The future with Fiber Optic cables

Internet penetration in India is a major concern and will be for a while. Only 400 million of India’s 1.2 billion strong population is online, after all. As fiber optic technology continues to revolutionize the telecommunication and data capabilities of a range of industries, the average individual may not understand the advantages that fiber optic technology provides for us in our everyday life. To better understand the advantages and capabilities of fiber optic technology, we’ll outline a few basics touch points of fiber optics and their contribution to our everyday lives. Let us catch up on the benefits of optical fiber over traditional metallic wire.

Benefits of Optic Fibers Vs. Traditional Metallic Wiring?

Besides the fact that conventional metallic wiring is far more expensive to produce, fiber optics deliver a superior amount of quality, convenience, and durability currently unmatched in telecommunication technology. Although the majority of our practical applications in the past used metallic wiring, fiber optics technology is rapidly growing and seems likely to stay for generations to come.

We’ve included a few advantages that optic fibers have over metallic wiring below:

Digital signalling: Optical fibers are suited naturally to accommodate digital information, a dominant form of data that we use for computer networks.

Optimized Capacity:  Copper or metal wires are very thick, and are unable to be as portable or flexible as fiber optic wires due to the fiber’s hair-like thinness. This allows fiber optic wires to optimize carrying capacity, allowing more channels to be available in any given area.

Signal Integrity: Losing signal is far less common with fiber optics. Especially considering the majority of transmitted data is digital. The core of the optic fiber cable is made of glass, rendering the signal immune against electrometric interference, crosstalk, impedance issues, and more.

Affordable: The production of optical cables are less expensive than the production of copper wire. When considering the advantages and capabilities of fiber optics in comparison to metallic wiring, the affordability increases the value of usage over copper wire immensely.

Light Signaling: Where metallic wiring utilizes analog, electrical signals, optic fibers utilize light. This means that one fiber does not interfere with another fiber within the same wire, allowing for a clearer signal during phone calls or while using the internet.

Flexibility: The usage of fiber optic technology is highly adaptable to many industries. Telecommunications and computer networking specifically, which utilize fiber optics to maintain performance, are used frequently as essential parts of modern living. Optic fiber cables are also immune to environmental damage, protecting them against temperature fluctuations that could otherwise damage metallic wires. In addition, optic fiber wires can be submerged in water, allowing them to reach destinations otherwise impossible for copper cables.

Increased Safety: Optic fiber cables do not use electricity, and therefore there is no chance of sparking or fire hazards.

In Conclusion

In today’s world, many businesses and individuals rely on a dependable and proficient connection to perform their daily tasks. Fiber optic technology delivers service on a level of quality that commercial organizations and industries recognize. In fact, the majority of these industry leaders have moved onto fiber optic technology as it continues to make its way throughout all areas of telecommunication.

The expansion of fiber optics within internet services, television, streaming media, network gaming, social media, and more, has made a profound impact in what both individuals and organizations have the ability to do. Fiber optic technology will continue to offer many more opportunities to provide users with affordable, more convenient, and higher quality data communication. Do check LAPP, cable manufacturers in India if you have the requirement of quality fiber optic cables.

Common Fiber Optic Cables Problems

As Clint Eastwood quoted, “Aging can be fun if you lay back and enjoy it.” However this quote does not apply to the fiber optic cables or any cable in general.

Some fiber optic networks have now been in use for more than 20 years, a tribute to the inherent capabilities of optical fiber. In that same time, copper cabling for premises networks has been through two generations of coax and at least four generations of unshielded twisted pair cabling.

Why do the Old Fiber Optic Cables still Works so Well?

• One reason is the extreme care that went into its design. Telephone cable engineers already knew how to make cable that would survive for long times buried underground or suspended from poles. Adapting that technology to glass fibers, while adding plastics to protect the fiber from the environment by hermetically sealing the glass, and using the then new technology of aramid fibers to prevent stress on the glass itself, led to the creation of fiber optic cables that have lifetimes well over the 20 years of current use.

 

• Another factor in the lifetime of fiber is that it needs no maintenance. Connectors are effectively sealed from dirt in patch panels, and splices are sealed in enclosures that prevent moisture from entering. There is no need to disconnect terminations to clean, inspect or test them.

If we focus on the problems encountered by fiber optic cable as listed below. This information will help you be better equipped to prevent and even rectify any problems should they arise.

External Damage

A thorough visual inspection of the fiber optic cable will be sufficient to highlight any prominent defects that have affected the casing or the conductors. It doesn’t take a significant amount of damage to affect the ability of the cable to work properly. It is prudent to replace the cable if any issues become apparent from the inspection, such as splits or scratches.

Too Long

A fiber optic cable that has excess length after a connection has been made will at risk of bending, twisting or winding around itself. These actions can result in permanent damage to the fibers and components within the cable. Cables are available in a range of different lengths and you should ensure that you get the correct one with the use of a measuring tape. Position all the equipment that you intend to connect with the cable measure the distance between them to get an idea of the approximate length. There are some varieties that contain a rod to prevent it being bent and these can be used to prevent a recurrence of the same problem.

Stretching

The components within a fiber optic cable are delicate and can be damaged if stretched across a distance that it cannot comfortably accommodate. Avoid the risk of the fibers within the cable becoming damaged by moving the items closer together or obtaining a cable of a more appropriate length. Stretching can also occur from pulling at the jacket of the cable rather than using the grips at the connectors designed to be used to fit and remove them. Always use the grips to remove the connector from the socket that holds it.

Connectors

Performance problems can occur in the event that the connectors of the fiber optic cable are not fitted properly. Check each of the connectors to determine whether this is the case and rectify it by inserting them properly. If the problem continues to occur, replace the cable with a version that makes use of spring loaded connectors that fit securely without slipping out of place.

Fibers

Where the fibers within the cable are broken or damaged in some way, this will not be immediately evident when simply considering it with the naked eye. In order to check this, a fiber optic tracer can be utilized to highlight any faults within the cable. This implement resembles a miniature flashlight that uses an LED and can be fitted to the cable connector for the purpose of checking continuity. If the fibers are all intact and working correctly, the light that is shone at one of the cable should be visible at the other end of the cable.

This information will help you be prepared for the unexpected situation. LAPP, cable manufacturers in India, provides quality tested cables, which reduces the problems which you may encounter.

 

How to deal with outdoor cables?

 

As the saying goes, “Accidents, big or small, avoid them all you.” Special care needs to be taken around electricity outdoors. Whether you are working or playing near it, or using electrical equipment, it is important to be aware of the dangers. Everything we use around us works on electric current, it is very much necessary to maintain safety guidelines.

Before you start any work near power lines or underground cables, arrange a visit from electricity retailer to identify any problems or disconnect the supply. This work might be painting your house, trimming trees, cleaning guttering, replacing spouting or roofing, repairing chimneys or excavating a property.

Never touch overhead power lines, underground cables, or the bare conductors that connect them to the house, as this could be fatal.

Safety tips for Outdoors

• Never store material under power wires and reduce the clearance height. Remember that children are fond of climbing, and wires look tempting.
• Before starting work on a roof, make sure no aerial lines pass overhead. If they do, arrange with your electricity retailer to have them protected, or isolated before starting work.
• A power line that has fallen to the ground should be treated as live, contact your electricity supplier immediately. Do not touch the line, and warn your family members and neighbors.

Safe clearances

Safe clearances between building work and power lines minimize the risk of electric shock, fire, power cuts, or damage to property and power lines.

The minimum safe clearance between power lines and buildings depends on the voltage of the power line and the type of conductor. Types of power lines can usually be recognized by their construction and by the type of insulator or number of disc insulators which separate the power line from the power pole or tower.

You can browse through the LAPP, cable manufacturers in India for protective cables. Prior to any planned construction, a process for establishing safe distances from power lines must be undertaken to comply with this code of practice.

You must check with your electricity supplier to find out what the power line voltage is so you can establish the right clearance.

Using electrical tools and equipment outside

Take special precautions when you use electrical appliances outdoors or in a damp environment. Electrical equipment and appliances used outside include electric lawn mowers, weed eaters, water blasters, and power tools.

• Never use any damaged appliances or equipment with damaged leads outdoors. Visually check the cords for any cuts or damage to the cord, and run your hand down its length to feel for cracks or damage. If you find a problem, don’t use the equipment until the cord is professionally repaired or replaced.
• Never use them in rainy or wet conditions.
• Always use a residual current device (RCD) or an isolating transformer. These protect you from a fatal electric shock by cutting the current if there is an electrical problem.
• Keep children and pets a safe distance away when you operate a mower or any other electrical equipment.
• Wear strong protective footwear when working with electrical appliances or tools outside, do not work in jandals or bare feet.

Keep cords and electrical equipment away from any metal that can catch or cut it, for example, metal ladders, garage workbenches, metal roofs and garden fences. Mentioned guidelines would help you avoid any possible accidents.

Basics of Cables and Connectors

If we check the history of electric cables, the real demand for wires and Cables to conduct electric power began in 1871, with the invention of the first dependable dynamo.

The telegraph and telephone swelled demand for efficient methods of transmitting electric current and signals over long distances. The insulation back in the days was paper coated. Just imagine Paper-coated pitch wrapped each individual wire, insulating it from the others. The whole batch was then wrapped in paper. Some even suggested laying these batches in tubes coated in resin and placing them underground to keep curious young boys away from them.

In the case of cables, factors like resistance, capacitance and impedance all play a role. There’s also a great many more electrical sources, magnetic sources and broadcast radio frequencies today than there were in the days of paper and pitch insulation. All of these factors can affect a cable’s transmission. As a result, shielding is another important variable in audio and video cabling. Let’s check out the basic terminology which is used when we consider the transfer of electric current.

Electrons, Voltage and Current

Electrons, and therefore electric charges, move through conductors. If they didn’t, the world today would be a very different place. A flow of electrons (a charge) flows from a voltage or signal source (like a battery) through two conductive surfaces (that is, materials that allow electrons to pass through them).

Hook a wire to two ends of a battery and you’ve got flow. This movement of electrons has many characteristics. The two of interest at the moment are voltage and current. Voltage is like the “pressure” created by the flow of electrons. Current is the rate of the resulting flow.

Resistance is the quality of a material that restricts the free flow of electrons. As a conductor resists the flow of current through it, a small percentage of the energy dissipates.

Metal wires are good conductors and resist little of the current that runs through them, though there is some loss. They also have a large surface to volume ratio. This is crucial because, oddly enough, electrons travel over the surface of the wire and not through the middle.

Capacitance is the tendency of a material to store energy and block constant or low-frequency currents. Capacitors filter and store energy, among other things. Different conductors have different resistive and/or capacitive properties. A shielded cable has similar properties to a capacitor, as both consists of two conductors separated by some type of insulator.

Capacitance is a factor in cable design because it reacts with the impedance in a length of wire to strip away high frequencies. In the video, that means a loss of detail; in audio, a loss of clarity. In cables, the lower the capacitance, the better.

Shielding

There’s a lot of electrical and magnetic interference in the air these days. Other power sources, appliances, close proximity to radio or TV stations-all these and more can create noise picked up by your cable unless properly shielded.

A shield is another conductive material, normally a metal foil or a wire mesh, that encircles and protects the integrity of your cable. It absorbs outside signals and/or reflects them back to the outside world. It also keeps your signal within your cable. The relationship between the conductor and shield within your cable can increase the Cable’s capacitance. Once again, careful design is everything.

Impedance

Audio and video signals are alternating current signals. They’re similar to waves, like sine waves. For a wave to pass cleanly across a cable from one component to another, the impedance-or signal opposition-must be equal all the way across. The cable must be rated to carry signal at a certain impedance.

If the impedances do not match between signal source, cable and receiving component, the waves get out of phase and collide with each other. This actually reflects some of the power of the signal back to the source, causing noise and signal loss.

The more reflection, the less clean your signal, ultimately leading to loss of picture or color data. The video signal is a high-frequency one, very susceptible to problems with impedance.

The Coaxial Cable

You’ve no doubt heard the term coaxial-coax for short-throw about. Fancy word, simple concept: coax simply refers to any cable with a central wire surrounded by an insulator, a shield and a plastic outer jacket. if you’ve seen almost any kind of AV cable other than cheap speaker wire, you’ve seen the coaxial cable.

In this article, we have checked the terminology related to cables and connectors. Do check out LAPP, one of the leading cable manufacturers in India, to purchase the best quality cables and connectors.

 

History of Data Communication cables

The by-products of the advancing technology has certainly created a lot of confusion among the consumers. If we consider the networking cables, the types of network cables employed in any network infrastructure is one of the most important aspects of networking, and it has become increasingly critical with the introduction of newer technologies.

If we go through the history of the data communication cables, you will find the roots from where it all started.

History

We tend to think of digital communication as a new idea, if we go back in time, like in 1844, Samuel Morse sent a message 37 miles from Washington, D.C. to Baltimore, using his new invention, the telegraph. This may seem a far cry from today’s computer networks, but the principles remain the same.

Morse code is a type of binary system that uses dots and dashes in different sequences to represent letters and numbers. Modern data networks use ones and zeros to achieve the same result. The big difference is, while the telegraph operators of the mid-19th century could perhaps transmit four or five dots and dashes per second, computers now communicate at speeds of up to 10 Gbps or, to put it another way, 10,000,000,000 separate ones and zeros every second.

Although the telegraph and the teletypewriter were the forerunners of data communications, it has only been in the last 35 years that things have really started to speed up. This was borne out of the necessity for computers to communicate at ever-increasing speeds, which has driven the development of faster and faster networking equipment. In the process, higher-specification cables and connecting hardware were required.

Let us shed some light on the most popular data communication cable:

Unshielded twisted pair (UTP)

UTP cable is used not only for networking but also for the traditional telephone (UTP-CAT1). There are six different types of UTP categories and, depending on what you want to achieve, you would need the appropriate type of network cable. UTP-CAT5e is the most popular UTP cable; it replaced the old coaxial cable that was unable to keep up with the constantly growing need for faster and more reliable networks.

Characteristics of UTP categories

The characteristics of UTP are very good and make it easy to work with, install, expand and troubleshoot.

So, let’s have a quick look at each of the UTP categories available today:

These categories specify the type of copper wire — most telephone and network wire is copper and jacks.

CAT1 is typically used for telephone wire. This type of wire is not capable of supporting computer network traffic and is not twisted. CAT1 is also used by telco companies providing Integrated Services Digital Network and public switched telephone network services. In such cases, the wiring between the customer’s site and the telco’s network is performed using CAT1-type cable.

CAT2, CAT3, CAT4, CAT5/5e, CAT6, and CAT7 are network wire specifications. These types of wires can support computer network and telephone traffic. CAT2 is used mostly for token ring networks and supports speeds up to 4 Mbps. For higher network speeds,100 Mbps or higher, CAT5e must be used. For the almost-extinct 10 Mbps speed requirements, CAT3 will suffice.

CAT3, CAT4 and CAT5 cables are four pairs of twisted copper wires; CAT5 has more twists per inch than CAT3. Therefore, CAT5 can run at higher speeds and greater lengths. The twist effect of each pair of the cables ensures any interference presented or picked up on one cable is canceled by the cable’s partner that twists around the initial cable. CAT3 and CAT4 are both used for token ring networks, where CAT3 can provide support of a maximum 10 Mbps, while CAT4 pushed the limit up to 16 Mbps. Both categories have a limit of 100 meters.

CAT6 wire was originally designed to support Gigabit Ethernet, although there are standards that will allow gigabit transmission over CAT5e wire. It is similar to CAT5e wire, but contains a physical separator between the four pairs to further reduce electromagnetic interference. CAT6 is able to support speeds of 1 Gbps for lengths of up to 100 meters, and 10 Gbps is also supported for lengths of up to 55 meters.

CAT7 is a newer copper cable specification designed to support speeds of 10 Gbps at lengths of up to 100 meters. To achieve this, the cable features four individually shielded pairs, plus an additional cable shield to protect the signals from crosstalk and electromagnetic interference.

Briefly, we visited the major data communication cables in use. Do go through Lapp, one of the leading cable manufacturers in India, to get the right cable for your application.

Common household electrical problems

Not many have the superpower to see the subtle signs of electrical problems, which can cause catastrophic effect, if not taken care of. When it comes to household electrics, your safety is paramount. Cable manufacturers in India such as LAPP is constantly working towards building safer environment to control electricity, without causing any harm.

Talking about signs, flickering lights, high bills and damaged appliances can all be a sign of electrical problems on your home circuit. In this article, we are going to shift our focus to identifying problems, with the appropriate solution, which is listed below.

1.Frequent electrical surges

Electrical surges can be caused by anything from lightning strikes, damage to power lines, faulty appliances and bad electrical wiring in the house. While an actual surge only lasts a microsecond, frequent surges can damage the electrical components connected to your home, degrading their life expectancy significantly.

If you experience frequent electrical surges, the culprit is probably an electrical device connected to the home grid or the wiring itself. Try removing any cheaply made devices or power boards from the outlet to see if this prevents the surges. Otherwise, it might be time to consult a professional electrician.

2.Sags and dips in power

Like electrical surges, sags and dips in electrical supply can often be attributed to devices connected to your power grid that are faulty or made with substandard materials, and draw a lot of power when they are turned on

3.Light switches not working properly

Dimmer switches that don’t adjust light properly can often be attributed to shoddy workmanship or sub-standard products.

If you have just moved into a new house and find switches that don’t seem to activate anything at all, this might be a sign the switches have been superseded and fixtures removed, or it could be a fault in the outlet, circuit or wiring. Consult with an electrician if you’re experiencing issues with switches in your house.

4.Circuit Breaker tripping frequently

High wattage items like microwaves and hairdryers can trip circuit breakers, particularly when other power consuming items are used on the same source. A circuit breaker is designed to protect you and your home, so when it does a trip, that’s a sign it’s doing its job.

Look at what you were using when it tripped. If it was a hair dryer, try using the low setting. Alternatively, limit the electrical usage on a single circuit while high watt devices are in use.

5.Circuit Overload

One of the biggest causes of frequent circuit breaker tripping is the overloading of power boards. Most homes and apartments, even newer ones, don’t have enough power points to cater to, for example, a complete home entertainment unit setup. If circuit breakers in your home are tripping frequently, it could be down to circuit overload.

Prevent this by:

• Never daisy-chain power boards.
• Remove devices that aren’t in use (for example, phone chargers still draw power even when not connected).
• Spread your electrical needs around. Don’t overburden a single circuit.
• Be mindful of how you connect devices around the home – what’s in use, and what is unnecessary.

6.Lights too bright or dim

If some lights around the house seem excessively bright but others are dim, then there are two probable causes:

• Different types of lights with different wattage: Check that all the globes are identical.
• Bad main neutral connection: This will continue to cause problems for the home until it is fixed by a professional.

7.Electrical Shocks

An electrical shock is a nasty experience. Even though they are usually pretty mild, something akin to a static shock, they remind us that electricity is dangerous when not probably utilized.

Electrical shocks typically happen when you turn a device on or off. The issue could be with the appliance, or it could be in the wiring. You can test this by plugging in another device and seeing if the results are reproducible, however, you’re just risking another electrical shock. In most cases, it might be better to speak with an electrician.

8.High Electrical bill

Reducing the cost of your electrical bill could include:

• Switching to a more cost-effective provider
• Identifying electrical devices that may be causing power surges
• Patching leaks in the hot water system
• Unplugging appliances and chargers when not in use
• Repairing damaged wiring or circuits

 

WHAT TO DO IF PROBLEMS PERSIST

If electrical problems are ongoing around your home, you should consider contacting an electrician. Safety around the home is paramount, so don’t leave anything to change.

Use the top notch electrical equipment, from LAPP, cable manufacturers in India, who have the tested products to ensure your safety.

 

High-speed ETHERLINE® cables make assembly even easier

If a cable ages or is damaged in a machine or control cabinet, it usually has to be replaced quickly to prevent production stoppages or more severe consequential damage. But replacing a cable takes time. Lapp, cable manufacturers in India has addressed this problem: Thanks to its Fast Connect technology, the new ETHERLINE® PN CAT.6_A  Fast Connect has clear advantages over other cables when it comes to installation and assembly.

Thanks to a cross separator that separates the four pairs of wires and an inner sheath the cable does not need pair screening. Unlike with conventional cables, there is no need to remove a film screen from all four pairs of wires. As a result, Fast Connect cables are quick and easy to assemble. The special tool from Lapp, which prepares the cable optimally for connector assembly in a single operation, saves even more time. The new shielding also ensures a long service life.

Minimum work when connecting devices, easy assembly with a single tool and a high data transmission rate: The ETHERLINE® PN CAT.6_A  Fast Connect from Lapp combines all these important properties. The new high-speed cable is ideal for customers in the machinery, plant and equipment manufacturing sector and can be used in industrial and building networking wherever large data volumes have to be transmitted.

At 10 gigabits per second, the ETHERLINE® PN CAT.6_A  achieves the current maximum transmission rate for copper cables in an industrial environment. All Lapp Profinet cables are compatible with one another and with those from other manufacturers.

The ETHERLINE® PN Cat.6_A  is available in seven versions: three for fixed installation (Type A) with flame retardant PVC sheath, halogen-free and flame retardant with FRNC sheath or with PUR sheath (halogen-free, flame retardant and with increased mechanical strength). In addition, Lapp supplies two versions for flexible use (Type B) with PVC sheath or halogen-free and flame retardant FRNC sheath, as well as two solutions for highly flexible use (Type C) with PVC sheath or PUR sheath. Four further versions have reduced dimensions for use in constricted applications. The different sheath designs and diameters allow the cables to be used in a huge range of applications.

About the Lapp Group:

LAPP INDIA is a 100% subsidiary of the LAPP GROUP Germany, a leading supplier of cables in networking, with branded products in the field of cable and connection technology. We are the pioneers in introducing the concept of “Reliably connecting the world” with our unbeatable range of cabling products and solutions. Buy cables online from the first online cable store by Lapp India.

Being one of the reliable cable manufacturers in India, We offer over 1400 products on shopasia.lappgroup.com/in ranging from cables, connectors, glands, Ethernet cable wiring, conduits, cable tags to cable accessories and tools.

Cabling Solutions for Robots 4.0

The industrial robots till now were performing complex and repetitive factory processes, but the digitization and technological advancements have increased their applications across various sectors.  Cable manufacturing in India is entering the era of integration and convergence that will aim at reducing costs with increased safety. Robots of the future will be seen working alongside humans in most Industrial sectors with increased responsibilities. They will be pivotal in implementing Industrial 4.0 by combining technologies that will allow robots to use big data and analytics, make decisions and function autonomously.

Industry 4.0 or the industrial internet of things (IIOT) refers to the era where the industrial manufacturing processes equipment, devices, and computers are networked. Today, the use of automation and robots have come a long way and play an integral role in re-shaping and re-defining Industry 4.0.

But, it is not just the robots that keep evolving; components such as cables and connectors must keep pace with today’s advanced robotics technology. Without a reliable source of power and control, even the sturdiest robots will fail. This evolution has led to an increasing demand for smart cables and connections that act as a foundation for synchronized robotic function and a high-quality production output.  The following factors are essential for cables in advanced robotic applications for Industry 4.0.

High volume data transmission

Machines used in smart factories require data/networking for greater bandwidth with power control cable. This is one reason for installing customized and composite cable solution mix of single/multi-mode fibers with power and control conductors of different gauges and types are assembled under one sheath in these cabling solutions. Hence it takes up less space and reduces installation cost.

Torsion-resistant and reverse bending

Machines perform better with customized torsion-resistant cables instead of standard control cables. These modified cables are specially designed to withstand the torsion and repetitive motion of their particular application. The cables are manufactured in a way that it can provide the smallest bending radius possible within the machine. Specifically, designed cables for power chain, cable-track configurations and torsion applications can help overcome the challenges that are presented when designing automation machines. This can also reduce the amount of cable failure during operations.

Highly Flexible

Stud welding machines, for instance, are used by robots for automotive manufacturing. The machine is automatically positioned by the robot and sets the studs for wiring harness assembly in the body shells. This requires the highest levels of efficiency and precision in terms of the executed movements and system productivity. Cabling would need to be laid over all the robot’s axes and would, therefore, need to be able to follow all of its angular movements and rotations.

Slim in construction and lightweight

To avoid restrictions to the robot’s movements, various cables are usually laid over the robot axes in the smallest of spaces. This is to avoid any confusion with other cables such as the welding cable, the data network and signal cable as well as the air and protective gas conduits. The cables need to be slim in design and light in weight which would ensure that cables occupy a small cross-section, among the rest.

EMC / Loss-less transmission

A common challenge faced by cable manufacturers is to reduce electromagnetic interference (EMI) by retaining the higher flexibility and slim/light construction. The data network and signal cables need to be protected with additional copper/aluminum screening for this. By using the right insulating material, it is possible to achieve both electrical and mechanical requirements. Combining all these components in complex hybrid cables shall offer lossless transmission, robot-compliant flexibility and torsion strength, with a durability of more than two million bending cycles.

Application-specific and long lasting

System component suppliers need to be able to supply high-quality standard products while also being able to primarily develop individually customized products. The use of standard ware in complex areas, in cases of doubt, leads to unwanted compromises, which in practice can lead to problems with using the machines and production systems. System cable division takes on the often-time-consuming development of individual solutions that can involve intensive consultation, and they do this in cooperation with the customer.

One of the most important sectors that the specified customer groups serve is automotive manufacturing. All components in this sector must meet strict requirements in terms of quality and durability. If, for example, a cable fails, the entire production belt will come to a standstill and trigger losses running into the millions within a very short space of time.

Plug and play / complete connectivity solution

No system is complete without connecting all the individual components and for this, a reliable partner who lives up to the high demands is essential. Customised solutions are often required in order to implement new ideas to meet the top line growth requirements of an industry: cables and connectors that you cannot simply buy ‘off the shelf’.

With the need to scale up operations and meet production requirements, the demand for customized solutions has been growing and has been able to prove themselves as reliable partners. And by providing plug and play solutions, these customized solutions meet the top-line growth of their customers which the standardized ‘off-the-shelf cables and conductors generally do not.

LAPP India, one of the leading cable manufacturers in India focuses on providing cable and connection solution for all kind of applications. With a focus on ‘Art of Connecting’, Lapp India will be launching ETHERLINE® ACCESS, the managed and unmanaged switches at the Automation Expo 2017 in Mumbai. ETHERLINE® ACCESS along with ETHERLINE® range of cables, connectors and switches, will further strengthen Lapp’s offering in industrial network solutions and ensure reliable connectivity from one source.

Other innovative solutions on display at the exhibition would include HITRONIC® fibre optic cables designed to transfer large volumes of data; UNITRONIC® data network cables and field bus components for transmission of simple control signals without leakage; and ÖLFLEX® CONNECT, a customized plug ‘n’ play solution, specially designed for Machine Tool segment.

Lapp group, being one of the world’s leading suppliers of integrated solutions among Cable manufacturers India, is making Industry 4.0 a reality, by manufacturing cabling solutions that will power the future robots.

Ultimate Networking Cable Tools & accessories India

Network professionals have jobs that depend on ensuring smooth sailing on the network, but when things go wrong, the right tools are needed to minimize downtime. LAPP, Cable Tools & accessories India, provides you with the best tools which will come in handy even in the extreme conditions.

This blog will provide you with

• The knowledge which is required to compile the ultimate set of networking tools.
• The tools which should help in handling both routine and complex networking maintenance tasks.

Choosing the Hand Tools for Networking Professionals

Hand tools being the essential allies of the networking professionals. LAPP, Cable Tools & accessories India, provides you with a wide range of high-quality tools which you can employ to ensure security.

Here are a few of the essential insulated hand tools you need in the ultimate networking toolkit:

• A wire stripper/wire cutter
• A high-leverage cable cutter
• Pump pliers
• Diagonal cutting pliers
• High-leverage side-cutting pliers
• Standard long-nose pliers (both side-cutting and skinning)
• A skinning knife
• Crimping/cutting tools

Make sure you have a full complement of screwdrivers so you are prepared to tackle any screwdriver task.

By picking up a top-flight punch down tool, you can save a lot of time and energy. This tool helps you efficiently connect wiring in keystones or patch panels. Once you add this item to your toolkit, you will be amazed at the stability which it would bring.

While all of these tools make life easier for a networking professional, storing it can be a reason for concern.

These kits make you ready for the job whenever a hand tool is needed. That being said, with all these hand tools, you would need a quality bag or tool case to transport your hand tools.

The Right Tools Need the Right Tool Bags and Cases

The right tool bag to carry your tools is largely a matter of personal preference. Based on your preference which can be a tool tote, a tradesman bag, a trade pro backpack or the convenience of a rolling tool bag, don’t skimp on quality.

A tool tote should aim to provide heavy duty protection while refusing to compromise on durability and versatility.

Alternatively, spacious backpacks that are built to last are a convenient way to pack your tools safely and securely. No matter what you opt for, do not compromise on durable tool storage that provides safe and reliable transportation for tools and testing equipment.

Don’t think all you need is a case for your tools. Just like how you protect your smartphone with a case to keep your phone safe.

Similarly, it is also a wise choice to protect your sensitive testing equipment. Without properly working testing equipment, performing critical network tests is not doable. By opting for a large hard case that is specifically built to protect sensitive testing equipment and devices.

Additional Items to Include

While the aforementioned tools take you most of the way towards completing your toolkit, there are a few extras that complete the kit.

A powerful flashlight with a small form factor helps you perform work in dark spaces such as wiring closets or ceiling work.

Extra cables always come in handy for a networking professional as well. If a cable goes bad, you will have backup cables needed to keep downtime to a minimum.

We will find some other great networking tools out there, but if you have all the tools outlined in this post, you can be sure that no networking or maintenance job will be too tough to tackle. Do check the LAPP, Cable Tools & accessories India, for the available options.

 

Life Expectancy of your Control Cable India and what should you expect?

With the talk of life expectancy being the need of the hour, I want to start this blog with a quote from the American author and computer scientist, Ray Kurzweil:

“Life expectancy is a statistical phenomenon. You could still be hit by the proverbial bus tomorrow.”

One of the important question to ponder, when constructing new builds or considering refurbishment is:

What is the life expectancy of the control cables in use?

To be frank, there are no minimum requirements for an expected lifetime in cable standards and specifications. And the majority of high-quality cable manufacturers always deliver the probably expected lifespan. Under ideal circumstances which means considerably reduced heating and lower loadings, we can find the examples of cables that have remained in safe use for over 50 years.

The parameters influencing the life expectancy of the control cable India

• The changes in the polymers of the control cable, used as insulation, eventually degrade over time. The chief instigator of this type of degradation is excessive heat. This can be caused by excessive current loading or from the environment in which the cable is used, such as heated spaces.
• Usage also has an effect on the life expectancy of a cable. If a cable is regularly heated or loaded over a 24 hour period they are sure to degrade faster than cables that are solely used during a working week. Commercial lighting is typically used continuously, whereas office equipment is only used for around 8 hours a day.
• It is possible to estimate the reduced lifespan of cables that are overloaded or overheated. With a standard PVC installation cable, there is an estimated life expectancy of 20 years, if they are operated at their 70°C rated temperature. However, if used regularly at 80°C this would be reduced to around 7 years, and above 100°C, it would only last for a few months.

Effect of Change in accessories

In general, cable conductors usually retain their performance for an indefinite period. If the accessories are often changed, it might result in crushing damage sometimes occurs at the exposed cable ends.

When using aluminum conductors, at times, there can be examples of corrosion or rusting, depending on the environmental conditions, which in turn can affect the conductivity of steel casing.

• UV effect

With the increased use of the cables outdoors, they become prone to a rapid degradation via ultraviolet exposure. If outdoor use is going to be employed, it is important for the cable to possess the properties of being UV resistant.

To conclude

With many different environmental and operational conditions which are likely to influence the longevity of control cables in service. It is important to consider all of these points before installing control cable India. If an incorrect cable is selected then its life expectancy can be drastically cut short; this generally means that more money spent. By sourcing the correct cable for the corresponding application you will be making a cost-effective decision which is sure to save you time and inconvenience in the future.