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With the introduction of USB-C/Thunderbolt 3 and the new MacBook Pro models in late 2016 came the promise of plugging in a single connection to power your entire desktop. Power, displays and every peripheral all flowing through one plug, simplifying everything to a single standard has been a dream since the earliest days of the PC and now its here – kinda. What many early adopters found out, and what new users continue to discover, is that getting the connection of the future to work with the equipment of the present is. It’s a world full of adapters, cables, docks and dongles to do what you need, and ultimately, most fall short of that single cable promise.

Of all the confusion surrounding USB-C/Thunderbolt 3, the issues causing the most consternation is the connection of external displays. With half a dozen existing common display connection standards and the wave of next generation USB-C and Thunderbolt 3 displays getting thrown into the mix makes it difficult to sift through all of the conflicting information. We created this guide specifically for users of USB-C/Thunderbolt 3 MacBooks to take the guesswork and confusion out of running external displays with their new computers. Some notes before we get started -. USB-C and Thunderbolt 3 plugs and receptacles look identical, but they are not fully interchangeable. In general, a Thunderbolt 3 connection can downgrade to USB-C, but USB-C cannot become Thunderbolt 3.

The USB-C to USB Adapter lets you connect iOS devices and many of your standard USB accessories to a USB-C or Thunderbolt 3 (USB-C) enabled Mac. Plug the USB-C end of the adapter into a USB-C or Thunderbolt 3 (USB-C) port on your Mac, and then connect your flash drive, camera,. I just bought the new MacBook with the usb c input. I use an audio mixer that outputs through a 6-pin FireWire cable. I have the usb c to standard usb adapter. USB-C is a new user-friendly reversible connector that allows you to connect your cable to your device in any direction. USB POWER DELIVERY USB Power Delivery, or USB-PD, is a charging protocol that uses high speed USB-C connecters and cables.

For the purposes of this guide we’re going to refer to the USB-C/Thunderbolt 3 ports found on the MacBook Pro models as USB-C ports unless we are talking specifically about Thunderbolt 3 capabilities. “Docking station” can refer to several different types of devices. Henge Docks refers to a stand-alone docking station that connects to a computer via cable as a “tethered docking station” to differentiate it from our MacBook form-fitting Horizontal and Vertical Docking Stations (more on those solutions can be found under the section). Traditional Displays (HDMI, DisplayPort, DVI, VGA) Traditional Displays use standard such as HDMI, DisplayPort, Mini DisplayPort, DVI or VGA for input.

Many traditional displays support multiple connection standards, but all will require some kind of adapter or new cable to be used directly with the new USB-C Macs. Most buyers of the new USB-C MacBooks are upgrading from older MacBook models that used Mini DisplayPort cables or adapters to connect their external displays. The good news is that Henge Docks USB-C Tethered Docking Station, comes equipped with a Mini DisplayPort connection for this exact reason. If you’re one of the MacBook users upgrading, all you have to do is plug your existing cable or adapter directly into Stone. For more information on connecting single and multiple HDMI, DisplayPort, Mini DisplayPort, DVI or VGA displays to your USB-C MacBook continue reading at. USB-C Displays As the USB-C connection continues to proliferate, more display options are cropping up that support this standard.

The promise of a display that can handle all of your peripheral connections and power your MacBook through a single cable is enticing, but there are some tradeoffs that need to be considered. (In this case, we are specifically talking about the USB-C standard not Thunderbolt 3 displays, which are covered under ) While no adapters or special cables are required to connect these displays to a USB-C equipped MacBook, the single cable solution may fall short for many users. Many USB-C equipped displays currently on the market offer 4K resolutions and refresh rates of 60Hz, but when running at their maximum resolution and refresh rates the USB expansion ports on these displays will degrade to USB 2.0 speeds. This is a limitation of the current USB-C standards. Power delivery is another compromise. Several monitor models currently for sale offer no downstream power and many that do only offer 60W to the computer. This can present a problem for some users that require a full 85W to charge their MacBooks.

In either of these scenarios users may find it necessary to add an additional connection for a dock, hub and/or power adapter. Running dual USB-C monitors off a single connections is problematic. USB-C monitors cannot be daisy chained (plugged into each other) on the Mac platform and therefore have to be plugged directly into the MacBook independently. It is theoretically possible for a Thunderbolt 3 tethered docking station to run dual USB-C displays off of a single plug, but we are not aware of any docks currently on the market with the ports necessary to make this arrangement possible. 5K Displays that connect over Thunderbolt 3 While offering a staggering number of pixels and incredible image quality, the latest 5K Displays are a special breed and require some consideration about their compromises before taking the plunge. Running a 5K display requires refreshing 14.7 million pixels 60 times per second. This requires moving a mind-boggling amount of data over Thunderbolt 3, so much so that a single 5K display consumes most of the bandwidth for that connection, meaning downstream ports from the monitor are limited to USB-C 3.1 Gen1 (no daisy-chaining displays and no Thunderbolt 3 out).

5K displays are so resource intensive that while 15-inch MacBook Pro models, one display has to be connected to a right side port and the other to a left side port due to limitations of the Thunderbolt 3 chipsets. 13-inch MacBook Pro models are limited to driving. Many 5K displays do offer full 85W charging for downstream computers. While it is theoretically possible to daisy chain (plug one into the other) two 5K displays off a single connection to a MacBook Pro, each displays’ resolution will be reduced to 4K in order to operate within the bandwidth provided by Thunderbolt 3. The same issue occurs when a 5K display is connected through a Thunderbolt 3 tethered docking station that is driving a second lower resolution (. Apple Thunderbolt Display and Apple Cinema Display The all-aluminum and glass Apple Thunderbolt/Cinema Display remain arguably the most beautifully designed displays ever sold.

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With a timeless design it’s easy to understand why people are so attached to their Apple Displays despite the last Thunderbolt model being discontinued in mid-2016. At this point, we need to differentiate the nearly identical Apple Cinema Display from the Apple Thunderbolt Display because they require entirely different equipment to connect to MacBooks with USB-C/Thunderbolt 3. Apple Thunderbolt Display The Thunderbolt Display was sold from mid-2011 through mid-2016.

The distinguishing features for this model are two connections coming off the monitor to the computer (MagSafe and Thunderbolt) and six ports on the rear of the display (Thunderbolt, 3x USB, FireWire 800 and Ethernet). The simplest way to connect an Apple Thunderbolt Display to your USB-C/Thunderbolt 3 MacBook Pro is with. However, the Thunderbolt Display does not provide power through the adapter so you’ll need to plug in a USB-C power supply separately.

Some users also find the presence of the now unused MagSafe connector on their desk undesirable. The only way. to connect an Apple Thunderbolt Display and power to your USB-C/Thunderbolt 3 MacBook Pro with a single plug is through certain types of Thunderbolt 3 tethered docking stations.

This arrangement requires that the Thunderbolt 3 docking station deliver 60W of power (85W for 15-inch MacBook Pro models) and a second, downstream Thunderbolt 3 port to accommodate Thunderbolt 3 to Thunderbolt 2 Adapter. There are no Thunderbolt 3 tethered docking stations on the market with an integrated Thunderbolt 2 port. Running dual external displays with a Thunderbolt Display in the mix can get tricky. Thunderbolt Displays can be daisy-chained to other Thunderbolt Displays or Thunderbolt 1 or 2 devices, but other types of displays (HDMI, DisplayPort, etc.) cannot be connected directly to a Thunderbolt Display.

In order to run another type of external display off a Thunderbolt Display a Thunderbolt 1 or 2 docking station must be placed between the two. Alternatively, a Thunderbolt 3 tethered docking station can be connected to a USB-C/Thunderbolt 3 MacBook Pro and used to drive both the Thunderbolt Display and the traditional display (HDMI, DisplayPort, etc.). The Thunderbolt Display would require the addition of a Thunderbolt 3 to Thunderbolt 2 Adapter to connect to the Thunderbolt 3 tethered docking station. Shameless plug (pun intended) - Henge Docks for the USB-C/Thunderbolt 3 MacBook Pro supports the Apple Thunderbolt 2 to Thunderbolt 3 Adapter and a connection to a USB-C power supply, without the addition of a Thunderbolt 3 tethered docking station. Step 2: Identify your ideal setup Model Ports Max External Displays ≤ 4K Max External 5K Displays Max Power Requirement 12-inch MacBook USB-C (1x) 1 - 29W 13-inch MacBook Pro (no Touch Bar) Thunderbolt 3 (USB-C) (2x) 2 1 61W 13-inch MacBook Pro with Touch Bar Thunderbolt 3 (USB-C) (4x) 2 1 61W 15-inch MacBook Pro with Touch Bar Thunderbolt 3 (USB-C) (4x) 4 2 (left side/right side) 87W Now that you’ve identified the type of display you’ll be running the next step is finding the setup that best suits your needs. Depending on whether you're just trying to get everything on your desk hooked up or run multiple displays, charging and peripherals off of a single connection or integrate everything into a docking station cost and complexity can vary greatly. This step is broken into three sections -,.

If you already know what you’re ideal setup looks like jump to that section below. For a full rundown of the capabilities and compromises of each configuration option we recommend reading through each section in the order they are presented. Multiple Cables, Single or Multiple External Displays Using multiple USB-C connections plugged directly into your MacBook is probably the most conceptually simple and least expensive option for some users, albeit not a particularly elegant or convenient one. Connecting an Apple USB-C power supply, a USB-C to USB-A hub or converter for peripherals and accommodating multiple USB-C display adapters to your MacBook every time you sit down at your desk is a cumbersome process. In addition to the desktop clutter, multiple cables is not an option for 12-inch MacBook users and may not be an option for 13-inch MacBook Pro (no Touch Bar) users due to single and dual USB-C ports available ports. For those users, skip to the section.

Supporting a multiple cable setup is a matter of identifying and locating the appropriate adapter for your monitor. For example a 4K monitor equipped with HDMI would be connected with. To support dual external displays, simply add a second display adapter and plug it into the computer.

Single Cable, Single External Display In addition to delivering power and data connections to a MacBook, a USB-C connection can support a single display with maximum resolution of 4K at 30Hz (4K at 60Hz is possible but data speed drop from USB 3.0 to USB 2.0 speeds). Solutions typically come in two forms: dongles and tethered docking stations. Dongles like Apple’s offer data and power a la carte with an HDMI or, but offer limited port expansion in favor of portability. Tethered USB-C docking stations, such as, offer extensive port expansion options and integrated power delivery to charge the MacBook, in addition to supporting an external display. Additionally, Henge Docks USB-C Tethered Docking Station, comes equipped with a Mini DisplayPort connection for direct compatibility with the Apple LED Cinema Display and upgrading customers’ existing Mini DisplayPort adapters.

Single Cable, Dual External Displays The only Apple supported method for running two traditional external displays (HDMI, DisplayPort, Mini DisplayPort, DVI or VGA), in addition to power and data, with a single connection to a MacBook is by using specific models of Thunderbolt 3 tethered docking stations. Some lower-end Thunderbolt 3 docks, such as the, do not supply power to the MacBook and cannot be a true single cable solution for a dual external display setup. For higher end Thunderbolt 3 tethered docks that do power the MacBook, such as the, dual external traditional display support comes in the form of a video-out port such as HDMI or DisplayPort and a downstream Thunderbolt 3 port on the dock. The downstream Thunderbolt 3 port on the dock requires a USB-C display adapter, such as, to run the second display.

This prevents users from daisy-chaining additional Thunderbolt devices off of the dock, but allows the support of dual external displays running at 4K 60Hz. Cost is the biggest consideration when running a dual display setup off of a single connection to the MacBook.

Expect to pay $300-$350 for a Thunderbolt 3 tethered docking station plus another $20-$30 for a USB-C display adapter for the second monitor. Docking Stations In addition to the, Henge Docks created the and upcoming Horizontal Docking Station to make connecting a USB-C/Thunderbolt 3 MacBook Pro to a desktop setup as easy as possible. These form-fitting docking stations do away with cable clutter by automatically connecting directly to the MacBook’s ports when the computer is inserted into the dock - instead of the user plugging in each cable by hand.

Because of this unique design the docks not only make moving from desktop to mobile exceptionally easy they also resolve many of the connectivity compromises listed above. The Vertical Docking Station interfaces with the two left-side USB-C/Thunderbolt 3 ports found on MacBook Pro models allowing any devices that can be plugged into the MacBook to connected directly to the dock.

Because the Vertical Dock offers two ports multiple cables can be used with no convenience trade off for the user, reducing costs and simplifying the setup process. In the simplest setup, with a single external display and a wireless keyboard/mouse, no additional cables would be required. The external display and power supply for the computer would be connected to the rear of the dock. Then a user would simply place their MacBook Pro into the Vertical Dock, making all of the connections in a single action. To run dual external displays Apple’s could be connected along side to provide a USB-A connection for a wired keyboard/mouse, power and dual 4K HDMI connections.

This arrangement would cost an end user around $250 less than accomplishing the same connections over a single cable with Thunderbolt 3. In the same example, Henge Docks could replace the Multiport Adapter for users looking for dual display support and additional port expansion. This arrangement would add dual 4K display support and eight expansion ports (ethernet, SD card, three USB Type-A, one USB-C, audio and power) for about $150 less than a single cable setup with the same capabilities. If you have any questions or comments, please reach out to us at.

USB-C is the emerging standard for charging and transferring data. Right now, it’s included in devices like the newest laptops, phones, and tablets and—given time—it’ll spread to pretty much everything that currently uses the older, larger USB connector. USB-C features a new, smaller connector shape that’s reversible so it’s easier to plug in. USB-C cables can carry significantly more power, so they can be used to charge larger devices like laptops. They also offer up to double the transfer speed of USB 3 at 10 Gbps. While connectors are not backwards compatible, the standards are, so adapters can be used with older devices.

Though the specifications for USB-C were first published in 2014, it’s really just in the last year that the technology has caught on. It’s now shaping up to be a real replacement for not only older USB standards, but also other standards like Thunderbolt and DisplayPort.

Testing is even in the works to deliver a new USB audio standard using USB-C as a potential replacement for the 3.5mm audio jack. USB-C is closely intertwined with other new standards, as well—like USB 3.1 for faster speeds and USB Power Delivery for improved power-delivery over USB connections. Type-C Features a New Connector Shape USB Type-C has a new, tiny physical connector—roughly the size of a micro USB connector. The USB-C connector itself can support various exciting new USB standard like USB 3.1 and USB power delivery (USB PD). The standard USB connector you’re most familiar with is USB Type-A.

To Usb C Type For Mac Adapter

Even as we’ve moved from USB 1 to USB 2 and on to modern USB 3 devices, that connector has stayed the same. It’s as massive as ever, and it only plugs in one way (which is obviously never the way you try to plug it in the first time). But as devices became smaller and thinner, those massive USB ports just didn’t fit. This gave rise to lots of other USB connector shapes like the “micro” and “mini” connectors. This awkward collection of differently-shaped connectors for different-size devices is finally coming to a close. USB Type-C offers a new connector standard that’s very small. It’s about a third the size of an old USB Type-A plug.

This is a single connector standard that every device should be able to use. You’ll just need a single cable, whether you’re connecting an external hard drive to your laptop or charging your smartphone from a USB charger. That one tiny connector is small enough to fit into a super-thin mobile device, but also powerful enough to connect all the peripherals you want to your laptop. The cable itself has USB Type-C connectors at both ends—it’s all one connector. USB-C provides plenty to like.

It’s reversible, so you’ll no longer have to flip the connector around a minimum of three times looking for the correct orientation. It’s a single USB connector shape that all devices should adopt, so you won’t have to keep loads of different USB cables with different connector shapes for your various devices. And you’ll have no more massive ports taking up an unnecessary amount of room on ever-thinner devices. USB Type-C ports can also support a variety of different protocols using “alternate modes,” which allows you to have adapters that can output HDMI, VGA, DisplayPort, or other types of connections from that single USB port. Is a good example of this, offering an adapter that allows you to connect an HDMI, VGA, larger USB Type-A connectors, and smaller USB Type-C connector via a single port. The mess of USB, HDMI, DisplayPort, VGA, and power ports on typical laptops can be streamlined into a single type of port. USB-C, USB PD, and Power Delivery The USB PD specification is also closely intertwined with USB Type-C.

Currently, a USB 2.0 connection provides up to 2.5 watts of power—enough to charge your phone or tablet, but that’s about it. The USB PD specification supported by USB-C ups this power delivery to 100 watts. It’s bi-directional, so a device can either send or receive power. And this power can be transferred at the same time the device is transmitting data across the connection.

This kind of power delivery could even let you charge a laptop, which usually requires up to about 60 watts. And both use their USB-C ports as their charging ports.

USB-C could spell the end of all those proprietary laptop charging cables, with everything. You could even charge your laptop from one of those you charge your smartphones and other portable devices from today. You could plug your laptop into an external display connected to a power cable, and that external display would charge your laptop as you used it as an external display — all via the one little USB Type-C connection. There is one catch, though—at least at the moment. Just because a device or cable supports USB-C does necessarily mean it also supports USB PD.

So, you’ll need to make sure that the devices and cables you buy support both USB-C and USB PD. USB-C, USB 3.1, and Transfer Rates RELATED: USB 3.1 is a new USB standard. ‘s theoretical bandwidth is 5 Gbps, while USB 3.1’s is 10 Gbps. That’s double the bandwidth—as fast as a first-generation Thunderbolt connector.

USB Type-C isn’t the same thing as USB 3.1, though. USB Type-C is just a connector shape, and the underlying technology could just be USB 2 or USB 3.0. In fact, Nokia’s N1 Android tablet uses a USB Type-C connector, but underneath it’s all USB 2.0—not even USB 3.0. However, these technologies are closely related. When buying devices, you’ll just need to keep your eye on the details and make sure you’re buying devices (and cables) that support USB 3.1. Backwards Compatability The physical USB-C connector isn’t backwards compatible, but the underlying USB standard is. You can’t plug older USB devices into a modern, tiny USB-C port, nor can you connect a USB-C connector into an older, larger USB port.

But that doesn’t mean you have to discard all your old peripherals. USB 3.1 is still backwards-compatible with older versions of USB, so you just need a physical adapter with a USB-C connector on one end and a larger, older-style USB port on the other end. You can then plug your older devices directly into a USB Type-C port. Realistically, many computers will have both USB Type-C ports and larger USB Type-A ports for the immediate future—like Google’s Chromebook Pixel. You’ll be able to slowly transition from your old devices, getting new peripherals with USB Type-C connectors. Even if you get a computer with only USB Type-C ports, like Apple’s new MacBook, adapters and hubs will fill the gap. USB Type-C is a worthy upgrade.

It’s making waves on the newer MacBooks and some mobile devices, but it’s not an Apple- or mobile-only technology. As time goes on, USB-C will appear in more and more devices of all types. USB-C may even replace the Lightning connector on Apple’s iPhones and iPads one day. Lightning doesn’t have many advantages over USB Type-C besides being a proprietary standard Apple can charge licensing fees for. Imagine a day when your Android-using friends need a charge and you don’t have to give the sorrowful “Sorry, I’ve just got an iPhone charger” line! Image Credit:,.