Low power analog-to-digital converter for sensing geophone signals

What is claimed is: 1. A low power analog-to-digital converter configured to sense sensor signals, comprising: a loop filter having a loop filter input configured to receive an input current signal from a sensor and generate an output signal responsive to the input current signal; and a feedback digital-to-analog converter having a feedback output configured generate one of a current-mode feedback output signal or a charge-mode feedback output signal responsive to the output signal, the feedback output coupled to the loop filter input in order to combine the input current signal and the feedback output signal at the loop filter input. 2. The analog-to-digital converter of claim 1 , wherein the sensor comprises a geophone, outputting a low power signal. 3. The analog-to-digital converter of claim 1 , wherein the output signal is a digital signal. 4. The analog-to-digital converter of claim 1 , wherein the loop filter comprises a delta-sigma converter configured to convert the input current signal into the output signal. 5. The analog-to-digital converter of claim 1 , wherein the loop filter comprises an integrator including an amplifier having an input comprising the loop filter input and having a feedback capacitor coupled between the input of the amplifier and an output of the amplifier, the integrator configured to provide a virtual ground at the loop filter input. 6. The analog-to-digital converter of claim 1 , wherein the loop filter comprises a transconductance gain stage having differential inputs including a first input comprising the loop filter input, and wherein the transconductance gain stage comprises a capacitor coupled across the differential inputs. 7. The analog-to-digital converter of claim 1 , wherein the feedback digital-to-analog converter comprises a plurality of switched current sources. 8. The analog-to-digital converter of claim 1 , wherein the feedback digital-to-analog converter comprises a resistor digital-to-analog converter. 9. The analog-to-digital converter of claim 1 , further comprising a scramble block for scrambling selection of digital-to-analog elements of the feedback digital-to-analog converter. 10. The analog-to-digital converter of claim 1 , further comprising calibration logic for linearizing the analog-to-digital converter. 11. The analog-to-digital converter of claim 10 , wherein the calibration logic linearizes the analog-to-digital converter by determining ratios of resistors of the feedback analog-to-digital converter and the analog-to-digital converter further comprises a digital filter for filtering the output signal based on the ratios. 12. A method for sensing sensor signals, comprising: receiving an input current signal from a sensor in a loop filter having a loop filter input; generating an output signal responsive to the input current signal by the loop filter; generating one of a current-mode feedback output signal or a charge-mode feedback output signal responsive to the output signal; and combining the input current signal and the feedback output signal at the loop filter input. 13. The method of claim 12 , wherein the sensor comprises a geophone, outputting a low power signal. 14. The method of claim 12 , wherein the output signal is a digital signal. 15. The method of claim 12 , wherein the loop filter comprises a delta-sigma converter configured to convert the input current signal into the output signal. 16. The method of claim 12 , wherein the loop filter comprises an integrator including an amplifier having an input comprising the loop filter input and having a feedback capacitor coupled between the input of the amplifier and an output of the amplifier, the integrator configured to provide a virtual ground at the loop filter input. 17. The method of claim 12 , wherein the loop filter comprises a transconductance gain stage having differential inputs including a first input comprising the loop filter input, and wherein the transconductance gain stage comprises a capacitor coupled across the differential inputs. 18. The method of claim 12 , wherein the feedback digital-to-analog converter comprises a plurality of switched current sources. 19. The method of claim 12 , wherein the feedback digital-to-analog converter comprises a resistor digital-to-analog converter. 20. The method of claim 12 , further comprising scrambling selection of digital-to-analog elements of the feedback digital-to-analog converter with a scramble block for. 21. The method of claim 12 , further comprising linearizing the output signal with calibration logic. 22. The method of claim 21 , wherein the calibration logic linearizes the analog-to-digital converter by determining ratios of resistors of the feedback analog-to-digital converter and the method further comprises a filtering the output signal based on the ratios.