PTC heater with reduced switch-on current

The invention claimed is: 1. A positive temperature coefficient (PTC) heater comprising: a main body having a length L, a width B, and a height H made of a PTC material; a first electrode and a second electrode made of an electrically conductive material, wherein the following is true for L, B, and H: L≥B≥H, wherein the electrodes are connected to the main body so that the following is true for a spacing d thereof from one another: d>H; and a dielectric layer arranged on a lateral surface of the main body, wherein the main body has a shape of a cuboid, wherein the electrodes are arranged at opposing end surfaces of the main body, wherein the dielectric layer covers an area of the main body, which is free of the electrodes, wherein the dielectric layer is not arranged between the electrodes and the main body, and wherein the electrodes are arranged at the opposing end surfaces, the end surfaces having a distance of length L from each other. 2. The PTC heater according to claim 1 , wherein H is 4 mm. 3. The PTC heater according to claim 1 , wherein the main body comprises doped BaTiO 3 , wherein the main body comprises Sr, Pb, and/or Ca, and wherein the main body comprises a rare earth element, Mn, Fe, and/or Al. 4. The PTC heater according to claim 1 , wherein the following is true: L≥B>H. 5. The PTC heater according to claim 1 , wherein the following is true: 2.5 cm≤L≤5 cm, 1 cm≤B≤4 cm, and 100 μm≤H. 6. The PTC heater according to claim 1 , wherein the main body has a shape of a cylinder. 7. The PTC heater according to claim 1 , wherein the main body has a shape of a film. 8. The PTC heater according to claim 1 , wherein His 5 mm. 9. The PTC heater according to claim 1 , further comprising a carrier, wherein the main body is arranged on the carrier. 10. The PTC heater according to claim 1 , further comprising a cooling element connected to the main body, wherein the cooling element is configured to emit heat dissipated in the main body to surroundings. 11. The PTC heater according to claim 1 , wherein the dielectric layer comprises an oxidic ceramic. 12. The PTC heater according to claim 1 , wherein the electrodes comprise Cr, Ni, Ti, Al, Ag, Cu, and/or Au. 13. A positive temperature coefficient (PTC) heater comprising: a main body having a length L, a width B, and a height H made of a PTC material; a first electrode and a second electrode made of an electrically conductive material, wherein the following is true for L, B, and H: L≥B≥H, wherein the electrodes are connected to the main body so that the following is true for a spacing d thereof from one another: d>H; a dielectric layer arranged on a lateral surface of the main body; and a carrier, wherein the main body has a shape of a cuboid, wherein the electrodes are arranged at opposing end surfaces of the main body, wherein the dielectric layer covers an area of the main body, which is free of the electrodes, wherein the dielectric layer is not arranged between the electrodes and the main body, and wherein the main body and the electrodes are arranged on a top surface of the carrier. 14. The PTC heater according to claim 13 , further comprising a cooling element connected to the main body, wherein the cooling element is configured to emit heat dissipated in the main body to surroundings. 15. The PTC heater according to claim 14 , wherein the cooling element comprises cooling ribs. 16. The PTC heater according to claim 13 , wherein the dielectric layer comprises an oxidic ceramic. 17. The PTC heater according to claim 13 , wherein the main body comprises doped BaTiO 3 , wherein the main body comprises Sr, Pb, and/or Ca, and wherein the main body comprises a rare earth element, Mn, Fe, and/or Al. 18. The PTC heater according to claim 17 , wherein the electrodes comprise Cr, Ni, Ti, Al, Ag, Cu, and/or Au.