The RW61x series is a highly integrated, low-power tri-radio wireless MCU with an integrated MCU and Wi-Fi® 6 + Bluetooth® Low Energy (LE) 5.4 / 802.15.4 radios designed for a broad array of applications, including connected smart home devices, enterprise and industrial automation, smart accessories and smart energy. The RW61x series MCU subsystem includes a 260 MHz Arm® Cortex®-M33 core with Trustzone™-M, 1.2 MB on-chip SRAM and a high-bandwidth Quad SPI interface with an on-the-fly decryption engine for securely accessing off-chip XIP flash. The RW61x series includes a full-featured 1x1 dual-band (2.4 GHz/5 GHz) 20 MHz Wi-Fi 6 (802.11ax) subsystem bringing higher throughput, better network efficiency, lower latency and improved range over previous generation Wi-Fi standards. The Bluetooth LE radio supports 2 Mbit/s high-speed data rate, long range and extended advertising.  The on-chip 802.15.4 radio can support the latest Thread mesh networking protocol. In addition, the RW612 can support Matter over Wi-Fi or Matter over Thread offering a common, interoperable application layer across ecosystems and products. NXP RW61x Block Diagram Documents RW610 Datasheet: RW610 Datasheet RW612 Datasheet: RW612 Datasheet RW61x User Manual: UM11865: RW61x User Manual RW61x Register Manual: RM00278: RX16x Registers   Certifications FRDM-RW612 Radio Equipment Directive Declaration of Conformity  User Guide Getting Started with FRDM-RW612 Quick Start Guide - FRDM-RW612 UG10185: RW612 Matter-Zigbee Bridge User Guide UG10178: Matter Demo Using NXP Chip Tool App for FRDM-RW612 and FRDM-MCXW71  UG10612: NXP Wi-Fi and Bluetooth Feature Debug for FRDM-RW612 UG10182: NXP 802.15.4 Demo Applications for FRDM-RW612 UG10160: Getting Started with Wireless on FRDM-RW612 Board Running RTOS  UG10171: NXP Wi-Fi and Bluetooth Demo Applications for FRDM-RW61X     RW61x Modules Azurewave: RW612 - AW-CU570 is a highly integrated, low-power tri-radio Wireless RW612 MCU with an integrated MCU and Wi-Fi 6 + Bluetooth Low Energy (LE) 5.2 / 802.15.4 radios designed for a broad array of applications. RW610 - AW-CU598 is a highly integrated, low-power tri-radio Wireless RW610 MCU with an integrated MCU and Wi-Fi 6 + Bluetooth Low Energy (LE) 5.3 radios designed for a broad array of applications U-blox: RW612 - IRIS-W10 Series are small, stand-alone, dual-band Wi-Fi and Bluetooth Low Energy wireless microcontroller unit (MCU) modules. The modules are ideal for users looking to add advanced wireless connectivity to their end products. RW610 - IRIS-W16 Series are small, stand-alone, dual-band Wi-Fi and Bluetooth Low Energy wireless modules, with everything needed for integration into end-products. The modules are ideal for users looking to add advanced wireless connectivity to their end products.  Murata: RW612 - LBES0ZZ2FR-580 Murata’s Type 2FR is a small and very high-performance module based on NXP RW612 combo chipset, supporting IEEE 802.11a/b/g/n/ac/ax + Bluetooth LE 5.4 / IEEE 802.15.4. RW610 - LBES0ZZ2FP-580 Type 2FR/2FP is a family of small and highly integrated multi-radio modules with built-in high-performance MCU with advanced security features for connected smart devices in smart homes, enterprise and industrial automation, smart accessories, and smart energy. It supports the latest Matter smart home connectivity protocol. California Eastern Laboratories (CEL): RW612 - CMP4612 is a fully integrated Dual-Band, Tri-mode (Wi-Fi 6, BT5.4, 802.15.4) radio, that includes a host MCU, Flash, RAM, peripherals, and numerous interfaces (SDIO, UART, USB, Ethernet. SPI, I2C) to support both HOSTLESS (RTOS) and HOSTED (NCP mode) architectures. CEL's solution includes either an on-board antenna or connector.   Evaluation boards  FRDM-RW612 FRDM-RW612 is a compact and scalable development board for rapid prototyping of the RW61x series of Wi-Fi 6 + Bluetooth Low Energy + 802.15.4 tri-radio wireless MCUs. It offers easy access to the MCU’s I/O's and peripherals, integrated open-standard serial interfaces, external flash memory and on-board MCU-Link debugger. FRDM-RW612 Getting Started Getting Started with FRDM-RW612 FRDM-RW612 User Manual: UM12160: FRDM-RW612 Board User Manual Current Measurement configuration: Remove the 0-ohms resistor R103 Solder a couple of pins in JP5. When trying to measure the RW61x current consumption, connect your current meter using the pins in JP5. When using the FRDM board in normal operation, connect a jumper to the pins in JP5.   u-blox   USB-IRIS-W1 The USB-IRIS-W1 development platform is built on the dual-band Wi-Fi 6 and Bluetooth LE module IRIS-W1, based on the NXP RW610/612 chip. The board is designed with a USB interface to simplify evaluation and prototyping directly from a PC. In addition to the IRIS-W1 module with integrated antenna, it also integrates four buttons, an RGB LED, and a USB/UART converter, to further support an easy evaluation. u-blox   EVK-IRIS-W1 The EVK-IRIS-W1 evaluation kit provides stand-alone use of the IRIS-W1 module series featuring the NXP RW610/612 chipset. Azurewave    AW-CU570-EVB Evaluation board for AW-CU570 module includes wireless MCU with Integrated Tri-radio Wi-Fi 6 + Bluetooth Low Energy 5.3 /802.15.4. Murata   2FR EVK Evaluation kit for Murata Type 2FR module (Murata part number LBES0ZZ2FR) includes 3 radios: Wi-Fi, BLE and 802.15.4. It is based on NXP’s RW612 chip. California Eastern Laboratories (CEL) CMP4612-2-EVB The CMP4612 Evaluation Board (CMP4612-2-EVB), based on the NXP RW612 chipset, features dual-band Wi-Fi 6, BLE 5.4 and 802.15.4 radios. The CMP4612 Evaluation Board includes an onboard Ethernet port and PHY hardware as well as an Arduino header, MCULink SWD, and USB ports. This board is designed to facilitate a seamless and efficient evaluation process for customers wanting a certified module for their end product.   Application Notes RM00287: Wi-Fi Driver API for SDK 2.16.100     The radio driver source code provides APIs to send and receive packets over the radio interfaces by communicating with the firmware images. This manual provides the reference documentation for the Wi-Fi driver and Wi-Fi Connection Manager.  UM12133: NXP NCP Application Guide for RW612 with MCU Host - User manual     This user manual describes: • The NXP NCP application for RW612 with MCU host platform i.MX RT1060 as example. • The hardware connections for one of the four supported interfaces to enable NCP mode on the NXP RW612 BGA V4 board (UART, USB, SDIO, or SPI). • The method to build and run the NCP applications on both the NCP host (i.MX RT1060) and the NCP device (RW612). The applications apply to Wi-Fi, Bluetooth Low Energy and OpenThread (OT)    UM12095:  NXP NCP Application Guide for RW612 with MPU Host - User manual      This user manual describes: • The NXP NCP application for RW612 with MPU host platform i.MX 8M Mini as example. • The hardware connections for one of the four supported interfaces to enable NCP mode on the NXP RW612 BGA V4 board (UART, USB, SDIO, or SPI). • The method to build and run the NCP applications on both the NCP host (i.MX 8M Mini) and the NCP device (RW612). The applications apply to Wi-Fi, Bluetooth Low Energy and OpenThread (OT).  AN14439: Migration Guide from FRDM-RW612 Board to Third-Party Module board This Application note provides an overview of what it means to migrate the application to a different board with different flash and pSRAM AN14111: Target Wake Time (TWT) on RW16x This application note describes the target wake time feature and provides examples for RW61X AN13006: Compliance and Certification Considerations This application note provides guidance and tips on how to test products on NXP Wi-Fi devices for regulatory compliance. AN13049: Wi-Fi/Bluetooth/802.15.4 M.2 Key E Pinout Definition This Application note defines M.2 usage for both NXP Wi-Fi/Bluetooth and Tri-Radio M.2 module design AN14489 – Wi-Fi Firmware Automatic Recovery on RW61x Describes Wi-Fi automatic recovery feature as well as how to enable and verify it on RW61x SDK. AN14464 - Low Power Checklist RW61x Family This document provides an overview on how to use the low power consumption features of the RW61x. AN14476 - NXP Dual PAN Feature and Performance Results This document provides a comprehensive exploration of the Dual Personal Area Network (Dual-PAN) feature on NXP Wireless Connectivity products implementing IEEE 802.15.4 low-rate wireless protocol area network standard. Security: AN14544 – EdgeLock 2GO Services for MPU and MCU This application note introduces various methods that the EdgeLock 2GO service can be used with MCU and MPU devices and the features available for each method. AN13813 – Secure Boot on RW61x Describes how to generate and run the secure boot (signed image) on RW61x. AN13814 – Debug Authentication on RW61x Describes the steps for debug authentication using the secure provisioning SDK tool.   Community Support If you have questions regarding RW61x series, please leave your comments in our Wireless MCU Community! here    Training FRDM-RW612 Training Wi-Fi 6 Tri-Radio in a secure i.MX RT MCU RW61x Series Training - NXP Community   Equipment Wireless Equipment: This article provides the links to the wireless equipment to help you accelerate your project development Development Tools  SDK builder The MCUXpresso SDK brings open-source drivers, middleware, and reference example application to speed your software development. NXP MCUXpresso MCUXpresso IDE offers advanced editing, compiling and debugging features with the addition of MCU-Specific debugging and supports connections with all general-purpose Arm Cortex-M.  VSCode MCUXpresso for Visual Studio Code (VS Code) provides an optimized embedded developer experience for code editing and development. Zephyr RTOS  The Zephyr OS is based on a small-footprint kernel designed for use on resource-constrained and embedded systems: from simple embedded environmental sensors and LED wearables to sophisticated embedded controllers, smart watches, and IoT wireless applications. NXP Application Code Hub Application Code Hub (ACH) repository enables engineers to easily find microcontroller software examples, code snippets, application software packs and demos developed by our in-house experts. This space provides a quick, easy and consistent way to find microcontroller applications. NXP SPSDK Is a unified, reliable, and easy to use Python SDK library working across the NXP MCU portfolio providing a strong foundation from quick customer prototyping up to production deployment. NXP SEC Tool The MCUXpresso Secure Provisioning Tool us a GUI-based application provided to simplify generation and provisioning of bootable executables on NCP MCU devices. NXP OTAP Tool Is an application that helps the user to perform an over the air firmware update of an NXP development board. SDK Examples for Wireless MCUs The wireless examples feature many common connectivity configurations.   Useful Links Bluetooth Interested in Bluetooth technology? Bluetooth® Low Energy Primer – Essential reading for understanding BLE fundamentals. Bluetooth® Specifications – Full list of standards, protocols, and technical documents. Bluetooth Feature Overview Bluetooth_5.0_Feature_Overview  Bluetooth_5.1_Feature_Overview  Bluetooth_5.2_Feature_Overview Bluetooth_5.3_Feature_Overview Bluetooth_5.4_Feature_Overview Bluetooth_6_Feature_Overview  

KW45’s three-core architecture integrates a 96 MHz CM33 application core, dedicated CM3 radio core and an isolated EdgeLock Secure Enclave. The Flash-based radio core with dedicated SRAM delivers a highly configurable and upgradeable software-implemented radio, freeing resources on the main core for customer application space. The Bluetooth Low Energy 5.3-compliant radio supports up to 24 simultaneous secure connections. The EdgeLock Secure Enclave’s isolated execution environment provides a set of cryptographic accelerators, key store operations and secure lifecycle management that minimizes main core security responsibilities. The KW45 MCU additionally integrates FlexCAN, helping enable seamless integration into an automobile’s in-vehicle or industrial CAN communication network. The FlexCAN module can support CAN’s flexible data rate (CAN FD) for increased bandwidth and lower latency. KW45 Block Diagram KW45 Architecture Block Diagram Documents Reference Manual Datasheet Errata Secure Reference manual** Certifications SESIP Cert SESIP ST PSA Certification RED Certification EUROPEAN UNION DECLARATION OF CONFORMITY (EVK) EUROPEAN UNION DECLARATION OF CONFORMITY (LOC) Japan MIC KW45-LOC _TELEC-20250221 see attached below Bluetooth Interested in Bluetooth technology? Bluetooth® Low Energy Primer – Essential reading for understanding BLE fundamentals. Bluetooth® Specifications – Full list of standards, protocols, and technical documents. Bluetooth Feature Overview Bluetooth_5.0_Feature_Overview  Bluetooth_5.1_Feature_Overview  Bluetooth_5.2_Feature_Overview Bluetooth_5.3_Feature_Overview Bluetooth_5.4_Feature_Overview Bluetooth_6_Feature_Overview Bluetooth_6.1_Feature_Overview Bluetooth_6.2_Feature_Overview Evaluation boards KW45 KW45-EVK KW45-EVK Schematic KW45-EVK Design Files KW45-EVK User manual KW45-LOC User manual KW45-EVK Getting Started Application Notes Software, Hardware and Peripherals: AN14122 : How to use RTC on KW45 This application note describes how to configure and use the RTC peripheral in a BLE demo AN14141 : Enabling Watchdog Timer Module on KW45 Bluetooth Low Energy Connectivity Stack This application note describes the process to implement the WDOG timer in a Connectivity Stack demo. AN13855 : KW45/K32W1 Integrating the OTAP Client Service into a Bluetooth LE Peripheral Device This Application note provides the steps and process for integrating the Over the Air Programming Client Service into a BLE peripheral device. AN13584 : Kinetis KW45 and K32W1 Loadpull Report This application note describes measurement methodology and associated results on the load-pull characteristics. AN13860 : Creating Firmware Update Image for KW45/K32W1 using OTAP tool This application note provides the steps to create and upgrade the image on the KW45 board via OTAP. AN14077 : Steps to migrating KW45 (1MB) to KW45 (512kB) This application note describes the initial steps require to migrate from 1MB flash to 512kB flash. AN14746 : EEPROM Emulation for the KW45B41Z and K32W148 This document describes the process for the EEPROM emulation for the KW45B41Z and K32W148. AN14298 32kHz Cystal-Less Mode on KW45: This application note provides information on the 32 kHz Crystal-less mode on the KW45 device. This mode allows you to reduce the cost of the system, without compromising the 32 kHz clock accuracy.  Power Management: AN13230: Kinetis KW45 and K32W1 Bluetooth LE Power Consumption Analysis This application note provides information about the power consumption of KW45 wireless MCUs, the hardware design and optimized for low power operation. AN13831: KW45/K32W1 Power Management Hardware This application note describes the usage of the different modules dedicated to power management in the KW45/K32W1 MCU. AN14664 Coin cell Hardware Recommendations for Kinetis Bluetooth LE Applications: This document describes some hardware and software solutions to minimize the peaks of current at the coin cell level RF: AN13687 : K32W1 Connectivity test for 802.15.4 Application This application note describes how to use the connectivity test tool to perform K32W1 802.15.4 RF performance. AN13728 : KW45 RF System Evaluation Report for Bluetooth LE and IEEE 802.15.4 Applications This application note provides the radio frequency evaluation test results of the KW45 board for BLE (2FSK modulation) and for IEEE 802.15.4 (OQPSK modulation) applications. Also describes the setup and tools that can be used to perform the tests.  AN14098: KW45-LOC RF Test Report This application note provides basic RF test result of the KW45B41Z localization board.  AN13228 : KW45-EVK RF System Evaluation Report for BLE Applications This application note provides the RF evaluation test result of the KW45B41Z-EVK for BLE application using two frequency Shift Keying modulation. AN13229 : KW45-EVK Co-existence with RF System Evaluation Report for BLE application This application note provides the RF evaluation test results of the KW45B41Z-EVK for BLE application (2FSK modulation) AN13512 : Kinetis Wireless Family Products BLE Coexistence with Wi-Fi Application This application note provides the K32W1/4X low energy family products immunity on Wi-Fi signals and methods to improve coexistence with Wi-Fi  AN14294 : Out of Band Implementation with KW45 This document explains the steps required to set up an Out of Band (OOB) pairing connection between two KW45 EVK boards, using UART and CAN communication interfaces to share OOB data. AN2731 Compact Planar Antennas for 2.5GHz Communication: This document is not an exhaustive inquiry into antenna design. It is instead focused on helping the customers understand enough board layout and antenna basics to select a correct antenna type for their application, as well as avoiding typical layout mistakes that cause performance issues that lead to delays AN14645 How to Use Random Static Device Address for Bluetooth Application: This document introduces how to enable Random Static Device Address for a Bluetooth Low Energy application. The default device address type in the SDK is Public Device Address. AN14112 Car Connectivity Consortium (CCC) Digital Key R3 - Bluetooth LE Vehicle Keyless Access System: This document provides a hardware and software platform to implement a simple CCC Digital Key Release 3.0 system. The hardware and software components of this system allow the user to get familiar with the CCC Digital Keys R3 specification and how it can be implemented using NXP products and tools. AN13953 Integrating NFC Reader Library in a KW4X Bluetooth Low Energy Application:  This document gives instructions on how to create a Bluetooth Low Energy (Bluetooth LE) project for the EVK-KW45 development board and MCUXpresso IDE, and how to integrate NFC Reader Library. Security: AN13859 : KW45/K32W1 In-System Programming Utility This application note provides steps to boot KW45/K32W1 MCU in ISP mode and establish various serial connections to communicate with the MCU. AN14003 : Programming the KW45 Flash for Application and Radio Firmware via Serial Wire Debug during mass production This application note describes the steps to write, burn and programming all the necessary settings via SWD in mass production.  AN13883 : Updating KW45 Radio Firmware Via ISP Using SPSDK This application note provides steps to boot KW45/K32W1 MCU in ISP mode and update the radio firmware with secure binary. AN14109 : KW45 and K32W148 Secure  Boot Using the SEC Tool This application note provides steps to do secure boot KW45/K32W1 MCU using signed images and secure binaries on the SEC GUI tool. AN13838 :  KW45 and K32W148 Secure  Boot Using the SPSDK Command line Tool This application note provides steps to do secure boot KW45/K32W1 MCU using signed images and secure binaries on the SPSDK command line tool. AN13931 : Managing Lifecycles on KW45 and K32W148 This application note provides steps to do transition lifecycles KW45/K32W1 MCU using the SEC GUI and SPSDK command line tools.  AN14158: Debug Authentication on KW45/ K32W148 This application note describes how to do debug authentication to securely debug an application in the field.  AN14544 : EdgeLock 2GO Services for MPU and MCU This application note introduces the EL2GO services for NXP devices. This allows trust provisioning of the device in an untrusted environment.  AN14174: KW45/K32W1 Flash Encryption using NPXThis application note provides steps to do enable on-the-fly encryption on KW45/K32W1 MCU. AN14158: debug authentication on KW45/K32W148 This application note describes the steps for debug authentication using the Secure Provisioning SDK tool (SPSDK). Support If you have questions regarding KW45, please leave your question in our Wireless MCU Community! here   Useful Links   [MCUXSDK] How to use GitHub SDK for KW4x, MCXW7x, MCXW2x - NXP Community this community post provides step by step how to use GitHub SDK [MCUXSDK] GitHub SDK - Documentation for Bluetooth LE platforms - NXP Community this community post provides the documentation for BLE platforms.  Clock Measuring using the Signal Frequency Analyzer (SFA) module for KW45/KW47/MCXW71/MCXW72 - NXP Community : this community provides the steps on how to use the Signal Frequency Analyzer  The best way to build a PCB first time right with KW45 (Automotive) or K32W1/MCXW71 (IoT/Industrial)... Community : In this community provides the important link to build a PCB using a KW45 or K32W148 and MCXW71 and all concerning the radio performances, low power and radio certification (CE/FCC/ICC) How to use the HCI_bb on Kinetis family products and get access to the DTM mode:  This article is presenting two parts: How to flash the HCI_bb binary into the Kinetis product. Perform RF measurement using the R&S CMW270 BLE HCI Application to set transmitter/receiver test commands: This article provides the steps to show how user could send serial commands to the device. Bluetooth LE HCI Black Box Quick Start Guide : This article describes a simple process for enabling the user controls the radio through serial commands. Kinetis (../45/47/43;MCX W71/72/70) & MCX W23 Power Profile Tools (including Localization):  This page is dedicated to the Kinetis (KW35/KW38/KW45/KW47/KW43) and MCX W7x (MCX W71/W72/W70) Power Profile Tools. It will help you to estimate the power consumption in your application (Automotive or IIoT) and evaluate the battery lifetime of your solution. KW45/K32W1 32MHz & 32kHz Oscillation margins: this article provides the properly configuration for the Oscillation margins for the circuit. KW45/MCXW71 Changing Clocking peripherals from FRO6M to other clock sources:  This article provides a comprehensive guide to selecting and configuring alternative clock sources   Reference Designs Bluetooth Ranging Access Vehicle Enablement System - NXP Community Blue Ravens (Bluetooth Ranging Access Vehicle Enablement System) is a system solution developed by NXP to assist customers in designing their own BLE-based car access solutions using NXP products.   Demo (video) KW45 Based CS 1 to Many Demo NXP - Channel Sounding   Training BLE Introduction  RF Switch Comparison Absorptive/Reflective Standards Comparison ETSI / FCC / ARIB requirements BLE Channel Sounding  - Overview BLE Channel Sounding - RF Hardware BLE Channel Sounding - ANSYS Modeling Tools  BLE Channel Sounding - Antenna Prototypes Validation Measurements     Equipment Wireless Equipment: This article provides the links to the Equipment that helps to the project development  Development Tools  SDK builder: The MCUXpresso SDK brings open-source drivers, middleware, and reference example application to speed your software development. SDK GitHub: SDK open-source Drivers, middleware and reference examples in Github NXP MCUXpresso: MCUXpresso IDE offers advanced editing, compiling and debugging features with the addition of MCU-Specific debugging. Supports connections with all general-purpose Arm Cortex-M.  NXP SPSDK: Is a unified, reliable, and easy to use Python SDK library working across the NXP MCU portfolio providing a strong foundation from quick customer prototyping up to production deployment. NXP SEC Tool: The MCUXpresso Secure Provisioning Tool us a GUI-based application provided to simplify generation and provisioning of bootable executables on NCP MCU devices. NXP OTAP Tool: Is an application that helps the user to perform an over the air firmware update of an NXP development board. Config Tool: MCUXpresso Config Tools, an integrated suite of configuration tools, these configuration tools allow developers to quickly build a custom SDK and leverage pins, clocks and peripheral to generate initialization C code or register values for custom board support. SDK Examples for Wireless MCUs: The wireless examples feature many common Bluetooth configurations. **For secure files is necessary to request additional access. 

Wireless Equipment: Ellisys:  Ellisys is a leading worldwide supplier of advanced protocol test solutions for Bluetooth®, Wi-Fi, WPAN, USB 2.0, SuperSpeed USB 3.1, USB Power Delivery, USB Type-C, DisplayPort and Thunderbolt technologies.  USB, Bluetooth and WiFi Protocol Test Solutions  Bluetooth Vanguard - Advanced Bluetooth Analysis System Bluetooth Qualifier - Bluetooth Qualification System   RFcreations:     RFcreations is a core team of highly skilled and knowledgeable, professional engineers with decades of experience across the design and development of both RF and digital hardware, embedded, protocol stacks and UI software mini-moreph morephCS   Teledyne Lecroy:    offers an extensive range of test solutions to help with design, development, and deployment of devices and systems frontline-x240 Wireless Protocol Analyzer  frontline-x500e Wireless Protocol Analyzer  Rohde&Schwarz:        is a global technology group striving for a safer and connected world. Offers Test & Measurement, Technology Systems and Networks & Cybersecurity Divisions R&S CMW270 wireless connectivity tester Useful links:  Top Online Bluetooth LE learning Resource Ellisys Bluetooth Video Series RFcreations Bluetooth Sniffers and Test Tools Learn Bluetooth Low Energy in a single weekend

The wireless examples feature many common Bluetooth, zigbee and thread configurations. This article describes each SDK example.  MCUs: KW45 K32W1 KW47 MXCW71/72 Category SDK Example Name Description comments BLE Controller hci_bb the HCI black box demo gives access to the BLE controller via serial interface using commands and events.    Bluetooth adv_ext_central the adv_ext_central implements a custom GATT based temperature Profile. After pairing with the peripheral, it configures notifications and displays temperature values on a terminal.  Board to Board Bluetooth adv_ext_peripheral the adv_ext_peripheral implements a custom GATT based temperature Profile. it begins with a general discoverable mode and waits for the central node to connect and configure notifications for the temperature value.  Board to Board Bluetooth ancs_c the demo acts as a peripheral that advertises a service solicitation for custom ANCS service. Also, can acts as a client once connected to the device offering the ANCS service. The application displays information about ANCS notifications received from the mobile. this service is available on iOS mobile devices.   Bluetooth beacon the demo has non-connectable advertising packets that are sent on the three advertising channels. From the info sent by the beacon we can see: company identifier.  beacon identifier.  UUID, by default this value is a random value based on the UI of the board.  some beacon application data  RSSI IoT toolbox app Bluetooth ble_fscibb implements a custom GATT based wireless UART profile. it can be possible to interact with the device through a serial terminal.    Serial Terminal  Bluetooth ble_shell implements a console application that allows the user to interact with a full feature BLE stack library. implements GAP roles and both client and server, to enabling these roles can be done using some commands. this demo allows the user to add, erase or modify services.  Serial Terminal Bluetooth eatt_central the application behaves as a GAP central node. It scans for an EATT peripheral to connect to. Once connected it performs service discovery, initiates an EATT connection and configures indications on the peripheral for services A and B.  The central reports the received service data and steps taken during the setup on a serial terminal.  Board to Board Bluetooth eatt_peripheral the application behaves as a GAP peripheral node. it works a as general discoverable mode and waits for a GAP central node to connect. This application implements two services, Service A and Service B. After the EATT connection in completed, the peer must enable indications for the two services to periodically receive profile data over EATT.   Board to Board Bluetooth hid_device (Mouse) the demo moves the cursor in a square pattern between a min and max axis. this demo behaves as a GAP peripheral node with a general discoverable mode that waits for a GAP central node to connect.    Bluetooth hid_host the application behaves as a GAP central node. it works as a GAP limited discovery Procedure and searches for HID devices to connect to. After connecting with the peripheral node, it configures notifications and displays the received HID reports on a serial terminal.  Serial Terminal Bluetooth loc_reader the application behaves as a GAP peripheral node. This application has the RASP profile implemented; it advertises for compatible devices, once it connected begins to send ranging data to the central device.  Board to Board Bluetooth loc_user_device the application behaves as a GAP central node. it scans for compatible devices, once it connected begins to send ranging commands to the peripheral device and calculates the distance estimation based on the information received.  Board to Board Bluetooth otac_att the over the air programming client is a GAP peripheral which advertising the BLE OTAP service and waits for a connection from an OTAP server. After an OTAP server connects, the OTAP client waits for it to write the OTAP control point CCCD and then starts sending commands via ATT indications.  over the air programming tool //IoT toolbox app Bluetooth otac_I2cap (different transfer method) The over the air programming client is a GAP peripheral which advertising the BLE OTAP service and waits for a connection from an OTAP server. After an OTAP server connects, the OTAP client waits for it to write the OTAP control point CCCD and then starts sending commands via ATT indications.  over the air programming tool // IoT toolbox app Bluetooth otas the Over the air programming server application is a GAP central which scans for devices advertising the BLE OTAP service. After it finds one, it connects to it and configures the OTAP control point CCC descriptor to receive ATT indications from the device then it waits fir OTAP commands from the device.  over the air programming tool // IoT toolbox app Bluetooth temp_coll the application behaves as a GAP central node, it enters GAP limited discovery procedure and searches for sensor devices to pair with. After pairing with the peripheral, it configures notifications and displays temperature values on a serial terminal.  Board to Board Bluetooth temp_sens the application behaves as a GAP peripheral node. it enters GAP general discoverable mode and waits for a GAP central node to connect and configure notifications for the temperature value.  Board to Board Bluetooth w_uart implements a custom GATT based wireless UART profile. it can be possible to interact with the device through a serial terminal.  IoT toolbox app Bluetooth wireless_ranging Is used to perform secure and highly accurate distance estimation between two BLE device.  the application is made of two parts: The embedded firmware, that can be controlled manually via serial connection. the host application (python) running on a PC and controlling the firmware using serial link. Wireless Ranging application allows to: Configure most of the parameters required for measurement. Select what type of measurement to be performed.  Trigger CS measurements using range or test command. Log system debug information but also raw IQ data information in MatLab. Board to Board  genfsk connectivity_test   Board to Board ieee_802.15.4 connectivity_test   Board to Board reference design bluetooth this application is based on a GATT temperature Service and demonstrates power consumption optimization in BLE. The power consumption is optimized during advertising, connected and no activity states.