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Digital-to-Analog Analog-to-Digital

LINEAR AND DIGITAL CIRCUITS. Digital-to-Analog Analog-to-Digital. Digital-to-Analog Conversion. 2 Basic Approaches Weighted Summing Amplifier R-2R Network Approach. Weighted Sum DAC. One way to achieve D/A conversion is to use a summing amplifier.

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Digital-to-Analog Analog-to-Digital

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  1. LINEAR AND DIGITAL CIRCUITS Digital-to-AnalogAnalog-to-Digital

  2. Digital-to-Analog Conversion 2 Basic Approaches Weighted Summing Amplifier R-2R Network Approach

  3. Weighted Sum DAC One way to achieve D/A conversion is to use a summing amplifier. This approach is not satisfactory for a large number of bits because it requires too much precision in the summing resistors. This problem is overcome in the R-2R network DAC.

  4. Weighted Sum DAC

  5. R-2R Ladder DAC

  6. R-2R Ladder DAC

  7. R-2R Ladder DAC The summing amplifier with the R-2R ladder of resistances shown produces the output where the D's take the value 0 or 1. The digital inputs could be TTL voltages which close the switches on a logical 1 and leave it grounded for a logical 0. This is illustrated for 4 bits, but can be extended to any number with just the resistance values R and 2R.

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