Electrical circuit protection device with high resistive bypass material

1 . A fuse comprising: a fusible element having a first electrical resistance; a high-resistive material having a second electrical resistance, the high-resistive material being in a parallel relationship with the fusible element; a first conductive terminal at a first end of the chip fuse and a second conductive terminal disposed at a second end of the chip fuse, the first and second conductive terminals electrically connected to the fusible element and the high-resistive material; and a plurality of non-conductive layers wherein the fusible element is disposed between adjacent layers of the plurality of non-conductive layers that are in direct and continuous mechanical contact with the fusible element between the first conductive terminal and the second conductive terminal, and the high-resistive material is disposed between adjacent layers of the plurality of non-conductive layers that are in direct and continuous mechanical contact with the high-resistive material between the first conductive terminal and the second conductive terminal; wherein during a normal operating condition the first electrical resistance is less than the second electrical resistance such that current flows through the fusible element; and wherein during an overcurrent condition the first electrical resistance is greater than the second electrical resistance such that current flows through the high-resistive material. 2 . (canceled) 3 . The fuse of claim, wherein one of the plurality of non-conductive layers comprises a substrate upon which the fusible element, high-resistive material and plurality of non-conductive layers are disposed. 4 . The fuse of claim 3 , wherein the substrate is FR4. 5 . (canceled) 6 . The fuse of claim 1 , wherein the plurality of non-conductive layers includes first, second and third layers of non-conductive material, the fusible element being disposed between the first and second layers of non-conductive material, the high-resistive material being disposed between the second and third layers of non-conductive material. 7 . The fuse of claim 6 , wherein the third layer of non-conductive material comprises a substrate for supporting the fuse. 8 . The fuse of claim 1 , wherein the fuse further comprises first, second, third and fourth layers of non-conductive material, the fusible element being disposed between the first and second layers of non-conductive material, the high-resistive material being disposed between the third and fourth layers of non-conductive material. 9 . The fuse of claim 8 , wherein the third layer of non-conductive material comprises a substrate upon which the fusible element, high-resistive material and non-conductive material are disposed. 10 . The fuse of claim 1 , further comprising a fuse holder including a body portion and contacts, the fusible element being in the form of a glass fuse, the body portion comprising the high-resistive material. 11 . The fuse of claim 1 , wherein the second resistance of the high-resistive material is up to approximately 200 kohms at room temperature. 12 . (canceled) 13 . (canceled) 14 . (canceled) 15 . (canceled) 16 . (canceled) 17 . (canceled)