Circuit including calibration for offset voltage compensation

What is claimed: 1. A switching digital-to-analog converter (DAC), comprising: a logic gate for receiving a digital input signal having a rising edge and a corresponding falling edge defining an input pulse width, and providing an offset input signal having a rising edge and a corresponding falling edge defining a mismatched pulse width different from the input pulse width due to relative movement of the rising edge and the corresponding falling edge of the digital input signal in response to a voltage offset introduced by the logic gate; a direct current (DC) voltage source for providing a DC calibration signal; a summer for summing the DC calibration signal and the offset input signal provided by the logic gate to compensate for at least the voltage offset introduced by the logic gate, and providing a corrected input signal having a rising edge and a corresponding falling edge defining a corrected pulse width that is the same as the input pulse width; and a unit DAC for receiving the corrected input signal as digital input, and selectively switching current of the unit DAC to an output of the switching DAC in response to voltage values of the corrected input signal to provide an analog output, wherein the switching DAC outputs an analog output signal, corresponding to the digital input signal, based at least in part on the analog output from the unit DAC. 2. The switching DAC of claim 1 , further comprising: a limiting buffer for buffering the corrected input signal to drive the unit DAC. 3. The switching DAC of claim 1 , wherein the digital input signal represents a voltage value. 4. The switching DAC of claim 1 , wherein the logic gate comprises a flip-flop for receiving the digital input signal and a clock signal. 5. The switching DAC of claim 4 , wherein the flip-flop implements differential logic. 6. The switching DAC of claim 5 , wherein the digital input signal of the switching DAC is a differential input signal, and the analog output signal of the switching DAC is a differential output signal. 7. The switching DAC of claim 2 , wherein the DC calibration signal further compensates for additional voltage offset introduced by the limiting buffer and the unit DAC. 8. A switching digital-to-analog converter (DAC), comprising: a plurality of parallel switching paths having a corresponding plurality of inputs for respectively receiving digital data of an differential digital input signal; and an output summer for summing analog outputs respectively provided by the plurality of parallel switching paths to provide a differential analog output signal corresponding to the differential digital input signal, wherein each switching path of the plurality of parallel switching paths comprises: a logic gate for receiving the respective digital data of the differential digital input signal, the respective digital data having an input pulse with a corresponding input pulse width, and for outputting a mismatched input signal having a mismatched pulse with a corresponding mismatched pulse width different from the input pulse width, resulting from a voltage offset introduced by the logic gate; a direct current (DC) voltage source for providing a DC calibration signal; a unit DAC driver comprising a summer and a limiting buffer, the summer for summing the DC calibration signal and the mismatched input signal as digital input to compensate for at least the voltage offset introduced by the logic gate, and the limiting buffer for buffering the summed DC calibration signal and the mismatched input signal to provide a corrected input signal having a corrected pulse with a corresponding corrected pulse width that is the same as the input pulse width; and a unit DAC driven by the corrected input signal from the unit DAC driver to provide respective analog data corresponding to the switching path, and to selectively switch the respective analog data to the output summer. 9. The switching DAC of claim 8 , wherein the unit DAC driver of each of the plurality of parallel switching paths comprises a pair of transistors configured to receive the respective mismatched input signal, and wherein the DC calibration signal of each of the plurality of parallel switching paths is injected into the unit DAC driver via back-gates of each transistor in the pair of transistors in order to be summed with the mismatched input signal. 10. The switching DAC of claim 8 , further comprising: a controller programmed to calibrate the DC voltage source of each of the plurality of parallel switching paths by determining a voltage level of each of the DC calibration signals that enables the corrected pulse of the corrected input signal to have the corresponding corrected pulse width that is the same as the input pulse width. 11. The switching DAC of claim 10 , wherein the controller is programmed to execute code, stored on a non-transitory computer readable medium, causing the controller to perform a calibration process comprising: selecting one switching path of the plurality of parallel switching paths; measuring DC voltage of the differential analog output signal at the output summer; setting all other switching paths of the plurality of parallel switching paths to a predetermined static bit pattern that results in a voltage of the differential analog output signal being about zero, which reduces a size of the differential digital input signal that is digitized and reduces effects of nonlinearities; driving the selected switching path to be measured with a one (1) as the respective digital data, and measuring the DC voltage of the differential analog output signal to obtain high voltage response (V H ); driving the selected switching path to be measured with a zero (0) as the respective digital data, and measuring the DC voltage of the differential analog output signal to obtain low voltage response (V L ); driving the selected switching path to be measured with a toggling bit pattern as the respective digital data, and measuring the DC voltage of the differential analog output signal to obtain toggling voltage response (V T ); and adjusting a voltage of the DC voltage source until V T of the DC calibration signal equals one half of the sum of V H and V L . 12. The switching DAC of claim 8 , wherein when the mismatched pulse width is less than the input pulse width, the DC voltage source provides the DC calibration signal having a positive voltage. 13. The switching DAC of claim 8 , wherein when the mismatched pulse width is longer than the input pulse width, the DC voltage source provides the DC calibration signal having a negative voltage. 14. The switching DAC of claim 8 , wherein the DC calibration signal further compensates for additional voltage offset introduced by the limiting buffer of the corresponding path. 15. A switching digital-to-analog converter (DAC), comprising: a plurality of parallel switching paths having a corresponding plurality of input ports for respectively receiving digital data of a differential digital input signal; and an output summer for summing analog outputs respectively output by the plurality of parallel switching paths to provide a differential analog output signal corresponding to the differential digital input signal, wherein each switching path of the plurality of parallel switching paths comprises: a logic gate for receiving the respective digital data of the differential digital input signal, the respective digital data having an input pulse defined by a rising edge and a corresponding falling edge following a first delay from the rising edge, and for outputting a mismatched input signal havin