AD7352BRUZ-500RL7 Analog Devices Inc, AD7352BRUZ-500RL7 Datasheet - Page 12
AD7352BRUZ-500RL7
Manufacturer Part Number
AD7352BRUZ-500RL7
Description
12-Bit Dual Diff Simult 3 MSPS ADC I.C.
Manufacturer
Analog Devices Inc
Datasheet
1.AD7352BRUZ.pdf
(20 pages)
Specifications of AD7352BRUZ-500RL7
Design Resources
DC-Coupled, Single-Ended-to-Differential Conversion Using AD8138 and AD7352 (CN0040)
Number Of Bits
12
Sampling Rate (per Second)
3M
Data Interface
DSP, MICROWIRE™, QSPI™, Serial, SPI™
Number Of Converters
2
Power Dissipation (max)
45mW
Voltage Supply Source
Single Supply
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
16-TSSOP (0.173", 4.40mm Width)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
AD7352
THEORY OF OPERATION
CIRCUIT INFORMATION
The AD7352 is a high speed, dual, 12-bit, single-supply,
successive approximation analog-to-digital converter (ADC).
The part operates from a 2.5 V power supply and features
throughput rates of up to 3 MSPS.
The AD7352 contains two on-chip differential track-and-hold
amplifiers, two successive approximation ADCs, and a serial
interface with two separate data output pins. The part is housed
in a 16-lead TSSOP, offering the user considerable space-saving
advantages over alternative solutions.
The serial clock input accesses data from the part but also
provides the clock source for each successive approximation
ADC. The AD7352 has an on-chip 2.048 V reference. If an
external reference is desired, the internal reference can be
overdriven with a reference value ranging from (2.048 V +
100 mV) to V
in the system, then the reference output needs to be buffered
first. The differential analog input range for the AD7352 is
V
The AD7352 features power-down options to allow power
saving between conversions. The power-down feature is
implemented via the standard serial interface, as described
in the Modes of Operation section.
CONVERTER OPERATION
The AD7352 has two successive approximation ADCs, each
based around two capacitive DACs. Figure 14 and Figure 15
show simplified schematics of one of these ADCs in acquisition
phase and conversion phase. The ADC comprises a control
logic, a SAR, and two capacitive DACs. In Figure 14 (the acqui-
sition phase), SW3 is closed, SW1 and SW2 are in Position A,
the comparator is held in a balanced condition, and the sampling
capacitor arrays acquire the differential signal on the input.
CM
± V
V
V
IN+
IN–
REF
/2.
B
A
A
B
V
DD
REF
SW1
SW2
. If the internal reference is to be used elsewhere
Figure 14. ADC Acquisition Phase
C
C
S
S
SW3
COMPARATOR
CAPACITIVE
CAPACITIVE
CONTROL
DAC
LOGIC
DAC
Rev. 0 | Page 12 of 20
When the ADC starts a conversion (see Figure 15), SW3 opens
while SW1 and SW2 move to Position B, causing the comparator
to become unbalanced. Both inputs are disconnected once the
conversion begins. The control logic and charge redistribution
DACs are used to add and subtract fixed amounts of charge
from the sampling capacitor arrays to bring the comparator
back into a balanced condition. When the comparator is
rebalanced, the conversion is complete. The control logic
generates the ADC output code. The output impedances of
the sources driving the V
otherwise, the two inputs may have different settling times,
resulting in errors.
ANALOG INPUT STRUCTURE
Figure 16 shows the equivalent circuit of the analog input struc-
ture of the AD7352. The four diodes provide ESD protection for
the analog inputs. Care must be taken to ensure that the analog
input signals never exceed the supply rails by more than 300 mV.
This causes these diodes to become forward biased and start
conducting into the substrate. These diodes can conduct up to
10 mA without causing irreversible damage to the part.
The C1 capacitors in Figure 16 are typically 8 pF and can
primarily be attributed to pin capacitance. The R1 resistors
are lumped components made up of the on resistance of the
switches. The value of these resistors is typically about 30 Ω.
The C2 capacitors are the sampling capacitors of the ADCs
with a capacitance of 32 pF typically.
V
V
IN+
IN–
B
A
A
B
V
REF
SW1
SW2
Figure 16. Equivalent Analog Input Circuit,
V
V
IN+
IN–
Conversion Phase—Switches Open,
C1
C1
Figure 15. ADC Conversion Phase
Track Phase—Switches Closed
C
C
S
S
IN+
V
V
DD
DD
and V
D
D
D
D
SW3
COMPARATOR
IN−
pins must be matched;
R1 C2
R1 C2
CAPACITIVE
CAPACITIVE
CONTROL
DAC
LOGIC
DAC
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