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Telink Mesh – Telink wiki
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Introduction
Resources
Demo
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Telink Mesh
Bluetooth® LE Telink Mesh
Conetents
Introduction
The TLSR8 series (TLSR825x/826x/827x) support Telink proprietary Bluetooth® Mesh, and they are covered in the same Telink mesh SDK. Telink Mesh is a proprietary mesh solution based on Bluetooth® LE technology, it can be used for various smart home and smart control applications such as lighting, sensors, controls, and switch.
Resources
Demo
Material List
The typical Telink Bluetooth® Mesh Development Kit includes:
Multiple USB dongles for emulating mesh nodes or gateways
Remote control PCBA for emulating remote controller, wall switch, and also for demonstrating group controls
Telink Burning Board
PC installed with
TELINK BDT tool
SIG Mesh Tool for controlling mesh nodes (included in the SIG Mesh SDK.zip, \tools)
Mobile installed with
Reference Android or iOS APPs (included in the SIG Mesh SDK.zip, \app)
Features
The Telink Mesh demo uses lighting application as an example to demonstrate the mesh functionalities and is presented in 4 different ways:
Node Control by APP with OTA
Node Control by Gateway
Node Control by Remote
Node Control by Master Dongle
Quick Start
Configuring the Starter Kit
Demo required bin files are included in the “SDK and Tools” download firmware folder release zip.
For further info, please refer to the Developer Handbook for Telink Mesh SDK.
Node Control by APP with OTA
In this demo, two 8267 dongles are used to emulate light bulb node. Bin file is generated by “light_8267” project with “light_8267” compile option as indicated in following diagram.
Launch Telink “MeshDemo” app as shown in following page. The two blue colored light bulbs indicate the two demo dongle connecting with an iPhone in this example. Tapping the icon would toggle light on/off.
Holding bulb icon enters following control panel. Brightness and color temperature can be adjusted. Group assignment can be “Add” or “Remove”. Each node can even be “KickOut” of the mesh network connecting with APP. OTA can also be executed by selecting “OTA” on upper right corner.
Node Control by Gateway
Node control by gateway demo requires 3 pieces of HW as shown below: 2 pieces of light bulb and 1 piece of gateway dongle,all by 8267.
8267 gateway dongle in this example is programmed by using “light_gateway” project in SDK and “light_gateway_8267” compile option; and light bulb bin is the same as in APP demo. After being programmed, gateway dongle must be plugged in USB port of PC and light bulbs can be powered by any USB port. The light bulbs, if has been provisioned previously, need to reset by having 3 short power cycling (on/off each 1s) followed by 2 long power cycling (on/off each 3-5s). Successful reset would trigger 3 blinks.
Now launch “tl_ble_phone_mesh2” tool under tools/telink-ble-phone/ dir. Click off “secuirity” check box. Then click on “Scan” followed by “Connect” to gateway itself labelled with “telink_mesh1”. Make sure the mesh network name is now “telink_mesh1”. Using “All_on” and “All_off” command on left pane would turn on/off the lights respectively.
Now continue clicking on “Mesh” button. This will bring out the light control UI as shown below. Click on “Online Status”, light bulbs is listed in the “Mesh” pane on left side of the window with corresponding MAC address in blue rectangular, top one in black is gateway. By clicking on and highlight a specific light node, this particular light can be assigned to desired group by checking on green area. Once group assignment is done, each group can be turned off/on by itself.
Node Control by Remote
Continuing with the setup from “Node control with Gateway”, a 8269 remote as shown below is programmed by “light_switch” project in SDK using “light_switch_8269” compile option. Button A and B would turn all 2 lighting dongles on and off, respectively.
Node Control by Master Dongle
Now program the gateway dongle into master dongle using “ble_master” project in SDK and “ble_master_dongle_8267_69” compile option.
When launching PC tool, “security” box needs to be checked as shown below. Now “Scan” and “Connect” to the lighting node, and click “Login”. Lighting control and group assignment is the same as gateway demo.
“Network Name” can be changed followed by “Set”, 2 lighting nodes in this example needs to be done one by one.
Online Purchase
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Bluetooth® Mesh and Local Voice: A Perfect Pair for Lighting
Combining the scalability and power efficiency of Bluetooth® Mesh with the convenience of local voice makes for an industry-leading lighting solution that shines like no other.
Over the last decade, voice technology has found its way into multiple facets of everyday life, creating convenience for many consumers. We see it used heavily in hearables, wearables, remote controls, in-vehicle infotainment systems, and smart homes. According to research from NPR, 54 percent of adults in the United States have used voice commands at some point, including 24 percent who use them daily. From Siri to Alexa to Google Home, voice technology is continuing to bridge the gap between consumers and their devices — especially in their homes.
Within the smart home space, smart lighting represents a particularly strong use case for voice technology. The global smart lighting market is expected to see a compound annual growth rate of 20 percent between 2019 and 2024, at which point it will be valued at around $23.6 billion. And while smart lighting already has come a long way in recent years, it can go even further when combined with voice technology.
By utilizing versatile networking topologies like Bluetooth® Mesh, today’s (and tomorrow’s) smart lighting systems can offer consumers touchless control over their environments and even automated self-operation based on the status of different nodes within the mesh network.
Mesh Networking for Smart Lighting Systems
Mesh networking provides an efficient system for tens, hundreds, or even thousands of devices to communicate with each other. Made up of nodes that act as both transmitters and repeaters, a mesh network facilitates a resilient, seamless flow of data — even if one or two nodes fail, data can be rerouted along any number of alternative paths to ensure successful command execution.
While most consumers are familiar with one-to-one Bluetooth connections — in other words, direct communication between a user endpoint (e.g., a smartphone) and a particular device (e.g., a speaker) — Bluetooth Mesh allows for multi-node communication (e.g., an entire lighting system). The distributed control Bluetooth Mesh delivers gives users the ability to control both individual smart lights and clusters of smart lights via a single authorized smartphone — or a similar control panel — that is connected to the same mesh network as the lights.
The Bluetooth LE standard brings tremendous power efficiency to the scalability of the Bluetooth Mesh networking topology, creating a solid communications framework that allows for optimal control and monitoring of smart home ecosystems. Many smart device operating systems support Bluetooth LE out of the box, empowering consumers to build their own low-energy mesh networks with the devices they have already purchased — no need to invest in additional routers or network gateways. Devices can be added or removed from these networks without disruption or reprogramming, making Bluetooth Mesh networking an ideal fit for sprawling, multi-node IoT applications like smart lighting systems.
Bringing Voice Capabilities to Smart Lighting
Initially, voice technology involved a roundabout way of activating a particular device. Users would have to push and hold a button before speaking their commands, which would then be transmitted to the cloud for processing before being sent back to the device via a local gateway.
While generally effective, this process often resulted in slow processing speeds, impacting overall user experience. However, recent technological developments have paved the way for smart home devices — including smart lighting systems — that feature always-on local voice capabilities.
Rather than waiting to receive audio data after a user pushes a button, a device equipped with always-on local voice capabilities remains on in a passive state waiting for a designated wake phrase (also called a trigger word). Upon registering the wake phrase, it will be ready to receive and process additional commands — in the case of a smart lighting system, a command like, “Turn on the lights.” Instead of making the round trip to the backend cloud, local voice capabilities allow for an instant response. This also strengthens privacy protections. Both of these benefits are critical to improving overall user experience.
The video below provides a demonstration of how this works when several lighting fixtures are integrated into a Bluetooth Mesh network:
Uniting the Power of Bluetooth® Mesh Networking and Local Voice
As illustrated in the video above, Telink’s TLSR9 series lays the groundwork for easy-to-use, feature-rich smart lighting systems. The TLSR9 series integrates a powerful 32-bit RISC-V MCU with features like local keyword spotting (KWS) and command recognition and advanced acoustic algorithms — all of which contribute to a powerful voice-enabled lighting solution.
The TLSR9 series also delivers excellent interoperability, as it can join a Bluetooth Mesh network composed of devices that are based on TLSR8 series products. With one node programmed to support voice recognition and all others set to act as ordinary Bluetooth Mesh nodes, a user can turn on/off multiple lights simultaneously or each light individually with a simple voice command. Ultimately, the TLSR9 series provides IoT innovators with the hardware they need to take smart home systems to the next level by bringing together robust Bluetooth Mesh networking with convenient always-on local voice.
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