All About Fix Intel Wireless AC 9560 Not Working in Windows

All About Fix Intel Wireless AC 9560 Not Working in Windows

Intel Wireless AC 9560 is a widely used wireless network adapter that provides fast and reliable internet connectivity for laptops and desktop computers. However, like any other technology, it is prone to issues that may affect its functionality. One of the most common problems encountered by users is the device not working properly in Windows. This can be frustrating, especially for those who heavily rely on a stable internet connection. In this article, we will dive into the possible causes of this issue and provide helpful solutions to fix Intel Wireless AC 9560 not working in Windows. By following these steps, you can easily resolve the problem and get your network adapter up and running effectively once again.

Fix: Intel Wireless AC 9560 Not Working in Windows

If you have an Intel Wireless AC 9560 network card installed on your computer, you may have encountered a problem where the device is not working properly in Windows. This can be frustrating, especially if you rely on your wireless connection for internet access or other tasks. In this blog post, we will explore some possible causes for this issue and provide troubleshooting steps to fix it.

Possible Causes of Intel Wireless AC 9560 Not Working

1. Outdated drivers: This is often the most common reason for wireless network card issues. If the drivers for your Intel Wireless AC 9560 are outdated, it may cause the device to not work properly.

2. Compatibility issues with Windows update: Sometimes, a recent Windows update can cause compatibility issues with the hardware on your computer, including the Intel Wireless AC 9560 network card.

3. Network adapter settings: If the settings for your network adapter are incorrect or misconfigured, it can affect the performance of your network card.

4. Hardware malfunction: In some cases, the Intel Wireless AC 9560 network card may be malfunctioning due to issues with the hardware itself.

5. Other software conflicts: There could be other software installed on your computer that is conflicting with the network card and preventing it from working properly.

Troubleshooting Steps to Fix Intel Wireless AC 9560 Not Working

Now that we have identified some possible causes, let’s take a look at how you can troubleshoot and fix the issue:

1. Update the drivers: The first step is to make sure that your network card drivers are up to date. You can do this by going to the Device Manager, right-clicking on the network card and selecting “Update driver.” If there are updates available, Windows will automatically download and install them.

2. Roll back recent Windows updates: If you started experiencing issues with your network card after a recent Windows update, you can try rolling back the update to see if that resolves the problem. Go to “Settings > Update & Security > View update history > Uninstall updates” and select the update you want to remove.

3. Check network adapter settings: Make sure that the settings for your network adapter are correct. You can do this by going to the Device Manager, right-clicking on the network card and selecting “Properties.” Check that the settings are configured correctly, and make changes as needed.

4. Check for hardware malfunctions: If the above steps do not resolve the issue, it’s possible that there is a hardware malfunction. You can try troubleshooting the hardware or contact your device manufacturer for further assistance.

5. Disable conflicting software: If you have recently installed any new software, try disabling it to see if it is causing the conflict. You can also try disabling any antivirus or firewall software temporarily to see if it makes a difference.

Conclusion

The Intel Wireless AC 9560 network card is a reliable and high-speed wireless adapter, but like any other hardware, it can encounter issues. By following the troubleshooting steps outlined above, you should be able to resolve any problems and get your network card working again. However, if you continue to experience issues, it may be time to consider replacing the network card.

1. Perform a hard shutdown

A hard shutdown, also known as a hard reset or force shutdown, is a process in which all power to a device is immediately cut off to forcibly shut it down. This is often used as a last resort when a device is frozen or unresponsive.

Performing a hard shutdown can be slightly different depending on the device you are using, but the general steps are similar. Here’s how to perform a hard shutdown on different devices:

1. Desktop or Laptop Computer:
– On a desktop computer, press and hold down the power button until the computer turns off.
– On a laptop, hold down the power button for 5-10 seconds until the laptop turns off.
– If that doesn’t work, unplug the power cord from its power source or remove the battery if your laptop has a removable one.

2. Smartphone or Tablet:
– On most smartphones and tablets, you can perform a hard shutdown by holding down the power button and volume down button simultaneously for 10-15 seconds.
– If that doesn’t work, try holding down only the power button for 10-15 seconds.
– If your device has a removable battery, remove it and reinsert after a few seconds.

3. Smart TV:
– Locate the power button on your TV and hold it for 10-15 seconds until the TV turns off.
– If you are unable to find the power button or it’s not working, unplug the TV from its power source.

4. Gaming Console:
– On most gaming consoles, you can perform a hard shutdown by pressing and holding the power button for 10-15 seconds.
– If your gaming console doesn’t have a power button, unplug it from the power source.
– For PlayStation 4, you can also hold down the power button for 7-10 seconds until you hear two beeps and then release the button to force shutdown.

It’s important to note that a hard shutdown should only be used as a last resort when a device is completely frozen or unresponsive. It’s not recommended to use it as a regular way of shutting down your device as it can potentially cause data loss or damage to the device.

After performing a hard shutdown, you can turn on your device and it should boot up normally. If the device continues to experience issues, it’s best to contact the manufacturer’s customer support for further assistance.

In conclusion, a hard shutdown is a handy tool to have when your device is frozen or unresponsive. It’s a quick and easy way to forcibly shut down the device and can save you from potential frustration. However, it should only be used when absolutely necessary and you should always try to shut down your devices using the regular method before resorting to a hard shutdown.

2. Update Windows to the latest version

2. Update Windows to the latest version

Keeping your Windows operating system updated is crucial for the health and security of your PC. Regular updates provide improvements to performance, fixed bugs, and most importantly, protect against the latest cybersecurity threats. In this blog, we will discuss the importance of updating Windows to the latest version and how it can benefit your computer.

1. Improved Performance:
As new technology and hardware are developed, updates are released to make sure that your computer is able to run smoothly and efficiently. These updates include bug fixes, security patches, and performance enhancements that can significantly improve the overall speed and performance of your PC.

2. Enhanced Security:
One of the main reasons to keep your Windows updated is for security purposes. With each update, Microsoft improves its security features to protect against the latest cyber threats, such as viruses, malware, and ransomware. By keeping your PC updated, you are ensuring that you have the latest security patches to defend against potential attacks.

3. New Features:
With every update, Windows also introduces new features and improvements to its operating system. These new features can enhance your user experience and make your work more efficient and productive. Some updates also include new apps, tools, and settings that are designed to make your computer more user-friendly.

4. Better Compatibility:
As software and applications are updated, they often require specific system updates to function properly. By keeping your Windows operating system updated, you can ensure that all the software on your computer remains compatible and functions smoothly. This can save you time and frustration, as incompatible software can cause crashes and performance issues.

5. Automatic Updates:
Windows updates are designed to be automatic, which means that they will be downloaded and installed on your computer without any manual effort. This makes it easy for you to keep your PC updated without having to worry about downloading and installing updates manually.

In conclusion, updating Windows to the latest version is crucial for the smooth functioning and security of your PC. With each update, your computer will run faster, perform better, and be protected from the latest security threats. We highly recommend enabling automatic updates to ensure that your system is always up-to-date. So, don’t delay those updates and keep your operating system optimized for the best performance.

3. Perform a network Reset, WinSock Rest, and Flush DNS

In this blog post, we will be discussing three important network troubleshooting techniques: Network Reset, WinSock Reset, and Flush DNS. These techniques are often used by tech professionals to fix various network-related issues. So let’s dive in and understand what these techniques are and how they can help us in resolving network problems.

1. Network Reset

Network Reset is a built-in feature in Windows 10 that allows users to reset all network-related settings to their default values. This includes resetting all network adapters, settings, and protocols to their original state. This technique can help in fixing network connectivity issues, Wi-Fi problems, and other related problems.

Here’s how you can perform a Network Reset:

Step 1: Open the Settings app on your Windows 10 computer.

Step 2: Go to Network & Internet > Network Reset.

Step 3: Click on the “Reset Now” button to initiate the network reset process.

Step 4: Follow the on-screen instructions and restart your computer once the process is completed.

After your computer restarts, it will have all its network settings back to default. This should help in resolving any network-related issue that you might be facing.

2. WinSock Reset

WinSock Reset is a command-line tool used to reset the Windows Sockets (WinSock) catalog to its default settings. It can help in fixing network connectivity issues caused by corrupted WinSock settings. This technique is specifically useful for resolving internet connectivity issues, slow internet speed, and DNS problems.

Here’s how you can perform a WinSock Reset:

Step 1: Open Command Prompt as an administrator. To do so, press Windows + X keys, and select “Command Prompt (Admin)”.

Step 2: In the Command Prompt window, type the following command and press Enter:

netsh winsock reset

Step 3: Wait for the process to complete. Once done, restart your computer.

After the reboot, the WinSock catalog will be reset to its default settings, and any network connectivity issues should be resolved.

3. Flush DNS

DNS (Domain Name System) is responsible for translating domain names into IP addresses. When you visit a website, your browser sends a DNS request to link the domain name to its corresponding IP address. Sometimes, DNS cache can get corrupted, causing network connectivity issues. To fix this, we can use the “ipconfig/flushdns” command to flush or clear the DNS cache.

Here’s how you can flush DNS:

Step 1: Open Command Prompt as an administrator.

Step 2: In the Command Prompt window, type the following command and press Enter:

ipconfig /flushdns

Step 3: Wait for the process to complete, and then restart your computer.

After the restart, the DNS cache will be cleared, and any DNS-related issues should be resolved.

In conclusion, Network Reset, WinSock Reset, and Flush DNS are three powerful techniques that can help in resolving various network-related issues. However, if you’re still facing network problems after trying these solutions, it’s best to seek help from a professional or contact your internet service provider for further assistance. We hope this blog post was informative and helped you in understanding these network troubleshooting techniques. Thank you for reading.

4. Restart Network Adapter

Today, we’ll be discussing how to restart your network adapter. This is a common troubleshooting step that can fix connection issues and improve network performance. Follow these steps to restart your network adapter:

1. Disable and Enable the Adapter
The first step is to disable your network adapter by going to the Control Panel > Network and Internet > Network Connections. Right-click on your network adapter and select “Disable”. Wait a few seconds and then right-click again and select “Enable”.

2. Restart Your Computer
If disabling and enabling the adapter doesn’t work, the next step is to restart your computer. Sometimes, a simple reboot can resolve network issues and restart the network adapter in the process.

3. Use Command Prompt
If restarting your computer doesn’t work, you can try using the Command Prompt. Open Command Prompt with admin privileges and type in the following commands, pressing Enter after each one:
– netsh winsock reset
– ipconfig /flushdns
– netsh int ip reset

These commands will reset the network settings and clear any potential network issues.

4. Update Drivers
If the previous steps didn’t work, it’s possible that your network adapter drivers are outdated. You can update your drivers by going to the Device Manager and expanding the Network adapters section. Right-click on your network adapter and select “Update driver”. You can also download the latest drivers from the manufacturer’s website.

Restarting your network adapter can help troubleshoot network issues and improve overall performance. It’s a quick and easy step that can save you from more complex troubleshooting methods.

5. Update Network Adapter

5. Update Network Adapter

As technology continues to advance, it’s important to make sure all of our devices and components are up to date. This includes our network adapters, which play a crucial role in connecting our devices to the internet. Here are five reasons why updating your network adapter is important.

1. Security
Network adapters are responsible for connecting your device to the internet, making it a prime target for cyber attacks. By keeping your network adapter up to date, you are ensuring that security vulnerabilities are patched and your device is protected from potential threats.

2. Performance
An outdated network adapter may not be able to handle the latest network technologies and speeds. By updating it, you can ensure that you are getting the best performance possible and can take full advantage of your internet speed.

3. Compatibility
As technology advances, older network adapters may not be compatible with newer devices. By updating your network adapter, you can avoid any compatibility issues and ensure that all of your devices can connect to the internet seamlessly.

4. Bug fixes
Just like with any software or hardware, network adapters can also have bugs and glitches. Updating your network adapter can help fix these issues and improve the overall functionality and stability of your device.

5. New features
Updating your network adapter can also bring new features and improvements. This could include better connectivity options, improved energy efficiency, or even faster speeds. By staying updated, you can take advantage of these new features and enhance your overall internet experience.

In conclusion, updating your network adapter is an important task that should not be neglected. Not only does it improve security and performance, but it also ensures compatibility, fixes bugs, and brings new features. So, make sure to regularly check for updates and keep your network adapter up to date for a smooth and secure internet experience.

6. Set Power Saving Mode to Maximum Performance

Power saving mode is a useful feature on our devices that helps us conserve battery life. However, it can also impact performance and cause our devices to run slower. Fortunately, this can easily be remedied by setting power saving mode to maximum performance.

Here are some steps to follow to set power saving mode to maximum performance on various devices:

1. Android Devices: Open the Settings app and tap on Battery. Here, you will find the option to turn on Power Saving Mode. Tap on it and then select the option for Maximum Performance.

2. iPhone: Go to Settings and tap on Battery. Here, you can toggle on the Low Power Mode option. In order to get maximum performance, turn this option off.

3. Windows PC: Click on the battery icon on the taskbar and select Power Options. Then, click on the option for High Performance. Here, you can also customize the power settings according to your needs.

4. Mac: Click on the Apple icon and select System Preferences. Then, go to Energy Saver and click on the option for Better Performance.

5. Chromebook: Click on the battery icon on the bottom right corner of the screen. Then, click on Power Mode and select High Performance.

Setting power saving mode to maximum performance will ensure that your device performs at its best and you can get the most out of it. You may notice a slight decrease in battery life, but it will be minimal compared to the boost in performance.

This setting is especially useful when you are working on resource-intensive tasks such as gaming or video editing. It will prevent your device from slowing down or freezing while you are in the middle of important work.

Moreover, setting power saving mode to maximum performance can also help extend the lifespan of your device by reducing strain on the battery. This is because constantly draining and recharging the battery can cause wear and tear in the long run.

In conclusion, setting power saving mode to maximum performance is a simple but effective way to boost the performance of your device. It is a useful feature to keep in mind when you need your device to run smoothly and efficiently.

7. Reconfigure behavior of WLAN Autoconfig

WLAN Autoconfig, also known as WLAN Autoconfig Service or WLAN Service, is a Windows operating system component responsible for automatically discovering and connecting to wireless networks. It is designed to provide a seamless wireless networking experience for users by managing network profiles and handling network authentication.

By default, WLAN Autoconfig is set to automatically configure and connect to wireless networks, without any user intervention. However, there may be situations where you want to change or reconfigure its behavior. In this blog post, we will discuss how to modify the settings of WLAN Autoconfig to suit your needs.

1. Open the Services Manager

To reconfigure the behavior of WLAN Autoconfig, you need to access the Services Manager. You can do this by pressing the Windows key + R, typing in “services.msc” and pressing Enter.

2. Find the WLAN Autoconfig Service

In the Services Manager, scroll down or use the search bar to locate the WLAN Autoconfig Service. Once found, right-click on it and select “Properties”.

3. Change the Startup Type

In the Properties window, go to the “General” tab and look for the “Startup type” option. By default, it should be set to “Automatic”. If you want to completely disable WLAN Autoconfig, you can select “Disabled” from the drop-down menu. This will prevent the service from starting up automatically when you turn on your computer.

4. Stop the Service

If you want to temporarily stop WLAN Autoconfig from running, you can click on the “Stop” button in the Properties window. This will pause the service until you manually start it again.

5. Edit the Service’s Log On Properties

WLAN Autoconfig runs under the Local Service account by default. However, there may be situations where you want it to run under a different account for security purposes. To change this, go to the “Log On” tab in the Properties window and select the “This account” option. Enter the username and password for the account you want the service to run under.

6. Configure Advanced Settings

You can also access advanced settings for WLAN Autoconfig by clicking on the “Advanced” button in the Properties window. In the advanced settings, you can specify the wireless network that is preferred to connect to or configure the service to connect automatically to ad-hoc networks.

7. Save Changes and Restart the Service

Once you have made the necessary changes, click on the “Apply” button and then “OK” to save them. You can then either restart the service from the Properties window or close it and the changes will take effect the next time you start your computer.

In conclusion, WLAN Autoconfig is an essential component for seamless wireless networking on Windows. However, you have the flexibility to change its behavior to suit your needs. By following the steps outlined in this blog post, you can reconfigure WLAN Autoconfig and customize it to your liking.

8. Download & Install the latest Wi-Fi Drivers from Intel

8. Download & Install the latest Wi-Fi Drivers from Intel

Having a stable and fast Wi-Fi connection is crucial for any tech enthusiast, whether you are a blogger or a casual internet user. With technology constantly evolving, it is important to keep your Wi-Fi drivers up to date to ensure optimal performance and compatibility with your devices. In this blog, we will discuss the steps to download and install the latest Wi-Fi drivers from Intel, one of the leading providers of Wi-Fi technology.

1. Determine your Wi-Fi adapter: The first step is to determine which Wi-Fi adapter you have on your computer. To do this, go to the Device Manager on your Windows computer by right-clicking on the Start menu and selecting “Device Manager”. Under the “Network adapters” section, you will find your Wi-Fi adapter listed.

2. Visit the Intel website: Once you have identified your adapter, go to the Intel Driver & Support Assistant website (https://www.intel.com/content/www/us/en/support/detect.html) on your web browser. This website is specifically designed to help you find and download the latest drivers for your Intel products.

3. Download the assistant: On the homepage of the Intel Driver & Support Assistant website, click on the “Download Now” button to start the download process. Once downloaded, run the installer and follow the on-screen instructions to complete the installation.

4. Scan for updates: After the installation is complete, click on the “Scan” button to search for updates for your Wi-Fi adapter. This process may take a few minutes.

5. Download the latest driver: Once the scan is complete, any available updates for your adapter will be displayed. Click on the “Download” button beside the driver to start the download process.

6. Install the driver: After the driver is downloaded, go to the location where it is saved and double-click on the file to start the installation. Follow the on-screen instructions to complete the installation.

7. Restart your computer: After the installation is complete, it is recommended to restart your computer to apply the changes.

8. Check for updates: To ensure that your Wi-Fi driver is up to date, it is recommended to run the Intel Driver & Support Assistant periodically to check for any new updates.

By following these steps, you can easily download and install the latest Wi-Fi drivers from Intel on your computer. Keeping your drivers up to date will not only ensure better performance, but also fix any bugs and compatibility issues that may arise. So, make it a habit to regularly check for updates for all your devices, not just your Wi-Fi adapter, to stay on top of the game in the ever-evolving world of technology. Happy blogging!

9. Enable Wireless Devices via BIOS or UEFI

When it comes to enabling wireless connectivity on your computer, there are a few different methods you can use. One of these is to enable wireless devices via your computer’s BIOS or UEFI. In this blog post, we’ll explore what BIOS and UEFI are, how to access them, and how to enable wireless devices using these systems.

What is BIOS and UEFI?

BIOS (Basic Input/Output System) and UEFI (Unified Extensible Firmware Interface) are two types of firmware that are present on most modern computers. They serve as the interface between the hardware and the operating system, allowing the computer to boot up and function properly.

BIOS is the traditional type of firmware that has been used for decades, while UEFI is a newer, more advanced version. UEFI offers faster boot times, increased security, and more advanced features compared to BIOS. However, both serve the same purpose of initializing and configuring hardware components during the boot-up process.

How to access BIOS or UEFI?

To access the BIOS or UEFI on your computer, you need to restart your computer and enter the corresponding key during the boot-up process. The key to access BIOS or UEFI varies depending on the computer’s manufacturer, but it is usually displayed on the screen during boot-up and can be something like F2, F10, or Delete.

If you can’t find the key displayed on your screen, you can check your computer’s manual or do a quick online search for your specific model.

Enabling wireless devices via BIOS or UEFI

Now that you know how to access BIOS or UEFI, let’s dive into how you can use these systems to enable wireless devices on your computer.

Step 1: Restart your computer and enter BIOS or UEFI by pressing the designated key during the boot-up process.

Step 2: In most BIOS or UEFI systems, you can use the arrow keys on your keyboard to navigate through the menus. Look for a menu option related to “Wireless” or “Network” settings.

Step 3: Select the option to enable wireless devices and press Enter. This will toggle on the wireless connectivity for your computer.

Step 4: Save and exit BIOS or UEFI by pressing the designated key. Your computer will reboot with wireless devices enabled.

Step 5: If you are using a UEFI system, you may need to adjust the boot order to ensure that the wireless devices are given priority during boot-up. This can be done by going into the “Boot” menu and setting the wireless devices as the first boot option.

And that’s it! You have successfully enabled wireless devices via BIOS or UEFI.

Benefits of using BIOS or UEFI to enable wireless devices

So why would you want to use BIOS or UEFI to enable wireless devices when you can do it within your operating system’s settings? Well, there are a few benefits to using these systems for this purpose.

Firstly, if you are experiencing issues with your wireless devices not working, it may be due to a configuration issue in your BIOS or UEFI. By accessing these systems, you can ensure that all settings related to wireless connectivity are correct and toggle them on if needed.

Secondly, using BIOS or UEFI allows you to enable wireless devices even if your operating system is not working properly. This can be helpful in situations where you need to troubleshoot connectivity issues or if you need to install a new operating system.

In conclusion, accessing BIOS or UEFI

10. Uninstall the corresponding Bluetooth driver (if applicable)

Bluetooth is a wireless technology that allows devices to communicate with each other over short distances. Many modern devices, such as smartphones, laptops, and tablets, come with built-in Bluetooth capabilities. But there may be times when you need to uninstall the Bluetooth driver from your computer. This could be due to various reasons such as troubleshooting Bluetooth connection issues, updating drivers, or simply freeing up space on your computer. In this blog, we will discuss how to uninstall a Bluetooth driver from your computer.

Step 1: Check for the Bluetooth driver
The first step is to check if a Bluetooth driver is installed on your computer. If you are using a Windows computer, go to the Device Manager by right-clicking on the Start menu and selecting “Device Manager.” Look for the Bluetooth category under “Bluetooth radios.” If you don’t see it, then your computer may not have a Bluetooth driver.

Step 2: Uninstall the driver
To uninstall the driver, right-click on the Bluetooth driver and select “Uninstall device.” If prompted, select “Delete the driver software for this device” and then click on “Uninstall.” This will remove the driver from your computer.

Step 3: Restart your computer
After uninstalling the driver, restart your computer to complete the process. This is an important step as it allows your computer to refresh and install any necessary updates.

Step 4: Reinstall the driver (optional)
If you need Bluetooth capabilities on your computer, you can reinstall the driver. To do this, go back to the Device Manager and click on “Action” in the menu bar. Then select “Add legacy hardware” and follow the instructions to install a new Bluetooth driver.

Note: This step may vary depending on your computer’s operating system and the source of the driver.

Step 5: Update your driver (optional)
If you had issues with your Bluetooth connection, it’s a good idea to update your driver to the latest version. To do this, go to the device manufacturer’s website and download the latest driver compatible with your computer’s operating system. Install the driver and restart your computer.

Step 6: Uninstalling Bluetooth software (optional)
In some cases, Bluetooth drivers come with additional software that may be causing conflicts or taking up space on your computer. If you want to completely remove the Bluetooth software from your computer, go to the Control Panel and uninstall any Bluetooth related programs.

Conclusion
Uninstalling a Bluetooth driver is a relatively simple process that can be done in a few steps. If you are having issues with Bluetooth connectivity, updating or reinstalling the driver may help you resolve the problem. However, if you no longer need Bluetooth capabilities on your computer, you can easily uninstall the driver to free up space. Just make sure to follow the steps carefully to avoid any issues.

11. Reset BIOS / UEFI settings

11. Reset BIOS / UEFI settings

In the world of computing, there are many troubleshooting steps that one can take to fix issues with their computer. One such step is to reset the BIOS or UEFI settings. Though these two terms may seem unfamiliar to some, they are critical components of the computer’s hardware that can affect its overall performance. In this blog, we will discuss what BIOS and UEFI are, why resetting them may be necessary, and how to do it.

BIOS, which stands for Basic Input/Output System, is a firmware interface that is built into your computer’s motherboard. It is responsible for initializing the hardware components of your computer, such as the processor, memory, and hard drive, before the operating system takes over. It also allows the user to access and change various settings, such as boot order, date and time, and hardware configurations. UEFI, or Unified Extensible Firmware Interface, is an updated version of BIOS that offers additional features and better security.

There are a few common reasons why you may need to reset your BIOS or UEFI settings. One reason is if you have recently made changes to your system hardware, such as adding new RAM or a graphics card. In such cases, resetting the BIOS or UEFI can ensure that the new hardware is properly recognized and configured. Another reason is if you are experiencing issues with your system, such as blue screens or errors during the boot process. In such situations, resetting the settings can help troubleshoot the problem.

Now, let’s discuss how to reset the BIOS or UEFI settings. The process may vary slightly depending on your computer’s manufacturer, but the general steps remain the same. First, shut down your computer completely and disconnect the power cord. Some computers also have a CMOS battery that you may need to remove temporarily to reset the BIOS. Next, look for a button or jumper on your motherboard that says “Clear CMOS” or “Reset BIOS.” Some motherboards may even have a specific button on the back panel for this purpose. Press the button or move the jumper to the designated “clear” position and wait for a few seconds before returning it to its original position. If you had removed the CMOS battery, re-insert it. Finally, power on your computer and enter the BIOS or UEFI setup to confirm that the settings have been reset.

In some cases, resetting the BIOS or UEFI settings may not be enough to resolve the issue, and a more advanced solution may be necessary. This could include updating the BIOS/UEFI firmware or replacing the CMOS battery. It is always recommended to research the specific steps for your computer’s manufacturer before attempting any of these solutions.

In conclusion, resetting the BIOS or UEFI settings can be a useful troubleshooting step when you experience issues with your computer’s hardware or software. It can help ensure that your computer is running on the correct settings and configurations and can help resolve various problems. However, this should only be attempted if you are comfortable with tinkering with your computer’s hardware. If you are unsure, it is always best to seek assistance from a professional.

12. Use an External Wi-Fi Adapter (if applicable)

If you have a laptop or desktop computer that has trouble connecting to Wi-Fi or experiencing slow internet speeds, using an external Wi-Fi adapter is a simple and effective solution. These adapters come in the form of small USB sticks that can be easily plugged into your computer’s USB port, instantly providing a better wireless connection.

External Wi-Fi adapters work by connecting to available Wi-Fi networks and relaying the signal to your computer. This can be especially helpful if your computer’s built-in Wi-Fi receiver is not strong enough to pick up a reliable signal. Most external Wi-Fi adapters come with antenna options, allowing you to adjust and improve the signal strength even further.

One of the main advantages of using an external Wi-Fi adapter is its portability. Unlike a built-in Wi-Fi receiver, you can easily detach and take the adapter with you, making it a great option for frequent travelers or those who need to connect to different networks. Additionally, these adapters often come with software that allows you to scan for and connect to available networks, making the process even more convenient.

Another benefit of using an external Wi-Fi adapter is that it can support older or outdated devices. If your computer’s built-in Wi-Fi receiver does not support the latest Wi-Fi standard, using an external adapter can give it a boost and allow you to access faster and more stable connections.

When purchasing an external Wi-Fi adapter, make sure to research and find one that is compatible with your device. Some adapters may only work with certain operating systems or have specific system requirements. It’s also important to consider the range and speed capabilities of the adapter, especially if you have a large home or office space.

In conclusion, if you are experiencing connectivity issues with your computer’s built-in Wi-Fi receiver or need a portable option for accessing Wi-Fi networks, an external Wi-Fi adapter is a great solution. With its ease of use, portability, and compatibility with older devices, it’s a must-have for anyone looking to improve their wireless connection.

Conclusion

In conclusion, the Intel Wireless AC 9560 not working issue in Windows can be a frustrating problem, but it is not impossible to resolve. By following the steps outlined in this article, you can troubleshoot the issue and hopefully get your wireless adapter up and running again. If you are still experiencing difficulties, seeking professional help or contacting Intel customer support may provide a resolution. Remember to regularly check for driver updates and keep your system updated to avoid encountering this issue in the future. With a little patience and effort, you can successfully fix the Intel Wireless AC 9560 not working problem and enjoy a seamless wireless connection on your Windows device.

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