RODE Lavalier GO Omnidirectional Lavalier Microphone for Wireless GO Systems (Black)
Use the black Rode Lavalier GO omnidirectional lavalier microphone to get the convenience and clarity of a broadcast-quality, clip-on lapel mic for your Rode Wireless GO system. Ideal for mobile journalists and videographers, the Lavalier GO features a durable 3.9' Kevlar-reinforced cable terminated in a gold-plated 3.5mm TRS connector for enhanced conductivity. The miniature mic capsule is easily concealed and features a foam pop shield to reduce vocal plosives. Its omnidirectional polar pattern provides 360 degrees of sound pickup, while the condenser element yields a wide, full-frequency response, giving you a clear and intelligible voice capture.
Use the black Rode Lavalier GO omnidirectional lavalier microphone to get the convenience and clarity of a broadcast-quality, clip-on lapel mic for your Rode Wireless GO system. Ideal for mobile journalists and videographers, the Lavalier GO features a durable 3.9' Kevlar-reinforced cable terminated in a gold-plated 3.5mm TRS connector for enhanced conductivity. The miniature mic capsule is easily concealed and features a foam pop shield to reduce vocal plosives. Its omnidirectional polar pattern provides 360 degrees of sound pickup, while the condenser element yields a wide, full-frequency response, giving you a clear and intelligible voice capture.
Use the black Rode Lavalier GO omnidirectional lavalier microphone to get the convenience and clarity of a broadcast-quality, clip-on lapel mic for your Rode Wireless GO system. Ideal for mobile journalists and videographers, the Lavalier GO features a durable 3.9' Kevlar-reinforced cable terminated in a gold-plated 3.5mm TRS connector for enhanced conductivity. The miniature mic capsule is easily concealed and features a foam pop shield to reduce vocal plosives. Its omnidirectional polar pattern provides 360 degrees of sound pickup, while the condenser element yields a wide, full-frequency response, giving you a clear and intelligible voice capture.