Implantable sensor device adapted to sense a characteristic of a body in vivo

What is claimed is: 1. A sensor device, comprising: an implantable sensor unit adapted to be implanted into a body, the implantable sensor unit comprising a comparator and a pressure sensor adapted to sense a characteristic of the body in vivo, the pressure sensor being further adapted to supply an analogue signal to a first input of the comparator; a transponder unit adapted to supply a control signal to the implantable sensor unit and to receive an output signal of the comparator, the implantable sensor unit being adapted to supply an analogue approximation signal to a second input of the comparator in response to the control signal; and a wired connection flexibly and electrically connecting the implantable sensor unit and the transponder unit, the wired connection being adapted to transmit the control signal and the output signal of the comparator. 2. The sensor device of claim 1 , wherein the wired connection comprises at least two electrical lines electrically isolated from each other to supply an operating voltage from the transponder unit to the implantable sensor unit. 3. The sensor device of claim 2 , wherein the control signal is the operating voltage. 4. The sensor device of claim 1 , wherein the wired connection has a maximum diameter of 5 mm and a length in a range of 1 mm to 50 mm. 5. The sensor device of claim 1 , wherein the pressure sensor is adapted to sense a blood pressure within a vessel. 6. The sensor device of claim 5 , wherein the vessel is a carotid artery of a rodent. 7. The sensor device of claim 1 , wherein the implantable sensor unit is an integrated semiconductor circuit having a volume in a range between 0.1 mm 3 to 20 mm 3 . 8. The sensor device of claim 1 , wherein the implantable sensor unit further comprises at least one of a temperature sensor, an electrocardiogram sensor, an electroencephalogram sensor, a blood flow sensor, a chemical sensor, and a biochemical sensor. 9. The sensor device of claim 1 , wherein the implantable sensor unit comprises a multiplexer circuit to selectively connect at least two sensors with the first input of the comparator. 10. The sensor device of claim 1 , wherein the implantable sensor unit is adapted to supply the output signal of the comparator to the transponder unit via a modulated operating current. 11. The sensor device of claim 1 , wherein the implantable sensor unit further comprises: a digital-to-analogue converter adapted to supply the analogue approximation signal to the second input of the comparator based on a digital approximation signal; and an approximation register circuit adapted to supply the digital approximation signal to the digital-to-analogue converter in response to the control signal of the transponder unit. 12. The sensor device of claim 11 , wherein the transponder unit comprises: a transponder control circuit adapted to supply the control signal to the implantable sensor unit; and a shadow approximation register circuit adapted to generate a digital shadow approximation signal identical to the digital approximation signal on the basis of the control signal and the output signal of the comparator. 13. The sensor device of claim 12 , wherein the control signal is adapted to initialize the approximation register circuit and the shadow approximation register circuit. 14. The sensor device of claim 12 , wherein the transponder unit further comprises: a processing circuit adapted to determine digital sensor data from the digital shadow approximation signal; and a transponder adapted to transmit the digital sensor data to an external reader. 15. The sensor device of claim 12 , further comprising: a clock circuit adapted to supply a clock signal to the implantable sensor unit and the transponder unit, the clock signal being adapted to synchronize the approximation register circuit and the shadow approximation register circuit. 16. The sensor device of claim 15 , wherein the implantable sensor unit is configured to switch from a successive approximation mode into a tracking mode after a predefined number of clock cycles of the clock signal. 17. The sensor device of claim 15 , wherein the implantable sensor unit is adapted to take a new sample of the analogue signal at a beginning of each successive conversion cycle and after a defined number of tracking steps. 18. The sensor device of claim 15 , wherein the transponder unit comprises the clock circuit, the transponder unit being adapted to interrupt an operation of the approximation register circuit and the shadow approximation register circuit by interrupting the clock signal. 19. The sensor device of claim 15 , wherein the transponder unit comprises the clock circuit, the transponder unit being adapted to supply the clock signal to the implantable sensor unit via a modulated operating voltage. 20. The sensor device of claim 15 , wherein the implantable sensor unit comprises the clock circuit, the implantable sensor unit being adapted to supply the clock signal to the transponder unit. 21. The sensor device of claim 20 , the implantable sensor unit is adapted to supply the clock signal to the transponder unit via a modulated output signal of the comparator. 22. The sensor device of claim 21 , wherein the modulated output signal of the comparator is a Manchester Code Signal.