Most developers working with Bluetooth specifications focus on the release of the core specification. That's the foundation of Bluetooth, defining the radio, the protocols that transport data over the air, and the fundamental security mechanisms. The first release, Version 1.0, was back in 1999, when the Core included everything up to the application layer, including audio. When new applications were developed, these moved out into individual application profiles, which evolved independently over time. Significant new features in the Core resulted in new prime numbers for subsequent releases. Core 2.0 introduced enhanced data rates, potentially trebling the throughput. Core 3.0, now deprecated, allowed alternate radios, such as 802.11, to achieve higher data rates. Core 4.0 introduced the biggest innovation in 2010, adding Bluetooth LE, which introduced a redesigned radio to support much lower power applications.
Ten years later, in 2020, the release of Core 5.0 started the path to enabling audio over Bluetooth LE, with key innovations appearing in the following two releases. 5.1 brought in extended advertising, which would be key to broadcast applications, and 5.2 added isochronous channels, which enable audio transfer over a Bluetooth LE radio [1].
Esta historia es de la edición February 2025 de Circuit Cellar.
Comience su prueba gratuita de Magzter GOLD de 7 días para acceder a miles de historias premium seleccionadas y a más de 9,000 revistas y periódicos.
Ya eres suscriptor ? Conectar
Esta historia es de la edición February 2025 de Circuit Cellar.
Comience su prueba gratuita de Magzter GOLD de 7 días para acceder a miles de historias premium seleccionadas y a más de 9,000 revistas y periódicos.
Ya eres suscriptor? Conectar
HSYCO Unveils New BACnet Server Driver for Enhanced Building Automation
HSYCO, a leading provider of integrated building management solutions, is excited to announce the release of its new BACnet Server driver.
Longsys Launches 7.2mm Subsize eMMC, Breaking the Physical Space Constraints of AI Wearables
In the design of wearable devices, every millimeter matters.
The Future of Voice-Enabled AI Industry Advancements in MEMS Microphones for Voice AI
Acoustic Activity Detection and High Acoustic Overload Point Transform Voice Interaction Advancements in MEMS microphones are enhancing voiceenabled AI technologies across various consumer electronics.
Exploring the RP2350 Security
Raspberry Pi's Novel \"Security through Transparency\" Approach
Learn Lisp Programming Using MCUS
Part 3—Forward Kinematics in µLisp
Pison and STMicroelectronics Announce Timex as Neural Sensor Partner, Ushering a New Era of Neurocognitive Wearables
Pison, the trailblazer in AI-powered neural sensors for neurocognitive health, wellness, and gesture control, announced it has begun licensing its innovative neural sensor to leading smartwatch and wearable brands.
Datasheet: DSPs and DSCs
Smarter Algorithms and Beyond
An Air Quality Monitor with a Blues Satellite Link Module
Brian had no sooner finished the review of Blues' LoRa Notecard when the new Starnote module was introduced. This module allows an IoT device to link to a geosynchronous satellite, for situations in which neither WiFi nor Cellular data links are operational. This article describes a project using the Starnote module.
Create an AI-Driven Smart Home Security System
Part 1- Setup and First Steps of the Raspberry Pi AI Kit
Wearable Devices Announces Availability of its Mudra Link Neural Gesture-Control Wristband
Wearable Devices, Ltd., announced the general availability of its Mudra Link, the first neural wristband for Android, macOS, and Windows devices.
