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Home Digital DigitalAnalog Conversion The R/2R DAC  
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The R/2R DACAn alternative to the binaryweightedinput DAC is the socalled R/2R DAC, which uses fewer unique resistor values. A disadvantage of the former DAC design was its requirement of several different precise input resistor values: one unique value per binary input bit. Manufacture may be simplified if there are fewer different resistor values to purchase, stock, and sort prior to assembly. Of course, we could take our last DAC circuit and modify it to use a single input resistance value, by connecting multiple resistors together in series: Unfortunately, this approach merely substitutes one type of complexity for another: volume of components over diversity of component values. There is, however, a more efficient design methodology. By constructing a different kind of resistor network on the input of our summing circuit, we can achieve the same kind of binary weighting with only two kinds of resistor values, and with only a modest increase in resistor count. This "ladder" network looks like this: Mathematically analyzing this ladder network is a bit more complex than for the previous circuit, where each input resistor provided an easilycalculated gain for that bit. For those who are interested in pursuing the intricacies of this circuit further, you may opt to use Thevenin's theorem for each binary input (remember to consider the effects of the virtual ground), and/or use a simulation program like SPICE to determine circuit response. Either way, you should obtain the following table of figures:
  Binary  Output voltage    000  0.00 V    001  1.25 V    010  2.50 V    011  3.75 V    100  5.00 V    101  6.25 V    110  7.50 V    111  8.75 V  
As was the case with the binaryweighted DAC design, we can modify the value of the feedback resistor to obtain any "span" desired. For example, if we're using +5 volts for a "high" voltage level and 0 volts for a "low" voltage level, we can obtain an analog output directly corresponding to the binary input (011 = 3 volts, 101 = 5 volts, 111 = 7 volts, etc.) by using a feedback resistance with a value of 1.6R instead of 2R.


Home Digital DigitalAnalog Conversion The R/2R DAC 