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Datasheet Texas Instruments LM3S9C97-IBZ80-A2

Texas Instruments LM3S9C97-IBZ80-A2

:Texas Instruments
:LM3S9C97
:LM3S9C97-IBZ80-A2

Stellaris LM3S Microcontroller 108-NFBGA -40 to 85

Datasheets

  • » Datasheet, PDF, 7.5 , Rev. C, 03-07-2014
    Stellaris LM3S9C97 Microcontroller Data Sheet (Rev. C)

    NFBGA 108/I/Stellaris Microcontroller
     LM3S9C97-IBZ80-A2
    5 Texas Instruments
    Texas Instruments
    Texas Instruments
    »
    »

: LM3S9C97

( )

RoHS
(Pb Free)

/ /

Pin108108
Package TypeZCRZCR
Industry STD TermNFBGANFBGA
JEDEC CodeS-PBGA-NS-PBGA-N
IBZ80LM3S9C97
Width ()1010
Length ()1010
Thickness ().95.95
Pitch ().8.8
Max Height ()1.51.5
Mechanical Data » »

Semiconductors > Microcontrollers (MCU) > Performance MCUs > Control + Automation > LM3S Cortex-M3 Series

Application Notes

  • » Application Notes, PDF, 1.7 , Rev. A, 15-08-2012
    Using Execute, Write/Erase Flash Protection on Stellaris MCUs Using CCS (Rev. A)
    Protection of code and IP in a microcontroller's Flash memory has always been an important consideration for the system designers. Stellaris® microcontrollers feature a code protection mechanism that enables developers to protect their code and IP in the end application, while providing the flexibility to upgrade the firmware using a boot loader. This application report describes using Flash p
  • » Application Notes, PDF, 116 , Rev. A, 08-07-2013
    Stellaris Application Update Using Stellaris USB DFU Class (AN01273) (Rev. A)
    This application report provides a brief overview of the Device Firmware Upgrade (DFU) class, describes the Stellaris implementation in the USB boot loader (boot_usb) application, and also describes the hostside lmdfu dynamic link library for Windows. Use of the standard USB DFU class on Stellaris USBenabled microcontrollers offers a convenient and fast method of replacing main application image
  • » Application Notes, PDF, 95 , 07-07-2009
    Programming the On-Chip Flash Memory in a Stellaris Microcontroller (AN01237)
    This application note provides three methods for erasing and programming Flash memory: the StellarisWare Peripheral DriverLib, software polling for completed updates, and interrupt-driven updates.
  • » Application Notes, PDF, 278 , Rev. B, 04-02-2013
    System Design Guidelines for Stellaris® Microcontrollers   (Rev. B)
  • » Application Notes, PDF, 170 , 07-07-2009
    Using the Stellaris Microcontroller Analog-to-Digital Converter (AN01247)
    This application note describes ADC sampling and configuring Stellaris microcontrollers through the StellarisWare Peripheral Driver Library or through direct writes to the device's control registers.
  • » Application Notes, PDF, 89 , 07-07-2009
    Serial-to-Ethernet Converter for Stellaris Microcontrollers (AN01266)
    The software described in this application note allows an Ethernet-enabled Stellaris microcontroller to be used as a serial-to-Ethernet converter.
  • » Application Notes, PDF, 70 , Rev. C, 08-09-2012
    Using the Stellaris Ethernet Controller with Lightweight IP (lwIP) (AN01261) (Rev. C)
  • » Application Notes, PDF, 1.4 , Rev. A, 19-11-2012
    Using SYS/BIOS with Stellaris® ARM® Cortex™-M3 Microcontrollers (Rev. A)
    This document provides a brief overview of the Texas Instruments’ SYS/BIOS Real-Time Operating System (RTOS) and outlines how to implement SYS/BIOS on the Stellaris® Cortex™-M3 family of microcontrollers. In addition to setting up and running an example project provided within the SYS/BIOS software package, this document outlines the process of creating a new SYS/BIOS project with the Code Compose
  • » Application Notes, PDF, 162 , Rev. E, 24-09-2013
    Differences Among Stellaris® LM3S and Tiva™ C Series TM4C123x MCUs (Rev. E)
    is document addresses design items to be aware of when migrating working designs among Fury-, DustDevil-, Tempest-, and Firestorm-Stellaris® microcontrollers (MCUs) and Tiva™ C Series TM4C123x-class MCUs. Topics covered include both software and hardware issues as well as feature changes and enhancements. All software issues are comprehended in the Driver Library APIs. As a result, syste
  • » Application Notes, PDF, 172 , Rev. C, 06-11-2013
    Configuring Stellaris® Tempest- and Firestorm-Class and MCUs W/ Pin Multiplexing (Rev. C)
    Many members of the Stellaris® family of microcontrollers provide system designers with a great deal of control over the placement and selection of peripheral module signals that are alternate functions for GPIO signals. This application note provides an overview of the pin muxing implementation, an explanation of how a system designer defines a pin configuration, and examples of the pin confi
  • » Application Notes, PDF, 120 , 07-07-2009
    Using the Stellaris Serial Flash Loader (AN01242)
    This application note describes how to communicate with the Stellaris serial flash loader application.
  • » Application Notes, PDF, 3.9 , 07-07-2009
    USB Certification for Stellaris-Based USB Peripherals and Embedded Host Systems
    This application note describes the USB-IF certification process for a USB full-speed device and a USB full-speed embedded host system using the a Stellaris LM3S5732 microcontroller as the example.
  • » Application Notes, PDF, 301 , 07-07-2009
    Using a 9-bit Software UART with Stellaris (AN01280)
    This application note describes how to extend the functionality of the standard hardware UART available on Stellaris® microcontrollers by using the 9-bit UART add-on.
  • » Application Notes, PDF, 161 , 07-07-2009
    Optimizing Code Performance and Size for Stellaris Microcontrollers (AN01265)
    This application note provides a summary of factors that affect code performance and size for Stellaris® microcontrollers and suggestions to improve code performance and size including example code.
  • » Application Notes, PDF, 127 , Rev. C, 01-11-2012
    Stellaris® LM3S ADC Calibration (AN01282) (Rev. C)
    This application report describes a method for improving the absolute accuracy of the analog-to-digital converters (ADCs) found on Stellaris® LM3S microcontrollers. Due to inherent gain and offset errors, the absolute accuracy of the ADC is affected. The methods described in this application report can improve the absolute accuracy of the ADC results.
  • » Application Notes, PDF, 91 , 07-07-2009
    Using Stellaris MCUs Internal Flash Memory to Emulate EEPROM (AN01267)
    This application note describes how to emulate EEPROM using the internal Flash memory and provides an example application that uses EEPROM emulation drivers.
  • » Application Notes, PDF, 77 , 07-07-2009
    Software UART for Stellaris Microcontrollers (AN01270)
    This application note looks at implementing a software-based UART which, using general-purpose input/outputs (GPIO), allows the user to overcome hardware limitations or lack of dedicated peripherals.
  • » Application Notes, PDF, 95 , Rev. A, 08-01-2013
    ADC Oversampling Techniques for Stellaris Microcontrollers (AN01239) (Rev. A)
    Some members of the Stellaris microcontroller family have an analog-to-digital converter (ADC) module. The hardware resolution of the ADC is 10 bits; however, due to noise and other accuracy diminishing factors, the true accuracy is less than 10 bits. This application report provides a software-based oversampling technique, resulting in an improved effective number of bits (ENOB) in the conversion
  • » Application Notes, PDF, 128 , Rev. B, 11-01-2010
    Using the Stellaris Ethernet Controller with Micro IP (uIP) (AN01260) (Rev. B)
    This application note gives an overview of the uIP TCP/IP stack followed by a discussion of uIP application examples provided for Stellaris evaluation boards with Ethernet controllers.
  • » Application Notes, PDF, 74 , 07-07-2009
    Implementing RS-232 Flow Control on a Stellaris Microcontroller (AN01255)
    This application note describes how to implement flow control by using the Stellaris GPIO module with its interrupt support.

: LM3S9C97IBZ80A2, LM3S9C97 IBZ80 A2

: Datasheet Texas Instruments LM3S9C97-IBZ80-A2

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