Datasheet
AD9959
Rev. B | Page 3 of 44
GENERAL DESCRIPTION
The AD9959 consists of four direct digital synthesizer (DDS)
cores that provide independent frequency, phase, and amplitude
control on each channel. This flexibility can be used to correct
imbalances between signals due to analog processing, such as
filtering, amplification, or PCB layout-related mismatches.
Because all channels share a common system clock, they are
inherently synchronized. Synchronization of multiple devices
is supported.
The AD9959 can perform up to a 16-level modulation of fre-
quency, phase, or amplitude (FSK, PSK, ASK). Modulation is
performed by applying data to the profile pins. In addition, the
AD9959 also supports linear sweep of frequency, phase, or
amplitude for applications such as radar and instrumentation.
The AD9959 serial I/O port offers multiple configurations to
provide significant flexibility. The serial I/O port offers an SPI-
compatible mode of operation that is virtually identical to the
SPI operation found in earlier Analog Devices, Inc., DDS products.
Flexibility is provided by four data pins (SDIO_0/SDIO_1/
SDIO_2/SDIO_3) that allow four programmable modes of
serial I/O operation.
The AD9959 uses advanced DDS technology that provides low
power dissipation with high performance. The device incorporates
four integrated, high speed 10-bit DACs with excellent wideband
and narrow-band SFDR. Each channel has a dedicated 32-bit
frequency tuning word, 14 bits of phase offset, and a 10-bit
output scale multiplier.
The DAC outputs are supply referenced and must be terminated
into AVDD by a resistor or an AVDD center-tapped transformer.
Each DAC has its own programmable reference to enable
different full-scale currents for each channel.
The DDS acts as a high resolution frequency divider with the
REFCLK as the input and the DAC providing the output. The
REFCLK input source is common to all channels and can be
driven directly or used in combination with an integrated
REFCLK multiplier (PLL) up to a maximum of 500 MSPS.
The PLL multiplication factor is programmable from 4 to 20,
in integer steps. The REFCLK input also features an oscillator
circuit to support an external crystal as the REFCLK source.
The crystal must be between 20 MHz and 30 MHz. The crystal
can be used in combination with the REFCLK multiplier.
The AD9959 comes in a space-saving 56-lead LFCSP package.
The DDS core (AVDD and DVDD pins) is powered by a 1.8 V
supply. The digital I/O interface (SPI) operates at 3.3 V and
requires DVDD_I/O (Pin 49) be connected to 3.3 V.
The AD9959 operates over the industrial temperature range of
−40°C to +85°C.
Σ
DAC
Σ
DAC
Σ
DAC
DAC
TIMING AND CONTROL LOGIC
05246-001
32
AD9959
32 1015
CH0_IOUT
10
cos(x)
D
D
S
C
O
R
E
CH0_IOUT
32 32 1015
CH1_IOUT
10
cos(x)
D
D
S
C
O
R
E
CH1_IOUT
32 32 1015
CH2_IOUT
10
cos(x)
D
D
S
C
O
R
E
CH2_IOUT
32
DFTW
FTW
SYNC_CLK
CLK_MODE_SEL
BUFFER/
XTAL
OSCILLATOR
SYSTEM
CLK
1.8V
AVDD DVDD
SYNC_IN
SYNC_OUT
I/O_UPDATE
32
32 PHASE/
ΔPHASE
AMP/
ΔAMP
1014
1015
CH3_IOUT
10
D
D
S
C
O
R
E
CH3_IOUT
DAC_RSET
REF_CLK
REF_CLK
PWR_DWN_CTL
MASTER_RESET
SCLK
SDIO_0
SDIO_1
SDIO_2
SDIO_3
CS
SCALABLE
DAC REF
CURRENT
MUX
SERIAL
I/O
PORT
BUFFER
CONTROL
REGISTERS
C
H
A
N
N
E
L
R
E
G
I
S
T
E
R
S
PROFILE
REGISTERS
÷4
REF CLOCK
MULTIPLIER
4× TO 20×
1.8V
P0 P1 P2 P3 DVDD_I/O
cos(x)
ΣΣΣ
Σ
Σ
Σ
Σ
Σ
Σ
Figure 2. Detailed Block Diagram