Shunt resistor

The invention claimed is: 1. A shunt resistor, at least a part of which has a resistive element with pre-set resistivity, and which is configured to bridge between two electrodes and detect a current value of a current flowing between the two electrodes by detecting a voltage drop in the resistive element, the shunt resistor comprising: two connecting parts affixed to the two electrodes via a conductive adhesive, respectively, and the connecting parts electrically connected to the two electrodes; a bridging part bridging between the two connecting parts by being extended from one of the two connecting parts to the other one of the two connecting parts; and two bonding wires used to detect a voltage drop in the resistive element, wherein the two bonding wires are bonded to the bridging part, the bridging part is of a protrusion shape with respect to the two connecting parts when viewed in a cross section along an extending direction of the bridging part and orthogonal to a bonding surface on which the two bonding wires are bonded, when viewed in a cross section along the extending direction of the bridging part and orthogonal to the bonding surface on which the two bonding wires are bonded, the bridging part includes an upper base and two leg parts to define a trapezoidal shape, the upper base includes two main parts that have a longer length than the two leg parts, the resistive element is provided at least to the upper base, and the two bonding wires are bonded to the upper base. 2. The shunt resistor according to claim 1 , wherein: the two bonding wires are extracted parallel to an extending direction of the bridging part to a same direction. 3. The shunt resistor according to claim 2 , wherein when viewed from a front of a bonding surface on which the two bonding wires are bonded, two bonding positions of the two bonding wires on the bonding surface fall on a virtual line along the extending direction. 4. The shunt resistor according to claim 1 , wherein the extending direction is a longitudinal direction of the bridging part. 5. The shunt resistor according to claim 1 , wherein the two leg parts attach to the base of the bridging part formed in the trapezoidal shape at an oblique angle. 6. The shunt resistor according to claim 1 , wherein the two bonding wires directly contact the resistive element. 7. The shunt resistor according to claim 1 , wherein the two leg parts attach to the base of the bridging part formed in the trapezoidal shape at pointed edges. 8. The shunt resistor according to claim 1 , wherein the two leg parts linearly extend from the connecting parts to the main parts of the upper base to form the trapezoidal shape. 9. A shunt resistor, at least a part of which has a resistive element with a pre-set resistivity, and which is configured to bridge between two electrodes and detect a current value of a current flowing between the two electrodes by detecting a voltage drop in the resistive element, the shunt resistor comprising: two connecting parts affixed to the two electrodes via a conductive adhesive, respectively, and the two connecting parts electrically connected to the two electrodes; a bridging part bridging between the two connecting parts by being extended from one of the two connecting parts to the other one of the two connecting parts; and two bonding wires used to detect a voltage drop in the resistive element, wherein the two bonding wires are bonded to the bridging part, the bridging part has conductive parts with smaller resistivity than the resistive element and is formed by sandwiching the resistive element between the conductive parts in an extending direction of the bridging part, the two bonding wires are bonded to the conductive parts sandwiching the resistive element, respectively, and two bonding positions of the two bonding wires are placed such that a distance between the two bonding positions in the extending direction is a minimum with the resistive element in between such that the two bonding wires directly contact the resistive element. 10. The shunt resistor according to claim 9 , wherein the extending direction is a longitudinal direction of the bridging part. 11. The shunt resistor according to claim 9 , wherein the two bonding wires are in contact with an upper surface of the resistive element at the two bonding positions, respectively. 12. A shunt resistor, at least a part of which has a resistive element with pre-set resistivity, and which is configured to bridge between two electrodes and detect a current value of a current flowing between the two electrodes by detecting a voltage drop in the resistive element, the shunt resistor comprising: two connecting parts affixed to the two electrodes via a conductive adhesive, respectively, and the two connecting parts electrically connected to the two electrodes; a bridging part bridging between the two connecting parts by being extended from one of the two connecting parts to the other one of the two connecting parts, the bridging part including an upper base and a leg part; and two bonding wires used to detect a voltage drop in the resistive element, wherein the two bonding wires are bonded to the bridging part, the upper base includes two main parts connected to the resistive element, the leg part includes two intermediate parts, one of the two intermediate parts is connected to one of the two main parts and the one of the two connecting parts, the other one of the two intermediate parts is connected to the other one of the two main parts and the other one of the two connecting parts, the one of the two main parts has a length greater than a length of the one of the two intermediate parts, and the other one of the two main parts has a length greater than a length of the other one of the two intermediate parts. 13. The shunt resistor according to claim 12 , wherein the two bonding wires are bonded to the two main parts, respectively.