-

IoT Gateway Antennas: Types & Signal Myths

2025-12-25

The rapid development of Internet of Things (iot) technology is gradually turning the vision of the interconnection of all things into reality. From the convenient interaction of smart homes to the intelligent collaboration of industrial production lines, from the efficient dispatching of intelligent transportation to the remote monitoring of Marine and aviation, the reach of iot has extended to every corner of social production and life. In the wireless communication link of the Internet of Things, the gateway antenna, as the core hardware for signal transmission and reception, its performance and selection directly determine the communication quality of the entire Internet of Things system and are the key to ensuring the smooth flow of data.

The diversified classification of iot gateway antennas

The types of antennas for Internet of Things (iot) gateways are rich and diverse. Antennas classified under different dimensions have significant differences in performance and applicable scenarios, which can meet the communication requirements of various iot scenarios.

Classified by frequency: Adapted to different transmission distance and rate requirements

The operating frequency of an antenna is one of its core parameters. Antennas of different frequency bands correspond to differentiated communication capabilities.

Sub-1G Frequency band antenna，Common frequencies include 315MHz, 433MHz, etc. The prominent advantages of this type of antenna are low propagation loss and strong diffraction ability. Even in complex occluded environments, it can achieve long-distance signal transmission. However, its data transmission rate is relatively limited. Therefore, it is particularly suitable for scenarios such as smart meter reading, which have high requirements for communication distance and no excessive demand for transmission rate. It can automatically report the data of water meters and electricity meters, significantly reducing the labor cost of manual meter reading.
Sub-6G Frequency band antenna，Covering frequencies such as 800M and 2100MHz, it takes into account both transmission distance and rate, and can provide a high data transmission bandwidth. It is often applied in the fields of smart wearable devices and industrial Internet of Things. For instance, smartwatches can synchronize data with mobile phones through antennas in this frequency band, and industrial equipment can also rely on it to complete the real-time transmission of production data, facilitating precise control of production lines.
High-frequency antennas of 12G or above，It mainly serves special scenarios such as satellite communication, featuring a wide coverage and large communication capacity, and can meet global communication demands such as Marine environment monitoring and aviation long-distance communication. The 28GHz and 60GHz millimeter band antennas in the 5G frequency band can also provide ultra-high transmission rates, offering technical support for innovative 5G Internet of Things applications such as high-definition video transmission and virtual reality.

By appearance: Balance performance and equipment integration requirements

In terms of appearance, iot gateway antennas can be divided into two major categories: external and internal. Both have their own emphases in installation methods and applicable scenarios. External antennas include rubber rod antennas, vehicle-mounted antennas, shark antennas, etc. These antennas are installed outside the equipment and are not blocked by the equipment shell. They have strong signal transmission and reception capabilities and good directionality. Vehicle-mounted antennas can provide stable communication support for the navigation and entertainment systems of vehicles. Shark antennas, with their superior performance, are widely used in high-end automobiles and unmanned aerial vehicle equipment. The built-in antennas are mainly PCB wired antennas and FPC antennas. They are integrated inside the device and have the advantages of small size, light weight and easy integration, which perfectly conforms to the development trend of miniaturization of electronic devices. Smartphones, for instance, generally adopt built-in antenna designs, which not only do not damage the overall appearance of the device but also meet the basic needs of daily communication. Nowadays, the application proportion of built-in antennas in various small smart terminals is continuously increasing.

By communication protocol: Match different iot connection scenarios

Different wireless communication protocols require dedicated antennas to achieve the best performance, which also constitutes another important classification dimension of antennas. WiFi antennas are the "standard equipment" for smart devices in home and office scenarios, enabling high-speed connections between devices and wireless local area networks. BLE antennas, or Bluetooth Low Energy antennas, have become an ideal choice for short-range communication in smart wearables and smart homes due to their low power consumption and low cost. Zigbee antennas are suitable for short-range scenarios with low rates and low power consumption, and are often used for networking devices such as smart lighting and smart door locks. In addition, LoRa antennas, with their advantages of long distance and low power consumption, have played a significant role in scenarios such as smart agricultural environment monitoring and field data collection. The dedicated antennas for 2G/3G/4G, 5G NR, NB, GPS, etc. have respectively met the personalized demands of different mobile communication and positioning scenarios.

The number of antennas does not equal signal quality: Get out of the cognitive misunderstandings in selection

In the process of selecting iot gateways, especially industrial routers, many people have the misconception that "the more antennas there are, the better the signal", but the actual situation is not like this.

The quality of the signal is the result of the combined effect of multiple factors, and the performance of the antenna is the core influencing factor. If the performance of the antenna itself is insufficient, no matter how many are piled up, it is impossible to effectively improve the signal quality. At the same time, the antenna layout is also of vital importance. If multiple antennas are too close to each other, it is very likely to cause mutual interference of signals, which will instead reduce the overall communication effect. In addition, the transmission power of the equipment and the interference from the surrounding environment will also have a significant impact on the signal quality. Insufficient transmission power will directly limit the transmission distance of the signal, and the electromagnetic interference generated by surrounding devices such as microwave ovens and cordless phones will also seriously interfere with the stability of the gateway signal.

Therefore, when enterprises purchase industrial routers and other Internet of Things (iot) gateway devices, they should not take the number of antennas as the core evaluation criterion. Instead, they should comprehensively consider antenna performance, layout design, equipment transmission power, and the actual usage environment. Only in this way can they select high-quality equipment that is suitable for the industrial iot system and ensure the stable operation of the entire system.

As the "signal bridge" of iot communication, the diversity of classification and the scientific selection of iot gateway antennas are the keys to promoting the implementation of iot applications. With the continuous iteration of Internet of Things (iot) technology, antenna technology will also develop in a more efficient, integrated and intelligent direction, laying a solid communication foundation for a digital world where everything is interconnected.