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Frequently Asked Questions (FAQs) About the Thunderbolt Port on a Dell Computer

요약: This article is a collection of answers to the most frequently asked questions about the Thunderbolt ports and connectors on Dell equipment.

이 문서는 다음에 적용됩니다. 이 문서는 다음에 적용되지 않습니다. 이 문서는 특정 제품과 관련이 없습니다. 모든 제품 버전이 이 문서에 나와 있는 것은 아닙니다.

지침

Table of Contents:

  1. Introduction
  2. Frequently Asked Questions

Introduction

Thunderbolt logo 2 Thunderbolt logo 3

This article provides a reference on Thunderbolt ports on a Dell computer. It goes over the most frequently asked questions (FAQs) from our end users and provides clear answers to each.

The questions vary from what the ports look like to how to troubleshoot them when something goes wrong.

I hope you find what you need below. If not, contact your local support.


Frequently Asked Questions

Let us help you get some answers about Thunderbolt ports.

  • A Port or Connector: On a Dell personal computer, it has either holes or a slot that matches the plug or device that you are connecting to the Port.
  • Thunderbolt (Previously Light Peak): Intel and Apple jointly developed the thunderbolt. It is available since February 2011. It is an industry standard that defines the cables, connectors, and the communications protocols used in a bus. These are used for connection, communication, and power supply between computers and electronic devices.
Note: Thunderbolt was conceived as an optical technology and was intended to run exclusively on optical fiber cables and use an Optical Physical Layer. It was discovered that copper was cheaper and still provided the high speeds that were required. It is still tied into the PCIe signal and is ideal for 4K graphics.
 

How does it work?

Thunderbolt is a revolutionary I/O technology that supports high-resolution displays and high-performance data devices through a single, compact port. Thunderbolt is a hardware interface that allows for the connection of devices to a computer. It uses the same connector as Mini DisplayPort (MDP). Thunderbolt combines Peripheral Component Interconnect (PCI) Express (PCIe) and DisplayPort (DP) into one serial signal alongside a DC connection for electric power, transmitted over one cable. One connector supports up to six (6) devices through various topologies.

Thunderbolt process

Thunderbolt supports Data, Video, Audio, and Power from a single port.

Thunderbolt cables are mainly copper. (There are still some fiber optic cables available, but power cannot be transmitted through them.) The cables are bi-directional, and each Thunderbolt port supports two channels, which means that the port can send and receive data simultaneously. It can also supply power through to any devices plugged to that port. There is a limit of six (6) devices that are plugged in a daisy chain to any Thunderbolt port. These are Active cables. They cost more than similar cables for DisplayPort and USB.

daisy chain

Thunderbolt 3 came out in 2015. It moved from a Mini DisplayPort connector to a USB Type-C connector and incorporated several advances over Thunderbolt and Thunderbolt 2. There was limited adoption of the standard while it used the Mini DisplayPort connector. This has changed with the inclusion of the Type-C connector to the Thunderbolt Interface.

ThunderBolt 3 usage

2020 brought us a new standard from Intel that is named Thunderbolt 4. Thunderbolt is a high-speed protocol. It can dynamically adjust data and video bandwidth. It is now the basis of the USB4 protocol specification. Thunderbolt 4 and USB4 products use the same protocol specification which improves compatibility for any USB Type-C based products.

Intel Thunderbolt comparison chart

There are four (4) types of Thunderbolt ports in use. Select your version from the tabs below to see the available ports and plugs and what they can do:

Thunderbolt

Thunderbolt 1 was the first revision of the Thunderbolt port that was brought out in 2011.

It has data rates of 10 Gbit/s and is dual-channel.

Port Thunderbolt Port Plug Thunderbolt mini display port
thunderbolt performance

Thunderbolt 2

Thunderbolt 2.0 is an update on the original Thunderbolt specification that came out in 2013.

It increased the signaling rate from 2 bi-directional 10 Gbit/s channels to a single bi-directional 20 Gbit/s channel. The amount of data able to go through the connection has not increased, but the throughput of a single channel has doubled.

Thunderbolt 2 can both stream 4K video and write it to Hard Disk simultaneously.

The connector is still a Mini Display Port and Thunderbolt 2 supports the latest DisplayPort 2.1 specification and is backwards compatible with Thunderbolt 1 devices. These legacy devices still only work at Thunderbolt 1 speeds.

Port Thunderbolt Port Plug Thunderbolt mini displayport
Thunderbolt 2 performance

Thunderbolt 3

2015 brought us Thunderbolt 3 which improved upon Thunderbolt 2 and uses a USB Type-C Connector.

Transfer speeds were doubled from 20 Gbit/s to 40 Gbit/s, which gives four times the data and twice the video bandwidth of any previous cable.

It supports at minimum 1 x 4K display at 60 Hz and increases charging to 100 Watts for a 15 W device.

As with previous standards, it incorporates support for USB 3.1, so that regular USB type-C cables can also be used in this port.

As it incorporates a new connector, it is not compatible with legacy devices, without the use of intermediary adapters.

Port Thunderbolt 3 Port Plug Thunderbolt connector type-c
Thunderbolt performance 2
usb 3.1 implementations

Thunderbolt 4

Thunderbolt 4 is new out in 2020 and continues to use a USB Type-C Connector.

Transfer speeds remain 40 Gbit/s, which still gives four times the data and twice the video bandwidth of any previous cable.

It supports at minimum 2 x 4K, or 1 x 8K display at 60 Hz and increases charging to 100 Watts for a 15 W device.

Where Thunderbolt 3 supports only 16 Gbit/s data rate over PCI express, Thunderbolt 4 supports double that at 32 Gbit/s.

As with previous standards, it incorporates support for USB4 and older, so that regular USB type-C cables can also be used in this port.

It is still not compatible with legacy devices, without the use of intermediary adapters.

Port Type-C Port Plug Type-C Connector
Intel Thunderbolt Speed Comparison
Intel Thunderbolt Port Comparison
Intel Thunderbolt Cable Comparison

Dell has several adapter cables available for sale on their online Store:

Dell Adapters

Type Appearance
Dell Adapter - USB-C to HDMI Dell USB-C to HDMI
Dell Adapter - USB-C to VGA Dell USB-C to VGA
Dell Adapter - USB-C to Ethernet (Preboot Execution Environment (PXE) Boot) Dell USB-C to Ethernet
Dell Adapter - USB-C to USB-A 3.1 Dell USB-C to USB-A 3.1
Dell Adapter - USB-C to HDMI/VGA/Ethernet/USB 3.0 Dell USB-C to HDMI-VGA-Ethernet USB.3-0

VisionTek Adapters

Type Appearance
VisionTek - USB Type-C to Display Port VisionTek USB-C to DPort
VisionTek - USB Type-C to HDMI VisionTek USB-C to HDMI
VisionTek - USB Type-C to VGA VisionTek USB-C to VGA

C2G Adapters

Type Appearance
C2G - USB (2.0) Type-C to USB-Micro B USB C2G USB-C 2.0 to USB-Micro
C2G - USB (3.1) Type-C to USB Micro B USB C2G USB-C to USB-Micro

So far there has not been an operating system that has not supported Thunderbolt. Everything from Apple, Linux, and Windows use this standard if the technology and drivers are available.

Some devices do not supply their own power and must take power from the personal computer they are connected to. They can transfer data across the same connection:

Mini Display Port
Mini Display Port supplies 10 Watts charging.
Type-C
USB Type-C can supply 100 Watts of power charging for a 15 W device.
Powered from the personal computer

These devices are hot pluggable. That means they work when they are plugged in. However, some proprietary drivers may be needed for any addon functions the devices may have.

Cable adapters (Various Ports)

Thunderbolt Cable Adaptor

Cable adapters are essentially port adapters. They take the Thunderbolt port from your personal computer and convert it to any of several other port types. Because of the bidirectionality some can go to two separate ports, such as eSATA and SuperSpeed USB 3.0 in the example above.

If a cable adapter does not work - test it outside of the operating system and in other Thunderbolt ports.

You can also test it on another computer to see if the issue follows the cable.

Device Hub (Various Ports)

Thunderbolt Cable Hub

There are powered hubs and unpowered hubs. However, hubs are a way of expanding how many devices you can plug to your personal computer from a single port.

The Hub plugs to your personal computer and allows several devices to connect to the ports on the Hub and pass through to the personal computer.

Powered Hubs work better than unpowered ones do, but with Thunderbolt powered hubs are hard to distinguish with cabled Docking stations.

You can gang a maximum of six (6) devices.

If you are having trouble with a hub, try different combinations of ports and devices and try on another personal computer.

Remember that one connection always has to go to the personal computer.

Testing in other Thunderbolt ports and on another computer identify where a fault originates.

With Thunderbolt, you get the added feature that the ports on the Hub can be of various different types.

Expansion Card (Various PCIe)

Thunderbolt PCIe Expansion Card

Expansion cards can increase the number of Thunderbolt ports on your personal computer as they also tie into the PCIe socket.

If you have issues using the device, then try the device in several ports and computers to see where the faults follow.

Audio Interface

Thunderbolt Audio Interface

Thunderbolt Audio Interfaces offer a superfast 10 Gbps connection allowing a quicker data transfer rate in comparison to that of USB or Firewire. This technology offers ultralow latency performance for the recording and playback of audio. Thunderbolt also allows the connection of multiple devices such as hard drives and HDMI, USB 3, or USB4 hubs all without sacrificing performance or speed.

Testing in different ports and on another machine can identify where a fault originates.

Thumb Drives

Thunderbolt Flash Drive

Flash or Thumb Drives are low-power storage devices and have taken the place of the floppy disk.

Not all drives are compatible with all Thunderbolt ports. You may have a conflict between the port and the drive manufacturer.

Try the device in several ports and computers to see where the fault follows.

Passport Drives

Thunderbolt Passport Drive

Passport Drives are low-power storage devices and have taken the place of the floppy disk. They tend to be under 2 TB in size and are most often used as expanded storage for mobile devices.

Not all drives are compatible with all Thunderbolt ports. You may have a conflict between the port and the drive manufacturer.

Try the device in several ports and computers to see where the fault follows.

Video Capture Devices

Thunderbolt Video Capture

Video Capture Devices are low-power devices that connect to your personal computer and capture your screen contents in HD quality. They tend not to store the video on the device. Rather it is stored on the connected personal computer or on an expandable device that is plugged to the personal computer.

You may have a conflict between the port and the drive manufacturer.

Try the device in several ports and computers to see where the fault follows.

Independent Power Source

Tablets and/or Smartphone's

Thunderbolt Dell Tablet

Both Tablets and Smartphones have their own Power supply but can take power from the personal computer as well. They are commonly used either as remote devices or as added storage with a personal computer.

External hard drive and SSD

Thunderbolt Hard Drive Thunderbolt External SSD

Both hard drive and SSD external drives usually use an external Power supply for long-term use. Some passport drives take power from the personal computer for the short-term uses. Thunderbolt offers transfer speeds more than those possible by USB 3.1/USB4, Firewire, and eSATA. With Thunderbolt 3 and 4, the only limit to these speeds are the limits of the hardware devices themselves.

External RAID Storage

Thunderbolt RAID Storage

Both Offline and Network Attached Storage use their own external power source. They are often configured as RAID to help with either write speeds or failover cover if there is disk failure. Striped helps write speeds and Mirrored helps failsafe against data loss. Thunderbolt offers transfer speeds more than those possible by USB 3.1/USB4, Firewire, and eSATA.

External Media Server

Thunderbolt Media Server

These devices come with their own external power source and work much as the Network Attached Storage does. Thunderbolt cables supply Video, Audio, Data, and Power at high rates and support 4K streaming.

Monitor Displays (4K and higher)

Thunderbolt Display Monitor

Thunderbolt started out as an Optical Standard and is still ideal for video playback. Thunderbolt 3 and 4 can support two monitors on 4K at 60 Hz.

Digital Camera and Video Equipment

Thunderbolt Camera Equipement Thunderbolt Cinema Camera

These devices come with their own internal battery and some form of extra cabling to plug up to mains power to charge after use. These devices are designed to work with Thunderbolt to capture 4K footage straight to your personal computer or Storage Devices.

External Video Editing Suite

Thunderbolt Video Editing

These devices come with their own external power source use the speed and quality of Thunderbolt to quickly create high-quality 4K videos and images.

Thunderbolt Passport Drive

External Wired Dock

Thunderbolt Dock Top 1

These devices come with their own external power source and are used to expand the computers options. They can include Optical Drives, Hard Drives, but mostly they are expanded versions of the Hubs. They allow for multiple devices and screens to work with your computer. Many manufacturers offer these docks as Desktop Workstations as the Thunderbolt connection means they work with any computer with a Thunderbolt port. The Dock shown here is the Dell Thunderbolt Wired Dock and works with non-Dell computers that have a Thunderbolt port.

Top View

Thunderbolt Dock Top 2

1 Power Button    
Front and Right-Hand Side View

Thunderbolt Dock Front Right Side

 

1 Audio In/Out Connector 2 USB 3.1 Connector
3 USB 3.1 Connector 4 Power LED
5 Security Lock Slot    
Left-Hand Side View

Thunderbolt Dock Left

 

1 Dell Proprietary 56 Pin Connector    
 
Note: There are two proprietary cables for use with the connector on the left-hand side of the dock. The first is a 56-pin connector going to a Thunderbolt 3 or 4 USB Type-C connector for use when paired with a Thunderbolt Device. The second is a 56-pin connector going to a USB Type-C connector using the DisplayPort standard for use with a non-Thunderbolt 3 or 4 device. You can source these Cables from Dell.
 
Rear View

Thunderbolt Dock Rear

 

1 HDMI Connector 2 VGA
3 Gigabit Ethernet Network Interface Connector  4 USB 3.1 Connector
5 Stereo Out Connector 6 Mini DisplayPort Connector
7 DisplayPort Connector 8 USB 2.0 Connector x2
9 Thunderbolt 3 and 4 Type-C Connector 10 AC Power Connector

Your Thunderbolt ports on your Dell computer are plug and play. If you have issues with your Thunderbolt port, it is port-related, driver related, or device related. The following solutions help you identify the problem to resolve your Thunderbolt port issues.

Begin troubleshooting your Thunderbolt ports by checking Device Manager to see if your Thunderbolt ports or hubs are working properly.

  1. Click the Start button.

Note: In Windows 8, move the mouse cursor to the upper right corner of the screen until the Charms Bar appears, and then click Search. In the search box type: Control Panel

In Windows 10, click or tap the Windows Start button and type Control Panel.

 
  1. Click the Control Panel.

  2. Click Hardware and Sound.

  3. Click Device Manager.

  4. Double-click Chipset and check under the PCI Express root to see if all your Thunderbolt connections are functioning correctly. Any devices not functioning have a yellow exclamation mark in front of them.

  5. If Device Manager shows any Thunderbolt connections that are not functioning, check for updated drivers.

  6. If the Thunderbolt connection is missing altogether, restart your personal computer with the Device plugged and install the driver that came with the device.

Note: If you have Accidental Damage Cover, the damage is covered as part of the Accidental Damage package. We must know where the damage is and how it occurred when you contact your local Technical Support. If you DO NOT have any cover or no Accidental Damage cover, then any repairs are chargeable.
 

You can check your warranty status on the link below.

The first step is to check the ports, the connector, and the cable for any wear and tear or damage that might be causing you problems:

  1. Checking for damage is looking at the Thunderbolt ports and visually checking if there are any:

    • Cracks in the plastics surrounding the port?
    • Any part of the port that is crimped or bent?
    • Any pins from inside the port bent or missing?
    • Any parts of the port missing or broken off?
    • Any damage to the devices male connector?
    • Any damage to the cable from the connector to the device?
  1. If you identify any of the above, you must have in place an accidental damage warranty or be prepared for a chargeable repair call. (Your local Technical Support team provides a quote for this repair.)

  2. If there is no damage to the port or device, then carry on with the next step.

  3. Does the external Thunderbolt device work ok in another computer?

    1. Yes, then proceed with the next step.

    2. No, then you must replace the device.

  4. Plug the device to the port. If you move the connector while it is plugged into the Thunderbolt port, does it affect whether the device is picked up or not?

    1. Yes, then contact your local Technical Support team to take the connection issue further.

    2. No, then go to the next step.

  5. Have you ruled out a software issue in any way? There are four basic ways to accomplish this.

    1. You can restart the personal computer with the Thunderbolt device plugged directly to the Port on its own. Once the personal computer has restarted, install the driver that came with the device. If it still does not work, then you must proceed with one of the remaining options. (a through d.).

    2. You can two way swap your Hard drive with one from a similar working computer. Does the fault follow the hard drive to a new machine, or does it stay with your computer? Follow your User Guide for instructions on removing any hardware parts. The steps change from computer type to the computer type. You can search on our support site using terms such as "your computers model type," "CRU" and "removal" to find a guide specific to your machine.

    3. You can boot from an Ubuntu Live CD (Regardless of the operating system in use on the computer.) and check to see if you experience the same issue in another operating system. Ubuntu live CDs allow you to boot the operating system off the CD without installing it on your Hard Drive. You can download an ISO of the CD on the Download link below. Tap rapidly at the F12 key when the computer boots to the Dell Splash screen. Choose the CD/DVD drive option from the boot once menu that appears.

    4. You can run a factory restore or reinstall your Operating system.

Caution: Carrying out option d. is done as a last resort and only done if one of the other two steps cannot be done. You MUST back up all data before carrying out this procedure - if you do not, data IS lost. Any operating system reinstall or factory restore formats your Hard Disk Drive (hard drive). See the guides on the Windows portal for more information about these procedures.
 
  1. Was the issue seen once the operating system and Software were ruled out?

    1. No, then the issue is resolved.

    2. Yes, then contact your support to take this further, they take you through some hardware diagnostics. These are built into your personal computer, and you can also access more on the Dell Support Site by entering your service tag.

See the additional information section at the bottom of this article for contact us instructions.

Yes, you can, however, you must configure your BIOS to support this. See below:

PXE Booting

Note: What is PXE Booting? - It is short for Pre-Boot Execution Environment. PXE is one of the components of Intel's (Wired for Management (WfM) specification. You can boot a computer from a server at a stage before the normal boot process. This turns the computer into a client personal computer that never boots from its internal Hard Drive.
 

In order to enable PXE booting, you are required to enable several other options in the BIOS.

  1. Check both the Legacy Option ROMs and the Unified Extensible Firmware Interface (UEFI) Network Stack:

    PXE USB Adaptor 1

  2. Enable Thunderbolt Boot support in the BIOS: (check all boxes.)

    PXE USB Adaptor 2

  3. The server must support UEFI PXE Boot (Windows Server 2012 at minimum is required).

  4. Exit the BIOS and select UEFI PXE Boot IPv4.

  5. The Windows Deployment Services (WDS) configuration for UEFI must contain x86 and x64 boot images.

    PXE USB Adaptor 3

Dell has an online diagnostic tool to help identify and fix issues with your computer.

  1. Go to the Dell personal computer Diagnostic page.

  2. Click the Custom Component Test tab.

  3. Locate the listing for Thunderbolt, Display Port, and or USB.

  4. Select the test which matches your port.

  5. Click Run Diagnostics.

  6. Agree to the Terms and Conditions in the Legal Statement.

  7. Follow the instructions to test each port.

There does not appear to be any doubt that the Thunderbolt standard is here to stay. Especially with the Type-C which is now promising ever more use. However, there has not been a great uptake in converting to this standard. Thunderbolt users are more likely to be professionals. Users who are in need of the benefits and quality of the standard to do their jobs. As they used to do with the Firewire standard. I can see this following the same track as Firewire using high Quality and high-end devices. However, the Type-C connectors ability to cross over and share markets with USB cannot be discounted.

What benefits does the Type-C USB standard bring:

Improved Transfer Speeds
Type-C is a connector type, so we have to say that the newest revision is Type-C using the Thunderbolt 4 standards. This Standard has transfer rates of 40Gbit/sec. We recommend that you check any devices you purchase with a Type-C connector to ensure it supports Thunderbolt if that is your intended use.
Improved Power Delivery
The Type-C supplies 100 Watts, and it is bi-directional. The same connection can either supply or receive power simultaneously that it is transmitting data across the same connection. Many devices have swapped over to USB charging cables over the last few years and this development can only speed up this process further.
Improved Connector and Plug Design
The Type-C connector is both smaller and better designed than the old Mini DisplayPort connector. It is also able to take the place of the multitude of USB types in use. (Such as the Micro, Mini and Type-D connectors.) It is impossible to plug this cable in the wrong way round as it is reversible. It also leaves room for further improvements down the line.
Improved Protocols
The Type-C can support several different protocols using Alternate Modes. These allow you to have adapters that can output VGA, DVI, DisplayPort, HDMI, or other types of connection from a single Thunderbolt port.
Simplifying the usage of Thunderbolt
The Type-C should lead to a more unified standard with one connector type and interchangeable cables and devices.

Intel Thunderbolt comparison chart


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해당 제품

Alienware 13 R2, Alienware 15 R2, Alienware 17 R3, Dell Thunderbolt Dock TB15, Precision 3510, Precision m3800, Precision 5510, Precision 7510, Precision 7710, XPS 12 9250, XPS 13 9350 (End of Life), XPS 15 9550
문서 속성
문서 번호: 000142432
문서 유형: How To
마지막 수정 시간: 04 3월 2024
버전:  10
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