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C2000 real-time microcontrollers

TMS320F28051

ACTIVE

C2000™ 32-bit MCU with 60 MHz, 64 KB flash, PGAs, 2 MSPS ADC

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TMS320F28051

ACTIVE
Data sheet Order now

Product details

CPU C28x Frequency (MHz) 60 Flash memory (kByte) 64 RAM (kByte) 20 ADC resolution (Bps) 12 Total processing (MIPS) 60 Features 32-bit CPU timers, PGA, Single zone code security, Watchdog timer UART 3 CAN (#) 1 Sigma-delta filter 0 PWM (Ch) 14 TI functional safety category Functional Safety Quality-Managed Number of ADC channels 16 Direct memory access (Ch) 0 SPI 1 QEP 1 USB No Operating temperature range (°C) -40 to 125 Rating Catalog Communication interface CAN, I2C, SPI, UART
CPU C28x Frequency (MHz) 60 Flash memory (kByte) 64 RAM (kByte) 20 ADC resolution (Bps) 12 Total processing (MIPS) 60 Features 32-bit CPU timers, PGA, Single zone code security, Watchdog timer UART 3 CAN (#) 1 Sigma-delta filter 0 PWM (Ch) 14 TI functional safety category Functional Safety Quality-Managed Number of ADC channels 16 Direct memory access (Ch) 0 SPI 1 QEP 1 USB No Operating temperature range (°C) -40 to 125 Rating Catalog Communication interface CAN, I2C, SPI, UART
LQFP (PN) 80 196 mm² 14 x 14
  • High-efficiency 32-bit CPU (TMS320C28x)
    • 60 MHz (16.67-ns cycle time)
    • 16 × 16 and 32 × 32 Multiply and Accumulate (MAC) operations
    • 16 × 16 dual MAC
    • Harvard bus architecture
    • Atomic operations
    • Fast interrupt response and processing
    • Unified memory programming model
    • Code-efficient (in C/C++ and Assembly)
  • Programmable Control Law Accelerator (CLA)
    • 32-bit floating-point math accelerator
    • Executes code independently of the main CPU
  • Dual-zone security module
  • Endianness: Little endian
  • Low device and system cost:
    • Single 3.3-V supply
    • No power sequencing requirement
    • Integrated power-on reset and brownout reset
    • Low power
    • No analog support pins
  • Clocking:
    • Two internal zero-pin oscillators
    • On-chip crystal oscillator and external clock input
    • Watchdog timer module
    • Missing clock detection circuitry
  • Up to 42 individually programmable, multiplexed General-Purpose Input/Output (GPIO) pins with input filtering
  • JTAG boundary scan support
    • IEEE Standard 1149.1-1990 Standard Test Access Port and Boundary Scan Architecture
  • Peripheral Interrupt Expansion (PIE) block that supports all peripheral interrupts
  • Three 32-bit CPU timers
  • Independent 16-bit timer in each ePWM module
  • On-chip memory
    • Flash, SARAM, Message RAM, OTP, CLA Data ROM, Boot ROM, Secure ROM available
  • 128-bit security key and lock
    • Protects secure memory blocks
    • Prevents firmware reverse-engineering
  • Serial port peripherals
    • Three Serial Communications Interface (SCI) (Universal Asynchronous Receiver/Transmitter [UART]) modules
    • One Serial Peripheral Interface (SPI) module
    • One Inter-Integrated-Circuit (I2C) bus
    • One Enhanced Controller Area Network (eCAN) bus
  • Enhanced control peripherals
    • Enhanced Pulse Width Modulator (ePWM)
    • Enhanced Capture (eCAP) module
    • Enhanced Quadrature Encoder Pulse (eQEP) module
  • Analog peripherals
    • One 12-bit Analog-to-Digital Converter (ADC)
    • One on-chip temperature sensor for oscillator compensation
    • Up to seven comparators with up to three integrated Digital-to-Analog Converters (DACs)
    • One buffered reference DAC
    • Up to four Programmable Gain Amplifiers (PGAs)
    • Up to four digital filters
  • Advanced debug features
    • Analysis and breakpoint functions
    • Real-time debug through hardware
  • 80-pin PN Low-Profile Quad Flatpack (LQFP)
  • Temperature options
    • T: –40°C to 105°C
    • S: –40°C to 125°C
    • Q: –40°C to 125°C (AEC Q100 qualification for automotive applications)
  • High-efficiency 32-bit CPU (TMS320C28x)
    • 60 MHz (16.67-ns cycle time)
    • 16 × 16 and 32 × 32 Multiply and Accumulate (MAC) operations
    • 16 × 16 dual MAC
    • Harvard bus architecture
    • Atomic operations
    • Fast interrupt response and processing
    • Unified memory programming model
    • Code-efficient (in C/C++ and Assembly)
  • Programmable Control Law Accelerator (CLA)
    • 32-bit floating-point math accelerator
    • Executes code independently of the main CPU
  • Dual-zone security module
  • Endianness: Little endian
  • Low device and system cost:
    • Single 3.3-V supply
    • No power sequencing requirement
    • Integrated power-on reset and brownout reset
    • Low power
    • No analog support pins
  • Clocking:
    • Two internal zero-pin oscillators
    • On-chip crystal oscillator and external clock input
    • Watchdog timer module
    • Missing clock detection circuitry
  • Up to 42 individually programmable, multiplexed General-Purpose Input/Output (GPIO) pins with input filtering
  • JTAG boundary scan support
    • IEEE Standard 1149.1-1990 Standard Test Access Port and Boundary Scan Architecture
  • Peripheral Interrupt Expansion (PIE) block that supports all peripheral interrupts
  • Three 32-bit CPU timers
  • Independent 16-bit timer in each ePWM module
  • On-chip memory
    • Flash, SARAM, Message RAM, OTP, CLA Data ROM, Boot ROM, Secure ROM available
  • 128-bit security key and lock
    • Protects secure memory blocks
    • Prevents firmware reverse-engineering
  • Serial port peripherals
    • Three Serial Communications Interface (SCI) (Universal Asynchronous Receiver/Transmitter [UART]) modules
    • One Serial Peripheral Interface (SPI) module
    • One Inter-Integrated-Circuit (I2C) bus
    • One Enhanced Controller Area Network (eCAN) bus
  • Enhanced control peripherals
    • Enhanced Pulse Width Modulator (ePWM)
    • Enhanced Capture (eCAP) module
    • Enhanced Quadrature Encoder Pulse (eQEP) module
  • Analog peripherals
    • One 12-bit Analog-to-Digital Converter (ADC)
    • One on-chip temperature sensor for oscillator compensation
    • Up to seven comparators with up to three integrated Digital-to-Analog Converters (DACs)
    • One buffered reference DAC
    • Up to four Programmable Gain Amplifiers (PGAs)
    • Up to four digital filters
  • Advanced debug features
    • Analysis and breakpoint functions
    • Real-time debug through hardware
  • 80-pin PN Low-Profile Quad Flatpack (LQFP)
  • Temperature options
    • T: –40°C to 105°C
    • S: –40°C to 125°C
    • Q: –40°C to 125°C (AEC Q100 qualification for automotive applications)

C2000™ real-time control MCUs are optimized for processing, sensing, and actuation to improve closed-loop performance in real-time control applications such as industrial motor drives; solar inverters and digital power; electrical vehicles and transportation; motor control; and sensing and signal processing. The C2000 line includes the Premium performance MCUs and the Entry performance MCUs.

The F2805x family of microcontrollers (MCUs) provides the power of the C28x core and CLA coupled with highly integrated control peripherals in low pin-count devices. This family is code-compatible with previous C28x-based code, and also provides a high level of analog integration.

An internal voltage regulator allows for single-rail operation. Analog comparators with internal 6-bit references have been added and can be routed directly to control the PWM outputs. The ADC converts from 0 to 3.3-V fixed full-scale range and supports ratio-metric VREFHI/VREFLO references. The ADC interface has been optimized for low overhead and latency.

The Analog Front End (AFE) contains up to seven comparators with up to three integrated DACs, one VREFOUT-buffered DAC, up to four PGAs, and up to four digital filters. The PGAs can amplify the input signal in three discrete gain modes. The actual number of AFE peripherals will depend upon the TMS320F2805x device number. See Device Comparison for more details.

To learn more about the C2000 MCUs, visit the C2000™ real-time control MCUs page.

C2000™ real-time control MCUs are optimized for processing, sensing, and actuation to improve closed-loop performance in real-time control applications such as industrial motor drives; solar inverters and digital power; electrical vehicles and transportation; motor control; and sensing and signal processing. The C2000 line includes the Premium performance MCUs and the Entry performance MCUs.

The F2805x family of microcontrollers (MCUs) provides the power of the C28x core and CLA coupled with highly integrated control peripherals in low pin-count devices. This family is code-compatible with previous C28x-based code, and also provides a high level of analog integration.

An internal voltage regulator allows for single-rail operation. Analog comparators with internal 6-bit references have been added and can be routed directly to control the PWM outputs. The ADC converts from 0 to 3.3-V fixed full-scale range and supports ratio-metric VREFHI/VREFLO references. The ADC interface has been optimized for low overhead and latency.

The Analog Front End (AFE) contains up to seven comparators with up to three integrated DACs, one VREFOUT-buffered DAC, up to four PGAs, and up to four digital filters. The PGAs can amplify the input signal in three discrete gain modes. The actual number of AFE peripherals will depend upon the TMS320F2805x device number. See Device Comparison for more details.

To learn more about the C2000 MCUs, visit the C2000™ real-time control MCUs page.
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Technical documentation

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Type Title Date
* Data sheet TMS320F2805x Real-Time Microcontrollers datasheet (Rev. F) PDF | HTML 13 Sep 2021
* Errata TMS320F2805x Real-Time MCUs Silicon Errata (Rev. F) PDF | HTML 01 Oct 2021
* User guide TMS320x2805x Microcontrollers Technical Reference Manual (Rev. E) 11 Jun 2022
Application note Power Supply and Monitoring Solution for C2000 MCU Automotive Applications PDF | HTML 17 Apr 2024
Application note Serial Flash Programming of C2000 Microcontrollers (Rev. H) PDF | HTML 09 Apr 2024
Application note Semiconductor and IC Package Thermal Metrics (Rev. D) PDF | HTML 25 Mar 2024
Product overview C2000™ Safety Package for Automotive and Industrial Real-Time Microcontrollers (Rev. D) PDF | HTML 12 Dec 2023
Product overview C2000™ Safety Mechanisms (Rev. B) 09 Nov 2023
Application note C2000 MCU JTAG Connectivity Debug (Rev. B) PDF | HTML 12 Jan 2023
Application note Enhancing the Computational Performance of the C2000™ Microcontroller Family (Rev. C) PDF | HTML 14 Dec 2021
Functional safety information C2000™ SafeTI™ Enablers (Rev. C) 16 Nov 2020
Application note C2000™ Unique Device Number (Rev. B) PDF | HTML 17 Sep 2020
Application note EEPROM Emulation for Gen 2 C2000 Real-Time MCUs (Rev. A) 23 Jul 2020
White paper Taking charge of electric vehicles – both in the vehicle and on the grid (Rev. A) 17 Jun 2020
User guide SYS/BIOS (TI-RTOS Kernel) User's Guide (Rev. V) 01 Jun 2020
Application note Configurable Error Generator for Controller Area Network PDF | HTML 19 Dec 2019
Application note C2000 ADC (Type-3) Performance Versus ACQPS PDF | HTML 07 Oct 2019
Application note Development Tool Versions for C2000 Support 19 Jul 2019
Application note Calculating Useful Lifetimes of Embedded Processors (Rev. B) PDF | HTML 07 May 2019
Functional safety information C2000™ MCU SafeTI™ control solutions: An introduction to ASIL decomposition 10 Apr 2019
Application note MSL Ratings and Reflow Profiles (Rev. A) 13 Dec 2018
White paper Exploring the evolution and optimization of wireless power transfer 27 Jul 2018
Certificate Certificate of Compliance 06 Jul 2018
Certificate Certificate of Compliance E352502-20130316 06 Jul 2018
Functional safety information VDE Safety Certification Document 22 Jun 2018
Application note Programming Examples for the TMS320x28xx eCAN (Rev. B) PDF | HTML 12 Sep 2017
Application note Calculator for CAN Bit Timing Parameters PDF | HTML 22 Mar 2016
Application note Using the CAN Piccolo Bootloader at High Temperature 29 Jun 2015
User guide TMS320C28x DSP CPU and Instruction Set (Rev. F) 10 Apr 2015
Application note Calculating FIT for a Mission Profile 24 Mar 2015
More literature controlSUITE Getting Started Guide (Rev. C) 09 Feb 2015
Functional safety information Safety Manual for C2000 MCUs in IEC60730 Safety Applications (Rev. A) 21 Aug 2013
White paper Developing a multi-channel wireless inductive charger 24 Aug 2012
Application note InstaSPIN(tm) BLDC Lab 15 Nov 2011
Application note Oscillator Compensation Guide (Rev. A) 18 Jun 2010
White paper HVAC Dual AC Motor Control with Active PFC Implementation Using Piccolo™ MCUs 15 Apr 2010
Application note Programming External Nonvolatile Memory Using SDFlash for TMS320C28x Devices 16 Nov 2009
User guide C2000 Real-Time Control Peripheral Reference Guide (Rev. S) PDF | HTML 30 Aug 2001

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