AD7713ARZ Analog Devices Inc, AD7713ARZ Datasheet

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AD7713ARZ

Manufacturer Part Number
AD7713ARZ
Description
IC ADC SIGNAL COND LC2MOS 24SOIC
Manufacturer
Analog Devices Inc
Datasheet
1.AD7713ARZ.pdf (28 pages)

Specifications of AD7713ARZ

Data Interface
Serial
Number Of Bits
24
Sampling Rate (per Second)
205
Number Of Converters
1
Power Dissipation (max)
5.5mW
Voltage Supply Source
Analog and Digital
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
24-SOIC (0.300", 7.50mm Width)
Resolution (bits)
24bit
Input Channel Type
Differential, Single Ended
Supply Voltage Range - Analogue
5V To 10V
Supply Voltage Range - Digital
4.75V To 5.25V
Supply
RoHS Compliant
Package
24SOIC W
Resolution
24 Bit
Sampling Rate
3.9 KSPS
Architecture
Delta-Sigma
Number Of Adcs
1
Number Of Analog Inputs
1|2
Digital Interface Type
Serial (3-Wire, 4-Wire)
Input Type
Voltage
Signal To Noise Ratio
131 dB
Polarity Of Input Voltage
Unipolar|Bipolar
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant

Available stocks

Company
Part Number
Manufacturer
Quantity
Price
Company:
Meier Automation Equipment Co., Limited Meier Automation Equipment Co., Limited
Part Number:
AD7713ARZ
Manufacturer:
ADI/亚德诺
Quantity:
20 000
GENERAL DESCRIPTION
The AD7713 is a complete analog front end for low frequency
measurement applications. The device accepts low level signals
directly from a transducer or high level signals (4
outputs a serial digital word. It employs - conversion
technique to realize up to 24 bits of no missing codes
performance. The input signal is applied to a proprietary pro-
grammable gain front end based around an analog modulator.
The modulator output is processed by an on-chip digital filter.
The first notch of this digital filter can be programmed via the
on-chip control register, allowing adjustment of the filter cutoff
and settling time.
The part features two differential analog inputs and one single-
ended high level analog input as well as a differential reference
input. It can be operated from a single supply (AV
at 5 V). The part provides two current sources that can be used
to provide excitation in 3-wire and 4-wire RTD configurations.
The AD7713 thus performs all signal conditioning and conver-
sion for a single-, dual- or three-channel system.
The AD7713 is ideal for use in smart, microcontroller-based
systems. Gain settings, signal polarity, and RTD current control
can be configured in software using the bidirectional serial port.
The AD7713 contains self-calibration, system calibration, and
background calibration options and also allows the user to read
and to write the on-chip calibration registers.
*Protected by U.S. Patent No. 5,134,401.
REV. D
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. No license is granted by implication or otherwise
under any patent or patent rights of Analog Devices. Trademarks and
registered trademarks are the property of their respective owners.
FEATURES
Charge Balancing ADC
3-Channel Programmable Gain Front End
Low-Pass Filter with Programmable Filter Cutoffs
Ability to Read/Write Calibration Coefficients
Bidirectional Microcontroller Serial Interface
Single-Supply Operation
Low Power (3.5 mW typ) with Power-Down Mode
APPLICATIONS
Loop Powered (Smart) Transmitters
RTD Transducers
Process Control
Portable Industrial Instruments
24 Bits No Missing Codes
Gains from 1 to 128
2 Differential Inputs
1 Single-Ended High Voltage Input
(150
0.0015% Nonlinearity
W typ)
DD
V
and DV
Loop-Powered Signal Conditioning ADC
REF
) and
DD
CMOS construction ensures low power dissipation, and a hard-
ware programmable power-down mode reduces the standby
power consumption to only 150 µW typical. The part is available
in a 24-lead, 0.3 inch wide, PDIP and CERDIP as well as a 24-
lead SOIC package.
PRODUCT HIGHLIGHTS
1. The AD7713 consumes less than 1 mA in total supply current,
2. The two programmable gain channels allow the AD7713 to
3. No missing codes ensures true, usable, 24-bit dynamic range
4. The AD7713 is ideal for microcontroller or DSP processor
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A.
Tel: 781/329-4700
Fax: 781/326-8703
AIN1(+)
AIN1(–)
AIN2(+)
AIN2(–)
RTD1
RTD2
AIN3
making it ideal for use in loop-powered systems.
accept input signals directly from a transducer removing a
considerable amount of signal conditioning. To maximize
the flexibility of the part, the high level analog input accepts
4
for 3-wire and 4-wire RTD configurations.
coupled with excellent ± 0.0015% accuracy. The effects of
temperature drift are eliminated by on-chip self-calibration,
which removes zero-scale and full-scale errors.
applications with an on-chip control register, which allows
control over filter cutoff, input gain, signal polarity, and
calibration modes. The AD7713 allows the user to read and
write the on-chip calibration registers.
AGND DGND
V
AV
SCALING
AV
REF
INPUT
DD
FUNCTIONAL BLOCK DIAGRAM
DD
signals. On-chip current sources provide excitation
DV
200 A
1 A
DD
200 A
IN(–)
REF
AV
© 2004 Analog Devices, Inc. All rights reserved.
A = 1 – 128
DD
PGA
RFS
IN(+)
REF
REGISTER
CONTROL
TFS
CHARGING BALANCING ADC
AUTO-ZEROED
MODULATOR
MODE SDATA
SERIAL INTERFACE
AD7713
-
GENERATION
SCLK
REGISTER
AD7713
CLOCK
OUTPUT
DIGITAL
FILTER
DRDY
STANDBY
www.analog.com
LC
A0
2
SYNC
MCLK
IN
MCLK
OUT
MOS
*

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AD7713ARZ Summary of contents

Page 1

FEATURES Charge Balancing ADC 24 Bits No Missing Codes 0.0015% Nonlinearity 3-Channel Programmable Gain Front End Gains from 1 to 128 2 Differential Inputs 1 Single-Ended High Voltage Input Low-Pass Filter with Programmable Filter Cutoffs Ability to Read/Write Calibration Coefficients ...

Page 2

AD7713–SPECIFICATIONS MCLK MHz, unless otherwise noted. All specifications T Parameter STATIC PERFORMANCE No Missing Codes Output Noise Integral Nonlinearity Positive Full-Scale Error 5 Full-Scale Drift 2, 4 Unipolar Offset Error 5 Unipolar Offset Drift ...

Page 3

Parameter REFERENCE INPUT REF IN(+) – REF IN(–) Voltage Input Sampling Rate Normal-Mode 50 Hz Rejection 6 Normal-Mode 60 Hz Rejection Common-Mode Rejection (CMR) 6 Common-Mode 50 Hz Rejection 6 Common-Mode 60 Hz Rejection 10 Common-Mode Voltage ...

Page 4

AD7713 Parameter AIN3 Positive Full-Scale Calibration Limit 15 Offset Calibration Limit Input Span POWER REQUIREMENTS Power Supply Voltages 16 AV Voltage Voltage DD Power Supply Currents AV Current DD DV Current DD 18 Power Supply Rejection 19 ...

Page 5

TIMING CHARACTERISTICS Limit at T Parameter (A, S Versions 400 CLK 0.4 t CLK IN LO CLK IN t 0.4 t CLK IN HI CLK ...

Page 6

AD7713 ABSOLUTE MAXIMUM RATINGS 25°C, unless otherwise noted AGND . . . . . . . . . . . . . . . . . . . . . . . –0 ...

Page 7

Pin No. Mnemonic Function 1 SCLK Serial Clock. Logic input/output, depending on the status of the MODE pin. When MODE is high, the device is in its self-clocking mode, and the SCLK pin provides a serial clock output. This SCLK ...

Page 8

AD7713 Pin No. Mnemonic Function Constant Current Output. A nominal 200 µA constant current is provided at this pin, which can be used as 16 RTD2 the excitation current for RTDs. This current can be turned on or off via ...

Page 9

CONTROL REGISTER (24 BITS) A write to the device with the A0 input low writes data to the control register. A read to the device with the A0 input low accesses the contents of the control register. The control register ...

Page 10

AD7713 PGA Gain Gain (Default Condition after the Internal Power-On Reset ...

Page 11

Tables I and II show the output rms noise for some typical notch and –3 dB frequencies. The numbers given are for the bipolar input ranges with 2.5 V. These numbers are REF typical and are generated ...

Page 12

AD7713 Figures 2a and 2b gives similar information to that outlined in Table I. In this plot, the output rms noise is shown for the full range of available cutoff frequencies rather than for some typical cutoff frequencies as in ...

Page 13

The AD7713 gives the user access to the on-chip calibration registers, allowing the microprocessor to read the device’s calibra- tion coefficients and also to write its own calibration coefficients 2 to the part from prestored values in E PROM. This ...

Page 14

AD7713 DIGITAL FILTERING The AD7713’s digital filter behaves like a similar analog filter, with a few minor differences. First, since digital filtering occurs after the A-to-D conversion process, it can remove noise injected during the conversion process. Analog filtering cannot ...

Page 15

In any case, the error introduced due to longer charging times is a gain error that can be removed using the system calibration capabilities of the AD7713 provided that the resultant span is within the span limits of the system ...

Page 16

AD7713 look like the AIN1 analog input (see Figure 7). In this case kΩ typ and C varies with gain. The input sample rate is INT f /256 and does not vary with gain. For gains of ...

Page 17

MD2, MD1, and MD0 bits of the control register. In this cali- bration mode, the shorted inputs node is switched in to the modulator first and a conversion ...

Page 18

AD7713 The amount of offset that can be accommodated depends on whether the unipolar or bipolar mode is being used. This offset range is limited by the requirement that the positive full-scale calibration limit is ≤ 1.05 V /GAIN for ...

Page 19

DRDY (O) A0 (I) RFS (I) SCLK (O) SDATA (O) Figure 10. Self-Clocking Mode, Output Data Read Operation A0 (I) TFS (I) SCLK (O) SDATA (I) Figure 11. Self-Clocking Mode, Control/Calibration Register Write Operation word in the output register. If ...

Page 20

AD7713 DRDY (O) A0 (I) RFS (I) SCLK (I) SDATA (O) Figure 12a. External Clocking Mode, Output Data Read Operation DRDY (O) A0 (I) RFS (I) SCLK (I) SDATA (O) Figure 12b. External Clocking Mode, Output Data Read ( RFS ...

Page 21

A0 (I) TFS (I) SCLK (I) SDATA (I) Figure 13a. External Clocking Mode, Control/Calibration Register Write Operation A0 (I) TFS (I) SCLK (I) SDATA (I) Figure 13b. External Clocking Mode, Control/Calibration Register Write Operation ( TFS Returns High During Write ...

Page 22

AD7713 MICROCOMPUTER/MICROPROCESSOR INTERFACING The AD7713’s flexible serial interface allows easy interface to most microcomputers and microprocessors. Figure 15 shows a flowchart diagram for a typical programming sequence for read- ing data from the AD7713 to a microcomputer, while Figure 16 ...

Page 23

Table V shows some typical 8XC51 code used for a single 24-bit read from the output register of the AD7713. Table V shows some typical code for a single write operation to the control register of the AD7713. The 8XC51 ...

Page 24

AD7713 PC0 PC1 PC2 68HC11 PC3 SCK MISO MOSI Figure 18. AD7713 to 68HC11 Interface APPLICATIONS 4-Wire RTD Configurations Figure 19 shows a 4-wire RTD application where the RTD transducer is interfaced directly to the ...

Page 25

OTHER 24-BIT SIGNAL CONDITIONING ADCS AVAILABLE AD7710 FEATURES Charge Balancing 24 Bits No Missing Codes 0.0015% Nonlinearity 2-Channel Programmable Gain Front End Gains from 1 to 128 Differential Inputs Low-Pass Filter with Programmable Filter Cutoffs Ability to Read/Write Calibration Coefficients ...

Page 26

AD7713 AD7712 FEATURES Charge Balancing ADC 24 Bits No Missing Codes 0.0015% Nonlinearity High Level and Low Level Analog Input Channels Programmable Gain for Both Inputs Gains from 1 to 128 Differential Input for Low Level Channel Low-Pass Filter with ...

Page 27

MAX 0.200 (5.08) 0.125 (3.18) 0.023 (0.58) 0.014 (0.36) 0.30 (0.0118) 0.10 (0.0039) COPLANARITY 0.10 REV. D OUTLINE DIMENSIONS 24-Lead Plastic Dual In-Line Package [PDIP] (N-24) Dimensions shown in inches ...

Page 28

AD7713 Revision History Location 3/04—Data Sheet changed from REV REV. D. Updated layout . . . . . . . . . . . . . . . . . . . . . . . . . ...

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