Are you still typing away on a cheap rubber dome keyboard? If so, you might be missing out on the satisfying and
efficient experience of using a mechanical keyboard. I鈥檝e been using my own homemade mechanical keyboard for
years now, and I can鈥檛 imagine going back. Furthermore, the 60% size is perfect for keeping my mouse close
and reducing unnecessary hand movements, but the sound can be a drawback. That鈥檚 why I鈥檝e spent some time exploring
quieter options that still deliver the tactile response I love. Keep reading to learn more about how I build a much
quieter mechanical keyboard.

What makes mechanical keyboards loud?

What sets mechanical keyboards apart from their rubber dome counterparts is the use of individual switches for each key.
These switches consist of a spring and a stem that, when pressed, complete an electrical circuit and register the
keystroke. The result is a tactile and audible response that helps you know when a key has been successfully pressed.
Additionally, extra is noise created by the stabilizers under larger keys such as the spacebar and the shift key. These
stabilizers are necessary to ensure that these keys depress evenly from all sides, but they add extra
components that can rattle.

Picking the right components to avoid noise

Silent switches can significantly reduce the sound of key presses without sacrificing the tactile feedback. Another
option is to switch to an ortholinear keyboard, which uses a grid layout that eliminates the need for stabilizers
as there are no large keys. This design also allows for a more ergonomic typing experience, as your fingers move
less to reach different keys. Adding O-rings to the keycaps or foam padding to the case can further dampen the sound
of the switches and stabilizers. By combining these methods, you can achieve a nearly silent typing experience
that won鈥檛 disturb your coworkers or housemates.

The Parts

  • ID75 Hot Swappable PCB with aluminum backplate
  • Outemu Silent Lemon Tactile Switches (You鈥檒l need 75 + a few spare ones just in case)
  • Foam padding to add between backplate and pcb
  • A set of XDA profile keycaps
  • Rubber O-rings to put on the keycaps (75, one for each keycap)
  • A case you like (most 60% cases will work with the ID75 but might need some modification)
  • A keycap puller and a switch puller (usually included with a keycaps and switches respectively)

All parts (except the rubber O-rings) are shown above, the foam padding intended to be used below the pcb however wasn鈥檛
a good fit with the case and ultimately wasn鈥檛 used. The standard 60% case did require some standoffs to be
removed and a bit of plastic that was pushing the ID75鈥檚 reset button to be trimmed.

Note that with XDA profile switches there are no differences between keys on different rows of the keyboard. They are
all identical in shape. Having all caps in the same shape allows you to get a bit creative where you put which keys,
without having to worry about the keys being the right shape.

The build

As this board is hot swappable, switches can simply be pushed in, no soldering required. Simply put a few switches in
the correct orientation in the corners of the backplate, put the foam in the right position, snap this into the pcb and
start pushing in more switches. Do make sure that the pins of the switches are nice and straight! If they are misaligned
you will bend them beyond repair and the switch will be unusable with hot swappable pcb. Or worse, you might damage the
socket on the pcb. Be careful and make sure you have a few spare switches.

Once all switches are in place, connect the board and test if all switches are functioning. If not, use the switch puller
to pull that switch from the keyboard and install another one.

The layout

The combination of XDA profile keycaps and an ortholinear board allow you to put any key anywhere on the board. So any
layout can be achieved. While it seems most adhere to a layout similar to qwerty (which I would recommend not to unlearn
typing on a normal keyboard and run into issues when using a laptop), even there you have multiple options. Once you
have decided which layout to try, you can map the keys using the VIA software. This is a straightforward process that
won鈥檛 pose much of a challenge if you made it up to this point. Use this json file
if you want to have the same layout I鈥檝e landed on.

How loud is it?

In the absence of a proper decibel meter, I had to rely on an app on my cell phone to make an objective measurement of
the sound level. Although I do not expect it to be highly accurate, the measurements should be comparable and
indicative of the relative loudness of different keyboards. To conduct the test, I simply placed the phone running the app next
to the keyboard and typed on keybr.com at a moderate speed for a minute. This ensured
that I would be typing at roughly the same speed on each keyboard. The results were astounding – the difference
in sound level between the keyboards was remarkable!

Keyboard Average Peak
My old mechanical keyboard 30.4 dB 56.9 dB
Cheap rubber dome keyboard 25.0 dB 42.7 dB
Logitech K400 21.5 dB 39.5 dB
Silent mechanical keyboard 20.3 dB 32.0 dB

This keyboard build is impressively quiet, emitting 10 decibels less noise than the average keyboard. Compared to a
typical mechanical keyboard that emits over 20 decibels, the difference is quite significant. It鈥檚 the ideal solution
for those who want to type away without disturbing their coworkers or loved ones, or for those who simply prefer a
quieter typing experience.

Conclusion

Building a quiet mechanical keyboard is absolutely doable and the results speak for themselves. The tactile
feedback of a mechanical keyboard remain, but the sound is drastically reduced. When done right,
it鈥檚 even possible to build a keyboard that鈥檚 quieter than rubber dome keyboards while providing a much more satisfying
typing experience.

Update: Changed the layout a little, using my thumb for backspace wasn鈥檛 working and the RGB controls are now
better. The updated json file is available for download.


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