Circuit arrangement for an optical monitoring system and method for optical monitoring

The invention claimed is: 1. A circuit arrangement for an optical monitoring system, comprising: a driver circuit configured to generate at least one driving signal for driving the light source, a detector terminal for receiving a detector current from an optical detector, a gain stage connected at its input side to the driver circuit for receiving the driving signal and generating a noise signal depending on the driving signal, wherein the gain stage comprises a chopper amplifier or a differential amplifier, and a processing unit configured to generate an output signal depending on the detector current and the noise signal. 2. The circuit arrangement according to claim 1 , wherein the processing unit comprises an amplifier circuit with an input side connected to the detector terminal, a demodulation and signal processing unit connected to an output side of the amplifier circuit, and an analog-to-digital converter connected to an output side of the demodulation and signal processing unit. 3. The circuit arrangement according to claim 2 , wherein the amplifier circuit is implemented and connected as a transimpedance amplifier with a first input connected to the detector terminal and with a second input connected to a reference terminal, and the demodulation and signal processing unit comprises an optional first bandpass filter, a synchronous demodulator, and a second bandpass filter connected in series. 4. The circuit arrangement according to claim 2 , wherein a reference generator is configured to generate a reference signal with a known frequency and phase, the driving circuit comprises a control input which is connected to the reference generator, and the demodulation and signal processing unit comprises a signal input which is connected to the reference generator. 5. The circuit arrangement according to claim 4 , wherein a signal and hold switch which is connected between the driving circuit and the input side of the gain stage, and a switch control input is coupled to the demodulation and signal processing unit, the reference generator and the control input. 6. The circuit arrangement according to claim 2 , wherein an output side of the gain stage is connected to a reference input of the analog-to-digital converter to receive the noise signal as a reference for the analog-to-digital converter. 7. The circuit arrangement according to according to claim 2 , wherein a first input select switch is coupled between the demodulation and signal processing unit and the analog-to-digital converter, wherein in a first switching state the first input select switch electrically connects the demodulation and signal processing unit and the analog-to-digital converter, and wherein in a second switching state the first input select switch electrically connects the gain stage and the analog-to-digital converter. 8. The circuit arrangement according to claim 7 , wherein a second input select switch is coupled between the signal and hold switch and the gain stage, wherein in a third switching state the second input select switch electrically connects the driving circuit and the gain stage, and wherein in a fourth switching state the second input select switch electrically connects a reference potential to the gain stage. 9. The circuit arrangement according to claim 8 , wherein a control and processing unit is connected to an output side of the analog-to-digital converter and coupled to the first and/or second input select switch, and wherein the control and processing unit is arranged to control the switching states of the first and/or second switch. 10. The circuit arrangement according to claim 1 , further comprising the light source, wherein the light source comprises at least one optical emitter configured and arranged to be driven by the at least one driving signal. 11. The circuit arrangement according to claim 1 , further comprising the optical detector. 12. The circuit arrangement according to claim 1 , wherein the output signal is a photoplethysmogram, PPG, signal or a signal suitable for generating a PPG signal. 13. The circuit arrangement according to claim 1 , wherein the gain stage is an analog gain stage. 14. A method for optical monitoring, the method comprising the steps of: generating at least one driving signal for driving a light source, receiving a detector current from an optical detector, generating a noise signal with a gain stage depending on the at least one driving signal, wherein the gain stage comprises a chopper amplifier or a differential amplifier, and generating an output signal depending on a combination of the detector current and the noise signal. 15. The method for optical monitoring according to claim 14 , wherein the noise signal is an analog signal. 16. The method according to claim 14 , further comprising: illuminating a target region of an object by means of light emitted by the light source, detecting a fraction of the light being reflected from and/or transmitted by the target region and/or a region of the object being adjacent to the target region, and generating the detector current based on the detected fraction of the light. 17. A circuit arrangement for an optical monitoring system, comprising: a driver circuit configured to generate at least one driving signal for driving a light source, a detector terminal for receiving a detector current from an optical detector, a gain stage connected at its input side to the driver circuit for receiving the driving signal and generating a noise signal depending on the driving signal, a processing unit configured to generate an output signal depending on the detector current and the noise signal, further comprising: an amplifier circuit with an input side connected to the detector terminal, a demodulation and signal processing unit connected to an output side of the amplifier circuit, and an analog-to-digital converter connected to an output side of the demodulation and signal processing unit; and wherein: an output side of the gain stage is connected to a reference input of the analog-to-digital converter to receive the noise signal as a reference for the analog-to-digital converter; or wherein: a first input select switch is coupled between the demodulation and signal processing unit and the analog-to-digital converter, wherein in a first switching state the first input select switch electrically connects the demodulation and signal processing unit and the analog-to-digital converter, and wherein in a second switching state the first input select switch electrically connects the gain stage and the analog-to-digital converter.