Get started developing with Sub-1 GHz
LAUNCHXL-CC1312R1 — SimpleLink™ Sub-1 GHz CC1312R Wireless Microcontroller (MCU) LaunchPad™ Development Kit
BOOSTXL-ULPSENSE — SimpleLink™ ULP Sense BoosterPack™
BOOSTXL-SHARP128 — Sharp® 128x128 Memory LCD and microSD Card TI BoosterPack™
SIMPLELINK-CC13XX-CC26XX-SDK — SimpleLink™ CC13xx and CC26xx software development kit (SDK)
FLASH-PROGRAMMER — SmartRF flash programmer
SMARTRF-STUDIO-7 — SmartRF Studio 7 application software
SMARTRF-STUDIO-7 — SmartRF Studio 7 application software
Products
MSP430 microcontrollers
Low-power 2.4-GHz products
Sub-1 GHz wireless MCUs
Sub-1 GHz transceivers
Other wireless products
Automotive wireless connectivity products
Hardware development
Development kit
Evaluation board
Interface adapter
Daughter card
Documentation
SmartRF Studio 7 in Cloud TI Resource Explorer
Compressed source file archive
Release Infomation
SmartRF™ Studio is a Windows application that can be used to evaluate and configure Low Power RF devices from Texas Instruments. The application helps designers of RF systems to easily evaluate the radio at an early stage in the design process. It is especially useful for generation of configuration register values and commands, and for practical testing and debugging of the RF system. SmartRF Studio can be used either as a standalone application or together with applicable evaluation boards or debug probes for the RF device.
What's new
- Updated RF PHY settings for the CC13x4/CC26x4 devices
- Various improvements and bug-fixes
SIMPLELINK-LOWPOWER-F2-SDK — SimpleLink™ Low Power F2 software development kit (SDK) for the CC13x1, CC13x2, CC13x4, CC26x1, CC26x2 and CC26x4 devices
SIMPLELINK-LOWPOWER-F2-SDK — SimpleLink™ Low Power F2 software development kit (SDK) for the CC13x1, CC13x2, CC13x4, CC26x1, CC26x2 and CC26x4 devices
Products
Low-power 2.4-GHz products
Sub-1 GHz wireless MCUs
Automotive wireless connectivity products
Hardware development
Evaluation board
Development kit
Documentation
Release Infomation
The SimpleLink™ Low Power F2 Software Development Kit (SDK), formerly known as the CC13xx and CC26xx SDK, delivers components that enable engineers to develop applications on the Texas Instruments SimpleLink CC13xx and CC26xx family of wireless microcontrollers (MCUs). This software toolkit provides a cohesive and consistent software experience for all SimpleLink CC13xx and CC26xx wireless MCU users by packaging essential software components, such as a Bluetooth® Low Energy (BLE) protocol stack supporting Bluetooth 5.2, Zigbee 3.0 compliant protocol suite, RF-Proprietary examples, TI's 15.4 Stack, TI Wi-SUN FAN Stack, Amazon Sidewalk examples, as well as the TI-RTOS7 kernel and TI Drivers in one easy-to-use software package along with example applications and documentation. In addition, the Dynamic Multi-Protocol Manager (DMM) software component enables multiprotocol development on a single SimpleLink wireless MCU.
Although not included in the SDK, SimpleLink CC13xx and CC26xx wireless MCUs are also capable of supporting the following wireless solutions: Please refer to their respective repositories for resources and more information.
- The Matter standard: https://github.com/TexasInstruments/matter
- Thread 1.1.1 networking stack based on OpenThread: (https://github.com/TexasInstruments/ot-ti)
The SimpleLink MCU portfolio offers a single development environment that delivers flexible hardware, software, and tool options for customers developing wired and wireless applications. With 100 percent code reuse across host MCUs, Wi-Fi™, Bluetooth Low Energy, Sub-1GHz devices and more, choose the MCU or connectivity standard that fits your design. A one-time investment with the SimpleLink software development kit allows you to reuse often, opening the door to create unlimited applications. For more information, visit www.ti.com/simplelink.
This SDK is also available on GitHub at https://github.com/TexasInstruments/simplelink-lowpower-f2-sdk
What's new
- The Wireless Solar Management System (WSMS) examples showcase a small mesh network with low latency.
- TI Wi-SUN FAN Stack can keep track of minimum tx off time and duty cycle, simplifying certification with ARIB and ETSI.
- TI 15.4-Stack example PHY is configurable with the Custom PHY option in SysConfig. This opens the option to use WB-DSSS with TI 15.4-Stack.
- RF settings update for CC13x4/CC26x4 devices
SENSOR-CONTROLLER-STUDIO — Sensor Controller Studio
SENSOR-CONTROLLER-STUDIO — Sensor Controller Studio
Installer executable
Compressed archive
Products
Low-power 2.4-GHz products
Sub-1 GHz wireless MCUs
Other wireless products
Automotive wireless connectivity products
Hardware development
Development kit
Evaluation board
Documentation
Compressed source file archive
Release Infomation
Sensor Controller Studio is used to write, test and debug code for the CC26xx/CC13xx Sensor Controller, allowing for ultra-low power application design.
The tool generates a Sensor Controller Interface driver, which is a set of C source files to be compiled into the System CPU (ARM Cortex-M3/M4) application. These source files contain the Sensor Controller firmware image and associated definitions, and generic functions that allow the System CPU application to control the Sensor Controller and exchange data.
The Sensor Controller is a small CPU core that is highly optimized for low power consumption and efficient peripheral operation. The Sensor Controller is located in the CC26xx/CC13xx auxiliary (AUX) power/clock domain, and can perform simple background tasks autonomously and independently of the System CPU and the MCU domain power state. Such tasks include but are not limited to:
- Analog sensor polling, using ADC or comparator
- Digital sensor polling, using SPI, I2C or other protocols
- Capacitive sensing, using current source, comparator and time-to-digital converter (TDC)
- Waveform generation, for example for LCDs
The Sensor Controller is user programmable, using a simple programming language with syntax similar to C. This allows for sensor polling and other tasks to be specified as sequential algorithms, rather than static configuration of complex peripheral modules, timers, DMA, register programmable state machines, event routing and so on. The main advantages are:
- Flexibility
- Dynamic reuse of hardware resources
- Ability to perform simple data processing without need for dedicated hardware
- Observability and debugging options
What's new
- Added support for new devices: CC2672R3, CC2672P3, CC2662R-Q1, CC2652PSIP and CC2652P7.
- Added example support for new SDKs, using TI-RTOS 7 and GPIO driver for the latest CC13x2/CC26x2 SDK.
- Minor improvements.
- Bug-fixes.
CCSTUDIO — Code Composer Studio™ integrated development environment (IDE)
CCSTUDIO — Code Composer Studio™ integrated development environment (IDE)
This design resource supports most products in these categories.
Check the product details page to verify support.
-
parametric-filter Digital signal processors (DSPs) -
parametric-filter Arm-based processors -
parametric-filter MSP430 microcontrollers -
parametric-filter C2000 real-time microcontrollers -
parametric-filter Arm-based microcontrollers -
parametric-filter Signal conditioners -
parametric-filter mmWave radar sensors -
parametric-filter Zigbee products -
parametric-filter Wi-Fi products -
parametric-filter Thread products -
parametric-filter Other wireless technologies -
parametric-filter Sub-1 GHz products -
parametric-filter Multi-protocol products -
parametric-filter Bluetooth products -
parametric-filter Digital power isolated controllers
Products
Arm Cortex-M0+ MCUs
Arm Cortex-M4 MCUs
Arm Cortex-R MCUs
Automotive mmWave radar sensors
Industrial mmWave radar sensors
Sub-1 GHz wireless MCUs
Documentation
Release Infomation
The Code Composer Studio™ IDE is a complete integrated suite that enables developers to create and debug applications of all Texas Instruments Embedded Processors (Sitara, DSP, Automotive, Keystone), Microcontrollers (SimpleLink™, C2000 Digital Control, MSP430, TM4C, Hercules), as well as Digital Power (UCD) and Programmable Gain Amplifier (PGA) devices.
- Installation instructions
- System Requirements
- Update Status: This release will be available as an update to CCS 12.0.0, 12.1.0, 12.2.0, 12.3.0, 12.4.0, 12.5.0, 12.6.0, 12.7.0, 12.8.0
- Windows 32bit is not supported with CCSv12. If you are using a 32bit Windows System please use CCSv8.3.1 or earlier.
- XDS510 class debug probes are not supported with CCSv12. Support for XDS510 class probes was deprecated years ago for Linux and macOS. If you need to use one of these older probes please use CCSv8.3.1 or earlier.
What's new
- Please refer to the release notes
UNIFLASH — UniFlash for most TI microcontrollers (MCUs) and mmWave sensors
UNIFLASH — UniFlash for most TI microcontrollers (MCUs) and mmWave sensors
Products
C2000 real-time microcontrollers
Arm-based processors
Industrial mmWave radar sensors
Automotive mmWave radar sensors
MSP430 microcontrollers
Wi-Fi products
Arm Cortex-M4 MCUs
Arm Cortex-M0+ MCUs
Arm Cortex-R MCUs
Low-power 2.4-GHz products
Automotive wireless connectivity products
Sub-1 GHz wireless MCUs
Release Infomation
UniFlash is a standalone tool used to program on-chip and external flash memory on TI MCUs and on-board flash memory for Sitara processors. UniFlash has a GUI, command line, and scripting interface. UniFlash is available free of charge.
What's new
- Bug Fixes
- Fixed issues with Windows drivers installation. This impacted XDS110 firmware updates and access to XDS100v2 debug features