AD9280 Analog Devices, AD9280 Datasheet - Page 14
AD9280
Manufacturer Part Number
AD9280
Description
8-Bit, Complete, 32 MSPS A/D Converter
Manufacturer
Analog Devices
Datasheet
1.AD9280.pdf
(24 pages)
Specifications of AD9280
Resolution (bits)
8bit
# Chan
1
Sample Rate
32MSPS
Interface
Par
Analog Input Type
Diff-Uni,SE-Uni
Ain Range
1 V p-p,2 V p-p
Adc Architecture
Pipelined
Pkg Type
SOP
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AD9280
DRIVING THE ANALOG INPUT
Figure 25 shows the equivalent analog input of the AD9280, a
sample-and-hold amplifier (switched capacitor input SHA).
Bringing CLK to a logic low level closes Switches 1 and 2 and
opens Switch 3. The input source connected to AIN must
charge capacitor CH during this time. When CLK transitions
from logic “low” to logic “high,” Switches 1 and 2 open, placing
the SHA in hold mode. Switch 3 then closes, forcing the output
of the op amp to equal the voltage stored on CH. When CLK
transitions from logic “high” to logic “low,” Switch 3 opens
first. Switches 1 and 2 close, placing the SHA in track mode.
The structure of the input SHA places certain requirements on
the input drive source. The combination of the pin capacitance,
CP, and the hold capacitance, CH, is typically less than 5 pF.
The input source must be able to charge or discharge this ca-
pacitance to 8-bit accuracy in one half of a clock cycle. When
the SHA goes into track mode, the input source must charge or
discharge capacitor CH from the voltage already stored on CH
to the new voltage. In the worst case, a full-scale voltage step on
the input, the input source must provide the charging current
through the R
period) settle. This situation corresponds to driving a low input
impedance. On the other hand, when the source voltage equals
the value previously stored on CH, the hold capacitor requires
no input current and the equivalent input impedance is ex-
tremely high.
Adding series resistance between the output of the source and
the AIN pin reduces the drive requirements placed on the
source. Figure 26 shows this configuration. The bandwidth of
the particular application limits the size of this resistor. To
maintain the performance outlined in the data sheet specifica-
tions, the resistor should be limited to 20
tions with signal bandwidths less than 16 MHz, the user may
proportionally increase the size of the series resistor. Alterna-
tively, adding a shunt capacitance between the AIN pin and
analog ground can lower the ac load impedance. The value of
this capacitance will depend on the source resistance and the
required signal bandwidth.
The input span of the AD9280 is a function of the reference
voltages. For more information regarding the input range, see
the Internal and External Reference sections of the data sheet.
Figure 26. Simple AD9280 Drive Configuration
Figure 25. AD9280 Equivalent Input Structure
REFBS)
(REFTS
ON
AIN
(50 ) of Switch 1 and quickly (within 1/2 CLK
V
S
CP
CP
< 20
S1
S2
S3
AIN
AD9280
AD9280
CH
CH
SHA
or less. For applica-
–14–
In many cases, particularly in single-supply operation, ac cou-
pling offers a convenient way of biasing the analog input signal
at the proper signal range. Figure 27 shows a typical configura-
tion for ac-coupling the analog input signal to the AD9280.
Maintaining the specifications outlined in the data sheet
requires careful selection of the component values. The most
important is the f
R2 and the parallel combination of C1 and C2. The f
can be approximated by the equation:
where C
C1 is typically a large electrolytic or tantalum capacitor that
becomes inductive at high frequencies. Adding a small ceramic
or polystyrene capacitor (on the order of 0.01 F) that does not
become inductive until negligibly higher frequencies, maintains
a low impedance over a wide frequency range.
NOTE: AC coupled input signals may also be shifted to a desired
level with the AD9280’s internal clamp. See Clamp Operation.
There are additional considerations when choosing the resistor
values. The ac-coupling capacitors integrate the switching tran-
sients present at the input of the AD9280 and cause a net dc
bias current, I
bias current increases as the signal magnitude deviates from
V midscale and the clock frequency increases; i.e., minimum
bias current flow when AIN = V midscale. This bias current
will result in an offset error of (R1 + R2) × I
to compensate this error, consider making R2 negligibly small or
modifying VBIAS to account for the resultant offset.
In systems that must use dc coupling, use an op amp to level-
shift a ground-referenced signal to comply with the input re-
quirements of the AD9280. Figure 28 shows an AD8041 config-
ured in noninverting mode.
MIDSCALE
VOLTAGE
OFFSET
EQ
is the parallel combination of C1 and C2. Note that
0V
V
DC
B
IN
, to flow into the input. The magnitude of the
Figure 28. Bipolar Level Shift
–3 dB
Figure 27. AC Coupled Input
1V p-p
f
–3 dB
high-pass corner frequency. It is a function of
C2
C1
= 1/(2 × pi × [R2] C
3
2
R2
AD8041
V
+V
BIAS
7
4
CC
R1
I
B
0.1 F
NC
NC
1
5
AIN
6
AD9280
EQ
B
)
. If it is necessary
20
AIN
AD9280
–3 dB
REV. E
point
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