越来越多的日常数字设备,包括智能手机、门锁,甚至最新的汽车,现在都使用一种称为空间感知的无线功能。具有空间感知功能的数字设备可以了解它相对于其他设备的位置,然后对这些设备的位置变化做出响应。空间感知功能使我们——这些数字设备的用户们,可以更轻松地度过每一天。

Today, we have an assortment of wireless protocols so that it might become a little confusing to check them all. On one hand, it is helping developers of wireless technology to address specific issues in design. On the other hand, it also makes identifying the right protocol a bit different task. It becomes particularly true when we have to choose between BLE (Bluetooth low-energy) and Bluetooth Classic. A person who is not a tech expert may assume BLE and Bluetooth as the same devices. However, it is crucial to know the differences, advantages, and disadvantages of all options to choose a perfect Classic or BLE gateway.

Get to know the differences between memory options and the trade-offs you need to make when working with Bluetooth Low Energy development projects.
1.Low Power Consumption
2.High cost-effectiveness and Compatibility
3.Stability, Safety and Reliability
4.Wireless coexistence
5. Connection range
6.Ease of use and integration
The BlueNRG-LP is an ultra-low power programmable Bluetooth® Low Energy wireless SoC solution. It embeds STMicroelectronics’s state-of-art 2.4 GHz RF radio IPs combining unparalleled performance with extremely long-battery lifetime. It is compliant with Bluetooth® Low Energy SIG core specification version 5.2 addressing point-to-point connectivity and Bluetooth Mesh networking and allows large-scale device networks to be established in a reliable way. The BlueNRG-LP is also suitable for 2.4 GHz proprietary radio wireless communication to address ultra-low latency applications.
Dialog Semiconductor’s First Combo Wi-Fi and BLE Module Points the Way for a New Wave of IoT Connectivity
Two-in-one module leverages the new DA16200 VirtualZero™ Wi-Fi technology with SmartBond™ TINY DA14531 Bluetooth for best-in-class battery life with ease of configurability
 
Genki Instruments’ Wave uses Nordic’s nRF52832 SoC to turn hand gestures into low latency wireless instrument control
In a passive-entry-passive-start (PEPS) automotive system using Bluetooth® Low Energy technology, drivers enter their car and start the electric motor (or engine, in the case of an internal combustion engine) using a key fob that communicates with the car’s access systems, instead of a key.
To use the RX23W Bluetooth feature, a protocol stack conforming to the Bluetooth specification is required. Also, the Bluetooth-compliant profiles and mesh software enhance your Bluetooth product interoperability in a wide application area.
Bluetooth® Low Energy Wireless Solution to Accelerate Realization of IoT of Embedded Devices.

Single chip Bluetooth® 5.0 Low Energy application controller using popular ARM Cortex M4 core with dedicated Secure Crypto Engine

 
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