Cable Manufacturer

Sunshine is a professional cable manufacturer. we do have kinds of USB Cable, Fibre Optic Cable, HDMI Cable, Cat Cable, Power Cable, Coaxial Cable, DisplayPort Cable, DVI in Cable, Telephone Cable, Lan cable and RCA Cable. Wires and cables serve a critical role in a wide range of industrial, commercial, and residential applications by facilitating the transmission of power and data in and between connected devices, equipment, and systems.

Given a large number of applications, wires and cables are designed and manufactured in numerous standard variations, each of which offers unique characteristics that make them suitable for different use cases. Sunshine could provide OEM cables and ODM cables for you with monoprice.

Cable Type Series

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OEM Cable & ODM Cable - Sunshine

in China and Vietnam

Testing Equipment


Product Certified

Company Qualified

Lab We Work With

Advantages of Choosing a Custom Cable

There are many reasons to choose a custom cable over a standard cable.


Better Performance

Investing in custom cable gives you the freedom to design and manufacture a connection solution that meets your exact needs. As a result, the cable is more likely to operate effectively and efficiently, resulting in better transmission and lower energy.


Longer Service Life

Since custom cables are tailored to the voltage, current, and other operating parameters specific to the intended application, they are equipped with the characteristics necessary to offer reliable performance for longer than standard product solutions.

Broader Flexibility/Versatility

Custom cables allow you to design your products how you envision them rather than working around the limitations of standard cables.

Design Considerations for Custom Cables

Once you've decided to invest in a custom cable solution, an experienced cable manufacturer can guide you through the design process. Some of the key design elements to consider are.

Cable Type

There are cables for everything from small consumer electronics to medical machines. As such, it is important to choose one that is designed for your particular application. Your custom cable manufacturer should offer you a broad selection of conductor options—e.g., single-conductor, multi-conductor, multi-paired constructions, etc.—so you can choose the one that best suits your needs.


IThe amount of flexibility or rigidity required in a cable depends on the application. Solid conductors are used for cables that need greater rigidity, while multi-stranded conductors are used for cables that demand greater flexibility.

Indoor vs. Outdoor Use

Custom cables for indoor environments have different requirements than custom cables for outdoor environments. Cables intended for outdoor use must include sufficient protection to protect them from extended exposure to the elements.

Industry Standards

Cables must comply with various industrial regulations for the safety of end-users. Some of the relevant standards are:
UL Standards: These standards are established by Underwriter Laboratories, a standardization organization dedicated to establishing safety and performance standards for products and equipment in the United States and Canada.
CSA Standards: These standards are created by the CSA Group, a non-governmental standardization organization that provides product safety and performance guidelines.
NEC Standards: The National Electric Code (NEC) outlines safety guidelines for the installation of electrical equipment and wiring.

Key Components in Custom Cables​​​​​​​

Cables consist of several components—including conductors, insulation, shielding, jacketing, and filler—all of which must be carefully selected to accommodate the operating and environmental conditions of the application.
  • 01


    Conductors are at the core of all cables. These components come in a variety of materials and configurations to suit different applications. For example, they can be made from bare copper, tinned copper, or silver-plated copper wire in gauges ranging from 28 to 4 AWG and configured. Your cable designer can help you to determine the best conductor material and configuration for your application.
  • 02


    Insulation prevents conductors from coming into contact with each other and the external environment. Some of the most commonly employed insulating materials are polyvinyl chloride (PVC), polyethylene (PE), Teflon (PTFE, etc.), and polypropylene (PP). Each of these materials exhibits different levels of resistance to electrical potential, temperature, moisture, abrasion, and UV radiation.
  • 03
    Shielding protects cables against receiving and emitting electrical interference, which can affect the purity and consistency of signal transmission. The type of interference you need protection against determines which shielding material is needed. Typical material options include mylar foil wrap, braided wire, spiral serve wire, or combinations of these types.
  • 04


    The jacket of a cable is its outermost layer of insulation. It provides protection against environmental conditions such as heat, moisture, and abrasion and plays a large role in determining the flexibility of the cable as a whole. Many of the materials used for insulation are also used for jackets, including inexpensive PVC, and weather-resistant polyethylene (PE). Additionally, there is strong and flexible polyurethane (PU).
  • 05


    Fillers are generally added to cables to achieve a rounder shape. Similar to the materials from other cable components, the materials for fillers must accommodate the electrical and environmental requirements of the application. Common fillers include polyethylene, polypropylene, nylon, paper, and cotton.

Why Choose Sunshine as Custom Cable Manufacturer?

At Sunshine, we are big advocates of custom cable, especially since it's our specialty! Here are the key benefits of custom cable:


Custom cables are often the only option that incorporates specific features required for extending the lifespan of the product. Specific electrical parameters, tolerances, and suitability for specific environmental conditions can be ensured. And we can offer a variety of cable types, like optical cable, speaker cable, lightning cable, internet cable​​​​​​​

Incorporating multiple functions such as power, signal, tubing, etc. in one cable saves space, speeds up installations or assemblies, eliminates waste, and ensures unmatched performance.


Many options are available for conductor size & materials, strand configurations, insulation & jacket materials, color codes, and more. As your design evolves, your cable can adapt to it.

Production runs / cable lengths can be changed on a per-order basis. Design changes can be quickly & easily deployed.


Eliminate the guesswork of determining if you can accomplish your design or project goals using catalog parts.

Cable Factory-Accountability

Working directly with the manufacturer of your cable gives you the ability to hold them accountable for the quality and service levels you require.


Products or installations incorporating custom extension cable tend to have a much neater appearance. Eliminate unwieldy collections of messy wires & cables. Avoid the laborious process of applying labels & expensive protective sleeving. Incorporate your company marketing into the design.


Save on labor by using products requiring less assembly or installation time.
Don't pay for additional conductors, shields, or other unnecessary features.
Avoid waste by ordering full factory spools with more material than required.
Save time wasted on reviewing product catalogs that don't contain the item(s) you need.
Eliminate the need for pricey wire management products.
Avoid replacing cables that fail prematurely.

Solution for Customized Cable



USB Cables Logo Printing

Our factory has a laser engraving logo machine, and a silk printing machine, which also supports open new molding to emboss the logo on the usb c cable, micro usb cable, USB-C cable and usb extension cable.


HDMI Cable Packaging

We have professional cable machine and can do customized HDMI Cable packaging, like color box, opp bag, etc. we also can provide the packaging die-cut to you for design.
Cat Cable Length

Cat Cable Length

Sunshine manufactures different length of Cat Cable cable, like 1ft/3ft/4ft/5ft/6ft/10ft Cat 5 Cable,  Cat 6 Cable, cat 6 ethernet cable or even 16ft, we surely could meet your requirements.

Power Cable Color

As a factory, we can make almost all kinds of colored cable, please provide us the color panton number, and we can make the color cable as you need

Coaxial Cable Material

We did make kinds of material Coaxial Speaker cable, like PVC, copper, etc, all the materials meet the RoHS/Reach/Ca65 standard.

DisplayPort Cable Shape

Sunshine has many models Display Port cable available for your choice, we are also able to open the molding to your design to meet your demands.

Cable Wholesale

We have flexible production and dispatching services from China and outside China--Vietnam. Sunshine Electronics has become one of the most well-trusted Cable manufacturers and suppliers in both China and outside China--in Vietnam. We are available to provide two production lines for Cables in China and Vietnam at the same time, which means not only we could supply cables in bulk to meet your high-volume requirements, but also you could decide whether to dispatch your Cables from China or Vietnam. The most important factor is that Cables produced in China and Vietnam are all of high quality, and the specifications of Cables in China and Vietnam are all the same.

Sunshine Electronics wholesale universal Cables in bulk and could provide custom labeling and packaging designs for you to boost your company. Ethernet Cables and Coaxial Cables cater to customers’ different needs to charge various electronic devices at home and in cars.

Get Cable in Bulk Step-by-step


We Respond to Your Inquiry for Cables Within 12 Hours

Generally speaking, time is an invaluable resource for your business and thus fast service delivery for Cables is important and necessary to get a good result. Consequently, our short response times aim to provide easy access to our services of Cables to meet your needs.

We Provide Customer-Based Solution of Cables

Our aim is to offer a customized solution to meet all your requirements for Cables. We are determined to bring your vision to life because customer satisfaction for Cables is extremely important to us.

We Achieve the Goal of Efficient Cable Manufacturing

The Sunshine factories in China and outside China--Vietnam are fitted with the machinery of highly Validated and Recognized test equipment brands in our laboratories and production workshop, to ensure that we efficiently manufacture high-quality, fast, compact and compatible Cables. It also enables us to produce in bulk within short turnaround times and prove competitive prices for Cables.

We Offer Custom Cable Labeling and Packaging

If you come to us with Cable packaging needs, we will do our best to make them come true. We have available designs for Cables that you can choose from or we could explore customization for custom Cables that you want.

Cable FAQ

  • What does a fiber optic cable do?

    A fiber optic cable transmits data as light signals through strands of glass or plastic fibers. It's used for high-speed, long-distance data transmission in telecommunications, internet connections, and networking.
  • Is fiber optic better than WIFI?

    Considering the difference in speed between both networks, fiber optic cables provide faster data transmission than wireless networks. While wireless networks can become slower during busy times, fiber optic connections remain strong, even during peak hours.
  • What are the 2 types of fiber optic cable?

    There are two types of fibre optic cables – multimode and single-mode. Multimode optical fibre or OFC is capable of carrying multiple light rays (modes) at the same time as it has varying optical properties at the core. Single-mode fibre has a much smaller core size (9 microns).
  • What are the disadvantages of fiber optic cable?

    The cost to produce optic fibre cabling is higher than that of copper. Installation is also more expensive as special test equipment is usually required. As they are made of glass, fibre optic cables are more fragile than electrical wires like copper cabling.
  • Is fiber better than Ethernet?

    Fiber is clearly faster, being able to sustain data speeds more than 100x faster than Ethernet under ideal conditions. That being said, it becomes a question of whether an environment needs data speeds that fast.
  • Is fiber better than 5G?

    Fiber internet is faster and more reliable than the 5G network, becoming the preferred choice among tech experts. With speeds up to 100 times faster than traditional broadband, a fiber connection can easily handle all of your online needs.
  • How long does fiber optic cable last?

    The lifespan of fiber optic cables can vary depending on factors such as installation quality, environmental conditions, and maintenance practices. In general, well-installed and properly maintained fiber optic cables can last for several decades.
    Some estimates suggest that the glass fibers themselves have a lifespan of around 25 to 30 years. However, the lifespan of the overall fiber optic infrastructure, including connectors, splices, and protective sheathing, may be longer with regular maintenance and occasional upgrades.
    It's worth noting that fiber optic technology continues to evolve, and newer generations of fiber optic cables may offer improved performance and longevity compared to older versions. Regular inspections, maintenance, and upgrades can help extend the lifespan of fiber optic cables and ensure reliable performance over time.
  • What is the difference between fiber optic cable and regular cable?

    The main difference between fiber optic cable and regular cable lies in how they transmit data. Fiber optic cables use light signals for data transmission, offering higher bandwidth, faster speeds, immunity to interference, and greater reliability compared to regular cables, which transmit data using electrical signals over copper wires.
  • Does fiber optic require electricity?

    Yes, fiber optic cables require electricity to operate the active components of the network, such as transmitters and receivers, which convert electrical signals into light signals for transmission through the fiber optic strands. However, once the data is converted into light signals and transmitted through the fiber optic cable, no additional electricity is needed for the data to travel long distances. Therefore, while electricity is required for certain components of the fiber optic network, the transmission of data itself does not require electricity along the fiber optic cable.
  • What is a coaxial cable used for?

    Coaxial cables are commonly used for transmitting television signals, internet connectivity, and other data communications. They are also used in cable television (CATV) networks, satellite television installations, and broadband internet connections. Additionally, coaxial cables are utilized in surveillance systems, telecommunications, and audio/video applications due to their ability to carry high-frequency signals with low loss and interference.
  • Is a coax cable the same as a TV cable?

    Yes, a coaxial cable is often referred to as a "TV cable" because it is commonly used to transmit television signals. However, coaxial cables are versatile and used in various applications beyond television, including internet connectivity, telecommunications, and audio/video systems.
  • Can a TV work without a coaxial cable?

    Yes, a TV can work without a coaxial cable if it is connected to a different source of input, such as HDMI, RCA cables, or streaming devices like Roku or TV. Coaxial cables are commonly used for traditional antenna or cable TV connections, but modern TVs offer multiple input options for connecting to different sources of content.
  • Do I connect coax cable to modem or router?

    You typically connect a coaxial cable to a modem rather than a router. The coaxial cable carries the internet signal from your internet service provider (ISP) to the modem, which then translates the signal into a form that can be used by your devices. The router, on the other hand, connects to the modem and distributes the internet signal to your devices via wired or wireless connections.
  • Does it matter what coaxial cable I use?

    Poor quality coaxial cable can impact TV reception, so it's important to choose the best cable for the job. Coaxial cable designed for domestic television should be 75 Ohm, with RG-6 coaxial being ideal for TV.
  • How can you tell the quality of a coaxial cable?

    You can determine the quality of a coaxial cable by considering several factors:
    Cable Type: Choose the appropriate cable type for your application, such as RG6 for digital television signals or RG11 for longer cable runs.
    Impedance: Coaxial cables typically have an impedance of 75 ohms for television and broadband signals. Ensure the cable has the correct impedance for your application.
    Shielding: Look for cables with adequate shielding to minimize signal interference and maintain signal integrity, especially in areas with high electromagnetic interference (EMI). Quad-shielded cables provide better protection than dual-shielded or single-shielded cables.
    Connector Quality: High-quality connectors provide secure connections and minimize signal loss. Look for cables with gold-plated connectors for better conductivity and durability.
    Cable Construction: Check the construction quality of the cable, including the thickness of the inner conductor, the quality of the insulation and shielding materials, and the overall build quality.
    Brand Reputation: Choose cables from reputable manufacturers known for producing high-quality products with good performance and reliability.
    Certifications: Look for cables that meet industry standards and certifications, such as UL certification for safety and compliance with relevant cable specifications (e.g., RG6, RG11).
    By considering these factors, you can assess the quality of a coaxial cable and ensure reliable signal transmission for your television, internet, or other communications systems.
  • Does the length of the coax affect the signal?

    Yes, the length of the coaxial cable can affect the signal, particularly over longer distances. As a coaxial cable gets longer, the signal experiences attenuation, which is the loss of signal strength as it travels through the cable. This attenuation can result in a weaker signal reaching the destination, potentially leading to degradation or distortion of the signal.
    To minimize signal loss due to cable length, it's essential to use the appropriate length of coaxial cable for your installation. Using shorter cable runs whenever possible can help reduce signal attenuation and maintain signal integrity. Additionally, choosing coaxial cables with lower attenuation ratings and higher-quality construction can help mitigate the effects of signal loss over longer distances.
  • Which is better RG11 or RG6?

    RG11 coaxial cables are thicker and have lower attenuation, making them ideal for long-distance installations or high-bandwidth applications. RG6 cables are thinner and more flexible, suitable for standard residential and commercial installations at a lower cost.
  • What is the best coaxial cable for long runs?

    The best coaxial cable for long runs is typically RG11. RG11 cables are thicker and have lower attenuation compared to other coaxial cables like RG6, making them ideal for maintaining signal quality over extended distances. They are suitable for applications where signal loss over distance is a concern, such as large buildings, outdoor installations, or high-bandwidth applications. RG11 cables offer better performance and less signal loss over long runs compared to thinner cables like RG6, ensuring reliable signal transmission over extended distances.
  • Are there different grades of coaxial cable?

    Yes, there are different grades or types of coaxial cable designed for various applications and performance requirements. Some common grades of coaxial cable include:
    RG (Radio Guide): The RG series is a set of standardized coaxial cable specifications developed by the military and used for various applications, including telecommunications, video, and data transmission. Examples include RG6, RG11, and RG59.
    LMR (Low Loss Coaxial Cable): LMR cables are high-performance coaxial cables known for their low loss and flexibility. They are commonly used in wireless communications, including cellular networks, Wi-Fi, and GPS applications.
    Triaxial Cable: Triaxial cables feature an additional layer of shielding compared to standard coaxial cables, providing enhanced protection against interference and noise. They are used in applications where signal integrity is critical, such as broadcast television and professional audio/video production.
    Plenum-Rated Cable: Plenum-rated coaxial cables are designed for use in plenum spaces, such as air ducts and ceiling cavities, where fire safety regulations require the use of fire-resistant materials. These cables have special insulation materials that reduce the risk of fire and smoke spreading in case of a fire.
    These are just a few examples of the different grades of coaxial cable available, each designed to meet specific performance, environmental, and regulatory requirements for various applications.
  • Is coax as fast as Ethernet?

    No, coaxial cable is not as fast as Ethernet in terms of data transmission speeds. Ethernet cables, especially those using the latest standards like Cat6 or Cat6a, can support much higher data transmission speeds compared to coaxial cables. While coaxial cables are suitable for transmitting television signals, internet connectivity, and other data communications, Ethernet cables offer faster speeds and are more commonly used for high-speed networking applications, such as computer networking and internet access.
  • What is a DVI cable?

    A DVI (Digital Visual Interface) cable is a type of video cable used to transmit digital video signals between devices such as computers, monitors, and projectors. DVI cables come in different variants, including DVI-A (analog), DVI-D (digital), and DVI-I (integrated, supporting both analog and digital signals). DVI cables are commonly used for connecting computer monitors to desktop computers, but they are being gradually replaced by newer interfaces like HDMI and DisplayPort, which offer more features and compatibility with modern devices.
  • Is DVI better than HDMI?

    The superiority of DVI over HDMI depends on factors like resolution, refresh rates, audio support, compatibility, and physical connectors. HDMI typically offers advantages such as support for higher resolutions and audio transmission, while DVI may be preferred for compatibility with older devices or specific requirements that don't necessitate audio transmission. Ultimately, the choice depends on your specific needs and the devices you're connecting.
  • Is DVI used anymore?

    Yes, DVI is still used in certain applications, although its popularity has declined with the introduction of newer interfaces like HDMI and DisplayPort. DVI is commonly found on older monitors, graphics cards, and other legacy devices that may not support newer interfaces. Additionally, DVI may still be used in specialized applications where specific requirements, such as compatibility with older equipment or the need for high-resolution video transmission without audio, make it the preferred choice. However, for most modern consumer electronics and computing devices, HDMI and DisplayPort have largely replaced DVI due to their broader compatibility and additional features.
  • Is A DVI cable the same as a VGA?

    The primary distinction between VGA and DVI lies in the quality of the image and the method by which the video signals are transmitted. VGA connectors and cables transmit analog signals, whereas DVI is capable of carrying both analog and digital signals. DVI, being a more recent technology, provides superior and crisper display quality when compared to VGA.
  • Can you connect DVI to HDMI?

    Yes, you can connect DVI to HDMI using an adapter or a cable with DVI on one end and HDMI on the other. However, it's important to note that DVI only carries video signals, so if you're connecting a device with DVI output to a device with HDMI input, you'll need a separate audio cable to transmit audio signals if necessary. Additionally, some DVI outputs may not support audio, so make sure to check the specifications of your devices and use the appropriate adapters or cables.
  • Can DVI do 4K?

    Standard DVI cables and ports do not support 4K resolution. However, there is a variant of DVI known as DVI-D Dual Link that can support resolutions up to 2560x1600 at 60Hz. This resolution is lower than 4K (3840x2160), so if you need to output a 4K signal, it's best to use interfaces like HDMI 2.0 or DisplayPort, which are designed to handle higher resolutions and refresh rates.
  • How do I connect my monitor to DVI?

    To connect your monitor to a DVI port on your computer or other device, follow these steps:
    Check Your Ports: Ensure that your monitor and computer/device have compatible DVI ports. There are different types of DVI ports, including DVI-D, DVI-I, and DVI-A, so make sure you're using the correct cable for your specific ports.
    Power Off Devices: Before connecting the cable, power off both your monitor and computer/device to avoid any potential damage.
    Connect the Cable: Take one end of the DVI cable and plug it into the DVI port on your monitor. Make sure it's securely connected and tightened to prevent any loose connections.
    Connect to Computer/Device: Take the other end of the DVI cable and plug it into the DVI port on your computer or other device. Again, ensure it's securely connected.
    Power On Devices: Once the cable is connected, power on both your monitor and computer/device. Your monitor should now be connected to the DVI port and ready for use.
    Adjust Settings (if necessary): Depending on your operating system and graphics settings, you may need to adjust the display settings to ensure your monitor is detected and configured correctly.
    By following these steps, you can successfully connect your monitor to a DVI port and begin using it as your display output.
  • Can DVI carry audio?

    No, standard DVI cables and ports do not support audio transmission. DVI is primarily designed for transmitting video signals only. If you need to transmit audio along with video, it's best to use interfaces like HDMI, which support both video and audio signals over a single cable. If you're connecting a device with DVI output to a display device with HDMI input and require audio, you'll need to use a separate audio cable to transmit the audio signal.
  • Does DVI transfer data?

    DVI (Digital Visual Interface) primarily transfers video data rather than general data. It is designed to transmit digital video signals between devices such as computers, monitors, and projectors. While DVI can carry digital video data, it is not typically used for transmitting other types of data, such as files or network data. For those purposes, other interfaces like USB, Ethernet, or Wi-Fi are more commonly used.
  • Can DVI be converted to USB?

    DVI (Digital Visual Interface) cannot be directly converted to USB (Universal Serial Bus) because they are different types of interfaces with different functions. DVI is primarily used for transmitting digital video signals between devices, while USB is used for connecting peripherals such as keyboards, mice, printers, and external storage devices to a computer.
    However, it is possible to use adapters or converters to connect a DVI device to a USB port on a computer for specific purposes. For example, there are USB video capture devices that can accept DVI input signals and convert them into USB-compatible video streams for recording or streaming purposes. Additionally, there are USB docking stations that include DVI ports for connecting external displays to a computer via USB.
    In summary, while direct conversion from DVI to USB is not possible due to their different functions, there are specialized devices and adapters available that can facilitate connectivity between DVI and USB interfaces for specific applications.
  • Can you connect DVI to laptop?

    Yes, you can connect a device with a DVI output, such as a monitor or external graphics card, to a laptop that has a DVI input port. To do this, you'll need a DVI cable with the appropriate connectors on each end. Simply plug one end of the DVI cable into the DVI output port on the device, and the other end into the DVI input port on your laptop. Once connected, you may need to adjust your laptop's display settings to recognize the external monitor or device.
  • Do high-quality RCA cables make a difference?

    RCA cables do make a difference due to them being high-level signal cables that are analog. Due to this, they are susceptible to noise and interference and the only way to overcome this is to use high-quality RCA cables, keep them short, and away from other audio equipment.
  • How long can an RCA cable be before it loses quality?

    The maximum length of an RCA cable before it starts to lose quality depends on various factors, including the quality of the cable itself, the sensitivity of the audio or video signals being transmitted, and the presence of any sources of interference or signal degradation along the cable's path. In general, shorter RCA cables (up to 25 feet or 7.6 meters) tend to maintain signal quality better than longer cables. Beyond this length, signal degradation such as attenuation, distortion, and interference may become more noticeable, resulting in reduced audio or video quality. However, using high-quality cables with proper shielding and connectors can help mitigate these effects and allow for longer cable runs without significant loss of quality. Additionally, using signal boosters, impedance matching devices, or balanced connections can also extend the usable length of RCA cables while maintaining signal integrity.
  • Does splitting RCA weaken the signal?

    There is no quality loss whatsoever from a splitter, provided that the source can drive the impedance of the two destinations in parallel.
  • How do I choose the right RCA cable?

    When choosing an RCA cable, prioritize quality materials like oxygen-free copper and gold-plated connectors for reliable signal transmission. Opt for appropriate length and shielding to minimize interference. Ensure compatibility with your devices and consider your budget while balancing performance and cost.
  • Do I need 2 RCA cables for 2 subs?

    To hook up a powered subwoofer properly, an RCA "splitter" cable ("Y" cable) is not needed. Any single, standard RCA or subwoofer cable should do just fine.
  • Does good RCA cable Quality Matter?

    Yes, the quality of RCA cables can significantly impact audio and video performance. High-quality RCA cables are constructed with superior materials and shielding, reducing signal loss and minimizing interference. This results in clearer audio and sharper video compared to lower-quality cables. However, the extent of improvement may vary depending on the equipment and application.
  • Is RCA higher quality than 3.5 mm?

    The quality of RCA and 3.5mm cables depends on various factors, including the specific application and equipment used. In general, RCA cables are commonly used for analog audio and video connections, offering good-quality audio signals over short distances. On the other hand, 3.5mm cables, also known as aux cables, are versatile and widely used for connecting audio devices like smartphones, laptops, and headphones. While both types of cables can provide high-quality audio, RCA cables are often preferred for connecting audio components like amplifiers, turntables, and home theater systems, where analog connections are preferred. However, for portable devices and casual listening, 3.5mm cables are more convenient and offer adequate quality for most users. Ultimately, the choice between RCA and 3.5mm cables depends on the specific requirements and preferences of the user.
  • Is RCA to HDMI better?

    Both RCA components and HDMI work well, but of the two, HDMI is the better choice. It's a single cable for both audio and video hook-up that delivers superior video quality, surround-sound audio quality, 3D support, and more, versus using many wires using RCA component connections.
  • What does an RCA cable do?

    An RCA cable transmits analog audio or video signals between electronic devices using color-coded connectors. It connects the output of a source device to the input of a receiving device, enabling the transfer of audio and video signals over short to moderate distances.
  • What makes an RCA cable good?

    Quality Construction: It is made from high-quality materials such as oxygen-free copper conductors and gold-plated connectors, ensuring reliable signal transmission and durability.
    Effective Shielding: The cable has effective shielding to minimize electromagnetic interference (EMI) and radio frequency interference (RFI), preserving signal integrity and reducing noise.
    Low Signal Loss: It exhibits minimal signal loss over the length of the cable, ensuring that audio and video signals are transmitted accurately and without degradation.
    Appropriate Length: It is the right length for the intended application, minimizing excess cable length that could lead to signal degradation.
    Compatibility: It is compatible with the devices and connections it will be used with, ensuring a secure and reliable connection.
    Flexibility: The cable is flexible and easy to route, allowing for convenient installation and use in various setups.
    Affordability: While quality comes at a price, a good RCA cable offers excellent value for its performance and reliability without being excessively expensive.
  • What cable is used for landline?

    The cable used for landline telephones is typically a twisted pair cable, commonly referred to as telephone wire or telephone cable. This type of cable consists of two insulated copper wires twisted together, which helps to reduce electromagnetic interference and crosstalk between the wires. Twisted pair cables are commonly used for landline telephone connections due to their reliable performance and cost-effectiveness. They are often installed within the walls of buildings or homes and terminated with modular connectors (such as RJ11 or RJ45) for connection to telephone jacks and devices.
  • Is telephone cable same as Ethernet?

    Ethernet and telephone cables look fairly similar and it is not uncommon to get the two mixed up. The key difference between the two is the size of the plastic connectors on the ends of the cable. Telephones use an RJ11/RJ12 connector whereas Ethernet uses RJ45. RJ11/RJ12 only uses 4-6 pins whereas RJ45 uses 8 pins.
  • What type of cable is used extensively in telephone lines?

    Unshielded twisted pair (UTP) is a ubiquitous type of copper cabling used in telephone wiring and local area networks (LANs). There are five types of UTP cables -- identified with the prefix CAT, as in category -- each supporting a different amount of bandwidth.
  • Are there different types of phone cables?

    Yes, there are different types of phone cables used for various purposes and applications. Some common types of phone cables include:
    1. Twisted Pair Cable: This is the most common type of phone cable, consisting of two insulated copper wires twisted together. It is used for landline telephone connections and is often terminated with modular connectors (such as RJ11) for connection to telephone jacks and devices.
    2. Coaxial Cable: While primarily used for television and broadband internet connections, coaxial cable can also be used for telephone connections in some instances, especially for cable-based telephone services.
    3. Fiber Optic Cable: Fiber optic cable is increasingly being used for telephone connections, especially in high-speed internet and digital telephone services. It uses strands of glass or plastic fibers to transmit data using light signals.
    4. Ethernet Cable: While primarily used for computer networking, Ethernet cable can also be used for Voice over Internet Protocol (VoIP) phone services, where voice calls are transmitted over an internet connection.
    These are just a few examples of the different types of phone cables available, each with its own characteristics and applications depending on the specific requirements of the telephone system and service provider.
  • Can cat5 be used for telephone line?

    CAT5 cable has four separate twisted pairs. Use the two wires in one of those pairs for your telephone connection. 10/100 base T Ethernet uses the green and orange pairs, specifically so that you can still use the blue and brown pairs for telephones.
  • Are ethernet and telephone cables the same?

    Ethernet and telephone cables look fairly similar and it is not uncommon to get the two mixed up. The key difference between the two is the size of the plastic connectors on the ends of the cable. Telephones use an RJ11/RJ12 connector whereas Ethernet uses RJ45. RJ11/RJ12 only uses 4-6 pins whereas RJ45 uses 8 pins.
  • What wires should be connected in a phone socket?

    Terminals are usually connected using a four core telephone cable. Terminals 2, 3, 4 and 5 of the master socket are connected to terminals 2, 3, 4 and 5 on the secondary socket. As long as the same cable is used for the same numbered terminals throughout the installation, the actual colour chosen is of no importance.
  • What does a cable used for telephone?

    Telephone wire which uses strands of copper wire twisted together in pairs of two (flat-looking cable only used for telephones, fax machines, and some modems). These cables are usually grey and use "RJ-11" connectors (or the less common RJ-12, RJ-14, and RJ-25) to plug into phones and wall jacks.
  • What size is a telephone cable?

    Telephone wire comes in two gauges, 22 gauge and 24 gauge; 24 gauge is today's standard. There are two types of common modular plugs; the RJ-11 and RJ-14. The most common is the RJ-11, which uses only two of the telephone wires in a four (or more) strand wire.
  • How do I identify a power cable?

    A power cable is classified by two numbers separated by a hyphen, such as 14-2. The first number denotes the conductor's gauge; the second denotes the number of conductors inside the cable. For instance, 14-2 has two 14-gauge conductors: a hot and a neutral.
  • What is a 3-phase power cable?

    Three-phase installations are those formed by three different alternating currents that divide the installation into several parts which are reached by a constant power. Their standardized powers are currently adapted to 400 volts. Three-phase has four wires: three actives (called phases) and one neutral.
  • Does the length of the power cable matter?

    There are two factors: cord length and thickness. The thicker the copper wire, the more electricity it can carry. However, because transmitted power diminishes over distance, longer extension cords require heavier wire to deliver the full current rating required by an appliance.
  • What is the difference between a power cord and a power cable?

    These two cables serve similar purposes, but the most important distinction to remember is that a portable cord is designed for temporary power supply, while power cables are usually installed in long-term or permanent applications.
  • What are the three types of power cables?

    For voltages, up to 66 kV, the three core cables that are multicore cables are used.
    · HT cables up to 11 kV level which is belted type.
    · Super tension (ST) cables for 22 kV and 33 kV levels which are screened cables.
    · Extra high tension (EHT) cables for voltage levels from 33 kV to 66 kV which are pressure cables.

  • What is a standard power cable called?

    A standard power cable is commonly referred to as a "power cord" or simply a "power cable." These cables are used to connect electrical appliances and devices to power outlets, providing the necessary electrical power for their operation. Power cords typically consist of insulated wires with plugs at both ends, designed to fit into standard electrical outlets and the power input ports of various devices. They come in different lengths and configurations to suit different applications and electrical requirements.
  • Are thicker power cords better?

    If you are dealing with high-power devices, you are best advised to pick thicker cords. These carry more power safely and will not strain your system. As such, users should always consider power usage when selecting the extension cord.
  • Is it better to run HDMI or DisplayPort?

    The choice between HDMI and DisplayPort depends on your specific needs. HDMI is commonly used for multimedia applications, while DisplayPort offers higher performance and flexibility, especially for professional or gaming setups requiring higher resolutions and refresh rates.
  • Do you lose quality with DisplayPort to HDMI?

    There is normally no loss in quality when using such a dp to HDMI cable. Note however that this simple transition only applies to single-link DVI signals, so up to HD resolution.
  • What is the difference between dp1.4 and dp1.2?

    The DisplayPort 1.4 has a total bandwidth of 32.4 Gbps with a max data rate of up to 25.92 Gbps and supports almost 32 audio channels as well. DisplayPort 1.2 has support for only 8 audio channels and delivers 21.6 Gbps bandwidth and 17.28 Gbps data rates.
  • Are there DisplayPort cable versions?

    DisplayPort cables come in different versions, including 1.0, 1.1, 1.2, 1.3, 1.4, and 2.0, each offering various features and capabilities such as higher data rates, support for higher resolutions, and advanced display technologies.
  • What DP cable should I buy?

    When choosing a DisplayPort cable, consider factors such as version compatibility with your devices, resolution and refresh rate support, cable length, build quality, and certifications for assurance of compliance with industry standards.
  • Can DP 1.4 do 1080p 144Hz?

    Yes, DisplayPort 1.4 can support 1080p resolution at a 144Hz refresh rate. DisplayPort 1.4 offers sufficient bandwidth to handle high-definition resolutions and fast refresh rates, making it suitable for gaming and multimedia applications requiring smooth and fluid motion.
  • Does DisplayPort give better graphics?

    DisplayPort offers advantages such as higher bandwidth, support for adaptive sync technology, multi-stream transport, and advanced display features, which can contribute to better overall graphics performance compared to other display interfaces like HDMI.
  • Are all DisplayPort 1.4 cables the same?

    All DisplayPort cables support the same features. The primary difference between them is transmission speed. The resolution, color depth, number of monitors, and refresh rate are all dependent on how much data the cable can transmit.
  • Is Mini DP the same as DP?

    The Mini DisplayPort (mini DP or m DP) is a miniaturized and less common version of the DisplayPort audio-visual digital interface.
  • How far can you run a DP cable?

    The maximum length of a DisplayPort (DP) cable depends on various factors, including the version of DisplayPort, cable quality, and resolution/refresh rate requirements. In general:
    DisplayPort 1.1 and later versions support cable lengths of up to 15 meters (about 49 feet) without the need for signal boosting or other active measures.
    For longer distances, active cables or signal boosters may be required to maintain signal integrity. Active DisplayPort cables can extend the maximum length to 30 meters (about 98 feet) or more, depending on the specific cable and setup.
    Fiber optic DisplayPort cables can extend the maximum length even further, up to 100 meters (about 328 feet) or more, making them suitable for long-distance installations in commercial or professional settings.
    Ultimately, the maximum length of a DisplayPort cable will depend on your specific requirements and the capabilities of your devices and cable infrastructure. It's essential to choose the right type of cable and consider factors such as resolution, refresh rate, and signal integrity when planning your setup.
  • Is Type C replacing USB?

    Type C is gradually replacing traditional USB connectors for many devices. USB Type C offers several advantages over older USB connectors, including a reversible design, faster data transfer speeds, and support for higher power delivery. Its versatility and compatibility with various devices, including smartphones, tablets, laptops, and peripherals, make it increasingly popular in the tech industry. However, traditional USB connectors are still widely used and will likely coexist with Type C for some time, especially in legacy devices and peripherals.
  • How do you manufacture A USB cable? 

    The Manufacturing Process of USB Cables.
     Step 1: Cutting the Cables.

     Step 2: Exposing the Inner Conductor.
     Step 3: Connect the Wire and Terminal.
     Step 4: Molding.
     Step 5: Final Checking and Packaging.

  • What is the best length for a USB cable?

    USB Standards, Speeds and Cable Length Limits:

    USB Specification Max. Data Transfer Rate Recommended Cable Length
    USB 1.0 (Full Speed) 12 Mb/s 3 m (9 ft.)
    USB 2.0 (High Speed) 480 Mb/s 5 m (16 ft.)
    USB 3.2 Gen 1 5 Gb/s 2-3 m (6-9 ft.)
    USB 3.2 Gen 2 10 Gb/s 3 m (9 ft.)

  • How long can a USB cable be and still work?

    The maximum length of a USB cable depends on several factors, including the type of USB connection and the quality of the cable. For USB 2.0 connections, the maximum recommended length is about 5 meters (16 feet). Beyond this length, signal degradation may occur, leading to unreliable data transmission.
    For USB 3.0 and later versions, the maximum recommended length is shorter, typically around 3 meters (10 feet) for full-speed connections and even shorter for high-speed connections. Longer cables can result in signal loss and reduced performance.
    Using high-quality cables, proper shielding, and active signal boosters can help extend the usable length of USB cables. However, for longer distances, it's often better to use other solutions such as USB extenders or Ethernet-based USB adapters to maintain reliable data transmission.
  • How can you tell a good quality USB cable?

    One way to check whether a third-party USB-C cable is good is by looking for “certified by USB-IF” or the USB-IF logo. USB 2.0/3.0/3.1/3.2/4.0/Thunderbolt 3/Thunderbolt 4: Cables are compatible with USB 2.0, USB 3.0, and USB 3.1 (Gen 1 and Gen 2).
  • What is the difference between Cat and Ethernet?

    The term "Ethernet" refers to a family of networking technologies used for local area networks (LANs), while "Cat" (short for Category) refers to the different standards or categories of Ethernet cables. 
    Ethernet encompasses various networking standards and protocols for connecting devices within a local network, such as computers, printers, and routers, allowing them to communicate and share resources. It defines how data is transmitted over the network, including the physical medium (cables), data link layer protocols, and network configuration.
    On the other hand, "Cat" refers to the different categories of Ethernet cables defined by the Electronic Industries Association and Telecommunications Industry Association (EIA/TIA). These categories, such as Cat5, Cat6, and Cat7, specify the performance characteristics and capabilities of Ethernet cables, including data transmission speeds, maximum frequencies, and shielding requirements. 
    In summary, "Ethernet" refers to the networking technology, while "Cat" refers to the standards or categories of Ethernet cables used to implement Ethernet networks.
  • Which cat cable is best?

    The best Cat cable depends on your specific networking requirements and budget. Generally, newer Cat cables offer higher performance and better shielding against interference, but they may also be more expensive. Here's a brief overview:
    Cat5e: Suitable for basic networking needs and supports data transmission speeds up to 1 Gigabit per second (Gbps). It's a cost-effective option for most home and small office networks.
    Cat6: Offers improved performance compared to Cat5e, supporting data transmission speeds up to 10 Gbps over shorter distances. It provides better resistance to crosstalk and interference.
    Cat6a: Similar to Cat6 but with improved performance and support for higher frequencies, allowing for data transmission speeds up to 10 Gbps over longer distances. It's suitable for demanding applications and environments with high interference.
    Cat7 and above: These cables offer even higher performance and better shielding compared to Cat6a, supporting data transmission speeds up to 10 Gbps or more over longer distances. They are ideal for high-speed networking applications and environments with extreme interference.
    Ultimately, the "best" Cat cable for you depends on factors such as the required data transmission speeds, distance, and level of interference in your networking environment, as well as your budget.
  • Is there a Cat8 cable?

    Yes, there is a Cat8 cable. Cat8 is the latest standard in the Ethernet cable category, offering even higher performance compared to previous Cat cables. It is designed to support data transmission speeds of up to 25 Gigabits per second (Gbps) or even 40 Gbps over distances of up to 30 meters. Cat8 cables feature improved shielding and are suitable for demanding applications and environments where high-speed networking is essential. However, Cat8 cables are still relatively new and may be less widely available compared to lower-category cables.
  • Can I plug a Cat8 cable into a Cat6 jack?

    Yes, you can plug a Cat8 cable into a Cat6 jack. Ethernet cables and jacks are backward compatible, meaning you can use newer cables with older jacks. However, the performance of the connection will be limited by the capabilities of the lowest category component in the setup. In this case, while you can physically connect a Cat8 cable to a Cat6 jack, the data transmission speeds and performance will be limited to the capabilities of the Cat6 infrastructure. To fully leverage the capabilities of a Cat8 cable, it's recommended to use it with compatible Cat8 jacks and networking equipment.
  • CAT 5 VS. CAT 6

    When comparing Cat5 and Cat6 Ethernet cables:
    Performance: Cat6 cables offer higher performance compared to Cat5. Cat5 cables support data transmission speeds up to 1 Gigabit per second (Gbps), while Cat6 cables can support speeds up to 10 Gbps.
    Construction: Cat6 cables typically have more stringent specifications for construction and shielding compared to Cat5 cables, resulting in better resistance to crosstalk and interference.
    Compatibility: Both Cat5 and Cat6 cables are backward compatible, meaning they can be used with older networking equipment. However, Cat6 cables offer future-proofing for higher-speed networking applications.
    Cost: Cat6 cables are generally more expensive than Cat5 cables due to their higher performance and construction specifications.
    Overall, Cat6 cables are a better choice for applications requiring higher data transmission speeds and better performance, while Cat5 cables may suffice for basic networking needs at a lower cost.
  • How can I choose the right Cat cable?

    To choose the right Cat cable for your needs, consider the following factors:
    Data Transmission Speed: Determine the data transmission speed required for your networking applications. Higher category cables, such as Cat6 and above, offer higher speeds compared to lower categories like Cat5e.
    Distance: Consider the distance over which you need to transmit data. Higher-category cables, such as Cat6a and Cat7, can support higher speeds over longer distances compared to lower categories.
    Interference: Assess the level of interference in your networking environment. Higher-category cables typically offer better shielding against crosstalk and electromagnetic interference, making them more suitable for environments with high interference.
    Future-Proofing: Consider future networking needs and technologies. Choosing a higher category cable, such as Cat6a or Cat7, may provide better future-proofing for upcoming high-speed networking applications.
    Budget: Determine your budget for the cable installation. Higher-category cables tend to be more expensive than lower categories due to their enhanced performance and construction specifications.
    By considering these factors, you can select the Cat cable that best meets your specific networking requirements while staying within your budget. If you're unsure, consult with a networking professional for personalized guidance.
  • What is a HDMI cable used for?

    HDMI means High-Definition Multimedia Interface, a standard for simultaneously transmitting digital video and audio from a source, such as a computer or TV cable box, to a computer monitor, TV, or projector.
  • What is the difference between a HDMI cable and a USB cable?

    The difference between USB and HDMI cables is that HDMI is for HDTV and Blu-ray use, while USB connects devices with a USB connector, such as printers and digital cameras, to your laptop or computer. They either transfer data or charge the smaller device.
  • How do I know which HDMI cable to buy? 

     The most important factors in choosing an HDMI cable are:
    1. Connector Type.
    2. Resolutions of your video source and display.
    3. Distance between devices.
    4. Special-Uses, such as installing the cable through walls or in moist or dusty environments.

  • What is a premium-certified HDMI cable?

    A premium-certified HDMI cable meets specific quality and performance standards set by HDMI Licensing, LLC. These cables are rigorously tested to support high-definition audio and video signals, including 4K Ultra HD and HDR content, providing superior performance and reliability compared to standard HDMI cables.
  • Do HDMI cables get worse with length?

    Longer HDMI cables can experience signal degradation due to attenuation, leading to reduced video quality or audio/video synchronization issues. Using high-quality cables and signal boosters can help mitigate this degradation.
  • Does an old HDMI cable matter for 4K?    

    Yes, the quality of the HDMI cable can affect the performance of 4K content. While older HDMI cables may be able to transmit 4K signals, they may not support features like high dynamic range (HDR) or higher refresh rates that newer HDMI cables can handle. Additionally, older cables may be more susceptible to signal degradation over longer distances, potentially leading to reduced video quality or other issues. Therefore, using a newer, higher-quality HDMI cable designed for 4K content can ensure optimal performance and compatibility.
  • Do gold HDMI cables make a difference?

    Gold-plated HDMI cables may offer improved durability and corrosion resistance, but they generally do not affect the performance or quality of the audio and video signals transmitted through the cable. The gold plating primarily serves to protect the connector from oxidation and wear over time, which can help maintain a reliable connection. However, when it comes to signal transmission, factors such as cable quality, construction, and shielding are more critical than the presence of gold plating. Therefore, while gold HDMI cables may offer some benefits in terms of longevity, they are unlikely to make a significant difference in the audio and video quality compared to non-gold-plated cables.
  • Does it matter what HDMI cable you use? 

    Yes, the HDMI cable you use can matter, especially when transmitting high-definition video and audio signals, such as with 4K content or HDR content. While most HDMI cables are designed to meet specific performance standards, using a high-quality cable can help ensure reliable signal transmission and optimal audio and video quality. Factors to consider when choosing an HDMI cable include cable length, construction quality, shielding, and compatibility with the devices you're connecting. While expensive or fancy-looking HDMI cables may not necessarily offer better performance, investing in a well-made cable from a reputable manufacturer can help prevent issues such as signal degradation, interference, or compatibility issues.
  • How to use jumper cables?

    Attach one red jumper cable clamp to the positive terminal on the dead battery. Attach the other end of the same cable, the second red jumper cable clamp, to the positive terminal on the working (live) car battery. Attach one black jumper cable clamp to the negative terminal of the working (live) car's battery.
  • How to attach jumper cables?

    To attach jumper cables properly, follow these steps:
    Prepare Both Vehicles: Park the vehicles facing each other, open the hoods, and turn off the engines.
    Identify Battery Terminals: Locate the battery terminals on both vehicles. The positive terminal is usually marked with a "+" symbol and may be red, while the negative terminal is marked with a "-" symbol and may be black.
    Position the Cables: Keep the jumper cables untangled and away from any moving engine parts.
    Attach Red Cable: Connect one end of the red (positive) jumper cable to the positive terminal of the dead battery.
    Attach Red Cable to Donor Battery: Connect the other end of the red jumper cable to the positive terminal of the donor (working) battery.
    Attach Black Cable: Connect one end of the black (negative) jumper cable to the negative terminal of the donor battery.
    Ground Black Cable: Connect the other end of the black jumper cable to an unpainted metal surface on the engine block or frame of the vehicle with the dead battery, away from the battery and any moving parts.
    Start the Donor Vehicle: Start the engine of the donor vehicle and let it run for a few minutes to charge the dead battery.
    Attempt to Start the Dead Vehicle: Try to start the engine of the vehicle with the dead battery. If it doesn't start, wait a few more minutes and try again.
    Disconnect the Cables: Once the dead vehicle starts, carefully disconnect the jumper cables in reverse order: black cable from the grounded metal surface, black cable from the donor battery, red cable from the donor battery, and finally, red cable from the dead battery.
    Drive the Vehicle: Drive the vehicle for at least 20 minutes to allow the alternator to recharge the battery fully.
    Always handle jumper cables with care, wear safety gloves and goggles, and ensure that the cables do not touch any moving engine parts.
  • What does an Ethernet cable look like?

    An Ethernet cable typically has a flat or round design with a connector at each end. The most common type of connector is an RJ45 connector, which resembles a larger version of a telephone jack with eight metal contacts arranged in a row. The cable itself is usually covered in a protective outer sheath, which may be made of PVC or other materials. Ethernet cables come in various colors, with blue being one of the most common, but they can also be gray, black, white, or other colors depending on the manufacturer and type of cable.
  • What Is a VGA Cable?

    A VGA cable is for connecting VGA video inputs and outputs. Although an older connection type, many computers, laptops, projectors, and TVs still have VGA connections, so you can use a VGA cable to send an image to your display device.
  • What is an Ethernet cable?

    An Ethernet cable is a type of network cable used to connect devices to a local area network (LAN) or to the Internet. It typically has an RJ45 connector at each end, which resembles a larger version of a telephone jack with eight metal contacts arranged in a row. Ethernet cables are commonly used to connect computers, routers, switches, and other network devices to share data and access the internet. They come in various categories, such as Cat5e, Cat6, and Cat7, with each category offering different speeds and performance levels.
  • What is a DP cable?

    A DP cable, short for DisplayPort cable, is a type of digital cable used to transmit audio and video signals between devices, such as computers, monitors, and projectors. DisplayPort cables typically have a connector with 20 pins arranged in two rows, and they support high-definition video resolutions, including 4K and even 8K, as well as high refresh rates and advanced display technologies like HDR (High Dynamic Range). DisplayPort cables are commonly used in desktop computers, laptops, and other devices that require high-quality video output and support for multiple displays.
  • What is a LAN cable used for?

    A LAN cable, or Local Area Network cable, is used to connect devices within a local area network (LAN). It allows devices such as computers, printers, routers, switches, and other network-enabled devices to communicate and share data with each other. LAN cables typically use Ethernet technology and can be either wired or wireless. Wired LAN cables, such as Ethernet cables, provide a reliable and high-speed connection, making them suitable for transferring large amounts of data, streaming media, and accessing the internet.
  • What is a USB cable?

    The term USB stands for "Universal Serial Bus". USB cable assemblies are some of the most popular cable types available, used mostly to connect computers to peripheral devices such as cameras, camcorders, printers, scanners, and more.
  • What is a coaxial cable used for?

    Coaxial cable is a type of copper cable specially built with a metal shield and other components engineered to block signal interference. It is primarily used by cable TV companies to connect their satellite antenna facilities to customer homes and businesses.
  • What is a fiber optic cable used for?

    Fiber optics is used for long-distance and high-performance data networking. It is also commonly used in telecommunication services, such as the internet, television, and telephones.
  • What is an HDMI cable used for?

    HDMI means High-Definition Multimedia Interface, a standard for simultaneously transmitting digital video and audio from a source, such as a computer or TV cable box, to a computer monitor, TV, or projector.
  • How to Run Ethernet Cable Through Walls?

    Rough Wiring Plan.
    Setup the Distribution Point.
    Cut/Drill Holes to Run Ethernet Cables.
    Feed the Wires Through Holes/Walls.
    Terminate the Cables.

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