AD9834
Rev. B | Page 7 of 32
PIN CONFIGURATION AND FUNCTION DESCRIPTIONS
1
2
3
4
5
6
7
8
9
10
20
19
18
17
16
15
14
13
12
11
REFOUT
COMP
AVDD
DGND
CAP/2.5V
DVDD
FS ADJUST
IOUT
AGND
VIN
SCLK
FSYNC
SIGN BIT OUT
PSELECT
FSELECT
MCLK
RESET
SLEEP
SDATA
IOUTB
AD9834
TOP VIEW
(Not to Scale)
02705-006
Figure 6. Pin Configuration
Table 4. Pin Function Descriptions
Pin No. Mnemonic Function
ANALOG SIGNAL AND REFERENCE
1 FS ADJUST
Full-Scale Adjust Control. A resistor (R
SET
) is connected between this pin and AGND. This determines the magnitude
of the full-scale DAC current. The relationship between R
SET
and the full-scale current is as follows:
IOUT
FULL SCALE
= 18 × V
REFOUT
/R
SET
V
REFOUT
= 1.20 V nominal, R
SET
= 6.8 kΩ typical.
2 REFOUT Voltage Reference Output. The AD9834 has an internal 1.20 V reference that is made available at this pin.
3 COMP DAC Bias Pin. This pin is used for decoupling the DAC bias voltage.
17 VIN
Input to Comparator. The comparator can be used to generate a square wave from the sinusoidal DAC output. The
DAC output should be filtered appropriately before being applied to the comparator to improve jitter. When Bit
OPBITEN and Bit SIGNPIB in the control register are set to 1, the comparator input is connected to VIN.
19, 20
IOUT,
IOUTB
Current Output. This is a high impedance current source. A load resistor of nominally 200 Ω should be connected
between IOUT and AGND. IOUTB should preferably be tied through an external load resistor of 200 Ω to AGND, but
it can be tied directly to AGND. A 20 pF capacitor to AGND is also recommended to prevent clock feedthrough.
POWER SUPPLY
4 AVDD
Positive Power Supply for the Analog Section. AVDD can have a value from 2.3 V to 5.5 V. A 0.1 μF decoupling
capacitor should be connected between AVDD and AGND.
5 DVDD
Positive Power Supply for the Digital Section. DVDD can have a value from 2.3 V to 5.5 V. A 0.1 μF decoupling
capacitor should be connected between DVDD and DGND.
6 CAP/2.5V
The digital circuitry operates from a 2.5 V power supply. This 2.5 V is generated from DVDD using an on-board
regulator (when DVDD exceeds 2.7 V). The regulator requires a decoupling capacitor of typically 100 nF that is
connected from CAP/2.5 V to DGND. If DVDD is equal to or less than 2.7 V, CAP/2.5 V should be shorted to DVDD.
7 DGND Digital Ground.
18 AGND Analog Ground.
DIGITAL INTERFACE AND CONTROL
8 MCLK
Digital Clock Input. DDS output frequencies are expressed as a binary fraction of the frequency of MCLK. The
output frequency accuracy and phase noise are determined by this clock.
9 FSELECT
Frequency Select Input. FSELECT controls which frequency register, FREQ0 or FREQ1, is used in the phase
accumulator. The frequency register to be used can be selected using Pin FSELECT or Bit FSEL. When Bit FSEL is
used to select the frequency register, the FSELECT pin should be tied to CMOS high or low.
10 PSELECT
Phase Select Input. PSELECT controls which phase register, PHASE0 or PHASE1, is added to the phase accumulator
output. The phase register to be used can be selected using Pin PSELECT or Bit PSEL. When the phase registers are being
controlled by Bit PSEL, the PSELECT pin should be tied to CMOS high or low.
11 RESET
Active High Digital Input. RESET resets appropriate internal registers to zero; this corresponds to an analog output
of midscale. RESET does not affect any of the addressable registers.
12 SLEEP
Active High Digital Input. When this pin is high, the DAC is powered down. This pin has the same function as
Control Bit SLEEP12.