Coaxial cables are electrical transmission lines. They deliver high-frequency signals from one point to another with low signal loss. Show
They have many applications, including phone lines, cable TV, internet, cell boosters, and more. Cables come in many sizes and lengths, each designed for specific uses. What Does A Coaxial Cable Look Like?
 Before we get into how coax cables work, you need to know how they’re constructed. As you can see from the above image, there are four main parts:
At the core, coaxial cables consist of a single copper or copper-coated steel wire. It’s what carries the high-frequency signals. A dielectric insulator, often made of plastic, surrounds the wire. It keeps a constant distance between the center conductor and the next layer. The metal shield, made of woven copper, aluminum, or other metals, wraps around the insulator. It cancels outside electromagnetic interference. The final layer is a rubber wrapper or jacket that insulates the whole configuration. Outdoor-rated cables need extra insulation and special jackets to protect the wires from sun and moisture. How Does Coaxial Cable Work?Coaxial cables transmit signals through the center wire and metal shield at the same time. This generates a magnetic field. The insulator keeps the signals from coming in contact with and canceling each other. It also protects the signal from outside electromagnetic interference. As a result, signal can be carried over long distances with little interference or loss. Depending on your application, the signal is then converted into images, audio, WiFi, or amplified cell reception. What are the Uses and Applications of Coaxial Cables Coaxial cable is used by cable operators, telephone companies, and internet providers. They’re necessary for applications requiring radio frequency transmissions, such as: Cable TVIf you have cable television, coaxial cable is used to carry video and data from the cable company to your TV. They’re also used to connect your television or digital converter box to a personal antenna. Signal BoostersWilson Amplifiers is the leading provider of cell phone boosters. They use an outdoor antenna, an amplifier, and an indoor antenna. Coaxial cables are used to connect the three components. It also bypasses signal blocking material. With this technology, you can boost your weak outside cell signal and enjoy stronger signal inside your home, office, or vehicle. Cable Internet (Copper-Based)Cable internet uses coax cable to provide your home with internet. The copper-based cable is piped into your house from the cable service provider. Your router or cable modem connects to a coax or ethernet outlet to receive the signal. You can then wire your devices to the router or connect via WiFi for speedy internet access. Ham RadioHam radio is a means for people to communicate over airwaves. Coaxial cable connected to the antenna provides a stronger signal. Ham radios can be set up in the middle of nowhere and do not require internet or cell phone technology. Basic RF SystemsRF (Radio Frequency) waves are generated when an alternating current goes through a conductive material. Coax cables carry radio frequency signals. They can be used with any RF system. Are All Coax Cables the Same?While all coaxial cables are used to transmit signals, they are not all the same. Coaxial cables vary in size, material, and shielding. Each type of coax cable works best with specific applications. Common Types of Coaxal CableThere are many different types of coaxial cable to choose from. Your application will determine which one has the best characteristics. Here are a few common types: RG Coax CablesRG, short for Radio Guide, is the original military cable specification used for cable. The RG number distinguishes the cable's characteristics and specifications.
RG-6/U
Impedance: 75 Ohm Core size: 1.024 mm Dielectric Type: PF Nominal Attenuation per MHz (dB/100 ft):850/8.5dB; 1900/13.6dB
RG-6/U is a common type of coaxial cable. It has an impedance of 75 Ohm. It's used in a wide variety of residential and commercial applications, including cable television.
RG-8
Impedance: 50 Ohm Core size: 1.024 mm Dielectric Type: PF Nominal Attenuation per MHz (dB/100 ft): 850/6.4dB; 1900/10.4dB
RG-8 is similar to RG-6, but unable to carry pure video signals. It has an impedance of 50 Ohm. It's used in audio control rooms, radio stations, and external radio antennas.
RG-11
Impedance: 75 Ohm Core size: 1.024 mm Dielectric Type: PF Nominal Attenuation per MHz (dB/100 ft):850/6.25dB
RG-11 is a higher gauge cable used for CATV, HDTV, TV antennas, and video distribution. It has an impedance of 75 Ohm and covers up to 3 GHz. LMR® Coax CableLMR® is the newer generation of RF coaxial cables. They provide greater flexibility, ease of installation, and lower cost. They're used as transmission lines for antennas on missiles, airplanes, satellites, and communications.
LMR®200
Impedance: 50 Ohm Core size: 1.12 mm Dielectric Type: PF Nominal Attenuation per MHz (dB/100 ft): 850/9.6dB; 1900/14.6dB
LMR®200 is an outdoor-rated flexible low loss communications coax. It has a 50 Ohm impedance and is great for short antenna feeder runs. This cable also features low-PIM.
LMR®240
Impedance: 50 Ohm Core size: 1.42 mm Dielectric Type: PF Nominal Attenuation per MHz (dB/100 ft): 850/7.2dB; 1900/11.2dB
LMR®240 is also an outdoor rated flexible low loss communications coax with an impedance of 50 Ohm. It's designed for short feeder runs for applications like GPS, WLAN, and mobile antennas.
LMR®400
Impedance: 50 Ohm Core size: 2.74 mm Dielectric Type: PF Nominal Attenuation per MHz (dB/100 ft): 850/3.8dB; 1900/5.8dB
LMR®400 is a flexible communications coax with an impedance of 50 Ohm. It's used for jumper assemblies in wireless communications systems and antenna feeder runs. If you need a cable that requires periodic or repeated flexing, choose this one. LMR®400 was designed to replace the RG-8 cables.
LMR®600
Impedance: 50 Ohm Core size: 4.47 mm Dielectric Type: PF Nominal Attenuation per MHz (dB/100 ft): 850/2.4dB; 1900/3.8dB
LMR®600 or “Half-Inch” is designed for outdoor use as well. It's more flexible than air-dielectric and hardline cables in terms of bending and handling. It also has an impedance of 50 Ohm.
LMR®900
Impedance: 50 Ohm Core size: 6.65 mm Dielectric Type: PF Nominal Attenuation per MHz (dB/100 ft): 850/1.6dB; 1900/2.6dB
LMR®900/1200/1700 are larger cables. They're designed for medium antenna feeder runs with any application needing an easily routed, flexible low loss cable.
LMR®200
Impedance: 50 Ohm Core size: 8.66 mm Dielectric Type: PF Nominal Attenuation per MHz (dB/100 ft): 850/1.2dB; 1900/1.9dB
LMR®1700
Impedance: 50 Ohm Core size: 13.39 mm Dielectric Type: PF Nominal Attenuation per MHz (dB/100 ft):850/0.9dB; 1900/1.5dB How to Identify Coaxial Cable Types?The numbers and letters printed on the cable jacket tell you everything you need to know. The type of cable it is, who manufactured it, rating, and more. Coaxial Cable Signal Loss (Per 10 Feet) Signal loss happens with all types of coaxial cable. As signal travels through the cable, it loses energy. It’s inevitable. With increased cable length more signal loss occurs. Signal gain and loss are measured in decibels (dB), which are measured exponentially. A loss of 3 dB means a weakened signal by 2x! Per the image, the Wilson400 (and the equally powerful RG-11) has the least loss per 10ft. It’s almost twice as effective compared to the RG-6 for home installations. The only mightier cable is the pricey LG600 and even pricier Half-Inch. The RG-174 should never be installed in any unit that needs more than 6 feet of cable. It does a poor job of carrying signal at 10 feet. Signal loss doesn’t end there. Mixing and matching 50 Ohm and 75 Ohm cables and systems (more on this later) can lead to further signal loss. While you can customize your installation with connectors and adapters, it's best to stay consistent. To calculate the amount of loss you should expect, use an online calculator. For example, the QSL Loss Calculator. We don’t endorse this one specifically. Simply fill in the blanks and loss will be calculated in seconds. There are many online calculators you can use as well as formulas for manual calculation. Important Coaxial Cable Features to Consider Before You Buy Coaxial Cable Length and ThicknessCoaxial cable comes in varying lengths and thicknesses. These features will determine the strength of the signal transmitted. As mentioned, the longer the cable the more loss occurs when transmitting signal across long distances. Thick cable features lower loss than thin cable, making it ideal for long cable runs. For optimal transmission, you’ll want the shortest and thickest cable appropriate for your application. In radio systems, cable length is comparable to the wavelength of the signals transmitted. You can study the math involved in deciding the best cable length to use. Characteristics of the cable, such as outside diameter of the inner conductor, inside diameter of the shield, dielectric contact of the insulator, and magnetic permeability of the insulator, all affect the quality of the wavelength going through your cable. Coaxial Cable and dBmdBm represents your signal strength. The type of coaxial cable used will determine how many dBm your cable can handle. Coaxial Cable Impedance (Ohms)Impedance is the amount of resistance waves moving through the coaxial cable encounters. The lower the impedance, the easier the waves flow through the cable. Each type of cable has an impedance rating. Factors affecting this are the size and materials of the cable. Standard coax impedances are 50 and 75 Ohms. When tested, these impedance ratings were deemed a great balance between power handling and low loss. What is the difference between 50 and 75 Ohm cables? This analogy might help. Think of signal as a drink and cables as straws. 75 Ohm cables are your typical soda straws, and 50 Ohm cables are jumbo straws. While 50 Ohm cables transmit signal better, it doesn't mean you need 50 Ohm cable. 50 Ohm cables tend to be better for high power handling applications. These could be commercial boosters, broadcasting TV transmitters, and ham radios. 75 Ohm cables are the popular choice for home and office applications. They're used for residential signal booster installations, cable TV boxes, internet routers, and the like. These are general rules and do not apply to all types of cable. When choosing cable, avoid mixing and matching 50 Ohm and 75 Ohm cables and systems. You should aim to use the same impedance throughout to prevent additional signal loss. Coaxial Cable and PIMPIM stands for Passive Intermodulation. When you connect two metals, the result is nonlinear elements, and distortion in the signal may occur. As signal amplitude goes up, the effects will be more significant. This often happens when connecting antennas, cables, and connectors. PIM problems occur most often in cellular networks. To mitigate PIM issues, consider low-PIM cables, connectors, and adapters. Coaxial Cable Connectors Connectors are on each end of the cable. They are designed to maintain the integrity of the cable as it transmits signal. They are usually plated with high-connectivity metals, such as tarnish-resistant gold or silver. The type of connector you need depends on what you are connecting to.
Coaxial Cable Connector Types:
SMA Connector
SMA stands for Subminiature Version A. It's a minimal connector interface for coaxial cable with a screw-type coupling mechanism. It has an impedance of 50 Ohm and is designed for use from DC (0 Hz) to 18 GHz. Applications include microwave systems, handheld radios, and mobile telephone antennas.
SMB Connector
SMB stands for Subminiature Version B. SMBs are smaller than SMAs and feature a snap-on coupling design. They are available in 50 and 75 Ohms and operate up to 4 GHz. Less robust than SMA, they can’t be used in harsh environments. Common applications include base stations, antennas, GPS, and computer systems.
F-Type Connector
F-Type connectors are mid-size connectors designed for common use. They are commonly found on RG-6/U cable. F-Types are the most widely used connector for residential wiring. They're used with cable television, satellite television, and cable modems.
N-Type Connector
N-Type connectors are larger connectors designed to be used with thick, commercial cable.
FME Connector
FME (For Mobile Equipment) is a 50 Ohm miniature coax connector that offers performance from DC to 2000 MHz. It’s mainly used in cellular communication devices and data applications.
TNC Connector
Threaded Neill–Concelman (TNC) connectors are commonly used in mobile phones and RF/antenna connections. They are weatherproof and operate up to 11 GHz.
UHF Connector
UHF connector, also known as Amphenol coax connector, is a 50 Ohm connector for low-frequency RF applications. It’s widely used in amateur radio, citizens' band radio, and marine VHF radio. It’s suitable for use up to 300 MHz. Connectors are either standard or reverse polarized male or female. Standard polarized male connectors have threads on the inside of the shell and a pin. On the other hand, standard polarized female connectors have threads on the inside of the shell and no pin. The hole and pin are switched in reverse polarized connectors. In other words, the female connector has the pin, and the male connector has the hole. The only way to connect a male to male or female to female is with a coax cable adapter, which also causes signal loss. Signal attenuation from an adapter will depend on the quality. Check the plug on your device to avoid unnecessary signal loss. If it’s a standard female, you need a standard male plug and vice versa. Getting a coaxial cable with the correct connector from the get-go is recommended. Putting It Together
The RG-6 cable is a 75 Ohm cable with F-Type connectors. This is the same cable used with many cable/satellite TV devices. It also comes pre-wired in many homes, making it simple to wire and install. The F-Type connector is a mid-size connector designed for common use. It is the most widely used coaxial connector for residential wiring. Mainly used for the average home installation that covers 2,500 to 5,000 sq ft. Cable length from 20 to 50 feet. Comes only in white. These come kitted with the popular weBoost Home MultiRoom and the budget weBoost Home Room.
The RG11 cable is another 75 Ohm cable with F-Type connectors. What separates it from the RG-6 is its range. Whereas RG-6 tops out at 50 feet, RG-11 ranges from 50 to 100 feet and features lower loss. These do not come pre-kitted with any of our signal boosters. However, they are highly recommended if you need over 50 feet of cable to power your booster.
The Wilson400 cable is an LMR®400 spec cable. These are 50-ohm, pro-grade coaxial cables designed for large installations from 7,500 to 50,000 square feet. Cable length ranges from 50 to 1000 feet, spooled. Your installer will typically apportion the cable into shorter lengths to cover the range of the installation while maintaining quality signal strength. This Wilson400 is fitted with an N-Type connector, a large connector designed to be used with thick, commercial cable. The most popular units that include these cables are the WilsonPro line of commercial signal boosters. However, they are compatible with any equipment that uses 50 Ohm cables fitted with N-Connectors. Shop Wilson400 Coax Cable Shop Wilson400 Plenum Coax Cable
If you need to run cable in excess of 150 feet, your installer may recommend either an LMR®600 or a “half inch” coaxial cable. These are extremely thick cables which are much more industrial than any of the other varieties, and are expensive to boot. An installer will only recommend either of these in rare, specialized situations depending on individual need, but should they do so they will certainly have good cause. These are the best available cables to maintain a quality signal strength on the market. The difference between an LDF4 and an AI4 RPV-50 is the interior - the LDF4 has a foam covering, and the AI4 RPV-50 has nothing. The difference in function, however, is minimal. Contact Us for LMR®600 Type Cable
RG58 and RG174 cables are used in vehicle boosters. The difference between the two is the better low-loss quality of the RG58 with cable length up to 20 feet compared to the RG174’s 6 feet. For large vehicles, such as RVs or boats, the RG174 is preferred. Both are fitted with SMA connectors. These are small, copper connectors used in modems and the like. They are relatively inexpensive, which allow for the cable’s cheaper cost. The difference between the two is the better low-loss quality of the RG58 with cable length up to 20 ft compared to the RG174's max length of 6 ft. Compatible with weBoost Drive Reach, weBoost Drive Sleek, and the weBoost Drive X. Coaxial Cable Advantages and DisadvantagesLike all electrical equipment, coaxial cable has its advantages and disadvantages. Advantages:
Disadvantages:
How Do I Choose Coaxial Cable? To choose the best coax cable for your application, there are many things to consider. What device are you using? A cell booster might require a different cable than a satellite dish. Will the cable be installed inside or outside? Different use cases call for different cable ratings. Reference different cable types to see which ones will work best with your device. Choose the one that has the impedance, rating, and connectors you need. Next, calculate the distance between your transmitter and receiver. For example, the distance from an outdoor antenna to a cable box or amplifier. Since shorter cable runs produce crisper signal, your cable should be close to the distance you calculated. Nothing shorter or excessively longer. Loss of signal is inevitable when traveling across any distance. A shorter cable will have less loss than a longer cable and a thicker cable will have less loss than a thinner cable. Acceptable loss will depend on your devices and your application. To minimize loss, impedances must match across cables and devices. Remember, if you want to calculate loss, there are various online calculators available. Coaxial Cable FAQ
The speed at which coaxial cables transmit data depends on the type of cable and the technology that gives it its speed. For example, your internet service provider, cable company, and the like. On average, coaxial cable transmission speed ranges from 10 Mbps to upwards of 100 Mbps. Does Coax Cable Go Bad?Coaxial cable can last for many years, but it can go bad. The main culprits are:
Increasing the longevity of your coaxial cable starts with buying the right cable. From there, make sure to install it correctly, weatherproof the connectors, and avoid bending it. Can I Install Coaxial Cable Outdoors?Coaxial cable can be used in both indoor and outdoor applications with a few differences. Coax used outdoors requires additional insulation to protect the wires. Cables rated for outdoor use may run along the outside of your home to an antenna or cable box on the corner. Whether out in the sun or buried in the earth, the cable needs to be protected enough to provide seamless transmissions. Our coaxial cables are outdoor rated, but not direct burial rated. Does It Matter What Coaxial Cable I Use?Yes. A signal booster might need a different cable than radio systems. For best results, it’s important to use a cable that's appropriate for your application. Manufactures of Coaxial Cable
Bolton Technical is a leading provider of coaxial cables, connectors and antennas used in high-end electronics and equipment.
Wilson Amplifiers is the leading provider of cellular boosters and coaxial cables. If you’re looking for high-quality coax cable to stay connected, we can help you. Give us a call and we’ll help you find the right one. We seriously hate dropped calls and poor coverage, so it's our goal in life to totally eliminate spotty signal:
Ask us anything and we'll be glad to help. LMR® is registered trademark of Times Microsystems. Coaxial Cable SourcesInterested in Learning More? Check Out Our Signal Boosting Info Center |
What is the smallest grounding conductor to be used for the outer conductive shield of a coaxial cable?
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