Sulfurization detection resistor and manufacturing method therefor

The invention claimed is: 1. A sulfurization detection resistor comprising an insulated substrate having a rectangular parallelepiped shape, a pair of front electrodes formed at both ends on a main surface of the insulated substrate, resistive elements and sulfurization detecting conductors, each resistive element and each sulfurization detecting conductor being formed in series between the pair of front electrodes, and a protective film formed to entirely cover the resistive elements and partially cover the sulfurization detecting conductors, wherein the multiple sulfurization detecting conductors are connected in parallel to the front electrodes and have their sulfurization detecting portions that are exposed out of the protective film; the multiple sulfurization detecting conductors respectively have material compositions having principally Ag but with different contents of Pd; and different timings are set for the multiple sulfurization detecting portions respectively to become disconnected depending on a cumulative amount of sulfurization. 2. The sulfurization detection resistor according to claim 1 , wherein the multiple sulfurization detecting portions have identical surface areas that are exposed out of the protective film. 3. The sulfurization detection resistor according to claim 2 , wherein the multiple sulfurization detecting conductors have respectively different film thicknesses. 4. The sulfurization detection resistor according to claim 1 , wherein the multiple sulfurization detecting conductors have respectively different film thicknesses. 5. The sulfurization detection resistor according to claim 1 , wherein the protective film is formed to cover connections that connect the multiple sulfurization detecting conductors with the front electrodes. 6. The sulfurization detection resistor according to claim 1 , wherein the protective film is formed between the multiple sulfurization detecting portions arranged in parallel. 7. The sulfurization detection resistor according to claim 1 , wherein a conduction ensuring circuit section is formed in parallel with the sulfurization detecting conductors between the pair of front electrodes, the conduction ensuring circuit section includes a resistive element and a conductor connected in series, and both the resistive element and the conductor are covered by the protective film. 8. The sulfurization detection resistor according to claim 1 , wherein in regard to the resistive elements and the sulfurization detecting conductors, each resistive element and each sulfurization detecting conductor being formed in series between the pair of front electrodes, a trimming groove is formed in the each resistive element, and the each sulfurization detecting conductor and a conductor for measurement are connected across the each resistive element at either end thereof. 9. The sulfurization detection resistor according to claim 8 , wherein the conductor for measurement is a sulfurization detecting conductor, and sulfurization detecting portions having identical surface areas are defined respectively in a pair of conductors for measurement connected across the each resistive element at either end thereof. 10. A sulfurization detection resistor manufacturing method comprising: a front electrode forming step of forming multiple pairs of opposing front electrodes in a separated state at both ends on a main surface of an insulated substrate; a series circuit section forming step of forming resistive elements and sulfurization detecting conductors such that each resistive element and each sulfurization detecting conductor are connected in series between the multiple pairs of the front electrodes, respectively; a resistance value trimming step of bringing probes into contact with the multiple pairs of the front electrodes and adjusting a resistance value of each individual one of the multiple resistive elements; and after the resistance value trimming step, a protective film forming step of forming a protective film to entirely cover the resistive elements and partially cover the sulfurization detecting conductors, wherein the resistive elements and the sulfurization detecting conductors are comprised in the multiple series circuit sections, wherein, in the protective film forming step, sulfurization detecting portions are defined to be exposed out of the protective film respectively in the sulfurization detecting conductors comprised in the multiple series circuit sections, and different timings are set for the multiple sulfurization detecting portions respectively to become disconnected depending on a cumulative amount of sulfurization.