Here's a link to the Williams diagram showing Stereo Recording Angle as linked to microphone spacing for omnidirectional microphones-
http://www.mmad.info/MAD/2%20Ch/SRA%20Omni.pdfThe above is hosted on
Michael William's website.
Comments:
Recording amplified PAs with two widely spaced stacks producing identical mono bass information from a distance is standard procedure around here but is an outright oddity in the acoustic recording world. That means the normal guidelines don't necessarily apply. Wider spacings that would be unwise for acoustic recording can work very well. When recording amplified stuff in outdoor amphitheaters and big outdoor festival setups I'd start with a 3' (1m) spacing for a 2-channel stereo pair of omnis. Actually in those situations I run a three main mic setup with either an omni or a cardioid in the center, which safely allows me to space the omnis twice that distance (6' / 2m) from each other and the recordings are better for it. It's possible to space two microphones that much or even considerably more and make great section recordings, but doing so becomes more of a gamble unless you can accurately monitor the setup. Part of the attraction of using a third mic in the center is that it eliminates most of that over-wide risk. A SBD patch can work much the same way as the center mic, allowing for safe use of and often benefiting from wider spacings.
Besides modifying the SRA, changing omni spacing changes the apparent quality of the bass and the nature of the surrounding 'room' sound. When listening back, those changes are likely to be more obvious than changes in SRA . Wider spacing lowers the frequency at which the mics are decorellated and changes the timbre of the bass. If you can listen on very isolating headphones while adjusting the microphone the spacing, you can 'tune' the spacing to find the most appropriate spacing and a few inches one way or the other can make a big difference in the quality of the bass, while not changing the SRA that significantly. You probably won't want to make the effort to do that every time you run spaced omnis, but it can be very instructive to play around with a few times to get a good grasp on how it works in a practical sense. That lower decorellation frequency is what produces the big, wide, enveloping sound of wide spaced omnis. It’s also partly why they combine very well with a SBD out or with a center mic without producing 'phase' problems that can occur when mixing together pairs of microphones that were placed in close proximity to each other.
Besides going wider than what the William's diagram suggests, you can go narrower if you put a baffle between the mics, effectively blocking sound from "crossing-over" to the other microphone from the opposite side, at higher frequencies (the baffle has no effect at low frequencies). That's where the Jecklin and Schneider discs come in to play. I don't know why those things aren't called Blumlien disks, since as far as I know; Alan Blumlein was the first to use a baffle between head-spaced omnis back in the early 1930's before he had access to figure-8 microphones and produced the microphone technique which bears his name to this day.
Topic: Omni configurations (Read 8695 times)