The recommended power-up sequence is to apply the analog supply voltage (AVCC) first, followed by the digital supply voltage (DVCC) and then the clock signal. This ensures proper initialization of the device.
To ensure accurate voltage output, it is essential to use a low-noise, low-impedance voltage reference, and to decouple the analog supply voltage (AVCC) with a 10uF capacitor. Additionally, the output voltage should be filtered with a low-pass filter to reduce noise and ripple.
The DAC5687IPZPR can handle clock frequencies up to 50 MHz. However, it is recommended to operate the device at a clock frequency of 20-30 MHz for optimal performance.
To implement a bipolar output voltage range, you can use an external amplifier circuit to invert and scale the output voltage. Alternatively, you can use an external voltage reference to generate a negative voltage supply for the DAC.
The settling time of the DAC5687IPZPR is approximately 2.5us. This means that the output voltage may take up to 2.5us to settle to its final value after a code change. You should ensure that your system design takes into account this settling time to avoid errors or inaccuracies.
DAC5687IPZPR datasheet
by Texas Instruments
