In today’s scenario, where connectivity is essential for almost every economic sector, import/export companies and stockists of electrical and optical cables, connectors, and accessories play a crucial role in ensuring reliable communication and power systems.
This article will cover the benefits and importance of high-quality connectors and accessories for electrical and optical cables provided by Lapp Policabos, a specialized company offering advanced technical solutions in cable installations.
Connectors and Accessories: The Smart Choice for Cable Installations
Cable installations are fundamental to properly functioning electrical networks, telecommunications, and data infrastructures. Connectors and accessories are vital to these installations, ensuring safe, reliable, and efficient connections between cables, equipment, and devices.
Quality and durability
Quality is essential when it comes to connectors and accessories for electrical and optical cables. Poor quality components can result in unstable connections, signal loss, and system failures, leading to power supply interruptions or communication. At Lapp Policabos, we provide high-quality, durable products, ensuring our customers have reliable and long-life systems.
Compatibility and Versatility
Electrical and optical cable systems can vary widely regarding specifications and technical requirements. Versatile connectors and accessories are essential to ensure compatibility with different types of cables and equipment. At Lapp Policabos, we understand the importance of flexibility and work to provide a variety of connector and accessory options to suit the specific needs of each project.
Optimized Performance
By using high-quality connectors and accessories, cable installations can achieve optimized performance. Efficient connections reduce signal losses and minimize power degradation along the line, ensuring faster data transmission and more efficient power distribution.
Ease of Installation and Maintenance
Connectors and accessories designed for easy installation and maintenance can save precious time and resources. At Lapp Policabos, we provide ergonomically designed products with features that simplify installation and allow technicians to perform maintenance more efficiently.
Technological Innovation
The field of cable installations is constantly evolving, driven by advancing technology and the growing demand for greater connectivity and efficiency.
Connectors and accessories for electrical and optical cables are essential to ensure communication and energy systems’ efficiency, safety, and reliability. At Lapp Policabos, we focus on providing innovative technical solutions for cable installations so that they play a vital role in building and maintaining modern, highly functional networks.
By opting for high-quality and durable products, we ensure that cable installations are prepared to meet today’s and tomorrow’s technological challenges. Invest in reliable connectors and accessories, and rely on Lapp Policabos’ expert technical support for the best performance and outstanding results in your electrical and optical cable installations.
In the smart factory, machines and systems are increasingly networked. As a result, the topic of electromagnetic compatibility (EMC) is also becoming increasingly important. Especially in industrial plants where frequency converter-controlled motors are used, undesirable currents can increasingly occur on the equipotential bonding (PA) or protective earth (PE) cables. A new, innovative cable design from LAPP reliably reduces leakage currents and makes a decisive contribution to improved EMC in machines and systems.
Stripped ÖLFLEX® SERVO FD zeroCM
Nowadays, electric motors in process automation are operated exclusively by means of frequency converters. In addition to the advantage of variable speed, this type of control offers considerable improvements in terms of energy and process efficiency. However, due to the principle of control, undesirable side effects occur and leakage currents are generated. The more components are involved, the greater the risk of such disturbances. At the same time, the installation spaces in machines and systems are becoming smaller and smaller. In order to avoid expensive production downtimes in the smart factory, it is therefore best to consider the topic of EMC during the planning phase.
Cable design rethought
LAPP has just demonstrated how interference within connection solutions can be virtually eliminated as part of the “PEPA” research project of the German Federal Ministry of Economics and Climate Protection. In addition to LAPP, the companies SEW-EURODRIVE, BLOCK, Danfoss, MAGNETEC and the Technical University of Darmstadt are involved in the project. Here, LAPP is leading work package 4: Couplings between neighboring cables as well as with plant components. Measurements and optimizations of the cable design. The aim of this work package is to promote cross-company research on a complex topic from the automation/drive world, in which the correct selection of connection components and their professional installation are particularly important.
Typical spectrum of leakage currents measured on protective earth and equipotential bonding conductors.
The subject of the investigation was the question of why undesirable currents very often occur on the potential equalization lines (PA) or protective earth lines (PE) in industrial plants in which frequency converter-controlled motors are used. Due to the clocked control (pulse width modulation), interference currents in the range of about 3 kHz to 1 MHz are excited, which flow off via housing parts, PA/PE conductors/networks and, in the worst case, via the shielding of data lines in the direction of earth potential or to the source. High-frequency equalizing currents with an amplitude of 10 A or more are not uncommon. The consequences are inadmissibly high currents on the protective earth and thus supposedly faulty tripping of residual current circuit breakers (RCD) or impairment of data communication if, for example, the equalizing currents flow over the copper shield of a data line. These faults are difficult to find because they do not follow a systematic approach. LAPP has therefore set itself the goal of investigating the physical coupling mechanisms within motor connection cables and deriving a new type of cable design from this. The result of this development is zeroCM® technology.
Cable technology put to the test
The origin of the innovation was to put the status quo in cable technology to the test: previous designs tended to be trimmed to small outer diameters and optical symmetry. Until then, the problem of EMC was always solved by shielding. LAPP took a different approach with zeroCM technology: the cable is visually asymmetrical, but 100% electromagnetic symmetry is achieved. Ultimately, this means that even less shielding is required.
The secret of zeroCM® technology is a special, innovative stranding technique: Three phase conductors are arranged symmetrically and stranded in an inner layer. In addition, at least one protective conductor is stranded in an outer layer with opposite stranding direction around the three phase conductors in a specific lay length ratio. The insulation of the conductors is capacitance-optimized and consists of polyethylene, polypropylene or a foamed variant. Between the inner layer and the outer layer there is a separating fleece. This design achieves perfect electrical symmetry, which reduces magnetic radiation and greatly reduces internal couplings. The first prototype cable with a new cable design is the ÖLFLEX® SERVO FD zeroCM. It is especially suitable for use in conjunction with frequency
converters.
Successful trial
The effectiveness of the new ÖLFLEX® SERVO FD zeroCM cable was confirmed in test setups at the project partners as part of the PEPA research project. In addition to investigating an EMC-optimized installation of components, the role of the output line was evaluated, among other things. For comparison, an identical test setup with a drive system with potential equalization as well as parallel signal line (ProfiNet) were selected. A shielded PVC-insulated standard cable, a low-capacitance servo cable, a symmetrical motor cable with three protective conductors and the new zeroCM® cable with optimized structure were compared. The results were clear. The best values in terms of leakage current at the converter output were achieved by the low-capacitance design of the zeroCM® cable. The generated leakage currents represent an additional load for the frequency inverter and all components involved and should therefore be kept as low as possible. Furthermore, the interference current flowing via a parallel signal line was investigated: Here, too, the use of the zeroCM® cable favors the expression of the lowest possible interference currents. The investigations at the project partners also resulted in clear recommendations for the EMC-optimal installation of frequency converters, such as a low-impedance, RF-compatible and continuous equipotential bonding between the frequency converter and the drive. The shield connection with EMC-compatible plugs or flat shield connection, such as with the SKINTOP® BRUSH EMC cable glands used, is of major importance here.
Leakage current (rms and maximum level) measured at the frequency inverter output for a 4 kW drive and 50 m cable length
Longer cable lengths possible
In summary, zeroCM® technology does not eliminate the cause of EMC interference, but it does address precisely one of the significant points at which interference is introduced into the system environment. On the one hand, the new cable design enables equalization currents to be reduced by up to 80% at the frequency inverter output and on parallel paths such as data lines. On the other hand, reduced cable-charging currents ensure reduced load on and in the inverter itself: For example, longer cable lengths can be laid without operating the frequency inverter outside its (EMC) specifications. In addition, zeroCM® technology prevents the occurrence of voltage levels on the ground/earth potential (ground voltage) on the consumer side. This is particularly important when, for example, sensitive sensor technology such as analog encoders are used.
Although the new cable may seem unfamiliar when it is first assembled, the cabling remains as simple as usual, or the effort is even reduced compared to the ground-symmetrical cables with a third of the protective conductor. LAPP’s goal is now to equip a portfolio with zeroCM® technology; hybrid lines are next.
The measurement curve shows conducted interference emission of a frequency inverter according to DIN EN IEC 61800-3 and the improvement when a zeroCM® servo cable is used.
Railways are the cornerstone of many countries and play a key role in competitive ability, transporting goods to seaports and other distribution centers. The resilience of many countries depends on a multimodal transport system that effectively connects businesses to consumers, suppliers, markets and the global economy.
The rail market consists of three main segments: Rolling Stock, Systems Technology and Infrastructure. Within these three segments, LAPP focuses on the Rolling Stock segment and part of Systems Technology focuses on trains.
When dealing with passenger and freight transport, the main characteristics of the Rolling Stock business are high fire safety requirements to protect people and property.
All products used on trains in Europe must comply with the EN 45545-2 standard. In other regions of the world, other standards are required, such as GOST, NFPA 130 or CCC.
In order to standardize cables for rolling stock applications, cable standards have been developed, according to which LAPP also manufactures its TRAIN product line. LAPP has developed entirely new products in the area of cables and wires, and has also qualified and tested existing products in the segments of cable glands, cable protection, cable marking and accessories. To meet the requirements of these standards, TRAIN cables are cross-linked and meet the highest requirements for oil and chemical, mechanical and UV resistance, making them ideal for use in the harsh environments of other industries as well.
Until now, there were only two options for maintaining machine and plant parts: either parts were replaced if they were already defective, or parts that still worked were replaced at specific intervals as a precaution.
However, thanks to Industry 4.0 and digitalization, there is a more efficient alternative to reactive maintenance: preventive maintenance. The idea behind this is to carry out maintenance measures depending on actual performance. Which is also possible for connection systems, such as cables or connectors.
Although LAPP cables last for many years, in situations with highly dynamic movements at high speeds and strong torsion, it is advantageous and more cost-effective to monitor cables to avoid unexpected stops that impair productivity.
ETHERLINE® GUARD is the latest innovative solution from LAPP
This compact device monitors the performance of ethernet cables and, when there is a risk of failure, displays what the fault is.
An excellent way to enjoy the benefits of preventive maintenance!
Advantages of ETHERLINE® GUARD
Increase system visibility and capability to plan downtimes for reduced maintenance costs.
Plug and play solution for both new and existing networks that does not require a new data line or changes to the cable designs.
Reliable IIoT communications thanks to the MQTT interface (for status/data evaluation, settings, WLAN configuration, updating, etc.).
Compact design ideal for use in control cabinet.
Application
Suitable for 2-pair EtherCAT, EtherNET/IP and PROFINET applications;
Suitable for use in Ethernet-based networks for automation technology;
Suitable for monitoring the service life of a data cable at risk of failure (e.g. critical function data cable in dynamic applications);
Suitable for data cables according to transmission standard 100BASE-TX (with 100 Mbit/s) according to IEEE 802.3;
Suitable for use in control cabinets (protection class IP 20).
Digitalization is leading to ever-increasing volumes of data in production halls. As a result, Ethernet, which has already become a standard in office environments, is becoming increasingly important in industrial environments.
The challenge for industrial data cables lies in the reliable transfer of high data rates in harsh industrial environments. As we incorporate products into our customers’ automation processes, we are constantly asked to provide innovative ideas to solve important challenges.
Therefore, we offer our customers a wide range of components and system solutions for factory, construction, and process automation.
Our data communication solutions include cabling and connectivity, complete systems for the integrated network at the sensor and control level through to the stock management system.
ETHERLINE® ACCESS
Industrial networking solutions for smart factories;
Reliable industrial networking components from a single source;
LAPP’s network solutions contain compatible data cables, connectors, accessories and switches;
4 to 16 ports;
Rugged, space-saving design for use in control cabinets;
Connections for copper and fiberglass cables;
Portfolio includes more than 20 products;
Cable, Connector, Patchcord and Switch – all from one source;
Until now, there were two alternatives for the maintenance of machine components in the industry: Maintenance is carried out when there is a breakdown or maintenance is carried out only at scheduled intervals as a preventive measure.
However, due to digitalisation and Industry 4.0, predictive maintenance is more efficient than reactive or preventive maintenance.
The idea will be to maintain the systems depending on the performance status of the components. Predictive maintenance is also possible be applied to cables and connectors.
Etherline guard
Although LAPP cables last for years, in situations with great demands on movement, speed and torsion, it is advantageous and more economical to monitor the wires to avoid prolonged and unexpected stops of the systems that lead to production breaks.
ETHERLINE® GUARD is an innovative solution from LAPP. A compact device that monitors the state of health of ethernet cables subject to significant physical and dynamic stress with risk of failure.
BENEFITS
It increases the availability of machines and systems, such as planning machine downtime. Reduces maintenance costs.
Easy on-the-fly deployment with automatic configuration (“teach-in” in just a few minutes).
It does not require any changes to the existing cabling system.
Due to the compact design, it uses little physical space.
Cloud communication due to MQTT interface (for status/data, settings, Wifi, updates etc.)
Available in two versions: PM03T for physical LAN connection and “PM02TWA” for wireless WIFI connection
APPLICATION
For use in Ethernet networks in automation technology. Monitoring data cables with risk of failure (critical and dynamic applications). For data cables with data transmission, use the 100Base-TX (100Mbps) standard according to IEEE 802.3. Also applicable for EtherCAT, Ethernet/IP and PROFINET 2-pair applications. ETHERLINE® GUARD
