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PDF AD7324 Data sheet ( Hoja de datos )
| Número de pieza | AD7324 | |
| Descripción | 12-Bit Plus Sign ADC | |
| Fabricantes | Analog Devices | |
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4-Channel, Software-Selectable, True
Bipolar Input, 12-Bit Plus Sign ADC
AD7324
FEATURES
12-bit plus sign SAR ADC
True bipolar input ranges
Software-selectable input ranges
±10 V, ±5 V, ±2.5 V, 0 V to +10 V
1 MSPS throughput rate
Four analog input channels with channel sequencer
Single-ended, true differential, and pseudo differential
analog input capability
High analog input impedance
Low power: 21 mW
Full power signal bandwidth: 22 MHz
Internal 2.5 V reference
High speed serial interface
Power-down modes
16-lead TSSOP package
iCMOS™ process technology
FUNCTIONAL BLOCK DIAGRAM
VDD
REFIN/OUT
VCC
AD7324
VIN0
VIN1
VIN2
VIN3
I/P
MUX
2.5V
VREF
T/H
13-BIT
SUCCESSIVE
APPROXIMATION
ADC
CHANNEL
SEQUENCER
AGND
CONTROL LOGIC
AND REGISTERS
VSS DGND
Figure 1.
DOUT
SCLK
CS
DIN
VDRIVE
GENERAL DESCRIPTION
The AD73241 is a 4-channel, 12-bit plus sign, successive
approximation ADC designed on the iCMOS (industrial
CMOS) process. iCMOS is a process combining high voltage
silicon with submicron CMOS and complementary bipolar
technologies. It enables the development of a wide range of high
performance analog ICs capable of 33 V operation in a footprint
that no previous generation of high voltage parts could achieve.
Unlike analog ICs using conventional CMOS processes, iCMOS
components can accept bipolar input signals while providing
increased performance, dramatically reduced power
consumption, and reduced package size.
The AD7324 can accept true bipolar analog input signals. The
AD7324 has four software-selectable input ranges, ±10 V, ±5 V,
±2.5 V, and 0 V to +10 V. Each analog input channel can be
independently programmed to one of the four input ranges.
The analog input channels on the AD7324 can be programmed
to be single-ended, true differential, or pseudo differential.
The ADC contains a 2.5 V internal reference. The AD7324 also
allows for external reference operation. If a 3 V reference is
applied to the REFIN/OUT pin, the AD7324 can accept a true
bipolar ±12 V analog input. Minimum ±12 V VDD and VSS
supplies are required for the ±12 V input range. The ADC has a
high speed serial interface that can operate at throughput rates
up to 1 MSPS.
Rev. 0
Information furnished by Analog Devices is believed to be accurate and reliable. However, no
responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other
rights of third parties that may result from its use. Specifications subject to change without notice. No
license is granted by implication or otherwise under any patent or patent rights of Analog Devices.
Trademarksandregisteredtrademarksarethepropertyoftheirrespectiveowners.
PRODUCT HIGHLIGHTS
1. The AD7324 can accept true bipolar analog input signals,
±10 V, ±5 V, ±2.5 V, and 0 V to +10 V unipolar signals.
2. The four analog inputs can be configured as four single-
ended inputs, two true differential input pairs, two pseudo
differential inputs, or three pseudo differential inputs.
3. 1 MSPS serial interface. SPI®-/QSPI™-/DSP-/MICROWIRE™-
compatible interface.
4. Low power, 30 mW maximum, at 1 MSPS throughput rate.
5. Channel sequencer.
Table 1. Similar Products Selection Table
Device Throughput
Number Rate
Number of bits
AD7329 250 kSPS
12-bit plus sign
AD7328 1000 kSPS 12-bit plus sign
AD7327 500 kSPS
12-bit plus sign
AD7323 500 kSPS
12-bit plus sign
AD7322 1000 kSPS 12-bit plus sign
AD7321 500 kSPS
12-bit plus sign
Number of
Channels
8
8
8
4
2
2
1 Protected by U.S. Patent No. 6,731,232.
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781.329.4700
www.analog.com
Fax: 781.461.3113
©2005 Analog Devices, Inc. All rights reserved.
1 page  
AD7324
Parameter1
ANALOG INPUT
Input Voltage Ranges
(Programmed via Range
Register)
Pseudo Differential VIN(−)
Input Range
DC Leakage Current
Input Capacitance3
REFERENCE INPUT/OUTPUT
Input Voltage Range
Input DC Leakage Current
Input Capacitance
Reference Output Voltage
Reference Output Voltage Error
@ 25°C
Reference Output Voltage
TMIN to TMAX
Reference Temperature
Coefficient
Reference Output Impedance
LOGIC INPUTS
Input High Voltage, VINH
Input Low Voltage, VINL
Input Current, IIN
Input Capacitance, CIN3
LOGIC OUTPUTS
Output High Voltage, VOH
Output Low Voltage, VOL
Floating-State Leakage Current
Floating-State Output
Capacitance3
Output Coding
CONVERSION RATE
Conversion Time
Track-and-Hold Acquisition
Time2, 3
Throughput Rate
B Version
Min Typ Max
±10
±5
±2.5
0 to 10
±3.5
±6
±5
+3/−5
3
13.5
16.5
21.5
3
±80
2.5 3
±1
10
2.5
±5
±10
25
3
7
2.4
10
0.8
0.4
±1
VDRIVE −
0.2 V
5
0.4
±1
Straight natural binary
Twos complement
800
305
1
770
Unit Test Conditions/Comments
Reference = 2.5 V; see Table 6
V VDD = 10 V min, VSS = −10 V min, VCC = 2.7 V to 5.25 V
V VDD = 5 V min, VSS = −5 V min, VCC = 2.7 V to 5.25 V
V VDD = 5 V min, VSS = − 5 V min, VCC = 2.7 V to 5.25 V
V VDD = 10 V min, VSS = AGND min, VCC = 2.7 V to 5.25 V
VDD = 16.5 V, VSS = −16.5 V, VCC = 5 V; see Figure 40 and
Figure 41
V Reference = 2.5 V; range = ±10 V
V Reference = 2.5 V; range = ±5 V
V Reference = 2.5 V; range = ±2.5 V
V Reference = 2.5 V; range = 0 V to +10 V
nA VIN = VDD or VSS
nA Per channel, VIN = VDD or VSS
pF When in track, ±10 V range
pF When in track, ±5 V and 0 V to +10 V ranges
pF When in track, ±2.5 V range
pF When in hold, all ranges
V
μA
pF
V
mV
mV
ppm/°C
ppm/°C
Ω
V
V VCC = 4.75 V to 5.25 V
V VCC = 2.7 to 3.6 V
μA VIN = 0 V or VDRIVE
pF
V ISOURCE = 200 μA
V ISINK = 200 μA
μA
pF
Coding bit set to 1 in control register
Coding bit set to 0 in control register
ns
ns
MSPS
kSPS
16 SCLK cycles with SCLK = 20 MHz
Full-scale step input; see the Terminology section
See the Serial Interface section; VCC = 4.75 V to 5.25 V
VCC < 4.75 V
Rev. 0 | Page 5 of 36
5 Page 
–50
VCC = 5V
–55 VDD/VSS = ±12V
TA = 25°C
–60 fS = 1MSPS
±10V SE
–65
0V TO +10V SE
0V TO +10V DIFF
–70 ±5V SE
–75 ±10V DIFF
±5V DIFF
–80 ±2.5V DIFF
–85
±2.5V SE
–90
–95
–100
10
100 1000
ANALOG INPUT FREQUENCY (kHz)
Figure 10. THD vs. Analog Input Frequency for Single-Ended (SE) and True
Differential Mode (Diff) at 5 V VCC
–50
VCC = 3V
–55 VDD/VSS = ±12V
TA = 25°C
–60 fS = 1MSPS
±10V SE
–65
0V TO +10V DIFF
–70 0V TO +10V SE
±5V SE
–75
–80 ±10V DIFF
–85
–90
±2.5V SE
±5V DIFF
–95
–100
10
±2.5V DIFF
100
1000
ANALOG INPUT FREQUENCY (kHz)
Figure 11. THD vs. Analog Input Frequency for Single-Ended (SE) and True
Differential Mode (Diff) at 3 V VCC
80
±10V DIFF
±5V DIFF
75 ±2.5V DIFF
70
±2.5V SE
0V TO +10V SE
65
±10V SE
±5V SE
0V TO +10V DIFF
60
55
50
10
VCC = 5V
VDD/VSS = ±12V
TA = 25°C
fS = 1MSPS
100 1000
ANALOG INPUT FREQUENCY (kHz)
Figure 12. SINAD vs. Analog Input Frequency for Single-Ended (SE) and
Differential Mode (Diff) at 5 V VCC
AD7324
80
±10V DIFF ±5V DIFF
75 ±2.5V DIFF
70 0V TO +10V SE
±2.5V SE
65
±10V SE
±5V SE
0V TO +10V DIFF
60
55
50
10
VCC = 3V
VDD/VSS = ±12V
TA = 25°C
fS = 1MSPS
100 1000
ANALOG INPUT FREQUENCY (kHz)
Figure 13. SINAD vs. Analog Input Frequency for Single-Ended (SE) and
Differential Mode (Diff) at 3 V VCC
–50
–55
–60
–65
–70
–75
–80
–85
–90
–95
0
VCC = 3V
VCC = 5V
VDD/VSS = ±12V
SINGLE-ENDED MODE
fS = 1MSPS
TA = 25°C
50kHz ON SELECTED CHANNEL
100 200 300 400 500
FREQUENCY OF INPUT NOISE (kHz)
Figure 14. Channel-to-Channel Isolation
600
10k
9469
VCC = 5V
9k VDD/VSS = ±12V
RANGE = ±10V
8k 10k SAMPLES
TA = 25°C
7k
6k
5k
4k
3k
2k
1k
0 228
303 0
0
–2 –1
0
1
2
CODE
Figure 15. Histogram of Codes, True Differential Mode
Rev. 0 | Page 11 of 36
11 Page | ||
| Páginas | Total 30 Páginas | |
| PDF Descargar | [ Datasheet AD7324.PDF ] | |
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