LoRa BLE modules find applications in various domains, including:

l Asset tracking and monitoring: Tracking the location and status of assets in real-time.

l Smart agriculture: Collecting data from sensors in agricultural fields for crop monitoring and irrigation control.

l Smart cities: Monitoring and controlling various aspects of a city, such as parking, waste management, and environmental monitoring.

l Industrial IoT: Connecting and monitoring sensors and devices in industrial environments for predictive maintenance and process optimization.

l Healthcare: Enabling remote patient monitoring and tracking medical equipment.

Using a LoRa BLE module offers the following advantages:

l Long-range communication capability provided by LoRa technology.

l Short-range connectivity and compatibility with BLE-enabled devices.

l Low-power consumption, which is beneficial for battery-operated devices.

l Flexibility in communication options, allowing devices to communicate over both long and short ranges.

LoRa BLE module is a wireless module that combines both LoRa and BLE functionalities into a single device. It allows devices to communicate using both LoRa for long-range communication and BLE for short-range communication, providing flexibility in connectivity options.

The key length ranges from 7 to 16 bytes.

After sending the previous command for 20m, then you send the data "+++" without carriage return.That is, you can exit the pass-through mode.

BLE Mesh: A networking protocol built on Bluetooth Low Energy technology for creating mesh networks among IoT devices.

Thread: A low-power wireless mesh networking protocol designed for smart home and IoT applications.

matter (formerly Project CHIP): An industry collaboration initiative aiming to establish a unified standard for smart home devices, utilizing protocols like Thread and Wi-Fi.

In summary, BLE Mesh is a protocol for Bluetooth Low Energy mesh networking, Thread is a wireless mesh protocol for IoT applications, and matter is an initiative to create a standardized connectivity framework for smart home devices, utilizing protocols such as Thread and Wi-Fi.

The FiRa Alliance is formed by HID Global, NXP, Samsung, Bosch, Sony, LitePoint, TTA, and other companies, with the aim of leveraging Ultra-Wideband (UWB) technology to enable seamless user experiences. The FiRa Alliance (fine ranging) establishes an interoperable UWB ecosystem across chipsets, devices, and infrastructure services by defining standards and certifications. The name "FiRa" stands for "fine ranging," representing precise distance measurement.

Interval Max * (Slave Latency + 1) <=2s

Interval Min >=20ms

Interval Min + 20 ms <= Interval Max

Slave Latency <= 4

SupervisionTimeout <= 6 s

Interval Max * ( Slave Latency + 1) * 3 < SupervisionTimeout