Return-to-zero digital-to-analog converter with overlapping time delayed pulse generation

What is claimed is: 1. A digital-to-analog converter (DAC) comprising: an input configured to receive at least one control signal; a first switching element, the first switching element configured to generate a first return-to-zero pulse in response to the at least one control signal; a second switching element, the second switching element configured to generate a second return-to-zero pulse in response to the at least one control signal, the second return-to-zero pulse delayed in time from and partially overlapping with the first return-to-zero pulse; and an output, the output coupled to the first switching element and the second switching element, the output configured to combine the first return-to-zero pulse and the second return-to-zero pulse to generate a combined pulse proportional to a digital input signal. 2. The DAC of claim 1 further comprising a current source, the current source configured to provide a supply current and split the supply current to provide substantially equal current to the first switching element and the second switching element; and a current sink, the current sink configured to sink the supply current from the first switching element and the second switching element. 3. The DAC of claim 1 wherein a clock signal having a period T is used to generate the at least one control signal, and wherein the second return-to-zero pulse is offset in time from the first return-to-zero-pulse between T/8 and 3T/8. 4. The DAC of claim 1 further comprising: a third switching element, the third switching element configured to generate a third return-to-zero pulse in response to the at least one control signal, the third return-to-zero pulse delayed in time from and partially overlapping with both the first return-to-zero pulse and the second return-to-zero pulse; and wherein the output is further coupled to the third switching element and further configured to combine the third return-to-zero pulse with the first return-to-zero pulse and the second return-to-zero pulse to generate the combined pulse proportional to the digital input signal. 5. The DAC of claim 4 further comprising: a fourth switching element, the fourth switching element configured to generate a fourth return-to-zero pulse in response to the at least one control signal, the fourth return-to-zero pulse delayed in time from and partially overlapping with the first return-to-zero pulse, the second return-to-zero pulse, and the third return-to-zero pulse; and wherein the output is further coupled to the fourth switching element and further configured to combine the fourth return-to-zero pulse with the first return-to-zero pulse, the second return-to-zero pulse, and the third return-to-zero pulse to generate the combined pulse proportional to the digital input signal. 6. The DAC of claim 1 further comprising a control signal generator, the control signal generator configured to receive a clock signal and the digital input signal and generate the at least one control signal responsive to the clock signal and the digital input signal. 7. The DAC of claim 6 wherein the control signal generator includes a delay locked loop, the delay locked loop configured to receive the clock signal and generate a delayed clock signal. 8. The DAC of claim 1 wherein the combined pulse is proportional to the digital input signal such that when the combined pulse is integrated over time, the combined and integrated pulse provides an analog representation of the digital input signal. 9. An analog-to-digital converter (ADC) comprising: a summing stage configured to receive an analog input signal and an analog feedback signal, and further configured to output a difference signal; a filter coupled to the summing stage to receive the difference signal, the filter configured to filter the difference signal and output a filtered signal; a quantizer coupled to the filter to receive the filtered signal, the quantizer configured to quantize the filtered signal and output a quantized signal; and a digital-to-analog converter (DAC), the DAC including at least a first DAC element connected to the quantizer to receive at least a first bit of the quantized signal, the first DAC element comprising: a first switching element, the first switching element configured to generate a first return-to-zero pulse in response to the first bit of the quantized signal; a second switching element, the second switching element configured to generate a second return-to-zero pulse in response to the first bit of the quantized signal, the second return-to-zero pulse delayed in time from and partially overlapping with the first return-to-zero pulse; an output, the output coupled to the first switching element and the second switching element, the output configured to combine the first return-to-zero pulse and the second return-to-zero pulse to generate a combined pulse proportional to the first bit of the quantized signal, the output coupled to the summing stage to feedback the combined pulse to the summing stage as at least part of the analog feedback signal; a current source, the current source configured to provide a supply current and split the supply current to provide substantially equal current to the first switching element and the second switching element; and a current sink, the current sink configured to sink the supply current from the first switching element and the second switching element. 10. The ADC of claim 9 wherein the first DAC element further comprises: a third switching element, the third switching element configured to generate a third return-to-zero pulse in response to the first bit of the quantized signal, the third return-to-zero pulse delayed in time from and partially overlapping with both the first return-to-zero pulse and the second return-to-zero pulse; and wherein the output is further coupled to the third switching element and further configured to combine the third return-to-zero pulse with the first return-to-zero pulse and the second return-to-zero pulse to generate the combined pulse proportional to the first bit of the quantized signal. 11. The ADC of claim 10 wherein the first DAC element further comprises: a fourth switching element, the fourth switching element configured to generate a fourth return-to-zero pulse in response to the at least one control signal, the fourth return-to-zero pulse delayed in time from and partially overlapping with the first return-to-zero pulse, the second return-to-zero pulse, and the third return-to-zero pulse; and wherein the output is further coupled to the fourth switching element and further configured to combine the fourth return-to-zero pulse with the first return-to-zero pulse, the second return-to-zero pulse, and the third return-to-zero pulse to generate the combined pulse proportional to the first bit of the quantized signal. 12. The ADC of claim 9 wherein the DAC further comprises a control signal generator, the control signal generator configured to receive the quantized signal and a clock signal, the control signal generator further configured to generate a plurality of control signals responsive to the quantized signal and the clock signal, and where the first switching element and the second switch element are configured to receive the plurality of control signals from the control signal generator. 13. The ADC of claim 12 wherein the control signal generator includes a delay locked loop, the delay locked loop configured to receive the clock signal and generate a delayed clock signal. 14. The ADC of claim 12 wherein the clock signal has a period T, and wherein the second return-to-zero pulse is of