클은 단순히 START 버튼을 누르거나 일부 TTL 제어 라인을 통해 실행될 수 있습니다.

컴팩트한 크기와 다양한 기능을 갖추고 있어 생산 환경, 수동 및 자동 프로세스에 간편하게 통합할 수 있습니다.

발송: Algocraft
파트너 사이트 방문
도터 카드

TMDSHSECDOCK — HSEC180 controlCARD 베이스보드 도킹 스테이션

TMDSHSECDOCK은 호환 가능한 HSEC180 기반 controlCARD의 주요 신호에 대한 헤더 핀 액세스를 제공하 베이스 보드입니다. 신속한 프로토타이핑을 위해 브레드보드를 사용할 수 있습니다. 보드 전원은 USB 케이블 또는 5V 배럴 공급 장치로 공급할 수 있습니다.

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디버그 프로브

TMDSEMU110-U — XDS110 JTAG 디버그 프로브

텍사스 인스트루먼트 XDS110은 TI 임베디드 프로세서를 위한 새로운 디버그 프로브(에뮬레이터)입니다. XDS110은 XDS100 제품군을 대체하면서 하나의 포드로 더 다양한 표준(IEEE1149.1, IEEE1149.7, SWD)을지원합니다. 또한 모든 XDS 디버그 프로브는 ETB(Embedded Trace Buffer)가 포함되어 있는 모든 Arm® 및 DSP 프로세서에서 코어(Core) 및 시스템 트레이스(System Trace)를 지원합니다.  핀을 통한 코어 추적의 경우 XDS560v2 PRO TRACE가 필요합니다.

(...)
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디버그 프로브

TMDSEMU200-U — XDS200 USB 디버그 프로브

XDS200은 TI 임베디드 장치를 디버깅하는 데 사용되는 디버그 프로브(에뮬레이터)입니다. 대부분의 장치의 경우 더욱 저렴한 신형 XDS110(www.ti.com/tool/TMDSEMU110-U)을 사용하실 것을 권장합니다. XDS200은 단일 포드에서 다양한 표준(IEEE1149.1, IEEE1149.7, SWD)을 지원합니다. 모든 XDS 디버그 프로브는 ETB(임베디드 트레이스 버퍼)가 포함되어 있는 모든 Arm® 및 DSP 프로세서에서 코어 및 시스템 트레이스를 지원합니다.

XDS200은 TI 20핀 커넥터(TI 14핀, (...)

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하드웨어 프로그래밍 도구

ALGO-3P-WRITENOW — Algocraft WriteNow! 프로그래머

WriteNow! 시스템 내 프로그래머 시리즈는 프로그래밍 산업에서 획기적인 발전입니다. 프로그래머는 다양한 제조업체의 수많은 장치(마이크로컨트롤러, 메모리, CPLD 및 기타 프로그래머블 장치)를 지원하며 간편한 ATE/장치 통합을 위한 컴팩트한 크기를 가지고 있습니다. 이는 단독으로 작동하거나 호스트 PC(RS-232, LAN 및 USB 연결 기능이 내장되어 있음)에 연결되어 있으며 사용이 간편한 소프트웨어 유틸리티가 제공됩니다.

발송: Algocraft
파트너 사이트 방문
하드웨어 프로그래밍 도구

C-GANG — 독립 실행 및 통합 플래싱을 위한 빠르고 안정적인 갱 프로그래밍 솔루션

C-GANG은 한 번에 최대 6개의 동일한 대상을 프로그래밍할 수 있는 저비용 갱 프로그래머입니다. MSPM0, MSP430 및 C2000 장치를 비롯한 다양한 TI 마이크로컨트롤러와 호환됩니다.

발송: Elprotronic Inc.
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하드웨어 프로그래밍 도구

OPTEEQ-3P-SG400-SERIES — OPTEEQ SG400 시리즈 범용 인시스템 갱 프로그래머

OPTEEQ Technologies는 반도체 칩 프로그래밍에 대한 10년 이상의 깊이 있는 전문 지식을 갖춘 시장 선두 주자입니다. OPTEEQ SG400E 프로그래머는 1~32채널 옵션을 제공합니다. SG400 시리즈의 높은 안정성과 초고속 프로그래밍 속도를 유지하면서 새롭게 설계된 독립 전원 공급 시스템을 통해 고객의 다양한 응용 시나리오를 충족합니다. 또한 VCC/VPP 고속 방전 회로와 이중 과부하 보호 회로를 추가하여 자동차 전자 장치, 산업 제어 및 기타 산업에서 PCB의 대량 생산 및 테스트에 이상적이며 고객이 백만 (...)

발송: OPTEEQ Technologies
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하드웨어 프로그래밍 도구

SOFTM-3P-FLASHRUNNER-HS — SMH Technologies FlashRunner 고속 프로그래밍 툴

FlashRunner HS는 멀티 엔드 프로그래밍 시스템입니다. 일반적인 프로그래밍 시스템 기능을 중앙의 제어 장치와 USB type-C 케이블로 연결된 최대 8개의 주변 기기 활성 모듈이 공유합니다. 새로운 그래픽 사용자 인터페이스(Workbench)는 전반적인 구성 부담을 줄여 몇 번의 마우스 클릭 만으로 고객이 프로젝트를 생성할 수 있도록 안내하고, 대상 장치와 고객의 펌웨어 간의 불일치를 감지하며 전원 공급 장치 설정을 지원합니다.


지원되는 TI 장치를 보려면 (...)

발송: SMH Technologies
파트너 사이트 방문
소프트웨어 개발 키트(SDK)

C2000WARE C2000Ware for C2000 Microcontrollers

C2000Ware is a cohesive set of software and documentation created to minimize development time. It includes device-specific drivers, libraries, and peripheral examples.

  • Hardware design schematics, BOM, gerber files, and documentation for C2000 controlCARDS, Experimenter Kits, and LaunchPads.
  • (...)
지원되는 제품 및 하드웨어

지원되는 제품 및 하드웨어
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소프트웨어 개발 키트(SDK)

C2000WARE-DIGITALPOWER-SDK DigitalPower SDK for C2000 Real-time Controllers

    • DigitalPower SDK for C2000™ microcontrollers (MCU) is a cohesive set of software infrastructure, tools, and documentation designed to minimize C2000 MCU based digital power system development time targeted for various AC-DC, DC-DC and DC-AC power supply applications. The software includes (...)
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지원되는 제품 및 하드웨어
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소프트웨어 개발 키트(SDK)

C2000WARE-MOTORCONTROL-SDK MotorControl software development kit (SDK) for C2000™ MCUs

MotorControl SDK for C2000™ microcontrollers (MCU) is a cohesive set of software infrastructure, tools, and documentation designed to minimize C2000 real-time controller based motor control system development time targeted for various three-phase motor control applications. The software (...)

지원되는 제품 및 하드웨어

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시작하기

TI-DEVELOPER-ZONE Start embedded development on your desktop or in the cloud

From evaluation to deployment the TI Developer Zone provides a comprehensive range of software, tools and training to ensure that you have everything you need for each stage of the development process.
지원되는 제품 및 하드웨어

지원되는 제품 및 하드웨어
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IDE, 구성, 컴파일러 또는 디버거

C2000_CLA_SAFETI_CQKIT_RV C2000™ and CLA safety compiler qualification kit (leverages compiler release validations)

The Safety Compiler Qualification Kit was developed to assist customers in qualifying their use of the TI ARM, C6000, C7000 or C2000/CLA C/C++ Compiler to functional safety standards such as IEC 61508 and ISO 26262.

The Safety Compiler Qualification Kit:

  • is free of charge for TI customers
  • does (...)
지원되는 제품 및 하드웨어

지원되는 제품 및 하드웨어
다운로드 옵션
IDE, 구성, 컴파일러 또는 디버거

CCSTUDIO Code Composer Studio integrated development environment (IDE)

Code Composer Studio is an integrated development environment (IDE) for TI's microcontrollers and processors. It is comprised of a rich suite of tools used to build, debug, analyze and optimize embedded applications. Code Composer Studio is available across Windows®, Linux® and macOS® platforms.

(...)

지원되는 제품 및 하드웨어

지원되는 제품 및 하드웨어
시작 다운로드 옵션
IDE, 구성, 컴파일러 또는 디버거

EDGE-AI-STUDIO Edge AI Studio

Edge AI Studio is a collection of graphical and command line tools designed to accelerate edge AI development on TI processors, microcontrollers and radar sensors. Whether developing a proof of concept using a model from the TI Model Zoo or leveraging your own model, Edge AI Studio provides the (...)

지원되는 제품 및 하드웨어

지원되는 제품 및 하드웨어
시작 다운로드
IDE, 구성, 컴파일러 또는 디버거

EDGE-AI-STUDIO-MCU Edge AI Studio for Microcontrollers

Edge AI Studio is a collection of graphical and command line tools designed to accelerate edge AI development on TI processors, microcontrollers and radar sensors. Whether developing a proof of concept using a model from the TI Model Zoo or leveraging your own model, Edge AI Studio provides the (...)

지원되는 제품 및 하드웨어

지원되는 제품 및 하드웨어
시작 다운로드 옵션
IDE, 구성, 컴파일러 또는 디버거

SYSCONFIG Standalone desktop version of SysConfig

SysConfig is a configuration tool designed to simplify hardware and software configuration challenges to accelerate software development.

SysConfig is available as part of the Code Composer Studio™ integrated development environment as well as a standalone application. Additionally SysConfig (...)

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온라인 교육

C28X-ACADEMY C28X-ACADEMY

The C28x Academy is a great resource for developers to learn about C28x-based C2000 real-time microcontrollers. The Academy delivers informational training modules as well as hands-on lab exercises that span a variety of topics.
지원되는 제품 및 하드웨어

지원되는 제품 및 하드웨어
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운영 체제(OS)

WHIS-3P-SAFERTOS — WITTENSTEIN SAFERTOS 사전 인증 안전 RTOS

SAFERTOS®는 임베디드 프로세서를 위해 설계된 고유한 실시간 운영 체제입니다. TÜV SÜD의 IEC 61508 SIL3 및 ISO 26262 ASILD 표준에 따라 사전 인증을 받았습니다. SAFERTOS®는 WHIS 전문가 팀에서 안전을 위해 특별히 제작되었으며, 전 세계적으로 안전이 중요한 응용 분야에 사용됩니다. WHIS와 텍사스 인스트루먼트는 10년 넘게 협력해 왔습니다. 이 기간 동안, WHIS는 SAFERTOS®를 광범위한 TI 프로세서로 이식하여 널리 사용되는 모든 코어를 지원하며 요청 시 추가 아키텍처를 (...)
발송: WITTENSTEIN High Integrity Systems
파트너 사이트 방문
소프트웨어 프로그래밍 도구

C2000-C-GANG-SW C-GANG Programmer Support Software - C2000 - From Elprotronics, Inc.

Support Software
지원되는 제품 및 하드웨어

지원되는 제품 및 하드웨어
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소프트웨어 프로그래밍 도구

PLEXIM-3P-PLECS-CODER — TI C2000 타깃 지원 패키지 포함 Plexim PLECS Coder

TI C2000 대상 지원 패키지가 포함된 PLECS Coder는 파워 일렉트로닉스 및 전기 드라이브 애플리케이션을 위한 C2000 마이크로컨트롤러를 프로그래밍하는 프로세스를 간소화합니다. 임베디드 소프트웨어 개발을 쉽게 이용할 수 있고 효율적으로 만들 수 있도록 설계된 PLECS Coder는 제어 설계와 하드웨어 구현 사이의 격차를 해소합니다. 숙련된 개발자이든 마이크로컨트롤러 프로그래밍이 처음이든, PLECS Coder는 제어 회로도를 작동하는 MCU 코드로 변환하는 가장 빠른 방법입니다. 여기에는 표준 PLECS 라이브러리 (...)
발송: Plexim GmbH
파트너 사이트 방문
소프트웨어 프로그래밍 도구

UNIFLASH UniFlash for most TI microcontrollers (MCUs) and mmWave sensors

UniFlash is a software tool for programming on-chip flash on TI microcontrollers and wireless connectivity devices and on-board flash for TI processors. UniFlash provides both graphical and command-line interfaces.

UniFlash can be run from the cloud on the TI Developer Zone or downloaded and used (...)

지원되는 제품 및 하드웨어

지원되는 제품 및 하드웨어
시작 다운로드 옵션
시뮬레이션 모델

TMS320F28P55x BSDL Files

SPRM852.ZIP (14 KB) - BSDL Model
다운로드
시뮬레이션 모델

TMS320F28P55x IBIS Model (Rev. A)

SPRM853A.ZIP (971 KB) - IBIS Model
다운로드
설계 툴

CDNS-3P-MIDAS-SAFETY — MIDAS Safety Platform and Report Creator

The Midas Safety Platform provides early phase exploration of functional safety architectures and leverages native chip design data to perform accurate safety analysis efficiently. The platform is a unified solution available across Cadence products, and with its modular architecture, it supports (...)
발송: Cadence Design Systems
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레퍼런스 디자인

TIDA-010954 — 600W, GaN 기반 단상 사이클로컨버터 레퍼런스 설계

이 레퍼런스 설계는 사이클로컨버터(AC-DAB) 토폴로지 및 TI GaN 전력 단계를 기반으로 600W 양방향 단일 단계 DC-AC 인버터를 구현합니다. 이 설계는 DC 측에서 최대 60V 및 ±16A를 지원하고 단상에서 230VAC 및 2.6A를 지원합니다. 이 인버터는 양방향 전력 흐름을 지원하며, 태양광 마이크로 인버터 또는 BESS(배터리 에너지 저장 시스템)과 같은 다양한 애플리케이션에 사용할 수 있습니다.
Design guide: PDF
패키지 CAD 기호, 풋프린트 및 3D 모델
LQFP (PM) 64 Ultra Librarian
LQFP (PZ) 100 Ultra Librarian
TQFP (PDT) 128 Ultra Librarian
TQFP (PNA) 80 Ultra Librarian
UNKNOWN (PTF) 128 Ultra Librarian
TI의 평가 항목에 대한 표준 약관이 적용됩니다.

주문 및 품질

포함된 정보:
  • RoHS
  • REACH
  • 디바이스 마킹
  • 납 마감/볼 재질
  • MSL 등급/피크 리플로우
  • MTBF/FIT 예측
  • 물질 성분
  • 인증 요약
  • 지속적인 신뢰성 모니터링
포함된 정보:
  • 팹 위치
  • 조립 위치

권장 제품에는 본 TI 제품과 관련된 매개 변수, 평가 모듈 또는 레퍼런스 디자인이 있을 수 있습니다.

지원 및 교육

TI 엔지니어의 기술 지원을 받을 수 있는 TI E2E™ 포럼

포럼 주제 모두 보기(영문)

콘텐츠는 TI 및 커뮤니티 기고자에 의해 "있는 그대로" 제공되며 TI의 사양으로 간주되지 않습니다. 사용 약관을 참조하십시오.

품질, 패키징, TI에서 주문하는 데 대한 질문이 있다면 TI 지원을 방문하세요. ​​​​​​​​​​​​​​

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