Editing Line level (section)

== Impedances ==

As cables between line output and line input are generally extremely short compared to the audio signal wavelength in the cable, 
[[transmission line]] effects can be disregarded and [[impedance matching]] need not be used. 
Instead, line level circuits use the [[impedance bridging]] principle, 
in which a low impedance output drives a high impedance input. 
A typical line out connection has an output impedance from 100 to 600 Ω, with lower values being more common in newer equipment. 
Line inputs present a much higher impedance, typically {{nowrap|10 kΩ}} or more.<ref name="rane126">{{cite web
 | url    = http://www.rane.com/note126.html
 | title  = Practical Line-Driving Current Requirements
 | author = Dennis Bohn
 | date   = May 1996
 | work   = RaneNotes
 | publisher  = Rane Corporation
 | accessdate = 2012-07-15
 | quote = Practically speaking, electrical engineering transmission line theory does not apply to real world audio lines. ... This paves the way for simple R-C modeling of our audio line. 
}}</ref>

The two impedances form a [[voltage divider]] with a shunt element that is large relative to the size of the series element, which ensures that little of the signal is shunted to ground and that current requirements are minimized. 
Most of the voltage asserted by the output appears across the input impedance and almost none of the voltage is dropped across the output.<ref name="rane126"/>
The line input acts similarly to a high impedance voltmeter or oscilloscope input, measuring the voltage asserted by the output while drawing minimal current (and hence minimal power) from the source. 
The high impedance of the line in circuit does not [[Electrical load|load down]] the output of the source device.

These are voltage signals (as opposed to current signals) and it is the signal information (voltage) that is desired, not power to drive a [[transducer]], such as a speaker or antenna. The actual information that is exchanged between the devices is the variance in voltage; it is this alternating voltage signal that conveys the information, making the current irrelevant.