Shunt resistor and method for manufacturing same

The invention claimed is: 1. A shunt resistor, comprising: 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 and has a predetermined set resistance value, wherein the resistive alloy plate is provided at a surface with a visually recognizable character string pattern formed by laser processing and the character string pattern indicates the set resistance value of the resistive alloy plate, and a surface area and a carving depth of the character string pattern are set in such a manner that the resistive alloy plate has the set resistance value. 2. 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 and has a predetermined set resistance value, the method comprising: providing a resistor material in which the pair of electrode plates are connected to each other via the resistive alloy plate; measuring an initial resistance value of the resistive alloy plate; carving a region via laser processing, where a visually recognizable character string pattern indicating the set resistance value is to be formed out of a surface of the resistive alloy plate so as to form the character string pattern, the laser processing being performed at such a laser output value that a carving depth is a predetermined reference depth; measuring a character string pattern reference depth state resistance value of the resistive alloy plate that is in a state where the character string pattern has the reference depth; calculating a reference changed resistance value of the resistive alloy plate that changes due to single reference output laser processing, based on the initial resistance value and the character string pattern reference depth state resistance value; and performing reference depth laser processing only the necessary number of times calculated based on the reference changed resistance value and the difference between the character string pattern reference depth state resistance value and the set resistance value. 3. 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 and has a predetermined set resistance value, the method comprising: providing a resistor material in which the pair of electrode plates are connected to each other via the resistive alloy plate; measuring an initial resistance value of the resistive alloy plate; calculating a laser output value capable of changing the resistance of the resistive alloy plate from the initial resistance value to the set resistance value, using data concerning a changed resistance value/a laser output that is provided for each of a plurality of expected set resistance values, wherein the data indicates a relationship between a size of a changed resistance value of the resistive alloy plate that changes due to the laser processing performed to carve a region where a visually recognizable character string pattern indicating the set resistance value and having a set surface area is to be formed out of the surface of the resistive alloy plate so that the character string pattern is formed and a size of the laser output; and performing laser processing with the laser having the calculated laser output value on the region where the character string pattern is to be formed. 4. 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 and has a predetermined set resistance value, the method comprising: providing a resistor material in which the pair of electrode plates are connected to each other via the resistive alloy plate; measuring an initial resistance value of the resistive alloy plate; calculating a surface area of a character string pattern, which indicates the set resistance value in a visually recognizable manner, necessary for changing the resistance of the resistive alloy plate from the initial resistance value to the set resistance value by laser processing with a laser having a reference output value, using data concerning a changed resistance value/the character string pattern surface area that is provided for each of a plurality of expected set resistance values, wherein the data indicates a relationship between the surface area of the character string pattern and a size of the changed resistance value of the resistive alloy plate that changes due to laser processing that carves a region by a laser having a reference output value, where the visually recognizable character string pattern indicating the set resistance value is to be formed out of the surface of the resistive alloy plate so that the character string pattern is formed and forming the character string pattern by performing laser processing with the laser having the reference output value so that the character string pattern has the calculated surface area.