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20 December 2024
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N 18:10 | Connectivity:STM32WB0 Build BLE Project 2 changes history +8,326 [Registered User (2×)] | |||
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18:10 (cur | prev) +29 Registered User (Changed categories.) | ||||
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18:06 (cur | prev) +8,297 Registered User (Created page with "{{DISPLAYTITLE: How to build a STM32WB0 Bluetooth<sup>®</sup> Low Energy project}} ==Presentation== This page describes how to build easily and install STM32WB0 Bluetooth® Low Energy example applications.<br> Project examples can be found on '''STM32CubeWB0 MCU Package'''<ref name="STM32CubeWB0-Package">[https://www.st.com/en/embedded-software/stm32cubewb0.html STM32CubeWB0 MCU Package]</ref>, and are available for different platforms. {|style="margin-left: auto; margi...") Tag: 2017 source edit |
N 15:53 | Connectivity:STM32WB0 Data Throughput diffhist +53,212 Registered User (Created page with "{{DISPLAYTITLE:STM32WB0 Bluetooth<sup>®</sup> LE – Data throughput measurement}} ==Data throughput profile== Data throughput applications are proprietary applications used to measure the throughput between devices according to different parameters, 1M or 2M PHY, different connection intervals. Data throughput applications are named BLE_DataThroughput_Client and BLE_DataThroughput_Server.<br> The data throughput server is the device exposing three characteristics to b...") |
N 13:00 | Connectivity:Bluetooth LE Audio - STM32WBA Gaming Audio Profile diffhist +13,090 Registered User (Created page with "{{DISPLAYTITLE: Bluetooth<sup>®</sup> LE audio - Gaming Audio Profile }} == Introduction == The Gaming Audio Profile is a Bluetooth® Low Energy Audio Profile specified by the Bluetooth SIG. It is categorized as a "use-case profile", meaning that it is a high-layer profile designed for a specific use case. The complete specification can be found on the Bluetooth SIG website<ref name="GMAP-spec>[https://www.bluetooth.com/specifications/specs/gaming-audio-profile-1-0/ Ga...") |
19 December 2024
N 07:54 | Category:How to start with ROT on STM32H5 diffhist +264 Registered User (Created page with "<big>This category includes all articles "How to start with ROT and STM32H7RS"</big> <noinclude> 10 {{PublicationRequestId | Auto | | Automatic approval based on the “Category model” article}} </noinclude>") |
18 December 2024
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N 15:20 | Connectivity:STM32WB0 EATT 2 changes history +16,915 [Registered User (2×)] | |||
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15:20 (cur | prev) +47 Registered User (Changed categories.) | ||||
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14:59 (cur | prev) +16,868 Registered User (Created page with "{{DISPLAYTITLE: STM32WB0 Enhanced ATT (EATT)}} == '''Enhanced ATT (EATT) feature''' == Enhanced ATT is a Bluetooth<sup>®</sup> Low Energy 5.2 standard feature: it is implemented for STM32WB0.<br> Whereas the original unenhanced attribute protocol operates in a sequential manner, the enhanced attribute protocol provides a way to perform concurrent/parallel transactions between a Bluetooth<sup>®</sup> Low Energy client and a server and potentially reduce the latency of...") Tag: 2017 source edit |
N 14:13 | Connectivity:STM32WB0 BLE Stack Integration diffhist +36,079 Registered User (Created page with "{{DISPLAYTITLE:STM32WB0 Bluetooth<sup>®</sup> LE Stack Modularity and Integration}} =='''Introduction'''== This wiki describes to an application developer the STM32WB0 series Bluetooth<sup>®</sup> LE stack library modularity feature and how to integrate the Bluetooth<sup>®</sup> LE stack library on a user application.<br> <br> {| style="margin-left: auto; margin-right: auto;" |- !Acronym definitions |- | {| |- !Acronym!!Definition |- |ACI||Application Controller Inte...") |
17 December 2024
N 16:15 | Connectivity:STM32WB0 Serial Port diffhist +34,676 Registered User (Created page with "{{DISPLAYTITLE:STM32WB0 Bluetooth<sup>®</sup> LE – Peer 2 Peer Applications}} ==Serial Port application == The '''Serial Port Application''' is a Generic Attribute Profile (GATT) based low-energy application defined by STMicroelectronics with proprietary UUIDs(128 bits).The Serial Port application can be used to demonstrate Point-to-Point communication using Bluetooth Low Energy GATT component. It is used to exchange data entered on the UART of each board.<br> The '...") |
16 December 2024
15:43 | Connectivity:STM32WB0 BLE Privacy diffhist +19 Registered User (Changed categories.) |
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15:42 | Connectivity:STM32WB0 BLE security 2 changes history +48 [Registered User (2×)] | |||
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15:42 (cur | prev) −28 Registered User (Changed categories.) | ||||
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15:42 (cur | prev) +76 Registered User (Changed categories.) |
N 12:35 | Connectivity:STM32WB0 Connection Oriented Channel – COC diffhist +20,055 Registered User (Created page with "==STM32WB0 - Connection Oriented Channel== A Connection Oriented Channel - COC allows the exchange of Bluetooth<sup>®</sup> Low Energy data at L2CAP layer without GATT layer. There is no notion of client/server, only central and peripheral.<br> To set a COC logical link, it is necessary to establish first a Bluetooth<sup>®</sup> Low Energy link. Over this Bluetooth<sup>®</sup> Low Energy link, one or several COCs can be established.<br> The central or the peripheral...") |
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N 10:29 | Connectivity:STM32CubeWB0 Real Time Debug 2 changes history +12,606 [Registered User (2×)] | |||
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10:29 (cur | prev) +41 Registered User (Changed categories.) | ||||
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10:28 (cur | prev) +12,565 Registered User (Created page with "{{DISPLAYTITLE:STM32CubeWB0: Real Time Debug}} ==Introduction== The STM32CubeWB0 firmware provides real time (RT) debug capabilities. The RTDebug module is GPIO based for a minimal impact on real time timings. The module is present, by default, into the application framework. While enabling the RTDebug module in the application, the user can choose, among a various list of signals, the ones it wants to monitor and which GPIO is assigned for output. Some default config...") Tag: 2017 source edit |
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N 10:23 | Connectivity:STM32CubeWB0 Memory Management 2 changes history +23,551 [Registered User (2×)] | |||
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10:23 (cur | prev) +41 Registered User (Changed categories.) | ||||
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09:47 (cur | prev) +23,510 Registered User (Created page with "{{DISPLAYTITLE:STM32CubeWB0: Memory management }} ==Introduction== An enhanced version of dynamic allocation is available with the STM32WB0: the Advanced Memory Manager (AMM). It eases dynamic allocations in a multitask/shared environment without adding much complexity. <br><br> The new features provided by AMM are the following: * Support of several Virtual Memories * Minimum size warranty per Virtual Memory (Quality Of Service - QOS) * Callback in case of memory alloc...") Tag: 2017 source edit |
N 09:43 | Connectivity:Bluetooth qualification workspace example with STM32WB05 diffhist +12,799 Registered User (page creation) |
09:36 | Security:How to create ROT examples for STM32N6 diffhist −50 Registered User (Changed categories.) |
13 December 2024
N 11:02 | Connectivity:Wifi ref designs diffhist +1,985 Registered User (first version) |
N 08:48 | Connectivity:STM32WBA Link Layer User Manual diffhist +65,328 Registered User (Created page with "{{DISPLAYTITLE:STM32WBA Bluetooth<sup>®</sup> LE Stack Integration}} == '''About this document''' == === '''Purpose''' === This document describes to an application developer how to integrate the STM32WBAxx Bluetooth<sup>®</sup> LE stack library. === '''Scope''' === This document covers only the Bluetooth<sup>®</sup> LE stack library integration, and it does not include the Link Layer integration aspects. === '''Acronyms definitions''' === <br> {|style="margin-left:...") |
12 December 2024
16:58 | Template:ArticleToRename diffhist −419 Registered User (Merge articles) |
16:57 | Template:ArticleToDelete diffhist −328 Registered User (Merge articles) |
N 16:57 | ProtectedTemplate:ArticleToRename diffhist +782 Registered User (Merge articles) |
N 16:56 | ProtectedTemplate:ArticleToDelete diffhist +676 Registered User (Merge articles) |
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N 11:49 | Connectivity:STM32WB0 TransparentMode 2 changes history +8,201 [Registered User (2×)] | |||
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11:49 (cur | prev) +47 Registered User (Changed categories.) | ||||
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11:48 (cur | prev) +8,154 Registered User (Created page with "{{DISPLAYTITLE:STM32WB0 Bluetooth<sup>®</sup> LE – Transparent mode}} ==Introduction== The transparent mode application is used to: *receive commands on UART RX and propagate them to the Bluetooth<sup>®</sup> Low Energy stack. *transmit events from Bluetooth<sup>®</sup>Low Energy stack on UART TX. A set of commands/events are sent though the STM32WBA UART to control the Bluetooth<sup>®</sup> Low Energy stack via the transparent mode application. Level sh...") Tag: 2017 source edit |
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N 11:30 | Connectivity:STM32CubeWB0 System Initialization 2 changes history +187 [Registered User (2×)] | |||
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11:30 (cur | prev) +47 Registered User (Changed categories.) | ||||
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11:30 (cur | prev) +140 Registered User (Created page with "{{DISPLAYTITLE:STM32CubeWB0: System Initialization}} {{UnderConstruction}} ==General Concepts== TBD. ==Interfaces== TBD. ==How to== TBD.") Tag: 2017 source edit |
N 11:23 | Connectivity:STM32CubeWB0 System Clock Manager diffhist +12,330 Registered User (Created page with "{{DISPLAYTITLE:STM32CubeWB0: System Clock Manager}} ==Introduction== The system clock manager (SCM) is the module that manages the CPU system clock source and frequency. It defines different users that can request different configurations. It determines which one suits the system and user needs best. ==Features== ===SCM users principle=== The module is based on a client request mechanism. The SCM defines (up to 32) users that can request a modification of the clock f...") |
N 11:21 | Connectivity:STM32CubeWB0 Flash management diffhist +23,006 Registered User (Created page with "{{DISPLAYTITLE:STM32CubeWB0: Flash management }} ==Introduction== Flash management proposes a simple interface to the upper layers to execute operations in flash memory. It manages synchronization between flash operations and the RF activity. Thus, users do not have to add the step of synchronizing RF timing and flash operations. ==Concepts== This chapter deals with the major concepts and features of the flash management. The flash management is a multi-layer organizati...") |
11 December 2024
N 16:24 | Security:How to adapt a user application to ROT for STM32N6 diffhist +45,129 Registered User (Start from STM32H5) |
10 December 2024
N 14:37 | Security:How to create ROT examples for STM32N6 diffhist +15,609 Registered User (Add H7RS code) |
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09:45 | Security:STM32H7 Series: Cryptographic Library Performance 2 changes history −56 [Registered User (2×)] | |||
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09:45 (cur | prev) −56 Registered User Tags: Manual revert 2017 source edit | ||||
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09:37 (cur | prev) −56 Registered User (Change from H743 to H753 target) Tag: 2017 source edit |
09:01 | Security:How to install a trusted application on STM32N6 MCUs diffhist +67 Registered User (Changed categories.) |
N 08:55 | Category:Getting started with STM32N6 security diffhist +97 Registered User (Created page with " {{Security:Security features on STM32N6 MCUs}} <noinclude> 10 </noinclude>") |
9 December 2024
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N 16:12 | Connectivity:STM32WB0 ADV Extension 2 changes history +19,344 [Registered User (2×)] | |||
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16:12 (cur | prev) +47 Registered User (Changed categories.) | ||||
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16:11 (cur | prev) +19,297 Registered User (Created page with "{{DISPLAYTITLE:STM32WB0 Bluetooth<sup>®</sup> LE – advertising extensions}} == Peer to Peer Extended Profile == The '''Peer to Peer Extended''' example referenced on this Wiki page builds upon the foundational '''Peer to Peer''' example. For enhanced comprehension, it is advisable to first review the following Wiki page : STM32WB0 Bluetooth® LE – Peer 2 Peer Applications === STM32WB0 '''Peer to Peer Server Extended''' application === The table below describes...") Tag: 2017 source edit |