AD9708AR Analog Devices Inc, AD9708AR Datasheet - Page 10
AD9708AR
Manufacturer Part Number
AD9708AR
Description
IC DAC 8BIT 100MSPS 28-SOIC
Manufacturer
Analog Devices Inc
Series
TxDAC®r
Datasheet
1.AD9708ARZ.pdf
(16 pages)
Specifications of AD9708AR
Mounting Type
Surface Mount
Package / Case
28-SOIC (7.5mm Width)
Rohs Status
RoHS non-compliant
Settling Time
35ns
Number Of Bits
8
Data Interface
Parallel
Number Of Converters
1
Voltage Supply Source
Analog and Digital
Power Dissipation (max)
175mW
Operating Temperature
-40°C ~ 85°C
No. Of Pins
28
Peak Reflow Compatible (260 C)
No
No. Of Bits
8 Bit
Leaded Process Compatible
No
Interface Type
Serial
For Use With
AD9708-EBZ - BOARD EVAL FOR AD9708
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
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AD9708
POWER DISSIPATION
The power dissipation, P
several factors, including: (1) AVDD and DVDD, the power
supply voltages; (2) I
f
waveform. The power dissipation is directly proportional to the
analog supply current, I
I
Figure 19, and is insensitive to f
Conversely, I
form, f
show I
(f
DVDD = 3 V, respectively. Note, how I
than a factor of 2 when DVDD is reduced from 5 V to 3 V.
APPLYING THE AD9708
Power and Grounding Considerations
In systems seeking to simultaneously achieve high speed and
high performance, the implementation and construction of the
printed circuit board design is often as important as the circuit
design. Proper RF techniques must be used in device selection
placement and routing and supply bypassing and grounding.
The evaluation board for the AD9708, which uses a four layer
PC board, serves as a good example for the above mentioned
considerations. The evaluation board provides an illustration of
the recommended printed circuit board ground, power and
signal plane layouts.
Proper grounding and decoupling should be a primary objective
in any high speed system. The AD9708 features separate analog
and digital supply and ground pins to optimize the management
of analog and digital ground currents in a system. In general,
AVDD, the analog supply, should be decoupled to ACOM, the
analog common, as close to the chip as physically possible. Simi-
larly, DVDD, the digital supply, should be decoupled to DCOM
as close as physically as possible.
For those applications requiring a single +5 V or +3 V supply
for both the analog and digital supply, a clean analog supply
may be generated using the circuit shown in Figure 22. The
circuit consists of a differential LC filter with separate power
supply and return lines. Lower noise can be attained using low
ESR type electrolytic and tantalum capacitors.
CLOCK
DVDD.
OUT
30
25
20
15
10
5
0
/f
2
, the update rate; (4) and the reconstructed digital input
DVDD
CLOCK
CLOCK
Figure 19. I
I
AVDD
4
as a function of full-scale sine wave output ratios
) for various update rates with DVDD = 5 V and
6
, and digital supply DVDD. Figures 20 and 21
is directly proportional to I
DVDD
8
I
OUTFS
is dependent on both the digital input wave-
10
AVDD
OUTFS
12 14
– mA
AVDD
vs. I
D
, of the AD9708 is dependent on
, the full-scale current output; (3)
, and the digital supply current,
OUTFS
16
CLOCK
18
20
.
DVDD
OUTFS
is reduced by more
, as shown in
18
16
14
12
10
0.01
8
6
4
2
0
Figure 20. I
@ DVDD = 5 V
RATIO (f
–10–
0.1
DVDD
OUT
Maintaining low noise on power supplies and ground is critical
to obtaining optimum results from the AD9708. If properly
implemented, ground planes can perform a host of functions on
high speed circuit boards: bypassing, shielding, current trans-
port, etc. In mixed signal design, the analog and digital portions
of the board should be distinct from each other, with the analog
ground plane confined to the areas covering the analog signal
traces, and the digital ground plane confined to areas covering
the digital interconnects.
All analog ground pins of the DAC, reference and other analog
components, should be tied directly to the analog ground plane.
The two ground planes should be connected by a path 1/8 to
1/4 inch wide underneath or within 1/2 inch of the DAC to
maintain optimum performance. Care should be taken to ensure
that the ground plane is uninterrupted over crucial signal paths.
On the digital side, this includes the digital input lines running
to the DAC as well as any clock signals. On the analog side, this
includes the DAC output signal, reference signal and the supply
feeders.
The use of wide runs or planes in the routing of power lines is
also recommended. This serves the dual role of providing a low
series impedance power supply to the part, as well as providing
some “free” capacitive decoupling to the appropriate ground
plane. It is essential that care be taken in the layout of signal and
power ground interconnects to avoid inducing extraneous
voltage drops in the signal ground paths. It is recommended that
all connections be short, direct and as physically close to the
package as possible in order to minimize the sharing of conduc-
tion paths between different currents. When runs exceed an inch
in length, strip line techniques with proper termination resistor
125MSPS
50MSPS
TTL/CMOS
/f
CIRCUITS
Figure 22. Differential LC Filter for Single +5 V or +3 V
Applications
CLK
LOGIC
vs. Ratio
POWER SUPPLY
25MSPS
)
+5V OR +3V
100MSPS
5MSPS
1
FERRITE
BEADS
8
6
4
2
0
0.01
Figure 21. I
@ DVDD = 3 V
100 F
ELECT.
RATIO (f
10-22 F
TANT.
0.1
OUT
DVDD
125MSPS
50MSPS
/f
CLK
25MSPS
vs. Ratio
)
100MSPS
5MSPS
0.1 F
CER.
REV. B
AVDD
ACOM
1
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