AD9750-EB Analog Devices Inc, AD9750-EB Datasheet - Page 13
AD9750-EB
Manufacturer Part Number
AD9750-EB
Description
BOARD EVAL FOR AD9750
Manufacturer
Analog Devices Inc
Series
TxDAC®r
Datasheet
1.AD9750ARZ.pdf
(22 pages)
Specifications of AD9750-EB
Rohs Status
RoHS non-compliant
Number Of Dac's
1
Number Of Bits
10
Outputs And Type
1, Differential
Sampling Rate (per Second)
125M
Data Interface
Parallel
Settling Time
35ns
Dac Type
Current
Voltage Supply Source
Analog and Digital
Operating Temperature
-40°C ~ 85°C
Utilized Ic / Part
AD9750
POWER DISSIPATION
The power dissipation, P
several factors which include: (1) AVDD and DVDD, the
power supply voltages; (2) I
(3) f
input waveform. The power dissipation is directly proportional
to the analog supply current, I
rent, I
Figure 25 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.
REV. 0
OUT
CLOCK
/f
DVDD
DVDD
CLOCK
CLOCK
35
30
25
20
15
10
18
16
14
12
10
, the update rate; (4) and the reconstructed digital
5
8
6
4
2
0
Figure 26. I
0.01
. I
2
as a function of full-scale sine wave output ratios
) for various update rates with DVDD = 5 V and
, and digital supply DVDD. Figures 26 and 27
AVDD
DVDD
4
Figure 25. I
is directly proportional to I
is dependent on both the digital input wave-
6
DVDD
D
, of the AD9750 is dependent on
8
RATIO (f
OUTFS
vs. Ratio @ DVDD = 5 V
I
OUTFS
AVDD
10
CLOCK
AVDD
CLOCK
0.1
, the full-scale current output;
– mA
, and the digital supply cur-
12
vs. I
.
/f
DVDD
OUT
14
OUTFS
)
is reduced by more
16
OUTFS
125MSPS
100MSPS
50MSPS
25MSPS
5MSPS
18
as shown in
20
1
–13–
APPLYING THE AD9750
OUTPUT CONFIGURATIONS
The following sections illustrate some typical output configura-
tions for the AD9750. Unless otherwise noted, it is assumed
that I
ing the optimum dynamic performance, a differential output
configuration is suggested. A differential output configuration
may consist of either an RF transformer or a differential op amp
configuration. The transformer configuration provides the opti-
mum high frequency performance and is recommended for any
application allowing for ac coupling. The differential op amp
configuration is suitable for applications requiring dc coupling, a
bipolar output, signal gain and/or level shifting.
A single-ended output is suitable for applications requiring a
unipolar voltage output. A positive unipolar output voltage will
result if IOUTA and/or IOUTB is connected to an appropri-
ately sized load resistor, R
figuration may be more suitable for a single-supply system
requiring a dc coupled, ground referred output voltage. Alterna-
tively, an amplifier could be configured as an I-V converter thus
converting IOUTA or IOUTB into a negative unipolar voltage.
This configuration provides the best dc linearity since IOUTA
or IOUTB is maintained at a virtual ground. Note, IOUTA
provides slightly better performance than IOUTB.
DIFFERENTIAL COUPLING USING A TRANSFORMER
An RF transformer can be used to perform a differential-to-
single-ended signal conversion as shown in Figure 28. A
differentially coupled transformer output provides the optimum
distortion performance for output signals whose spectral content
lies within the transformer’s passband. An RF transformer such
as the Mini-Circuits T1-1T provides excellent rejection of
common-mode distortion (i.e., even-order harmonics) and noise
over a wide frequency range. It also provides electrical isolation
and the ability to deliver twice the power to the load. Trans-
formers with different impedance ratios may also be used for
impedance matching purposes. Note that the transformer
provides ac coupling only.
OUTFS
8
6
4
2
0
Figure 27. I
0.01
is set to a nominal 20 mA. For applications requir-
DVDD
LOAD
RATIO (f
vs. Ratio @ DVDD = 3 V
, referred to ACOM. This con-
0.1
CLOCK
/f
OUT
)
125MSPS
100MSPS
50MSPS
25MSPS
5MSPS
AD9750
1
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