Method for manufacturing shunt resistor

The invention claimed is: 1. A method of manufacturing a shunt resistor that includes a pair of electrode plates spaced apart from each other in a plate surface direction and a resistive alloy plate that connects the pair of electrode plates, the manufacturing method comprising: providing an alloy member for forming the resistive alloy plate, the alloy member having a resistance value between the pair of electrode plates when the alloy member connects the pair of electrode plates that is smaller than the desired resistance value; forming a resistor preassembly by connecting the pair of electrode plates via the alloy member; measuring an initial resistance value between the pair of electrode plates in the resistor preassembly; calculating a difference between the initial resistance value and the desired resistance value as a resistance value to be adjusted; providing a plurality of recess forming members capable of forming recesses by being pressed against the surface of the resistive alloy plate; determining the size and the number of the recesses necessary to be formed in the resistance alloy plate to adjust the resistance value of the resistive alloy plate by the resistance value to be adjusted; and forming the recesses according to the size and the number of the recesses determined in the recess determining step by using the corresponding recess forming members among the plurality of recess forming members. 2. The method of manufacturing the shunt resistor according to claim 1 , wherein tips of the plurality of recess forming members that are pressed against the surface of the resistive alloy plate have a shape of a quadrangular pyramid or a cone. 3. The method of manufacturing the shunt resistor according to claim 2 , wherein the plurality of recess forming members includes a first recess forming member capable of forming a first recess having a first size, a second forming member capable of forming a second recess smaller than the first recess and a third recess forming member capable of forming a third recess smaller than the second recess; and wherein the recess determining step includes a first calculating step of calculating the number of the first recesses that can be formed within the range of the resistance value to be adjusted, a second calculating step of calculating the number of the second recesses that can be formed within the range of the remaining resistance value to be adjusted obtained by subtracting the resistance value increased according to the number of the first recesses calculated in the first calculating step, and a third calculating step of calculating the number of the third recesses that can be formed within the range of the remaining resistance value to be adjusted obtained by subtracting the resistance value increased according to the number of the second recesses calculated in the second calculating step. 4. The method of manufacturing the shunt resistor according to claim 3 , wherein the first recess has such a size that the resistance value between the pair of electrode plates can be increased by a first resistance value, the second recess has such a size that the resistance value between the pair of electrode plates can be increased by a second resistance value that is half the first resistance value, and the third recess has such a size that the resistance value between the pair of electrode plates can be increased by a third resistance value that is half the second resistance value. 5. The method of manufacturing the shunt resistor according to claim 4 , wherein the surface of the resistive alloy plate has first to third regions where the first to third recesses are respectively formed. 6. The method of manufacturing the shunt resistor according to claim 3 , wherein the surface of the resistive alloy plate has first to third regions where the first to third recesses are respectively formed. 7. The method of manufacturing the shunt resistor according to claim 1 , wherein the plurality of recess forming members includes a first recess forming member capable of forming a first recess having a first size, a second forming member capable of forming a second recess smaller than the first recess and a third recess forming member capable of forming a third recess smaller than the second recess; and wherein the recess determining step includes a first calculating step of calculating the number of the first recesses that can be formed within a range of the resistance value to be adjusted, a second calculating step of calculating the number of the second recesses that can be formed within a range of the remaining resistance value to be adjusted obtained by subtracting the resistance value increased according to the number of the first recesses calculated in the first calculating step, and a third calculating step of calculating the number of the third recesses that can be formed within the range of the remaining resistance value to be adjusted obtained by subtracting the resistance value increased according to the number of the second recesses calculated in the second calculating step. 8. The method of manufacturing the shunt resistor according to claim 7 , wherein the first recess has such a size that the resistance value between the pair of electrode plates can be increased by a first resistance value, the second recess has such a size that the resistance value between the pair of electrode plates can be increased by a second resistance value that is half the first resistance value, and the third recess has such a size that the resistance value between the pair of electrode plates can be increased by a third resistance value that is half the second resistance value. 9. The method of manufacturing the shunt resistor according to claim 8 , wherein the surface of the resistive alloy plate has first to third regions where the first to third recesses are respectively formed. 10. The method of manufacturing the shunt resistor according to claim 7 , wherein the surface of the resistive alloy plate has first, second, and third regions where the first, second, and third recesses are respectively formed. 11. A method of manufacturing a shunt resistor that includes a pair of electrode plates spaced apart from each other in a plate surface direction and a resistive alloy plate that connects the pair of electrode plates, the manufacturing method comprising: providing an alloy member for forming the resistive alloy plate, the alloy member having a resistance value between the pair of electrode plates when the alloy member connects the pair of electrode plates that is smaller than the desired resistance value; forming a resistor preassembly by connecting the pair of electrode plates via the alloy member; measuring an initial resistance value between the pair of electrode plates in the resistor preassembly; calculating a difference between the initial resistance value and the desired resistance value as a resistance value to be adjusted; providing a plurality of recess forming members capable of forming recesses by being pressed against the surface of the resistive alloy plate; determining step the size and the number of the recesses necessary to be formed in the resistance alloy plate to adjust the resistance value of the resistive alloy plate by the resistance value to be adjusted; and forming the recesses according to the size and the number of the recesses determined in the recess determining step by using the corresponding recess forming members among the plurality of recess forming members wherein the plurality of recess forming members includes a first recess forming member capable of forming a first recess having a first size, a second forming member capable of forming a sec