Datasheet Texas Instruments F280041PZQ

ManufacturerTexas Instruments
SeriesTMS320F280041
Part NumberF280041PZQ
Datasheet Texas Instruments F280041PZQ

Piccolo™ Microcontroller 100-LQFP -40 to 125

Datasheets

TMS320F28004x Piccoloв„ў Microcontrollers datasheet
PDF, 2.7 Mb, Revision: A, File published: Aug 22, 2017
Extract from the document

Prices

Status

Lifecycle StatusPreview (Device has been announced but is not in production. Samples may or may not be available)
Manufacture's Sample AvailabilityNo

Packaging

Pin100
Package TypePZ
Industry STD TermLQFP
JEDEC CodeS-PQFP-G
Package QTY90
CarrierJEDEC TRAY (10+1)
Width (mm)14
Length (mm)14
Thickness (mm)1.4
Pitch (mm).5
Max Height (mm)1.6
Mechanical DataDownload

Parametrics

ADC21,14,12 Ch
ADC Resolution12-bit
CAN2
CPUC28x
Comparators7,6,5
DMA6 Ch
FPUYes
Flash128 KB
Frequency100 MHz
High Resolution PWM16 Ch
I2C1
Operating Temperature Range-40 to 125 C
PGA/VGA7,5,4
PM Bus1
PWM16 Ch
Pin/Package100LQFP, 56VQFN, 64LQFP
QEP2,1
RAM100 KB
SPI2
Sigma-Delta Filter4,3
Total Processing100 MIPS
UART2 SCI

Eco Plan

RoHSNot Compliant

Design Kits & Evaluation Modules

  • Evaluation Modules & Boards: TMDXDOCK280049M
    F280049M Experimenter's Kit for C2000 Real-Time Control Development Kits
    Lifecycle Status: Active (Recommended for new designs)

Application Notes

  • TMS320F28004x Boot Features and Configurations
    PDF, 40 Kb, File published: Jul 19, 2017
    As C2000в„ў devices have advanced in terms of available peripherals, larger memories, pin count and other options, the startup boot code has also been enhanced along with it. When it comes to the boot options available on a device, they always have to be designed to balance flexibility in terms of customization as well as the ease of use by the developer. From C2000 device-to-device, these new
  • A Technical Introduction to the TMS320F28004x Microcontroller
    PDF, 549 Kb, File published: Mar 23, 2017
    While many real-time control systems require a high-performance microcontroller (MCU), the tradeoffs of balancing performance and cost can be challenging. To this end, Texas Instruments developed the Piccoloв„ў TMS320F28004x MCU device series. This document discusses the technical details of the TMS320F28004x architecture and highlights the new improvements to various key peripherals, such as
  • The TMS320F28004x MCU: A Comparison to the TMS320F2806x and TMS320F2803x MCUs
    PDF, 269 Kb, File published: Jun 22, 2017
    The Texas Instruments Piccoloв„ў TMS320F28004x microcontroller (MCU) device series offers an optimal balance between performance and cost for many real-time control systems. This document discusses the technical details of the TMS320F28004x architecture and highlights the new improvements to various key peripherals, such as an enhanced Type-2 CLA capable of running a background task, and the i
  • Calculating Useful Lifetimes of Embedded Processors
    PDF, 521 Kb, File published: Nov 11, 2014
    This application report provides a methodology for calculating the useful lifetime of TI embedded processors (EP) under power when used in electronic systems. It is aimed at general engineers who wish to determine if the reliability of the TI EP meets the end system reliability requirement.
  • TMS320C28x FPU Primer (Rev. A)
    PDF, 228 Kb, Revision: A, File published: Jul 20, 2009
    This primer provides an overview of the floating-point unit (FPU) in the C2000в„ў Delfino microcontroller devices.
  • Using PWM Output as a Digital-to-Analog Converter on a TMS320F280x (Rev. A)
    PDF, 381 Kb, Revision: A, File published: Sep 9, 2008
    This application report presents a method for utilizing the on-chip pulse width modulated (PWM) signal generators on the TMS320F280xв„ў family of digital signal controllers as a digital-to-analog converter (DAC). The method involves analog low-pass filtering the PWM signal to remove high frequency components, leaving only the low-frequency content. Theoretical and experimental results are presented
  • Running an Application from Internal Flash Memory on the TMS320F28xxx DSP (Rev. L)
    PDF, 641 Kb, Revision: L, File published: Feb 28, 2013
    Several special requirements exist for running an application from on-chip Flash memory on the TMS320F28xxx. These requirements generally do not manifest themselves during code development in RAM since the Code Composer Studioв„ў (CCS) debugger can mask problems associated with initialized sections and their linkage in memory. This application report covers the application software modificatio
  • Programming TMS320x28xx and 28xxx Peripherals in C/C++ (Rev. D)
    PDF, 530 Kb, Revision: D, File published: Feb 27, 2013
    This application report explores a hardware abstraction layer implementation to make C/C++ coding easier on C28x devices. This method is compared to traditional #define macros and topics of code efficiency and special case registers are also addressed.
  • Accelerators: Enhancing the Capabilities of the C2000 MCU Family Technical Brief (Rev. A)
    PDF, 155 Kb, Revision: A, File published: Nov 8, 2016
    Engineers designing real-time control systems are constantly faced with the challenge of optimizing performance. These systems require minimal processing latency in order to meet the control loop performance specifications. At the heart of the control systems are math intensive algorithms which are used to calculate the control signals. Utilizing a microcontroller (MCU) that can quickly and effici
  • Serial Flash Programming of C2000 Microcontrollers (Rev. B)
    PDF, 387 Kb, Revision: B, File published: Feb 8, 2017
    Often times, embedded processors must be programmed in situations where JTAG is not a viable optionfor programming the target device. When this is the case, the engineer must rely on some type of serial programming solution. C2000 devices aid in this endeavor through their inclusion of several program loading utilities included in ROM. These utilities are useful, but only solve half of the progr
  • Calculator for CAN Bit Timing Parameters
    PDF, 37 Kb, File published: Mar 22, 2016
    Controller Area Network (CAN) nodes use user-specified timing parameters to sample the asynchronous bitstream and recover the clock. These parameters are typically based on the frequency of the available reference oscillator. There may be several options available for a given frequency, and some of them will allow a looser oscillator tolerance than others. This application report details the creat

Model Line

Series: TMS320F280041 (4)

Manufacturer's Classification

  • Semiconductors > Microcontrollers (MCU) > Performance MCUs > Real-time Control > Piccolo F2802x/3x/5x/6x/7x