Multiple layer capacitor divider voltage sensors suitable for circuit breakers and related circuit breakers

That which is claimed is: 1 . A capacitor divider voltage sensor for a circuit with a line conductor, comprising: a plurality of voltage sensor conductive layers having sensor to ground interface surfaces, wherein respective voltage sensor conductive layers are electrically connected to each other and a sensor output voltage Vs; and a plurality of conductive ground layers connected to electrical ground, the conductive ground layers interleaved with the voltage sensor conductive layers so that a ground layer resides between adjacent voltage sensor conductive layers, wherein the plurality of voltage sensor conductive layers with the sensor to ground interfaces includes a first voltage sensor layer that is closest to the line conductor, and wherein the voltage sensor conductive layers and ground layers are defined by a continuous length of a flexible substrate with opposing first and second conductive surfaces separated by a dielectric film, the first conductive surface forming the voltage sensor conductive layers and the second conductive surface forming the conductive ground layers. 2 . The sensor of claim 1 , wherein the capacitor divider voltage sensor has the same number of ground and voltage sensor layers forming sensor to ground interface surfaces. 3 . The sensor of claim 1 , wherein the capacitor divider voltage sensor is configured so that an outer layer is a ground layer to thereby shield the sensor from external electric fields. 4 . The sensor of claim 1 , wherein the first voltage sensor layer is separated from the line conductor by at least one dielectric or insulating material to reside a distance “gsc” away from the line conductor, wherein the capacitor divider voltage sensor defines a first capacitor “Csc” with capacitance from the voltage sensor to the line conductor being proportional to the area of the interface surface between the first voltage sensor layer and the conductor and being inversely proportional to “gsc”, wherein each voltage sensor conductive layer with the sensor to ground interface surface has a respective area and resides a distance “gsg” from a neighboring ground layer, wherein the capacitor divider voltage sensor defines a second capacitor “Csg” with capacitance from the capacitor divider voltage sensor to ground being proportional to the area of the sensor to ground interface surfaces and the number of conductive layers with respective sensor to ground interface surfaces and is inversely proportional to “gsg”, and wherein the respective voltage sensor conductor layers are electrically connected by continuations of material forming the interface surfaces, and wherein the capacitor divider voltage sensor is configured so that the continuations of material of respective ground and voltage sensor conductive layers are orthogonal to the sensor to ground interface surfaces. 5 . The sensor of claim 4 , wherein the continuations of material and the voltage sensor layers with the sensor to ground interfaces have a common length dimension. 6 . The sensor of claim 1 , wherein the first voltage sensor layer has a sensor to conductor interface surface with a corresponding surface area that is between about 1 mm 2 to about 1,000 mm 2 . 7 . The sensor of claim 1 , wherein the flexible substrate is folded into a plurality of closely spaced apart stacked sections. 8 . The sensor of claim 1 , wherein the flexible substrate has a body with a serpentine or undulation shape, the extensions defined by bends associated with the folds, and wherein the flexible substrate holds an electronic circuit with an amplifier to amplify sensor voltage Vs from the voltage sensor. 9 . The sensor of claim 1 , wherein at least one region of the flexible substrate has increased rigidity with respect to other regions and holds the electronic circuit. 10 . A circuit for a switchgear, comprising: a capacitor divider voltage sensor having a flexible substrate body with a length that is folded a plurality of times and defines spaced apart conductive sensor and ground layers separated by a dielectric film, wherein the capacitor divider voltage sensor is configured so that a first conductive sensor layer faces a respective line conductor and is electrically connected to sensor output Vs. 11 . A circuit for a low or medium voltage switchgear, comprising a capacitor divider voltage sensor having a flexible substrate body with a length that is rolled to form a substantially cylindrical or oval body with stacked conductive sensor and ground layers separated by a dielectric film, wherein the capacitor divider voltage sensor is configured so that a first conductive sensor layer faces a respective line conductor and is electrically connected to sensor output Vs. 12 . A circuit for a low or medium voltage switchgear, comprising: a plurality of multi-layer voltage sensors, each multi-layer voltage sensor having (i) interleaved conductive voltage sensor and ground layers configured to have a first conductive voltage sensor layer that faces a respective line conductor and is electrically connected to the other voltage sensor layers and (ii) an outer conductive ground layer, wherein the outer conductive ground layers of each of the multi-layer voltage sensors are electrically connected at a common reference node.