产品详细信息

Protocols Proprietary Frequency bands (MHz) 402-470, 804-960 TX power (Max) (dBm) 10 Peripherals 2 SPI, 2 UART, I2S Sensitivity (best) (dBm) -109 RX current (lowest) (mA) 19.9 Data rate (Max) (kbps) 153.6 Rating Catalog Operating temperature range (C) -40 to 85
Protocols Proprietary Frequency bands (MHz) 402-470, 804-960 TX power (Max) (dBm) 10 Peripherals 2 SPI, 2 UART, I2S Sensitivity (best) (dBm) -109 RX current (lowest) (mA) 19.9 Data rate (Max) (kbps) 153.6 Rating Catalog Operating temperature range (C) -40 to 85
VQFN (RSS) 32 49 mm² 7 x 7
  • True Single-Chip UHF RF Transceiver
  • Frequency Range 402 MHz to 470 MHz and
    804 MHz to 930 MHz
  • High Sensitivity
    • Up to –112 dBm for 38.4 kHz Receiver Channel Filter Bandwidth
    • Up to –106 dBm for 102.4 kHz Receiver Channel Filter Bandwidth
  • Programmable Output Power
  • Low Current Consumption
    • RX: 19.9 mA
  • Low Supply Voltage
    • From 2.3 V to 3.6 V
  • Very Few External Components Required
  • Small Size
    • QFN 32 Package
  • Pb-Free Package
  • Digital RSSI and Carrier Sense Indicator
  • Data Rate Up to 153.6 kBaud
  • OOK, FSK, and GFSK Data Modulation
  • Integrated Bit Synchronizer
  • Image Rejection Mixer
  • Programmable Frequency
  • Automatic Frequency Control (AFC)
  • Suitable for Frequency Hopping Systems
  • Suited for Systems Targeting Compliance With
    EN 300 220 and FCC CFR47 Part 15
  • Easy-to-Use Software for Generating the CC1021 Configuration Data
  • Fully Compatible With CC1020 for Receiver Channel Filter Bandwidths of 38.4 kHz and Higher
  • True Single-Chip UHF RF Transceiver
  • Frequency Range 402 MHz to 470 MHz and
    804 MHz to 930 MHz
  • High Sensitivity
    • Up to –112 dBm for 38.4 kHz Receiver Channel Filter Bandwidth
    • Up to –106 dBm for 102.4 kHz Receiver Channel Filter Bandwidth
  • Programmable Output Power
  • Low Current Consumption
    • RX: 19.9 mA
  • Low Supply Voltage
    • From 2.3 V to 3.6 V
  • Very Few External Components Required
  • Small Size
    • QFN 32 Package
  • Pb-Free Package
  • Digital RSSI and Carrier Sense Indicator
  • Data Rate Up to 153.6 kBaud
  • OOK, FSK, and GFSK Data Modulation
  • Integrated Bit Synchronizer
  • Image Rejection Mixer
  • Programmable Frequency
  • Automatic Frequency Control (AFC)
  • Suitable for Frequency Hopping Systems
  • Suited for Systems Targeting Compliance With
    EN 300 220 and FCC CFR47 Part 15
  • Easy-to-Use Software for Generating the CC1021 Configuration Data
  • Fully Compatible With CC1020 for Receiver Channel Filter Bandwidths of 38.4 kHz and Higher

The CC1021 device is a true single-chip UHF transceiver designed for very low power and very low voltage wireless applications. The circuit is mainly intended for the ISM (Industrial, Scientific and Medical) and SRD (Short Range Device) frequency bands at 433 MHz, 868 MHz, and 915 MHz, but can easily be programmed for multichannel operation at other frequencies in the 402- to 470-MHz and 804- to 930-MHz range.

The CC1021 device is especially suited for narrowband systems with channel spacing of 50 kHz and higher complying with EN 300 220 and CC CFR47 part 15.

The CC1021 device main operating parameters can be programmed through a serial bus, thus making the CC1021 device a very flexible and easy to use transceiver.

In a typical system, the CC1021 device is used together with a microcontroller and a few external passive components.

The CC1021 device is a true single-chip UHF transceiver designed for very low power and very low voltage wireless applications. The circuit is mainly intended for the ISM (Industrial, Scientific and Medical) and SRD (Short Range Device) frequency bands at 433 MHz, 868 MHz, and 915 MHz, but can easily be programmed for multichannel operation at other frequencies in the 402- to 470-MHz and 804- to 930-MHz range.

The CC1021 device is especially suited for narrowband systems with channel spacing of 50 kHz and higher complying with EN 300 220 and CC CFR47 part 15.

The CC1021 device main operating parameters can be programmed through a serial bus, thus making the CC1021 device a very flexible and easy to use transceiver.

In a typical system, the CC1021 device is used together with a microcontroller and a few external passive components.

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More Information

The current RUZ package used with CC1021 will be replaced by the RSS package to secure manufacturability and long term availability of CC1021, as described in PCN# 20141212001. Such changes are normal during the lifetime of a product and do not affect the availability or support of the CC1021 product. In a transition period defined in the PCN the existing package (RUZ) will be available alongside the drop-in replaceable (RSS) package. Note that when the CC1021RUZ-based products retire, new orderable part names need to be ordered as outlined in the PCN. This will be informed through the CC1021 product web page and the CC1021 datasheet accordingly when these changes occur.

技术文档

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类型 标题 下载最新的英文版本 日期
* 数据表 CC1021 Single-Chip Low-Power RF Transceiver for Narrowband Systems 数据表 (Rev. F) 2018年 10月 31日
* 勘误表 CC1021 Errata Notes 2006年 1月 31日
* 辐射与可靠性报告 Reliability Report 2006年 4月 28日
技术文章 An out-of-the-box Internet of Things: building a seamless and secure smart home network 2018年 6月 12日
技术文章 Thread vs. Zigbee – what’s the difference? 2018年 5月 16日
技术文章 Your microcontroller deserves a nap – designing “sleepy” wireless applications 2018年 3月 28日
技术文章 SimpleLink™ MCU SDKs: Breaking down TI Drivers 2017年 4月 12日
应用手册 DN024 -- 868 MHz, 915 MHz and 955 MHz Monopole PCB Antenna (Rev. E) 2013年 2月 22日
应用手册 DN035 -- Antenna Quick Guide (Rev. A) 2013年 2月 12日
应用手册 AN098 - Layout Review Techniques for Low Power RF Designs (Rev. A) 2012年 8月 2日
应用手册 DN023 -- 868 MHz, 915 MHz and 955 MHz Inverted F Antenna (Rev. C) 2011年 8月 30日
应用手册 AN058 -- Antenna Selection Guide (Rev. B) 2010年 10月 6日
应用手册 DN031 -- Design Notes 2010年 8月 26日
应用手册 AN058 - 天线选择指南 下载最新的英文版本 (Rev.B) 2008年 10月 16日
更多文献资料 CC1021 Material content 2007年 7月 16日
更多文献资料 CC1021 RoHS Confirmation 2006年 1月 31日

设计与开发

有关其他条款或所需资源,请点击下面的任何链接来查看详情页面。

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SmartRF™ Studio 是一种 Windows 应用,可用于评估和配置德州仪器 (TI (...)
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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。

审查过程中,我们会联系您提供以下信息:

  • 确认已查看产品页面上的所有硬件文档,包括数据表、设计指南、用户指南和其他硬件资源
  • 提供可移植文档格式 (PDF) 版本的原理图
  • 提供物料清单 (BOM)
  • 提供堆叠详细信息
  • 有关电路板设计(包括器件配置和引用标识符)的 Gerber 文件
  • 对于较复杂的电路板,我们也会要求提供实际设计数据库(如 Cadence 或 Altium)

注:如果您不能提供上述信息,请在我们的 E2E 中文论坛中提交一般问题。

低于 1GHz 硬件设计审查流程适用于以下 CC1xxx 产品:

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QFN (RSS) 32 了解详情

订购与质量

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/FIT 估算
  • 材料成分
  • 认证摘要
  • 持续可靠性监测

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