SBASAC8B May 2023 – March 2024 DAC39RF10 , DAC39RFS10
PRODUCTION DATA
The device has three supply voltages and requires seven supply domains to achieve data sheet performance as shown in Table 8-3:
Voltage | Supply Domain | Device Supplies |
---|---|---|
+1.8V | VDDA | VDDA18A, VDDA18B |
VDDIO | VDDIO | |
VDDCSR | VDDCLK, VDDSYS, VDDR | |
+1.0V | VDDL | VDDLA, VDDLB |
VDCCCLK | VDDCLK10 | |
DVDD | VDDDIG, VDDT, VDDDEA & VDDDEB | |
-1.8V | VEEx | VEEAM18, VEEBM18 |
The recommended power supply is shown in Figure 8-23. The power-supply voltages must be low in noise and provide the needed current to achieve rated device performance. A step down high-efficiency switching converter is used first, followed by a second stage of regulation using LDOs to provide switching noise reduction and improved voltage accuracy. The user can also refer to the TI WEBENCH® Power Designer which can be used to select and design the individual power supply elements as needed. The recommended switching regulators are:
and recommended LDOs include:
The VDDA supply is regulated by an LDO, or low-noise drop-out linear regulator, with a +1.8 V output and is further broken down into the following subgroup power domains:
Each device supply can be tied to a single LDO but are isolated with a ferrite bead and/or three-terminal capacitor or similar.
The VDDL supply is +1 V and is further broken down into VDDLA and VDDLB. Each device supply can be tied to a single LDO but are isolated with a ferrite bead and/or three-terminal capacitor or similar.
The VDDCLK10 supply is +1 V and is the most sensitive for achieving the best phase noise performance. VDDCLK10 should be isolated to a LDO by itself to prevent noise from other 1.0V supplies coupling into the clock path.
The DVDD supply is +1.0V and can be directly connected to a switching power supply. The DVDD encompasses the following device supplies, VDDDIG, VDDT, VDDDEA & VDDDEB, which can all be connected together. No further isolation with a ferrite bead and/or three-terminal capacitor or similar is required.
The VEEx supply is -1.8 V derived from a single LDO and is further broken down into VEEAM18 and VEEBM18, which are isolated with a ferrite bead and/or three-terminal capacitor or similar.
It is also highly recommended to follow these important power supply design considerations:
Each application has different tolerances for noise on the supply voltage, so understanding these trades is best described in the following two application notes for more details:
Also refer to Figure 8-31 through Figure 8-34 to illustrate the one power supply layout and stack-up approach.