AD9912BCPZ Analog Devices Inc, AD9912BCPZ Datasheet - Page 16
AD9912BCPZ
Manufacturer Part Number
AD9912BCPZ
Description
Manufacturer
Analog Devices Inc
Datasheet
1.AD9912BCPZ.pdf
(40 pages)
Specifications of AD9912BCPZ
Lead Free Status / RoHS Status
Compliant
AD9912
THEORY OF OPERATION
OVERVIEW
The AD9912 is a high performance, low noise, 14-bit DDS
clock synthesizer with integrated comparators for applications
desiring an agile, finely tuned square or sinusoidal output signal.
A digitally controlled oscillator (DCO) is implemented using a
direct digital synthesizer (DDS) with an integrated output DAC,
clocked by the system clock.
A bypassable PLL-based frequency multiplier is present,
enabling use of an inexpensive, low frequency source for the
system clock. For best jitter performance, the system clock PLL
should be bypassed, and a low noise, high frequency system
clock should be provided directly. Sampling theory sets an upper
bound for the DDS output frequency at 50% of f
the DAC sample rate), but a practical limitation of 40% of
f
required off-chip reconstruction filter.
The output signal from the reconstruction filter can be fed back
to the AD9912 to be processed through the output circuitry.
S
is generally recommended to allow for the selectivity of the
CONFIGURATION
S1 TO S4
LOGIC
DIGITAL SYNTHESIS CORE
CONTROL
÷S
INTERFACE
LOGIC
DIGITAL
S
(where f
TUNING WORD
FREQUENCY
Figure 39. Detailed Block Diagram
2×
S
is
SYSCLK SYSCLKB
Rev. D | Page 16 of 40
SYSCLK PORT
DDS/DAC
MULTIPLIER
LOW NOISE
CLOCK
The output circuitry includes HSTL and CMOS output buffers,
as well as a frequency doubler for applications that need
frequencies above the Nyquist level of the DDS.
The AD9912 also offers preprogrammed frequency profiles that
allow the user to generate frequencies without programming
the part. The individual functional blocks are described in the
following sections.
DIRECT DIGITAL SYNTHESIZER (DDS)
The frequency of the sinusoid generated by the DDS is
determined by a frequency tuning word (FTW), which is a
digital (that is, numeric) value. Unlike an analog sinusoidal
generator, a DDS uses digital building blocks and operates as
a sampled system. Thus, it requires a sampling clock (f
serves as the fundamental timing source of the DDS. The
accumulator behaves as a modulo-2
mable step size that is determined by the frequency tuning word
(FTW). A block diagram of the DDS is shown in Figure 40.
AMP
OUT_CMOS
OUT
OUTB
FDBK_IN
FDBK_INB
DAC_OUT
DAC_OUTB
EXTERNAL
LOW-PASS
EXTERNAL
ANALOG
FILTER
FILTER
LOOP
48
counter with a program-
S
) that
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