Offering lower noise, higher sensitivity, and more adjustable settings than the VideoMic, the Rode VideoMic Pro camera-mount shotgun microphone is ideal for mobile journalists, vloggers, budget filmmakers, and run-and-gun shooters looking for a cost-effective way to step up to the next level in quality.
A single 9V battery provides up to 70 hours of run time and an LED turns red to indicate low-battery status. Adjustable gain and a selectable bass roll-off make it easy to optimize the level and tone of your recording for a range of scenarios.
This compact and lightweight shotgun microphone features an integrated shockmount that mounts directly to your camera or boompole and reduces noise from various vibrations. The windscreen design reduces wind noise, making it well suited for outdoor shoots. The attached 3.5mm TRS cable ensures easy hookup to your camera, and the dual-mono output means that no channel selection is necessary on your recording device.
Shotgun Mic with Directional Sound Pickup
Whereas most built-in camera microphones pick up sound from all directions, this microphone utilizes a supercardioid polar pattern to focus on sound in front of it while attenuating sound from the sides and rear. Its low-noise electronics and sensitive condenser element deliver more detailed audio than the mics typically found in cameras and portable recorders.
Easy Hookup to Camera
A straight 3.5mm cable is permanently attached to the mic for fast hookup to your camera. The cable’s 3.5mm TRS plug is wired in a dual-mono configuration, ensuring that the mic signal is sent identically to both input channels of your camera or portable recorder.
Long Battery Life
Pop a 9V battery in the VideoMic Pro for up to 70 hours of operating time. The dedicated power LED changes from green to red when the battery should be replaced. The VideoMic Pro Camera-Mount Shotgun Microphone can still function for approximately 10 hours once the power indicator turns red, but performance will be compromised. Use the power switch to conserve battery life during periods of inactivity.