Ethernet phone cable: Modem, Telephone & Ethernet Cables

Modem, Telephone & Ethernet Cables


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  • Cable



A device used to join electrical conductors and create an electrical circuit. Select the first desired connector on the one end of a cable, then a list of Connector 2 will appear to select the second connector on the other end.

  • RJ-11 Male

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  • RJ-45 Male

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Cable Type

Cable Type

The different types of cables designed for specific applications

  • Modem

  • Telephone

  • Coaxial

  • Crossover

Cable Length

Cable Length

The distance of cable measured from end to end

  • 5. 0 ft

  • 7.0 ft

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Jacket Material

Jacket Material

The material used for a cable insulation – the outermost layer of a cable

  • PVC (Polyvinyl Chloride)

Jacket Rating

Jacket Rating

The NEC’s ratings for the outer casing or the jacket that surrounds a cable’s internal wiring and insulation

  • Standard / Non-Rated

Wire Gauge

Wire Gauge

A measurement of wire diameter, determining the amount of electric current the wire can safely carry, its electrical resistance, and weight

  • 28. 0 AWG

  • 24.0 AWG

  • 26. 0 AWG

Warranty Type

Warranty Type

The type of product warranty that is available

  • Lifetime

How to Connect a Phone or Tablet to the Internet Using an Ethernet Cable

If your Wi-Fi is too slow and cellular data is erratic, there is an alternative. With an Ethernet cable, and the right adapter, you can connect your mobile device to an Ethernet port on your router or modem for a fast and dependable connection. 

It may seem odd to connect a mobile device via Ethernet, since Wi-Fi is built-in and easily available, but there are times when it makes sense. Your home Wi-Fi could be weak but your Ethernet connection is strong. You could be staying at a hotel with Ethernet port access, but unreliable or expensive Wi-Fi. Or you might need a better connection for online mobile gaming.

The main limitation is that you’re tethered to the Ethernet port on your router or modem, so you can’t go too far with your device. You can increase the range with a longer Ethernet cable, which can stretch up to 300 feet, though you may want to limit yourself to 50 feet to avoid tripping.

Buy the Right Adapter

Anker USB-C-to-Ethernet Adapter

First, you’ll need to pick up the right adapter for your particular phone or tablet. Most of these adapters shouldn’t cost more than $20 and can be found on retail sites like Amazon, Best Buy, and Newegg. 

Most Android devices and the iPad Pro will need a USB-C-to-Ethernet adapter(Opens in a new window), while older Android phones and tablets require a micro USB-to-Ethernet adapter(Opens in a new window). If you have an iPhone or standard iPad, you will need a Lightning-to-Ethernet adapter(Opens in a new window).

Plugable micro USB-to-Ethernet adapter

While some recognizable brands make these adapters, many of them are made by companies you might not recognize. It shouldn’t matter who you buy from, but your best bet is to read the reviews to see what other customers have to say. Not all adapters are compatible with every device, so do some research before you make a purchase.

Get an Ethernet Cable

Cat 7 Ethernet Cable

If you don’t already have an Ethernet cable, you can easily find one online. Prices vary depending on the length and quality of the cable, so you don’t have to spend a lot here, but don’t skimp either. Amazon sells a basic cable(Opens in a new window) for cheap, but if you want something longer or tougher, there are nylon cables(Opens in a new window) at differing price points. 

Set Up Your Android Device

Your Android device must be running Android 6.0 Marshmallow or higher, and be disconnected from Wi-Fi and cell service to connect via Ethernet. Both can be turned on and off by swiping down from the top of the screen and tapping their respective icons. 

Alternatively, go to Settings > Network & internet (or Connections) and turn off the switch for Wi-Fi. Go to Settings > Network & internet (or Connections) > Mobile Network and turn off the switches for mobile data and roaming. You can also simply turn on the switch for Airplane mode, which automatically disables Wi-Fi and cellular connections for your device.

Set Up Your iPhone or iPad

The process for using your iPhone or iPad is similar to that on Android, which means you’ll need to turn off Wi-Fi and cellular access. Swipe down from the top right of the screen to display the Control Center. Tap the Wi-Fi and Cellular icons to turn off these services. 

Alternatively, go to Settings > Wi-Fi and turn off the switch. Go to Settings > Cellular and turn off the switch for Cellular Data. To save time, open Control Center or Settings and turn on Airplane mode.

Connect Your Device to Ethernet

Now if you load a website in your browser—preferably one you don’t use often so a cached version of the site doesn’t pop up—you should get a notice that there’s no internet connection. Connect the Ethernet cable to your router or modem, then connect the Ethernet adapter to the Ethernet cable. Finally, connect the the adapter to your phone or tablet.

If the adapter has display lights, you should see the lights flash to indicate a connection. Refresh the current page on your browser, and it should now load. While you should be able to enjoy normal internet service through an Ethernet connection, some apps and services may not work properly because they expect a Wi-Fi or cellular connection.

How to Turn Your Phone Into a Wi-Fi Hotspot

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when does it make sense to use this technology?

Internet telephone line technology, which has been unheard of in Russia for several years, refuses to die. Moreover, it is developing. And, even stranger, it continues to be used and implemented primarily in the rich countries of Europe and America. Maybe it’s too early for us to write off telephone wires and there are situations when their use will be beneficial? Let’s take a look at how and why the xDSL family of technologies got a second wind, what successes they managed to achieve, as well as the problems of data transmission over telephone wires and how to solve them.

Despite the obvious advantages of fiber optic communication lines, in some cases, bringing fiber to every home is expensive and impractical. This problem is especially relevant in the private sector, where the operator or Internet provider is given a choice – to pull an underground fiber optic cable for several hundred meters or to connect the Internet through already laid telephone lines.

The demand for “Internet over the phone” is driving the emergence of technologies that allow the last mile use of existing copper subscriber lines, which have been developed by telecom operators and cable TV for decades. Moreover, both new technologies and tools for their installation and diagnostics are emerging.

An example of an increase in the throughput of a telephone line is the standard, which regulates the transfer of information at speeds up to 1 Gbit / s over ordinary telephone wires. This, in turn, ensures the high-quality operation of modern IPTV services with 4K streaming video.

Typical copper cable outlet lengths are several hundred meters in homes, office buildings and industrial buildings. speed for copper cable up to 100m can reach 500-1000Mbps. Moreover, in the UK in October 2017, tests of the new technology were carried out, which can increase the speed to 1.8 Gb / s per 100 m. With, the existing copper infrastructure is expected to be used for another decade, until will be replaced. This also applies to Russia, whose telephone and cable networks need such “intermediate” standards.

The Broadband Forum has already certified a number of pieces of equipment for G. Fast, and by 2021 G.Fast technology will be operating in approximately 30 million homes around the world, according to forecasts by research firm Ovum.

It should also be noted that the spread of fiber optic networks releases a large amount of copper pairs in subscriber networks. This creates the possibility of increasing the access speed by organizing a DSL channel over two or more copper pairs. The so-called link of channels (channel bonding) is a combination of two or more communication channels to obtain more bandwidth. For example, ADSL 8 Mbps can be bundled at 16 Mbps.

Such connections can be especially useful when it is necessary to “pull up” the capabilities of copper lines to realize the maximum potential of G.Fast technology. Moreover, you can use a bunch of G.Fast lines, which will give you even more speed.

At the same time, the organization of a high-speed channel over a copper line imposes a number of requirements on its quality.

Possible phone line internet problems and tools to fix them

Like any current conductor, copper communication lines are subject to a large number of possible conduction disturbances. So, in a telephone or television cable there may be water, poor contact in the coupling, a broken conductor, a short circuit between the cores, etc. There are also specific problems. Load coils are installed in some networks, which result in attenuation of high-frequency signals of modern communication standards. In Russia, there are few networks with load coils, for example, MGTS has about 5% of such networks. But a communication specialist may encounter them.

A serious problem is also the presence of parallel taps left from the old cross-connect. When connecting new digital services, taps create echoes that degrade the quality of communication.

All of these analog line problems must be resolved before modern high-speed services can be connected.

There are not many handy tools for solving the problems mentioned, one of the best is the Greenlee Sidekick Plus 1155-5019 analyzer, capable of detecting and repairing all damage to the subscriber line, supports Bonding and Vectoring technologies, and will also help in installing and configuring IPTV. And the option of the Greenlee GUPM100-04 meter allows you to check the power of the optical signal.

Greenlee Sidekick Plus Analyzer 1155-5019

The list of analyzer functions is arranged according to the order of their most frequent use: line voltage measurement; loop current; measurement complex mode for assessing the line performance and its suitability for high-speed communication.

The analyzer checks interference and interference, signal attenuation, measures the capacitance of a telephone cable, insulation resistance, detects the location and number of load coils, line and tap faults, and many other parameters important for high quality communication.

Like most modern analyzers, the Greenlee Sidekick Plus 1155-5019 has the functions of automatic testing and recording measurement results to the built-in memory.

Connect the past and the future

The use of the existing extensive copper communications network will continue in the coming years. At the same time, the requirements for their quality will increase dramatically, as the demand for video streaming services and high-speed Internet grows. Testing old “last mile” telephone and television networks is a complex task that requires advanced next-generation equipment.

Express diagnostics of subscriber lines and measurement of their parameters

See also:

  • DSL access business model

  • Transformation of the subscriber telephone network into a DSL access network

  • Bonding and Vectoring Technologies

  • Subscriber line and termination analyzers

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See also:

Difference telephone cable and network patch cable – Knowledge

Difference telephone cable and network patch cable – Knowledge – Undertook Precision Electronic Co. , Ltd

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Home > Knowledge > Contents

Difference between telephone cable and network cable

– Nov 07, 2018-

After using network cable for so long, do you know the difference between network cable and telephone line? Can the network cable be shared with the telephone line?

First: Various functions

1 telephone cable is modulated by ADSL, and the computer’s digital signal is modulated into an analog line number can be transmitted through the telephone cable. After the opposite end of the telecommunications side, the analog signal is demodulated into a digital signal. The network cable has less modulation and demodulation pitch.

2. Bandwidth problem. Telephone cable is subject to physical bandwidth. In general, the bandwidth is not too high (the maximum value of broadband is 8M), and the physical bandwidth of the network cable is relatively high (a good network cable can reach 1000M or more)

Second: Other interface

Why use a modem to connect to the phone interface, and the network cable interface does not respond to it. This is because the signal from the telephone cable can be transmitted to the network device through modem conversions and processing, such as forwarding to a computer, router, hubs and switches, etc. If it is connected directly, it is an unrecognizable analog signal, which is equivalent to no signal. In other words, the modem’s function in the middle is simple signal processing and conversion. Specifically, an analog signal from a telephone cable is converted into a digital signal and transmitted to a network device, and a digital signal transmitted from a network device is converted to an analog signal.