Thermal sensor and method for producing a thermal sensor

The invention claimed is: 1. A thermal sensor for providing a temperature-dependent output signal between a first output and a second output, the thermal sensor including: a field-effect transistor having a gate terminal, a source terminal, and a drain terminal; a diode connected to the drain terminal of the field-effect transistor via a first connecting point and connected to the first output of the thermal sensor via a second connecting point; and a thermoelectric generator configured to provide a temperature-dependent voltage between a third connecting point and a fourth connecting point, the third connecting point being connected to the gate terminal of the field-effect transistor, the fourth connecting point being connected to the source terminal of the field-effect transistor, and to the second output of the thermal sensor. 2. The thermal sensor as claimed in claim 1 , wherein the thermoelectric generator comprises a thermal element including at least two conducting paths made of materials having different Seebeck coefficients. 3. The thermal sensor as claimed in claim 2 , wherein the thermoelectric generator comprises a thermal pile including a plurality of thermal elements. 4. The thermal sensor as claimed in claim 1 , wherein the field-effect transistor, the third connecting point of the thermoelectric generator, and the fourth connecting point of the thermoelectric generator are arranged on a shared substrate. 5. The thermal sensor as claimed in claim 1 , wherein the field-effect transistor, the third connecting point of the thermoelectric generator, the fourth connecting point of the thermoelectric generator, and the diode are arranged on a shared substrate. 6. A sensor array comprising: a plurality of thermal sensors, the plurality of thermal sensors being arranged in a matrix made up of rows and columns, each thermal sensor of the plurality of thermal sensors being individually addressable, each thermal sensor of the plurality of thermal sensors comprising: a field-effect transistor having a gate terminal, a source terminal, and a drain terminal; a diode connected to the drain terminal of the field-effect transistor via a first connecting point and connected to the first output of the thermal sensor via a second connecting point; and a thermoelectric generator configured to provide a temperature-dependent voltage between a third connecting point and a fourth connecting point, the third connecting point being connected to the gate terminal of the field-effect transistor, the fourth connecting point being connected to the source terminal of the field-effect transistor and to the second output of the thermal sensor. 7. The sensor array as claimed in claim 6 , wherein the sensor array is included in a camera. 8. A method for producing a thermal sensor that provides a temperature-dependent output signal between a first output and a second output, the method comprising: providing a field-effect transistor having a gate terminal, a source terminal, and a drain terminal; providing a diode having a first connecting point and a second connecting point; providing a thermoelectric generator configured to provide a temperature-dependent voltage between a third connecting point and a fourth connecting point; connecting the first connecting point of the diode to the drain terminal of the field-effect transistor; connecting the second connecting point of the diode to the first output of the thermal sensor; connecting the third connecting point of the thermoelectric generator to the gate terminal of the field-effect transistor; and connecting the fourth connecting point of the thermoelectric generator to the source terminal of the field-effect transistor and to the second output of the thermal sensor.