USB-C直接对比

USB-C直接对比
USB-C head-to-head comparison

原始链接: https://www.lumafield.com/article/usb-c-cable-charger-head-to-head-comparison-apple-thunderbolt-amazon-basics

在充满类似产品的世界里，确定哪些产品因为精细的工程设计和周密的规划而脱颖而出往往是非常具有挑战性的。例如，最近USB-C电缆的趋势，看起来所有这些电缆都声称具有相同的功能，但一些电缆由于采用前沿工程技术而证明是更好的选择。通过使用Lumafield创新的工业CT扫描仪来研究三种领先的USB-C电缆的设计和组件 - 苹果Thunderbolt 4（USB‑C）Pro电缆，亚马逊Basicusb-c到usb-c 2.0快速充电器电缆，和NiceTQ usb-c电缆 - 我们旨在识别它们之间的任何区分因素。首先，让我们考虑Thunderbolt 4（USB‑C）Pro电缆，其价格昂贵，价格为129美元。在这个豪华选项中，包含大量先进的工程壮举。首先，金属外壳包裹塑料覆盖层，然后是保护内部工作的多个铜屏蔽环。此外，围绕连接器基部的拉伸保护包括八个从各个方向通过压接技术固定点的锚定。在Thunderbolt电缆的核心中，发现一个10层PCBA，提供40GBPS高速数据传输率，以及HBR3视频能力，以及令人印象深刻的能力，即使其前一代Lightning电缆的电力速率也令人印象深刻。另一方面，尽管亚马逊Basicusb-c到usb-c 2.0快速充电器电缆的价格为15.99美元，但其设计仍然非常复杂，尽管与Thunderbolt模型相比，其设计更简单。然而，通过CT扫描仪进行更仔细的检查，NiceTQ usb-c电缆最终显示为与前一种选项不同的设计创新较少，包括其软塑料外部的金属屏蔽下不足，连接器数量更少，以及替代强化金属的橡胶延伸。然而，应该注意到，这种特定选项的数据传输

然而，USB-C电缆通常具有更长且更薄的有线部分，这些部分从壁中伸出，而Lightning电缆通常具有较短的电缆，角度正确，使其能够紧贴壁。这可能导致抽屉或包中的纠缠更多，特别是如果同时使用多个充电器。另一个因素是每侧的针形状，USB-C电缆具有矩形形状，而Lightning电缆提供圆形针，在插入时更好地对齐，并在使用过程中防止意外分离。最终，个人喜好和特定使用场景在确定哪种连接器格式更受欢迎方面发挥作用。

原文

Apple’s new iPhone 15 marks a disruptive departure from previous models. The 11-year reign of the Lightning cable is over, and the USB-C era has begun — leaving us wondering what sets one charger apart from another.

Does Apple’s Thunderbolt 4 cable really warrant its $129 price tag? Or does a $5 cable get the job done just as well? We’ve used our Neptune industrial X-ray CT scanner to uncover the hidden engineering differences between them.

Apple Thunderbolt 4 (USB‑C) Pro cable

The Apple Thunderbolt 4 (USB-C) Pro Cable is a versatile connector catering to a broad spectrum of data transfer and charging needs. It supports Thunderbolt 3, Thunderbolt 4, and USB 4 data transfer with speeds reaching up to a remarkable 40 Gb/s. It also features DisplayPort video output (HBR3) and can charge devices by delivering up to 100 W, exceeding most data and power requirements with ease. Let’s see what makes all this possible.

The connector has a hard plastic enclosure; beneath it is a metal shield that’s fully bonded to the shell of the connector — all made of stainless steel. Where the cord leaves the connector, we find a single-piece strain relief crimped in from eight different directions that shields the entire bottom of the assembly.

Stainless steel enclosure and strain relief on the Thunderbolt connector head

The Thunderbolt connector maxes out on almost every point; it has 24 pins, all mounted independently on a 10-layer PCBA. Filtering out the lower-density PCB substrate in our Voyager visualization, we discover a forest of blind and buried vias. Blind vias connect an outer layer to inner layers but don't go all the way through the board, while buried vias connect only inner layers and aren't visible from the outside.

Blind and buried vias inside the Thunderbolt cable's 9-layer PCBA

Another curiosity hidden in the circuit board is this wiggle on one of the traces. It contains a tiny detour to make sure it’s the same length as its paired trace, which is especially important when dealing with extra-high-speed data transmission.

Wiggle detour on a PCBA trace

The Thunderbolt cable contains three distinct types of wires corresponding to its separate charging and data transfer capabilities. The coaxially shielded conductors in the cable are high-speed data lines. Most of the unshielded wires transmit power, but two of them are data wires that support legacy USB 2.0 functionality. The wires and their shields are landed separately on the PCBA.

Shielded and unshielded wires inside the Thunderbolt cord

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Overall, the Thunderbolt cable is a stunning piece of precision engineering. Let’s see how competitors at lower price-points stack up.

Amazon Basics USB-C cable

Less than 1/10th the price of the Apple cable, the Amazon Basics USB-C to USB-C 2.0 Fast Charger Cable offers charging up to 60 W and data transfer speeds up to 480 Mbps.

Like the Thunderbolt connector, the Amazon Basics connector has a metal jacket beneath its plastic enclosure that provides shielding and is integrated with its strain relief. This strain relief is much simpler than we saw on the Thunderbolt connector, though; it has two arms that crimp together and anchor the shielding on the cable.

Two-armed strain relief and shielding anchor on the Amazon Basics connector head

In the connector tip, we find only 12 pins — half as many as in the Thunderbolt, and four pairs of those are jumped across rather than individually connected to the PCBA. This may be a simpler and more cost-effective design to ensure basic functionality for charging and lower-speed data transfer. We also find that the plug’s shell is fully grounded; it’s soldered to the end pins of the connector.

12 pins, with four pairs jumped across the Amazon Basics PCBA

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NiceTQ USB-C cable

The $5.59 NiceTQ USB-C cable claims to transfer data at up to 10 Gbps, lower than the Thunderbolt cable’s 40 Gbps but higher than the 480 Mbps claimed by the Amazon Basics cable. How does it compare inside?

This is a much more primitive cable than the first two we’ve seen. It has no metal shielding beneath its soft plastic enclosure, and the plug’s shell floats in overmolded plastic without any connection to the cable’s ground wire. The cable’s strain relief is just a rubber extension of the plug’s plastic enclosure–no metal reinforcement, unlike the previous two connectors.

Inside the connector tip are eight pins, but only four of them connect to the cable. The other four float in the connector’s plastic overmolding, unlike the Amazon Basics connector, where mirrored pins are jumped across to each other. This may present reliability issues; if one of the active pins gets worn or bent and doesn’t reliably connect to the port, it wouldn’t have a redundant pin on the opposite side to fall back on.

This is the only cable we scanned that contains no PCBA; the pins just connect directly to the wires.

Wires connecting directly to the pins without a PCBA in the NiceTQ cable

The NiceTQ cable consists of four straightforward stranded conductors, each embedded individually in two layers of insulation — the outer layer slightly less dense than the inner.

This manufacturer claims the cable transmits data at up to 10 Gbps–a speed that corresponds to USB 3.1 Gen 2–but it only has enough pins and wires to support USB 2.0 at up to 480 Mbps. In any case, this cable accumulated 29 one-star reviews on Amazon and was discontinued the day after we bought it.

NiceTQ wire insulation

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ATYFUER USB-C cable

The last cable in our lineup is the ATYFUER USB-C cable, listed as a charging cable without any data transmission specs. Although this is even cheaper than the NiceTQ ($3.89 vs. $5.59) its construction is much more sophisticated.

This connector has a full set of 24 pins that are individually on a PCB, though only 12 are connected to traces. Despite being advertised as just a charging cable, its pins and wires are configured for USB 2.0 data transfer. Why does this cable have all 24 pins when only half of them are connected? The extra pins could help the plug sit more securely in its socket. Another guess: the same factory makes Thunderbolt cables, and it’s cheaper to maintain just one design, even though that means wasted material and effort.

Half of the 24 pins on the ATYFUER cable connect to the PCBA

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Conclusion

Ultimately, we buy cables that meet our needs for data and power transmission, form factor, and longevity. Industrial CT provides a window into the design thinking behind these everyday accessories and shows that even in products as standardized as USB-C cables, there’s plenty of room for clever engineering and efficient manufacturing.