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The USB-A and USB-B connection types are what most users are accustomed to. However, these days, there are more things you can achieve with the new USB-C type of connection. With this option, users can charge their computer. What’s more, they can also connect their PC to other USB-C type devices, including media players, smartphones, docking stations, and display adapters, among others.

COM Port Stress Test: Generates a serial stream of data with random comm. Settings: Comstresstest.zip: 3.34MB: COM Port Data Emulator: Emulates a COM port or an Ethernet device, that generates a serial stream of data. The program can create a data flow, wrap it to data packets (RS232, TCP/IP or UDP) and send to a port: ComEmulator.zip: 3.43MB. The driver is now ready to be used with the GPS device. We use TMTool to expand the Instrument Drivers node and create a new interface object by right-clicking the Interface Objects node under the Instrument Objects node. We select a serial port interface object and set the port to the serial port to which the GPS is connected.

However, we are aware that a good percentage of users are having troubles with their USB-C connection. In most cases, the problems are caused by problems with the hardware or software. Don’t worry because you can easily fix USB-C issues in a Windows 10 computer. After all. You will get notifications which you can use to determine how to resolve the problem.

What is a USB-C connector?

Developed by the USB Implementers Forum, the USB-C connection type is a tool for transmitting both power and data. It is worth noting that this was designed, certified, and released as an industry-standard connector by the members of the organization. Over 700 companies are part of the USB Implementers Forum, including Apple, Microsoft, Dell, HP, Intel, and Samsung. This is also the reason why many computer manufacturers readily accepted USB-C technology.

Is it similar to a micro USB connector?

At first glance, the USB-C connector looks a lot like a micro USB connector. However, the former has a distinct oval shape. Moreover, it is a little bit thicker to accommodate its best feature—like MagSafe and Lightning, the USB-C connector does not have an up or down orientation. You simply have to line the connector correctly, and you wouldn’t have to worry about flipping it to plug it in properly. Another key thing to remember is that the cables have the same connectors on both ends. This means that you would not have a hard time figuring out which end goes where.

Comparing USB-C and USB 3.1

The USB-C connection type’s default protocol is USB 3.1. Theoretically, at 10Gbps, USB 3.1 is twice as fast as USB 3.0. However, the ports for USB 3.1 can still be found in their original, larger shape. Such ports are referred to as ‘USB 3.1 Type-A. Generally, it has become more common to see USB 3.1 ports with USB-C connectors.

How to fix USB-C issues in a Windows 10 computer

Some of the notifications you might encounter when the USB-C connection is not working include the following:

  • You might be able to fix your USB device
  • Slow USB charger connection
  • Display connection might be limited
  • PC isn’t charging
  • The USB device might not work
  • These two devices can’t communicate
  • The USB device might not be working properly
  • Use a different USB port
  • The USB or Thunderbolt device functionality might be limited

Every notification has its solution. Whether you need to fix USB-C compatibility or update your drivers, there’s always something you can do to resolve the issue.

What to do when you see the ‘You might be able to fix your USB device’ error notification

If you see this notification while trying to use a USB-C connection type, there must be something wrong with the device or the drivers on your computer. You can run the troubleshooter for hardware and devices, or you can update your drivers to resolve the problem.

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Running the Hardware and Devices troubleshooter

  1. On your keyboard, press Windows Key+S.
  2. Type “control panel” (no quotes), then hit Enter.
  3. Once Control Panel is up, go to the top-right corner of the window and click the View By option.
  4. Select Large Icons from the options.
  5. Click Troubleshooting.
  6. Go to the left-pane menu, then click View All.
  7. Select Hardware and Devices.
  8. Click Next, then follow the on-screen instructions.

The tool will start to identify issues with your hardware and devices, attempting to repair them.

Using Windows Update to fix the device drivers

  1. Right-click the Windows icon on your taskbar.
  2. Select Settings from the list.
  3. Click Updates & Security.
  4. Go to the left-pane menu and select Windows Update.
  5. Go to the right pane, then click Check for Updates.
  6. Install all the available updates.

Updating your device drivers

It is possible that the device drivers in your computer are corrupted, damaged, or outdated. You can update them to give your unit a fresh set of drivers. There are two ways you can do this—going to the manufacturer’s website or automating the update process, using Auslogics Driver Updater.

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It is worth noting that manually updating your drivers can be time-consuming and risky. As we’ve mentioned, you have to search for the compatible drivers on the manufacturer’s website. If you download and install the wrong drivers, you might cause more problems to your computer.

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On the other hand, when you automate the process with the help of Auslogics Driver Updater, you are avoiding possible PC damage. The best part is, the tool will take care of all problematic drivers—not just the one which caused the USB-C connection type problem. So, you will notice a significant improvement in your PC’s performance and speed.

Finding the error codes for device issues

It is important to know the error code to address problems with your device appropriately. To acquire the error code, simply follow the steps below:

  1. Right-click the Windows icon on your taskbar.
  2. Select Device Manager from the list.
  3. Right-click the problematic device, then select Properties.
  4. Go to the Device Status dialog box to see the error code.

How to fix slow USB charger connected

When the ‘slow USB charger connected’ notification shows up, there are various possible reasons behind it. Here are some of them:

  • You’re using a charger that is not compatible with your device or computer.
  • Your charger’s power is insufficient for your device or computer. It is worth noting that devices with USB-C connectors have larger power limits. So, charging should be faster with greater levels of power, as long as the device supports USB power delivery.
  • You have not properly connected the charger to the port on your device or computer.
  • The cable’s power capacity is not sufficient for the charger itself, the device, or the computer.
  • Your USB port is dusty or dirty, preventing proper insertion of the charger.
  • You’ve connected the charger to your device or computer through an external dock or hub.

You can fix this problem by using the charger and cable that came with your device. These peripherals are designed according to industry standards. So, they have the right power capacity to speed up charging. On the other hand, you can also check if your charger is properly connected to the USB-C port on your device or computer. If the port is dusty or dirty, you can use compressed air to clean it.

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Note: Systems with available USB-C connectors have higher power limits, and they can support up to 5V, 3A, or 15W.

Resolving the ‘Display connection might be limited’ error notification

There are many reasons why you see this error notification. It is possible that the dongle has new features that the cable, device, or PC do not support. You should also check if you’ve connected the dongle to the correct port or through an external dock or hub. On the other hand, it is possible that the other devices with the USB-C connection are interfering with the dongle.

You should know that a USB-C connector has Alternate Modes which you can use for non-USB connectors. These modes are HDMI, DisplayPort, and MHL. So, you can resolve the ‘Display connection might be limited’ error notification by checking if your PC, cable, and external display support the aforementioned alternate modes. You can also try to check if the dongle or device is directly connected to your computer. If it is yet the problem persists, try using a different cable.

Getting rid of the ‘PC isn’t charging’ error notification

This error notification is possibly caused by the following:

  • You’ve used an incompatible charger.
  • You’ve used a charger with lower power limits, preventing it from properly charging your device or computer.
  • You’ve incorrectly connected the charger to the port on your PC.
  • The cable’s power capacity cannot accommodate the charger.
  • The USB ports are dusty or dirty, preventing proper insertion of the charger.
  • You’ve connected the charger through an external hub or dock.

You can fix USB-C compatibility issues by using the charger and cable that came with your device’s or computer’s packaging. You can also use compressed air to clean the ports, enabling you to insert the dongle correctly.

Resolving ‘The USB device might not work’ error

This error notification shows up when the Windows version on your PC does not support the driver for the device you’re trying to connect to the USB-C port. So, the solution to this is to install all the latest updates for your operating system. You can do this by following the instructions below:

  1. Click the Search icon on your taskbar.
  2. Type “settings” (no quotes), then hit Enter.
  3. Select Update & Security.
  4. Click Check for Updates.
  5. Install the available updates.

How to fix ‘These two devices can’t communicate’ error

You will see this error notification will show up when you are having trouble connecting two devices via USB-C. It is possible that one or both of the devices do not support the USB-C connection type. The workaround here is ensuring that you are connecting two Windows computers.

Resolving the error ‘USB device might not be working properly’

If your computer does not support the device you’re trying to connect via USB-C, you will see this error message. It is also possible that the power on your laptop is limited because you’re sourcing it from your battery. In this case, you can try using a different computer, or you can try plugging your device into an external power source.

What to do when you get a ‘Use a different USB port’ prompt

When you get this error notification, it is likely that the USB port does not support Thunderbolt, DisplayPort, or MHL. If this is the case, then you can try using a different port on your PC. It is also possible that the functionality of the USB device had become limited when you connected it to a particular port. You can try plugging it to a different port on your computer to resolve the problem.

Resolving the error ‘USB or Thunderbolt device functionality might be limited’

The reasons behind this error notification are similar to what caused the limited display connection issues. So, you can resolve this by making sure that your PC and cable support the same USB-C features as the device you’re trying to connect. You also have to make sure that the dongle is directly connected to your computer.

Which connection type do you prefer?

Let us know in the comments below!

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A device power state describes the power state of a device in a computer, independently of the other devices in the computer. Device power states are named D0, D1, D2, and D3. D0 is the fully on state, and D1, D2, and D3 are low-power states. The state number is inversely related to power consumption: higher numbered states use less power. Starting with Windows 8, the D3 state is divided into two substates, D3hot and D3cold.

Device power states are characterized by the following attributes:

  • Power consumption: How much power does the device use?

  • Device context: How much of its operational context does the device retain in this state?

  • Device driver behavior: What must the drivers for the device do to restore the device to the fully operational state?

  • Restore time: How long does it take to restore the device to the fully operational state? Most types of devices have modest restore times that differ little from one device class to the next. Only a few types of devices, such as GPUs, have very large hardware contexts that take significantly longer to restore.

  • Wake-up capability: Can the device request wake-up from this state? In general, if a device can request wake-up from a given power state (for example, D2), it can also request wake-up from any higher-powered state (D1).

The exact definitions of the power states are device-specific. Not all devices define all the states; many devices define only the D0 and D3 states. See the Device Class Power Management Reference Specification to find out which device power states are defined for a specific device and what the operational requirements are for each state. (The reference specifications are available at the ACPI / Power Management website.)

The power state of a device need not match the system power state. For example, some devices can be in the off (D3) state even though the system is in the system working state (S0).

The power state of a device might seem to be unrelated to the power state of the device's parent bus. For example, a USB device might be in the D2 (selective suspend) state when its parent host controller is in the D3 state. These two states appear to be inconsistent only because the definitions of the Dx states are different on USB and on the bus (typically PCI or PCI Express) that the USB host controller is connected to.

Note that some devices are capable of several different low power modes within a single device power state. Such a device can use these modes if its driver can automatically switch the device from one mode to another without changing the device power state. As a general rule, however, if there is no user-perceptible difference between the modes, the device should use only the lowest power mode. If a low power mode, such as a low-speed mode, adversely affects performance or is not transparent to software other than the device driver, the hardware should not automatically use it. See the Device Class Power Management Reference Specification for details.

A driver or the power manager can request a device power state transition, and all drivers must be prepared to handle IRPs that request such transitions. For more information, see the following topics:

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Like the system, a device can transition from the working state (D0) to any low-power state (D1, D2, or D3) and from any low-power state to the working state. The following diagram is a state graph that shows the valid device power state transitions.

This graph shows the subdivision of D3 into D3hot and D3cold. D3hot and D3cold are defined starting with Windows 8. All devices are required to support the D0 state and D3hot substate. The other states shown in the diagram are optional.

In the preceding graph, the transition from D3hot to D3cold is the only direct transition between device low-power states. All other transitions between low-power states require an intermediate transition to D0, which allows the device driver to configure the device hardware, as required, either to enter the next low-power state or to stay in D0. However, a device exits D3hot and enters D3cold when power to the device is shut off, which requires no intervention from the device driver. This driver does any necessary configuration of the device hardware before the device enters D3hot; no additional configuration is required to prepare the device for the transition from D3hot to D3cold. For more information, see Supporting D3cold in a Driver.

PCI Root Port to endpoint D-state mapping

On Windows 10 systems, the overall platform power state depends on the power states (D-states) of SoC (System on Chip) integrated devices, including the PCI Root Ports. Depending on the platform being developed, the D-state requirements for PCI Root Ports may vary for each platform power state. OEMs are encouraged to refer to the IHV platform-specific documentation for platform and device power state requirements.

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The table below enumerates the power state mapping of PCI Root Ports and its attached endpoints. The D-states of endpoints listed below must be achieved in order for the Root Port to enter the target D-state.

Root Port Target D-StateEndpoint D-State

D0

D0, D0:F1

D0:F1

D3hot

D3hot

D3cold*

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*PCI D3cold power state requires BIOS and device driver support. If support is missing, the PCI endpoint will only be able to achieve D3Hot. For more information, see Supporting D3Cold in a driver.