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MelGeek MADE68 Ultra+ Hall Effect Keyboard Keyboard

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MelGeek MADE68 Ultra+ Hall Effect Keyboard Keyboard

MelGeek MADE68 Ultra+ Hall Effect Keyboard Keyboard

A compact Hall-Effect gaming keyboard designed for environments that depend on rapid transitions and repeated state changes uses its magnetic switch architecture to provide adjustable actuation behavior suited to short-interval key inputs. The keyboard operates on an 8000 Hz polling rate with a corresponding 0.01 mm rapid-trigger sensitivity and a measured 0.125 ms latency, forming a high-resolution input pipeline in which scanning frequency and firmware timing work to maintain signal consistency during continuous directional updates common in FPS movement models. A gasket-damped internal structure and a rigid metal chassis support key-travel consistency under sustained use, while the wired signal path and the self-developed HIVE driver maintain a stable communication link that preserves the integrity of the input signal across the full keystroke path without introducing wireless variability.

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From $59.70

Original: $199.00

-70%
MelGeek MADE68 Ultra+ Hall Effect Keyboard Keyboard

$199.00

$59.70

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Description

A compact Hall-Effect gaming keyboard designed for environments that depend on rapid transitions and repeated state changes uses its magnetic switch architecture to provide adjustable actuation behavior suited to short-interval key inputs. The keyboard operates on an 8000 Hz polling rate with a corresponding 0.01 mm rapid-trigger sensitivity and a measured 0.125 ms latency, forming a high-resolution input pipeline in which scanning frequency and firmware timing work to maintain signal consistency during continuous directional updates common in FPS movement models. A gasket-damped internal structure and a rigid metal chassis support key-travel consistency under sustained use, while the wired signal path and the self-developed HIVE driver maintain a stable communication link that preserves the integrity of the input signal across the full keystroke path without introducing wireless variability.