Loop delay compensation in a delta-sigma modulator

What is claimed is: 1. A modulator, comprising: a first integrator having an input node and a first integrator output; a first digital-to-analog converter (DAC) coupled to the first integrator output; a second integrator having a second integrator input and a second integrator output, the second integrator input coupled to the first integrator output; a comparator having a comparator input, and a comparator output, the comparator input coupled to the second integrator output; and a second current DAC comprising: a current source device; a first transistor having a first transistor control input and first and second current terminals, the first current terminal coupled to the current source device, and the second current terminal coupled to the second integrator output; a second transistor having a second transistor control input and third and fourth current terminals, the third current terminal coupled to the current source device, and the fourth current terminal coupled to the second integrator output; and a first capacitive device coupled to the first transistor control input and to both the fourth current terminal and the second integrator output. 2. The modulator of claim 1 , further comprising a second capacitive device coupled to the second transistor control input and to both the second current terminal and the second integrator output. 3. The modulator of claim 2 , wherein a propagation delay of the comparator is compensated by the first and second capacitive devices. 4. The modulator of claim 2 , further comprising: a third capacitive device coupled between the first capacitive device and a ground node; and a fourth capacitive device coupled between the second capacitive device and the ground node. 5. The modulator of claim 4 , wherein a capacitance of the first capacitive device is equal to a capacitance of the second capacitive device, and wherein a capacitance of the third capacitive device is equal to a capacitance of the fourth capacitive device. 6. The modulator of claim 4 , wherein: the comparator output includes a first comparator output and a second comparator output; the second comparator is configured to output a logical inverse of the first comparator output; the first transistor control input is coupled to the first comparator output; the second transistor control input is coupled to the second comparator output; when the first transistor is on, the second transistor is off, and the first transistor is configured to provide current from the current source device to charge the fourth capacitive device, and a voltage level on the second integrator output is configured to have a step up; and when the second transistor is on, the first transistor is off, and the second transistor is configured to provide current from the current source device to charge the third capacitive device, and a voltage level on the second integrator\output is configured to have a step down. 7. The modulator of claim 1 , further comprising a second capacitive device coupled between the first capacitive device and a ground node. 8. The modulator of claim 1 , wherein: the comparator output includes a first comparator output and a second comparator output; the second comparator is configured to output a logical inverse of the first comparator output; the first transistor control input is coupled to the first comparator output; and the second transistor control input is coupled to the second comparator output. 9. A modulator, comprising: a first integrator having a first integrator output a comparator having a comparator input, and a comparator output, the comparator input coupled to the first integrator output; and a first current digital-to-analog converter (DAC) comprising: a current source device; a first transistor having a first transistor control input and first and second current terminals, the first current terminal coupled to the current source device, and the second current terminal coupled to the first integrator output; a second transistor having a second transistor control input and third and fourth current terminals, the third current terminal coupled to the current source device, and the fourth current terminal coupled to the first integrator output; and a first capacitive device coupled to the second transistor control input and to both the second current terminal and the first integrator output. 10. The modulator of claim 9 , further comprising: a second integrator having an input node and a second integrator output coupled to an input of the first integrator; and a second DAC having a second DAC output coupled to the second integrator output, and the second DAC having a second DAC input coupled to the comparator output. 11. The modulator of claim 9 , further comprising a second capacitive device coupled to the first transistor control input and to both the fourth current terminal and the first integrator output. 12. The modulator of claim 11 , wherein a propagation delay of the comparator is compensated by the first and second capacitive devices. 13. The modulator of claim 11 , further comprising: a third capacitive device coupled between the first capacitive device and a ground node; and a fourth capacitive device coupled between the second capacitive device and the ground node. 14. The modulator of claim 13 , wherein a capacitance of the first capacitive device is equal to a capacitance of the second capacitive device, and wherein a capacitance of the third capacitive device is equal to a capacitance of the fourth capacitive device. 15. The modulator of claim 13 , wherein: the comparator output includes a first comparator output and a second comparator output; the second comparator is configured to output a logical inverse of the first comparator output; the first transistor control input is coupled to the first comparator output; the second transistor control input is coupled to the second comparator output; when the first transistor is on, the second transistor is off, and the first transistor is configured to provide current from the current source device to charge the third capacitive device, and a voltage level on the first integrator output is configured to have a step up; and when the second transistor is on, the first transistor is off, and the second transistor is configured to provide current from the current source device to charge the fourth capacitive device, and a voltage level on the first integrator output is configured to have a step down. 16. The modulator of claim 9 , further comprising a second capacitive device coupled between the first capacitive device and a ground node. 17. The modulator of claim 9 , wherein: the comparator output includes a first comparator output and a second comparator output; the second comparator is configured to output a logical inverse of the first comparator output; the first transistor control input is coupled to the first comparator output; and the second transistor control input is coupled to the second comparator output. 18. A modulator, comprising: a first integrator having an input node and a first integrator output; a first digital-to-analog converter (DAC) having a first DAC output coupled to the first integrator output, and the first DAC having a first DAC input; a second integrator having a second integrator input and a second integrator output, the second integrator input coupled to the first integrator output; a comparator having a comparator input and a comparator output, the comparator input coupled to the second in