Corsair is a company that originally built its reputation on memory-related products, but they have long since diversified and established a significant presence in several other market segments over the past couple of decades, turning them into a globally renowned colossus of PC components and peripherals. Today, Corsair produces dozens of PC-related products, from RAM modules to CPU coolers and from headphones to chairs.

One of their most successful product segments outside of their memory roots has been advanced gaming keyboards. The company was one of the first and most enthusiastic developers of modern, consumer-focused mechanical keyboards. Their exclusive deals with Cherry, the most reputable manufacturer of mechanical key switches, allowed Corsair to slightly outpace their competition.

Over the last several years, innovation surrounding the PC keyboard market has been somewhat stagnant. There were hundreds of mechanical keyboards in the market but, aside from aesthetic improvements, we have seen very few advancements over the last few years. Most manufacturers were staying true to established solutions, developing keyboards with the same electronics and mechanical switches as the majority of their competitors, then basing the competitiveness of their keyboards on aesthetics, software, and value/price. So the market for mechanical keyboards is ripe for a shakeup – or at least a more significant advancement than we've seen in the past few years.

For today's review we are taking a look at Corsair’s latest gaming keyboard, the K100 RGB. As its name suggests, it is the successor to the renowned K95 RGB, one of the better – and most expensive – gaming keyboards Corsair has ever released. And for this successor, Corsair isn't just putting on a new coat of paint and releasing the keyboard anew. Instead, the K100 RGB features new opto-mechanical switches and completely new electronics, making it a one-of-a-kind keyboard in today’s commodify keyboard market.

Packaging and bundle

We received the K100 RGB Gaming keyboard in a thick, sturdy cardboard box. The artwork is dark with yellow accents and aesthetically focused on a picture of the keyboard itself, following the same theme as the rest of Corsair’s peripherals lineup.

Inside the box, we found a basic manual and warranty leaflets, two sets of textured keycaps, and a plastic keycap puller. The extra ten keycaps are grey and have contoured, textured top surfaces that are supposed to assist tactile feedback while gaming. The first set is for FPS gamers and the second for MOBA gamers. Both sets are correspondingly contoured and textured. As a result, two keycaps, the W and the D, exist in both sets but have different contours.

Corsair supplies a full-size wrist rest with the K100 RGB, with the company taking a much different approach than with any other keyboard they released to this date. The wrist rest is now padded, with a very soft textured synthetic fabric covering, and is magnetically attached to the keyboard. This magnetic coupling makes the insertion and removal of the wrist rest a seamless, split-second process, but is not strong enough for the wrist rest to stay in place if the keyboard is lifted or moved harshly. Its soft padded top is much more comfortable than most wrist rests that we have tried to this date but also is more susceptible to permanent damage, much like the scars our sample received during transport.

 

 

The Corsair K100 RGB Optical-Mechanical Gaming Keyboard

Corsair’s latest K100 RGB is similar to the K95 RGB Platinum that the company released a couple of years ago, at least as far as its size and number of macro keys are concerned. It is not externally identical to the older K95 RGB Platinum, but it is based on the same aesthetic design, featuring an anodized brushed aluminum chassis and having the keys attached directly to it, creating a floating keycaps effect. This design makes it very simple to clean, as a simple blow would remove most debris from the aluminum surface of the keyboard.

Most of the keyboard remains visually the same. Corsair’s backlit logo is still at the top of the chassis, on a highly glossy strip. The designer also placed the indicator LEDs on that strip, which are completely hidden while the keyboard is unpowered. Even when the indicator lights are on, their lights are so subtle that will never catch anyone’s attention if they're not looking for them.

  

 

The Corsair K100 RGB Optical-Mechanical is based on a standard 104 keys keyboard, but expanded with a six additional keys to the left. In a bold move, Corsair made the K100 RGB compliant with the standard ANSI layout, something they have not done for any of their mechanical keyboards in the past. The bottom row of the keyboard has a 6.5× Spacebar and seven 1.25× keys (ALT, CTRL, WIN/Menu, and Fn keys) bottom row keys. The PBT keycaps have large, futuristic characters printed on them. Both the primary and secondary characters are found at the top of the keycap, as the designer wanted to take full advantage of the keyboard’s LED lighting. The six G keys to the left of the main keyboard are grey and contoured, yet not textured like the extra ten keycaps that Corsair supplies for gaming.

A metallic volume control wheel and a mute button can still be found at the right top side of the keyboard, with additional media buttons between them and the numeric keypad section. The volume control wheel is now wider and firmer, feeling better than every previous version of Corsair’s gaming keyboards.

The major design difference lies at the top left corner of the keyboard, in the form of a second metallic wheel. This second wheel can be used to perform a variety of actions, such as application switching and LED brightness control, selectable via the tactile button in its center and programmable in Corsair’s iCUE software. As we will see while exploring the new options in Corsair’s software, the secondary wheel can dramatically improve the flexibility of the keyboard, be it for productivity or for fun. Two more tactile buttons, one for profile switching and one for locking specific keys, can be seen on either side of the rotary wheel.

Beneath the keycaps we find Corsair’s latest OPX Optical-Mechanical switches. These switches are not mechanical switches that Corsair fiddled with in order to change their mechanical properties – these are optical switches that Corsair modified to operate similarly to mechanical switches. The only mechanical part of these switches is the return spring, as there are no electrical contacts at all. This approach eradicates all of the disadvantages that mechanical contacts have, such as debounce and wear, at the expense of tactile feedback that you can completely feel. The OPX switches actuate much faster than any mechanical switch, at just 1 mm below their resting point, and their total travel is also reduced down to 3.2 mm.  It is worthwhile to note that the K100 RGB is also available with Cherry MX Speed switches, for people who prefer the classic tactile feeling.

 

The underside of the K100 RGB is riddled with wire pathways, allowing users to route the wire of a mouse or headset underneath the keyboard. There are four very large anti-skid pads, firmly holding the keyboard still on any surface. The grip of the pads is so strong that the tilt feet are being forced to retract if someone tries to push the keyboard sideways while it is sitting on a desk.

A single USB 2.0 port can be found at the rear of the K100 RGB. Meanwhile, not just one, but two USB connectors can be found at the tail end of the keyboard's connector cable. As it turns out, the keyboard's power requirements technically exceed the capacity of a USB 2.0 port, so if the keyboard isn't hooked up to a more powerful USB 3.0 (or later) port, Corsair needs to pull power from a second port.

That said, the second connector also serves another purpose: driving the USB host port on the keyboard itself. Corsair has opted to implement a full pass-through solution (rather than using an internal USB hub), so the second USB connector needs to be inserted (regardless of power needs) in order to supply a connection to the host port. The final product is a bit trickier than it otherwise needs to be, but such is the case when ensuring the keyboard will be fully backwards-compatible with USB 2.0 hosts.

Opening the K100 RGB Optical-Mechanical keyboard is going to cause permanent visual damage to it, as it was not designed to ever be disassembled by an end user. There are screws beneath the glossy top part of the keyboard that cannot be removed and reinstalled, as well as foam glue on its sides. Regardless, there are practically no serviceable parts inside, as the switches have no contacts and the optical sensors would require an expert to remove/replace them.

On the white PCB, we find the heart of the K100 RGB, an NXP LPC54605J512 microprocessor. The ARM Cortex M4 microprocessor has a frequency of 180 MHz, as well as 512 kB of flash and 200 kB of SRAM embedded to it. This certainly is a much more powerful processor than the ones we are used to seeing in gaming keyboards, but unfortunately it doesn't lend itself to analysis on software level to assess how Corsair’s engineers implemented multi-threading with it.

Software & Quality Testing
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  • emilemil1 - Thursday, November 19, 2020 - link

    This applies to gaming as well. As a MOBA player I want to have my fingers on QWE at all times, and it's not good if that may accidentally cause them to trigger. This was a problem I experienced switching from membrane to a much more sensitive mechanical keyboard, it added wrist strain I never experienced before since I could no longer rest any significant weight on the keys.

    Though I'd imagine since the switches are optical, there should be no problem to configure the sensitivity in software.
    Reply
  • grant3 - Friday, November 20, 2020 - link

    optical switches are still binary (i.e., "on" or "off"), so there is no software sensitivity configuration available. Reply
  • Beaver M. - Monday, November 23, 2020 - link

    Not the ones on the Wooting. Reply
  • Thayios - Thursday, November 19, 2020 - link

    RA handicap here...no issues with this what so ever. Your fingers "learn" the new resistance and how you can still lean on the key but not press it. For people first starting off on it, yeah you'll definitely hit a few keys. Reply
  • grant3 - Friday, November 20, 2020 - link

    The key actuation force almost entirely depends on the keyspring, and not whether the switch is optical or mechanical.

    Probably the author is referring to the fact that optical switches likely have a different actuation *point* on the downstroke. And also probably a different feel, depending on the type of mechanical switch he is used to.

    Virtually no mechanical keyboard out-of-the-box, including this one, will have springs so soft that they actuate the switch when fingers are simply rested on them.

    That said: I have never experienced actuation on chiclet keyboards merely from resting my fingers, so your fingers may be particularly heavy. If you were otherwise interested in this keyboard, I'm virtually certain you could invest a ridiculous amount of time in replacing the springs with stronger ones.
    Reply
  • K_Space - Saturday, November 21, 2020 - link

    +1 grant3.
    I think the OP has assumed (not unreasonably, I might add) that the acutation force correlates with travel disance and therefore the short travel distance in this keyboard correlate with a low acutation force and therefore poor typing experience (caps pressed on the lightest of touches). OP please correct me if I inferred incorrectly.
    But that's true: if you look at the per-key accutation for this keyboard it averages 44.1 cN. That's hardly different than Corsair's own K70 Mechanical keyboard with an averge per-key acutation force of 44.9cN (https://www.anandtech.com/show/10301/corsair-k70-r... so no: resting your fingers on the keys won't trigger an acutation.
    OPX switches are certainly innovative, and the price whilst difficult to chew is certainly justifiable for what is a new design. The question is what will Corsair do next? Release next iterations to the masses or go with a niche route like VR companies? I'd certainly hope for the former, but won't be suprised if the pricing remains obscene.
    Reply
  • K_Space - Saturday, November 21, 2020 - link

    Sorry massive correction: 2nd paragraph should read: But that's NOT* true. Reply
  • FunBunny2 - Monday, November 23, 2020 - link

    "acutation force correlates with travel disance"

    not even close to being true. my beloved IBM Model M is nearly as tough as a mechanical typewriter keyboard to press, and is much shorter than the bottoming necessary on your average rubber dome. so, no.

    the total 'force', somehow measured, viz. pressure X distance may be so. those wafer thin keyboards with scissors type keys...
    Reply
  • K_Space - Tuesday, November 24, 2020 - link

    I actually agree FunBunny... you may have missed my correction on the next message (no edit/correct function as always in AT comments). Those who presume that acutation force correlates with travel disance would be correct if it wasn't for spring constant in Cherry MX keyboards (for the sake of simplicity you can think of it as a spring that modulate the pressure or force exerted on the keycap).
    The primary point of a mechanical keyboard (at least historically) was to be able to acutate the key WITHOUT buttoming out thereby allowing for increasing typing speed - therefore those short travel distances shouldn't be a suprise! In this respect your IBM Model M is seen as the mama of mechanical keyboards with its famous "buckling springs". Those things were loud though!
    Reply
  • FunBunny2 - Wednesday, November 25, 2020 - link

    "In this respect your IBM Model M is seen as the mama of mechanical keyboards with its famous "buckling springs". Those things were loud though! "

    and, oddly enough, when I dove into a schematic I discovered what blew my mind: the keyboard is just a rubber dome (sorta) implementation! the buckling spring actuation drives a lever arm into the dome. the keyset sits over a sheet of contacts. who woudda thunk it? https://en.wikipedia.org/wiki/Buckling_spring
    Reply

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