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AD5556 Datasheet(PDF) 15 Page - Analog Devices |
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AD5556 Datasheet(HTML) 15 Page - Analog Devices |
15 / 20 page Data Sheet AD5546/AD5556 Rev. D | Page 15 of 20 REFERENCE SELECTION When selecting a reference for use with the AD55xx series of current output DACs, pay attention to the output voltage temperature coefficient specification of the reference. Choosing a precision reference with a low output temperature coefficient minimizes error sources. Table 11 lists some of the references available from Analog Devices that are suitable for use with this range of current output DACs. AMPLIFIER SELECTION The primary requirement for the current-steering mode is an amplifier with low input bias currents and low input offset voltage. Because of the code-dependent output resistance of the DAC, the input offset voltage of an op amp is multiplied by the variable gain of the circuit. A change in this noise gain between two adjacent digital fractions produces a step change in the output voltage due to the amplifier’s input offset voltage. This output voltage change is superimposed on the desired change in output between the two codes and gives rise to a differential linearity error, which, if large enough, can cause the DAC to be nonmonotonic. The input bias current of an op amp also generates an offset at the voltage output because of the bias current flowing in the feedback resistor, RFB. Common-mode rejection of the op amp is important in voltage- switching circuits because it produces a code-dependent error at the voltage output of the circuit. Provided that the DAC switches are driven from true wideband low impedance sources, they settle quickly. Consequently, the slew rate and settling time of a voltage-switching DAC circuit is determined largely by the output op amp. To obtain minimum settling time in this configuration, minimize capacitance at the VREF node (the voltage output node in this application) of the DAC. This is done by using low input capacitance buffer amplifiers and careful board design. Analog Devices offers a wide range of amplifiers for both precision dc and ac applications, as listed in Table 12 and Table 13. Table 11. Suitable Analog Devices Precision References Part No. Output Voltage (V) Initial Tolerance (%) Maximum Temperature Drift (ppm/°C) ISS (mA) Output Noise (µV p-p) Package(s) ADR01 10 0.05 3 1 20 SOIC-8 ADR01 10 0.05 9 1 20 TSOT-5, SC70-5 ADR02 5.0 0.06 3 1 10 SOIC-8 ADR02 5.0 0.06 9 1 10 TSOT-5, SC70-5 ADR03 2.5 0.1 3 1 6 SOIC-8 ADR03 2.5 0.1 9 1 6 TSOT-5, SC70-5 ADR06 3.0 0.1 3 1 10 SOIC-8 ADR06 3.0 0.1 9 1 10 TSOT-5, SC70-5 ADR420 2.048 0.05 3 0.5 1.75 SOIC-8, MSOP-8 ADR421 2.50 0.04 3 0.5 1.75 SOIC-8, MSOP-8 ADR423 3.00 0.04 3 0.5 2 SOIC-8, MSOP-8 ADR425 5.00 0.04 3 0.5 3.4 SOIC-8, MSOP-8 ADR431 2.500 0.04 3 0.8 3.5 SOIC-8, MSOP-8 ADR435 5.000 0.04 3 0.8 8 SOIC-8, MSOP-8 ADR391 2.5 0.16 9 0.12 5 TSOT-5 ADR395 5.0 0.10 9 0.12 8 TSOT-5 |
Similar Part No. - AD5556_15 |
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Similar Description - AD5556_15 |
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