![]() At times it is desirable to measure the delay of a signal through some component, or group of components, in an audio system. These examples can then be applied to other applications in which FEaT's measurement capabilities may be considered useful. Measuring Time Delay in an Audio System Using Electroacoustics Toolbox Although Electroacoustics Toolbox (FEaT) is not limited to measuring audio systems, the measurement of audio systems is a common use that offers convenient ways to demonstrate the capabilities of the software. Electroacoustics Toolbox – Measuring Time Delay (Rev. Noise: 20dB SPL equivalent (A weighted).Min Output Load: 600Ω between pins 2 & 3.Output Impedance: 65Ω balanced (between pins 2 & 3).Power Requirements: 24 – 48V Phantom, 10mA.Frequency Response: 3Hz to 50kHz ☑/-3dB.Re-calibration recommended every five (5) years.Storage Temp Range: -40 deg C to +80 deg C ( -40 deg.Operating Temp Range: -20 deg C to +60 deg C ( -4 deg.Each M Series microphone is delivered with its own calibration chart providing its individually measured open-circuit sensitivity and the frequency response curve.Meets or exceeds ANSI Type 1 and applicable IEC 61094 requirements.Used by SMAART™, MLSSA™, Spectrafoo™, TEF™ and RTA in addition to acoustic measurement systems manufactured by dbx, DEQX and others.Flat frequency response, fast impulse response and exceptional polar characteristics.Our top of the line measurement microphone with extraordinary impulse response for those who have stringent requirements and demand the very best.Ideally suited for acoustical measurements that require extended frequency response, including high-end loudspeaker design and quality control, scientific research, measurements of ultrasonic or subsonic transducers, or any application where an extremely accurate free-field measurement microphone is required.An Electronic Calibration File (ECF) is generated for each microphone during final testing, and can be downloaded free of charge after product registration. Lightning fast impulse response and linear phase response make the M50 ideal for use with high-quality FFT-based real-time audio system measurement software like SMAART™, SIM™, REW™, Electroacoustics Toolbox™, FuzzMeasure™ and others, as well as for use in PA system alignment and loudspeaker design.Įvery M50 is individually hand-tuned and tested and is delivered with its own printed frequency response chart. With temperature compensated electronics, the M50 was built to deliver repeatable results no matter what the environment. The M50 has a 140dB SPL rating without distortion and no handling noise. Its omnidirectional polar response exceptionally consistent, providing an even coherent response a the direct and off-axis sections of the microphone capsule. It has an ultra wide flat frequency response that extends from 3Hz to 50kHz and is flat throughout the entire spectrum. The M50’s audio performance is unparalleled. Known for its accuracy, reliability and consistency, the M50 is the top of the line measurement microphone with extraordinary impulse response for those who have stringent requirements and demand the very best. The M50 is a precision engineered 50kHz omnidirectional measurement microphone ideally suited for acoustical measurements including high-end loudspeaker design and quality control, scientific research, measurements of ultrasonic or subsonic transducers, or any application where an extremely accurate free-field measurement microphone is required.
0 Comments
Leave a Reply. |