I came across this video on BLE, and it surprised me. The perspective offered is both enlightening and captivating. If you're passionate about BLE, you should check this out-there are some real gems here that might change your viewpoint.
I came across this video on Bluetooth Low Energy (BLE), and it surprised me. The perspective offered is both enlightening and captivating. If you're passionate about Bluetooth Low Energy (BLE), you should check this out-there are some real gems here that might change your viewpoint.
This is interesting! A theoretical overview of Bluetooth Low Energy (BLE) provides valuable insights into its architecture and applications. BLE's design for low-power communication makes it a cornerstone technology for IoT devices, wearable tech, and other energy-efficient applications. Its ability to connect seamlessly across devices has revolutionized real-time data transfer in industries ranging from healthcare to smart homes. For those looking to implement BLE in their projects, GAO Tek offers a comprehensive range of BLE tools and solutions that could help turn theory into practice. Definitely worth exploring!
Right, honestly, I am a hardware engineer and also would like to understand the deep therories in every functional diagram a long time. This video really inspir me a lot. thank you! I also also pricking up the Nordic nRF52840 :)
You are welcome. No, the book does not go into detail about the SMP. However, CBC-MAC and CTR are explained in more detail in the chapter about IEEE 802.15.4.
The range depends largely on the frequency used and the transceiver strength. Thus, the range of Bluetooth and Thread is quite similar. Detailed information on the range and its influencing factors are described in my book "WSN & IoT". Both BLE and Thread are designed to be able to consume little power. But it all depends very much on the individual application and the traffic generated with it. A lot of data traffic also means a significantly higher power consumption. Which is why I strongly assume that the BLE Mesh consumes more power than the Thread, since the network is flooded with messages to reach a destination.
I came across this video on BLE, and it surprised me. The perspective offered is both
enlightening and captivating. If you're passionate about BLE, you should check this out-there
are some real gems here that might change your viewpoint.
I came across this video on Bluetooth Low Energy (BLE), and it surprised me. The perspective offered is both enlightening and captivating. If you're passionate about Bluetooth Low Energy (BLE), you should check this out-there are some real gems here that might change your viewpoint.
This is interesting! A theoretical overview of Bluetooth Low Energy (BLE) provides valuable insights into its architecture and applications. BLE's design for low-power communication makes it a cornerstone technology for IoT devices, wearable tech, and other energy-efficient applications. Its ability to connect seamlessly across devices has revolutionized real-time data transfer in industries ranging from healthcare to smart homes. For those looking to implement BLE in their projects, GAO Tek offers a comprehensive range of BLE tools and solutions that could help turn theory into practice. Definitely worth exploring!
Right, honestly, I am a hardware engineer and also would like to understand the deep therories in every functional diagram a long time. This video really inspir me a lot. thank you! I also also pricking up the Nordic nRF52840 :)
I love when youtube give me this hiddens gems. Thanks for sharing
Thx for the nice feedback.
Thank you :) you are very concise!
that helps full plus can you please make series related to gatt protocol and its implementation with custom characteristics ?
Do you discuss the SMP details in your book?
Btw thank you for this great video
You are welcome. No, the book does not go into detail about the SMP. However, CBC-MAC and CTR are explained in more detail in the chapter about IEEE 802.15.4.
It's really helpful! Can you please make videos related to MCUBoot on nRF Board?
Which one provides better range, Bluetooth LE or Thread? Also may be long battery life? Or they are the same?
The range depends largely on the frequency used and the transceiver strength. Thus, the range of Bluetooth and Thread is quite similar. Detailed information on the range and its influencing factors are described in my book "WSN & IoT". Both BLE and Thread are designed to be able to consume little power. But it all depends very much on the individual application and the traffic generated with it. A lot of data traffic also means a significantly higher power consumption. Which is why I strongly assume that the BLE Mesh consumes more power than the Thread, since the network is flooded with messages to reach a destination.
Very Nice n informative video
Only discussed the host layer ignoring the controller layer😢
nice video.
Thx for the positive feedback.
😻 *promo sm*