1. What is USB-C?
Answer:
USB-C is a connector type used in modern devices for power delivery, data transfer, and video output. It’s a reversible connector, meaning it can be plugged in either way, unlike older USB types like USB-A.
2. What is the difference between USB-C and Type-C?
Answer:
USB-C and Type-C refer to the same thing. Both describe the physical connector, which is a small, reversible port. However, the capabilities of USB-C can vary based on the technology it supports, such as USB 3.2, USB4, or Thunderbolt 4.
3. Is USB-C the same as USB4?
Answer:
No, USB-C refers to the connector type, while USB4 is a protocol. USB4 can run over a USB-C connector, but not all USB-C ports support USB4. USB4 offers higher data transfer rates (up to 40 Gbps), better resource allocation for display and data, and improved compatibility with Thunderbolt 3 devices.
4. What is USB4?
Answer:
USB4 is the latest USB protocol that provides faster speeds, improved data and video handling, and enhanced compatibility with Thunderbolt devices. It supports data transfer speeds of up to 40 Gbps, dynamic bandwidth allocation, and supports DisplayPort for external monitors.
5. How does USB4 differ from USB 3.2?
Answer:
- USB4: Supports up to 40 Gbps speeds, dynamic bandwidth sharing, and is compatible with Thunderbolt 4, backward compatibility with Thunderbolt 3.
- USB 3.2: Supports up to 20 Gbps but lacks some of the advanced features of USB4, such as dynamic bandwidth management.
6. What is Thunderbolt 4?
Answer:
Thunderbolt 4 is an industry standard that builds on USB4 technology. It offers speeds of up to 40 Gbps, supports dual 4K monitors or a single 8K monitor, and allows for daisy-chaining up to six devices. Thunderbolt 4 is backward compatible with Thunderbolt 3 and USB-C.
7. What is the difference between USB4 and Thunderbolt 4?
Answer:
- USB4: Can support up to 40 Gbps but does not guarantee all devices will. It is based on Thunderbolt 3 but with some differences in bandwidth management.
- Thunderbolt 4: Guarantees 40 Gbps speeds, supports dual 4K or single 8K displays, mandatory PCIe support (up to 32 Gbps), and allows for daisy-chaining. It’s more stringent in terms of requirements and capabilities.
8. Can USB-C devices work with Thunderbolt 4 ports?
Answer:
Yes, Thunderbolt 4 ports are compatible with USB-C devices. You can connect any USB-C device to a Thunderbolt 4 port, but it will operate at the speed and functionality of the connected device (e.g., USB 3.2 or lower).
9. What are the advantages of Thunderbolt 4 over Thunderbolt 3?
Answer:
- Improved minimum performance: Thunderbolt 4 ensures a minimum of 40 Gbps speeds for all devices, while Thunderbolt 3 may vary.
- Dual 4K display support: Thunderbolt 4 mandates support for two 4K monitors or one 8K monitor, whereas Thunderbolt 3 only requires support for a single 4K monitor.
- Better security: Thunderbolt 4 requires Direct Memory Access (DMA) protection, reducing vulnerability to attacks.
- More devices in daisy-chain: Thunderbolt 4 allows daisy-chaining of up to six devices.
10. What is the maximum power delivery over USB-C?
Answer:
USB-C can deliver up to 100W of power under the USB Power Delivery (USB-PD) specification, making it suitable for charging laptops, smartphones, and other power-hungry devices.
11. Can a USB-C port support DisplayPort?
Answer:
Yes, USB-C ports that support DisplayPort Alt Mode can deliver video output, allowing the port to connect to external monitors without the need for an additional HDMI or DisplayPort cable.
12. Can Thunderbolt 4 cables be used for USB-C ports?
Answer:
Yes, Thunderbolt 4 cables are compatible with USB-C ports and can be used with any USB-C device. However, the performance (speed and capabilities) will depend on the capabilities of the connected device.
13. How does Thunderbolt 4 improve charging capabilities?
Answer:
Thunderbolt 4 can support power delivery up to 100W, allowing it to charge laptops, tablets, and smartphones. It’s also designed to provide a more reliable and consistent charging experience compared to previous generations.
14. How can I tell if my device supports USB4 or Thunderbolt 4?
Answer:
You can usually check in the device’s technical specifications, or look for Thunderbolt 4 or USB4 logos near the port. Thunderbolt 4 ports are typically labeled with a lightning bolt icon.
15. Can USB4 or Thunderbolt 4 support external GPUs?
Answer:
Yes, both USB4 and Thunderbolt 4 can support external GPUs (eGPUs), especially for devices that need enhanced graphics performance.
16. Can I use my existing USB-C cables with USB4 or Thunderbolt 4 devices?
Answer:
Yes, you can use existing USB-C cables with USB4 or Thunderbolt 4 devices, but the performance will depend on the cable’s specifications. For example, if your cable supports only USB 3.2 speeds (up to 20 Gbps), it will limit the performance even if the device is capable of higher speeds.
17. What is Alternate Mode in USB-C?
Answer:
Alternate Mode (Alt Mode) allows USB-C ports to carry non-USB signals, such as DisplayPort or HDMI, enabling the port to output video to external monitors. USB4 and Thunderbolt 4 also support this feature, but not all USB-C ports do.
18. What is PCIe support in Thunderbolt 4?
Answer:
Thunderbolt 4 mandates PCIe (Peripheral Component Interconnect Express) support, which allows for fast data transfers between the computer and external storage, graphics, and other high-speed peripherals. This is especially important for tasks like connecting external GPUs or high-speed storage drives.
19. How do USB4 and Thunderbolt 4 handle bandwidth allocation for video and data?
Answer:
Both USB4 and Thunderbolt 4 intelligently allocate bandwidth between video and data traffic. If you connect an external display, the system can dynamically manage bandwidth to ensure that both the display and data transfer perform optimally. This is an improvement over USB 3.2, which doesn’t manage bandwidth as effectively.
20. Are Thunderbolt 4 and USB4 backward compatible with older USB standards?
Answer:
Yes, both Thunderbolt 4 and USB4 are backward compatible with older USB standards, including USB 3.x and USB 2.0. Devices using older protocols will work, but they will operate at the lower speeds supported by those standards.
21. Can USB-C carry Ethernet signals?
Answer:
Yes, through adapters, USB-C can support Ethernet connectivity. For example, a USB-C to Ethernet adapter can allow you to connect to wired networks. Thunderbolt 4 also supports Ethernet via adapters or docking stations.
22. What is the maximum video resolution supported by USB4 and Thunderbolt 4?
Answer:
- USB4: Supports up to single 8K display or dual 4K displays, depending on the specific implementation and connected devices.
- Thunderbolt 4: Also supports single 8K or dual 4K displays, with strict requirements for display capabilities.
23. What are the security improvements in Thunderbolt 4?
Answer:
Thunderbolt 4 introduces Direct Memory Access (DMA) protection through Intel’s VT-d (Intel Virtualization Technology for Directed I/O), which prevents unauthorized devices from accessing your computer’s memory. This reduces the risk of attacks like “Thunderspy,” which exploited previous Thunderbolt standards.
24. Is there a difference in charging capabilities between USB4 and Thunderbolt 4?
Answer:
Both USB4 and Thunderbolt 4 support USB Power Delivery (USB-PD) with up to 100W charging capabilities. However, Thunderbolt 4 mandates support for power delivery in laptops and devices that use the port for charging, ensuring consistent and fast charging experiences.
25. What are the requirements for cables in Thunderbolt 4?
Answer:
Thunderbolt 4 cables must support:
- 40 Gbps data transfer speeds.
- Up to 2 meters in length without reducing speed.
- USB Power Delivery (USB-PD) up to 100W for charging.
These strict requirements ensure that Thunderbolt 4 devices deliver consistent performance even over longer cables.
26. Can Thunderbolt 4 and USB4 ports support virtual reality (VR) headsets?
Answer:
Yes, both USB4 and Thunderbolt 4 can support VR headsets that require high bandwidth for video and data. Thunderbolt 4’s high data rates and dual 4K support make it particularly well-suited for VR and AR applications.
27. What are the minimum system requirements for Thunderbolt 4?
Answer:
Devices with Thunderbolt 4 must meet the following minimum requirements:
- 40 Gbps data transfer.
- Support for dual 4K displays or one 8K display.
- At least one port for charging on laptops.
- PCIe data transfer speeds of up to 32 Gbps.
- DMA protection to improve security.
28. Can USB4 and Thunderbolt 4 be used in docking stations?
Answer:
Yes, both USB4 and Thunderbolt 4 support docking stations, which can expand the number of available ports. Thunderbolt 4 docking stations tend to support more features, such as multiple displays, Ethernet, high-speed data transfer, and device charging, all through a single connection.
29. What is the maximum number of devices that can be daisy-chained with Thunderbolt 4?
Answer:
Thunderbolt 4 allows daisy-chaining of up to six devices in a single chain. For example, you can connect multiple external storage drives, displays, or other peripherals, one after another, all using a single Thunderbolt 4 port.
30. Do USB4 and Thunderbolt 4 support audio output?
Answer:
Yes, both USB4 and Thunderbolt 4 support audio output over USB-C connections. You can connect audio interfaces, headphones, or speakers via USB-C or through adapters that support audio.
31. Why do some USB-C ports only support charging and not data transfer?
Answer:
Some devices, especially smaller laptops and smartphones, include USB-C ports that are designed solely for power delivery, without data transfer or video output capabilities. This is due to cost-saving measures or design limitations. Always check the specifications of your device to see if the port supports data transfer, video output, or both.
32. Is Thunderbolt 4 necessary for gaming?
Answer:
Thunderbolt 4 is ideal for gaming when using external GPUs or high-speed storage, but it is not strictly necessary for gaming on the internal hardware. It provides fast data transfer and display support, which can be beneficial for external monitors or accessories.
33. What is the difference between USB4 Gen 2×2 and Gen 3×2?
Answer:
- USB4 Gen 2×2: Supports data rates up to 20 Gbps (10 Gbps per lane).
- USB4 Gen 3×2: Supports data rates up to 40 Gbps (20 Gbps per lane). These refer to the lanes used in USB4 data transfer, with Gen 3×2 providing faster speeds than Gen 2×2.
additional technical Q&As to further explore nuances between USB4, Thunderbolt 3 (TBT3), and Thunderbolt 4 (TBT4):
34. Why is USB4 might not fully compatible with Thunderbolt 3 but compatible with Thunderbolt 4?
Answer:
USB4 is based on the Thunderbolt 3 protocol, so it’s mostly compatible with Thunderbolt 3 devices. However, the USB4 specification allows for optional features, such as support for only 20 Gbps data transfer speeds (instead of the full 40 Gbps), which means not all USB4 devices will be able to operate at full Thunderbolt 3 speeds. On the other hand, Thunderbolt 4 fully complies with all Thunderbolt 3 features and guarantees 40 Gbps speed, dual 4K display support, and PCIe bandwidth, making it fully compatible with both USB4 and Thunderbolt 3 devices.
35. Why do some USB-C ports only support USB 2.0 speeds?
Answer:
Some manufacturers may include USB-C ports that are wired to support only USB 2.0 speeds (480 Mbps) to save on costs or to serve specific purposes like charging. While the physical connector is the same as higher-speed USB-C ports, the internal wiring limits data transfer capabilities.
36. What is the difference between a passive and active Thunderbolt 4 cable?
Answer:
- Passive cables: These can transmit data at full Thunderbolt 4 speeds (40 Gbps) over shorter distances, usually up to 0.8 meters.
- Active cables: These have built-in signal amplification, allowing them to maintain full speeds over longer distances, up to 2 meters. Active cables tend to be more expensive due to the additional electronics inside.
37. Why don’t all USB-C cables support Thunderbolt 4?
Answer:
Not all USB-C cables support Thunderbolt 4 because Thunderbolt 4 has stricter requirements in terms of bandwidth, power delivery, and length. Thunderbolt 4 cables must support 40 Gbps data transfer, up to 100W power delivery, and at least 2 meters of length while maintaining full performance. Standard USB-C cables, especially older or cheaper ones, may not meet these criteria and will operate at lower speeds or reduced functionality.
38. Why are Thunderbolt 4 devices more expensive than USB4 devices?
Answer:
Thunderbolt 4 devices are more expensive because they require stricter certification, including:
- Guaranteed 40 Gbps data transfer speed.
- Support for dual 4K or single 8K displays.
- DMA (Direct Memory Access) protection for security.
- PCIe bandwidth (32 Gbps) for fast data transfer with external storage and GPUs.
USB4 devices, on the other hand, allow for more flexibility in performance and do not require the same level of certification, resulting in lower prices but potentially reduced functionality.
39. Can I connect a USB4 device to a Thunderbolt 3 port?
Answer:
Yes, you can connect a USB4 device to a Thunderbolt 3 port, but the performance will be limited by the Thunderbolt 3 device’s capabilities. For instance, if the USB4 device supports 40 Gbps speeds, it will operate at the Thunderbolt 3 device’s maximum of 40 Gbps, but some advanced features like bandwidth sharing or specific PCIe capabilities might not be fully utilized.
40. What happens when you plug a USB4 device into a USB 3.2 port?
Answer:
When you plug a USB4 device into a USB 3.2 port, the device will operate at the lower speeds and reduced functionality of USB 3.2. For example, USB 3.2 can support up to 20 Gbps data transfer, which is significantly lower than USB4’s potential 40 Gbps. Additionally, features like dynamic bandwidth sharing between video and data, which USB4 offers, won’t be available.
41. How does USB4 handle backward compatibility with USB 2.0 and 3.2?
Answer:
USB4 is backward compatible with both USB 2.0 and USB 3.x, meaning it will work with older USB devices. However, the speed and functionality will be limited by the older USB standard in use. For example, when connected to a USB 3.2 device, USB4 will operate at USB 3.2 speeds (up to 20 Gbps), and with USB 2.0 devices, it will be limited to 480 Mbps.
42. Why do some Thunderbolt 3 devices not work well with USB4?
Answer:
Some Thunderbolt 3 devices may not work as expected with USB4 due to differences in the way bandwidth is allocated or how certain features (like PCIe or display output) are implemented. USB4 and Thunderbolt 3 share a lot of similarities, but Thunderbolt 3 certification ensures certain performance levels that USB4 doesn’t always guarantee. This can lead to reduced functionality or inconsistent performance when using Thunderbolt 3 devices with a USB4 port.
43. Why are USB4 hubs often slower than Thunderbolt 4 hubs?
Answer:
USB4 hubs are often slower because USB4 does not have the same strict performance requirements as Thunderbolt 4. A USB4 hub may operate at lower speeds (like 20 Gbps) depending on the implementation, while Thunderbolt 4 hubs must support the full 40 Gbps, ensuring faster data transfer and better support for multiple high-resolution displays and high-speed peripherals.
44. What is the difference between USB-C docking stations for USB4 and Thunderbolt 4?
Answer:
- USB4 docking stations: Typically support up to 40 Gbps of data transfer, but performance and features (like display support) may vary based on the device and manufacturer.
- Thunderbolt 4 docking stations: Guarantee full 40 Gbps speeds, support for dual 4K or single 8K displays, and offer power delivery and PCIe data transfer. Thunderbolt 4 docks tend to be more consistent in performance, with fewer issues related to bandwidth sharing or device compatibility.
45. Can Thunderbolt 4 ports handle multiple USB standards at the same time?
Answer:
Yes, Thunderbolt 4 ports are designed to handle multiple USB standards simultaneously, including USB 2.0, 3.x, and USB4. This means you can connect a wide variety of devices (e.g., external hard drives, keyboards, monitors) that use different USB standards, and the port will manage the data transfer and power requirements based on each device’s capabilities.
46. Can I use an external GPU with USB4?
Answer:
Yes, USB4 can support external GPUs (eGPUs), but this depends on whether the specific implementation includes PCIe support. Thunderbolt 4 mandates PCIe support, making it a better and more consistent option for eGPU use, but some USB4 devices may not include this feature, limiting their compatibility with eGPUs.
47. What are the limitations of USB4 compared to Thunderbolt 4?
Answer:
- Optional features: USB4 allows manufacturers to implement certain features (like full 40 Gbps speed or PCIe support) optionally, meaning not all USB4 devices will provide the same performance.
- Security: Thunderbolt 4 requires Direct Memory Access (DMA) protection, which USB4 does not mandate.
- Certification: Thunderbolt 4 devices go through stricter certification processes, ensuring that all Thunderbolt 4 devices meet certain standards, while USB4 devices may vary more widely in terms of performance and functionality.
48. Why does Thunderbolt 4 require dual 4K display support, but USB4 does not?
Answer:
Thunderbolt 4 has stricter requirements, including dual 4K or single 8K display support, because it is designed to provide consistent high performance across all certified devices. USB4, on the other hand, allows for flexibility, meaning not all USB4 devices or ports need to support multiple displays. This flexibility allows manufacturers to create lower-cost USB4 devices that may not offer the same level of display output.
49. Can Thunderbolt 4 improve VR/AR experiences compared to USB4?
Answer:
Yes, Thunderbolt 4 can improve VR/AR experiences due to its higher guaranteed data transfer speeds (40 Gbps) and PCIe support, which are essential for handling the large amounts of data required by VR/AR devices. USB4 may offer similar capabilities, but it is not guaranteed across all USB4 implementations, making Thunderbolt 4 a more reliable option for high-performance VR/AR setups.
50. Why don’t all laptops with USB-C have Thunderbolt 4?
Answer:
Not all laptops with USB-C ports have Thunderbolt 4 because Thunderbolt 4 requires additional hardware, certification, and licensing, which can add to the cost of the device. Some manufacturers opt to include only standard USB-C or USB4 ports to reduce costs or because the target audience does not need the extra features that Thunderbolt 4 provides, such as dual 4K display support or PCIe bandwidth for external GPUs.
Fact-Checking the USB-C, USB4, Thunderbolt 3, and Thunderbolt 4 Q&A
- USB4 and Thunderbolt 3/4 Compatibility:
- Reasoning: USB4 is built upon Thunderbolt 3 but has some optional features that may limit full compatibility. Thunderbolt 4 mandates all the features of Thunderbolt 3, ensuring backward compatibility and higher performance guarantees.
Sources: USB-IF specifications, Intel documentation on Thunderbolt standards.
- Reasoning: USB4 is built upon Thunderbolt 3 but has some optional features that may limit full compatibility. Thunderbolt 4 mandates all the features of Thunderbolt 3, ensuring backward compatibility and higher performance guarantees.
- USB-C Ports Supporting Only USB 2.0:
- Reasoning: Manufacturers sometimes wire USB-C ports to support only USB 2.0 to save costs or prioritize other uses like charging. This is well-known in mobile devices and some budget laptops.
Sources: Manufacturer specifications for devices with USB-C ports (like certain smartphones or entry-level laptops).
- Reasoning: Manufacturers sometimes wire USB-C ports to support only USB 2.0 to save costs or prioritize other uses like charging. This is well-known in mobile devices and some budget laptops.
- Active vs Passive Thunderbolt Cables:
- Reasoning: Thunderbolt 4 cables can be passive or active, with active cables supporting longer distances at full speed, whereas passive cables typically support shorter lengths.
Sources: Thunderbolt technology specifications from Intel.
- Reasoning: Thunderbolt 4 cables can be passive or active, with active cables supporting longer distances at full speed, whereas passive cables typically support shorter lengths.
- Thunderbolt 4 Device Pricing:
- Reasoning: Thunderbolt 4 certification requires meeting specific performance criteria, including 40 Gbps transfer speeds, dual 4K display support, and PCIe data transfer, which add to the cost of the device.
Sources: Intel’s official Thunderbolt 4 requirements, product pricing comparison between Thunderbolt 4 and USB4 hubs/docks.
- Reasoning: Thunderbolt 4 certification requires meeting specific performance criteria, including 40 Gbps transfer speeds, dual 4K display support, and PCIe data transfer, which add to the cost of the device.
- USB4 with Thunderbolt 3 Ports:
- Reasoning: USB4 works with Thunderbolt 3 ports due to shared technology, but the performance depends on the specific features supported by the device and cable.
Sources: USB4 and Thunderbolt 3 technical interoperability documents.
- Reasoning: USB4 works with Thunderbolt 3 ports due to shared technology, but the performance depends on the specific features supported by the device and cable.
- USB4 in USB 3.2 Ports:
- Reasoning: USB4 devices plugged into USB 3.2 ports will be limited by the bandwidth and features of USB 3.2, such as a maximum data rate of 20 Gbps.
Sources: USB 3.2 and USB4 specifications from USB-IF.
- Reasoning: USB4 devices plugged into USB 3.2 ports will be limited by the bandwidth and features of USB 3.2, such as a maximum data rate of 20 Gbps.
- Backward Compatibility of USB4:
- Reasoning: USB4 maintains backward compatibility with USB 2.0 and USB 3.x standards, but the speed and functionality are limited by the older technology.
Sources: USB4 specifications from USB-IF.
- Reasoning: USB4 maintains backward compatibility with USB 2.0 and USB 3.x standards, but the speed and functionality are limited by the older technology.
- Thunderbolt 3 Devices with USB4:
- Reasoning: Thunderbolt 3 devices may not work fully with USB4 due to differences in optional features like PCIe support. Some USB4 devices may not fully support all Thunderbolt 3 features.
Sources: USB4 and Thunderbolt 3 documentation, user reports.
- Reasoning: Thunderbolt 3 devices may not work fully with USB4 due to differences in optional features like PCIe support. Some USB4 devices may not fully support all Thunderbolt 3 features.
- USB4 Hubs vs Thunderbolt 4 Hubs:
- Reasoning: USB4 hubs may support lower speeds or fewer features (e.g., display outputs), depending on the implementation, whereas Thunderbolt 4 hubs are required to meet specific high-performance standards.
Sources: Hub and dock specifications from major manufacturers (e.g., CalDigit, Anker).
- Reasoning: USB4 hubs may support lower speeds or fewer features (e.g., display outputs), depending on the implementation, whereas Thunderbolt 4 hubs are required to meet specific high-performance standards.
- USB-C Docking Stations for USB4 vs Thunderbolt 4:
- Reasoning: Thunderbolt 4 docking stations guarantee higher performance (40 Gbps, dual 4K, power delivery), while USB4 docks can vary based on implementation.
Sources: Thunderbolt and USB4 docking station product details from companies like Dell, HP, and Lenovo.
- Reasoning: Thunderbolt 4 docking stations guarantee higher performance (40 Gbps, dual 4K, power delivery), while USB4 docks can vary based on implementation.
- Handling Multiple USB Standards on Thunderbolt 4 Ports:
- Reasoning: Thunderbolt 4 ports can handle multiple USB standards (USB 2.0, 3.x, and USB4), thanks to backward compatibility baked into the protocol.
Sources: Intel documentation on Thunderbolt 4 and its backward compatibility features.
- Reasoning: Thunderbolt 4 ports can handle multiple USB standards (USB 2.0, 3.x, and USB4), thanks to backward compatibility baked into the protocol.
- External GPUs with USB4:
- Reasoning: USB4 can support eGPUs if PCIe tunneling is implemented, but it’s not required. Thunderbolt 4 mandates PCIe support, making it a more reliable option for eGPUs.
Sources: USB4 and Thunderbolt 4 specifications, reviews of eGPU performance.
- Reasoning: USB4 can support eGPUs if PCIe tunneling is implemented, but it’s not required. Thunderbolt 4 mandates PCIe support, making it a more reliable option for eGPUs.
- Thunderbolt 4 vs USB4 Limitations:
- Reasoning: Thunderbolt 4 mandates full PCIe, 40 Gbps speeds, and DMA protection, while USB4 allows flexibility in those areas, which can result in varying performance levels.
Sources: Intel Thunderbolt 4 overview, USB4 technical papers. 
- Reasoning: Thunderbolt 4 mandates full PCIe, 40 Gbps speeds, and DMA protection, while USB4 allows flexibility in those areas, which can result in varying performance levels.
- Dual 4K Display Support in Thunderbolt 4 vs USB4:
- Reasoning: Thunderbolt 4 mandates support for dual 4K displays, while USB4 does not, making it more flexible but less guaranteed for high-end display setups.
Sources: Display output requirements from Intel’s Thunderbolt 4 and USB4 documentation.
- Reasoning: Thunderbolt 4 mandates support for dual 4K displays, while USB4 does not, making it more flexible but less guaranteed for high-end display setups.
- Thunderbolt 4 for VR/AR:
- Reasoning: Thunderbolt 4’s higher bandwidth and PCIe support make it better suited for VR/AR experiences compared to USB4, which might not always support full PCIe performance.
Sources: VR/AR hardware requirements and compatibility with Thunderbolt 4 devices.
- Reasoning: Thunderbolt 4’s higher bandwidth and PCIe support make it better suited for VR/AR experiences compared to USB4, which might not always support full PCIe performance.
- USB-C Laptops Without Thunderbolt 4:
- Reasoning: Not all laptops include Thunderbolt 4 due to additional hardware and licensing costs, especially in lower-end or mid-range models.
Sources: Laptop specification sheets, Thunderbolt 4 requirements.
- Reasoning: Not all laptops include Thunderbolt 4 due to additional hardware and licensing costs, especially in lower-end or mid-range models.
