Digital to analog converter with iterative stepping to each output value

The invention claimed is: 1. An iterative digital-to-analog converter (DAC), the iterative DAC having a serial clock signal, comprising: a shift register for receiving a serial data stream, comprising data words, each data word having address bits and input data bits; a DAC value register for storing a digital input value as DAC Value, whose analog is to be the output of the iterative DAC as VOUT; an iteration value register for storing a DAC Iteration Value; a timer count value register for storing a number of clock periods that occur between iterations of the iterative DAC; a state machine for receiving the serial clock signal and for calculating VOUT, and having the following states: Idle, Value Load, DAC Calculate, and Exit; wherein in the Idle state, the state machine compares DAC Value to a current DAC Value Out, and if the values are not equal, activates a busy signal and proceeds to the Value Load state; wherein in the Value Load state, the state machine stores the current DAC Value Out and proceeds to the DAC Calculate state; wherein in the DAC Calculate state, the state machine compares the DAC Value to the current DAC Value Out, and if the difference is less than or equal to the DAC Iteration Value, changes DAC Value Out to DAC Value, and if the difference is greater than the DAC Iteration Value, adds or subtracts the DAC Iteration Value to or from the DAC Value Out; updates a DAC Timer Count, and jumps to the Exit state; and wherein in the Exit state, the state machine decrements the DAC Timer Count until it reaches zero. 2. The iterative DAC of claim 1 , wherein all elements are fabricated as an integrated circuit. 3. The iterative DAC of claim 1 , wherein iterative DAC is implemented with a commercially available DAC device. 4. The iterative DAC of claim 3 , wherein the busy signal is added to the device as a new input. 5. The iterative DAC of claim 3 , wherein the busy signal is implemented using an existing SDOUT input.