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Das läuft falsch bei Mikrofonen von Gaming-Headsets

The microphone is the key feature that separates a gaming headset from a pair of headphones, so why are the majority of them such a disappointment? For years gaming headsets have under delivered on performance, constantly lowering gamers’ expectations as they settle for mediocre communication clarity and volume.


If you’ve spent more than fifty bucks on a gaming headset you would expect a quality microphone solution. The marketing materials may tell you that their microphone is “crystal-clear” or “noise-canceling”, but they fail to deliver the performance to back up those claims. The fact is that almost every gaming headset you’ve bought has had the same type of microphone - typically unidirectional, sometimes omnidirectional. And no matter how much software, filters or positioning of that microphone you tweak, it won’t change the very basic fact that they still sound awful.

The epiphany for us was to start with the hardware.

Arctis bidirectional mic image

A bidirectional microphone only picks up audio from the front and the back in a hyper-localized space

In most audio industries outside of gaming a "noise canceling" microphone typically refers to a bidirectional microphone design (not unidirectional!), as only this type is considered to be truly noise canceling.

When people hear the term noise cancelling it can be confused with active noise cancelling headphones which require batteries, circuitry, processing and multiple microphones - that’s not exactly right. What noise cancelling means for microphones is really acoustic noise rejection. A microphone does not actively cancel out noise, it actually rejects noise from particular locations based on the type of pick-up pattern a microphone has. In this case, a bidirectional microphone picks up noise from the front in a very tight pattern and rejects noise from its sides. When you think about it, where is all of your unwanted noise coming from? Yep, from the sides! This is why we chose a bidirectional microphone for the Arctis ClearCast mic.

Arctis input and sound graph

How a bidirectional mic really works can be broken down into two parts:

The pickup pattern

A bidirectional microphone only picks up audio from the front and the back in a hyper-localized space - between 2-8 inches away, rejecting sounds that come from outside this very narrow field.

The Proximity Effect

A bidirectional mic has a boosted proximity effect when compared to a unidirectional mic, which makes this noise canceling effect far more pronounced. This is how a hardware-driven noise cancellation system works.

Photograph of Navy air craft carrier and broadcast micFoto: U.S. Navy by Photographer's Mate Airman Ricardo J. Reyes

What is Proximity Effect and how does it impact the mic: Proximity effect is a characteristic of directional microphones where sounds that are close to the mic (in proximity) benefit from a boost to the low frequencies. This gives your voice that rich quality that you hear from radio broadcasters, but it also plays a key role in noise cancellation.

Only acoustic sources very close to the mic (aka your mouth) benefit from the proximity effect. Any sounds in the background 8 inches or more from the mic do not. Most background noises like fans, trains, and people talking are low frequency in nature, and so to the microphone, these background noises "appear" lower in level because they are not experiencing the proximity effect, essentially giving your voice a boost over any noises that might be surrounding you.

That’s why musicians always seem to be eating their mics – holding them close so that their voice has an advantage over a screaming crowd. This is also why the positioning of a bidirectional microphone is important - the closer the better.

How do you get the best performing gaming headset microphone? By asking the fundamental question at the start - how? It forced us to start from the source - the hardware. Everything after that simply boosts the performance or enhances its noise-cancelling properties. The Arctis ClearCast is now the benchmark in true noise-cancelling headset microphones.

SteelSeries Engine 3 Arctis device window image

The Arctis ClearCast Mic doesn't rely on software, however, we’re SteelSeries and we believe if you can offer something even with a little added benefit why not do it. The noise cancellation software feature in SteelSeries Engine simply enhances the acoustic noise isolation of the Arctis by further reducing any steady noises (think of things like fans, motors, hum) that do get picked up by the mic. the acoustic noise isolation of the Arctis ClearCast microphone is exceptional.

A snapshot of how the SteelSeries ClearCast microphone works

  1. The Arctis’s ClearCast microphone captures audio – like a laser – straight from your mouth, and from nowhere else, providing natural noise cancellation.
  2. Because of this, it doesn’t need any software to be a noise cancelling microphone.
  3. Thanks to the Proximity Effect your voice will sound richer, louder, and more defined.

Why call it ClearCast?

Broadcast microphones pick-up and reproduce a very wide range of frequencies, especially the high frequencies. This range gives these mics a very pleasant and natural sound. We engineered the Arctis mic to have an extended high frequency response that aligns more closely with broadcast microphones than with gaming microphones. This is where the name ClearCast derives from - clear, broadcast-level microphone.