Magnetic electrical connector for patient monitors

What is claimed is: 1. A system for connecting a sensor using isolation of electrical components comprising: a noninvasive optical sensor including a light source configured to emit light and a detector configured to detect the light after attenuation by body tissue at a measurement site; an EEG sensor comprising a plurality of EEG electrodes configured to detect a bioelectric signal from a patient; a first cable including a first plurality of conductors electrically connected to the EEG sensor and the noninvasive optical sensor; a second cable including a second plurality of conductors coupled to a patient monitoring system; and a signal isolation coupling comprising: a first electrical element inside the first cable and forming a part of the first cable, said first electrical element electrically connected to said first plurality of conductors via a modulator circuit inside the first cable, wherein said modulator circuit is configured to transform low frequency signals carried by the first plurality of conductors to high frequency signals; a first insulating barrier inside the first cable protecting the first portion; a second electrical element inside the second cable and forming a part of the second cable, said second electrical element electrically connected to the second plurality of conductors, said second plurality of conductors configured to carry said high frequency signals received by the second electrical element from the first electrical element over a physical separation between the first cable and the second cable, wherein said second cable is configured to detachably connect with the first cable at the physical separation; and a second insulating barrier inside the second cable protecting the second portion; wherein the first cable comprises a cavity configured to receive the second cable and electrically couple with the second cable at the physical separation with no exposed conductors, the cavity comprising a first section and a second section, the first section perpendicular to the second section, and wherein the cavity is configured to secure the first cable with the second cable through the first and the second sections. 2. The system of claim 1 further comprising an attachment mechanism configured to removably hold the first cable proximate the second cable and configured to orient the first electrical element to couple with the second electrical element. 3. The system of claim 2 , wherein the attachment mechanism comprises matable mechanical components. 4. The system of claim 1 , wherein the first electrical element comprises a first coil and wherein the second electrical element comprises a second coil responsive to the first coil. 5. A system for connecting a sensor using isolation of electrical components comprising: a first cable comprising: one or more first conductors electrically coupled to a sensor configured to detect low voltage signals; a first electrical element coupled to the one or more first conductors and transfer the detected low voltage signal across a gap; and a first insulating barrier configured to insulate the first electrical element; a second cable comprising: one or more second conductors electrically coupled to a patient monitor; a second electrical element coupled to the one or more second conductors and configured to receive the transferred detected low voltage signals across the gap; and a second insulating barrier configured to insulate the second electrical element; and the first cable comprises an attachment mechanism configured to removable secure the first cable with the second cable, the attachment mechanism comprises a cavity comprising a first section and a second section, the first section perpendicular to the second section, wherein the cavity is configured to secure the first cable with the second cable through the first and the second sections; wherein the one or more first conductors and the first electrical element are isolated from the one or more second conductors and the second electrical element.