ROCCAT Unveils KHAN PRO Gaming Headset
World's First Hi-Res-Certified Gaming Headset
During ChinaJoy Expo 2017 in Shanghai, ROCCAT unveiled their newest stereo gaming headset, the Khan Pro. This is the World’s first Hi-Res-Certified gaming headset with Real-Voice-Mic, the most natural sounding microphone.
The Khan Pro delivers unheard of sound clarity, the first gaming headset in the world granted the “Hi-Res-Audio” certificate, given only to the very best audio products on the market. Thanks to the new ROCCAT Khan Pro, the player can hear and locate any opponent long before they ever come in sight. With a broad frequency range between 20Hz and 40kHz, the Khan Pro boasts deep bass, rich mids and clear highs, enabling gamers to pinpoint sound and location with ease in the heat of play. The Khan Pro makes every gamer a winner.
ROCCAT’s Khan Pro also features a “Real-Voice-Mic”, offering the most natural voice transmission deliverable in a gaming headset. The microphone of the Khan Pro can pick up lower frequencies than other competitors in its class, ranging from just 100Hz to 10kHz. This expanded spectrum makes the human voice sound as natural as possible on a gaming headset, optimizing team communication like never before, ensuring commands and callouts are crystal clear.
The low weight of the Khan Pro in combination with its memory foam ear pads make it the perfect partner for long play sessions. It doesn’t matter if you’re racing for a World First Kill in World of Warcraft or the Global Elite in Counter-Strike: Global Offensive – it will never get uncomfortable no matter the duration of play. The Khan Pro is the choice for ambitious esport gamers and all those who aspire to become a better player in general. Play like a pro – with the ROCCAT Khan Pro.
ROCCAT’s Khan Pro will be available on all channels in October, at the retail price of $99.99.
ROCCAT Khan Pro Technical Specifications
|Weight (Headset Only)||230 grams|
|Cable Length||2.45 meters|
|Jack Plug||Dual Plug 3.5 mm (3-pin)|
|Measured Frequency Response||10 – 40,000 Hz|
|THD% @ 1kHz||1%|
|Sensitivity at 1kHz||-40 dB|
|Signal-to-Noise Ratio||60 dB|
|THD% @ 1kHz||2%|