Temperature sensor

The invention claimed is: 1. A temperature sensor comprising: an electrical circuit including a thermistor configured to be placed next to an object; a temperature measurement module configured for determining a measured temperature of the thermistor from an electrical quantity of the electrical circuit that depends on a resistance of the thermistor; and a command module configured for providing a command to the electrical circuit for modifying the electrical circuit behavior in a way that changes a current flowing in the thermistor; a thermal loss determination module configured for determining a thermal loss of the thermistor from the thermistor measured temperature and the command; and a temperature estimation module configured for estimating a temperature of the object from the thermistor measured temperature and from the thermal loss of the thermistor; wherein the temperature estimation module comprises: a global dynamic thermal model configured for providing the object estimated temperature, including, coupled together: a dynamic thermal model of the thermistor having a thermistor thermal loss parameter, and a dynamic thermal model of the object; a state observer configured to estimate a thermal loss correction from the thermistor measured temperature and the object estimated temperature; and a correction module configured for correcting the thermal loss of the thermistor according to the thermal loss correction to provide the thermistor thermal loss parameter. 2. The temperature sensor according to claim 1 , wherein the thermal loss determination module comprises first data and second data each associating the thermal loss of the thermistor to the measured temperature of the thermistor and wherein the thermal loss determination module is configured for providing the thermal loss associated to the measured temperature according to the first data when the command takes a first command value, and according to the second data when the command takes a second command value, different from the first command value. 3. The temperature sensor according to claim 2 , wherein the command module is configured for providing the command selectively at the first and second command values according to a comparison of an estimated temperature of the object with a hysteresis threshold. 4. The temperature sensor according to claim 1 , wherein the correction module is configured for adding the thermal loss correction to the thermal loss of the thermistor. 5. The temperature sensor according to claim 1 , further comprising a glass housing, inside of which the thermistor extends, while the object is configured to extend outside. 6. The temperature sensor according to claim 5 , wherein the global dynamic thermal model comprises a dynamic thermal model of the housing, coupled to the thermistor dynamic thermal model and to the object dynamic thermal model. 7. The temperature sensor according to claim 1 , wherein the electrical circuit comprises a resistance stage connected to the thermistor so as to form a voltage divider, and wherein the temperature measurement module is configured to measure a voltage at a middle point of the voltage divider. 8. The temperature sensor according to claim 7 , wherein the resistance stage has a resistance changing with the command. 9. The temperature sensor according to claim 8 , wherein the resistance stage comprises two resistors in parallel and a switch operated by the command for selectively connecting and disconnecting one of the two resistors. 10. An electric machine comprising a stator and a temperature sensor according to claim 1 , for estimating a temperature of the stator. 11. An electric drive comprising: an inverter; and the electric machine according to claim 10 , driven by the inverter. 12. A vehicle comprising: drive wheels and an electric drive according to claim 11 for driving, at least indirectly, at least one of the wheels.