The idea of panning seems pretty obvious, right? You turn a panpot (real or virtual) to place a sound somewhere in the stereo field…
But ignorance of the law is no excuse – in this case, panning laws. These laws govern exactly what happens when a monaural sound moves from left to right in the stereo field, which can be different for different pieces of software. As a matter of fact, not knowing about panning laws can create some significant issues if you need to move a project from one host to another. Panning laws may even account for some of the online foolishness where people argue about one host sounding “punchier” or “wimpier” than another when they loaded the same project into different hosts. It’s the same project, right? So it should sound the same, right?
Well, not necessarily…keep reading.
Origins of Panning Laws
Panning laws originated in the days of analog mixers. If there was a linear gain increase in one channel and a linear gain decrease in the other channel to change the stereo position, at the center position the sum of the two channels sounded louder than if the signal was panned full left or full right.
To compensate for this, it became common to use a logarithmic gain change response to drop the signal by -3dB RMS at the center. You could do this by using dual pots for panning with log/antilog tapers, but as those could be hard to find, you could do pretty much the same thing by adding tapering resistors to standard linear potentiometers. Thus, even though signals were being added together from the left and right channels, the apparent level was the same when centered because they had equal power.
But this “law” was not a standard. Some engineers preferred to drop the center level a bit more, either because they liked the signal to seem louder as it moved out of the main center zone, or because signals that “clumped up” around the center tended to “monoize” the signal. So, dropping their levels a little further created more of an illusion of stereo. And some of the people using analog consoles had their own little secret tweaks to change the panning characteristics.
Panning Meets the Digital Audio Workstation
With virtual mixers we don’t have to worry about dual ganged panpots, and can create any panning characteristic we want. That’s a good thing, because it allows a high degree of flexibility. But it also adds a degree of chaos that we really didn’t need.
For example, Cubase SX3 has four panning laws in the Project Setup dialog; you get there by going Project > Project Setup.
The default pan law for Cubase is to drop the center by –3dB, which is the classic equal power setting.
Setting the value to 0dB eliminates constant-power panning, and gives the old school, center-channel-louder effect. Since we tried so hard to get away from that, it’s not surprising that Cubase defaults to using the “drop the center by -3dB” classic equal power setting. But you can also choose to drop the center by -4.5dB or -6dB if you want to hype up the extremes somewhat, and make the center a bit more demure. Fair enough; it’s nice to have options.
Adobe Audition has two panning options in multitrack mode, accessed by going View > Advanced Session Properties.
Adobe Audition lets you choose from two common panning laws.
L/R Cut Logarithmic is the default, and pans to the left by reducing the right channel volume, and conversely, pans to the right by reducing the left channel volume. As the panning gets closer to hard left or right, the channel being panned to doesn’t increase past what its volume would be when centered. The Equal Power Sinusoidal option maintains constant power by amplifying hard pans to left or right by +3dB, which is conceptually similar to dropping the two channels by -3dB when the signal is centered.
Now let’s take a closer look…
We can’t sign off without mentioning one more thing: The pan law you choose isn’t just a matter of convenience or compatibility, although I’ve stressed the importance of being compatible if you want to move a project from one host to another. The law you choose can make a difference in the overall sound of a mix.
This is less of an issue if you use mostly stereo tracks, as panning in that case is really more of a balance control. But for many of us, “multitrack” still means recording at least some mono tracks. I tend to record a mono source (voice, guitar, bass) in mono, unless it’s important to capture the room ambience – and even then, I’m more likely to capture the main sound in mono, and use a stereo pair of room mics (or stereo processing) that go to their own tracks. And if you pan that mono track, you’re going to have to deal with the panning laws.
In any event, you now know enough about those laws to make sure you don’t get cited for contempt of court. Happy panning!
To read the full detailed article please visit: Panning Laws Revealed