AD9755 Analog Devices, AD9755 Datasheet - Page 12
AD9755
Manufacturer Part Number
AD9755
Description
Manufacturer
Analog Devices
Datasheet
1.AD9755.pdf
(28 pages)
Specifications of AD9755
Resolution (bits)
14bit
Dac Update Rate
300MSPS
Dac Settling Time
11ns
Max Pos Supply (v)
+3.6V
Single-supply
Yes
Dac Type
Current Out
Dac Input Format
Par
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AD9755
The effects of phase noise on the AD9755’s SNR performance
become more noticeable at higher reconstructed output frequen-
cies and signal levels. Figure 8 compares the phase noise of a
full-scale sine wave at exactly f
(thus carrier frequency) with the optimum DIV1, DIV0 setting.
SNR is partly a function of the jitter generated by the clock
circuitry. As a result, any noise on PLLVDD or CLKVDD may
decrease the SNR at the output of the DAC. To minimize this
potential problem, PLLVDD and CLKVDD can be connected
to DVDD using an LC filter network similar to the one shown
in Figure 9.
3.3V POWER SUPPLY
TTL/CMOS
Figure 8. Phase Noise of PLL Clock Multiplier at
f
Optimized, Using R&S FSEA30 Spectrum Analyzer
CIRCUITS
OUT
LOGIC
–100
–110
–10
–20
–30
–40
–50
–60
–70
–80
–90
= f
0
Figure 9. LC Network for Power Filtering
0
DATA
PLL OFF, f
/4 at Different f
FERRITE
BEADS
DATA
1
= 50MSPS
FREQUENCY OFFSET (MHz)
ELECT.
PLL ON, f
100 F
2
DATA
DATA
DATA
10 F–22 F
/4 at different data rates
Settings with DIV0/DIV1
= 150MSPS
TANT.
3
0.1 F
CER.
4
CLKVDD
PLLVDD
CLKCOM
5
–12–
DAC TIMING WITH PLL ACTIVE
As described in Figure 7, in PLL ACTIVE mode, Port 1 and
Port 2 input latches are updated on the rising edge of CLK. On
the same rising edge, data previously present in the input Port 2
latch is written to the DAC output latch. The DAC output will
update after a short propagation delay (t
Following the rising edge of CLK, at a time equal to half of its
period, the data in the Port 1 latch will be written to the DAC
output latch, again with a corresponding change in the DAC
output. Due to the internal PLL, the time at which the data in
the Port 1 and Port 2 input latches is written to the DAC latch
is independent of the duty cycle of CLK.
the external clock can be operated at any duty cycle that
meets the specified input pulsewidth.
On the next rising edge of CLK, the cycle begins again with the
two input port latches being updated and the DAC output latch
being updated with the current data in the Port 2 input latch.
PLL DISABLED MODE
When PLLVDD is grounded, the PLL is disabled. An external
clock must now drive the CLK inputs at the desired DAC output
update rate. The speed and timing of the data present at input
Ports 1 and 2 are now dependent on whether or not the AD9755
is interleaving the digital input data, or only responding to data
on a single port. Figure 10 is a functional block diagram of the
AD9755 clock control circuitry with the PLL disabled.
DIV0 and DIV1 no longer control the PLL, but are used to set
the control on the input mux for either interleaving or non-
interleaving the input data. The different modes for states of
DIV0 and DIV1 are given in Table II.
CLKIN+
CLKIN–
Figure 10. Clock Circuitry with PLL Disabled
Input Mode
Interleaved (2×)
Noninterleaved
Port 1 Selected
Port 2 Selected
Not Allowed
DIFFERENTIAL-
SINGLE-ENDED
AD9755
Table II. Input Mode for DIV0,
DIV1 Levels with PLL Disabled
AMP
TO-
RESET DIV0 DIV1
TO DAC
LATCH
( 1 OR
CLOCK
LOGIC
DIV1
0
0
1
1
2)
PD
PLLLOCK
When using the PLL,
).
TO
INTERNAL
MUX
PLLVDD
DIV0
0
1
0
1
TO INPUT
LATCHES
REV. B
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