AD5551
PRODUCTION2.7 V to 5.5 V, Serial-Input, Voltage-Output, 14-Bit DACs
Part Details
- Full 14-Bit Performance
- 3 V and 5 V Single Supply Operation
- Low 0.625 mW power dissipation
- Fast 1 μs settling time
- Unbuffered Voltage Output Capable of Driving 60 kΩ Loads Directly
- SPI™/QSPI™/MICROWIRE™ -Compatible Interface Standards
- Power-on reset clears DAC output to 0 V (unipolar mode)
- 5 kV HBM ESD classification
The AD5551 and AD5552 are single, 14-bit, serial input, voltage output DACs that operate from a single 2.7 V to 5.5 V supply. The DAC output range extends from 0 V to VREF.
These DACs provide 14-bit performance without any adjustments. The DAC output is unbuffered, which reduces power consumption and offset errors contributed by an output buffer.
With an external op amp the AD5552 can be operated in bipolar mode generating a ±VREF output swing. The AD5552 also includes Kelvin sense connections for the reference and analog ground pins to reduce layout sensitivity. For higher precision applications, please refer to 16-bit DACs, AD5541, AD5542, and AD5544.
The AD5551/AD5552 utilize a versatile 3-wire interface that is compatible with SPI, QSPI™, MICROWIRE™, and DSP interface standards. The AD5551 and AD5552 are available in 8-lead and 14-lead SOIC packages.
PRODUCT HIGHLIGHTS
- Single Supply Operation. The AD5551 and AD5552 are fully specified and guaranteed for a single 2.7 V to 5.5 V supply.
- Low Power Consumption. Typically 0.625 mW with a 5 V supply.
- 3-Wire Serial Interface.
- Unbuffered output capable of driving 60 kΩ loads, which reduces power consumption as there is no internal buffer to drive.
- Power-On Reset Circuitry.
APPLICATIONS
- Digital gain and offset adjustment
- Automatic test equipment
- Data acquisition systems
- Industrial process control
Software Resources
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Precision DAC Error Budget Tool
The Precision DAC Error Budget Tool is a web application that calculates the DC Accuracy of precision DAC signal chains. It shows how the static errors accumulate throughout your signal chain to quickly evaluate the design tradeoffs. Calculations include the DC errors introduced by Voltage References, Operation Amplifiers and Precision DACs.
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