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Plugable Gigabit USB-C to Ethernet Cable, 2m 6.6ft
$19.95 USD
SKU: USBC-E1000-2MAmazon Rating : (61 Reviews)
Features
- Reliable Wired Internet— The Plugable Ethernet to USB C Cable (USBC-E1000-2M) delivers dependable, high-speed Gigabit internet with a 2-meter (6ft) reach. Get a USB-C plug on one side, and a Gigabit Ethernet male connector on the other. Perfect for stable, secure networking at home, in the office
- Solid Performance— No more wobbly dongles. Our integrated USB C to Ethernet cable design means fewer failure points and better durability. It’s ideal for professionals and students who need a secure, no-fuss connection every time—no drivers, just plug-and-play simplicity
- Extra Reach for Extra Flexibility— With 2 full meters (6 ft) of cable, this adapter makes it easy to connect across desks, conference tables, or server racks. Whether you're in a home office or a shared workspace, this USBC to Ethernet cord offers an easier, cleaner setups
- Plug-and-Play Compatibility— USB-C to Ethernet cord works with popular USB-C devices like Dell XPS, Lenovo ThinkPad, MacBook, Chromebooks, USB-C iPads and iPhones. Works wonderfully with Windows 7+, macOS 11+, ChromeOS 100+, and Linux Kernel 3.9+ for fast, stable internet without driver installs
- Lifetime Support— This Ethernet to USBC cord has been designed with reliability at its core and was built to meet the deployment demands of IT departments and the ease of use necessary for home offices. Includes lifetime support from our North American team of connectivity experts
For volume orders or business inquiries contact sales@plugable.com
Free 3-Day Continental U.S. Shipping on Orders Over $35!
Tech Specs
| Host Connection | USB-C (5Gbps) recommended or faster (USB4, Thunderbolt 3/4/5) |
| Gigabit Ethernet | 1000BASE-T 1000Mbps Ethernet connection |
| Cable Length | 6.6ft/2m |
| 8P8C | Sometimes referred to as “RJ45” the 8P8C modular connection can be connected directly to Ethernet switches, or router Ethernet switch ports |
| Chipset | Realtek RTL8153E USB Gigabit Ethernet Controller |
| Drivers | (Optional) Realtek USB 1G / 2.5G / 5G / 10G Ethernet Family Software and Drivers |
A: Most modern systems running Windows, macOS, or ChromeOS include a built-in driver so no additional driver installation is necessary. If the cable doesn’t work automatically, please find the driver on the Plugable website.
A: Yes, this Ethernet cable may be connected to a 2.5Gbps, 5Gbps, or 10Gbps 8P8C switch port, however network performance will be limited to 1Gbps
A: No, this adapter is compatible with USB-C 5Gbps, 10Gbps, as well as USB4, and Thunderbolt 4 and 5 host computers, the USB link speed will always be 5Gbps with the network link speed at 1Gbps
A: No, the adapter is powered by the computer’s USB-C port.
A: Most traditional game consoles are not USB-C compatible and will not support this adapter. Windows and Linux based hand-held consoles like the Steam Deck, ROG Ally, and Legion Go include drivers for this adapter.
 |
 |
 |
 |
 |
|
|---|---|---|---|---|---|
USB Port |
USB-C |
USB-C |
USB-C |
USB-C |
USB-C |
USB Port |
RJ45 Plug |
RJ45 Receptacle |
RJ45 Receptacle |
RJ45 Receptacle |
RJ45 Receptacle |
Network Speed |
Gigabit |
Gigabit |
Gigabit |
2.5 Gigabit |
5 Gigabit |
Link Rate |
100/1000Mbps |
100/1000Mbps |
100/1000Mbps |
100/1000/2500Mbps |
100/1000/2500/5000Mbps |
Thunderbolt Port Compatible |
Yes |
Yes |
Yes |
Yes |
Yes |
Compatibility |
Windows, macOS, ChromeOS |
Windows, macOS, ChromeOS |
Windows, macOS, ChromeOS |
Windows, macOS, ChromeOS |
Windows, macOS, ChromeOS |
Length |
6.6ft/2m |
1.5in/4cm |
3in/7.5cm |
4.75in/12cm |
4.75in/12cm |
Filter Help Articles and Frequent Questions by Category
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Is my ethernet adapter compatible with iPhone?
Our Plugable ethernet adapters are compatible with USB-C iPhone 15 and 16 / Pro / Pro Max running iOS 17 or newer. Our ethernet adapters are plug-and-play on iPhone, and ethernet connection is identified in the iOS settings app.
These following ethernet adapters from Plugable have been tested and verified to work with iPhone:
Understanding and Troubleshooting Network Performance
Computer networking is a complex topic. In this article, we'll be taking a deep dive on the nuances of network performance for those who need some additional explanation while striving to be concise, and to educate users of various experience levels relating computer hardware and computer networking.
If you just need to know how to perform a network performance test/benchmark, jump down to configuring iPerf.
Core Network Concepts
LAN vs WAN
With regards to network performance, it is crucial to first separate whether an issue is with Wide Area Network (WAN) performance, or if the issue is with Local Area Network (LAN) performance.
Your LAN is essentially the network inside your home or business. Many homes use a combination modem/router device provided by their Internet Service Provider (ISP). In some cases, especially in businesses, you may have a separate modem and router, along with other equipment connecting to the router such as a network switch.
Your modem, and the connection it establishes to your ISP—whether through coaxial cable, fiber, phone lines, or long-range wireless—essentially marks the point between the WAN and the LAN. The connection your modem makes to your ISP is the WAN, and any devices you connect through your router behind that modem belong to the LAN.
Link Rate
Almost every type of connection your computer makes to any piece of hardware will have a link rate of some kind. The link rate establishes how fast data can possibly be transferred across any given connection, but it does not guarantee how fast the hardware on either end of the connection will actually transfer data.
The concept of link rates, and their related bottlenecks, is likely best conveyed by giving an example of what connections might be involved in transferring a file from one computer on your LAN to another.
- 800Mbps—The file source is a USB 3.0 thumb drive capable of 100MB/s (800Mbps) read/write.
- 480Mbps—The USB 3.0 thumb drive is plugged into a USB 2.0 port on the PC, which has a maximum throughput of 480Mbps
- 1000Mbps—PC1's Ethernet connection establishes 1Gbps (1000Mbps) link to the router via Ethernet
- 300Mbps—The router connects to a second PC (we'll refer to this as PC2) via Wi-Fi, and it has established a 300Mbps link to the Wi-Fi adapter on PC2
- 480Mbps—The Wi-Fi adapter on PC2 is connected via a USB 2.0 port. The link rate of the USB connection to PC2 is at 480Mbps
- 6000Mbps—PC2 is going to store the file on an internal hard drive with a link rate of 6Gbps
- 1600Mbps—File Destination: SATA hard drive capable of 200MB/s (1600Mbps) read/write.
Following this chain, we see that 300Mbps is the slowest link rate established. This means that, regardless of the link rates established elsewhere, the absolute maximum the data can possibly be transferred is 300Mbps.
if we were to change the Wi-Fi connection to a wired Ethernet connection capable of 1Gbps, our performance bottleneck would then become the USB 2.0 connection to the USB drive where the file is stored.
Ports and Interfaces
Interfaces
A network interface represents connections, whether wired or wireless, that are made to form a network between devices.
Ports
Some may refer to physical hardware connections as "ports". For the purposes of networking, ports are logical constructs that can also be referred to as "network ports". Each network interface has 65,535 of these logical ports. Each port on a network interface is a separate data connection.
Benchmarking Network Adapter Performance
To properly benchmark network adapter performance, we need to:
- Use a simple LAN configuration
- Eliminate bottlenecks, especially link rate bottlenecks
Websites like speedtest.net, fast.com, and other performance tools in your web browser are going to use your WAN connection, and are not appropriate for determining if a network adapter is working well.
Transferring files from one computer to another on your LAN is typically not the best way to benchmark a network adapter. File transfers are bottlenecked by a number of things, including performance limitations of the disk the data is on, and often times a lack of establishing parallel network connections to perform the task.
One of the most accurate ways to benchmark network performance on a LAN is by using iPerf . To more effectively benchmark network adapter performance, it is best to establish a point-to-point connection between two PCs, rather than connecting through a router or switch.
Configuring iPerf
To test a connection using iPerf, you'll need at least two network interfaces, and preferably two computers. You'll also need to know the IP (Internet Protocol) address assigned to each network interface . One network interface will function as an iPerf server, and the other network interface will function as an iPerf client. Lastly, you'll need to download the version of iPerf 3.x that's appropriate for your computer's operating system and extract/install it .
Windows
- Make sure the drivers for both network interfaces involved in the test are using up-to-date drivers. Drivers for Plugable products can be found here.
- Download and extract iPerf for Windows
- Open Command Prompt
- Press Windows Key + R or + R, then enter
cmdin the window that appears - Search the Start Menu for
Command Prompt, and open it
- Press Windows Key + R or + R, then enter
- Navigate Command Prompt to the directory the directory where iPerf is located
- The
cdcommand is for 'change directory'- If you have a folder named 'iperf' on your Windows desktop, you can reach it in command prompt with the command
cd %USERPROFILE%\Desktop\iperf
- If you have a folder named 'iperf' on your Windows desktop, you can reach it in command prompt with the command
- The
- Run iperf in server mode via Command Prompt
iperf3.exe -s
macOS
- Usually it is best to install iperf on macOS using brew in Terminal
- Make sure the drivers for both network interfaces involved in the test are using up-to-date drivers
- Open Terminal
- Run iPerf in server mode
iperf3 -s
Linux
- Usually it is best to install iperf using the package manager in your Linux distro. For example, in Ubuntu, use
apt: sudo apt install iperf3
- Make sure the drivers for both network interfaces involved in the test are using up-to-date Drivers
- Open Terminal
- Run iPerf in server mode
iperf3 -s
Next, you'll need to run iPerf in client mode, targeting the IP address of the server/interface where iPerf is running in server mode. Additionally, we'll run the test for 30 seconds using -t 30 and with four parallel connections using -P 4. Running 4 parallel connections is optimal for saturating a network link.
Windows
- Open Command Prompt
- Press Windows Key + R or + R, then enter
cmdin the window that appears - Search the Start Menu for
Command Prompt, and open it
- Press Windows Key + R or + R, then enter
- Navigate Command Prompt to the directory the directory where iPerf is located
- The
cdcommand is for 'change directory'- If you have a folder named 'iperf' on your Windows desktop, you can reach it in command prompt with the command
cd %USERPROFILE%\Desktop\iperf
- If you have a folder named 'iperf' on your Windows desktop, you can reach it in command prompt with the command
- The
- Run iperf in client mode via Command Prompt (replace 192.168.0.200 with the IP address of the server/interface where iPerf is running in server mode)
iperf3.exe -c 192.168.0.200 -t 30 -P 4
macOS / Linux
- Open Terminal
- Run iPerf in client mode (replace 192.168.0.200 with the IP address of the server/interface where iPerf is running in server mode)
iperf3 -c 192.168.0.200 -t 30 -P 4
iPerf should start performing a network performance test. If the test fails to start, make sure that iPerf is not being blocked by your PC's/Mac's firewall.
Why iPerf is Ideal for Benchmarking
Unlike a file transfer, iPerf runs in memory on the PC and generates data to send using the CPU directly. This alleviates potential bottlenecks generated by storage devices, and allows you to explicitly control how many parallel connections are being used to transfer data rather than being unsure if parallel network connections are being used by other means.
Conclusion
There's a lot more to networking that isn't covered in this article, but we hope this helps explain enough to get an accurate measure of your network performance.
If you need assistance with your Plugable product that features network connectivity, please contact us for further assistance.
Network Prioritization - How to Set Service Order on macOS
If you find that your Plugable ethernet adapter or docking station is not connecting to the internet or is experiencing slower than expected speeds on your Mac then it may be related to its position in the macOS Network Service Order. This can apply to your Wi-Fi connection, ethernet, and even NAS systems.
macOS attempts to connect to the internet using the network service at the top of your list first. If your Wi-Fi or NAS (Network Attached Storage) is listed above your Plugable ethernet adapter, this often leads to users unknowingly using a slower wireless connection when they intended to use a wired one.
To ensure you are getting the full speed and stability of your wired connection, you must prioritize the Plugable ethernet adapter above Wi-Fi.
Navigate through these steps to Set Service Order:
- Click the Apple Menu () in the top-left corner of your screen and select System Settings.
- In the sidebar, click Network.
- Look for the Action Menu (a circle with three dots ...) located at the bottom right of the main window area.
- Click the three dots and select Set Service Order.…
- A list will appear showing all your network interfaces. Click and drag your Ethernet Adapter (often named "USB 10/100/1G/2.5G LAN" or “Plugable Docking Station”) to the very top of the list, above Wi-Fi.
- Click OK to save your changes.
Your network traffic will now automatically prioritize the wired connection, ensuring you receive the best possible speeds and stability from your Plugable adapter.
My Plugable product with wired Ethernet is no longer working on macOS. What can I do?
Please Note
The below guide is an advanced troubleshooting step, and we do not recommend doing so unless you are comfortable manually altering files on your Apple product running macOS. You may not be able to perform the below troubleshooting step if you are unable to execute administrative credentials on your laptop. Please reach out to our support first if you do not wish to attempt the below instructions. You can do so at Plugable.com/Support
How to delete a specific Ethernet adapter from your Network devices on macOS
- Click on the Apple logo in the top left corner of your primary monitor, and select ‘System Preferences’
- Next select ‘Network’ in the ‘System Preferences' window.
- In the now visible list, please select the Plugable Ethernet, or Thunderbolt Ethernet device that may not be working as expected.
- Once selected click on the minus button in the bottom left of the network window.
- Click on Apply in the bottom right.
- Next click on the plus button in the bottom left of the network window, and add the previously removed device.
- Click on Apply in the bottom right.
- Test to see if this has resolved the unexpected behavior, and assure that your Ethernet is now working.
- If this does not resolve the problem, please proceed to the next section (As noted previously the next section is for advanced users only!)
Manually erase your macOS Network Settings to fully reset the Network configuration
(Advanced! Click to reveal)
- Open the ‘Finder’ app, then in the ‘Go’ menu at the top of your screen select ‘Computer’
- Click on ‘Macintosh HD’ then Library, Preferences, SystemConfiguration
- Copy the file named ‘NetworkInterfaces.plist’ to your desktop as a backup of your current configuration.
- Delete the original version of the ‘NetworkInterfaces.plist’ located in the SystemConfiguration directory.
- Restart your Mac
- Login to your Mac, and return to System Preferences → Network
- If the list is now empty, please re-add the Plugable or Thunderbolt network adapter by clicking on the plus button in the bottom left of the Network window. Once done click on 'Apply'.
- Test to see if this has resolved the unexpected network behavior
I am still unable to get my Ethernet connection working on my Mac
If this is the case please reach out to our support team. When you do please include a diagnostic log gathered using our PlugDebug tool (instructions are provided on the PlugDebug page). If you are not able to gather the PlugDebug diagnostics do not worry we are still here to help! Please reach out to our support team at support@plugable.com or Plugable.com/Support with a detailed description of your problem, and the model of Plugable product you are using.
How To - Set a Network to Private or Public in Windows 10 & 11
The Windows Firewall may block some networking features when the local network is not set to Private. This article will describe the process for setting the local network, either wired Ethernet or Wi-Fi to be a Private network.
Windows 11
1 - Connect the computer to the network, either wired or wireless
2 - Open the Windows Settings - right-click on the Start Menu and select “Settings” from the pop-up menu
3 - On the left column select “Network & internet”
For Wired Networks
4 - Select the “Ethernet” option
5 - The connected network should be expanded, if not click on “Network Connected" to expand the section
6 - Select the “Network profile type” either “Public network” or “Private network” to suite your needs
For Wi-Fi Networks
4 - Select the “Wi-Fi” option
5 - Select your Wi-Fi network name “properties”
6 - Select the “Network profile type” either “Public network” or “Private network” to suite your needs
Windows 10
1 - Connect the computer to the network, either wired or wireless
2 - Open the Windows Settings - right-click on the Start Menu and select “Settings” from the pop-up menu
3 - Select “Network & Internet” fro the bottom section
4 - Select the “Ethernet” option from the left pane
5 - Select the “Connected” network from the right pane
6 - Select the “Network profile type” either “Public network” or “Private network” to suite your needs
Windows PowerShell
If the option does not show up in the Windows Settings GUI, or if you prefer to use the terminal.
1 - Open a new terminal: Right-click on the Start Menu and select “Terminal”
2 - Run the following command to list the available networks
Get-NetConnectionProfile
PS C:\Users\plugable> Get-NetConnectionProfile Name : Network InterfaceAlias : Ethernet Instance 0 InterfaceIndex : 7 NetworkCategory : Private DomainAuthenticationKind : None IPv4Connectivity : Internet IPv6Connectivity : NoTraffic
3 - Run the following command to set the network to Private
Set-NetConnectionProfile -Name Network -NetworkCategory Private
Where “Network” is the network name from step #2 and “Private” can be either “Public" or “Private”
How Can I Check the Ethernet Adapter Link Rate on my Mac?
One helpful way to identify your ethernet link rate speed is through the System Settings app in macOS. This can help us identify if your Plugable ethernet adapter is negotiating either 1Gbps or 2.5Gbps network speeds. Some routers have a mix of 1Gbps or 2.5Gbps ports, and in the macOS System Settings this will be shown in the Speed field.
In this example, we will be analyzing our USBC-E2500, which is a 2.5Gbps ethernet adapter. This method applies to all of our ethernet adapters, such as:
Navigate to the Network section, select the entry named “USB 10/100/1G/2.5G LAN” with the Green - Connected icon. Expand the Details button, and go to Hardware.
In the field that says Speed, you should see 2500Base-T if the ethernet adapter is connected to a 2.5G ethernet LAN port on your router. If you see 1000Base-T, this means the adapter is connected to a 1G ethernet LAN port. If you are expecting faster network speeds, please see your router's documentation on its multi-gig LAN port.
Can I connect this product to a computer's Thunderbolt/Thunderbolt 2 port?
Many users assume that USB-C devices can work with older Thunderbolt 2 Macs if they use a Thunderbolt 3 to Thunderbolt 2 adapter, such as the one made by Apple. However, this is not the case. These adapters are specifically designed to support Thunderbolt devices only - not standard USB-C peripherals.
While Thunderbolt 3 and USB-C share the same connector type, they use different underlying data protocols. Non-Thunderbolt USB-C devices, rely on USB standards for data and power. The Thunderbolt 3 to Thunderbolt 2 adapter does not carry USB signals; it only passes Thunderbolt data. Because of this, plugging a USB-C device into a Thunderbolt 2 Mac using this adapter will not work - the computer will not detect or communicate with the device.
If you need to connect peripherals to a Thunderbolt 2 system, we recommend using a USB-A dock or hub (if available on your system). This ensures compatibility without relying on unsupported adapter chains.
In short, even though the connectors may fit, USB-C devices are not compatible with Thunderbolt 2 Macs via Thunderbolt adapters - only Thunderbolt devices will work in that setup.
Choosing the Best Network Adapter for Your Needs
If you're looking to upgrade your wired or wireless network speed and internet connection with a Plugable USB network adapter, you’ll want to make sure you pick the right one for your setup. The three key factors to consider are:
- The type of network you are connecting to: Wired or Wireless (Wi-Fi)
- The type of USB port on your computer (USB-A, USB-C, or Thunderbolt)
- The Ethernet speed you need (Gigabit, 2.5 Gigabit, 5Gbps, or Wi-Fi)
This guide will help you quickly determine which Plugable adapter best fits your needs.
Step 1: Identify Your USB Port Type
Different Plugable adapters are designed for different USB connections. Here's how to find out what type of USB port your computer has:
- USB-A Port (Rectangular Shape) – Found on most older and some newer PCs and laptops. If your device has standard USB ports, you'll want an adapter with a USB-A connector.
- USB-C Port (Small, Oval Shape) – Found on modern laptops, tablets, and some desktops. If your computer has a USB-C or Thunderbolt 3/4 port, a USB-C adapter is a better choice.
- Thunderbolt 3 or 4 – Thunderbolt ports support USB-C accessories, so any Plugable USB-C Ethernet adapter will work.
💡 Not sure which ports your computer has? Check the manufacturer's website or look for an icon next to the port: a Lightning bolt indicates Thunderbolt ( or charging ) while a USB logo will indicate the USB version.
Step 2: Determine the Ethernet Speed You Need
Your network speed is influenced by both your internet plan and the devices on your network. Choose an adapter based on the speed you want to achieve:
| Network Speed | Best Use Cases | Recommended Plugable Adapter |
|---|---|---|
| 100Mbps (Fast Ethernet) | Basic browsing, emails, and light streaming | USB2-E (USB-A, 100Mbps) |
| 1Gbps (Gigabit Ethernet) | Streaming, gaming, and large file transfers |
USB3-E1000 (USB-A, 1Gbps) or USBC-E1000 (USB-C, 1Gbps) |
| 2.5Gbps and 5Gbps (Multi-Gig Ethernet) | High-speed networks, NAS, 4K+ streaming |
USBC-E2500 (USB-C, 2.5Gbps) or USBC-E5000 (USB-C, 5Gbps) |
| Wi-Fi (802.11N or Wi-Fi 4) | Adding Wi-Fi 4 to older notebook and desktop computers | USB-WIFINT (USB-A Wi-Fi 4 150Mbps) |
💡 Check your router’s specifications to see if it supports higher speeds like 2.5Gbps before choosing a multi-gig adapter.
Step 3: Choose the Right Adapter for Your System
Now that you know your USB port type and Ethernet speed requirements, here’s a quick guide to help you select the right Plugable adapter. The best bet is to meet or exceed the internet service provider’s rated speed, or for local file transfers the speed of the other systems on the network. For example, say your ISP provides a 2Gbps internet connection, then a 2.5Gbps or 5Gbps Ethernet adapter will be a good fit, while a 1Gbps adapter will still enable internet connectivity, the maximum data rate would be limited to 50% that of the rated internet speed.
For USB-A Computers
✅ Need basic 100Mbps Ethernet? → Choose the USB2-E100
✅ Need Gigabit speeds? → Choose the USB3-E1000
✅ Need Wireless Connectivity → Choose the USB-WIFINT
For USB-C or Thunderbolt 3/4 Computers
✅ Need Gigabit speeds? → Choose the USBC-E1000
✅ Need 2.5Gbps speeds? → Choose the USBC-E2500
✅ Need 5Gbps speeds? → Choose the USBC-E5000
Frequently Asked Questions (FAQs)
Q: Can I use a USB 3.0 Ethernet adapter in a USB 2.0 port?
A: Yes, but it will be limited to USB 2.0 speeds, which may affect performance.
Q: Will these adapters work with macOS, Windows, and Linux?
A: For the most part yes, except for our USB-WIFINT relies on proprietary drivers and is not recommended for macOS, Linux, or ChromeOS systems
Q: Does a faster Ethernet adapter make my internet speed faster?
A: Only if your internet service provider (ISP) plan supports higher speeds. A 2.5Gbps adapter won’t improve speeds on a 1Gbps internet connection.
Q: Can I use a USB-C adapter with a USB-A computer using an adapter?
A: It depends. Some USB-C to USB-A adapters may work, but some are limited to USB 2.0 data rates and can affect the network performance. When possible we recommend using a native USB-A Ethernet adapter for most reliable performance.
Conclusion
Picking the right Plugable USB to Ethernet adapter comes down to knowing your USB port type and the speed you need. Whether you’re looking for a basic 100Mbps connection or blazing-fast 5Gbps speeds, Plugable has an adapter to keep you connected.
Still have questions? Reach out to Plugable’s support team via email at support@plugable.com for help choosing the best adapter for your setup!
How To - Set a Custom MAC Address in Windows
What is the MAC address?
The MAC address (Medium Access Control address) is a unique network address for each Network Interface Controller to identify the hardware on the network segment. The address is generally expressed as six hexadecimal digits, sometimes separated by a '-', ':', or without a separator.
The MAC address is assigned by the hardware manufacturer during production, however many network controllers allow the operating system (via the drivers) to override the MAC address, this is handled at the operating system level and does not change the address stored in the adapter.
The first three octets (first three hexadecimal values, six characters) identify the network hardware manufacturer while the last three octets should be unique within each hardware manufacturer's product line. For example Plugable's MAC addresses all begin with "8CAE4C", with lower values typically representing older companies, "000000" belongs to Xerox for example, some companies have multiple ranges of MAC addresses.
Why it can be useful to override the manufacturer's address?
Setting a custom MAC address can provide anonymity when connecting to public networks. It can also be used by an IT Network Administrator to provide specific access rights to computers based on the connection.
It can also be useful for Network Administrators for testing, troubleshooting, and maintenance to simulate different devices without having access to that specific device.
Changing the Mac Address in Windows
The MAC address can be manually set from the Device Manager:
1. Right-click on the Start Menu and select Device Manager from the pop-up window
2. Expand the Network adapters section and double-click on the network adapter to be modified
3. From the network adapter properties pop-up window, select the Advanced tab
4. Under the Property: category, scroll down to and select "Network Address"
5. In the Value: field, enter the new MAC Address in hexadecimal format, the field has a maximum of 12 characters so do not use any separators between octets
6. Select the OK button to proceed
You can also check the MAC Address from the command line
1. Right-click on the Start Menu and select Terminal or Windows PowerShell
2. Type in the following command ipconfig /all or ipconfig /all | findstr C:/"Physical Address" to filter just the Physical Address lines.
3. Scroll through the output to find the target network adapter and Physical Address
How To - Set a Custom MAC Address in Linux
What is the MAC address?
The MAC address (Medium Access Control address) is a unique network address for each Network Interface Controller to identify the hardware on the network segment. The address is generally expressed as six hexadecimal digits, sometimes separated by a '-', ':', or without a separator.
The MAC address is assigned by the hardware manufacturer during production, however many network controllers allow the operating system (via the drivers) to override the MAC address, this is handled at the operating system level and does not change the address stored in the adapter.
The first three octets (first three hexadecimal values, six characters) identify the network hardware manufacturer while the last three octets should be unique within each hardware manufacturer's product line. For example Plugable's MAC addresses all begin with "8CAE4C", with lower values typically representing older companies, "000000" belongs to Xerox for example, some companies have multiple ranges of MAC addresses.
Why it can be useful to override the manufacturer's address?
Setting a custom MAC address can provide anonymity when connecting to public networks. It can also be used by an IT Network Administrator to provide specific access rights to computers based on the connection.
It can also be useful for Network Administrators for testing, troubleshooting, and maintenance to simulate different devices without having access to that specific device.
Checking the MAC Address in Linux
The MAC Address can be checked from the terminal:
1. Open a bash shell
2. Read the address from the /sys directory:
cat /sys/class/net//address
or from the ip command to print out all of the hardware MAC Addresses
ip -o link | awk '$2 != "lo:" {print $2, $17}'Changing the MAC Address in Linux
Temporary change until system reboot
1. Open a bash shell
2. Run the following command to set the MAC Address for a specific network device.
sudo ip link set dev <devicename> down sudo ip link set dev <devicename> address <mac address> sudo ip link set dev <devicename> up
3. Confirm the new MAC address
Permanently change the MAC Address
This can depend on your distribution's specific network services and settings. This example will create a new systemd unit file to change the MAC Address on startup.
1. Open a bash shell
2. Create a new systemd unit file "/etc/systemd/system/changemac@.service with the following contents the mac address should be colon separated:
[Unit] Description=Change MAC Address %i Wants=network-pre.target Before=network-pre.target [Service] Type=oneshot ExecStart=/usr/bin/ip link set dev %i down ExecStart=/usr/bin/ip link set dev %i address <mac address> ExecStart=/usr/bin/ip link set dev %i up RemainAfterExit=yes User=root [Install] wantedBy=multi-user.target
3. Enable the service with the following command
sudo systemctl enable --now changemac@<interface_name>
4. Reboot the computer, the MAC address should be set to the new address
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