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Plugable USB-C 4-Port Hub
$15.95 USD
SKU: USBC-HUB4AAmazon Rating : (150 Reviews)
Features
- 4x USB 3.0—Compact, lightweight, and travel-ready, the USB C hub adds 4x USB 3.0 ports through a single USB-C port. Great as a USB hub for laptop or desktop to connect a USB flash drive, keyboard, mouse, or any other legacy USB devices
- SuperSpeed USB—USB C hub multiport adapter provides 4x USB 3.0 ports, each capable of transferring data at up to 5Gbps. USB C adapter is designed for data. Will not charge devices
- Travel Ready—This USBC hub is made to sit on a desk or travel with you in your laptop bag. Rigid plastic case is resistant to scuffs and bumps from carrying it around and it won’t scratch up your other devices when jostling in your bag
- Compatibility—Compatible with Windows, macOS, ChromeOS, and Linux. This USB-C hub is universally compatible with USB-C, Thunderbolt, and USB4 ports
- 2-Year Coverage, Lifetime Support—Every Plugable product, including this USB C to USB adapter hub, is covered against defects for 2 years and comes with lifetime support. If you ever have questions, contact our North American-based team - even before purchase
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The Plugable USBC-HUB4A might look pretty simple, and that’s because it is. Simply plug it in and sprout 4x USB 3.0 data ports. For MacBook Air. For Dell XPS. For just about anything with a USB-C port.
Each port can transfer data up to 5Gbps. At that speed it would only take about 21 seconds to transfer the entirety of the 1984 science fiction hit, The Last Star Fighter. So, yeah, it’s pretty fast. That means you can be transferring files from a flash drive on USB port 1, connecting a keyboard to port 2, a mouse in 3, and downloading clips from your camera on 4.
Sure, these hubs are quite handy to have on your desk, but they’re just as happy to hit the road. Lightweight and compact, the hubs are encased in black plastic with a matte finish to resist scuffs and scratches. The plastic case also helps to avoid damaging the other gadgets in your bag. It is worth mentioning, however, that the hub is only designed for data. This USB port expander will not charge.
Some Android OS devices with USB-C ports are compatible for allowing the connection of thumb drives, keyboard and mouse, along with some web cams.
Plug-and-Play
Plug it in and go. No driver downloads required.
SuperSpeed USB
This data hub transfers data at up to 5Gbps.
Travel Ready
Small and durable with an integrated 15cm flexible cord, this hub is handy to have on your desk, but it’s just as happy to hit the road.
Compatibility
Compatible with Windows, macOS, ChromeOS, and Linux systems with a USB-C port. Designed for data, this device doesn’t charge.
 |
 |
 |
 |
 |
|
|---|---|---|---|---|---|
Number of USB 3.0 Ports |
4 |
4 |
3 |
2 |
1 |
Connection to Host |
USB4, Thunderbolt, USB-C |
USB 3.0 |
USB4, Thunderbolt, USB-C |
USB4, Thunderbolt, USB-C |
USB-C (USB4/ Thunderbolt) |
Data Transfer Rates |
5Gbps |
5Gbps |
5Gbps |
5Gbps |
5Gbps |
USB-C Charging* |
X |
X |
Up to 87W |
Up to 87W |
Up to 60W |
Video Output |
X |
X |
HDMI |
1x HDMI |
1x HDMI |
SD/microSD Card Reader |
X |
X |
✓ |
✓ |
X |
Ethernet Port |
X |
X |
X |
✓ |
X |
Filter Help Articles and Frequent Questions by Category
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You can always contact support if you need help too!
Do Plugable products support the Apple SuperDrive?
Unfortunately Plugable products do not support the Apple SuperDrive.
The Apple SuperDrive has stringent power requirements that can only be met by directly connecting the SuperDrive to your host laptop. As a result at this time Apple recommends only using their USB-C adapter cables. You can find more information on that here → How to connect the Apple USB SuperDrive
If you have purchased a Plugable product to use with your Apple SuperDrive, and would like some additional assistance please do not hesitate to reach out. You can do so by emailing support@plugable.com, or going to Plugable.com/Support.
Why does my wireless mouse or keyboard appear sluggish or not work properly when used with the hub?
Most USB receivers for wireless mice and keyboards operate in the 2.4Ghz band. When connecting the receiver to any USB 3.0 port there is potential for interference that can affect the devices performance. The most effective method is to add a short USB 2.0 extension cable between the hub and the receiver to mitigate the effect, and many wireless keyboards and mice come with such a cable for this reason.
Self-Powered vs Bus-Powered USB Devices
While all USB ports provide some amount of power for attached devices, the available power may not be enough for certain high-current devices such as USB hubs or external hard drives. High-current devices usually come with their own power adapter, making them self-powered, in contrast to a bus-powered device that draws all of its power from the host computer's USB interface. Bus-powered devices can cause issues if they need more power than is available from the host machine.
Many of our devices that include power adapters, especially USB hubs, will function in either self-powered or bus-powered mode. However, even though the device may function, each additional device attached to the host computer reduces the total available bus power. If the power runs out, any USB device attached to the computer may suddenly disconnect. If this were to happen to a USB storage device, such an event could result in permanent data loss.
If a device comes with a power adapter, we recommend that the adapter stay connected at all times, otherwise the device may not function as designed.
Self-powered USB device - A device that takes all of its power from an external power supply
Bus-powered USB device - A device that takes all of its power from the host computer's USB interface.
USB Port Types
USB-A
pietz, CC BY-SA 3.0 , via Wikimedia Commons
This is the standard USB connection that most computers offered prior to the introduction of USB Type-C (USB-C). Even after the introduction of USB Type-C, this is still quite common.
It can provide data transfer rates up to the USB 3.1 Gen 2 (10 gbps) specification depending on the host and device, but does not directly support video in the way that USB-C Alternate Mode does. This limitation makes DisplayLink USB graphics adapters and docking stations ideal on systems that do not have USB-C, or in instances where more displays are needed beyond available video outputs of a PC.
USB-B
Fred the Oyster, CC BY-SA 4.0 , via Wikimedia Commons
IngenieroLoco, CC BY-SA 4.0, via Wikimedia Commons
This type of connection comes in a couple different styles depending on whether USB 3.0 and higher transfer rates are supported (bottom graphic). Usually this type of connection is used to plug into USB devices that do not have a fixed cable connected, such as USB docking stations, USB hubs, printers, and others.
USB Mini-B
Fred the Oyster, CC BY-SA 4.0 , via Wikimedia Commons
One of the first connectors for charging a smartphone, wireless game controller (such as the Sixaxis and DualShock 3), and other small devices such as external hard drives. Not commonly used today, but is still used in some cases. Most devices using USB Mini B are using USB 2.0, though a USB 3.0 variant does exist. This specification also added USB On-The-Go (OTG) functionality, though it is more commonly implemented with Micro USB.
USB Micro-B
Fred the Oyster, CC BY-SA 4.0, via Wikimedia Commons
IngenieroLoco, CC BY-SA 4.0 , via Wikimedia Commons
A smaller connector that serves many of the same uses as the Mini B connector, with added optional features such as Mobile High-Definition Link (MHL) to allow devices like smartphones to output video to larger displays without requiring a dedicated port for video output.
The larger variant of USB-B is most commonly used for external hard drives for higher 5Gbps transfer rates.
USB-C, Thunderbolt™ 3, and Thunderbolt™ 4
Niridya , CC0, via Wikimedia Commons
The most recent USB connection, USB Type-C (USB-C), represents a major change in what USB can do. The connector is smaller, can be connected in two orientations, is able to carry substantially more power and data, and can directly carry video signals of multiple types (HDMI, DisplayPort, etc.) Intel has also adapted the USB-C connector for use with Thunderbolt 3 and Thunderbolt 4.
It is important to note that while all Thunderbolt 3 and Thunderbolt 4 connections are USB-C, not all USB-C connections can be used with Thunderbolt 3 or Thunderbolt 4 devices.
More details regarding physical USB connections can be found on Wikipedia . The graphics depicted here are adapted from Wikimedia Commons by various artists under the Creative Commons Attribution-Share Alike 3.0 Unported license.
Can I use this hub with a USB-C to USB 3.0 adapter?
Yes, you can use this USB hub with an adapter. However, we do also have two different versions of this Hub so that you can get a version that best suits your needs.
Can I charge my phone or tablet with this USB Hub?
Please note that this USB hub pulls power from the host computer that it is connected to. The Hub acts as a splitter to share the USB data connection with multiple devices.
We do not recommend the use of this USB hub with devices that draw a large amount of power like USB hard drives or charging mobile devices.
Will this work when connected to my Smart TV or Car?
The USB hub itself should work just fine when connected to most smart tv's. However, it is dependent upon the car or TV's ability to support the individual USB devices connected to the 4 port hub. Note that not all USB devices are supported by cars or smart TV’s.
Does this USB 3.0 hub require drivers or a software download?
There are no drivers to be installed for the USB hub to function. However, individual devices connected through the USB hub may require the installation of drivers or support software.
Like most USB hubs, this device utilizes the internal capability of a computer to access USB devices. Most computer OS distributions have some sort of support drivers built in for handling this type of USB hub automatically.
What are the recommended use-cases for this device?
People who will find this device most useful are those who require the connection of USB 3.0 devices such as a keyboard, mouse, thumb drive, or webcam.
Particularly for laptop users this device can help extend the limited amount of USB ports that typical modern laptops have. The compact form factor of this USB hub also makes it highly portable and ideal for business trips or working on the go.
Understanding Heat Generation in Electronics
It's not uncommon for users to notice a certain level of heat generation from electronics and by extension, Plugable products during operation. In this knowledge base article, we'll explore the reasons behind this heat generation and why it is considered a normal experience within reasonable limits.
Electronics, by their nature, generate heat during operation. This is primarily a result of the electrical current flowing through various components, such as integrated circuits, transistors, and other electronic elements. As Plugable products are designed to efficiently process and transfer data (among other functionality), some level of heat generation is inherent.
Factors Influencing Heat Generation:
- Power Consumption: The power consumption of a device directly influences the amount of heat it generates. Higher power usage, especially during data transfer or charging processes, can lead to increased heat.
- Enclosure Design: The design of the product's enclosure and its ability to dissipate heat play a crucial role. Adequate ventilation and heat sinks are often incorporated to manage and disperse generated heat effectively. This is evident in our TBT3-UDZ and TBT4-UDZ designs. The metal case in these docks are designed to function as a heatsink with thermal pads placed throughout the enclosure. This allows heat dissipation from inside to the outside, but will also make it feel as if the device is “too hot”.
- Ambient Temperature: The external environment may also play a role. Higher ambient temperatures can contribute to increased perceived heat from the product. This means that summer temperatures may increase the heat generation of not just Plugable products, but many other electronic devices.
Normal Heat Levels: While it is normal for electronic devices to generate heat, Plugable products are engineered to operate within safe temperature ranges. We conduct rigorous testing to ensure that the heat generated during normal operation falls within industry-standard safety parameters. While not all products are or need to be UL certified, we try to go by UL guidelines for thermal readings. The UL threshold is 77C/170.6F, and we aim for around 71C/160F.
Tips for Users:
- Ventilation: Ensure that Plugable products have sufficient ventilation around them. Avoid placing them in enclosed spaces where heat dissipation may be impeded.
- Usage Patterns: Intensive tasks such as high-speed data transfer or charging multiple devices simultaneously may result in increased heat generation. This is generally normal but may be more noticeable in such scenarios.
- Accessories: A number of our devices will allow for the connection of USB accessories and as such, these will require power. If too many “power-hungry” devices are connected, this will cause the device to run much hotter than expected. Be sure to keep in mind the power limits of your dock/device.
In conclusion, experiencing heat from Plugable products is a normal aspect of their operation. Users can rest assured that we prioritize the safety and efficiency of our devices. By understanding the factors influencing heat generation and following simple usage guidelines, users can make the most of their Plugable products while ensuring a reliable and efficient user experience.
