AD668SQ883B Analog Devices, AD668SQ883B Datasheet - Page 12
AD668SQ883B
Manufacturer Part Number
AD668SQ883B
Description
The AD668 is an ultrahigh speed, 12-bit, multiplying digital-to-analog converter, providing outstanding accuracy and ...
Manufacturer
Analog Devices
Datasheet
1.AD668SQ883B.pdf
(16 pages)
AD668
HIGH SPEED INTERCONNECT AND ROUTING
It is essential that care be taken in the signal and power ground
circuits to avoid inducing extraneous voltage drops in the signal
ground paths. It is suggested that all connections be short, di-
rect, and as physically close to the package as possible, thereby
minimizing the sharing of conduction paths between different
currents. When runs exceed an inch or so in length, some type
of termination resistor may be required. The necessity and value
of this resistor will be dependent upon the logic family used.
For maximum ac performance, the DAC should be mounted di-
rectly to the circuit board; sockets should be avoided as they in-
troduce unwanted capacitive coupling between adjacent pins of
the device. For purposes of testing and characterization, low
profile sockets are preferable to zero insertion force types.
TYPICAL PERFORMANCE CHARACTERISTICS
The following plots indicate the typical performance of the
AD668 in properly configured circuits. Wherever possible, sug-
gestions are provided to assist the user in achieving the indicated
performance levels.
DC PERFORMANCE
Power Consumption vs. V
As suggested in previous sections, most portions of AD668’s
current budget are proportional to the analog input signal. As a
result, operating the part at a reduced reference voltage offers
substantial power savings. This may be particularly attractive in
applications featuring a buffered output voltage, since the size of
the feedback resistor may be increased to compensate for the re-
duced DAC current. For example, the DAC could be config-
ured in the 5 V input mode, but driven with a 2.5 V reference,
producing a 5.12 mA full scale output. Reducing the output
level has performance ramifications in several areas, as demon-
strated later in this section, but the circuit designer is free to
trade power dissipation against performance to optimize the
AD668 for his application.
Linearity vs. V
At reduced current levels, the linearity of the PNP DAC used in
the AD668 becomes more sensitive to the mismatch in transis-
tor V
fairly dramatically for reference levels less than 25% of nominal.
Increasing the current level above 100% does not appreciably
improve the linearity performance since the DAC has been
trimmed to perform optimally at the 100% reference level.
Figure 15. Power Consumption vs. Reference Level
BE
’s. As Figure 16 indicates, this effect starts to increase
REF
/V
NOM
REF
/V
NOM
–12–
AC PERFORMANCE
For the purposes of characterizing the frequency domain perfor-
mance of the AD668, all bits are turned on and the DAC is es-
sentially treated as a voltage amplifier/attenuator. The tests used
to generate these performance curves were done using the cir-
cuit shown in Figure 12.
AC characterization in the megahertz region is not trivial, and
special consideration is required to produce meaningful results.
Probe ground straps are inappropriate at these frequencies;
some type of probe socket is required. Signals should be routed
either on a PC board over a ground plane or through a coaxial
cable. Proper termination impedances should be used through-
out the fixturing.
Large Signal Frequency Response
Figure 17 represents the gain and phase response of a signal
swinging from 10% to 120% (peak to peak) of the nominal ref-
erence input. The DAC reference amplifier has an effective slew
rate or 30 V/µs at the DAC output, so there will be slew-induced
distortion for full scale swings at greater than 10 MHz.
Small Signal 3 dB Bandwidth vs. V
Figure 18 demonstrates the small signal (20% of nominal refer-
ence) bandwidth sensitivity to the analog input’s dc bias. The
small signal 3 dB bandwidth at 100% reference levels is greater
than 15 MHz, but the bandwidth remains greater than 10 MHz
over the entire nominal reference range. The differential gain
and phase for a 200 mV, 3 MHz signal are 0.5% and 2°,
respectively.
Figure 17. Large Signal Gain and Phase Response
Figure 16. Linearity vs. Reference Level
REF
/V
NOM
REV. A
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