Antenna Cables for IoT Wireless Technologies: RF Connectors and Coax Types

IoT Wireless: Antenna Connectors & Cables

IoT devices employ a variety of wireless connectivity technologies, each with its own requirements for antenna cables and RF connectors. Here are some of the most common IoT wireless connectivity technologies and the associated RF cable assembly components:

Wireless Technology Typical Cable Assembly Coax Types
Wi-Fi (802.11) RP-SMA to U.FL 1.131.37, RG-174
Bluetooth RP-SMA to U.FL
1.13, 1.37, RG-174
LTE, LTE-m SMA to U.FLSMA to MHF4 0.83, 1.13, 1.37, RG-174
LMR-100, LMR-200, LMR-400
Zigbee MMCX to SMAMMCX to RP-SMA LMR-100 or equivalent

1. Wi-Fi (802.11)

Wi-Fi is a widely used wireless technology for IoT devices, especially in homes and businesses.  Wi-Fi antennas operate in the 2.4 GHz and 5 GHz frequency bands. 

2. Bluetooth

Bluetooth is commonly used for short-range IoT connections, such as those between smartphones and smart speakers. RF connectors like MMCX and U.FL are often used in Bluetooth applications, and thin coaxial cables like RG-178 are suitable for antenna connections.

3. Zigbee

Zigbee is a low-power, short-range wireless technology used in many IoT applications like home or  industrial automation and control. MCX and MMCX connectors, along with flexible coaxial cables like  RG-174 and RG-316, are suitable for Zigbee devices.

4. LoRaWAN

Long Range Wide Area Network (LoRaWAN) is ideal for low-power, long-range IoT applications. N-type connectors and thicker coaxial cables like LMR-400 are commonly used for  LoRaWAN antennas and installations due to their ability to handle higher power levels and longer distances.

5. Cellular (3G/4G/5G)

Cellular connectivity is used in IoT devices that require wide-area coverage. N-type connectors are common for cellular applications, and low-loss cables like LMR-400 or even rigid coaxial cables like Heliax are used to minimize signal loss over longer distances.

SMA, RP-SMA, U.FL, MHF4, MMCX, and N-type Connectors

The burgeoning Internet of Things (IoT) ecosystem, characterized by countless devices intercommunicating, leans heavily on effective and efficient connectivity solutions. Antenna cables, central to this, bridge the gap between devices and their communication infrastructures. Among the maze of connectors, six types stand out:  SMARP-SMAU.FLMHF4MMCX, and N-type. This section delves into their distinctive features and their aptness for specific IoT applications.

1. SMA (SubMiniature version A) Connector

Characteristics: Renowned for its high durability and performance, the SMA connector typically handles frequencies up to 18 GHz. IoT Suitability: Given its reliability, SMA is commonly employed in high-frequency IoT applications, such as IoT modules, routers, and precision lab equipment. Antenna Cable Assemblies:  LMR-100, LMR-200, RG58, RG174, LMR-195.

2. RP-SMA (Reverse Polarity SMA) Connector

Characteristics: Almost a mirror image of SMA but with reversed polarity, designed to avert unauthorized antenna attachments. IoT Suitability: Predominantly found in consumer-grade Wi-Fi equipment, RP-SMA ensures users remain compliant with regulatory standards. This makes it apt for household IoT devices and wireless access points. Applicable coax types: LMR-100, LMR-200, RG58, RG316.

3. U.FL (Ultra Miniature Coax Connectors) & MHF4

Characteristics: Ultra-compact connectors crafted for internal device integrations. IoT Suitability: Devices requiring internal RF connections, such as wearables, smartphone internals, and laptop Wi-Fi cards, rely heavily on U.FL and MHF4 due to space constraints. Applicable coax types : 1.13mm, 1.32, 1.37mm diameter coaxial cables, as well as RG-174 and RG-178.

4. MMCX (Micro-Miniature Coaxial) Connector

Characteristics: Striking a balance between size and performance, MMCX connectors are small with a snap-on interface. IoT Suitability: Being versatile, MMCX fits a variety of IoT devices, especially those demanding compactness without compromising on performance. Think  GPS antennas and certain wireless communication modules. Applicable coax types: LMR-100, RG-178, 1.13, 1.32, 1.37.

5. N-type Connector

Characteristics: Their nickel-plated brass body makes them robust and built to withstand adverse conditions. Therefore, N-type connectors are the primary connector type for  outdoor weatherproof applications that will be exposed to external factors. They function efficiently up to 11 GHz. IoT Suitability: Ideal for applications that demand durability in challenging environments. Thus, they're in outdoor setups like weather stations,  industrial IoT systems, and satellite installations. Used with coax types LMR-100, LMR-200, LMR-400.

Selecting the Right Antenna Cable and RF Connector for Your IoT Application

  • Consumer IoT Applications: Given the regulatory framework and user-friendly designs, RP-SMA is often the go-to connector.
  • Wearables & Compact Devices: Miniaturization is the key, making U.FL and MHF4 top contenders.
  • Industrial & outdoor IoT: Due to the need for sturdiness and consistent performance, N-type connectors shine brightly.
  • Flexible & Diverse Applications: MMCX’s versatility comes into play here, catering to a wide array of devices

The Internet of Things (IoT) is growing exponentially, with billions of devices connected worldwide. Each device needs to communicate reliably and efficiently. The  antenna system, comprising the antenna, cable, and RF connector, is a critical component in this communication chain. A wrong choice could degrade system performance, leading to dropped connections and reduced data throughput. This article offers guidance on selecting the right antenna cable and RF connector for IoT applications.

1. Understand Your Application Requirements

Before diving into the technicalities, understand the application:

  • Frequency Band: Different IoT devices operate on various frequency bands. The chosen cable and connector must have good performance in the intended band.
  • Installation Environment: Conditions such as moisture, temperature, and UV exposure can affect the longevity and performance of cables and connectors. Choose materials designed for the specific environment.
  • Mechanical Requirements: Consider factors like cable flexibility, bend radius, and the mechanical stress the system will undergo during its lifespan.

2. Antenna Cable Selection

2.1. Attenuation

Attenuation is the loss of signal strength as it travels through the cable. For IoT applications, it's essential to minimize this loss.

  • Cable Type: Low-loss cables like LMR-400 or RG-58 offer reduced attenuation and are suitable for longer runs. The specific cable choice depends on the frequency and desired cable length.
  • Cable Length: Shorter cables mean less attenuation. It's beneficial to place the antenna as close to the device as possible.

2.2. Shielding

Good Shielding prevents external interference and reduces signal leakage. Double or even triple-shielded cables provide improved performance in RF noisy environments.

2.3. Durability and Flexibility

If your application involves regular movement, choose cables that offer good flexibility without sacrificing performance. Additionally, for outdoor door or harsh environments, opt for cables with UV-resistant and water-resistant properties.

3. RF Connector Selection

3.1. Connector Type

There are numerous RF connectors available: SMA, RP-SMA, BNC, N-type, and more. The choice depends on:

  • Frequency: Some connectors are optimized for specific frequency ranges. For instance, N-type connectors work well for applications up to 11 GHz.
  • Device Compatibility: Ensure the connector matches the port on the IoT device and the antenna.

3.2. Impedance Matching

For optimal performance, the connector's Impedance should match that of the cable and the device. The standard Impedance for most IoT applications is 50 ohms.

3.3. Durability

If your connector will be plugged and unplugged frequently, consider its durability. SMA connectors, for example, are rated for up to 500 matings.

3.4. Gender and Polarity

Ensure you select the right gender (male/female) and polarity (standard/reverse) for your connectors. This is especially important for connectors like RP-SMA, where the gender and polarity can be confusing.


Selecting the right antenna cable and RF connector is crucial for the reliability and efficiency of IoT devices. By considering the application requirements and understanding the nuances of cables and connectors, designers and engineers can make informed choices that optimize system performance. In the rapidly expanding world of IoT, even small optimizations can lead to substantial improvements in overall system functionality and user satisfaction.

Posted by George Hardesty on 28th Sep 2023

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