Datasheet Texas Instruments TM4C129XKCZADT3
Manufacturer | Texas Instruments |
Series | TM4C129XKCZAD |
Part Number | TM4C129XKCZADT3 |
IoT enabled High performance 32-bit ARM® Cortex®-M4F based MCU 212-NFBGA -40 to 105
Datasheets
Tiva C Series TM4C129XKCZAD Microcontroller Data Sheet datasheet
PDF, 11.3 Mb, Revision: B, File published: Jun 19, 2014
Extract from the document
Prices
Status
Lifecycle Status | Active (Recommended for new designs) |
Manufacture's Sample Availability | No |
Packaging
Pin | 212 | 212 |
Package Type | ZAD | ZAD |
Package QTY | 184 | 184 |
Device Marking | TM4C129 | XKCZADT3 |
Width (mm) | 10 | 10 |
Length (mm) | 10 | 10 |
Thickness (mm) | .65 | .65 |
Mechanical Data | Download | Download |
Parametrics
1-Wire Master | 1 |
10/100 ENET MAC | Yes |
10/100 ENET MAC+PHY | Yes |
ADC Channels | 24 |
ADC Resolution | 12 Bits |
Bi- and Quad- SSI/SPI | Yes |
CAN MAC | 2 |
CPU | ARM Cortex-M4F |
EEPROM | 6 KB |
External Peripheral Interface | Yes |
Flash | 512 KB |
Frequency | 120 MHz |
GPIO | 140 |
I2C | 10 |
LCD | Yes |
LCD Controller | Yes |
Max Speed | 120 MHz |
Motion PWM Outputs | 8 |
Non-volatile Memory | 6 KB |
Operating Temperature Range | -40 to 105,-40 to 85 C |
Package Group | NFBGA |
Package Size: mm2:W x L | 212NFBGA: 100 mm2: 10 x 10(NFBGA) PKG |
Pin & Package | 212BGA |
Pin/Package | 212NFBGA |
QEI | 1 |
RAM | 256 KB |
Rating | Catalog |
SPI | 4 |
SRAM | 256 kB |
SSI/SPI | 4 |
Security | HW accelerator |
SysTick | Yes |
UART | 8 |
USB D, H/D, or OTG | OTG |
USB High-Speed with ULPI | Yes |
Watchdog Timers | 2 |
Eco Plan
RoHS | Compliant |
Design Kits & Evaluation Modules
- Development Kits: DK-TM4C129X
IoT Enabled ARMВ® CortexВ®-M4F MCU TM4C129X Connected Development Kit
Lifecycle Status: Active (Recommended for new designs) - Evaluation Modules & Boards: EK-TM4C129EXL
ARMВ® CortexВ®-M4F-Based MCU TM4C129E Crypto Connected LaunchPadв„ў for IoT Applications
Lifecycle Status: Active (Recommended for new designs) - Evaluation Modules & Boards: EK-TM4C1294XL
ARMВ® CortexВ®-M4F-Based MCU TM4C1294 Connected LaunchPadв„ў
Lifecycle Status: Active (Recommended for new designs) - JTAG Emulators/ Analyzers: TMDSEMU100V2U-ARM
XDS100v2 JTAG Debug Probe (ARM version)
Lifecycle Status: Active (Recommended for new designs) - JTAG Emulators/ Analyzers: TMDSEMU100V2U-20T
XDS100v2 JTAG Debug Probe (20-pin cTI version)
Lifecycle Status: Active (Recommended for new designs) - JTAG Emulators/ Analyzers: TMDSEMU100V2U-14T
XDS100v2 JTAG Debug Probe (14-pin TI version)
Lifecycle Status: Active (Recommended for new designs) - JTAG Emulators/ Analyzers: TMDSEMU200-U
XDS200 USB Debug Probe
Lifecycle Status: Active (Recommended for new designs) - JTAG Emulators/ Analyzers: TMDSEMU560V2STM-UE
XDS560v2 System Trace USB & Ethernet Debug Probe
Lifecycle Status: Active (Recommended for new designs) - JTAG Emulators/ Analyzers: TMDSEMU560V2STM-U
XDS560v2 System Trace USB Debug Probe
Lifecycle Status: Active (Recommended for new designs)
Application Notes
- Serial to Ethernet Converter for TM4C129x Microcontrollers Using RTOSPDF, 1.5 Mb, File published: Mar 31, 2015
Some legacy products may only contain a serial port and accessing such products is increasingly becoming a challenge due to the inability to add multiple such products to a shared network and the inability to access the legacy product from long distances. A serial-to-Ethernet converter provides a simple solution to solve the above challenges. The software described in this application report allow - Differences Between Stellaris Tempest & Firestorm-Class MCUs and Tiva TM4C129xPDF, 162 Kb, File published: Oct 22, 2013
This document addresses design considerations when migrating working designs from Tempest- and Firestorm-class Stellaris microcontrollers to Tiva TM4C129x microcontrollers. Topics covered include both software and hardware differences as well as feature changes and enhancements. All software differences are comprehended in the Driver Library APIs that are part of StellarisWareВ® and TivaWare&tr - Implementing OPUS Voice Code for TM4C129x DevicePDF, 3.1 Mb, File published: Jun 20, 2016
Opus is an open source, royalty-free audio compression format developed by Xiph and standardized by the IETF. It utilizes lossy compression which is designed to efficiently code audio with a low latency making it suitable for real time communication. Opus replaces both the Vorbis and Speex codecs, and is intended for storage and streaming applications. Its low complexity allows it to be run effici - Using Feature Set of I2C on TM4C129x MicrocontrollersPDF, 1.7 Mb, File published: Jul 28, 2015
The inter-integrated circuit (I2C) is a multi-master, multi-slave, single-ended bus that is typically used forattaching lower speed peripheral ICs to processors and microcontrollers. The type of slave devices range from non-volatile memory to data-acquisition devices like analog-to-digital converters (ADC), sensors, and so forth. This application report demonstrates how to use the feature rich I - Differences Between Tiva C Series TM4C MicrocontrollersPDF, 121 Kb, File published: Oct 22, 2013
This document addresses design considerations when migrating working designs between Tiva C Series TM4C123x and TM4C129x microcontrollers. While most modules shared among the devices are largely the same, some feature enhancements are worth noting. This document describes software and hardware differences for both feature changes and enhancements. All software differences are comprehended in the T - 1-Wire Enumeration (Rev. B)PDF, 93 Kb, Revision: B, File published: Apr 26, 2016
application report describes the 1-Wire communication protocol, available TivaWareв„ў for C Series APIs for the 1-Wire module in Tivaв„ў C Series microcontrollers and an example enumeration algorithm using binary tree search. - System Design Guidelines for the TM4C129x Family of Tiva C Series MCUsPDF, 1.4 Mb, File published: Jul 16, 2013
TM4C129x MCUs Tivaв„ў C Series TM4C129x System Design Guidelines - Diagnosing Software Faults in StellarisВ® MicrocontrollersPDF, 1.9 Mb, File published: Jun 4, 2012
During typical development efforts, system operation can sometimes end up in a fault handler. At first glance, faults might seem cryptic or difficult to understand, but Stellaris microcontrollers include several features to help determine why a fault occurred. Read this application note to learn about the fault handling capabilities of Stellaris microcontrollers, how to diagnose faults, and how to - Migrating Software Projects from StellarisWare to TivaWare for C Series Software (Rev. A)PDF, 92 Kb, Revision: A, File published: May 1, 2013
As TI launches the Tivaв„ў family of 32-bit ARMВ® Cortexв„ў-M4 microcontrollers (MCUs), the StellarisWareВ® suite of comprehensive software tools is also migrating to TivaWareв„ў. This new software platform offers the same features found in earlier versions, but a few changes have been made in the migration process that require simple modifications to be made in existing StellarisWare applications in orde - Transitioning Designs From Stellaris LM3S Microcontrollers to Tiva C Series MCUs (Rev. A)PDF, 104 Kb, Revision: A, File published: Oct 22, 2013
This application report addresses design considerations when migrating working designs from Stellaris LM3S microcontrollers to Tiva C Series microcontrollers. Topics covered include software and hardware considerations as well as feature changes and enhancements. Software migration is very straightforward when using the Driver Library APIs in the StellarisWareВ® and TivaWareв„ў for C Series - StellarisВ® Graphics Library Display Drivers (AN01287) (Rev. A)PDF, 67 Kb, Revision: A, File published: Jul 9, 2013
The Stellaris Graphics Library (grlib) offers a compact yet powerful collection of graphics functions allowing the development of compelling user interfaces on small monochrome or color displays attached to Stellaris microcontrollers. This application report describes how to support a new display device in the Stellaris Graphics Library. - Using the CMSIS DSP Library in Code Composer Studio for TM4C MCUs (Rev. G)PDF, 3.0 Mb, Revision: G, File published: Oct 7, 2015
This application report describes the process required to build the ARMВ® CMSIS DSP library in Code Composer Studio v6.1 with ARM Compiler version up to 5.2.5. This document also describes how to use Code Composer Studio v6.1 to build, run, and verify the 11 ARM DSP example projects that are included in the CMSIS package. - System Design Guidelines for the TM4C123x Family of Tiva C Series MCUsPDF, 1.5 Mb, File published: Jul 31, 2013
- Dual-SPI Emulating IВІS on Tivaв„ў C Series TM4C123x MCUs (Rev. B)PDF, 436 Kb, Revision: B, File published: Jun 12, 2013
This application report presents an example using two serial peripheral interfaces (SPIs) to emulate an integrated interchip sound (I2S) peripheral on the StellarisВ® LM4F232 (Tiva C series TM4C123GH6PGE) microcontroller. Utilizing the sound API, .wav audio files stored in the on-board SD card are played via pseudo-I2S to an external Texas Instruments' TLV320AIC3107 codec. This generic software pla - Powering Cortex-M4 MCUs Using the High Efficiency DCS-Control TopologyPDF, 164 Kb, File published: Feb 3, 2013
The new Tiva C Series ARMВ® Cortexв„ў-M4 family of versatile microcontrollers provides prolific connectivity peripherals, such as the industry's first integrated Ethernet MAC and PHY, advanced analog integration and hardware floating-point performance. This application report presents an ultra-low IQ (4.8 ОјA) power supply solution for Tiva C Series devices using the TPS62177, a high efficiency synchr - Using SYS/BIOS with StellarisВ® ARMВ® Cortexв„ў-M3 Microcontrollers (Rev. A)PDF, 1.4 Mb, Revision: A, File published: Nov 19, 2012
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 - Stellaris Application Update Using Stellaris USB DFU Class (AN01273) (Rev. A)PDF, 116 Kb, Revision: A, File published: Jul 8, 2013
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 - ADC Oversampling Techniques for Stellaris Microcontrollers (AN01239) (Rev. A)PDF, 95 Kb, Revision: A, File published: Jan 8, 2013
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 - Software UART for Stellaris Microcontrollers (AN01270)PDF, 77 Kb, File published: Jul 7, 2009
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. - Using Execute, Write/Erase Flash Protection on Stellaris MCUs Using CCS (Rev. A)PDF, 1.7 Mb, Revision: A, File published: Aug 15, 2012
Protection of code and IP in a microcontroller's Flash memory has always been an important consideration for the system designers. StellarisВ® 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
Model Line
Series: TM4C129XKCZAD (3)
- TM4C129XKCZADI3 TM4C129XKCZADI3R TM4C129XKCZADT3
Manufacturer's Classification
- Semiconductors > Microcontrollers (MCU) > Performance MCUs > Control + Automation > TM4C12x