Category: Fiber Optic Cables

The Best High Speed Networking Cable for your House

Connect your Ethernet, telephone services, computer networking and security systems with the help of Category 6 or Cat6 Snagless patch cable. This one standard is compatible across most categories of other cable standards that include Cat 5, 5E and 3. With feasible transmission frequencies of up to 550 MHz, the Cat 6 cable has the potential of voice and data transmission up to a speed of 155 mega bits per second. Used for carrying the cabling infrastructure networks of an Ethernet of 10BASE-T, 100BASE-TX, 1000BASE-T, 10GBASE-T, the Cat6 Snagless patch cable comes with tight technical specifications made for other purposes as well including cross-talk and system noise.
CAT6 patch cable
Constructed out of large 23 gauge copper, it has four twisted copper wire pairs while the earlier Cat5 used copper wires of 24 gauges. A large number implies a smaller wire when it comes to wire gauges.  Terminals constructed of RJ-45 electrical connectors, the Cat6 cable segment is maximum 220 meters long.
A repeater is generally installed for long distance data transmission to avoid glitches and snags. Systems running over Cat6 cabling will encounter few errors due to its faster and enhanced transmission performance with high quality immunity from peripheral noise. Cat6 Networking Patch Cables will handle bandwidth intensive applications up to 550 Mhz and beyond.
Installation of CAT6 Snagless Patch Cable
Splitting is a difficult task when it comes to installation of Cat 6 cable as the conductors are entwined more tightly than any of its earlier categories. Apart from this one feature, everything else is similar to the installation of Cat6 cables.
You will be provided with the panels and jacks with chiselled teeth that will aid you in separating the conductors apart in pairs for a hassle free installation of your Cat6 cable. It is advisable to take a while in going through the instruction and install the CAT6 high speed networking cable avoiding hurting your fingers.
The Future of Cat 6 Snagless Patch Cable
Technical experts are of the opinion that Cat 6 cables will overpower the usage of CAT 5E cables in the days ahead. The fact that CAT6 cables are compatible with its earlier standards specifically with the CAT5, as it holds a wider scope of usability.
This CAT6 Snagless cable upgrades your whole system functioning like when you remove that one blockage in your plumbing channel that ultimately provides with an increased flow. The data transmission hence becomes more fluid and effortless with its incorporation.

How to Choose the Best Ethernet Cable for Gaming?

It is a well-known fact that high-speed Ethernet cable gives faster and reliable connection compared to a Wi-Fi network. An extensively designed gaming Ethernet cable helps to enjoy continuous gaming experience without any lagging or connection interference.
Selecting a quality cable for Ethernet connection is a confusing job as all wires are not the same. Also, network cables vary in price, speed, size, and security.
If you are searching for an Ethernet cable for Xbox or a Playstation, then a decision should be taken wisely. This article discusses the best high speed ethernet cable for gaming and qualities to look for in a cable.
General measures like knowing the type of network connection, what speed an ISP is providing you, length of cord needed, and whether to opt for a multi-color option or not can help to choose the best suitable option.
Characteristics Of Ethernet Cable To Look For Before Buying:
Ethernet Cable Category
Ethernet cables are standardized into multiple categories. Each category basically depicts the cable capabilities. Generally, Cat5 and Cat5E network cables are used in household applications because of their affordable price and they work perfectly for connections up to 100mbps.
Moreover, Cat-6 and Cat-6a cables are more appropriate for professional and commercial installations as they offer up to 10gbps. Cat-7 and Cat-7a are the latest Ethernet cables offering even higher speeds.
Length
Length of LAN cable directly affects the signal quality. As the length increases, signal quality lowers, which results in slow transfer rates and reduced network performance. It is better to select the shortest length of cable possible to connect devices, as they come with readily attached connectors.
It is always advisable to measure the distance between the gaming console and router. While selecting Ethernet cable, mostly recommended length limit for a cable is 100 meters.
Compatibility With Various Equipment
One essential consideration for gamers is that many internet cables are manufactured by original equipment provider. They are normally marked with the OEM brand, and so the majority of gamers opt to buy same cables as they are guaranteed to work with all game consoles. Inquire which jacks are supported by game console so the cable can be chosen accordingly.
Wireless Access Point And Its Capacity
Along with cable, choosing an appropriate access point holds equal importance. Ensure that a thorough and careful research is carried out before purchasing a best wireless access point so that it meets the minimum requirements. Capacity is always a vital consideration when choosing the standard wireless access point.
Can I Use CAT Cables?
Yes! When you have heavy gaming needs, there’s nothing like CAT Cables. And you can choose between Cat5E and CAT6 cables. CAT6 cables work on 550MHz whereas Cat5E is rated at 350MHz.
Remember that although both these cables can be used in place of each other, CAT6 works on the latest technology and are more advanced as compared to Cat 5E. Also, if you are into downloading heavy game files and playing games on the internet, CAT6 is the right choice.
Things To Remember While Upgrading To CAT6 Ethernet
Avid gamers do not like interruptions and issues that can actually end their game. While upgrading, if the category of all the cables in your network is not same, it can slow the systems and affect your productivity. So if you decide to upgrade to CAT6, make sure all the cables in the network are of the CAT6 category.
Go through the manual if you are using a DSL modem. Reason? Well, it is important to connect a device to it through an Ethernet Crossover Cable. Most of the Ethernet and Patch Cables have RJ45 gold plated male jacks. Which means you can attach them to any kind of ethernet cord. There is a variety of colors available in these cables so that you can easily recognize between crossover and patch cables.
The businesses that need to take stringent security measures make use of different colors so that they can know the type of information being sent through these networks. But as you use these for gaming, you do not need to be extra cautious.

Cable and Connectors Used For Transmission of Data

A transmission medium is required to carry every type of information that travels from source to destination. Cables and connectors are used for transmitting data along a channel. A structured cabling system is the foundation of every business network. Cabling provides connectivity between servers, computers, and other network devices. Hence cables and connectors are part and parcel of each other. Transmission media used can be wired or wireless. In wired transmission, cables are used for transferring signals whereas in wireless transmission, electromagnetic waves are used to transmit data from one device to another. There are three types of cables used in wired transmission namely twisted pair cables, coaxial cables and fiber optic cables.
Twisted pair cables are used for transmitting data in small areas. These cables are further divided into two types. Shielded Twisted Pair (STP) and Unshielded Twisted Pair (UTP). RJ45 connector is used for connecting UTP cables. UTP is further divided into seven categories based on quality of cable. CAT1 cables are used in telephone lines with small data rate whereas CAT6 is used in LAN connections with high rate of data transfer.
Coaxial cables carry signals with a frequency higher than that of twisted pair cables. These cables are categorized with the help of Radio Government (RG) ratings. RG-59 cables are used for cable TVs, RG-58 for thin Ethernet and RG-11 for thick Ethernet. BNC connectors are used for connecting coaxial cables.
Fiber Optic Cables are used for transmitting high speed, longer distance signals with minimum interference.  Two types of connectors are used for connecting fiber optic cables. SC connector is used for connecting cable TVs whereas ST connectors are used for establishing connection between networking devices.
Different types of cables and connectors are used for different environments. The inside plant fiber cable systems are used for establishing various connections within a building. Fiber ribbon cables are frequently used for inside plant connections. Outside plant fiber optic systems are used in case of outside or underground cabling. Cables are also used in security cameras and almost every electronic device. CCTV cables are best for security camera in conjunction with BNC connectors. Connectors can be of crimp type or compression type or modular connectors suiting the requirements. Find out more about cables and connectors by browsing through the internet.

What Makes Fiber Optic Cables Better Than Copper Cables?

Fiber Optic cables are the first choice when it comes to making network installations and upgrades. This is because they transmit data really fast. They’re also the most preferred option for enabling good quality internet connection. So what else makes them superior to copper cables? Let’s check out.
1. Thin And Robust
As compared to copper cables, fiber cables are much lighter and thinner in weight. Plus, as fiber doesn’t carry electric current, the data transmission doesn’t get affected due to electromagnetic interference. For every fiber optic cable, the pulling specifications are 10 times more than copper cables. Also, storing and handing them is extremely easy due to its small size. Unlike copper cables, they don’t offer fire hazard which makes them safer to use.
2. Better Speed
There is a core in fiber optic cables that carries light in order to transmit data. It enables the cables to carry signals at a speed which is only 31% slower than the speed of light. And that is what makes them faster than CAT5 or CAT6 copper cables. When you use fiber cables, you will observe that there is much lesser signal degradation as compared to copper cables.
3. Remarkable Bandwidth
Copper cables have a limited bandwidth as compared to fiber optic cables. This is because they were designed keeping the voice transmission in mind. Fiber offers a standardized performance of up to 10 Gbps and has a greater bandwidth. It can also carry more information with better fidelity as compared to copper wires. However, the fiber speed depends on the type of cable used. Most of the CATV and telephone companies are converting to fiber due to the kind of bandwidth it offers.
4. Greater Reliability
Fiber optic cables are immune towards temperature changes, moisture and extreme weather conditions. Its core is made of glass which acts like an insulator letting no electric current flow through it. It also stops any kind of electromagnetic interference and radio frequency interference. So there is no need to worry even if you want to run a fiber optic cable next to industrial equipment. Fiber cables are less vulnerable to temperature changes and can also be submerged inside water.
5. Superior Security
With fiber cables, your data is much safer. It is not possible to tap a fiber cable. Even if it is tapped, it is easy to monitor such an activity as the cable leaks light and fails the entire system. Hence, if someone tries to damage the physical security of your fiber system, you will get to know about it in no time. As fiber networks enable you to put all your hardware in a centralized location, you do not need to have wiring closets with equipment all over your building.
6. Covers A Longer Distance
10 Gbps singlemode fiber cables have the capacity to carry signals up to 25 miles. Copper cables, on the other hand, have a typical 328 foot limitation. The distance covered by a fiber optic cable depends on the type of cable, its wavelength and the type of network it is used for.
If you want better and faster connectivity, it is advisable to choose Fiber Optic cables over copper cables. You can buy these cables online and choose the one that fits the best for your needs.

Understanding Signal Transmission in Fiber Optic Cables

The primary function of fiber optic cables is to send signals across long distances. The transmission of these signals takes place in the form of light. This answers for the speed of broadcast and its zero interference with other electronic devices around.
How Does It Actually Work?
Each of the cables constitutes thin strands of glass, which we often hear of as ‘fiber optics.’ These pieces of glass form the core of these cables and facilitate the major task of sending data, assisted by Fiber Optic Patch Cords. But doesn’t light travel in waves, spreading straight from its point of diffraction?
Yes, absolutely. Then how do light bend around corners while running through the length of the fiber optic cable? Let’s try to unravel the science that goes behind it.
How Light Bends Through Fiber Optic Cables?
The Mirror Effect
When you show a flashlight beam across a hallway, you will see the length of the light extending till the next bend but won’t be able to see anything further. But placing a mirror on the corner does the trick. You can now see the light bending further. This is because the mirror reflects the light. That’s exactly how the fiber optic cables basically work.
Internal Reflection
The reflection on which these cables operate is often termed as ‘total internal reflection’. That’s because when you send the light signal, the light remains within the cable and reflects internally. This also ensures the data isn’t lost during the transmission.
But the signals sent through fiber optic cables eventually degrade. That’s because of the decay of the signal either due to the wavelength or the affected purity of the optic glass.
Why So?
The wavelengths that fiber optic cables utilize to send over information are much longer than the light visible to use. We call these invisible ranges of long light ‘infrared’. These infrared waves are when passed through the fiber optic cables weakens the transmission of data either by absorption and scattering.
So, basically, the length of the waves reduces the accentuation of the fiber optic cable. And if we use longer waves with lower frequencies, it would result in heat interference. The temperature of surrounding objects will thus be affected resulting in signal loss.
How To Ensure Maximum Utilization?
Though fiber optic cables do eventually degrade, getting good quality cables and accessories can increase its life significantly. For optimum functioning, consider buying quality cables. The wavelength of a typical good quality fiber optic cable varies from 850 to 1550 nanometers.
The accessories are equally important. The fiber optic patch cords that connect the devices through which the information transmits should also be of best quality. Often the patch cords decay and are assumed as cable decay, resulting in increased cost investment. Therefore, it’s always a great idea to get your electronics supply only from branded and reliable manufacturers. It’s not only important for the longevity of the supplies but is also imperative from the point of view of safety.

Everything You Need to Know About Fiber Optics Cable

In the recent years, fiber optics is steadily replacing copper wires. It is a better and apt means of transmitting communication signals. Today, fiber optics cable span across long distances between local phone systems. In addition, it also serves as the backbone for many networking systems including:
Cable TV services
University campus
Office buildings
Industrial plants
Electric utility companies
Internet connectivity
Stereo systems
Telephone systems
Fiber Optics Cable use pulses of light to transfer data using the event of total internal reflection. The cable has a coating of plastic. This protects the cable from exposure to heat, cold, and other weather atrocities. It also protects the cable from electromagnetic interference and ultraviolet rays of sun. These cables are the most reliable and fastest data transfer cables on the planet.
A fiber optics cable system is very similar to the metal wire system. The fiber optics is replacing the metal and copper wire system. The basic difference is that fiber optics uses light to transmit data; whereas metal wires do not. It sends the data down the fiber lines instead of using electronic pulses for transmitting data like in the metal wires.
Fiber Optics Cables serve the purpose of connecting and transferring data across continents. They are fast and they can carry large capacity. The signals have higher strength and need least maintenance.
Types Of Fiber Optics Cables
There are three types of fiber optic cable commonly in use. They are single mode, multimode, and plastic optical fiber or photonic fiber. Transparent glass or plastic fiber allows the guiding of light from one end to the other with minimal loss is the most efficient.
Single Mode
In a single mode fiber, the core diameter reduces to few wavelengths of the incoming light. For a beam with 0.55 μm of wavelength, the core diameter must be of the order of 4.5 μm.
Under this situation, the core is so small that only the primary mode can travel inside the fiber. Given the wave broadcast of the light inside the cavity, there is no other way for the light to take longer optical paths.
Multimode
In this fiber, the core diameter is much greater than the wavelength of the transmitted light. The transmission of number of modes is simultaneous. The possible ways in which, light travels inside the fiber is relative to the fiber modes. The primary mode travels parallel to the axis of the fiber. Therefore, it takes the minimum time to reach the end of the fiber.
When an incoming beam enters with an angle relative to the fiber axis, the light follows a longer path. Thus, it takes a little longer to reach the end. When you increase the core diameter, you can increase the transmission of number of modes.
Photonic Fibers
In photonic fibers, the number of cavities around the core guides the transmission of light. The core may be present in a glass or even an air cavity! These are new fiber optic cables available in the market. For the moment, their performances are still under the observation for astronomical applications.
Fiber Optics Cable Connectors
Fiber optics cable connectors make flexible connections possible. Fiber optics cable connectors are generally in use where flexibility is in need. Fiber optics cable connectors are also a necessity at termination points when an optical signal routes.
Polish And Epoxy Connectors
Polish and Epoxy style connectors were originally in use for termination. These are still under very high rate of extensive installation. These connectors offer a wide range of choices including SC, ST, LC, FC, SMA, D4, MT-RJ, and MU. Some of their advantages are present in the list below:
Sturdiness – skill to bear higher levels of environmental and mechanical stress
Cable size – Usability with cables of varying diameters, from big to small
Multiple Connectors – Can handle single and multiple cables (up to 24) in a single connector
Polish And No-Epoxy Or Pre-Loaded Epoxy Connectors
The main advantage of these connectors is that they are easy to install. This translates to lower skill levels in need to handle them. These connectors can have further division as follows:
Connectors without epoxy
Connectors with preloaded epoxy
The fiber has stabilization by an internal crimp mechanism and these connectors are available in SC, ST, and FC styles.
No Polish And No-Epoxy
Simple design and low cost are the hallmarks of these connectors. The result of training and installation is a higher cost reduction. Moreover, this also enables fast restorations. They are available in SC, ST, LC, FC, and MT-RJ connector styles.
Numerous connectors, both standard and proprietary, are in use in the field of telecommunication equipment, data lines, television, cable, and other industrial fields. The connectors described in this text are the ones that are under extensive use in the past. Many are still under use this very day.