AN-1222: 40 Channels of Programmable Voltage with Excellent Temperature Drift Performance Using the AD5380 DAC

Circuit Function and Benefits

This circuit is a multichannel DAC configuration with excellent temperature drift performance. It provides 40 individual output voltage channels with 14 bits of resolution and a temperature stability of typically less than 3 ppm/°C.

Circuit Description

Table 1. Devices Connected/Referenced
Product Description
AD5380 40-Channel, 14-Bit, Voltage Output DAC
ADR421 Low Noise, 2.500 V XFET® Voltage Reference
ADR431 Ultralow Noise XFET Voltage Reference

Figure 1 shows a typical configuration for the AD5380-5 when configured for use with an external reference. In the circuit shown, all AGND, SIGNAL_GND, and DAC_GND pins are tied together to a common AGND. AGND and DGND are connected together at the AD5380 device. On power-up, the AD5380 defaults to external reference operation.

Figure 1. AD5380 Typical Configuration with External Reference (Simplified Schematic).

Figure 1. AD5380 Typical Configuration with External Reference (Simplified Schematic).

This design uses two separate 5.0 V power supplies—one to power the voltage reference and the analog portion of the AD5380 (AVDD) and the other to power the digital portion of the AD5380 (DVDD). For best performance, a linear regulator should always be used to power the analog portion of the circuit. If a switching regulator is used to power the digital portion, care should be taken to minimize switching noise at the DVDD supply pins. Additional decoupling using a series connected ferrite bead may be required. The AD5380 digital (DVDD) power supply can operate from a 3 V or 5 V supply, which provides for maximum flexibility when interfacing to digital components. Both supplies can be tied together to a common 5 V supply; it is derived from a linear regulator. Refer to the ADIsimPower™ design tool for guidance on the power supply designs.

It is recommended to decouple each power pin close to the device with a 0.1 µF ceramic and a 10 µF tantalum capacitor. In this application, the reference for the AD5380 is provided externally from either an ADR421 or ADR431 2.5 V reference. The ADR431 provides a lower output voltage noise specification for applications where that specification is important. The reference should be decoupled at the REFOUT/REFIN pin of the device with a 0.1 µF capacitor.

Common Variations

A variation of this circuit uses the AD5380-3 (3 V device) with the ADR280 1.2 V reference. All other components are the same as those outlined above.

References

ADIsimPower Design Tool.

Kester, Walt. 2005. The Data Conversion Handbook. Analog Devices. Chapters 3 and 7.

MT-101 Tutorial, Decoupling Techniques. Analog Devices.

MT-015 Tutorial, Basic DAC Architectures II: Binary DACs. Analog Devices.

MT-031 Tutorial, Grounding Data Converters and Solving the Mystery of AGND and DGND. Analog Devices.

Voltage Reference Wizard Design Tool.