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CC2564

ACTIVE

Bluetooth® 4.0 with Enhanced Data Rate (EDR), Low Energy (LE) and ANT

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Data sheet

CC2564

ACTIVE
Data sheet Order now

Product details

Type Transceiver Protocols Dual-mode Bluetooth Security Networking security Features Assisted A2DP/HFP 1.6, BR / EDR / LE, Class 1 TX Power Operating temperature range (°C) -40 to 85 Rating Catalog
Type Transceiver Protocols Dual-mode Bluetooth Security Networking security Features Assisted A2DP/HFP 1.6, BR / EDR / LE, Class 1 TX Power Operating temperature range (°C) -40 to 85 Rating Catalog
VQFNP-MR (RVM) 76 64 mm² 8 x 8
  • TI’s Single-Chip Bluetooth Solution With Bluetooth
    Basic Rate (BR), Enhanced Data Rate (EDR), and
    Low Energy (LE) Support; Available in Two
    Variants:
    • Dual-Mode Bluetooth CC2564 Controller
    • Bluetooth CC2560 Controller
  • CC2564 Bluetooth 4.1 Controller Subsystem
    Qualified (QDID 58852); Compliant up to the HCI
    Layer
  • Highly Optimized for Low-Cost Designs:
    • Single-Ended 50-Ω RF Interface
    • Package Footprint: 76 Terminals, 0.6-mm Pitch,
      8-mm x 8-mm mrQFN
  • BR/EDR Features Include:
    • Up to 7 Active Devices
    • Scatternet: Up to 3 Piconets Simultaneously, 1
      as Master and 2 as Slaves
    • Up to 2 SCO Links on the Same Piconet
    • Support for All Voice Air-Coding – Continuously
      Variable Slope Delta (CVSD), A-Law, µ-Law,
      and Transparent (Uncoded)
    • CC2560B/CC2564B Devices Provide an
      Assisted Mode for HFP 1.6 Wideband Speech
      (WBS) Profile or A2DP Profile to Reduce Host
      Processing and Power
    • Support of Multiple Bluetooth Profiles With
      Enhanced QoS
  • LE Features Include:
    • Support of Up to 10 (CC2564B) Connections
    • Multiple Sniff Instances Tightly Coupled to
      Achieve Minimum Power Consumption
    • Independent Buffering for LE Allows Large
      Numbers of Multiple Connections Without
      Affecting BR/EDR Performance.
    • Built-In Coexistence and Prioritization Handling
      for BR/EDR and LE
  • Best-in-Class Bluetooth (RF) Performance
    (TX Power, RX Sensitivity, Blocking)
    • Class 1 TX Power Up to +10 dBm
    • –95 dbm Typical RX Sensitivity
    • Internal Temperature Detection and
      Compensation to Ensure Minimal Variation in
      RF Performance Over Temperature, No
      External Calibration Required
    • Improved Adaptive Frequency Hopping (AFH)
      Algorithm With Minimum Adaptation Time
    • Provides Longer Range, Including 2x Range
      Over Other LE-Only Solutions
  • Advanced Power Management for Extended
    Battery Life and Ease of Design
    • On-Chip Power Management, Including Direct
      Connection to Battery
    • Low Power Consumption for Active, Standby,
      and Scan Bluetooth Modes
    • Shutdown and Sleep Modes to Minimize Power
      Consumption
  • Physical Interfaces:
    • UART Interface With Support for Maximum
      Bluetooth Data Rates
      • UART Transport Layer (H4) With Maximum
        Rate of 4 Mbps
      • Three-Wire UART Transport Layer (H5) With
        Maximum Rate of 4 Mbps (CC2560B and
        CC2564B Only)
    • Fully Programmable Digital PCM-I2S Codec
      Interface
  • Flexibility for Easy Stack Integration and Validation
    Into Various Microcontrollers, Such as MSP430™
    and ARM® Cortex®-M3 and Cortex®-M4 MCUs
  • CC256x Bluetooth Hardware Evaluation Tool: PC-
    Based Application to Evaluate RF Performance of
    the Device and Configure Service Pack
  • Device Pin-to-Pin Compatible With Previous
    Devices or Modules
  • TI’s Single-Chip Bluetooth Solution With Bluetooth
    Basic Rate (BR), Enhanced Data Rate (EDR), and
    Low Energy (LE) Support; Available in Two
    Variants:
    • Dual-Mode Bluetooth CC2564 Controller
    • Bluetooth CC2560 Controller
  • CC2564 Bluetooth 4.1 Controller Subsystem
    Qualified (QDID 58852); Compliant up to the HCI
    Layer
  • Highly Optimized for Low-Cost Designs:
    • Single-Ended 50-Ω RF Interface
    • Package Footprint: 76 Terminals, 0.6-mm Pitch,
      8-mm x 8-mm mrQFN
  • BR/EDR Features Include:
    • Up to 7 Active Devices
    • Scatternet: Up to 3 Piconets Simultaneously, 1
      as Master and 2 as Slaves
    • Up to 2 SCO Links on the Same Piconet
    • Support for All Voice Air-Coding – Continuously
      Variable Slope Delta (CVSD), A-Law, µ-Law,
      and Transparent (Uncoded)
    • CC2560B/CC2564B Devices Provide an
      Assisted Mode for HFP 1.6 Wideband Speech
      (WBS) Profile or A2DP Profile to Reduce Host
      Processing and Power
    • Support of Multiple Bluetooth Profiles With
      Enhanced QoS
  • LE Features Include:
    • Support of Up to 10 (CC2564B) Connections
    • Multiple Sniff Instances Tightly Coupled to
      Achieve Minimum Power Consumption
    • Independent Buffering for LE Allows Large
      Numbers of Multiple Connections Without
      Affecting BR/EDR Performance.
    • Built-In Coexistence and Prioritization Handling
      for BR/EDR and LE
  • Best-in-Class Bluetooth (RF) Performance
    (TX Power, RX Sensitivity, Blocking)
    • Class 1 TX Power Up to +10 dBm
    • –95 dbm Typical RX Sensitivity
    • Internal Temperature Detection and
      Compensation to Ensure Minimal Variation in
      RF Performance Over Temperature, No
      External Calibration Required
    • Improved Adaptive Frequency Hopping (AFH)
      Algorithm With Minimum Adaptation Time
    • Provides Longer Range, Including 2x Range
      Over Other LE-Only Solutions
  • Advanced Power Management for Extended
    Battery Life and Ease of Design
    • On-Chip Power Management, Including Direct
      Connection to Battery
    • Low Power Consumption for Active, Standby,
      and Scan Bluetooth Modes
    • Shutdown and Sleep Modes to Minimize Power
      Consumption
  • Physical Interfaces:
    • UART Interface With Support for Maximum
      Bluetooth Data Rates
      • UART Transport Layer (H4) With Maximum
        Rate of 4 Mbps
      • Three-Wire UART Transport Layer (H5) With
        Maximum Rate of 4 Mbps (CC2560B and
        CC2564B Only)
    • Fully Programmable Digital PCM-I2S Codec
      Interface
  • Flexibility for Easy Stack Integration and Validation
    Into Various Microcontrollers, Such as MSP430™
    and ARM® Cortex®-M3 and Cortex®-M4 MCUs
  • CC256x Bluetooth Hardware Evaluation Tool: PC-
    Based Application to Evaluate RF Performance of
    the Device and Configure Service Pack
  • Device Pin-to-Pin Compatible With Previous
    Devices or Modules

The TI CC256x device is a complete Bluetooth BR/EDR/LE HCI solution that reduces design effort and enables fast time to market. Based on TI’s seventh-generation Bluetooth core, the CC256x device provides a product-proven solution that is Bluetooth 4.1 compliant. When coupled with a microcontroller unit (MCU), this HCI device offers best-in-class RF performance with a range of about 2X compared to other Bluetooth LE-only solutions. Furthermore, TI’s power-management hardware and software algorithms provide significant power savings in all commonly used Bluetooth BR/EDR/LE modes of operation.

The TI Dual-Mode Bluetooth Stack software is certified and provided royalty free for TI’s MSP430 and ARM Cortex-M3 and Cortex-M4 MCUs. Other MPUs can be supported through TI’s third party. iPod® (MFi) protocol is supported by add-on software packages. For more information, see TI Dual-Mode Bluetooth Stack. Some of the profiles supported include the following:

  • Serial port profile (SPP)
  • Advanced audio distribution profile (A2DP)
  • Audio/video remote control profile (AVRCP)
  • Handsfree profile (HFP)
  • Human interface device (HID)
  • Generic attribute profile (GATT)
  • Several Bluetooth LE profiles and services

In addition to software, this solution consists of multiple reference designs with a low BOM cost, including a new Bluetooth audio sink reference design for customers to create a variety of applications for low-end, low-power audio solutions.

The TI CC256x device is a complete Bluetooth BR/EDR/LE HCI solution that reduces design effort and enables fast time to market. Based on TI’s seventh-generation Bluetooth core, the CC256x device provides a product-proven solution that is Bluetooth 4.1 compliant. When coupled with a microcontroller unit (MCU), this HCI device offers best-in-class RF performance with a range of about 2X compared to other Bluetooth LE-only solutions. Furthermore, TI’s power-management hardware and software algorithms provide significant power savings in all commonly used Bluetooth BR/EDR/LE modes of operation.

The TI Dual-Mode Bluetooth Stack software is certified and provided royalty free for TI’s MSP430 and ARM Cortex-M3 and Cortex-M4 MCUs. Other MPUs can be supported through TI’s third party. iPod® (MFi) protocol is supported by add-on software packages. For more information, see TI Dual-Mode Bluetooth Stack. Some of the profiles supported include the following:

  • Serial port profile (SPP)
  • Advanced audio distribution profile (A2DP)
  • Audio/video remote control profile (AVRCP)
  • Handsfree profile (HFP)
  • Human interface device (HID)
  • Generic attribute profile (GATT)
  • Several Bluetooth LE profiles and services

In addition to software, this solution consists of multiple reference designs with a low BOM cost, including a new Bluetooth audio sink reference design for customers to create a variety of applications for low-end, low-power audio solutions.
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Technical documentation

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Type Title Date
* Data sheet CC256x Dual-Mode Bluetooth Controller datasheet (Rev. E) PDF | HTML 12 Mar 2014
Application note CE Regulations for SRDs Operating in License-Free 2.4GHz/5GHz Bands-WiFi Devices (Rev. A) PDF | HTML 20 Oct 2022
Selection guide CC256x Getting Started Selection Guide (Rev. C) PDF | HTML 13 May 2022
Application note DN035 -- Antenna Quick Guide (Rev. B) 09 Feb 2022
Cybersecurity advisory Bluetooth Basic Rate/Enhanced Data Rate – Bluetooth Impersonation AttackS (BIAS) PDF | HTML 18 May 2020
Cybersecurity advisory Bluetooth Low Energy, Basic Rate/Enhanced Data Rate – Method Confusion Pairing V PDF | HTML 18 May 2020
Application note Capturing Bluetooth Host Controller Interface (HCI) Logs 07 Jan 2019
Application note CC2564 HFP/HID/SPP Integration Demonstration 20 Nov 2018
White paper Wireless Connectivity For The Internet of Things, One Size Does Not Fit All (Rev. A) 16 Oct 2017
White paper Which TI Bluetooth® solution should I choose? 05 May 2017
White paper White Paper: Why Classic Bluetooth® (BR/EDR)? 04 May 2017
Technical article Introducing TI’s dual-mode Bluetooth® 4.2 CC2564C solution PDF | HTML 13 Dec 2016
Application note CC256XQFN PCB Guidelines (Rev. B) 28 Oct 2016
User guide CC256x Hardware Design Checklist (Rev. A) 28 Oct 2016
Technical article Driving industrial markets with TI’s dual-mode Bluetooth® module PDF | HTML 05 May 2016
Technical article The dual-mode Bluetooth® module you’ve been waiting for is here PDF | HTML 17 Feb 2016
More literature Dual-mode Bluetooth CC256x solutions (Rev. C) 03 Feb 2016
Technical article A training solution for serious athletes? WHOOP, there it is! PDF | HTML 04 Jan 2016
User guide Dual-Mode Bluetooth CC2564 Evaluation Board User Guide 28 Dec 2015
Technical article TI DLP® NIRscan™ Nano Evaluation Module has answers to your handheld near-infrared PDF | HTML 02 Oct 2015
User guide Dual-Mode Bluetooth CC2564 Evaluation Board Quick Start Guide 01 Oct 2015
Technical article IML is taking Bluetooth to new heights without leaving the ground PDF | HTML 24 Sep 2015
Technical article Three reasons why our dual-mode Bluetooth stack is your new go-to software solutio PDF | HTML 17 Aug 2015
Technical article Understanding wireless connectivity in industrial IoT applications PDF | HTML 04 Aug 2015
E-book Understanding Wireless Connectivity in the Industrial IoT 22 Jul 2015
User guide Dual-Mode Bluetooth CC2564 Module With Integrated Antenna Evaluation Board 07 Jul 2015
User guide CC2564MODA Evaluation Board Quick Start Guide 01 Jul 2015
User guide CC256x QFN EM User Guide Wiki 16 Jun 2015
White paper Three Flavors of Bluetooth: Which One to Choose? 25 Mar 2014
More literature TI: The IoT technology leader 01 Nov 2013
More literature The Evolution of the Internet of Things 09 Sep 2013
Application note AN058 -- Antenna Selection Guide (Rev. B) 06 Oct 2010

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