This performance-grade 2.4G wireless microphone features a dual-pack design with dynamic microphone cores and high-density foam to filter ambient noise. It delivers clear and rich sound quality. Suitable for home karaoke, outdoor performances, education and training, business meetings, and more.
Features:
- 2.4G Wireless Transmission with 50M Stable Connection: Uses 2.4G wireless technology with strong anti-interference, low power consumption, and long transmission range. Effective transmission distance reaches 50 meters with stable connection and no frequency interference.
- Dynamic Microphone Core for Clear and Rich Sound: Built-in dynamic microphone core with cardioid pickup pattern captures vocals with high fidelity and low distortion for full and natural sound. The metal mesh grille is drop-resistant and wear-resistant, while the built-in high-density foam filters ambient noise.
- Dual Microphone Design for Duet Singing: Two microphones can connect simultaneously for easy duet performances.
- 20-Hour Long Battery Life with Type-C Charging: The microphone bottom features a Type-C charging port. Each mic provides up to 20 hours of battery life. Replaceable battery design requires 3 x 18650 lithium batteries per mic.
- Plug-and-Play with Multiple Device Compatibility: The compact receiver works with 6.5mm audio plug and includes a 3.5mm adapter. Compatible with amplifiers, mixing consoles, musical instruments, portable speakers, and more.
Specifications:
- Material: Plastic and Metal
- Color: Black
- Size (L x W x H):
- Microphone: 5.1 x 5.1 x 24.5 cm
- Receiver: 11.5 x 3.4 cm
- Transmission: 2.4G Wireless
- Power Supply: 3 x 18650 Lithium Batteries per Mic(Not included)
- Power Supply Method: Type-C USB Charging (Adapter Not Included)
Package Contents:
- 2 x Wireless Microphones
- 1 x Receiver
- 1 x Charging Cable
- 1 x 3.5mm Adapter
- 2 x Anti-Slip Rings
- 1 x User Manual
Please Note:
- Due to manual measurement, there might be a slight tolerance in the product size.
- The actual product color may vary slightly from the images due to lighting and screen differences.