Method for soldering a connecting element

The invention claimed is: 1. A sensor having: a base body with an outer insulating surface; at least a first electrical connection which is routed into a connection area on said outer insulating surface of said base body; an electrically conductive coating suitable for soft-soldering which is applied to the outer insulating surface of said base body, which includes said connection area of said electrical connection, and which includes a connection point provided for the contacting of said electrical connection; a groove provided in said outer insulating surface of said base body which at least partly surrounds said connection point on the outside; and a connecting element which is soldered onto the coating at said connection point via a soft-soldering connection; wherein: the groove extends between the connection point and the connection area, and said electrical conductive coating is applied at least to areas of said groove to provide said electrical connection between said connection area and said connection point by said conductive coating. 2. The sensor according to claim 1 , wherein: said electrical connection is a connection to a sensor shield against electromagnetic interference; said coating is part of the shield; and said coating forms the connection area of said electrical connection. 3. The sensor according to claim 1 , further having: at least one further electrical connection, which is routed into said connection area located on the outer insulating surface of said base body, wherein: said connection area is coated with an electrically conductive coating suitable for soft-soldering applied to the exterior insulating surface of said base body, with said coating including said connection point provided for contacting of said electrical connection; said connection point is at least partially surrounded on the outside by said groove provided in said base body; at whose connection point said connecting element is soldered onto said coating via a soft-soldering connection; wherein the electrically conductive coating of the further electrical connection is electrically insulated from the electrically conductive coating of the first electrical connection. 4. The sensor according to claim 1 , wherein: at least one groove encloses said respective connection point on all sides, esp. in a ring shape. 5. The sensor according to claim 1 , wherein: at least one groove shows a distinct bend or curve which allows for visual recognition of said connection point location. 6. The sensor according to claim 1 , wherein: the sensor is a capacitive pressure sensor with a measuring membrane connected to said base body thereby forming a measuring chamber; electrical connection is a connection to a measuring electrode applied to said base body; and/or connection is a connection to a reference electrode applied to said base body, and/or said electrical connection is a connection passing through said base body to a counter-electrode affixed to a measuring membrane. 7. The sensor according to claim 6 , wherein: said coating of the connecting area, to which the connection connected to the counter-electrode is routed, also being said coating of said shield; and the connection point provided for the contacting of the connection with the counter-electrode, being the same as the connection point intended for the contacting of the shield. 8. The sensor according to claim 1 , wherein: said base body consists of a ceramic material, esp. aluminum oxide ceramics; and/or said coatings are of gold, silver, a copper alloy or metal layers, especially nickel or nickel alloys covered with a top layer suitable for soft-soldering, or consisting of a conductive metallic varnish, esp. a conductive carbon or silver lacquer; and/or said soft-soldering connections are made of a tin-silver solder material, a tin-copper solder material or soldering material containing indium or bismuth, esp. a tin-silver solder material containing indium an/or bismuth.