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AD693BQ Datasheet(PDF) 11 Page - Analog Devices

Part # AD693BQ
Description  Loop-Powered 4??0 mA Sensor Transmitter
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Manufacturer  AD [Analog Devices]
Direct Link  http://www.analog.com
Logo AD - Analog Devices

AD693BQ Datasheet(HTML) 11 Page - Analog Devices

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AD693
REV. A
–11–
Table II. Thermocouple Application—Cold Junction Compensation
30 mV
60 mV
AMBIENT
TEMP
TEMP
POLARITY
MATERIAL
TYPE
TEMP
RCOMP
RZ
RANGE
RANGE
+
IRON
J
25
°
51.7
301K
546
°C
1035
°C
CONSTANTAN
75
°
53.6
294K
+
NICKEL-CHROME
25
°
40.2
392K
721
°C—
_
NICKEL-ALUMINUM
K
75
°
42.2
374K
+
NICKEL-CHROME
25
°
60.4
261K
E
413
°C
787
°C
COPPER-NICKEL
75
°
64.9
243K
+
COPPER
25
°
40.2
392K
T
USE WITH GAIN >2
COPPER-NICKEL
75
°
45.3
340K
Figure 19. Thermocouple Inputs with Cold Junction Compensation
Table III lists the expressions required to calculate the total
error. The AD693 is tested with a 250
Ω load, a 24 V loop supply
Table III. RTI Contributions to Span and Offset Error
RTI Contributions to Offset Error
Error Source
Expression for RTI Error at Zero
IZE
Zero Current Error
IZE/XS
PSRR
Power Supply Rejection Ratio
(|VLOOP – 24 V| + [|RL – 250 Ω| × IZ]) × PSRR
CMRR Common-Mode Rejection Ratio |VCM – 3.1 V| × CMRR
IOS
Input Offset Current
RS
× IOS
RTI Contributions to Span Error
Error Source
Expression for RTI Error at Full Scale
XSE
Transconductance Error
VSPAN
× X
SE
XPSRR
Transconductance PSRR
1
|RL – 250 Ω| × IS × PSRR
XCMRR Transconductance CMRR
|VCM – 3.1 V| × VSPAN × XCMRR
XNL
Nonlinearity
VSPAN
× X
NL
IDIFF
Differential Input Current
2
RS
× I
DIFF
Abbreviations
IZ
Zero Current (usually 4 mA)
IS
Output span (usually 16 mA)
RS
Input source impedance
RL
Load resistance
VLOOP Loop supply voltage
VCM
Input common-mode voltage
VSPAN
Input span
XS
Nominal transconductance in A/V
1The 4–20 mA signal, flowing through the metering resistor, modulates the power supplyvoltage seen
by the AD693. The change in voltage causes a power supply rejection error that varies with the
output current, thus it appears as a span error.
2The input bias current of the inverting input increases with input signal voltage. The differential
input current, IDIFF, equals the inverting input current minus the noninverting input current; see
Figure 2. IDIFF, flowing into an input source impedance, will cause an input voltage error that var-
ies with signal. If the change in differential input current with input signal is approximated as a
linear function, then any error due to source impedance may be approximated as a span error. To
calculate IDIFF, refer to Figure 2 and find the value for IDIFF/ + In corresponding to the full-scale
input voltage for your application. Multiply by + In max to get IDlFF. Multiply IDIFF by the source
impedance to get the input voltage error at full scale.
via a set of thermocouple tables referenced to
°C. For example,
the output of a properly referenced type J thermocouple is
60 mV when the hot junction is at 1035
°C. Table II lists the
maximum measurement temperature for several thermocouple
types using the preadjusted 30 mV and 60 mV input ranges.
More convenient temperature ranges can be selected by deter-
mining the full-scale input voltages via standard thermocouple
tables and adjusting the AD693 span. For example, suppose
only a 300
°C span is to be measured with a type K thermo-
couple. From a standard table, the thermocouple output is
12.207 mV; since 60 mV at the signal amplifier corresponds to a
16 mA span at the output a gain of 5, or more precisely 60 mV/
12.207 mV = 4.915 will be needed. Using a 12.207 mV span in
the gain resistor formula given in “Adjusting Input Span” yields
a value of about 270
Ω as the minimum from P1 to 6.2 V. Adding
a 50
Ω potentiometer will allow ample adjustment range.
With the connection illustrated, the AD693 will give a full-scale
indication with an open thermocouple.
ERROR BUDGET ANALYSIS
Loop-Powered Operation specifications refer to parameters
tested with the AD693 operating as a loop-powered transmitter.
The specifications are valid for the preset spans of 30 mV,
60 mV and those spans in between. The section, “Components
of Error,” refers to parameters tested on the individual functional
blocks, (Signal Amplifier, V/I Converter, Voltage Reference, and
Auxiliary Amplifier). These can be used to get an indication of
device performance when the AD693 is used in local power
mode or when it is adjusted to spans of less than 30 mV.


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