Shunt resistor

What is claimed is: 1. A shunt resistor comprising: a main body plate extensive in a first plane and having longitudinal ends opposite to each other and lateral ends opposite to each other, wherein the main body has a predetermined resistance across the longitudinal ends; first and second terminal plates shaped similarly to each other and configured to extend in opposite directions, respectively, from the longitudinal ends of the main body portion, wherein the first and second terminal plates extend, respectively, in second and third planes both parallel to the first plane, and the third plane is located between the first and second plane; a protruding portion protruding from at least one of the lateral ends of the main body; and a metal film coated over the main body portion, except a distal end of the protruding portion which is free of coating, wherein the first and second terminal plates are configured for electrical connection to measure a voltage generated across the longitudinal ends of the main body plate by an electrical current flowing through the predetermined resistance of the main body plate, and the main body plate dispenses with any electrical connection to measure a voltage generated across any longitudinal range of the main body plate between the longitudinal ends of the main body plate. 2. The shunt resistor according to claim 1 , wherein the lateral ends of the main body portion have a first protruding portion and a second protruding portion protruding, respectively, therefrom, and the first protruding portion and the second protruding portion are formed in different shapes. 3. The shunt resistor according to claim 2 , wherein one of a distal end of the first protruding portion protruding from one lateral end of the main body portion or a distal end of the second protruding portion protruding from the other lateral end of the main body is not coated with the metal film. 4. A method for manufacturing a shunt resistor, the shunt resistor including a main body plate having longitudinal ends and lateral ends, first and second terminal plates extending in opposite directions, respectively, from the longitudinal ends of the main body plates, and a protruding portion protruding from at least one of the lateral ends of the main body plate, the method comprising: preparing a base plate made of a metal material; forming, in the base plate, laterally elongated holes for defining longitudinal distal ends of the first and second terminal plates forming, in the base plate, longitudinally elongated holes for defining lateral ends of the shunt resistances, wherein forming, in the base plate, longitudinally elongated holes for defining lateral ends of the shunt resistances comprises forming a first bridge between two adjacent longitudinally elongated holes for defining the protruding portion on one of the lateral ends of a respective main body plate; pressing the base plate so that the main body plates lie in a first plane and the first and second terminal plates lie, respectively, in second and third planes both parallel to the first plane, and the third plane being located between the first and second planes; cutting the base plate along the other of the lateral ends of the main body plates; coating the main body plates with a metal film; and cutting the base plate and the protruding portions along said one of the lateral ends of the main body plates on which the projection portions are formed, wherein the main body plates are coated with the metal film, except distal ends of the protruding portions which are free of coating, wherein the main body plate has a predetermined resistance across the longitudinal ends of the main body, and the first and second terminal plates are configured for electrical connection to measure a voltage generated across the longitudinal ends of the main body plate by an electrical current flowing through the predetermined resistance of the main body plate, and further wherein the main body plate dispenses with any electrical connection to measure a voltage generated across any longitudinal range of the main body plate between the longitudinal ends of the main body plate. 5. The method according to claim 4 , wherein cutting the base plate and the protruding portions along said one of the lateral ends of the main body plates comprising adjusting a height of the protruding portions to adjust a resistance value of the main body plate equal to the predetermined resistance, wherein the protruding portion is cut. 6. The method according to claim 5 , wherein forming, in the base plate, longitudinally elongated holes comprises forming a second bridge between two adjacent longitudinally elongated holes for defining the protruding portion on the other of the lateral ends of a respective main body plate. 7. The method according to claim 6 , wherein forming, in the base plate, longitudinally elongated holes comprises forming second and third bridges for defining a pair of the protruding portions on the other of the lateral ends of a respective main body plate.