Texas Instruments

F280023PNQR  

Microcontrollers

The Texas Instruments F280023PNQR is a high-performance microcontroller unit (MCU) that is part of the C2000 Piccolo family. This MCU is designed for real-time control applications and is optimized for motor control, power conversion, and sensing applications.

Description:

The F280023PNQR is a 32-bit floating-point MCU that features a high-performance CPU, a rich set of peripherals, and a flexible connectivity interface. The device is built on a 32-bit architecture and features a high-speed CPU with a clock frequency of up to 150 MHz. The device also includes a range of integrated peripherals, including a 12-bit ADC, a PWM generator, a comparator, and a communication interface.

Features:

The F280023PNQR features a range of advanced features that make it well-suited for real-time control applications. Some of the key features of this MCU include:

1. High-performance CPU: The device features a high-speed CPU with a clock frequency of up to 150 MHz, providing fast and efficient processing capabilities.
2. Integrated peripherals: The device includes a range of integrated peripherals, including a 12-bit ADC, a PWM generator, a comparator, and a communication interface.
3. Real-time control capabilities: The device is optimized for real-time control applications and includes features such as a high-resolution event timer and a flexible time-triggered communication interface.
4. Low power consumption: The device is designed for low power consumption and includes features such as a low-leakage sleep mode and a power-saving mode.
5. Flexible connectivity: The device includes a range of communication interfaces, including UART, SPI, I2C, and CAN, providing flexible connectivity options for a range of applications.

Applications:

The F280023PNQR is well-suited for a range of real-time control applications, including:

1. Motor control: The device is optimized for motor control applications and includes features such as a high-resolution event timer and a PWM generator.
2. Power conversion: The device is designed for power conversion applications and includes features such as a 12-bit ADC and a comparator.
3. Sensing applications: The device is well-suited for sensing applications and includes features such as a high-resolution event timer and a flexible time-triggered communication interface.
4. Industrial automation: The device is designed for industrial automation applications and includes features such as a low-leakage sleep mode and a power-saving mode.
5. Renewable energy: The device is well-suited for renewable energy applications, including solar power generation and wind power generation.

Overall, the Texas Instruments F280023PNQR is a high-performance MCU that is well-suited for a range of real-time control applications. Its advanced features, including a high-speed CPU, integrated peripherals, and flexible connectivity options, make it an ideal choice for motor control, power conversion, and sensing applications.

F280023PNQR Documents

Download datasheets and manufacturer documentation for F280023PNQR

PCN :

Product Change Notification 2024-08-13 (PDF)       Product Change Notification 2024-05-24 (PDF)       Product Change Notification (PDF)      

Application Notes :

How to Maximize GPIO Usage in C2000 Devices       ADC Input Circuit Evaluation for C2000 MCUs       Charge-Sharing Driving Circuits for C2000 ADCs (using PSPICE-FOR-TI)       C2000 Memory Power-On Self-Test (M-POST)       Design Guide for Enabling Peripheral Expansion Applications Using the HIC       Leverage New Type ePWM Features for Multiple Phase Control       Designing With The C2000 Configurable Logic Block       Using the Fast Serial Interface (FSI) With Multiple Devices in an Application (Rev. D)       Calculator for CAN Bit Timing Parameters       Dual-Axis Motor Control Using FCL and SFRA On a Single C2000™ MCU       C2000GΣ≤ Unique Device Number (Rev. B)       Programming TMS320x28xx and 28xxx Peripherals in C/C++ (Rev. E)       How to Migrate Custom Logic From an FPGA/CPLD to C2000 Microcontrollers (Rev. A)       Fast Serial Interface (FSI) Skew Compensation       Running an Application from Internal Flash Memory on the TMS320F28xxx DSP (Rev. L)       Sensorless-FOC for PMSM With Single DC-Link Shunt       C2000 SysConfig       Serial Flash Programming of C2000 Microcontrollers (Rev. E)       The Essential Guide for Developing With C2000 Real-Time Microcontrollers (Rev. D)       TMS320C28x FPU Primer (Rev. A)       Programming Examples for the DCAN Module (Rev. A)       C2000™ DCSM Security Tool       CRC Engines in C2000 Devices       Using PWM Output as a Digital-to-Analog Converter on a TMS320F280x (Rev. A)       C2000 Software Controlled Firmware Update Process       Leveraging High Resolution Capture (HRCAP) for Single Wire Data Transfer       Light load THD and Eff Opt of Digital Cntrl PFC Converter Int Valley Switch Cntr (Rev. A)       C2000 MCU JTAG Connectivity Debug       Charge-Sharing Driving Circuits for C2000 ADCs       Quick Response Control of PMSM Using Fast Current Loop (Rev. B)       Serial Flash Programming of C2000 Microcontrollers (Rev. D)       Migration Between TMS320F28004x and TMS320F28002x (Rev. A)       The Essential Guide for Developing With C2000 Real-Time Microcontrollers (Rev. C)       Light load THD and Eff Opt of Digital Cntrl PFC Converter Int Valley Switch Cntr       Flexible PWMs Enable Multi-Axis Drives Multi-Level Inverters (Rev. B)       Methods for Mitigating ADC Memory Cross-Talk       A Demonstration of Optimized Signal Chain Performance of C2000GΣ≤ Real-Time MCU       Calculating FIT for a Mission Profile       Semiconductor and IC Package Thermal Metrics (Rev. C)       CRM/ZVS PFC Implementation Based on C2000 Type-4 PWM Module       TMS320F2802x/TMS320F2803x to TMS320F28002x Migration Overview       MSL Ratings and Reflow Profiles (Rev. A)       Development Tool Versions for C2000 Support       Enhancing the Computational Performance of the C2000™ Microcontroller Famil (Rev. B)       The Essential Guide for Developing With C2000 Real-Time Microcontrollers (Rev. B)       Configurable Error Generator for Controller Area Network       Achieve Delayed Protection for Three-Level Inverter With Type 4 EPWM       Using the Fast Serial Interface (FSI) With Multiple Devices in an Application (Rev. C)       Embedded Real-Time Analysis and Response for Control Applications