Exhaust gas heater and method for making the same

What is claimed is: 1. An exhaust gas heater for an exhaust gas system of an internal combustion engine, the exhaust gas heater comprising: a carrier arrangement; a heating conductor arrangement supported on said carrier arrangement and having at least one current-carrying heating conductor; a connecting arrangement for fixedly connecting the heating conductor arrangement to said carrier arrangement; said heating conductor arrangement being supported on said carrier arrangement in an electrically insulated manner by said connecting arrangement; and, said connecting arrangement including a plurality of connecting elements, said heating conductor arrangement being supported on at least one connecting element of said plurality of connecting elements via an insulating carrier unit so as to electrically insulate said heating conductor arrangement from said at least one connecting element. 2. The exhaust gas heater of claim 1 , wherein: said at least one connecting element includes a shank; said insulating carrier unit supporting said heating conductor arrangement on said at least one connecting element includes a carrier sleeve surrounding said shank; and, insulating material supports said carrier sleeve on said shank. 3. The exhaust gas heater of claim 2 , wherein said heating conductor arrangement includes at least one heating conductor fixedly connected to said carrier sleeve. 4. The exhaust gas heater of claim 3 , wherein said at least one heating conductor is connected fixedly to said carrier sleeve via an integrally joined connection. 5. The exhaust gas heater of claim 4 , wherein said integrally joined connection is provided via welding or soldering. 6. The exhaust gas heater of claim 3 , wherein said exhaust gas heater defines a longitudinal axis (L) and said heating conductor arrangement includes a plurality of said current-carrying heating conductors spaced one from the other so as to follow one another in a direction of said longitudinal axis (L); and, each one of said heating conductors is fixedly connected to said carrier sleeve. 7. The exhaust gas heater of claim 2 , wherein said insulating material provides an integrally joined connection to said shank and said carrier sleeve. 8. The exhaust gas heater of claim 2 , wherein said shank and said carrier sleeve conjointly define an intermediate space therebetween; and, wherein at least one of: i) said insulating material is introduced in a flowable state into an intermediate space; and, ii) said insulating material includes glass ceramic material. 9. The exhaust gas heater of claim 2 , wherein said insulating material provides a frictional connection to said shank and said carrier sleeve. 10. The exhaust gas heater of claim 2 , wherein said shank and said carrier sleeve conjointly define an intermediate space therebetween; and, wherein at least one of: i) said insulating material is pressed into said intermediate space; and, ii) said insulating material includes pressed powder material including at least one of: a) magnesium oxide; b) pressed fiber material; and, c) glass fiber matting material. 11. The exhaust gas heater of claim 1 , wherein said exhaust gas heater defines a longitudinal axis (L); said carrier arrangement includes two carrier elements arranged at a spacing from one another in the direction of said exhaust gas heater longitudinal axis (L); said heating conductor arrangement is disposed in said spacing between said two carrier elements; and, said heating conductor arrangement is supported on said carrier arrangement via said connecting arrangement at an axial spacing from each of said carrier elements. 12. The exhaust gas heater of claim 11 , wherein: said at least one connecting element includes a shank; said insulating carrier unit includes a carrier sleeve surrounding said shank; and, insulating material supports said carrier sleeve on said shank; wherein said carrier sleeve is arranged at an axial spacing from each of said carrier elements. 13. An exhaust gas system for an internal combustion engine, the exhaust gas system comprising: an exhaust gas heater including: a carrier arrangement having a carrier housing for receiving an exhaust gas flow in an exhaust gas main flow direction along an exhaust gas heater longitudinal axis; a heating conductor arrangement supported on said carrier arrangement and having at least one current-carrying heating conductor; a connecting arrangement for fixedly connecting the heating conductor arrangement to said carrier arrangement; said heating conductor arrangement being supported on said carrier arrangement in an electrically insulated manner by said connecting arrangement; and, said connecting arrangement including a plurality of connecting elements, said heating conductor arrangement being supported on at least one connecting element of said plurality of connecting elements via an insulating carrier unit so as to electrically insulate said heating conductor arrangement from said at least one connecting element. 14. A method of making an exhaust gas heater including a carrier arrangement; a heating conductor arrangement supported on said carrier arrangement and having at least one current-carrying heating conductor; a connecting arrangement for fixedly connecting the heating conductor arrangement to said carrier arrangement; said heating conductor arrangement being supported on said carrier arrangement in an electrically insulated manner by said connecting arrangement; and, said connecting arrangement including a plurality of connecting elements and, in association with at least one connecting element of said plurality of connecting elements, an insulating carrier unit for supporting said heating conductor arrangement on said at least one connecting element of said plurality of connecting elements so as to electrically insulate said heating conductor arrangement from said at least one connecting element of said plurality of connecting elements, the method comprising: a) providing at least one connecting element/carrier sleeve assembly with a carrier sleeve which surrounds a shank of a connecting element, with insulating material mounted in between, and is supported on the shank via the insulating material; b) connecting the heating conductor arrangement fixedly to the carrier sleeve of the at least one connecting element/carrier sleeve assembly to provide a connecting arrangement/heating conductor arrangement assembly; and, c) connecting the connecting arrangement/heating conductor arrangement assembly to the carrier arrangement. 15. The method of claim 14 , wherein step b) is carried out before step a). 16. The method of claim 14 , wherein step b) is carried out after step a). 17. The method of claim 14 , wherein step a) comprises introducing the insulating material in a flowable state into an intermediate space formed between the shank and the carrier sleeve. 18. The method of claim 14 , wherein step a) comprises pressing the insulating material into an intermediate space formed between the shank and the carrier sleeve. 19. The method of claim 14 , wherein step b) comprises fixedly connecting at least one heating conductor to the carrier sleeve via an integrally joined connection. 20. The method of claim 14 , wherein the exhaust gas heater defines a longitudinal axis (L); and, wherein step c) comprises connecting the shank of the at least one connecting element/carrier sleeve assembly to a carrier element of the carrier arrangement via at least one of: i) a screw connecti