LoRa technology is widely used in many fields due to its low power consumption, long distance and high anti-interference ability. By understanding and applying LoRa modules of different frequency bands, we can better meet the communication needs in various scenarios and promote the development of Internet of Things technology.

In the wave of the Internet of Things (IoT), LoRa (Long Range) technology has emerged as a leading choice for many applications, thanks to its long-range communication, low power consumption, and cost efficiency. But how exactly does LoRa transmit data through the air? Let’s uncover the mystery behind this innovative technology.

In the field of low-power wide area networks, the LoRaWAN communication protocol based on LoRa technology has been widely used. In order to meet customers' more diverse networking needs and apply to a wider range of applications, new networking solutions have been born, such as FMS LoRa networking solutions and LoRa Mesh networking.

The LoRa Distributed IO system is based on LoRa wireless communication technology and enables a networked system for remote data collection and device control through LoRa gateways and sensor modules.

The Ebyte EWM226-xxxT22S series is a compact, high-speed, transceiver LoRa wireless data transmission module designed for lawn mower applications.

In the wave of the Internet of Things (IoT), LoRa (Long Range) technology has become a leader due to its long-range communication capabilities, low power consumption, and cost-effectiveness. But how is LoRa data transmitted through the air? Let’s uncover the details.

​In the field of Internet of Things (IoT), LoRa (Long Range Radio) technology has attracted much attention due to its low power consumption and long-distance communication capabilities. LoRaWAN (LoRa Wide Area Network) as its network protocol provides an effective solution for communication between devices. This article will explore the LoRa network architecture in depth to help you optimize IoT communication.

LoRa (Long Range) spread spectrum technology is a modulation technology used for wireless communications and is mainly used in Internet of Things (IoT) devices. Its core advantage is its ability to achieve long-distance transmission with low power consumption, which makes LoRa popular in application scenarios that require remote monitoring and data collection. Spread spectrum principle

With the rapid development of the Internet of Things (IoT) today, wireless communication technology has become the core of many applications. LoRa technology​ has gradually become a popular choice for designing wireless communication systems due to its unique advantages. The introduction of LoRa Radio Module has greatly simplified wireless design. This article will explore the specific reasons.

​LoRaWAN module is a hardware device that integrates components such as a LoRa modem, a microcontroller, and a radio frequency front end to implement LoRaWAN communication functions. These modules are usually provided by hardware manufacturers and tend to be compatible with the LoRaWAN protocol.

System-on-Chip (SoC) designs have revolutionized the electronics industry by integrating multiple functions into a single chip. One of the critical components in modern SoCs is the wireless transceiver module, which enables various wireless communication protocols, including Bluetooth, Wi-Fi, and LoRa. These modules are pivotal for IoT devices, consumer electronics, and communication systems, providing seamless connectivity and data exchange.

LoRa is a wireless communication technology for long-distance, low-power consumption, and low-cost, especially suitable for Internet of Things (IoT) and remote sensor applications. Its flexibility and scalability give it broad potential in a variety of applications.

LoRa (Long Range) is a low-power wide area network (LPWAN) technology designed for long-range, low-power Internet of Things (IoT) applications. It supports long-distance wireless communication at low data rates and is suitable for various IoT applications. This article will discuss the application cases of LoRa modules in detail, including its practical applications in smart cities, agricultural monitoring, environmental monitoring and other fields.

This article aims to introduce the principles and application scenarios of EBYTE's LoRa edge gateway, and teach you how to use this device to control the edge of the Internet of Things. First of all, we need to introduce several concepts, namely the concept of EBYTE's edge gateway (E870 series), and the concepts of LoRa and LoRa gateway, to help you understand what this device is for and what role it can play in the Internet of Things.

LoRa (Long Range) wireless technology is a low-power wide area network (LPWAN) technology for communication of remote devices. It is designed to achieve wide-area coverage and low-power wireless communication, especially for Internet of Things (IoT) applications. The following are the communication principles of LoRa wireless technology and its advantages and disadvantages: