Current detecting device and current detecting resistor

The invention claimed is: 1. A current detecting device comprising: a current detecting resistor extending a length direction, the current detecting resistor including a pair of electrodes and a resistive element electrically connected in series in the length direction with the resistive element being in middle between the pair of electrodes, wherein each of the electrodes comprises first and second sections arranged in the length direction, and the first section is located closer in the length direction to the resistive element than the second section; a pair of lands on which the current detecting resistor is mounted to supply electricity to the resistive element, wherein the second sections of the pair of electrodes sit, respectively, on the pair of lands via a solder layer to establish direct electrical contact between the pair of lands and the second sections of the pair of electrodes, whereas the first sections of the pair of electrodes are devoid of any direct electrical contact with the pair of lands so that the first sections of the pair of electrodes are electrically connected to the pair of lands solely through the second sections thereof; and a pair of wires connected, respectively, to the first sections of the pair of electrodes for detection of voltage across the resistive element generated by supply of the electricity from the pair of bonds to the second sections of the pair of electrodes. 2. The current detecting device according to claim 1 , wherein the pair of electrodes and the resistive element are butt-joined together in series in the length direction. 3. The current detecting device according to claim 2 , wherein the current detecting resister has a thickness in a thickness direction in which the second sections of the pair of electrodes, and the pair of bonds are layered, and each electrode is formed with a step between the first and second sections so that the first section is formed stepped up or down in the thickness direction from the second section. 4. The current detecting device according to claim 3 , wherein the current detecting resister has upper and lower surfaces arranged in the thickness direction, and the first section of the pair of electrodes has a thickness in the thickness direction greater than a thickness of the resistive element, and further Wherein the pair of electrodes and the resistive element are connected so that the resistive element has an upper surface recessed down from upper surfaces of the first section of the pair of electrodes. 5. The current detecting device according to claim 1 , wherein the current detecting resistor has a width in a width direction in perpendicular to the length direction and in parallel to the pair of lands, and the current detecting resistor has side surfaces arranged in the width direction, and further wherein the resistive element comprising a side surface protruding in the width direction beyond side surfaces of the second sections of the pair of electrodes. 6. The current detecting device of claim 1 , further comprising: a metal film formed to cover the current detecting resistor, wherein the resistive element is partially exposed from the metal film. 7. A current detecting device comprising: a current detecting resistor including a pair of electrodes and a resistive element; a pair of lands on which the current detecting resistor is adapted to be mounted; connection portions adapted to connect the two electrodes and the two lands, respectively; and a pair of wires connected to the two respective electrodes and adapted to detect a voltage, wherein positions where the two wires are connected to the two respective electrodes are located in regions on a further inner side than inner ends of the connection portions, and further wherein ends of the pair of electrodes and the resistive element are butt-joined together, each electrode has a difference in height between a side connected to the resistive element and a side connected to one of the lands, at least one of the two electrodes has a protruding face that is thicker than the resistive element and has a difference in height from a surface of the resistive element, and one of the wires is connected to the protruding face.