Top 10 Ethernet
cable hacks

In this article, you’ll find out about ten simple Ethernet cable hacks that can improve your work within Ethernet network. Read on to learn how to make your Ethernet connections even more efficient.


  1. What is Ethernet?
  2. How to:

What is Ethernet?

The Ethernet protocol defines the principles by which PCs connected to a local area network (LAN) exchange data packets. The number of computers in the network can vary from 2 to several thousand. To connect with each other the computers use a "star" topology. That is, all devices (PCs) are interconnected by means of a switch - active network equipment.

The physical transmission medium for Ethernet protocol is a cable. Most often it is a copper twisted pair, a fiber optic cable, or their combination when it comes to FTTx. RJ-45 is used as a connector for an eight-core (2x4) twisted pair. The socket for Ethernet plug can be the input of any network card in a PC or router. To avoid the loss of signals, the length of a twisted pair cable should not exceed 100 m, whereas a fiber-optic cable should be no longer than 10-70 km (depending on its type). The maximum data rates are 100/1000 Mbit/s correspondingly.

How to fix an Ethernet cable plug

Many of you have probably experienced problems with a broken RJ45 plug. The locking tab of RJ45 plugs breaks easily and this is one of the most common issues faced by the users of Ethernet cables. Now, I’ll tell you about a temporary solution that will help you make a connection with a broken plug more reliable.

whole jack ethernet
broken jack RJ-45

As you know, an RJ45 plug without a locking tab does not lock properly. That means you can lose your Ethernet connection just when you least need it. Obviously, the best thing to do in this case is replace the broken plug using an RJ45 crimp tool. Don’t have one? No worries, there’s another way to protect your connection.

1. You’ll need:

repair tool ethernet cable

A cable tie tool, a sharp knife, cutting pliers, and two small nylon cable ties.

2. Make sure the cable ties are the right size.

selection by size nylon cable
measure the head in the outlet

It’s important that the head of each cable tie has the proper width to be easily inserted and released from the socket.

Check the width by inserting the head into the socket (it should snap) and pulling it back (there should be some resistance).

I used 4.3 mm wide heads.

3. Cable tie length.

leave the desired length

Take one of the cable ties and cut around 4.5 cm (1.8 inches).

4. Then, make its head flat.

cut off part of the head
one plane of nylon cable

You can do this using a sharp knife.

5. Bend the cable tie as shown in the picture below.

bend the cable tie

6. Take the second cable tie

fix the tie with the second tie
tighten the nylon cable part 1

and use it to tighten the first one.

7. Here’s what you should get:

tighten the nylon cable part 2

Now, let’s see what to do next.

8. Tune the position and bends of the first cable tie.

tune the position cable tie part 1
tune the position cable tie part 2

Tune the first cable tie, so that it acts as a spring.

9. Done!

new ethernet jack lock ready
check new RJ-45

Now, the repair plug can be inserted into the Ethernet socket.

tighten the nylon cable part 2

Many developers took this into account and decided to improve the jack by wrapping the latch with rubber protection that extends the life of the Ethernet cable.

How to connect an iPhone or iPad
to wired Ethernet

Well, there are many situations when a hardwired connection to Ethernet from your iPhone or iPad can be extremely useful. For instance, you want to download a large iOS update but your wireless connection is slow. Or when Wi-Fi is out you may need to get online with your iOS device. The cases are many but the main question is how to do this, considering that iPads and iPhones do not have an Ethernet port.

The solution is pretty simple. Here is what you should gather up in order to make this work:

  1. Your iOS device;
  2. The Ethernet cable;
  3. Apple Lightning to USB cable;
  4. Apple iPad or iPhone A/C adapter;
  5. Apple USB-to-Ethernet adapter;
  6. Apple Lightning to USB 3 Camera Adapter or a powered USB hub.

Now, let’s follow a few simple steps:

  • First, plug the Ethernet-to-USB adapter into the camera adapter, then plug an Ethernet cable into the USB Ethernet adapter. After that, connect the Ethernet cable to your router.
  • Once done, take the lightning cable and connect one of its ends to the camera adapter and the other one to the power adapter (or powered USB hub). Next, plug the power adapter into the wall.
  • Finally, connect the camera adapter to your iDevice. This is it!
connected adapter to iphone and ipad

It also should be noted that in case you don’t connect the adapter to the power first, you’ll get a notification saying that the connected device cannot be supported.

apple usb ethernet adapter

This is because the Ethernet connection takes much power. More than your iDevice can handle.

Another option to provide Ethernet for MacBook Air (or any other Mac computer) is Apple Thunderbolt Ethernet adapter. The solution allows connecting to a high-performance Gigabit Ethernet network.

thunderbolt ethernet adapter

You simply plug the device into the Thunderbolt port on your machine and get an RJ-45 port supporting 10/100/1000BASE-T networks.

As for the speed of data transfer, here are the results I got after running some speed tests from my MacBook Pro Retina to a Gigabit-wired Mac Pro:

  • 94 Mbps with Apple USB Ethernet Adapter.
  • 941 Mbps with Thunderbolt to Gigabit Ethernet Adapter.

How to connect two devices to one 8-wire Ethernet cable (if you don’t have a hardware Ethernet splitter at hand)

Let’s imagine that you have only one 8-wire Ethernet cable to which you need to connect two devices at a time. Can Ethernet cable be split? Sure. I’ll tell you how I do this when I don’t have a special Ethernet port splitter around.

For example, I have one 8-wire Ethernet cable running to the room where there is one Ethernet outlet. The other end of the cable goes to the server room, where it’s punched down into the patch panel.

I have no time to run the second cable. And I remember that in a 5e cable (a standard twisted pair cable consisting of 4 pairs) only two pairs are used for data transmission at speeds up to 100 Mbps, unless the device uses PoE - switchboard power. So, to solve this problem, I take:

  • a piece of a Cat5e Ethernet cable, approximately 50 cm;
  • two connectors;
  • four Ethernet sockets (I need only modules) or two double sockets;
  • a crimp tool and a punch-down tool (if you lack the latter one you can do with a flat screwdriver).

First, I divide the piece of the cable into two parts, each about 25 cm. Then, I crimp each of them on one end.

Next, I divide the second end into two parts, the pairs I choose are white-orange/orange + white-green/green, and, respectively, white-brown/brown + white-blue/blue. Then punch down the wires into the sockets using the “b” - scheme. Now, I get one socket with white-orange/orange + white-green/green pairs. And the other one with white-brown/brown and white-blue/blue pairs.

modify your ethernet port splitter

Now, I do the same to the second part of the cable. Once done, I can connect the cable to devices according to the scheme: two patch cords run from two ports of a switch. I plug the patch cords into the “handmade” sockets, and then I plug the free end of the cable with the connector into the patch panel. Now, let’s go to the room and do the same thing.

two devices work over the same cable

Voila! Two devices work over the same cable. What’s nice is that it takes no more than 20 minutes.

How to monitor Ethernet connections using a passive network tap

A passive Ethernet tap is a simple cross of CAT5 cable spliced together to allow Ethernet users to monitor in-line Ethernet communications. This unpowered device can only capture 10BASE-T and 100BASE-TX, and each of its sniffing connectors can monitor only the traffic transmitted one way.

make passive network tap

In order to use a tap within your Ethernet network, you need to insert it in-line on the required Ethernet connection (for instance, between a PC and a switch) and run a dedicated analyzing tool, e.g. Wireshark, on the machine linked to one (or both) of the sniffing connectors. The monitoring ports can only capture the transported data, so you don’t have to worry that any traffic can be transmitted onto the wire from your monitoring station.

To sniff traffic in both ways, you have to use two taps. By using two taps, you get the ability to monitor the inbound data passed through one tap, and outbound data passed through the other tap. At the same time, the practice shows that monitoring just one direction at a time is enough for efficient troubleshooting of Ethernet issues.

How to modify your Ethernet cable

network cable hack

If you have a bit of the experience of making network cables like a crossover or straight one, I think the following Ethernet cable hacks will be of interest to you. Based on the original layout of the standard Ethernet cable, I’ll tell you what you can achieve using the same wire.

To make cable modifications, you’ll need a CAT5/CAT5e networking cable, a few RJ45 connectors, a few RJ11 connectors, and a crimp tool.

crimp tool Cat5 and RJ11
Cat5 cable colors

Before we start, please note that we’ll be using the four wires which are usually useless in a standard 8-wire cable and don’t serve for network communications. These are 1, 2, 3, and 6 getting TX+, TX-, RX+, and RX- respectively. See below:

ethernet cable wire color part1
ethernet cable wire color part2

Also, remember which color you are using on one end of the cable, as you'll have to utilize the same on the other end.

Scenario 1. Twin

two computers share one ethernet cable

Let’s say you want to connect your PS3 and Xbox 360 but the router is too far and you don't have enough room for another cable. The solution? Twin straight cables made from a single one. Just use four wires for each connector and remember your color code.

For one device:


Wire color PIN no.
Blue 1
Blue White 2
Green 3
Green white 6


Wire color PIN no.
Blue 1
Blue white 2
Green 3
Green white 6

For the other one:


Wire color PIN no.
Brown 1
Brown White 2
Orange 3
Orange white 6


Wire color PIN no.
Brown 1
Brown White 2
Orange 3
Orange White 6

Scenario 2: network + phone cable.

phone jack and ethernet cable

About Phone connectors. RJ11, RJ14, and RJ25 are interface standards that allow connections for one, two, or three telephone lines using the same six-position modular connector. The main difference between them is that they use a different number of contacts (two, four, and six respectively).

If you only need to have a phone and LAN cable, you can use RJ25, and if you need LAN, power, and phone, use RJ11.

Now, let’s see how to create an all-in-one phone and Ethernet cable by adding an RJ14 connector.

Wire color PIN no.
Brown 1
Brown White 2
Orange 3
Orange white 4
Wire color Pin no.
Brown 1
Brown White 2
Orange 3
Orange White 6

Scenario 3: Network + Phone cable + Power supply.

phone jack to ethernet cable and power

Note that RJ11 uses only middle 2 pins (2 and 3) and not 1 and 4.

Wire color PIN no.
Brown 2
Brown White 3
Wire color Pin no.
Brown 2
Brown White 3

and the rest of the two wires will be for power:

Wire color Power wire color
Orange Red
Orange/white Black
Wire color Power connector wire
Orange Red
Orange/White Black

In conclusion

Do you want to see some crazy port design on a laptop? Here it is: Fujitsu laptop Ethernet jack.

origami ethernet

Soon this full-sized port will be just a memory but now let’s take a moment to admire the impressive mechanical marvel, a fold-out Ethernet jack on this Fujitsu laptop.

Serial to Ethernet Connector

Requirements for Windows (32-bit and 64-bit): XP/2003/2008/ Vista/7/8/10, Windows Server 2012
Requirements for Linux: Kubuntu 9.10 “Karmic Koala”, openSUSE 11.2 , 4.66MB size
Version 7.1.876 (27th Jan, 2017) Release notes
Category: Communication Application