Description
Highlighted Features The Stellar X2 is designed to be flat and neutral with a slight boost in the presence region. Flat sounding cardioid condenser xlr vocal recording microphones tends to fit many sources. K67 Style Capsule Carefully Tuned Sound: Balanced and Neutral frequency response. Unlike most condenser microphones, this podcast condenser xlr audio microphone does not sound harsh and will not stand out in your mix or sound fatiguing over time. High-Quality Capsule: Our diaphragm are made using pure brass and Japanese imported Mylar. They are manufactured with highly accurate machinery to achieve tighter tolerances. Due to their perfected design, our diaphragm obtain higher sensitivity making them able to reproduce even the most subtle sounds. Highly Optimized Circuit Our custom transformerless JFET circuit provides excellent performance with low noise (
Carefully Tuned Sound: Balanced and Neutral frequency response. Unlike most cardioid condenser xlr microphones, this podcast microphone does not sound harsh and will not stand out in your mix or sound fatiguing over time. Good for podcast, studio vocals, pianos, stringed instruments, and percussion.
High Quality Diaphragm: Our capsules are made using the high-grade brass and Japanese imported mylar. They are manufactured with the most precise machinery to achieve higher sensitivity making them able to reproduce subtle sounds. A very good condenser microphone for recording music.
Extreme Low Noise Circuit: Our custom transformer less JFET circuit is made with German capacitors and components with a tolerance as low as 1%. It features gold traces for high conductivity, great performance without distortion, and a noise floor of less than 13dBA. A very good recording microphone.
Steel Body: Our podcast microphone body and frame are made out of high-grade steel with a durable grill to protect the capsule and ensure the condenser studio microphone will last a lifetime.
Strict Quality Control: Every podcast microphone goes through our intensive testing procedure. This includes a frequency sweep test as well as a self-noise test to ensure every circuit performs within specifications.