Hollyland LARK M1 DUO Wireless
Hollyland Lark M1 Microphone Lavalier 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.
Lark M1 Lavalier microphone comes with a charging case to ensure non-stop battery life all day long. M1 microphone transmitter and receiver have a Type-C interface that supports working while charging at the same time. You no longer have to worry about low battery situations.
Key Features
- Wireless Connectivity:
- The “DUO” in the product name suggests a dual-channel or two-channel wireless microphone system. This allows for the simultaneous use of two microphones, which can be beneficial for interviews, dual-mic setups, or other scenarios where multiple audio sources are needed.
- Frequency Band:
- The system likely operates on a specific frequency band, and it could be in the 2.4 GHz range, which is common for wireless audio transmission. The 2.4 GHz band is generally used for its stability and widespread availability.
- Compatibility:
- The LARK M1 DUO Wireless system may be designed for compatibility with various devices, such as cameras, smartphones, or audio recorders. It’s important to check the supported devices and connectivity options.
- Microphone Type:
- Depending on the specific model, the system might include lavalier (lapel) microphones, handheld microphones, or a combination of both. This allows flexibility in choosing the microphone type based on the recording scenario.
- Hollyland Brand:
- Hollyland is known for producing wireless audio and video transmission equipment. Their products are often used in the filmmaking, content creation, and broadcasting industries.
- Range and Reliability:
- Wireless microphone systems typically mention their effective operating range. This range can vary based on environmental conditions and interference, so it’s essential to understand the practical limitations.