SF Cable Blog - Get Expert Tips & Advice on Cables & AccessoriesIn our blog, we educate customers on the various types of cables, components and accesscories for computer, laptops and mobiles. Find More Blog
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SF Cable Blog - Get Expert Tips & Advice on Cables & AccessoriesIn our blog, we educate customers on the various types of cables, components and accesscories for computer, laptops and mobiles. Find More Blog
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The basic definition of patch cables means an electronic cable which connects electronic devices. It allows the transmission of data between them. There are different types of patch cables in the market with fiber optic patch cables being one of the types. Other types include microphone, headphones, RCA, and ethernet.
Fiber optic patch cable, cord or often known as optical jumper, is a fiber cable terminated with fiber optic connectors (LC, SC, MTRJ, ST, and more) at each of their ends. These connectors allow the cord to stay connected to an optical switch or other computing devices. These cords are ideal for indoor use in server rooms, data centers, medical imaging, mechanical engineering, LAN applications, Cable TV networks, Telephone lines, and more. If you are looking to buy fiber optic jumper for your system, first you should be aware of its types and functionalities. And then choose according to your requirements. Let’s dive in! Armored Fiber Patch Cord: It is stronger than the standard fiber patch cord containing all its features. Armored fiber patch cord is resistant to adults’ stepping and is anti-rodents. It is as flexible as a standard fiber optic patch cord. Bend Insensitive Fiber Patch Cord: It is resistant to bend related damages. It contains a small cable bending radius and prevents additional bend damages by its inventive core design. And also because of its low macro-bending sensitivity. It supports data center, FTTH applications, and high-density cabling that have to be wrapped and adjusted in the tight corners. Mode Conditioning Fiber Patch Cord: It is a duplex multimode fiber patch cord which has a small length of single mode fiber at the starting point of the transmission length. It is to solve technical issues involved when using single-mode equipment on the existing multimode cable plant. This type of cables’ major aim is to drive the distance of installed fiber plant beyond its original applications as well as to improve data signal quality. Low Insertion Loss Fiber Patch Cable: It looks similar to common patch cable by its appearance. But its connectors at the ends contain relatively less insertion loss. Uniboot Fiber Patch Cord: These cords terminate with specially designed LC uniboot connectors. This fiber patch cable unites two fiber in a single cable which delivers high better performance in the high-density cabling environment. It cuts down the cable count up to 50%. It represents the best fit for places where there’s a scarcity of place. Switchable Fiber Patch Cord: It enables fast polarity change in the field without needing special tools or training. With a compact design, switchable fiber patch cord attributes to more efficient cable management in high-density environment. And Here’s How To Choose The Right Fiber Optic Jumper: Step 1: Choose The Right Connector Type The ends of fiber optic patch cord contain different connectors including LC, SC, ST, FC, MPO, and MTP. Kindly note that these connectors are for different devices. If you want to connect similar ports type devices, use connectors with the same type of connectors on both ends such as LC-LC, SC-SC, MPO-MPO. If you want to connect different ports type devices, LC-SC, LC-ST, LC-FC cables might help. Step 2: Consider The Mode These patches are available in two types of modes: Single-mode and multimode. Single-mode patch cables are ideal for long-distance data transmission. If you are looking for relatively shorter distances, multimode fiber optic patch cord could be an ideal choice. Step 3: Simplex Or Duplex Cable? Simplex means the fiber patch cable contains a single strand of glass or plastic fiber. It is generally used where only a single receive or transmit line is required between devices. Duplex means two fiber patch cables put side by side for common transceivers. Duplex cable type contains two strands of glass or plastic in comparison with the simplex cable. Step 4: The Right Cable Length These cables come in different length. Starting from 0.5m to 50m. It is of utmost importance to choose an appropriate length according to the distance between the devices you wish to connect. Step 5: Connector Polish Type There are two connectors available. APC and UPC. APC connectors are suitable for applications like FTTx, passive optical network and wavelength-division multiplexing. However, it is more expensive than UPC connector. For less sensitive digital system, UPC connects would be ideal. Step 6: Choose The Cable Jacket Type There are three jacket types: Polyvinyl chloride, Low smoke zero halogen, and Optical fiber nonconductive plenum.
Do not consider fiber optic patch cables with normal cables. Here’s what you need to know about fiber optic patch cables to select the right one for you. If you found this blog post useful, here are some other blog posts that may be of interest. Know the Right Time to Adopt Fiber Optic Technology Fiber Optic Cables Vs Ethernet Cables: What Is the Difference? Fiber Optic Cables and Their Multiple Benefits! Everything You Need to Know About Fiber Optics Cable What Makes Fiber Optic Cables Better Than Copper Cables?
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Supposedly, you have to install data cables for your newly built house. But don’t have any clue about them. And we all know that it can get overwhelming with the variety of ethernet cables available in the market such as Cat5, Cat5e, Cat6, Cat6a, Cat7, cat8, and so on.
So, if you are selecting the cable for your place then it is important to understand their features and capabilities. Presently, Cat 7 and Cat 8 cables are marking their presence in the market with their efficiency and compatibilities with other ports. And complicated questions are bound to arise like if using Cat 8 with standard Cat 7 would work or not. To answer such questions before they arise, let’s understand Cat 7 and Cat 8 in details including their main differentiating point. General Information: Cat 7 Cables: Category 7 cable known as a Cat7 or Cat-7 cable is used to cable the infrastructure of Gigabit Ethernet. It offers up to 600MHz. A perfect choice to cable your smart home. After cabling, you can even check for the automation ideas. It supports high-speed ethernet communication up to 10 Gbps. These are backward compatible with Cat6, Cat5, and Cat5e categories. It provides a 100-meter 4-connector channel with shielded cabling. They require twisted wires to become a full shield system. Such systems are known as screen shielded twisted pair (SSTP) or screened foiled twisted pair (SFTP) wiring. It eliminates alien cross-talk with improved noise resistance. It allows users to get higher speeds with longer cables. Cat 8 Cables: Category 8, Cat8 cable or Cat-8 cable is an ethernet cable which is a different type of cable standing apart from the previous cables. It supports a frequency of up to 2GHz(2000 MHz). It is limited up to the 30-meter 2-connector channel. It requires shielded cabling as well. The major point to consider is that it can support a speed of 35 Gbps or 40 Gbps. Overall, its physical appearance is similar to lower category cables. They terminate in RJ45 connections or non-RJ45 connections. It is compatible with all its backward versions. You can use it with the standard connectors of previous versions such as Cat-7. Cat 7 Vs Cat 8 Comparison While comparing these cables transmission frequency and cabling length are of great importance. Here is the detailed comparison: Performance: Cat7 cable offers performance up to 600 MHz Whereas Cat8 offers up to 2000 MHz Cabling Length: The maximum cabling length of Cat 7 network is 100m with 10 Gbps. Whereas Cat8 is limited to 30m cabling length with 25 Gbps or 40 Gbps. Pricing: If we consider pricing, Cat 8 cables are more expensive than other standards considering its unique features. Shielding: Both the cables have shielding cable construction. Cat 7 cable offers extensive shielding for reduced attenuation. And they require special GigaGate45 connectors to attain the full advantage of its higher performance features. As Category 7 cables offer 1 100-meter 4-connector channel with shielded cabling, even if it operates at a higher frequency, there would be no improvement in data rate. Because 10GBase-T is still the fastest twisted pair-based data rate recognized by IEEE 802.3. Hence, even if a Category 7 cabling system is there in your network, any available active equipment would have limitations up to 10-Gbit/sec performance. It is not a recognized category by TIA. Category 8 cables require shielded cabling. Unlike Cat5e to Cat6A, it does not come with an unshielded twisted pair. The most likely cable construction for Category 8 will be 22-AWG S/FTP cabling. Features Summary: Pros And Cons:Cat 7 Cables:
Pick Your Choice! These cables are modern-day products designed to cable appropriate environments. Based on the feature comparison, you can pick your choice to make a that fits your requirement and helps you render maximum data speed. Here is a detailed overview of the differences between Cat 7 and Cat 8 cables. Understand their features and their use cases for a high-speed network system. Still confused which cable to pick? Post your query in the comment section below and we’ll try our best to help you out. If you found this blog post useful, here are some other blog posts that may be of interest. Cat 8 Cables: Soon to be a Boon in An Average User's Life The A, B, and Cs of Ethernet Cables: An Infographic Comparative Analysis of CAT Cables: Choosing the Right One! CAT 5E, CAT 6 and 6A: Choosing the Right Cable with the technological advancements & increasing internet speed raises a question as to whether to use traditional copper as the physical interconnector or upgrade to fiber to support these higher speeds.
In this blog post, we are going to see the main difference and consequences of using both on the same platform. Size And Space: The main difference will be fluctuation in size and weight. Everyone has seen a traditional Cat5/Cat6 and a fiber cable. The clear difference here is that a duplex fiber optic cable provides 25 percent space savings and 50 percent weight savings over shielded bulk cat5e cable. Moreover, optical fiber cables are lighter, thinner, and more efficient than their copper counterparts. However, it is important to note that fiber cables are a bit more fragile and require special tools to terminate connections. Transmission Speed: Traditional Cat5 twisted pair copper cables support a transmission rate of 100 Megabits per second. On the same side, Cat 6 supports an impressive rate of 10 Gigabits per second up to a distance of 300 feet. Whereas new fiber cables and new transmission protocols are booming each and every day. For mobile military platforms, fiber can support anywhere from 100Mbps up 10 Gbps. However, in data centers and service provider interconnects, fiber support the speed of 40, 50, 75, and 100 Gbps. And you can even see 400Gbps speed tested and implemented. Signal Loss: One of the major disadvantages of copper bulk ethernet cable is that they experience mass signal loss over long distances. If we look at the effective limit of a copper run, that is about 100 meters. Other distances longer than that require ethernet switch, ethernet extender or media converter that can basically link two runs of copper together. Another way is to terminate the copper run and add a link to a fiber connection for the additional distance. On the other hand, fiber optic cables can run without significant signal loss over longer distances. As new technologies are constantly coming ahead, a single mode fiber can support up to 100 Gbps up to 10km without any significant signal loss. EMI And Cross Talk: Copper cabling is responsive to crosstalk and both radio frequency and EMI as it transfers an electrical signal. Cat6 Ethernet cables lessen the interference, but it does not escape it. The interference can be controlled with several measures which include an internal spline to separate the twisted pairs. As the fiber optic cable doesn’t carry electricity but light, it is immune to the interference problem which can plague copper cabling. Environmental Concerns: Copper cables can potentially be a fire hazard in the long run. Because there is an electrical current passing through a plug which can wear over time. Whereas there is no electricity involved in the transmission of fiber optic signals, there is no concern of fire. Many users believe that fiber’s size and weight make it less resistant to the installation. But the fact is fiber is more durable with a higher tension limit than copper and stands up to environmental changes. But why till date many of the platforms still use traditional bulk cat5e cable/cat 5 cables?
In the meantime, there are various ways to handle this situation. Many bulk ethernet cables and switches support the connection of copper as well as fiber. This way, devices connected with either physical medium will be able to communicate with each other. In such a scenario, physical media converters can act as a bridge between the two media offering a range of configurations which support fiber in/copper out or copper in/fiber out or many other configurations. When it comes to big enterprises and data service providers, they have the way to replace copper with fiber in almost every new deployment. However, mobile and airborne platforms lag behind this evolution for many reasons. Speed requirements are not that much in demand, but field repairs and deployments are often harder. And finally, there comes the cost factor. We can expect to see the continued evolution from copper to fiber, but at a controlled pace. In the meantime, we can continue seeing the physical intermediary technologies that co-exist for many years to come. Though fiber cables have replaced the traditional ways the copper cables used to work, there is a way they can co-exist. Find out how? If you found this Blog post useful, here are some other Blog posts that may be of interest. Fiber Optic Cables Vs Ethernet Cables: What Is the Difference? Selecting The Right Bulk Network Cables - How to Go About It? Everything You Need to Know About Ethernet Cables CAT 5E, CAT 6 and 6A: Choosing the Right Cable In the present scenario, we find more USB cables in our drawers than the documents. I am sure that your drawers are full of different USB drives, cables, and chargers you bought over the years. Their overall quality has improved over the years. Now, they charge your devices more quickly and transfer files at an astonishing rate. But they haven’t gotten any secure.
And that changed a few months ago. We all are aware of the USB-IF. It is an industry group which is responsible for the development of USB standards. Back in January, they announced the USB Type-C Authentication Program. During the press conference, they put the utmost importance on authentication. Further, they said that it would empower the host system to protect against non-compliant USB adapters and decrease the risks of malicious firmware or hardware in USB devices. How USB Cables Are At Risk? In case you are not aware of it, the USB ports on your devices entail a crucial security point. There are major hacking risks from hackers, as they can tamper with public chargers and use them to hack phones and other devices with malware. They can easily ship some nasty malware which would seriously damage your data. USB-C With A Solution With USB-C authentication, it would be an obstacle for hackers to attack your devices. For example, while connecting your phone with a charger, it would establish a particular connection with that charger. If everything works out well, it would create the connection and the current would start flowing. In case anything looks suspicious the phone would deny the connection. The USB Type-C authentication program would address two major issues with Type-C hardware:
Hence, by implementing this authentication program, at the hardware level, can protect users from harmful firmware which might be hiding on USB devices. The related authentication keys would prove that USB-C is safe, which would allow your computer or phone’s safe and secure connectivity. The major purpose behind creating such security is to create a secured junction between different USB Type-C devices. For instance, if you’re at the shopping mall, and want to charge your phone at one of those charging stations, you are worried about its security. When there is an authentication program in place, your phone will instantly deny any connection if there is a chance of malware. However, for now, this program is going to be optional for the users. But there is a possibility that the program could become mandatory which help all USB Type-C equipment to stay safe. Recently USB-IF president Jeff Ravencraft said that “USB-C is the future,”. According to him, if the connection protocol would come in effect, it would help all the devices to stay safe. In fact, there would be one cable to rule them all. Hence, they are working toward making its security more authentic and prevent nefarious elements from violating the ubiquity of cables and ports. This authentication program could protect your laptop or desktop PC from malicious USB drives in the same way any anti-virus software protects your PC. The USB-C signature on the drive would be compulsory as a sign of reorganization, otherwise, the computer won’t permit a connection. Till this date, the security upgrade is welcome. But, there is a chance that manufacturers could theoretically lock their devices to their own cables and USB adapters. It could all come down to how selective companies will be about implementing USB type-C authentication. Currently, at this stage, this program is only here as a recommendation. It is not mandatory to implement it to your computers. But we can say that such initiative certainly points to the future security requirements for USB-C according to USB-IF president. In the present year, the latest iPads even include USB Type-C ports. The first Apple mobile product, which is not using one of the company’s proprietary ports. You can literally connect keyboards, audio interfaces USB, MIDI devices, cameras, external storage Ethernet cables, and what not! It is not adding anything in terms of compatibility with other USB devices. It will be just the way you connect them. The beauty of a USB-C hub is that you can create a permanent workstation on your desk and dock the iPad to it. This hub can connect power, an audio interface and speakers, musical instruments, a USB keyboard, and also provide an SD card reader. Now, if Apple itself could use the USB-C, we can expect a better future which is more secure. What do you say? With the increasing hacking and an unsecured environment, even a USB can be a big threat to your data. Learn what the future looks like for USB security. If you found this Blog post useful, here are some other Blog posts that may be of interest. Five Types of USB Type-C Adapters You Must Know About Why Should You Choose USB Type C Over All Other Cables? Some FAQs About USB C Cables Answered! Insights About USB C You Might Not Have! Unless you have been living under a rock for the past couple of years, you know the whole controversy about phone companies doing away with the headphone jack and replacing it with a USB-C or Lightning port (in case of Apple devices). Apple was the first one to do it, and as usual, the industry followed. While phones are usually used to consume music on the go, and therefore, consumers have almost come to accept it, and are living the dongle life. But the world is not yet ready for completely doing away with the headphone jack. People still consider audio cables are best suited for clear audio delivery. And they are not wrong to think that. RCA cables have established themselves in the music industry to deliver top of the line experience. They are now also compatible with other kinds of audio connectors. RCA cables deliver stereo sound via two cables that have connectors that are usually red and white colored, red of the right and white of the left stereo sound. Sometimes these cables have the same connectors on the other end as well. If not, they merge into a single 3.5mm jack. Let us walk through all the uses of this 2.5mm to 3.5mm audio cable: TV setup: RCA ports are generally on televisions that need to route audio to a speaker or headphones. This pair of devices, TV, and speaker connect via male to male 2.5mm to 3.5mm audio cable (RCA connectors are 2.5mm connectors). A 2.5mm or 3.5mm audio cable combines the functionality of these two channels into one. Gaming setup: Similarly, a gaming setup also needs an audio output. Gaming consoles don’t have very powerful speakers, so for a more immersive experience, you have to connect external speakers or headphones. If you prefer analog connectors because it delivers better audio, gaming consoles have RCA ports which support them. So, you can connect your speakers via the same male-to-male 2.5mm to 3.5mm audio cable. External Microphone Some headphones have microphones to connect to your computer for internet enabled voice calling, or for recording audio. In this case, headphones often have 3.5mm connector that splits into two, one for audio input through the microphone and one for audio output from the computer to the headphones. MP3 Player Another use case, of this particular cable, is when you have to connect your portable device, like a phone or an mp3 player; you can easily do that with a 2.5mm to 3.5mm audio cable. It gives you personal listening experience. External speakers: Slightly bigger equipment that gives a high-quality audio output has a 3.5mm female port on them. Therefore, if you want to connect a smaller, portable, audio device to it, in most cases, it will have a 3.5mm a female port. This makes a male-to-male connector cable of this specification perfect for it. With the invention of newer, faster, more versatile ports, the use of this cable and port has become limited and more niche. Consumer gadgets have almost entirely upgraded to the digital transmission of audio-video via HDMI or even USB-C cables and ports. Audio output equipment comes with USB-C ports now, while premium devices have switched to Bluetooth and Wireless technologies for audio output and input. Bluetooth and wireless technology, while very convenient, do have their own flaws. Sometimes the battery is not charged, or they have difficulty pairing with a device, or the chip malfunctions. Audio also tends to lag with these. The lag is insignificant if you are a casual consumer who uses these things for entertainment. But if you regularly have to mix audio, or edit audio video, a cabled connection will give you a more accurate audio output. If you are looking for a pure audio experience, it is better to have as much cabled connection as possible and RCA cables are the best cables to use. The 2.5mm to 3.5mm audio cable is classic and as long as devices have these analog ports, you can use them. RCA connectors are old, but there is a reason why manufacturers are not doing away with ports on their devices. This article walks you through various setups where they are convenient to use. Read on to know more. If you found this Article useful, here are some other Articles that may be of interest. How to Choose the Correct Audio Cable Splitter for Headphones? Why are RCA Cables Necessary in The Wireless Age? Cat 8 cables are still new and shiny. Pretty much no one uses them at home, yet. They are incredibly fast at 25Gbps to 40Gbps speeds. That kind of speed is only useful in a more industrial setting and after all, only such settings can afford the cost of it. The question to ask is what are the possible uses of such an extravagant speed that this particular network cable gives? We associate Internet speed with getting information faster, getting data faster. Since Cat 8 cables are made of copper as opposed to glass in optical fiber cables, they are more durable. They are more cost-effective as well. Cat 8 cables are useful in data centers that power all kinds of businesses and the internet, as we know it. While having your Twitter feed update faster than you can blink is great, but there is more to it. Having information about an accident on your daily commute route, before you leave for work is good so that you can avoid it. However, even this is a small issue in the face of getting information about an avalanche, landslide or a flood. This is not solely dependent on network cables but they are a big part of it. Getting the right information at the right time is what counts, at the end of the day. Let us focus on two daily uses of the internet that your average consumer does not realize as heavy usage: IoT enabled smart home: That is the concept behind having smart homes, smart workspaces and smart cars, that it helps us be more proactive in how we live our lives. Machine learning techniques power these smarts. Humans are creatures of habit, and the idea behind machine learning is that it learns your habits, and your preferences to always give you the right information at the right time. All of these smart things work because of the internet. The faster the internet, the better your smart devices and setup work! If you are looking to build a house from the ground up or changing all the cabling, you can put in Cat 8 cables. While it is not entirely necessary for perhaps a decade, it may be useful someday. It is a good thing that it is backwards compatible, like its predecessors. So even if you don’t immediately connect your modem and devices via a Cat 8 cable but perhaps a Cat 6 or Cat 7, you should be fine for a few years. When it comes to a smart home, it consists of smart thermostats, security cameras, smart doorbells, and smart lights, smart plugs, smart blinds, and smart garage doors. The high-speed internet that comes with this particular network cable keeps all of them connected to the internet, so you can be in touch with your home from wherever you are. If you forgot to turn off the lights, you can turn them off while getting to work. You can see who is at your front door by opening your security camera app even if you are sitting on a different continent. As simple as this sounds from the end user point of view, it takes continuous data transfers at very high speed. Gaming: Another industry where a faster network cable is good as well as necessary is entertainment. With cloud gaming gaining traction, both you and the data centers that host the game, need fast speed internet, to stream it in real time with virtually no lag. A Cat 6 cable helps you do just that, so all your gaming experience is fun. This is not limited to cloud gaming. You can use this cable for your gaming consoles as well, as most of them have an Ethernet port. Digital gaming or video gaming is the kind of activity where you will only be able to really enjoy the experience if it is fully immersive. Gaming is no longer limited to console gaming or even cloud gaming, there is virtual reality gaming as well as augmented reality (multiplayer augmented reality gaming also exists) gaming. Both of these won’t function with a weak or slow internet connection. Gaming is no longer just about gaming for yourself. There is a whole gaming community, many of who stream their adventures online. People play games online while talking about the game with anyone who wants to join in the conversation. This means that while you are streaming a game online, you are also live streaming video or audio of you playing that game. This requires a frictionless internet experience. All of this is to say that as humans we are only going to need the internet to be faster and more reliable as our dependence on it increases day by day. So, you have to pay attention to what you are powering that internet with and if it is capable of withstanding that traffic in the long run. Cat 8 cables will help you have that seamless smart home and gaming experience that you have always wanted. Take a look at why a fast reliable network cable influences that. If you found this Article useful, here are some other Articles that may be of interest. Some FAQs About Ethernet Cables Answered! Buying Ethernet Cables Online? Here’s What You Should Look For! How to Improve Your Internet Speed As a consumer who uses a computer for basic tasks like managing a small to medium work database, or some light content editing that is mostly text, you can simply use the new all-in-one type of laptops in the market. One that folds into tablet mode for touch screen web scrolling, and has a full keyboard to type out long emails, or make content strategies. But if you have ever tried to edit video or stream games on one of those laptops, you know that we are slightly far from eliminating a full size, customizable desktop setup.
A customizable desktop setup gives you the freedom to use whatever monitor you want, a keyboard you are comfortable with, a mouse that doesn’t make you hate scrolling and speakers that actually sound like they are trying to put in some work. The processor, RAM, and storage should cater to your requirements too. The most important thing about a customizable setup is that you can switch out anything you want, whenever! No need to compromise on anything. A crucial part of this setup is your monitor. You can have one that has widescreen, or you can have a setup with more than one monitor or even a wide curved monitor. The choice is all yours. We are here to talk about the various things that you might want to connect to these monitors. These monitors can be additional screens sometimes, not necessarily connected to any input devices, but simply as an output device, because of various reasons. USB-C cables power them, or standard c14 power cords depending on what your requirement is. USB-C powered monitors are still new, and they can transfer both power as well as video through the same cable. However, since not everything that you might want to connect to a monitor uses USB-C yet, you need to have a monitor that has dedicated power input and more than one type of input ports. Let’s take a look at some of the things you can connect to a monitor and how you can connect them: CPU:If you want to connect a CPU to a monitor, you will have a display cable that connects it, according to what ports your CPU and monitor have. They vary from old VGA ports to new USB-C ports, with DIV, and HDMI in between. The great thing about this is that you are not limited to using a particular CPU. You can connect any CPU you like. Camera:You cannot view or edit pictures on the small screen of a camera. So you will have to connect it to a monitor. Most cameras come equipped with HDMI mini, USB-B or USB-C ports now, so you would need to connect it to the monitor via a display cable that has compatible connectors. Tablet:A monitor can act as either an extended screen of a tablet or an additional screen. In both cases, it connects to the monitor via a video connector with a compatible cable. As tablets get more and better features in terms of the processor or touch display, they still have a smaller screen, which is not always enough to show off its computational power. So an external monitor is how you can see the output of all that power. This is a great option if you are editing a video clip or putting together a presentation. Another monitor:Very long video or audio files are much easier to edit when you can see them in detail. So you can add a second monitor to your setup using computer monitor cables, which can act as an extension. It gives you a much better idea when you are editing and helps keep things less cluttered. It is also easier to work if you are someone who needs to have multiple windows open and need to be able to view all of them at once. It increases your screen real estate. There are plenty of reasons that you will need a monitor, but with monitor comes a whole lot of other computer monitor cables that you need to keep at hand to connect it to anything you may require. If you need to input plenty of different devices into a monitor then it only makes sense to buy one that has a dedicated power input from c14 power cord, because while a single port monitor is new and that’s where the future might be going, it is not practical right now, because not everything is USB-C yet. This Article is Originally posted here; How to Use an External Monitor for a Better Working Experience If you found this Article useful, here are some other Articles that may be of interest. Different Types of Monitor Cables for your Needs Everything You Need to Know About Nema Power Cords What are Power Cords? Which Cord Powers Your Computer? |
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