Common mode noise filter

We claim: 1 . A common mode noise filter adapted for connection in series between a noise source and a load comprising: a first and a second inductor connected in series respectively between the noise source and the load, a capacitor which exhibits stray inductance, a third inductor having a first end connected to a junction of said first and second inductors and a second end connected to one side of said capacitor, the other side of said capacitor connected to ground, said first, second and third inductors selected and positioned relative to each other so that the difference between said capacitor stray inductance and the inductance of the third inductor less the mutual inductance between the first and second inductors and less the mutual inductance between the second and third inductors plus the mutual inductance between the first and third inductors is minimized. 2 . The common mode noise filter as defined in claim 1 wherein said first, second and third inductors are wound on a common magnetic structure. 3 . The common mode noise filter as defined in claim 2 wherein said magnetic structure comprises a ring. 4 . The common mode noise filter as defined in claim 1 wherein said first, second and third inductors each comprise a winding on a magnetic structure. 5 . The common mode noise filter as defined in claim 4 wherein said third inductor is wound closely adjacent said second inductor. 6 . The common mode noise filter as defined in claim 1 wherein said first and second inductor comprise a winding on a magnetic structure and said first end of said third inductor comprises a tap at an intermediate point on said winding. 7 . The common mode noise filter as defined in claim 1 wherein the value of said first inductor is greater than both said second and third inductors. 8 . The common mode noise filter as defined in claim 1 wherein said first, second and third inductors each comprise a winding about an axis, and wherein the axis of an additional compensation inductor is perpendicular to the axes of said first, second, and third inductors.