AD694AQ Analog Devices Inc, AD694AQ Datasheet - Page 8
AD694AQ
Manufacturer Part Number
AD694AQ
Description
IC SGNL COND 4-20MA TX 16-CDIP
Manufacturer
Analog Devices Inc
Type
Current Transmitterr
Datasheet
1.AD694JNZ.pdf
(16 pages)
Specifications of AD694AQ
Rohs Status
RoHS non-compliant
Input Type
Voltage
Output Type
Voltage
Current - Supply
23mA
Mounting Type
Through Hole
Package / Case
16-CDIP (0.300", 7.62mm)
No. Of Amplifiers
1
Input Offset Voltage
500µV
Bandwidth
300kHz
Amplifier Output
Single Ended
Cmrr
90dB
Supply Voltage Range
4.5V To 36V
Supply Current
1.5mA
Amplifier Case Style
DIP
Rohs Compliant
No
Interface
-
Available stocks
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AD694
Figure 6 will give an approximately linear adjustment of the
4 mA offset within fixed limits. To find the proper resistor val-
ues, first select X, the desired range of adjustment as a fraction
of 4 mA. Substitute this value in the appropriate formula below
along with the chosen reference output voltage (V
10 V usually), to determine the resistor values required.
R
R
These formulae take into account the ± 10% internal resistor
tolerance and ensure a minimum adjustment range for the 4 mA
offset. For example, assume the 2 V reference option has been
selected. Choosing X = 0.05, gives an adjustment range of ± 5%
of the 4 mA offset.
R
R
These can be rounded down to more convenient values of
2.5 kΩ and 9.76 kΩ. In general, if the value of R
down slightly, the value of R
tionately, and vice versa. This helps to keep the adjustment
range symmetrical.
ADJUSTING SPAN FOR 10 V FS
When the AD694 is configured with a 10 V input full-scale the
span maybe adjusted using the network shown in Figure 7. This
scheme allows an approximately linear adjustment of the span
above or below the nominal value. The span adjustment does
not interact with the 4 mA offset. To select R
P
F
P
F
= 180 Ω (1/X – 4.5)
= 500 Ω [(V
= 180 Ω (1/0.05 – 4.5) = 2.79 k Ω
= 500 Ω [(2 V / 1.22) – 0.18 – 0.82 × 0.05][1/0.05 – 4.5]
= 10.99 k Ω
Figure 6. Optional 4 mA Zero Adjustment
REF
/ 1.22 V) – 0.18 – 0.82X][1/X – 4.5]
F
should be rounded down propor-
S
and R
P
REF
is rounded
T
= 2 V or
, choose
–8–
X, the desired adjustment range as a fraction of the span. Sub-
stitute this value in the appropriate formula below.
These formulae take into account the ± 10% absolute resistor
tolerance of the internal span resistors and ensure a minimum
adjustment range of the span. For example, choosing the adjust-
ment range to be ± 2%, or 0.02 gives:
R
R
These values can be rounded up to the more convenient values
of 100 kΩ and 198 kΩ. In general, if R
value of R
ADJUSTING SPAN FOR 2 V FS
The precalibrated 2 V full-scale range requires a different ad-
justment scheme due to the single supply nature of the AD694.
Figure 8 shows an adjustment scheme that allows an approxi-
mately linear adjustment of the 2 V span plus or minus the
nominal value. The span adjustment does not affect the value of
the 4 mA offset current.
To find the proper resistor values first select X, the desired
range of adjustment as a fraction of the output span. Substitute
this value into the following formulae:
These formulae take into account the ± 10% absolute tolerance
of the internal span resistors and ensure a minimum adjustment
range.
For example, choosing the adjustment range to be ± 320 µA of
FS or, ± 2%, let X = 0.02. Thus:
Setting R
R
The value of R
49.9 Ω. In general, if R
rounded up proportionally, and vice versa; rounding up will in-
crease the range of adjustment.
T
S
C
= 1.8 k Ω ((1 – 0.02) / 0.02) = 88.2 k Ω .
= 9 k Ω [1 – 0.2 (1 + 0.02)( 1 – 0.02 )] / (2 × 0.02) =
= (2.75 kΩ × 0.02)/ (1 – 0.275 × (0.02)) = 55.3 Ω
Figure 7. Span Adjustment, 10 V Full Scale
R
R
R
R
B
S
T
S
A
C
= 10 K, then R
should be rounded up proportionally, and vice versa.
= 9 k Ω [1 – 0.2 (1 + X)( 1 – X )] / 2X
= 1.8 k Ω ((1 – X)/X)
= 2 × X × R
= (2.75 kΩ × X)/(1 – 0.275X)
C
can be rounded to the more convenient value of
A
B
is rounded up, then R
where R
A
175.5 k Ω
= 2(.02) × 10 kΩ = 400 Ω
B
is greater than 5 K
T
is rounded up, then the
C
should be
REV. B
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