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Cellular Video PC

Cellular Networks

—Stay Connected Anytime, 任何地方.
Cellular Video Mobile

Cellular Networks

—Stay Connected Anytime, 任何地方.

Why cellular technology?

Cellular technology is a preferred choice in the IoT industry due to its global geographic coverage and seamless mobility support for connected devices. Industry analysis reveals that cellular IoT connections surpassed 4 billion by the end of 2024, representing approximately 22% of global IoT connections. The cellular IoT market is projected to grow from 7.63 十亿 2025 到 21.66 十亿 2030. The cellular IoT market is growing at 23.21% CAGR (2025–2030), driven by smart cities and Industry 4.0 adoption.While cellular networks greatly enhance device mobility, 这 differences among specific technologies (like LTE-M, LTE Cat.1, 和窄带物联网) mean that each excels in particular scenarios. Choosing the right one depends on project needs, balancing coverage, 电源效率, and data requirements.

Technical Benefits

Global Coverage

全球的
覆盖范围

Cellular technology operates on licensed spectrum and utilizes existing mobile infrastructure, enabling ubiquitous connectivity across urban and rural areas in over 190 countries.
Seamless Connectivity

Seamless
连接性

Supports smooth transitions of cellular devices across different regions, allowing them to stay connected anytime, 任何地方.
Maximum Resource Utilization

Maximum
Resource Utilization

By using frequency reuse technology, cellular networks support more device connections within limited spectrum resources.
HHigh Security

高的
安全

With encryption and authentication technologies, cellular networks offer robust security for voice communication and data transmission.

Cellular IoT Technologies Overview

LTE Cat.1 LTE-M 窄带物联网 5G mMTC
带宽 1 Mbps 1 Mbps 10-250 KBPS 最多 1 Mbps
功耗 更高 Lower Ultra-low Ultra-low
覆盖范围 Wide coverage Wide coverage Deep indoor/underground Wide-area 5G coverage
Mobility Support
延迟 50-100 多发性硬化症 50-100 多发性硬化症 >1s Milliseconds-level
使用案例 Smart cities, 工业物联网 可穿戴设备, 资产追踪 Smart metering, 环境监测 Large-scale networks, 自动驾驶, AR/VR
成本 中等的 低的 Ultra-low 高的

Development of Cellular Technology

How Does Cellular Work?

  • Division into Cells
  • Wireless Communication
  • Switching and Handover
  • Core Network
The coverage area is divided into small regions called “细胞,” each served by a cell tower or base station. These cells ensure efficient frequency reuse and reduce interference.
Cellular devices communicate with the nearest cell tower using radio waves. The cell tower acts as a relay, connecting the device to the broader cellular network.
As the device moves, it switches between cell towers seamlessly (handover) to maintain uninterrupted connectivity.
The cell tower connects to the core network, which routes calls, 消息, and data between devices (or users) and external networks like the internet.

Cellular IoT Devices

MWC03

Bluetooth LTE smart badge with GNSS and Bluetooth positioning. Supports RFID access control, real-time cellular uploads, staff tracking, and gateway-free deployment.
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MG5

Mobile LTE gateway with Bluetooth, LTE-M, 窄带物联网, and GPS. Enables real-time supply chain insights, power-saving auto-switching, and multi-power options.
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MG6

Stellar gateway with 600m coverage, rapid tag scanning, and real-time monitoring. Supports WiFi, 以太网, 4G, and auto-network switching.
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MG6 LoraWAN

Combines Bluetooth and LoRaWAN for indoor tracking. Features AI-driven optimization, 边缘计算, AES-128加密, and modular, low-power design.
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LG1

LoRaWAN gateway with three-floor penetration, bidirectional IoT data, and eight-channel reception. Supports Ethernet, 无线上网, 4G, and embedded or external network servers.
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应用领域

Worker Safety

Smart badges send alerts to the system when workers approach hazardous areas, such as deep pits or high-risk equipment zones, to help prevent accidents.
Worker Safety

Campus Safety

Use cellular-enabled smart badges to track studentslocations and ensure safety in school. With emergency alert buttons, students can send distress signals with their location during incidents, prompting immediate action by staff and parents.
Campus Safety

Logistics Tracking

In global logistics networks, cellular IoT tags are attached to goods to provide real-time location updates, ensuring shipments reach their destinations as planned.
Logistics Tracking

车队管理

Equip vehicles with cellular tracking devices to monitor each vehicle’s location, route, and status in real time. Optimizing route planning helps cut fuel costs and reduce transportation time.
车队管理

常问问题 - 常见问题解答

  • Is cellular better than Wi-Fi for IoT ?

    Cellular IoT offers better coverage, mobility, and reliability for large-scale deployments, while Wi-Fi is more suitable for short-range, high-bandwidth applications.

  • What is the range of cellular IoT ?

    Cellular IoT can cover kilometers, with NB-IoT reaching up to 10-15 km in urban areas and even farther in rural settings.

  • What are the Common Cellular IoT Standards ?

    Key standards include LTE-M, 窄带物联网, and 5G IoT, providing various levels of speed, 电源效率, and coverage.

  • What is cellular IoT divided into ?

    Cellular IoT is divided into LTE (for higher data rates and broader coverage) 和窄带物联网 (for low-power, wide-area applications with lower data needs). Both enable IoT devices to connect via cellular networks but cater to different use cases based on data speed and energy efficiency.

  • What is the future of cellular IoT ?

    The future includes 5G expansion, 边缘计算, and hybrid IoT networks to enhance speed, 安全, and scalability for smarter connectivity worldwide.

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