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AD9129-MIX-EBZ View Datasheet(PDF) - Analog Devices

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AD9129-MIX-EBZ Datasheet PDF : 68 Pages
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Data Sheet
LVDS DATA PORT INTERFACE
The AD9119/AD9129 can operate with input data rates of up to
2.8 GSPS. A source synchronous LVDS interface is used between
the host and the AD9119/AD9129 to achieve these high data rates,
while simplifying the interface. As shown in Figure 129, the host
feeds the AD9119/AD9129 with de-interleaved input data into
two 11-bit/14-bit LVDS data ports (P0_DxP, P0_DxN and
P1_DxP, P1_DxN) at ½ the DAC clock rate (that is, fDACCLK/2).
Along with the input data, the host provides an embedded DDR
data clock input (DCI_x) at fDACCLK/4.
A DLL circuit that is designed to operate with DCI clock rates
of between 350 MHz and 700 MHz is used to generate a phase
shifted version of DCI, called the data sampling clock (DSC),
to register the input data on both the rising and falling edges.
As shown in Figure 130, the DCI clock edges must be coincident
with the data bit transitions with minimum skew and jitter. The
nominal sampling point of the input data occurs in the middle
of the DCI clock edges because this point corresponds to the
center of the data eye. This is also equivalent to a nominal phase
shift of 90°of the DCI clock.
AD9119/AD9129
The data timing requirements are defined by a minimum data
valid margin that is dependent on the data clock input skew,
input data jitter, and the variations of the DLL delay line across
delay settings. This margin is defined by subtracting from the
data period any data skew, data jitter, and the keep-out window
(KOW) that is defined by the sum of the set and hold times, as
follows:
tDATA VALID MARGIN = tDATA PERIOD − tDATA SKEW − tDATA JITTER − (tH + tS)
The keep-out window, which is the sum of the set and hold times,
is the area where data transitions should not occur. The timing
margin allows tuning of the DLL delay setting, either automatically
or in manual mode (see Figure 130).
Figure 130 shows that the ideal location for the DSC signal is 90°
out of phase from the DCI input. However, due to skew of the DCI
relative to the data, it may be necessary to change the DSC phase
offset to sample the data at the center of its eye diagram. The
sampling instance can be varied in discrete increments by offsetting
the nominal DLL phase shift value of 90° via Register 0x0A,
Bits[3:0]. The following equation defines the phase offset
relationship:
Phase Offset = 90° ± n × 11.25°, |n| < 8
HOST
PROCESSOR
COMBINED
ODD/EVEN
PARITY BIT
OPTIONAL PARITY
AD9129
EVEN DATA
SAMPLES
14 × 2
fDATA = fDACCLK/2
ODD DATA
SAMPLES
14 × 2
DELAY
LOCK
LOOP
1×2
fDCI = fDACCLK/4
1×2
fDCO = fDACCLK/4
DCI
DCO
CLOCK
DISTRIBUTION
fDACCLK
Figure 129. Recommended Digital Interface Between the AD9119/AD9129 and the Host Processor
INPUT DATA[13:0]
DCI
tDATA SKEW
DLL PHASE
DELAY
tDSC SETUP AND HOLD
tDATA JITTER
DATA EYE
tDATA PERIOD
DATA SAMPLE CLOCK
Figure 130. LVDS Data Port Timing Requirements
Rev. 0 | Page 39 of 68
 

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