SYNCO Mic-M1P On-Camera Microphone
- Cardioid Pattern, High Sensitivity As a cardioid directional shotgun microphone, SYNCO Mic-M1P can reject off-axis sounds and bring the best reception for the sound in front of the microphone. -42dB +/-2dB high sensitivity enables the microphone to pick up more details, and deliver pure original sound.
- Unique and Professional Mic Design The microphone of SYNCO Mic-M1P with soft rubber and shock mount provides great shock absorption and noise-reducing ability; Coupled with the SNR of 76dB, Mic-M1P microphone has a great sound pickup effect. A high-density furry windscreen could help dramatically improve 10db noise reduction ability when shooting outdoors, your voice can be distinguished from background noise easily.
- Accessories: Hot Shoe, Smartphone Holder, and Tripod Smartphone Holder with 5.5cm to 9cm adjustable range, Tripod with 360° rotatable ball head, and 3.5mm TRS/TRRS cables, will greatly facilitate your video/audio shooting. A bubble level equipped on smartphone holder to calibrate horizontal and vertical levels, could also bring more convenience.
- Universal Compatibility SYNCO Mic-M1P microphone can work with DSLR Cameras, Camcorders, Audio Recorders, iPhone and Android Smartphones, Tablets, & Laptops, ideal for micro film making, SLR recording, interview, and live streaming, etc.
- Portable and Compact With a super mini size of 0.87*3.19 inches, and detachable accessories, SYNCO Mic-M1P microphone is suitable for recording on the way, easy to operate and put into backpack.
- Mobile Journalist, Vlogger, Run & Gun
- For Cameras and Smartphones
- Includes Tripod, Phone Holder, Microphone, Windshield
- Requires No Batteries or Phantom Power
- Simple Operation with No Controls
- 3.5mm TRS Output Jack
- Detachable TRS and TRRS Cables
- Ultracompact and Ultralightweight
- Detachable Shoe Shockmount
- 1x Microphone
- 1x Shock Mount
- 1x Windscreen
- 1x Mini Tripod
- 1x PhoneHolder
- 1x 3.5mm-TRS
- 1x 3.5mm-TRRS
- 1x Leather Pouch
- 1x User Manual
- 1x Kartu Garansi Resmi