How to Select the Correct Data Cable for Your Industrial Application

June 25, 2024

In this article, you will learn what the most common mistakes are when selecting Industrial Ethernet and bus cables and how to avoid them.

All cables and wires that contribute to communication in any way are commonly referred to as data cables.

However, there are significant differences such as the multitude of structures including copper and fiber optics, for example. Copper data cables come in many different types: low-frequency, coaxial, telephone, and bus cables, diverse Ethernet systems, or microwave cables for special applications that require gigahertz transmission rates. Selecting the wrong cable can quickly lead to costly disruptions and errors.

In general, data cables are low-capacity cables. This means that there is as little electrical energy accumulated in the cable as possible when transferring data due to the negative impact it has on signal quality. The capacity is partially dependent on the cable’s insulation material. Modern bus and Ethernet cables primarily use materials such as polyethylene (PE) or polypropylene (PP), which provide especially good insulation due to their dielectric constants (εr). The lower this value is, the better the material is at insulating, and the lower the capacity of the cable. This is why thinner insulation can be used when the same dielectric strength is required.

A Comparison of Cable Insulation Materials

MaterialVDE LabelDielectric ConstantHalogen Free
PVCY3.6-6No
PVC +90°CYw4-6.5No
PE2Y2.3Yes
PE foam02Y1.6-1.8Yes
PP9Y2.3-2.4Yes
PP foam 1.6-1.8Yes
PUR11Y4-7Yes*
FEP6Y2.1No
*Dependent on the flame retardants used

Pristine data transmission is achieved through the correct cable construction. A solid wire, which is perfectly round and has a uniform diameter, offers the best electrical performance. For Industrial Ethernet and bus cables, construction according to the American Wire Guage (AWG) is preferred since this flexible construction results in a round conductor. Metric cables are not suitable for this application since they have a bunched construction and are not round. This results in variable capacities which heavily impair high-frequency data transmission.

Common Errors When Selecting Industrial Ethernet and Bus Data Cables

1. Low-Frequency Cables for High-Frequency Applications

Selecting low-frequency cables for high-frequency Ethernet connections is a common cause of malfunctions in data transmission. These cables are also low-capacity but exhibit a different characteristic impedance from what is required by the Ethernet standard. This results in a mismatch or discontinuity. In low-frequency data cables, all pairs are laid in parallel strands. This means that all four lay lengths are the same. Ethernet cables used in high-frequency applications must also be optimally decoupled. This is achieved by using four different lay lengths, which are individually measured. The positions of the twisted pairs within the overall construction must also be taken into account.

How to Select the Correct Data Cable for Your Industrial Application
2. Classic Pair Stranding Instead of a Star Quad

Many industrial communications standards, such as PROFINET, EtherCAT, or SERCOS III, use cables with two twisted pairs, which are twisted into what is called a star quad, for data transmission. Here, all four conductors are stranded in a perfectly round shape. The benefit of this is that it leads to no differences in transit time. This differs from the classic pair stranding, where the individual twisted pairs must have two different stranded lay lengths due to the required decoupling. If the incorrect twisted-pair cable is used, it could lead to problems with transmission and transit times.

2 Pairs
How to Select the Correct Data Cable for Your Industrial Application
  • 4 x Conductor diameter
  • 3 x Stranding
  • Pairs according to illustration
  • Straight forward
  • Different signal transit times
Star Quad
How to Select the Correct Data Cable for Your Industrial Application
  • 2.4 Conductor diameter
  • 1 x Stranding
  • Diagonal conductors create the electrical pair: white/blue and orange/yellow
  • Identical signal transit times

In star quads, the conductors that are diagonally opposite from each other form the electrical pair. If this rule is ignored when connecting the cable, the characteristic impedance and the near-end crosstalk (NEXT) of the cable are changed, which may reduce the transmission quality, as well. Even shielded, four-conductor sensor cables are not suited for use as high-frequency Industrial Ethernet or bus cables, despite their construction appearing comparable at first glance. The difference is that the conductor insulation strength is not intended for Ethernet, and the stranding is not perfectly round in construction. This results in an inadequately functioning cable due to unsuitable characteristic impedance, NEXT and cable attenuation.

3. Too Long of Cable or Too Small of Diameter

Another classic example is cable segments that are too long. According to the Ethernet standard, the maximum cable length before a repeater must be used is 100 meters. This device receives the weak signal and transmits it again at full strength. In practice, segments with lengths longer than 100 meters can be found, however, these are not in compliance with the applicable standards. In these cases, rising temperatures, aging and other factors could quickly lead to defects or failures. Thinner cables with AWG 26 diameters are limited to 60 – 70 meters. It is important to remember that every connector is a joint that causes loss via attenuation and reflection, which reduces the range.

4. Incorrect Connector

It is a common occurrence that non-standard and untested connectors are used in Ethernet applications, such as D-Sub or M12 plugs, which are A-coded with an 8-pin design. These connectors do transmit data, however the quality is significantly reduced due to the lower near-end crosstalk (NEXT). The reason for this is the positioning of the middle pin, which does not comply with standards and impedes data transmission.

How to Select the Correct Data Cable for Your Industrial Application

According to Ethernet standards, admissible mating faces for the best data cabling are shielded connectors (male plugs/ female sockets):

  • RJ45 4-pin (100 Mbit 4-pin)
  • RJ45 8-pin (Gbit 8-pin)
  • D-coded M8 & M12 (100 Mbit)
  • A-coded M8 4-pin (100 Mbit)
  • P-coded M12 (100 Mbit)
  • X-coded M12 (Gbit)
  • ix Industrial (Gbit)
  • Mini I/O
  • Single Pair Ethernet (SPE)

Furthermore, there are varying standards such as PROFINET, EtherCAT, or Single Pair Ethernet (SPE) that can transmit data and power in one hybrid plug. These either adhere to IEC norms, have been evaluated by the appropriate organizations, or are being standardized.

Standardized Hybrid Ethernet Plugs

  • M8 SPE acc. to IEC 63171-6
  • M12 SPE acc. to IEC 63171-7
  • Y-coded M12 acc. to IEC 61076-2-113
  • M23 acc. to IEC 61076-2-117
  • RJ45 Hybrid acc. to IEC 61076-3-106
  • ix Industrial acc. to IEC 61076-3-124

Certain connector manufacturers have their own hybrid solutions in their portfolios that are not standardized but have been tested and evaluated for Ethernet conformity. As a basic principle, it is suggested to always stick to standardized and evaluated Ethernet connectors.

Take away:

When selecting data cables for industrial applications, users should adhere to the appropriate standards in order to prevent failures and malfunctions. Users must also pay attention to the lengths of the individual segments, the number of connectors, and the different diameters of installation and patch cables. Furthermore, the aging of individual components can lead to a reduction in the transmission quality and interruptions, in the long term. With 45 years of experience, HELUKABEL is an expert in connection technology and is happy to support users in identifying the perfect Industrial Ethernet or bus data cables for their industrial application.

Source

Related Articles


Changing Scene

  • Wesco Opens State-of-the-Art Facility in Eastern Canada to Support Influx of Megaprojects in the Region

    Wesco Opens State-of-the-Art Facility in Eastern Canada to Support Influx of Megaprojects in the Region

    Wesco International has recently announced the grand opening of a new state-of-the-art facility on Higney Avenue in Dartmouth, Nova Scotia, Canada, making this the largest facility of any distributor in the Atlantic region. The new building, facilitated by Touchette Real Estate, a division of Groupe Touchette, will feature Wesco’s comprehensive suite of services and solutions including… Read More…

  • PataBid Nominated for Canadian Choice Award in Software Services

    PataBid Nominated for Canadian Choice Award in Software Services

    PataBid is proud to announce its nomination for a Canadian Choice Award in the Software Services category. This recognition highlights PataBid’s commitment to supporting the electrical contracting community across Canada by providing innovative estimating software solutions that streamline estimating processes and ensure predictable and profitable projects. Read More…


Sponsored Content
The Easy Way to the Industrial IoT

The way to the Industrial IoT does not have to be complicated. Whether access to valuable data is required or new, data-driven services are to be generated, Weidmuller enables its customers to go from data to value the easy way. Weidmuller’s comprehensive and cutting-edge IIoT portfolio applies to greenfield and brownfield applications. Weidmuller offers components and solutions from data acquisition, data pre-processing, data communication and data analysis.

Visit Weidmuller’s Industrial IoT Portfolio.


ADVANCED Motion Controls Takes Servo Drives to New Heights (and Depths) with FlexPro Extended Environment Product Line

Advanced Motion Controls is proud to announce the addition of six new CANopen servo drives with Extended Environment capabilities to their FlexPro line. These new drives join AMC’s existing EtherCAT Extended Environment FlexPro drives, making the FlexPro line the go-to solution for motion control applications in harsh environments.

Many motion control applications take place in conditions that are less than ideal, such as extreme temperatures, high and low pressures, shocks and vibrations, and contamination. Electronics, including servo drives, can malfunction or sustain permanent damage in these conditions.

Read More


Service Wire Co. Announces New Titles for Key Executives

Bruce Kesler and Mark Gatewood have been given new titles and responsibilities for Service Wire Co.

Bruce Kesler has assumed the role of Senior Director – Business Development. Bruce will be responsible for Service Wire’s largest strategic accounts and our growing Strategic Accounts Team.

Mark Gatewood has been promoted to the role of Vice President – Sales & Marketing. In this role, Gatewood will lead the efforts of Service Wire Company’s entire sales and marketing organization in all market verticals.

Read More


Tri-Mach Announces the Purchase of an Additional 45,000 sq ft. Facility

Tri-Mach Elmira Facility

Recently, Tri-Mach Inc. was thrilled to announce the addition of a new 45,000 sq ft. facility. Located at 285 Union St., Elmira, ON, this facility expands Tri-Mach’s capabilities, allowing them to better serve the growing needs of their customers.

Positioning for growth, this additional facility will allow Tri-Mach to continue taking on large-scale projects, enhance product performance testing, and provide equipment storage for their customers. The building will also be the new home to their Skilled Trades Centre of Excellence.

Read More


JMP Parent Company, CONVERGIX Acquires AGR Automation, Expanding Global Reach

Convergix Automation Solutions has completed the acquisition of AGR Automation (“AGR”), a UK-based provider of custom, high-performance automation design and systems integration primarily to the life sciences industry.

Following Convergix’s acquisitions of JMP Solutions in August 2021 and Classic Design in February 2022, AGR marks the third investment in Crestview’s strategy to build Convergix into a diversified automation solutions provider targeting the global $500+ billion market, with a particular focus on the $70 billion global systems integration and connectivity segments. Financial terms of the transaction were not disclosed.

Read More


Latest Articles

  • How Advanced X-Ray and AI Inspection Technologies Optimize Quality Control and Reduce Costs in SMT Manufacturing

    How Advanced X-Ray and AI Inspection Technologies Optimize Quality Control and Reduce Costs in SMT Manufacturing

    Explore how Omron’s latest X-Ray machines and AI-driven solutions are setting new standards in manufacturing efficiency and quality control. The manufacturing landscape is swiftly evolving, and Omron is at the forefront with its innovative PCB inspection machines. These systems offer profound insights into SMT production process, enhanced quality control, and can significantly reduce labor costs. Advancements… Read More…

  • KUKA Establishes New Software and Digital Business Segment

    KUKA Establishes New Software and Digital Business Segment

    Software is playing an increasingly important role in mechanical engineering. What used to be mostly solved mechanically is now done by electronics and the associated software. “With KUKA Digital, we are expanding our offering in order to position ourselves broadly for a market with strong growth potential. Our customers need products, solutions and consulting approaches to digitalize… Read More…