产品详细信息

Protocols Proprietary Frequency bands (MHz) 850-950 TX power (Max) (dBm) 27.7 Sensitivity (best) (dBm) 6 RX current (lowest) (mA) 0.026 Rating Catalog Operating temperature range (C) -40 to 85
Protocols Proprietary Frequency bands (MHz) 850-950 TX power (Max) (dBm) 27.7 Sensitivity (best) (dBm) 6 RX current (lowest) (mA) 0.026 Rating Catalog Operating temperature range (C) -40 to 85
VQFN (RGV) 16 16 mm² 4 x 4
  • Seamless Interface to Sub-1 GHz Low Power RF Devices from Texas Instruments
  • Up to 27 dBm (0.5 W) Output Power
  • 6 dB Typical Sensitivity Improvement with CC11xx and CC430
  • Few External Components
    • Integrated PA
    • Integrated LNA
    • Integrated Switches
    • Integrated Matching Network
    • Integrated Inductors
  • Digital Control of LNA and PA Gain by HGM Pin
  • 50-nA in Power Down (LNA_EN = PA_EN = 0)
  • High Transmit Power Efficiency
    • PAE = 50% at 26 dBm Output Power
  • Low Receive Current Consumption
    • 3 mA for High Gain Mode
    • 26 µA for Low Gain Mode
  • 2.9 dB LNA Noise Figure, Including Switch and External Antenna Match
  • RoHS Compliant 4-mm × 4-mm QFN-16 Package
  • 2 V to 3.7 V Operation
  • APPLICATIONS
    • 850 - 950 MHz ISM Bands Wireless Systems
    • Wireless Sensor Networks
    • Wireless Industrial Systems
    • IEEE 802.15.4 Systems
    • Wireless Consumer Systems
    • Wireless Metering (AMR/AMI) Systems
    • Smart Grid Wireless Networks
  • Seamless Interface to Sub-1 GHz Low Power RF Devices from Texas Instruments
  • Up to 27 dBm (0.5 W) Output Power
  • 6 dB Typical Sensitivity Improvement with CC11xx and CC430
  • Few External Components
    • Integrated PA
    • Integrated LNA
    • Integrated Switches
    • Integrated Matching Network
    • Integrated Inductors
  • Digital Control of LNA and PA Gain by HGM Pin
  • 50-nA in Power Down (LNA_EN = PA_EN = 0)
  • High Transmit Power Efficiency
    • PAE = 50% at 26 dBm Output Power
  • Low Receive Current Consumption
    • 3 mA for High Gain Mode
    • 26 µA for Low Gain Mode
  • 2.9 dB LNA Noise Figure, Including Switch and External Antenna Match
  • RoHS Compliant 4-mm × 4-mm QFN-16 Package
  • 2 V to 3.7 V Operation
  • APPLICATIONS
    • 850 - 950 MHz ISM Bands Wireless Systems
    • Wireless Sensor Networks
    • Wireless Industrial Systems
    • IEEE 802.15.4 Systems
    • Wireless Consumer Systems
    • Wireless Metering (AMR/AMI) Systems
    • Smart Grid Wireless Networks

CC1190 is a cost-effective and high-performance RF Front End for low-power and low-voltage wireless applications at 850 - 950 MHz.

CC1190 is a range extender for the sub-1 GHz low-power RF transceivers, transmitters, and System-on-Chip devices from Texas Instruments.

CC1190 integrates a power amplifier (PA), a low-noise amplifier (LNA), switches, and RF matching for the design of a high-performance wireless systems.

CC1190 increases the link budget by providing a power amplifier for increased output power, and an LNA with low noise figure for improved receiver sensitivity.

CC1190 provides an efficient and easy-to-use range extender in a compact 4-mm × 4-mm QFN-16 package.

CC1190 is a cost-effective and high-performance RF Front End for low-power and low-voltage wireless applications at 850 - 950 MHz.

CC1190 is a range extender for the sub-1 GHz low-power RF transceivers, transmitters, and System-on-Chip devices from Texas Instruments.

CC1190 integrates a power amplifier (PA), a low-noise amplifier (LNA), switches, and RF matching for the design of a high-performance wireless systems.

CC1190 increases the link budget by providing a power amplifier for increased output power, and an LNA with low noise figure for improved receiver sensitivity.

CC1190 provides an efficient and easy-to-use range extender in a compact 4-mm × 4-mm QFN-16 package.

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技术文档

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类型 项目标题 下载最新的英语版本 日期
* 数据表 850 – 950-MHz RF Front End 数据表 (Rev. A) 05 Feb 2010
* 勘误表 CC1190 Q & A Sheet 15 Feb 2010
应用手册 DN035 -- Antenna Quick Guide (Rev. B) 09 Feb 2022
应用手册 Debugging Communication Range (Rev. A) PDF | HTML 23 May 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
用户指南 LaunchPad QuickStart Guide (QSG) CC1310-CC1190 (Rev. A) 09 Apr 2018
技术文章 Your microcontroller deserves a nap – designing “sleepy” wireless applications 28 Mar 2018
技术文章 SimpleLink™ MCU SDKs: Breaking down TI Drivers 12 Apr 2017
应用手册 Using CC1190 Front End With CC13xx Under EN300220 09 Mar 2017
应用手册 Using qDMA on CC3120/CC3220 SimpleLink Wi-Fi and Internet of Things Devices 09 Mar 2017
白皮书 Smart Fault Indicator with MSP430 FRAM Microcontrollers 26 Sep 2016
白皮书 Frequency hopping for long-range IoT networks 18 Jul 2016
用户指南 TI-Sigfox SDK Demo Getting Started User’s Guide 27 May 2016
应用手册 CC11x and CC112x Example and Range Test Software for MSP430-Based LaunchPads 19 Oct 2015
应用手册 CC1120-CC1190 Boost Module 05 Oct 2015
应用手册 CC1190 Evaluation Module for 868 MHz 18 Feb 2015
白皮书 6LoWPAN Overview 28 Oct 2014
应用手册 AN112 -- Using CC1190 Front End with CC112x Under EN300220 (Rev. C) 21 Jun 2013
应用手册 AN110 - Using CC1190 Front End with CC112x Under FCC 15.247 (Rev. B) 13 Jun 2013
应用手册 DN036 +20 dBm Transmit Power without using FHSS under FCC 15.247 (Rev. A) 07 Nov 2011
应用手册 AN096 Using CC1190 Front End with CC1101 under FCC 15.247 (Rev. A) 02 May 2011
应用手册 CC1101-CC1190 application note 11 Jan 2011
应用手册 AN058 -- Antenna Selection Guide (Rev. B) 06 Oct 2010
应用手册 DN031 -- Design Notes 26 Aug 2010

设计和开发

如需其他信息或资源,请查看下方列表,点击标题即可进入详情页面。

评估板

BOOSTXL-CC1120-90 — 适用于应用的 BoosterPack(902MHz 至 928MHz)

CC1120-CC1190 BoosterPack 模块旨在与 MSP-EXP430F5529 及 MSP-EXP430G2553 LauchPad 开发套件结合使用,也可通过使用 SmartRF Studio 应用软件来充当独立模块。此模块还经过认证,可在具备有效 Sigfox 许可证的美国 Sigfox 无线网络中使用。此模块配备了集成的 PCB 迹线天线,该天线在美国 902~928MHz 和欧洲 869~870MHz ISM 频段中运行。

TI.com 無法提供
评估板

RDCR-3P-RADIO-MOD — Radiocrafts Embedded radio modules

Embedded radio modules with embedded protocol stack.
发件人: Radiocrafts AS
开发套件

CC-ANTENNA-DK2 — 用于 LaunchPad 和 SensorTag 的低于 1GHz 和 2.4GHz 天线套件

此新款天线套件使您可以进行真实测试,从而找到适合您应用的最佳天线!天线套件包括 16 个适用频率介于 169MHz 和 2.4GHz 之间的天线,其中包括 PCB 天线、螺旋天线和芯片天线以及适用于 868/915MHz 和 2.4GHz 的双频带频带电线。

此天线套件包括 uSMA-uSMA (JCS) 电缆,可连接无线 LaunchPad 和 SensorTag。以下套件与 JCS 连接器兼容:

  • LAUNCHXL-CC2650
  • LAUNCHXL-CC1310
  • LAUNCHXL-CC1310
  • CC1350STK

此套件还包括 uSMA (JCS)-SMA c 连接器,可将套件或天线连接到标准 SMA (...)

TI.com 無法提供
开发套件

LAUNCHXL-CC13-90 — SimpleLink™ 低于 1GHz CC1310-1190 无线微控制器 (MCU) LaunchPad™ 开发套件

SimpleLink™ 低于 1GHz CC1310-1190 无线微控制器 (MCU) LaunchPad™ 开发套件采用了 CC1310 低于 1GHz 无线 MCU 以及 CC1190 高性能射频前端,能够以最高 +27dBm 的输出功率提供远距离低功耗连接。

CC1310 器件是一款面向低功耗、远距离无线应用的无线 MCU。CC1310 无线 MCU 包含一个作为主处理器以 48MHz 运行的 32 位 ARM Cortex-M3 (...)

计算工具

RF-RANGE-ESTIMATOR TI 射频范围评估器

该工具用于完成使用 TI 无线器件的室内和室外射频链路的距离估算。室外计算基于视线 (LOS)。对于室内估算,可以选择介于 Tx 和 Rx 单元之间的建筑材料。Tx 和 Rx 单元之间复合材料的衰减越大,距离就越短。
设计工具

3P-WIRELESS-MODULES 第三方无线模块搜索工具

第三方无线模块搜索工具可帮助开发人员识别符合其终端设备规格的产品,并采购可立即投产的无线模块。搜索工具中包含的第三方模块供应商是独立的第三方公司,这些公司在利用 TI 无线连接产品设计和制造无线模块领域拥有深厚的专业知识。
设计工具

SIMPLELINK-SUB1GHZ-DESIGN-REVIEWS Hardware design reviews for SimpleLink™ CC1xxx devices

开始 SimpleLink™ 低于 1GHz 硬件设计审查流程:
  • 第 1 步:申请审查前,需查看相应产品页面上的技术文档和设计与开发资源(请参阅下面 CC1xxx 产品页面的链接)。
  • 第 2 步:填写申请表,开始审查流程。TI 专家将通过您提供的电子邮件地址直接与您联系,为您提供后续步骤。

在 SimpleLink 硬件设计审查流程中,您可与主题专家一对一沟通,专家会帮您审查设计并提供重要反馈。申请审查前,需查看相应产品页面上的技术文档和设计与开发资源。了解产品页面上的资源后,您可能无需申请设计审查。

申请审查低于 1GHz 硬件设计前,应在我们的 E2E 中文论坛上提交一般设计问题。

(...)

原理图

CC1101-CC1190EM 915MHz design files CC1101-CC1190EM 915MHz design files

原理图

CC1120_CC1190EM_915MHz design files 1.0.1 CC1120_CC1190EM_915MHz design files 1.0.1

原理图

CC1120-CC1190EM868 design files CC1120-CC1190EM868 design files

CAD/CAE 符号

CC112x–CC1190 BoosterPack 915/868 MHz Reference Design (Rev. A) CC112x–CC1190 BoosterPack 915/868 MHz Reference Design (Rev. A)

PCB 布局

LAUNCHXL CC1310/CC1190 (Rev. A) LAUNCHXL CC1310/CC1190 (Rev. A)

封装 引脚数 下载
VQFN (RGV) 16 了解详情

订购和质量

包含信息:
  • RoHS
  • REACH
  • 器件标识
  • 引脚镀层/焊球材料
  • MSL 等级/回流焊峰值温度
  • MTBF/时基故障估算
  • 材料成分
  • 认证摘要
  • 持续可靠性监测

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