A ceramic multi-layer component and a method for producing a ceramic multi-layer component are disclosed. In an embodiment a ceramic multi-layer component includes a stack with ceramic layers and electrode layers arranged between them, wherein the ceramic layers and the electrode layers are arranged above one another along a stacking direction, wherein at least one first electrode layer extends along a first main extension direction from a first end region to a second end region of the first electrode layer, and wherein the at least one first electrode layer has a current-carrying capacity that decreases along the first main extension direction.

A sensor element, a sensor arrangement, and a method for manufacturing a Sensor element are disclosed. In an embodiment, a sensor element includes a ceramic main body and at least one electrode arranged at the main body, wherein the electrode has at least one layer comprising nickel.

A thermistor element includes an element body made of ceramic and including first and second end surfaces opposite to each other and a peripheral surface located between the first end surface and the second end surface, first and second external electrodes respectively covering the first and second end surfaces and portion of the peripheral surface adjacent to the respective first and second end surfaces. The first and second external electrodes include electrode layers including an underlayer and a metal plating layer, the underlayer of the first external electrode includes, adjacent to or in a vicinity of the second external electrode, two second external electrode side corner portions that are thin and adjacent to each other, and the underlayer of the second external electrode includes, adjacent to or in a vicinity of the first external electrode, two first external electrode side corner portions that are thin and adjacent to each other.

An electrical device with a soldered joint is disclosed. In an embodiment, an electrical device includes at least one soldered joint having a first wire soldered at one end to the device, wherein the first wire bears with a bearing surface on the device, and wherein the first wire has at least one bend in a region of the bearing surface of the first wire on the device.

A thermistor element includes an element body made of ceramic and including first and second end surfaces opposite to each other and a peripheral surface located between the first end surface and the second end surface, first and second external electrodes respectively covering the first and second end surfaces and portion of the peripheral surface adjacent to the respective first and second end surfaces. The first and second external electrodes include electrode layers including an underlayer and a metal plating layer, the underlayer of the first external electrode includes, adjacent to or in a vicinity of the second external electrode, two second external electrode side corner portions that are thin and adjacent to each other, and the underlayer of the second external electrode includes, adjacent to or in a vicinity of the first external electrode, two first external electrode side corner portions that are thin and adjacent to each other.

An electrical component comprises a main body and at least one external electrode that is fastened by a connecting material to the main body. The main body and the external electrode have different coefficients of thermal expansion that determine a critical temperature which, when exceeded, results in a connection between the main body and the external electrode experiencing mechanical stresses that lead to damage to the component. The connecting material has a melting point which is lower than a critical temperature.

An electronic component that includes: an element body; and an insulating film covering an outer surface of the element body. The element body has a crack that opens to the outer surface. In a cross section orthogonal to the outer surface, the crack has a first portion that extends from the opening and intersects an axis orthogonal to the outer surface. In addition, one portion of the insulating film penetrates into at least an inner space of the first portion of the crack.

An electronic component that includes: a base body; and an insulating film covering an outer surface of the base body. The insulating film includes the film main body and a plurality of the thick film portions. A material of the film main body includes a glass. A material of the thick film portion is the same as the glass of the film main body. A thickness of the thick film portion is larger than an average thickness of the film main body.

A composite thermistor chip includes a thermosensitive ceramic chip, a metal electrode and a glass glaze resistor, wherein the thermosensitive ceramic chip has a front side and a back side, the metal electrode includes a first terminal electrode, a second terminal electrode and a third electrode layer; the first terminal electrode and the second terminal electrode are respectively arranged at two ends of the front side of the thermosensitive ceramic chip, and the glass glaze resistor is arranged on the front side of the thermosensitive ceramic chip, two ends of the glass glaze resistor are respectively connected to the first terminal electrode and the second terminal electrode; and the back side of the thermosensitive ceramic chip is covered with the third electrode layer.

A temperature sensing apparatus and a temperature sensing method thereof are provided. A current source circuit provides a test current to a temperature sensing load, and the temperature sensing load generates a test voltage in response to the test current. A processing circuit determines a type of the temperature sensing load according to the test voltage, and determines a temperature according to the type of the temperature sensing load and a temperature sensing voltage generated by the temperature sensing load.