A chip resistor with a reduced thickness is provided. The chip resistor includes an insulating substrate, a resistor embedded in the substrate, a first electrode electrically connected to the resistor, and a second electrode electrically connected to the resistor. The first electrode and the second electrode are spaced apart from each other in a lateral direction that is perpendicular to the thickness direction of the substrate.

A chip resistor with a reduced thickness is provided. The chip resistor includes an insulating substrate, a resistor embedded in the substrate, a first electrode electrically connected to the resistor, and a second electrode electrically connected to the resistor. The first electrode and the second electrode are spaced apart from each other in a lateral direction that is perpendicular to the thickness direction of the substrate.

A resistor includes a first insulator, a resistive body, a second insulator, a pair of electrodes, and a covering body. The first insulator has a first obverse surface facing in a thickness direction thereof. The resistive body is provided on the first obverse surface. The second insulator covers the resistive body. The pair of electrodes are electrically connected to the resistive body at both sides in a first direction perpendicular to the thickness direction. The covering body is formed on at least one of the first insulator and the second insulator. The covering body has electrical conductivity. The first layer is in contact with at least one of the first insulator and the second insulator.

A resistor according to the present disclosure includes an insulated substrate, a resistive layer formed of a resistance body material and a bonding layer for bonding the insulated substrate and the resistive layer, wherein the resistor is configured so that a ratio of a sheet resistance of the bonding layer to a sheet resistance of the resistive layer is 100 or more.

A resistor according to the present disclosure includes an insulated substrate, a resistive layer formed of a resistance body material and a bonding layer for bonding the insulated substrate and the resistive layer, wherein the resistor is configured so that a ratio of a sheet resistance of the bonding layer to a sheet resistance of the resistive layer is 100 or more.

A resistor includes: a first resin protruding part formed in the bottom surface of an exterior material (mold resin body), on an end opposite to a leading side of harness wires along the length of the exterior material near a through-hole piercing an upper surface and a lower surface of the exterior material, and a second resin protruding part, surrounding the circumference of a metal bush embedded in the through-hole and the entire circumference of the resistor substrate. Moreover, a concave part is formed in a region sandwiched between the first resin protruding part and the second resin protruding part.

A high frequency termination for converting a high frequency electrical signal of a circuit into heat. The high frequency termination includes a substrate. The high frequency termination also includes a spiral resistor formed on the substrate and having a first end and a second end. The high frequency termination also includes a conductive pad electrically coupled to the first end of the spiral resistor. The high frequency termination also includes a contact electrically coupled to the conductive pad and configured to connect to the circuit.

A high frequency termination for converting a high frequency electrical signal of a circuit into heat. The high frequency termination includes a substrate. The high frequency termination also includes a spiral resistor formed on the substrate and having a first end and a second end. The high frequency termination also includes a conductive pad electrically coupled to the first end of the spiral resistor. The high frequency termination also includes a contact electrically coupled to the conductive pad and configured to connect to the circuit.

A resistor component includes an insulating substrate having one surface and the other surface and one end surface and the other end surface, a slit portion disposed on the one end surface and the other end surface and extending to the one surface and the other surface, a resistor layer disposed on the one surface, and a first terminal and a second terminal connected to the resistor layer. The first and second terminals include: an internal electrode layer including an upper electrode disposed on the one surface, a lower electrode disposed on the other surface, and a slit electrode disposed on an internal wall of the slit portion, and an external electrode layer disposed on the one end surface, the other end surface, and the internal wall of the slit portion, being in contact with the slit electrode, having a thickness less than a thickness of the internal electrode layer.

A resistor component includes an insulating substrate having one surface and the other surface and one end surface and the other end surface, a slit portion disposed on the one end surface and the other end surface and extending to the one surface and the other surface, a resistor layer disposed on the one surface, and a first terminal and a second terminal connected to the resistor layer. The first and second terminals include: an internal electrode layer including an upper electrode disposed on the one surface, a lower electrode disposed on the other surface, and a slit electrode disposed on an internal wall of the slit portion, and an external electrode layer disposed on the one end surface, the other end surface, and the internal wall of the slit portion, being in contact with the slit electrode, having a thickness less than a thickness of the internal electrode layer.