Miniature integrated sensor circuit

We claim: 1. A miniature integrated CMOS sensor circuit comprising: disposed within an area of less than 0.1 mm 2 , a time-domain ADC module, a digital logic and control module, a data transmitter module, a power circuit module, a voltage reference module, an identification code tag, and an RF coil, wherein the RF coil is configured to receive power from and for telemetry communication with an external device unit, wherein the power circuit module and the voltage reference module are configured to generate a stable reference voltage from the power received by the RF coil, and wherein the sensor circuit is configured to derive a periodic clock signal from a signal received from the external device unit or from the stable reference voltage. 2. The miniature integrated CMOS sensor circuit according to claim 1 , further comprising a functionalization layer module configured for a particular sensing application and to perform transducer functions. 3. The miniature integrated CMOS sensor circuit according to claim 1 , wherein the time-domain ADC module is configured to use a current reference, a voltage reference, and a comparator to provide a digital output, wherein the digital output is the output of the comparator, and the output represents a digital value of a sensed signal to be converted by the ADC module. 4. The miniature integrated CMOS sensor circuit according to claim 3 , wherein the time-domain ADC module is configured to convert an electrical current into a saw-tooth wave of varying frequency, wherein the conversion into a digital value output includes measuring the frequency or period of the saw-tooth wave, wherein measuring the frequency or period of the saw-tooth wave utilizes the periodic clock signal. 5. The miniature integrated CMOS sensor circuit according to claim 1 , wherein one or more of the modules is associated with an identification code that identifies at least one of a type of sensed parameter or sensitivity, and wherein the data transmitter module is configured to transmit this identification code with all sensed data through the RF coil to the external device unit. 6. The miniature integrated CMOS sensor circuit according to claim 1 , wherein the identification code tag is an RF tag. 7. The miniature integrated CMOS sensor circuit according to claim 1 , wherein the time-domain ADC module is configured for at least one of photometric, impedimetric, or amperometric active sensing type. 8. The miniature integrated CMOS sensor circuit according to claim 7 , wherein the time-domain ADC module comprises a plurality of electronic switches that are configured to be activated/deactivated to select the active sensing type. 9. A biosensing device comprising at least one miniature integrated CMOS sensor circuit according to claim 1 . 10. A miniature integrated CMOS sensor circuit comprising: disposed within an area of less than 0.1 mm 2 , a time-domain ADC module, a digital logic and control module, a data transmitter module, a power circuit module, a voltage reference module, an identification code tag, and an RF coil, wherein the time-domain ADC module is configured to use a current reference, a voltage reference, and a comparator to provide a digital output, wherein the digital output is the output of the comparator, and the digital output represents a digital value of a sensed signal to be converted by the ADC module. 11. A miniature integrated CMOS sensor circuit comprising: disposed within an area of less than 0.1 mm 2 , a time-domain ADC module, a digital logic and control module, a data transmitter module, a power circuit module, a voltage reference module, an identification code tag, and an RF coil, wherein the time-domain ADC module is configured to convert a sensed signal into a digital output by converting the sensed signal into a saw-tooth wave of varying frequency and measuring a frequency or period of the saw-tooth wave. 12. The miniature integrated CMOS sensor circuit according to claim 11 , wherein the RF coil is configured to receive power from and for telemetry communication with an external device unit, wherein the power circuit module and the voltage reference module are configured to generate a stable reference voltage from the power received by the RF coil, wherein the sensor circuit is configured to derive a periodic clock signal from the stable reference voltage, and wherein measuring the frequency or period of the saw-tooth wave utilizes the periodic clock signal.