Thermoelectric generation unit

The invention claimed is: 1. A thermoelectric generator unit comprising: a case having a heating surface and a cooling surface; a plurality of thermoelectric generator modules housed in the case, the thermoelectric generator modules comprising a plurality of thermoelectric elements; a multilayer substrate comprising: a first layer comprising an interelement electrode for forming an output circuit configured to connect the thermoelectric elements; a second layer provided with a plurality of through holes penetrating therethrough from front to back; and a third layer comprising a plurality of bypass patterns electrically continuous with the through holes; and a plurality of lead pins that penetrate through the case inward and outward, the plurality of lead pins having base ends connected to both ends of the output circuit on a surface of the first layer, the output circuit being defined in each of the thermoelectric generator modules; wherein the thermoelectric generator unit is configured to detect an output from each of the thermoelectric generator modules and an output from a selective combination of two or more of the thermoelectric generator modules, wherein the output from each of the thermoelectric generator modules is detected through a first set of lead pins among the plurality of lead pins, and wherein the output from the selective combination of two or more of the thermoelectric generator modules is detected through a second set of lead pins among the plurality of lead pins that is different from the first set of lead pins. 2. The thermoelectric generator unit according to claim 1 , wherein the multilayer substrate is provided between the cooling surface and the thermoelectric generator modules. 3. The thermoelectric generator unit according to claim 1 , further comprising a heat insulating member provided in the case between the heating surface and the lead pins. 4. The thermoelectric generator unit according to claim 1 , wherein the thermoelectric generator unit is configured to detect from each of the thermoelectric generator modules electric current generated by the Seebeck effect. 5. The thermoelectric generator unit according to claim 1 , wherein the thermoelectric generator unit is configured to detect an output from a combination of all of the thermoelectric generator modules housed in the case. 6. The thermoelectric generator unit according to claim 1 , wherein the thermoelectric generator unit is configured to detect a first output from a first selective combination of the thermoelectric generator modules and a second output from a second selective combination of the thermoelectric generator modules, the second selective combination including less thermoelectric generator modules than the first selective combination. 7. The thermoelectric generator unit according to claim 6 , wherein the first output is detected through a different set of lead pins among the plurality of lead pins than the second output. 8. The thermoelectric generator unit according to claim 1 , wherein each selective combination of two or more of the thermoelectric generator modules corresponds to a different set of lead pins among the plurality of lead pins. 9. The thermoelectric generator unit according to claim 1 , further comprising a first thermocouple configured to measure a temperature of the heating surface, and a second thermocouple configured to measure a temperature of the cooling surface. 10. The thermoelectric generator unit according to claim 9 , wherein the plurality of lead pins further include a third set of lead pins that are connected to the first and second thermocouples.