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Thunderbolt is a connectivity protocol supporting fast data transfer, high-resolution video and charging, all at the same time. While earlier generations of the Thunderbolt standard used a Mini DisplayPort connector, Thunderbolt 3 and Thunderbolt 4 use the more capable USB-C connector.
Promoted by Intel as a universal connectivity experience, Thunderbolt 4 (TB4) is a "superset standard" incorporating USB4, DisplayPort and PCI Express (PCIe). In terms of performance, Thunderbolt 4 isn't all that different from its predecessor. The big difference is that laptop, peripheral and cable makers must meet more stringent standards for Thunderbolt 4 certification so buyers can be confident that, at a minimum, they will get the following features:
Thunderbolt 4's support for USB4 promises to bring some order to the fragmented world of USB cables and devices. A Thunderbolt 4-enabled laptop or dock will accept Thunderbolt 4, Thunderbolt 3, USB4, USB 3.x and USB 2.0 devices.
No. USB-C (or USB Type-C) is a physical connector for transmitting data, video and power. Confusion arises because the Thunderbolt and USB standards both use the USB-C connector but have different data, video and power capabilities.
| Thunderbolt 4 | Thunderbolt 3 | USB4 | USB3.2 | |
|---|---|---|---|---|
| Data Transfer | 40 Gbps | 40 Gbps | 20 Gbps/40 Gbps | 20 Gbps |
| Video | Two 4K monitors One 8K monitor |
Two 4K monitors One 5K monitor |
Two 4K monitors One 8K monitor |
One 4K monitor |
| Power/Charging | Up to 100W | Up to 100W | Up to 100W | Up to 1000W |
| Daisy-Chaining | Yes (up to 6 devices) | Yes (up to 6 devices) | No | No |
| Cable Length | 2m | 0.5m | 0.8m | 1m |
| Connector | USB-C | USB-C | USB-C | USB-C |
Can I plug a USB-C cable into a Thunderbolt 4 port?
Yes, Thunderbolt 4 ports will accept any cable with a USB-C connector. However, to get the benefit of Thunderbolt performance, you need to connect one Thunderbolt device to another, such as a Lenovo Yoga 9i laptop to a Thunderbolt-enabled monitor or dock.
Can I plug a USB-C device into a Thunderbolt 4 port?
Yes, a Thunderbolt port will negotiate data rate, power and video capabilities with the connected device and "fallback" to the USB protocol if the device is not Thunderbolt-enabled. This fallback mode also allows a Thunderbolt device to be connected to a non-Thunderbolt USB-C port and still function, albeit at a USB3 level.
Is a Thunderbolt monitor different from a USB-C monitor?
Yes, a Thunderbolt monitor has a USB-C Thunderbolt port. Thunderbolt lets you daisy-chain two 4K monitors, so at least one monitor will need two Thunderbolt ports, one for the signal from the host computer and the second to relay the video to the second monitor. A monitor with a Thunderbolt port can also charge a higher wattage device like a laptop.
| Connector | Video | Data rate | Power | Max. cable length | |
| Thunderbolt 1 | Mini Displayport | 2560 x 1600 (single display) | 2 x 10 Gbit/s | 10W | 3m |
| Thunderbolt 2 | Mini Displayport | 4K (single display) 2560 x 1444 (dual display) |
20 Gbit/s | 10W | 3m |
| Thunderbolt 3 | USB-C | 4K @ 120 Hz (single display) 5K @ 60 Hz (single display) 4K @ 60 Hz (dual display) |
40 Gbit/s | 100W | 0.5m (passive) 2m (active) |
| Thunderbolt 4 | USB-C | 8K @ 60 Hz (single display) 4K @ 60 Hz (dual display) |
40 Gbit/s | 100W | 2m |
The capabilities of USB-C cables can vary so it's important to know what you are buying. Although Thunderbolt and USB ports both accept USB Type-C cables, only cables specifically designed for Thunderbolt can be used for Thunderbolt connections. Thunderbolt cables can also be used for full-featured USB connections, making them a good choice for a universal cable that will work with any USB-C port.
Thunderbolt cables provide four shielded SuperSpeed pairs known as "lanes" (see highlighted pins in Figure 1 below), each capable of carrying packets of data at 20 Gb/s.
A Thunderbolt port dynamically detects the capabilities of cables and devices plugged into it and activates one (or a combination) of five connection modes:
Thunderbolt 3 cables come in two varieties: passive and active. A passive cable transmits electrical signals over copper wire without any intervention to boost the signal. An active cable uses transceivers on either end to regulate the data transfer over the cable, allowing it to transmit over longer distances.
A passive Thunderbolt 3 cable can only transmit at the full 40 Gb/s data rate over a distance of 0.5 m (18 inches). At 2 meters, a passive cable will limit data transmission to 20 Gb/s. For the maximum 40 Gb/s throughput up to 2 meters, you'll need an active Thunderbolt 3 cable.
With the introduction of Thunderbolt 4, passive cables will be able to transmit up to 2 m at 40 Gb/s.
Passive Thunderbolt 3 cable
Model: MTB3-00M5-5A-B
Passive Thunderbolt 3 cable
Model: MTB3-02M-5A-B
Active Thunderbolt 3 cable
Model: MTB3-02M-5A-AB
Thunderbolt 4 has a maximum bandwidth of 40 Gb/s. However, this is a bit misleading because not all of that bandwidth can be used for data transfer. Approximately 8 Gbp/s can only be used for video, leaving 32 Gb/s for non-video data (PCIe 3.0: 4 lanes x 8 Gb/s). Further accounting for PCIe 8b/10b encoding and TB4's own overhead, you arrive at a peak data throughput of approximately 22 Gb/s. Not 40 Gb/s but not slow either.
High data transmission rates like these enable new applications, such as solid state drive (SSD) storage arrays and external graphics cards (eGPUs).
Why am I not getting the full 40 Gbp/s speed from my Thunderbolt 4 connection?
Here are a few things to check:
Thunderbolt 4 includes support for DisplayPort 2.0, allowing it to power up to three 10K monitors at the same time, or one 16K monitor at 60Hz. Thunderbolt 3 supports DP 1.4 and has enough bandwidth to support two 4K (3840 x 2160) displays at 60 Hz, a single 4K at 120 Hz or a single 5K display at 60 Hz.
Thunderbolt Networking allows peer-to-peer communication between two or more computers through a Thunderbolt cable. This is useful for resource sharing and moving large amounts of data between computers.
Thunderbolt 3 supports USB Power Delivery (PD), allowing a TB3 port to send or receive up to 100W of power, which for some devices may eliminate the need for a separate AC power adapter. However, not all device manufacturers support USB-PD. Thunderbolt 3 can also provide 15W to connected bus-powered devices, such as external hard drives, cameras and portable monitors. This is also enough to charge a tablet or smartphone.
If your laptop has a Thunderbolt 3 or Thunderbolt 4 port, you have a few options.
Daisy-chaining – Thunderbolt lets you connect a Thunderbolt-enabled monitor to the laptop's Thunderbolt port and a second monitor to the first via a Thunderbolt cable. To do this, your graphics card needs to support Multi-Stream Transport (MST). Daisy-chaining isn't limited to monitors, either. You can include external storage and other laptops in the chain, up to 6 devices in total. Bonus! Thunderbolt is bidirectional so while your laptop is sending a video signal to an external monitor, the monitor can send power back to charge your laptop.
Video adapter – use an adapter like Eaton Model Number MTB3-002-DP to connect two DisplayPort monitors to your laptop's Thunderbolt 3 port and extend your desktop. You'll get 4K (3840 x 2160) @ 60 Hz for a two screen set-up or 5K (5120 x 2880) @ 60 Hz for a single screen.
Thunderbolt hubs and docks – in addition to other useful features, such as connecting to an Ethernet network or accessing a flash drive, docks and hubs usually provide some video connection options. For example, Eaton's MTB4-HUB3-01 will output to two 4K @ 60 Hz monitors or an 8K monitor @ 30 Hz.
If you regularly work with video files, or have a large library of music or photos, you might consider adding external storage to your laptop. USB 3.0 and USB 3.1 are fast enough to support an external hard disk drive (HDD) but for mass storage devices based on solid-state drives (SSD), your choices are USB 3.2 (20 Gb/s) or Thunderbolt 3 (40 Gb/s). For example, the Thunderbolt 3-compatible Samsung X5 Portable SSD supports sequential read/write speeds of 2,800/2,300 MB/s, over 20 times faster than an external HDD.
An external graphics card dock, also known as an eGPU, is an enclosure containing a power supply and slots for a full-size PCIe graphics card. It brings desktop-quality graphics to Windows 10 or Mac laptops, and is of particular interest to gamers, video and graphics editors. eGPUs require huge bandwidth making Thunderbolt 3 the only practical way to offload high-end graphics processing to an external device at a reasonable price. You can purchase an eGPU enclosure and add your own graphics card, or you can buy the enclosure and card as a bundle. Most eGPUs also include additional USB ports and spare slots.
Between power adapters, external monitors, supplemental storage and USB devices, laptop users are used to the thicket of cables connected to their machines. Thunderbolt docks offer an opportunity to simplify the situation by consolidating all connections in a single Thunderbolt cable.
Thunderbolt IP networking lets you connect two Mac or Windows computers and establish a full duplex 10 Gb Ethernet connection. If you have a Mac, you also have an option called Target Disk Mode.
Thunderbolt Bridge – Under OS X Network preferences, you'll see a network adapter called Thunderbolt Bridge. It's enabled by default but isn't active until it detects another Mac connected via Thunderbolt. On Windows, the Thunderbolt Bridge is created when the link between two machines is established and removed when unplugged.
Target Disk Mode – Originally a FireWire feature and adopted by Thunderbolt, Target Disk Mode is an easy way to migrate data from one Mac to another. TDM allows one Mac to appear as an external hard drive on another, Thunderbolt-connected Mac.
