The Hollyland LARK M1 wireless lavalier microphone system delivers omnidirectional sounds in excellent, detailed quality in a sleek and compact body. Designed for YouTubers, vloggers, live streamers, or anyone who cares about high-quality audio for videos.
Key Features:
One-click HearClear Noise Cancellation
With all scenarios considered, the HearClear Smart Noise Reduction feature is designed with a switch. Its cutting-edge DSP and revolutionary noise cancellation algorithm deliver high-performance recording quality in virtually any recording environment. You can count on its advanced HearClear feature that filters out surrounding ambient noise for clear voice recordings. By turning this feature off, it provides a richer audio ambience for a real-life effect.
Ultra-Mini Lightweigh Design
The M1 is truly compact weighing in at only 11.8g and <1cm in thickness. This compact mic is light enough to snap on virtually anyone's collar. Each TX, RX, and charging case unit has a USB-C port for direct charging.
Powerful Self-Adaptability for Professional Results
The M1 features a powerful self-adaptive audio processing algorithm that manages and simplifies its operation for easily achieving professional results every time. Ready to use directly from the charging case, its intelligent device identification auto-adjusts mobile and camera volume settings, with no need for tedious manual settings.
3-Level Volume Preset
The setting is made easy and quick with a simple High-Mid-Low volume preset. Choose the volume level according to the actual recording environment or, in some cases, the sound effect you desire.
HiFi Sound Quality, Rich Audio Details
Adopting LC3 Codec Technology, Lark M1 has an enhanced sampling rate of up to 48kHz/16bit, so its omnidirectional mic is able to record vocal range sounds with incredibly rich details.
200m LOS Wireless Range
Easily achieve a professional uninterrupted recording result with the M1's interference-free open space distances of up to 200m (LOS - lab test results) and its exclusive auto frequency hopping technology.
