Analog-to-digital converter

What is claimed is: 1. A delta-sigma analog-to-digital converter (ADC), comprising: a loop filter; a multi-bit quantizer coupled to the loop filter, the quantizer comprising: a counter configured to provide a multi-bit output value that estimates an output of the loop filter to provide a digital output of the ADC; a reference voltage generator configured to generate a reference voltage ramp based on the output value of the counter; a comparator coupled to the reference voltage generator to compare the reference voltage ramp to output of the loop filter. 2. The ADC of claim 1 , wherein an output of the comparator is coupled to the counter to disable counting based on the reference voltage ramp exceeding the output of the loop filter. 3. The ADC of claim 1 , further comprising: a pulse width modulated (PWM) digital-to-analog converter (DAC); and a summing node; wherein the PWM DAC is configured to generate a PWM signal based on an output of the quantizer, the PWM signal provided to the summing node; wherein the summing node is configured to generate a difference of the PWM signal and an analog signal that is to be digitized by the ADC. 4. The ADC of claim 1 , further comprising: a first clock source that generates a first clock signal that clocks the counter; and a second clock source that generates a second clock signal having a period that is an integer multiple of the first clock signal, the second clock signal defining a sample period of the ADC. 5. The ADC of claim 4 , wherein bandwidth and dynamic range of the ADC are adjustable by changing frequency of the second clock signal relative to frequency of the first clock signal. 6. The ADC of claim 1 , wherein the loop filter comprises: a first integrator; a second integrator coupled to an output of the first integrator and configured to integrate output signal generated by the first integrator; and a sample and hold circuit coupled between the first integrator and the second integrator. 7. The ADC of claim 6 , wherein the sample and hold circuit is configured to sample the output signal generated by the first integrator at an output sample rate of the quantizer. 8. The ADC of claim 1 , wherein the loop filter comprises: a continuous time integrator; and a switched capacitor integrator coupled to an output of the continuous time integrator, the switched-capacitor integrator configured to sample the output of the continuous time integrator at an output sample rate of the quantizer. 9. The ADC of claim 1 , wherein the qualnizer comprises no more than one comparator. 10. A delta-sigma analog-to-digital converter (ADC), comprising: a multi-bit quantizer, wherein the quantizer comprises: a counter configured to provide a multi bit output value that estimates an output of the loop filter; a reference voltage generator configured to generate a reference voltage ramp based on the output value of the counter; a comparator coupled to the reference voltage generator to compare the reference voltage ramp to output of the loop filter; and a loop filter coupled to the quantizer, the loop filter configured to provide a signal to be quantized to the quantizer the loop filter comprising: a first integrator; a second integrator coupled to an output of the first integrator and configured to integrate output signal generated by the first integrator; and a sample and hold circuit coupled between the first integrator and the second integrator, the sample and hold circuit con red to sample the output signal generated by the first integrator at an output sample rate of the quantizer. 11. The ADC of claim 10 , wherein the first integrator is a continuous time integrator, and the second integrator and the sample and hold circuit are embodied in a switched capacitor integrator circuit. 12. The ADC of claim 10 , wherein an output of the comparator is coupled to the counter to disable counting based on the reference voltage ramp exceeding the output of the loop filter. 13. The ADC of claim 10 , further comprising a pulse width modulated (PWM) digital-to-analog converter (DAC) configured to generated a PWM signal based on an output of the quantizer, the PWM signal provided to a summing node the generates a difference of the PWM signal and an analog signal that is to be digitized by the ADC. 14. The ADC of claim 10 , further comprising: a first clock source that generates a first clock signal that clocks the counter; and a second clock source that generates a second clock signal having a period that is an integer multiple of the first clock signal, the second clock signal defining a sample period of the ADC. 15. The ADC of claim 14 , wherein bandwidth and dynamic range of the ADC are adjustable by changing a ratio of frequency of the second clock signal to frequency of the first clock signal. 16. A delta-sigma analog-to-digital converter (ADC), comprising: a summing node; a loop filter comprising: a first integrator; a second integrator coupled to an output of the first integrator and configured to integrate output signal generated by the first integrator; and a sample and hold circuit coupled between the first integrator and the second integrator; a multi-bit quantizer coupled to the loop filter, the quantizer comprising: a counter configured to provide a multi-bit output value that estimates an output of the loop filter; a reference voltage generator configured to generate a reference voltage ramp based on the output value of the counter; a comparator coupled to the reference voltage generator to compare the reference voltage ramp to output of the loop filter; and a pulse width modulated (PWM) digital-to-analog converter (DAC) configured to generated a PWM signal based on an output of the quantizer, the PWM signal provided to the summing node, wherein the summing node generates a difference of the PWM signal and an analog signal that is to be digitized by the ADC. 17. The ADC of claim 16 , further comprising: a first clock source that generates a first clock signal that clocks the counter; and a second clock source that generates a second clock signal having a period that is an integer multiple of the first clock signal, the second clock signal defining a sample period of the ADC; wherein bandwidth and dynamic range of the ADC are adjustable by changing frequency of the second clock signal relative to frequency of the first clock signal. 18. The ADC of claim 16 , wherein the sample and hold circuit is configured to sample the output signal generated by the first integrator at an output sample rate of the quantizer. 19. The ADC of claim 16 , wherein an output of the comparator is coupled to the counter to disable counting based on the reference voltage ramp exceeding the output of the loop filter.