SINGLE-PAIR ETHERNET: SIMPLIFYING YOUR ETHERNET CONNECTIVITY FROM SENSOR TO CLOUD

Whitepaper

With the rise of the Industrial Internet of Things (IIoT), the goal for many manufacturers is to connect all the machines, controls, actuators and sensors in their plant.

Single Pair Ethernet (SPE) has emerged as this critical bridge, making the field level smarter while ensuring consistent, reliable network communication across the entire automation pyramid. SPE is a cable design that uses a single pair of twisted copper wires to transmit data at speeds up to 1 gigabyte per second (Gbps), allowing real-time, continuous data transfer to and from the field level. It offers additional advantages including supporting cable lengths up to 1,000 meters (at 10 Mbps), minimizing space requirements and easing installation.

The following white paper takes a deep dive into this game-changing cable construction, including its features, benefits and standardization practices, empowering you to quickly and effectively use IIoT communication technology to improve your manufacturing facility.

With the rise of the connected factory, bus systems can no longer handle the large data transmission rates required by the ever increasing increasing number of sensors in production facilities. Despite the benefits of Industrial Ethernet solutions, Ethernet is not always suitable for connecting devices at the lowest field level. Cat.5 and Cat.7 cables can be too large to efficiently connect hundreds, possibly thousands, of individual sensors spread throughout production environments.

Another challenge is connection complexity. In order to bridge the communication gap between the field device level (bus) and everything above it (Ethernet), manufacturers must install translators and gateways. In addition to driving up system costs and complexity, the field work required to install this additional hardware increases the risk of installation errors.

No More Isolated Networks: SPE to the Rescue

A streamlined cable solution, SPE simplifies Ethernet connectivity from the sensors, up through the control and company levels, and then to the cloud — opening up new application areas for Industrial Ethernet. A lightweight, efficient cable design, SPE reduces the number of cores to two, enabling 1-Gb Ethernet communication over a single pair of cores. It also eliminates the need for costly gateways between Ethernet and bus networks, reducing installation work and minimizing the chance of errors. Because the cabling itself requires less space, SPE significantly reduces component costs.

In addition to high data transmission speeds via Ethernet, SPE can supply power to end devices via Power over Ethernet (PoE), a standard that specifies the power distribution method for use over a single twisted-pair link. PoE can provide 0.5 to 50 watts of power over a twisted pair to power devices like cameras, sensors, and remote input/output (I/O), and it further reduces costs by eliminating the need for additional cabling to power devices.

SPE Application Areas

By enabling continuous, long-length communication between the sensor level and cloud, as well as providing power supply via PoDL, SPE offers powerful application in many industries.

Process automation. SPE can bridge long distances in large chemical plants, where analog cables or bus networks — some with data transmission rates of just 31.25 kilobits (kbit) — are still the norm. The Ethernet Advanced Physical Layer (Ethernet-APL), an offshoot of the IEEE 802.3cg (10BASE-T1L) standard, defines additional properties for these applications, taking into account the use of SPE cabling in explosive areas.

Transportation. SPE shines in electric transportation (e-transportation) applications because of its small, lightweight form factor, reducing weight and bend radii by up to 55 and 30 percent, respectively. Compared to a cable with four wire pairs, which weighs around 4.6 kilograms (kg) per 100 m, an SPE cable weighs only 3.0 kg. Specific use cases in the transportation sector include passenger information systems, seat reservation systems, passenger counting visual (PCV) systems, and closed-circuit television (CCTV).

Building automation. SPE can be used to network sensors in fire alarm systems, light or temperature sensors, access control systems, information boards, and much more.

When it comes to the cabling, several IEC 61156 standards are in progress, including IEC 61156-11 and IEC 61156-12 for 600-megahertz (MHz) data cables in permanent and flexible installations, respectively. Others include IEC 61156-13 and IEC 61156-14 for 20-MHz data cables in permanent and flexible installations, respectively.

Regarding the SPE connectors, several IEC 63171 standards are under development. The first and only standard for connections in industrial applications that has been adopted by all major standards bodies is IEC 63171-6, which covers all versions from IP20 to IP 65/67. Published in 2020, IEC 63171-6 describes the T1 Industrial Style SPE plug-in face.

This T1 industrial connector has a very robust design, including stainless steel shield plates, and a rugged core and cable gland. The interface also features a strong, stainless steel lock to maintain a secure connection — even in harsh production environments — and a stainless steel jacket that encloses the entire connector, minimizing electromagnetic interference (EMI).

LAPP has contributed to SPE cable development with the introduction of our ETHERLINE® T1 product family, consisting of SPE cables for use in industrial machinery and plants:

• • ETHERLINE® T1 FD P is a shielded 26AWG cable for use in cable chains.
  • ETHERLINE® T1 FLEX is an 22AWG cable for occasional movement.
  • ETHERLINE® T1 P FLEX is an 18AWG cable suitable for distances up to 1,000 m.