in normal operation, all audio meters and visualizations available in Goodhertz plugins are enabled and running. The Auto option will automatically adjust the color scheme depending on the system preferences of your machine (Mac only).īy default, this is On - i.e.
![crossfeed enabler crossfeed enabler](https://kerbal-forum-uploads.s3.us-west-2.amazonaws.com/profile/photo-thumb-75006.gif)
If you prefer the look of dark colors (or work in a darker environment) enable this option. If you’d like to always see the advanced controls, enable this preference.Īllows you to choose the color palette used for displaying the interface. when the plugins open, they do not show you the advanced controls available by hitting the We currently support the following languages: English, Spanish, Portuguese, French, Japanese, Korean, Chinese (Simplified), Chinese (Traditional), and Arabic.īy default, this is Off - i.e. Switch the display language of text elements in Goodhertz plugins. Here are some examples of how simple stereo signals appear in the goniometer: By interpreting the goniometer, it’s possible to quickly deduce many characteristics about the stereo field and the precise relationship between left & right channels. GoniometerĬanOpener Studio includes a real-time stereo display called a goniometer (or vectorscope). If the scope is showing a narrow, straight-lined stereo field (especially in the low end), then less crossfeed is probably appropriate. If the scope shows a wide, dispersed stereo field (especially in the low end), then you might want to increase the crossfeed amount. The stereo spectroscope can help determine how much crossfeed should be applied to the signal to imitate listening on monitors. In addition to the circles, a broad outline shape is drawn, showing the stereo width for all frequency bands. The size and brightness of the circle corresponds to the loudness of that particular band. The location of each circle corresponds to its left/right balance and associated frequency band. The x-axis (horizontal), represents the left/right stereo field, and the y-axis (vertical) represents the frequency spectrum (low to high, bottom to top). The CanOpener Studio Stereoscope What does it represent?
![crossfeed enabler crossfeed enabler](https://www.belfercenter.org/sites/default/files/styles/shared_image/public/images/publication/feature/AP20309695947289.jpg)
CanOpener Studio’s crossfeed algorithm was designed to bring back the crossfeed that gets lost on headphones, making for a better, less fatiguing monitoring environment where judgements about space, depth, and panning are quicker and easier.ĬanOpener Studio features our unique stereo spectroscope: a new type of stereo metering that lets you inspect the stereo balance & width of each part of the frequency spectrum. So you could say that loudspeakers have a type of natural crossfeed: the left channel is “crossfed” to the right ear and vice versa.įor headphones, however, this is not true: sounds fed from the left channel of a pair of headphones only reach the left ear and have no natural crossfeed. The inverse is true of the left speaker: sounds emitted reach the left ear first, while a portion also reaches the right ear. This is true for loudspeakers too: a sound fed from the right loudspeaker not only reaches your right ear, but a portion of the sound also reaches your left, far ear as well. Because sound is pretty good at bouncing and bending around things, every sound you’ve ever heard in a natural acoustic environment reaches both ears, at least in part. “Crossfeed” is a generic term for a process that “feeds” or blends the left and right channels of a stereo audio signal in some way.