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Weitreichendes Sub-1 GHz
Sub-1-GHz-Transceiver

CC1101

AKTIV

Energieeffizienzter Drahtlos-Transceiver für Sub-1 GHz

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CC1101

AKTIV
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Produktdetails

Protocols Proprietary, Wireless M-Bus Modulation scheme (G)MSK, 2(G)FSK, 4(G)FSK, ASK, OOK Frequency bands 300-348, 387-464, 779-928 Type Transceiver TX power (max) (dBm) 12 Sensitivity (best) (dBm) -116 RX current (lowest) (mA) 14.3 Data rate (max) (Mbps) 0.6 Rating Catalog Operating temperature range (°C) -40 to 85 Edge AI enabled No
Protocols Proprietary, Wireless M-Bus Modulation scheme (G)MSK, 2(G)FSK, 4(G)FSK, ASK, OOK Frequency bands 300-348, 387-464, 779-928 Type Transceiver TX power (max) (dBm) 12 Sensitivity (best) (dBm) -116 RX current (lowest) (mA) 14.3 Data rate (max) (Mbps) 0.6 Rating Catalog Operating temperature range (°C) -40 to 85 Edge AI enabled No
VQFN (RGP) 20 16 mm² 4 x 4
  • RF Performance
    • High sensitivity
      • –116 dBm at 0.6 kBaud, 433 MHz, 1% packet error rate
      • –112 dBm at 1.2 kBaud, 868 MHz, 1% packet error rate
    • Low current consumption (14.7 mA in RX, 1.2 kBaud, 868 MHz)
    • Programmable output power up to +12 dBm for all supported frequencies
    • Excellent receiver selectivity and blocking performance
    • Programmable data rate from 0.6 to 600 kbps
    • Frequency bands: 300-348 MHz, 387-464 MHz and 779-928 MHz
  • Analog Features
    • 2-FSK, 4-FSK, GFSK, and MSK supported as well as OOK
      and flexible ASK shaping
    • Suitable for frequency hopping systems due to a fast settling
      frequency synthesizer; 75 µs settling time
    • Automatic Frequency Compensation (AFC) can be used to align the frequency
      synthesizer to the received signal centre frequency
    • Integrated analog temperature sensor
  • Digital Features
    • Flexible support for packet oriented systems; On-chip support for
      sync word detection, address check, flexible packet length, and
      automatic CRC handling
    • Efficient SPI interface; All registers can be programmed with
      one "burst" transfer
    • Digital RSSI output
    • Programmable channel filter bandwidth
    • Programmable Carrier Sense (CS) indicator
    • Programmable Preamble Quality Indicator (PQI) for improved protection
      against false sync word detection in random noise
    • Support for automatic Clear Channel Assessment (CCA) before transmitting
      (for listen-before-talk systems)
    • Support for per-package Link Quality Indication (LQI)
    • Optional automatic whitening and de-whitening of data
  • Low-Power Features
    • 200 nA sleep mode current consumption
    • Fast startup time; 240 µs from sleep to RX or TX
      mode (measured on EM reference design [1] and [2])
    • Wake-on-radio functionality for automatic low-power RX polling
    • Separate 64-byte RX and TX data FIFOs (enables burst mode data transmission)
  • General
    • Few external components; Completely on-chip frequency synthesizer, no external
      filters or RF switch needed
    • Green package: RoHS compliant and no antimony or bromine
    • Small size (QLP 4x4 mm package, 20 pins)
    • Suited for systems targeting compliance with EN 300 220 (Europe) and
      FCC CFR Part 15 (US)
    • Suited for systems targeting compliance with the Wireless MBUS standard EN 13757-4:2005
    • Support for asynchronous and synchronous serial receive/transmit mode for backwards
      compatibility with existing radio communication protocols
  • Improved Range using CC1190
    • The CC1190 [21] is a range extender for 850-950 MHz and is an ideal
      fit for CC1101 to enhance RF performance
    • High sensitivity–118 dBm at 1.2 kBaud, 868 MHz, 1% packet error
      rate–120 dBm at 1.2 kBaud, 915 MHz, 1% packet error rate
    • +20 dBm output power at 868 MHz
    • +27 dBm output power at 915 MHz
    • Refer to AN094 [22] and AN096 [23] for more performance figures of the
      CC1101 + CC1190 combination
  • Reduced Battery Current using TPS62730
    • The TPS62730 [26] is a step down converter with bypass mode for
      ultra low power wireless applications
    • In RX, the current drawn from a 3.6 V battery is typically less than
      11 mA when TPS62730 output voltage is 2.1 V. When connecting CC1101
      directly to a 3.6 V battery the current drawn is typically 17 mA
    • In TX, at maximum output power (+12 dBm), the current drawn from a
      3.6 V battery is typically 22 mA when TPS62730 output voltage is 2.1 V.
      When connecting CC1101 directly to a 3.6 V battery the current drawn is
      typically 34 mA
    • When CC1101 enters SLEEP mode, the TPS62730 can be put
      in bypass mode for very low power down current
    • The typical TPS62730 current consumption is 30 nA in bypass mode.
    • The CC1101 is connected to the battery via an integrated 2.1 Ω (typical)
      switch in bypass mode
  • RF Performance
    • High sensitivity
      • –116 dBm at 0.6 kBaud, 433 MHz, 1% packet error rate
      • –112 dBm at 1.2 kBaud, 868 MHz, 1% packet error rate
    • Low current consumption (14.7 mA in RX, 1.2 kBaud, 868 MHz)
    • Programmable output power up to +12 dBm for all supported frequencies
    • Excellent receiver selectivity and blocking performance
    • Programmable data rate from 0.6 to 600 kbps
    • Frequency bands: 300-348 MHz, 387-464 MHz and 779-928 MHz
  • Analog Features
    • 2-FSK, 4-FSK, GFSK, and MSK supported as well as OOK
      and flexible ASK shaping
    • Suitable for frequency hopping systems due to a fast settling
      frequency synthesizer; 75 µs settling time
    • Automatic Frequency Compensation (AFC) can be used to align the frequency
      synthesizer to the received signal centre frequency
    • Integrated analog temperature sensor
  • Digital Features
    • Flexible support for packet oriented systems; On-chip support for
      sync word detection, address check, flexible packet length, and
      automatic CRC handling
    • Efficient SPI interface; All registers can be programmed with
      one "burst" transfer
    • Digital RSSI output
    • Programmable channel filter bandwidth
    • Programmable Carrier Sense (CS) indicator
    • Programmable Preamble Quality Indicator (PQI) for improved protection
      against false sync word detection in random noise
    • Support for automatic Clear Channel Assessment (CCA) before transmitting
      (for listen-before-talk systems)
    • Support for per-package Link Quality Indication (LQI)
    • Optional automatic whitening and de-whitening of data
  • Low-Power Features
    • 200 nA sleep mode current consumption
    • Fast startup time; 240 µs from sleep to RX or TX
      mode (measured on EM reference design [1] and [2])
    • Wake-on-radio functionality for automatic low-power RX polling
    • Separate 64-byte RX and TX data FIFOs (enables burst mode data transmission)
  • General
    • Few external components; Completely on-chip frequency synthesizer, no external
      filters or RF switch needed
    • Green package: RoHS compliant and no antimony or bromine
    • Small size (QLP 4x4 mm package, 20 pins)
    • Suited for systems targeting compliance with EN 300 220 (Europe) and
      FCC CFR Part 15 (US)
    • Suited for systems targeting compliance with the Wireless MBUS standard EN 13757-4:2005
    • Support for asynchronous and synchronous serial receive/transmit mode for backwards
      compatibility with existing radio communication protocols
  • Improved Range using CC1190
    • The CC1190 [21] is a range extender for 850-950 MHz and is an ideal
      fit for CC1101 to enhance RF performance
    • High sensitivity–118 dBm at 1.2 kBaud, 868 MHz, 1% packet error
      rate–120 dBm at 1.2 kBaud, 915 MHz, 1% packet error rate
    • +20 dBm output power at 868 MHz
    • +27 dBm output power at 915 MHz
    • Refer to AN094 [22] and AN096 [23] for more performance figures of the
      CC1101 + CC1190 combination
  • Reduced Battery Current using TPS62730
    • The TPS62730 [26] is a step down converter with bypass mode for
      ultra low power wireless applications
    • In RX, the current drawn from a 3.6 V battery is typically less than
      11 mA when TPS62730 output voltage is 2.1 V. When connecting CC1101
      directly to a 3.6 V battery the current drawn is typically 17 mA
    • In TX, at maximum output power (+12 dBm), the current drawn from a
      3.6 V battery is typically 22 mA when TPS62730 output voltage is 2.1 V.
      When connecting CC1101 directly to a 3.6 V battery the current drawn is
      typically 34 mA
    • When CC1101 enters SLEEP mode, the TPS62730 can be put
      in bypass mode for very low power down current
    • The typical TPS62730 current consumption is 30 nA in bypass mode.
    • The CC1101 is connected to the battery via an integrated 2.1 Ω (typical)
      switch in bypass mode

CC1101 is a low-cost sub-1 GHz transceiver designed for very low-power wireless applications. The circuit is mainly intended for the ISM (Industrial, Scientific and Medical) and SRD (Short Range Device) frequency bands at 315, 433, 868, and 915 MHz, but can easily be programmed for operation at other frequencies in the 300-348 MHz, 387-464 MHz and 779-928 MHz bands.

The RF transceiver is integrated with a highly configurable baseband modem. The modem supports various modulation formats and has a configurable data rate up to 600 kbps.

CC1101 provides extensive hardware support for packet handling, data buffering, burst transmissions, clear channel assessment, link quality indication, and wake-on-radio.

The main operating parameters and the 64- byte transmit/receive FIFOs of CC1101 can be controlled via an SPI interface. In a typical system, the CC1101 will be used together with a microcontroller and a few additional passive components.

The CC1190 850-950 MHz range extender [21] can be used with CC1101 in long range applications for improved sensitivity and higher output power.

CC1101 is a low-cost sub-1 GHz transceiver designed for very low-power wireless applications. The circuit is mainly intended for the ISM (Industrial, Scientific and Medical) and SRD (Short Range Device) frequency bands at 315, 433, 868, and 915 MHz, but can easily be programmed for operation at other frequencies in the 300-348 MHz, 387-464 MHz and 779-928 MHz bands.

The RF transceiver is integrated with a highly configurable baseband modem. The modem supports various modulation formats and has a configurable data rate up to 600 kbps.

CC1101 provides extensive hardware support for packet handling, data buffering, burst transmissions, clear channel assessment, link quality indication, and wake-on-radio.

The main operating parameters and the 64- byte transmit/receive FIFOs of CC1101 can be controlled via an SPI interface. In a typical system, the CC1101 will be used together with a microcontroller and a few additional passive components.

The CC1190 850-950 MHz range extender [21] can be used with CC1101 in long range applications for improved sensitivity and higher output power.
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Technische Dokumentation

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Top-Dokumentation Typ Titel Format-Optionen Datum
* Data sheet CC1101 Low-Power Sub-1 GHz RF Transceiver datasheet (Rev. I) 05 Nov 2013
* Errata CC1101 Silicon Errata (Rev. E) 25 Sep 2015
* Radiation & reliability report CC1101 Reliability Report 26 Feb 2008
Application note AN103 -- Basic RF Testing of CCxxxx Devices (Rev. A) PDF | HTML 11 Dez 2025
Selection guide Leitfaden zur Auswahl drahtloser Kommunikationstechnologie (Rev. B) 07 Mär 2022
Application note DN035 -- Antenna Quick Guide (Rev. B) 09 Feb 2022
Application note Debugging Communication Range (Rev. A) PDF | HTML 23 Mai 2019
Application note DN507 -- FEC Decoding 21 Mär 2019
White paper Migrating your proprietary solution to the SimpleLink™ WMCU 07 Nov 2018
Application note CC11xx Sensitivity Versus Frequency Offset and Crystal Accuracy (Rev. D) PDF | HTML 27 Sep 2018
Application note CRC Implementation (Rev. E) PDF | HTML 27 Sep 2018
Application note Achieving Optimum Radio Range (Rev. A) 05 Sep 2017
Application note CC112x-CC1190 Boost Software Examples 19 Okt 2015
Technical article How FRAM and LED lighting could bring about a new era in stadium lighting PDF | HTML 14 Jul 2015
Technical article Effortless energy savings with the tado° Smart Thermostat PDF | HTML 29 Mai 2015
Application note TI LPRF EASYMODE 12 Dez 2014
White paper 6LoWPAN Demystified - 6LoWPAN Demystifed – A Low Power IP Mesh Network 28 Okt 2014
Application note Antenna Diversity 23 Okt 2014
Application note Final Test Considerations for Wireless Technology Products 01 Okt 2014
Application note DN024 -- 868 MHz, 915 MHz and 955 MHz Monopole PCB Antenna (Rev. E) 22 Feb 2013
Application note DN038 -- Miniature Helical PCB Antenna for 868 MHz or 915/920 MHz 27 Nov 2012
Application note AN098 - Layout Review Techniques for Low Power RF Designs (Rev. A) 02 Aug 2012
Application note DN022 -- CC110x CC111x OOK ASK Register Settings (Rev. E) 08 Mär 2012
More literature Sub-1 GHz RF Value Line Brochure (Rev. B) 13 Feb 2012
Application note DN036 -- CC1101+CC1190 600 kbps Data Rate, +19 dBm Transmit (Rev. A) 07 Nov 2011
Application note DN025 -- Johanson Technology Matched Balun Filters (Rev. A) 13 Okt 2011
Application note DN023 -- 868 MHz, 915 MHz and 955 MHz Inverted F Antenna (Rev. C) 30 Aug 2011
Application note AN095 -- Continuous Data Streaming Applications - Using Serial Synchronous Mode (Rev. A) 18 Jul 2011
Application note AN096 Using CC1190 Front End with CC1101 under FCC 15.247 (Rev. A) 02 Mai 2011
Application note AN094 -- Using the CC1190 Front End with CC1101 under EN 300 220 11 Jan 2011
Application note AN058 -- Antenna Selection Guide (Rev. B) 06 Okt 2010
Application note DN031 -- CC-Antenna-DK Documentation and Antenna Measurements Summary 26 Aug 2010
Application note DN006 -- CC11xx Settings for FCC15.247 Solutions (Rev. B) 17 Aug 2010
Application note DN505 -- RSSI interpretation and timing (Rev. D) 16 Jun 2010
Application note DN509 -- Data Whitening and Random TX Mode 12 Apr 2010
Application note AN085 -- Implementing Diversity Using Low Power Radios 26 Jan 2010
Application note DN107 -- DMA and Radio Configuration (Rev. A) 17 Dez 2009
Application note DN010 -- Close-in Reception with CC1101 (Rev. B) 21 Jul 2009
Application note DN009 -- Upgrading from CC1100 to CC1101 (Rev. A) 16 Jul 2009
Application note DN500 -- Packet Transmission Basics (Rev. C) 06 Apr 2009
Application note AN069 -- Low Cost Long Range One Way Audio Communications at 900 MHz (Rev. B) 24 Mär 2009
Application note DN111 - Current Consumption for a Polling Receiver (Rev. A) 24 Mär 2009
Application note DN300 -- SmartRF04EB Troubleshooting (Rev. B) 24 Mär 2009
Application note DN400 -- Interfacing CC1100 - CC2500 with MSP430 (Rev. A) 24 Mär 2009
Application note DN501 -- PATABLE Access (Rev. B) 24 Mär 2009
Application note AN047 -- CC1100/CC2500 Wake on Radio (Rev. B) 23 Mär 2009
Application note AN067 - Wireless MBUS Implementation with cc1101 and MSP430 (Rev. A) 06 Nov 2008
Application note DN017 -- CC11xx 868/915 MHz RF Matching (Rev. A) 31 Mär 2008
Application note DN013 -- Programming output powers on CC1101 (Rev. A) 02 Jan 2008
Application note DN503 -- SPI Access (Rev. B) 22 Okt 2007
Application note DN504 -- FEC Implementation (Rev. A) 22 Okt 2007
Application note DN506 -- GDO Pin Usage (Rev. A) 22 Okt 2007
More literature CC1101 Material content 16 Jul 2007

Design und Entwicklung

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Codebeispiel oder Demo

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Schaltplan

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Gehäuse Pins CAD-Symbole, Footprints und 3D-Modelle
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