CCSTUDIO — Code Composer Studio 集成式开发环境 (IDE)
|*||数据表||CC2650MODA SimpleLink™ 低功耗 Bluetooth® 无线 MCU 模块 数据表 (Rev. D)||PDF | HTML||下载英文版本 (Rev.D)||PDF | HTML||11 Oct 2019|
|*||勘误表||CC2650 SimpleLink™ Multistandard Wireless MCU Errata||07 Sep 2018|
|*||用户指南||CC13x0, CC26x0 SimpleLink™ Wireless MCU Technical Reference Manual (Rev. I)||30 Jun 2020|
|*||辐射与可靠性报告||CC2650MODA Reliability Data – Reliability Estimate||25 Jun 2019|
|应用手册||如何认证您的蓝牙产品 (Rev. I)||PDF | HTML||下载英文版本 (Rev.I)||PDF | HTML||25 Oct 2022|
|应用手册||低功耗 Bluetooth® – 有关 CC1350 和 CC26x0 器件通过 SPI 发送的 UNPI 数据包缺失长度检查||下载英文版本||22 Nov 2021|
|应用手册||硬件从 CC26x0 迁移到 CC26x2R (Rev. D)||PDF | HTML||下载英文版本 (Rev.D)||09 Sep 2021|
|应用手册||CC2538/CC26x0/CC26x2 串行引导加载程序接口 (Rev. D)||PDF | HTML||下载英文版本 (Rev.D)||PDF | HTML||07 Sep 2021|
|技术文章||How to design an infrared thermometer quickly||07 Apr 2020|
|应用手册||Getting Started With the CC13xx and CC26xx Sensor Controller (Rev. B)||PDF | HTML||27 Jan 2020|
|白皮书||Enabling wireless communications for factory automation in Industry 4.0||08 Oct 2019|
|应用手册||Debugging Communication Range (Rev. A)||PDF | HTML||23 May 2019|
|选择指南||Zigbee® Selection Guide for SimpleLink MCUs (Rev. F)||21 Feb 2019|
|用户指南||SimpleLink SDK Power Management: MSP432, MSP432E4, CC13xx/CC26xx, and CC32xx (Rev. J)||29 Jan 2019|
|应用手册||Measuring Bluetooth Low Energy Power Consumption (Rev. D)||PDF | HTML||10 Jan 2019|
|技术文章||An out-of-the-box Internet of Things: building a seamless and secure smart home network||12 Jun 2018|
|技术文章||Thread vs. Zigbee – what’s the difference?||16 May 2018|
|技术文章||Your microcontroller deserves a nap – designing “sleepy” wireless applications||28 Mar 2018|
|用户指南||CC2640/CC2650 Bluetooth low energy Software Developer’s Guide (Rev. E)||14 Mar 2018|
|应用手册||Guide for integrating Sensor Controller Studio examples into ProjectZero Project||08 Jan 2018|
|应用手册||Network Algorithms for LPWAN Technical Brief||13 Nov 2017|
|应用手册||CC-Antenna-DK2 and Antenna Measurements Summary (Rev. A)||02 Oct 2017|
|应用手册||适用于Bluetooth®低耗能的ETSI EN 300 328 RX 阻塞测试||下载英文版本||PDF | HTML||05 Sep 2017|
|应用手册||使用TI BLE-Stack™ 实现Eddystone™ Bluetooth® 智能信 标 (Rev. A)||下载英文版本 (Rev.A)||PDF | HTML||15 Aug 2017|
|证书||CC2650MODA EU Declaration of Conformity (DoC)||17 Jul 2017|
|应用手册||通过远程控制传输语音||下载英文版本||12 Jul 2017|
|用户指南||Getting started with Bluetooth low energy CC2650MODA for CCS users||11 Jul 2017|
|应用手册||Running Standalone Bluetooth® low energy Applications on CC2650 Module (Rev. A)||PDF | HTML||07 Jun 2017|
|白皮书||Which TI Bluetooth Solution Should I choose?||05 May 2017|
|用户指南||CC26xx/CC13xx Power Management Software Developers Reference Guide (Rev. A)||PDF | HTML||17 Apr 2017|
|更多文献资料||Streamline the challenges of RF design with certified wireless modules||25 Jan 2017|
|应用手册||Standalone Bluetooth Low-Energy Applications on CC2650 Module||18 Jan 2017|
|应用手册||Configuring the CC2650 for Direct Test Mode||06 Dec 2016|
|更多文献资料||SimpleLink Ultra-low power wireless microcontroller platform (Rev. B)||28 Oct 2016|
|白皮书||Bringing Wireless Scalability to Intelligent Sensing Applications (Rev. B)||25 Aug 2016|
|用户指南||CC2650 Module BoosterPack™ Getting Started Guide (Rev. A)||29 Jun 2016|
|更多文献资料||Allegion Case Study (Rev. A)||12 Apr 2016|
|白皮书||A guide to SensorTag Hackathons: Resources||08 Mar 2016|
|更多文献资料||CC2650 Quick Start User's Guide||08 Mar 2016|
|应用手册||Using the Wireless SimpleLink CC26xx in External Regulator Mode With the TPS627||19 Nov 2015|
|更多文献资料||SimpleLink CC2650 Evaluation Module Kit Quick Start Guide||05 Nov 2015|
|应用手册||CC2640 Wireless MCU DC Supply Evaluation||05 Oct 2015|
|电子书||Understanding Wir eless Connectivityin the Industrial IoT||22 Jul 2015|
|应用手册||Using GCC/GDB with CC26xx||PDF | HTML||23 Feb 2015|
|更多文献资料||SimpleLink 6LoWPAN/ZigBee CC2630 Wireless Microcontroller||10 Feb 2015|
|更多文献资料||SimpleLink Bluetooth Smart CC2640 Wireless Microcontroller||10 Feb 2015|
|更多文献资料||SimpleLink CC2650 Development Kit Quick Staert Guide||12 Jan 2015|
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SmartRF Flash Programmer 2 can be used to program the flash memory in Texas Instruments ARM based low-power RF wireless MCUs over the debug and serial interfaces. The flash programmer includes both a graphical user interface and a command line interface.
The SimpleLink™ SDK BLE Plugin is a companion software package that enables the use of a Bluetooth radio on any standard MSP432P4 platform, MSP432E4 or CC32XX platform, and enables this two-chip solution to act as either a GAP Peripheral role or a GAP Central role. By having the ability to seamlessly and modularly add Bluetooth functionality (more specifically Bluetooth Low Energy/BLE) to an embedded system, a programmer can enable their embedded device to become a gateway to various IOT infrastructures.
For examples demonstrating the two-chip solution in a peripheral role, the plugin leverages the use of the TI Simple Application Processor (SAP) driver connected to a CC26xx Simple Network Processor (SNP) to provide a highly customizable hardware configuration. For software connectivity between the SAP and the SNP, an architecture agnostic HAL/Drivers layer is used to promote software portability and maximize collateral reuse.
For examples demonstrating the two-chip solution in a central role, communication between the NWP and the Host occurs through a UART serial interface using the Host Controller Interface (HCI) protocol. TI Vendor Specific HCI commands and a limited subset of Bluetooth LE HCI commands/events to implement a Bluetooth application. By using TI Vendor Specific commands and events, the application can communicate with and access the BLE stack.
UniFlash is a standalone tool used to program on-chip 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.
This page provides access to the CC26XX certification reports. Here you will find certification reports for both modules and EVMs. Note that module certification reports can be reused by the customer for regulatory compliance. However the customer should consult with their regulatory house to ensure they meet the requirements for certification at their product level. EVM certification reports are provided for reference only. When using a chip down version, the customer is responsible for their own certification.
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:
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:
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.
The SysConfig tool is used configure TI software and hardware. For software configuration, SysConfig is used in conjunction with a TI SDK. For PinMux configuration, the tool may be used standalone.
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.