1. Unknown Usb Device Driver Download
2. Trace Lighting Usb Devices Driver Updater
3. Trace Lighting Usb Devices Driver Windows 10
4. Trace Lighting Usb Devices Drivers

This method helps where the USB driver is unstable or corrupted. Right-click StartDevice Manager and click on the Universal Serial Bus controllers to expand the list. Right-click your device and click Uninstall, and then restart your computer to reinstall the controllers automatically. Create a New Drive Volume & Assign a Drive Letter.

1. Event traces from the USB 3.0 driver stack are similar to the USB 2.0 driver stack traces, which were introduced in Windows 7. Event traces from the USB 2.0 driver stack can be captured on a Windows 8 computer. The way you capture event traces from USB 2.0 and USB 3.0 driver stacks is similar.
2. A common class of USB devices is the Human Interface Device (HID) class for peripherals such as keyboards, mice, game controllers etc. In Windows, the driver model for HID follows a port-miniport model with a class driver – hidclass.sys and miniport drivers like hidusb.sys, hidi2c.sys, hidbth.sys etc. For the various transports HID works with.

Most difficulties in working with Micro-Manager arise from configuring the system and from problems/issues with specific devices. In both of these cases you are interacting mainly with device adapters. These device adapters have been written by several different authors, all behave slightly differently, and interact with specific hardware that has its own peculiarities. On these pages we will maintain as much information as possible about Micro-Manager device adapters. This will help you configure and understand your Micro-Manager system. We hope that the authors of the device adapters will maintain this information, but please feel free to update the information here with your own experiences. The information here will refer to the most recent Micro-Manager release.

Motorized Microscopes

• LeicaDMI - Leica DMI and DM microscopes
• LeicaDMR - Leica DMR microscopes (and DMIRBE)
• MoticMicroscope - Motic BA600 microscopes
• NikonAZ100 - Nikon AZ100 Zoom microscope
• NikonEclipse90i - Nikon Eclipse 90i motorized microscope
• NikonTE2000 - Nikon TE2000 motorized microscope
• NikonTI - Nikon Ti microscope
• NikonTi2 - Nikon Ti2 microscope
• Olympus - Olympus IX81 (Inverted)/BX61 (Upright)
• OlympusIX83 - Olympus IX83 motorized microscope
• ZeissCAN - Zeiss CAN-bus (not CAN29) compatible microscopes (Axiovert 200m, Axioplan2)
• ZeissCAN29 - Zeiss CAN29-bus compatible microscopes (AxioObserver)
• ZeissAxioZoom - Zeiss AxioZoom microscope (CAN29)

Cameras

• ABSCamera - Cameras from ABS Gesellschaft für Automatisierung, Bildverarbeitung, Software GmbH Jena
• AmScope - AmScope MU series cameras (Windows)
• Andor - Andor cameras (CCD and EMCCD)
• AndorSDK3 - New model Andor cameras (sCMOS)
• Apogee - Apogee cameras
• AxioCam - Zeiss AxioCam medium resolution and high resolution models (Windows)
• BaslerAce - Basler Ace USB Cameras
• BaslerCameras - All Basler cameras that are supported by pylon SDK
• BaumerOptronic - Leica DFC camera (through BaumerOptronic FXLib)
• BiostepEagleIce - biostep EagleIce camera
• dc1394 - Firewire cameras that adhere to the iidc1394 specs (see also IIDC)
• DECamera - Direct Electron Cameras
• DemoCamera - Virtual, emulated equipment for testing
• Dhyana - Dhyana/Tucsen cameras
• DSLRRemoteCamera - Canon DSLR cameras (Windows)
• FakeCamera - Virtual camera that loads images from disk (Windows, Linux)
• FirstLightImagingCamera - First Light Imaging Cameras
• FLICamera - Finger Lakes Instrumentation Cameras
• GigECamera - GigE Vision- and GenICam-compliant cameras
• GPhoto - Canon and Nikon DSLR cameras (Mac, Linux)
• Hamamatsu - Legacy adapter for Hamamatsu cameras (via DCAM-API); now Mac only
• HamamatsuHam - Hamamatsu cameras (via DCAM-API)
• IDS_uEye - IDS uEye USB cameras (also Thorlabs DCUxxxx, Edmund EO-xxxxM) (Linux, Windows)
• IIDC - Firewire (and USB) cameras compatible with the IIDC specification (see also dc1394)
• JAI - JAI Cameras (eBUS)
• Leica Cameras - These use the BaumerOptronic adapter
• Lumenera - Lumenera cameras
• MATRIX VISION devices - MATRIX VISION GmbH USB3 Vision, GigE Vision and USB2 cameras as well as various frame grabber boards
• Micropix - Cameras from Micropix
• Mightex_C_Cam - Mightex C-series USB cameras
• MoticCamera - Motic cameras
• NKRemoteCamera - Nikon Digital SLR (Windows)
• OpenCVgrabber - Supports numerous USB cameras and frame grabbers (those using a DirectShow or WDM class driver). (Windows)
• PCO_Camera - Supports all pco.sdk based cameras (pco.edge, pco.panda and others)
• Photometrics - A.k.a. PVCAM
• PICAM - Princeton Instruments cameras using the PICam interface
• Piper - Stanford Photonics cameras
• Pixelink - Pixelink Cameras
• Point Grey Research - Point Grey (now FLIR) cameras through the Flycap2 interface, also see Spinnaker
• PrincetonInstruments - Princeton Instruments cameras
• ProgRes - Jenoptik cameras (ProgRes series)
• PSRemoteCamera - Canon PowerShot camera (Windows)
• PVCAM - Roper/Photometrics cameras (not for Princeton Instruments)
• QCam - QImaging cameras
• QSICamera - QSI cameras (Windows)
• RaptorEPIX - Raptor Photonics cameras using EPIX cameralink board
• ScionCam - Scion cameras
• Sensicam - PCO/Cooke Sensicam camera
• SigmaKoki - Sigma Koki camera
• Spinnaker - FLIR (formally Point Grey) cameras though the Spinnaker interface
• SpotCamera - Diagnostic Instruments Spot cameras
• TetheredCam - Canon and Nikon DSLR cameras (Windows)
• ThorlabsUSBCamera - Thorlabs cameras (Windows)
• TIScam - The Imaging Source cameras (tested on USB/CCD models) and video frame grabbers
• TSI - Thorlabs Scientific Imaging Cameras
• TwainCamera - Cameras fully implementing Twain Imaging Standard
• Veroptics - Veroptics cameras
• Video4Linux - Video4Linux compatible cameras
• XIMEACamera - XIMEA cameras (and some Olympus Soft Imaging cameras)

Stages, filter wheels, shutters

• ArduinoNeoPixel - Adafruit NeoPixel RGB LEDs controlled through an Arduino
• ASIFW1000 - ASI Shutter and Filter Wheel controller
• ASIStage - ASI XY (and Z) stage and CRIF
• ASITiger - ASI TG-1000 'Tiger' Controller (hub device, peripherals include multiple stage types, filter wheel, shutters, micro-mirrors, etc.)
• ChuoSeiki_MD5000 - ChuoSeiki MD5000 series controller: 2-axis, single axis
• ChuoSeiki_QT - ChuoSeiki QT series controller: 3-axis, 2-axis, single axis
• CoolLED - LED illuminator (usable as a shutter device)
• CONEX - See NewportCONEX
• Conix - Conix Filter Changer, XY and Z stage
• Corvus - Märzhäuser XY stages with Corvus driver.
• DA-Z-Stage - For stages that can be controlled with analogue voltage. Needs a DA device
• DAShutter - Treats a DA output as a shutter. Useful (for instance) for diode lasers
• IntelLiDrive - IntelLiDrive stages are support through 3d party adapters
• KDV - kdvelectronics focus drive (z-stage) for Meiji Techno
• LeicaDMSTC - Leica DMSTC XY stage
• LMT200-V3 - ITK Dr. Kassen LMT200-V3 HYDRA Controller and XY stage
• Ludl - Ludl stages, shutters and filter wheels
• LudlLow - Ludl stages, shutters and filter wheels (other)
• Marzhauser - Märzhäuser XY stages and Z (uses TANGO controller)
• MarzhauserLStep - Märzhäuser LStep stage controller
• MarzhauserLStepOld - Old version (1.2) of Märzhäuser LStep stage controller
• MCL_MicroDrive - Mad City Labs MicroDrive
• MCL_NanoDrive - Mad City Labs NanoDrive
• MT20 - Olympus MT20 illumination source (Lamp/shutter/filter wheel)
• MP285 - Sutter Micro-Manipulator
• NewportCONEX - Newport CONEX-CC servo controller
• NewportSMC - Newport SMC100 single-axis motor controller
• Nikon - Nikon Z-drive, TIRF shutter and IntensiLight shutter
• NIMotionStage - National Instruments FlexMotion stage controls
• NPointC400 - nPoint C.400 and LC.400 axis controllers
• ObjectiveImaging - Objective Imaging OASIS controller
• PI_GCS_2 - Physik Instrumente (PI) GCS2 adapter
• PI_GCS - Physik Instrumente (PI) GCS adapter - Z Stage connected to PI GCS controller (E-665, E-621, E-625, E-753, ...)
• PI - Other (older) Physik Instrumente devices. Includes the E-662 controller
• PicardStage - Picard Industries USB Slide I/II and USB Twister
• PIEZOCONCEPT - PIEZOCONCEPT nanopositioners
• Piezosystem_30DV50 - Piezosystem Jena. digital one channel controller
• Piezosystem_dDrive - Piezosystem Jena. digital 6 channel controller with display
• Piezosystem_NV40_1 - Piezosystem Jena. one channel controller for older stages
• Piezosystem_NV40_3 - Piezosystem Jena. 3 channel controller with USB
• Piezosystem_NV120_1 - Piezosystem Jena. 1 channel controller with USB
• PrecisExcite - LED illuminator (usable as a shutter device)
• Prior - Prior stages, shutters, and filter wheels
• PriorNano - Prior/Queensgate nanopositioning stages
• RAMPS - RepRap RAMPS board as a stage controller
• Scientifica - Scientifica stages
• ScopeLED - DiCon LED-powered brightfield and fluorescence microscopy illuminators, implemented as shutters.
• SigmaKoki - Sigma Koki stages and shutters
• SmarActHCU-3D - HCU and CU SmarAct controllers adapter (XY and Z)
• SouthPort_MicroZ - SouthPort MicroZ stage controller
• Standa - Standa Microstep Driver
• StandaStage - Standa Microstep Driver
• Standa8SMC4 - Standa Microstep Driver (using XIMC interface)
• SutterLambda - Sutter Shutters, filter wheels, light sources, etc..
• SutterLambda2 - Sutter Lambda 10-3 controller, shutters, filter wheels, and VF5 tunable filter
• SutterStage - Sutter XY Stage
• Thorlabs - Thorlabs XY Stage (brushless DC motor), Piezo Z Stage and Integrated Filter Wheel
• ThorlabsAPTStage - Thorlabs APT family linear stages
• ThorlabsDCStage - Thorlabs Linear Stages using the TDC001 Controller (see also: ThorlabsAPTStage)
• ThorlabsDCxxxx - Thorlabs LED controllers
• ThorlabsElliptecSlider - Thorlabs Elliptec sliders ELL6, ELL9, ELL17 and ELL20.
• ThorlabsFilterWheel - Thorlabs Filter Wheel
• ThorlabsMFC1 - Thorlabs MFC1 Motorized Microscope Focus Controller
• ThorlabsSC10 - Thorlabs shutter controller
• Tofra - XY and Z stages, filter wheel, motorized filter cube slider, and LED illuminator
• UserDefinedSerial - Shutters and state devices that can be controlled with simple serial commands
• Vincent - Vincent Uniblitz controllers
• WieneckeSinske - WSB PiezoDrive CAN XY stage
• Xcite - EXFO X-Cite 120 PC Fluorescent Lamp / Shutter
• XCite120PC_Exacte - Lumen Dynamics X-Cite 120PC and exacte adapter
• XCiteLed - LED controller
• XCiteXT600 - X-Cite TURBO and XT600 series
• Zaber - Zaber linear and XY stages, filter wheels

Communication ports, TTLs, DAQs, etc.

• Arduino - Open Source Programmable Digital/Analogue IO board
• Arduino32bitBoards - 32bit Open Source Programmable Digital/Analogue IO boards
• CustomArduino - Arduino-based devices matching existing device adapters
• DTOpenLayer - DT OpenLayer Digital IO boards
• ESIOImagingControllers - Microcontrollers for hardware triggering and synchronization
• FreeSerialPort - Communicate directly through a serial port
• ITC18 - controls shutters, cameras, pifocs, anything that can use either a TTL signal or a ±10 V signal
• K8055 - Velleman Digital IO board (all platforms)
• K8061 - Velleman Digital IO board (all platforms)
• MCCDAQ - Measurement Computing PCI-DDA08/16
• National Instruments - See NI100X and NIMultiAnalog
• NicoLase An open-source diode laser combiner, fiber launch, and sequencing controller for fluorescence microscopy
• NI100X - NI I/O boards - DAQmx interface
• NIMultiAnalog - NI boards with multiple analog outputs
• SerialManager - Serial Ports on Windows
• SerialManagerUnix - Serial Ports on Mac and Linux
• TriggerScope - TriggerScope digital and analog controller
• TriggerScopeMM - TriggerScope v3 with Micro-Manager firmware
• ParallelPort - TTLs on parallel port (Windows only)
• USBManager - Micro-Manager internal USB communications driver

Light sources

• AgilentLaserCombiner - Agilent MLC
• AndorLaserCombiner - Andor laser launch
• BlueboxOptics_niji - Bluebox Optics niji 7 channel LED light source
• CoboltOfficial - Cobolt lasers 06-01 Series, Cobolt Skyra
• Cobolt - Cobolt laser controller
• CoherentCube - Coherent CUBE laser controller
• CoherentOBIS - Coherent OBIS laser controller (Single Laser Remote)
• Coherent Scientific Remote - Coherent OBIS laser controller (Scientific Remote and Single Laser Remote)
• LaserQuantumLaser - gem/ventus/opus/axiom series from LaserQuantum
• Lumencor Light Engine - All Lumencor Light Engine models
• LumencorSpectra - Solid state illuminator from Lumencor
• Mightex - LED driver/controllers
• Mightex_BLS - BLS Control Modules
• MightexPolygon - Mightex Polygon multiwavelength patterned illuminators
• Omicron - Omicron Laser Controller
• Oxxius - Oxxius Laser Controller
• Oxxius_combiner - Oxxius combiner; hub for multiple laser sources
• PolychromeV - Illumination system from Till Photonics
• Prairie Aurora Laser Launch - Prairie Aurora Laser Launch Interfacing using a Velleman K8061
• Sapphire - Lasers from Coherent
• Skyra - Skyra laser controller
• Stradus - Vortran Stradus laser driver
• Toptica_iBeamSmartCW - Toptica iBeamSmart laser series
• Toptica_iChrome_MLE - Toptica iChrome Multi Laser Engine
• Toptica_iChrome_MLE_TCP - Toptica iChrome Multi Laser Engine over TCP link
• USB_Viper_QPL - Excelitas/Qioptiq iFLEX-Viper Laser Engine
• Versalase - Vortran Versalase laser driver
• YodnLighting - YODN Lighting lamp device adapter for E600 serial products

Other devices

• AAAOTF - AOTF controller from AA Optoelectronics
• Aladdin - Syring pump controller from Aladdin
• AndorShamrock - Andor Shamrock Spectrographs
• Aquinas - Aquinas Microfluidics Controller
• AOTF - NEOS AOTF control through parallel port. Can be used for any TTL-controllable shutter
• ASIwptr - ASI well-plate transfer robot
• CARVII - BD/CrEST CARV II spinning disk confocal
• Diskovery - Spectral/Andor spinning disk confocal/TIRF module
• DLP4000 - Digital Mirror Device
• GenericSLM - Any spatial light modulator that can be controlled via computer video output port.
• ImageProcessorChain - Virtual device driver for processing images in C++
• LumencorCIA - Camera synchronization for the Lumencor Spectra
• MaestroServo - Pololu Maestro Servo controller
• MicroPoint - Galvo-based phototargeting device from Andor
• Mosaic3 - Andor Mosaic DMD Projection Device
• Okolab - Okolab Microscope Incubators and Gas Controllers
• OVP_ECS2 - Optic Valley Photonics ECS-2 environmental controller
• Pecon - Pecon Incubation System
• PeCon2000 - PeCon 2000 Incubation Controllers (USB-connected)
• pgFocus - Open Software/Hardware Focus Stabilization from BIG
• Rapp - Rapp UGA40 photobleaching/photoactivation unit
• SimpleAutofocus - Image-based autofocus software 'device'.
• SpectralLMM5 - Spectral laser line controller
• SutterMPC - Multi manipulator controller
• Utilities - Virtual devices providing extra functionality to Micro-Manager
• VariLC - Tunable liquid crystal polarization modulators from CRi
• VisiTech_iSIM - VisiTech iSIM
• Yokogawa - Yokogawa CSU22
• Yokogawa CSUW1 - Yokogawa CSUW1
• Yokogawa CSUX - Yokogawa CSUX
• XLight - CrestOptics X-Light spinning disc confocal system
• The HSi-300 Hyperspectral Imager can be controlled with Micro-Manager (not yet included in the distribution, contact Gouch & Housego for details)

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.

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.

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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.

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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Unstable PC performance is often caused by outdated or corrupt drivers. Auslogics Driver Updater diagnoses driver issues and lets you update old drivers all at once or one at a time to get your PC running smoother

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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.

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.

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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.

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Which connection type do you prefer?

Let us know in the comments below!