The refund will not include the import duties or the cost of delivery or return postage.Due to the nature of the products that we sell, we will not be able to replace or refund unwanted items if they have been opened, any tags are removed or any seals are broken.If the order has already been dispatched, cancellation fees might be charged. Orders can be cancelled before dispatch.All packaging material must be undamaged and unused with the price tags intact. To be eligible for return, products must be in the exact condition you received them in.
To return or exchange any items, please email us clearly mentioning your order number and our customer support team will guide you on the process.Return or exchange requests can be made within 14 days of the delivery date.If you would like an impulse response chart with your microphone, you must make the request to your dealer at the time of purchase.
Cost effective measurement microphone Improved version of the SMAARTMIC previously offered by EAW Ideally suited for acoustical measurements sound system setup and troubleshooting, room acoustics, or any application where an accurate free-field measurement microphone is required Omnidirectional polar pattern Flat frequency response, fast impulse response and exceptional polar characteristics Used by SMAART, MLSSA, Spectrafoo, TEF and RTA in addition to acoustic measurement systems manufactured by dbx, DEQX and others Meets or exceeds ANSI Type 1 and applicable IEC 61094 requirements Requires 48V Phantom Power Each M Series microphone is delivered with its own calibration chart providing its individually measured open-circuit sensitivity and the frequency response curve Electronic calibration files can be used to import the M23?s amplitude frequency response directly into your measurement system. They are remarkably stable with respect to temperature and atmospheric conditions and are optimized for clean, very fast impulse performance providing accurate wideband response with virtually no handling noise. and then use delay (phase shift) and parametric EQ to deal with it.Earthworks M23 23 kHz Omnidirectional Measurement Microphone The M Series has become the accepted standard for affordable, reliable reference and measurement microphones that are accurate in the time domain and frequency response. Neither system will "fix" the response but the Peavey will never make it worse.Ī better way is to use some measurement tool that does "transfer function" measurements. Pretty much anything that low is caused by the room itself and you really need to move walls to solve (or other crazy stuff). It also doesn't try to do anything to freqs below 100 Hz nor above 10K. The VSX also uses a RTA to measure but only cuts the peaks and makes no attempts to fill the holes (which it couldn't do anyway). but there aren't many of those and if you had them you probably wouldn't be needing a DSP anyway. Things with corrected phase response would do better. In my tests with a DriverackPA it caused more problems than it helped and usually created some horrific curves that usually included large amounts of extreme treble and bass boosts. If you try you create other problems, distortions and use up valuable power that could actually produce sound somewhere else in the spectrum. Both are like black holes in that you cannot fill them. Holes are almost always caused by phasing problems or absorptions. If the DBX sees a hole it tries to boost to fill it in and if it sees a peak it tries to cut it down. be it a stand alone RTA or the auto function in the DBX. Real time analyzers cannot tell what is causing the problem and see only EQ as the solution.
Equalizers are not effective in solving problems caused by phase cancellations or diaphragmatic absorption (like walls vibrating or large glass windows vibrating).