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AD7321
Rev. 0 | Page 18 of 36
D
D
V
DD
C2
R1
V
IN
+
V
SS
C1
D
D
V
DD
C2
R1
V
IN
V
SS
C1
0
The AD7321 enters track mode on the 14
th
SCLK rising edge.
When running the AD7321 at a throughput rate of 500 kSPS
with a 10 MHz SCLK signal, the ADC has approximately
1.5 SCLK +
t
8
+
t
QUIET
to acquire the analog input signal. The ADC goes back into
hold mode on the CS falling edge.
As the V
DD
/V
SS
supply voltage is reduced, the on resistance of
the input multiplexer increases. Therefore, based on the
equation for t
ACQ
, it is necessary to increase the amount of
acquisition time provided to the AD7321, and hence decrease
the overall throughput rate.
Figure 31 shows that as the V
DD
and
V
SS
supplies are reduced, the specified THD performance
degrades slightly. If the throughput rate is reduced when
operating with the minimum V
DD
and V
SS
supplies, the specified
THD performance is maintained.
Figure 30. Equivalent Analog Input Circuit (Differential)
Care should be taken to ensure that the analog input does not
exceed the V
DD
and V
SS
supply rails by more than 300 mV.
Exceeding this value causes the diodes to become forward
biased and to start conducting into either the V
DD
supply rail or
V
SS
supply rail. These diodes can conduct up to 10 mA without
causing irreversible damage to the part.
5
19
±V
DD
/V
SS
SUPPLIES (V)
T
7
9
11
13
15
17
0
–95
–75
–80
–85
–90
500kSPS
V
= V
= 5V
INTERNAL REFERENCE
T
A
= 25°C
F
= 10kHz
±5V RANGE
SE MODE
Figure 29 and Figure 30
can primarily be attributed to pin capacitance. Resistor R1 is a
lumped component made up of the on resistance of the input
multiplexer and the track-and-hold switch. Capacitor C2 is the
sampling capacitor; its capacitance varies depending on the
analog input range selected (see the Specifications section).
In
, Capacitor C1 is typically 4 pF and
Track-and-Hold Section
The track-and-hold on the analog input of the AD7321 allows
the ADC to accurately convert an input sine wave of full-scale
amplitude to 13-bit accuracy. The input bandwidth of the track-
and-hold is greater than the Nyquist rate of the ADC. The
AD7321 can handle frequencies up to 22 MHz.
Figure 31. THD vs. ±V
DD
/V
SS
Supply Voltage at 500 kSPS
Unlike other bipolar ADCs, the AD7321 does not have a
resistive analog input structure. On the AD7321, the bipolar
analog signal is sampled directly onto the sampling capacitor.
This gives the AD7321 high analog input impedance. An
approximation for the analog input impedance can be
calculated from the following formula:
Z
= 1/(
f
S
×
C
S
)
The track-and-hold enters its tracking mode on the 14
th
SCLK
rising edge after the CS falling edge. The time required to
acquire an input signal depends on how quickly the sampling
capacitor is charged. With 0 source impedance, 305 ns is
sufficient to acquire the signal to the 13-bit level. The
acquisition time required is calculated using the following
formula:
t
ACQ
= 10 × ((
R
SOURCE
+
R
)
C
)
where
f
S
is the sampling frequency, and
C
S
is the sampling
capacitor value.
where
C
is the sampling capacitance and
R
is the resistance seen
by the track-and-hold amplifier looking back on the input. For
the AD7321, the value of R includes the on resistance of the
input multiplexer and is typically 300 Ω. R
SOURCE
should include
any extra source impedance on the analog input.
C
S
depends on the analog input range chosen (see the
Specifications section). When operating at 500 kSPS, the analog
input impedance is typically 145 kΩ for the ±10 V range. As the
sampling frequency is reduced, the analog input impedance
further increases. As the analog input impedance increases, the
current required to drive the analog input therefore decreases.
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