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3–50
I/O Wiring and Specifications
F2-4AD2DA 4-Channel Analog Input / 2-Channel Analog Output
Input Channels
Output Channels
Ranges
Resolution
Peak withstanding volts
Maximum cont. overload
Input Impedance
External load resistance
Maximum loop supply
Recommended fuse
Maximum load /
Power supply
Active low–pass filter
Linearity Error
(end to end)
Output Settling time
Accuracy vs.
Temperature
One count in the specification table is equal to one least significant bit of the analog data value (1 in 4096).
Note 1: Shields should be connected at their respective signal source.
Note 2: Unused channels should remain open for minimum power consumption.
Note 3: More than one external power supply can be used provided the power supply commons are connected.
Note 4: A Series 217, 0.032A fast acting fuse is recommended for 4–20mA current input loops.
Note 5:
If the power supply common of an external power supply is not connected to 0VDC on the module, then
the output of the external transmitter must be isoltaed. To avoid "ground llop" errors, recommended
4–20mA transmitter types are:
2 or 3 wire: isolation between input signal and power supply
4 wire: isolation between input signal, power supply, and 4–20mA output
Typical User Wiring
See NOTE 1
–
+
–
CH1
4–wire
+
4–20mA
Transmitter
+
–
CH2
3–wire
+
4–20mA
Transmitter
–
CH3
2-wire
+
4–20mA
Transmitter
–
CH4
2-wire
+
4–20mA
Transmitter
Ch 1 load
0–910 W
(@ 24V)
Ch 2 load
0–910 W
(@ 24V)
See NOTE 8
DL205 Installation and I/O Manual, Rev. B
4, single ended (one common)
2, single ended (one common)
4 to 20 mA current
12 bit (1 in 4096)
75 VDC, current outputs
–40 to +40 mA, each current input
250W, "0.1%, ½W, 25ppm/_C current
input resistance
0W minimum, current outputs
26VDC, current outputs
0.032A, series 217 fast–acting, current
inputs
910W /24V, current outputs
–3 dB at 20Hz, 2 poles (–12 dB per
octave)
"1 count ("0.025% of full scale)
maximum
100 ms maximum (full scale change)
"50 ppm/_C full scale calibration change
(including maximum offset change)
Module Supply
18–26.4VDC
+
–
0 VDC
IN-
IN2+
Fuse
Fuse
IN4+
Fuse
Fuse
OUT1+
–
Loop Supply
+
See NOTE 1
Maximum Inaccuracy
Digital input and
output points required
PLC update rate
Power Budget Req. R
External Power Sup.
Operating
Temperature
Storage Temperature
Relative Humidity
Environmental air
Vibration
Shock
Noise Immunity
Note 6:
If an analog channel is connected backwards, then erroneous data values will be returned for that channel.
Note 7:
To avoid small errors due to terminal block losses, connect 0VDC, IN–, and OUT– on the terminal block as
shown. The module's internal connection alone of these nodes is not sufficient to permit module performance
up to the accuracy specifications.
Note 8:
Choose an output transducer resistance according to the maximum load/power supply listed in the Output
Specifications.
Internal
Module
Wiring
+24 VDC
IN1+
250W
IN3+
Converter
250W
250W
OUT-
250W
Converter
OUT2+
Ch 1
Current sinking
Converter
Ch 2
Current sinking
0V
"0.1% @ 77°F (25°C)
"0.3% @ 32 to 140°F (0 to 60°C)
16 point (X) inputs
16 point (Y) outputs
4 input channels per scan minimum
(D2–240 or D2–250 CPU)
2 output channels per scan minimum
(D2–240 or D2–250 CPU)
1 input and 1 output channel
per scan minimum
(D2–230 CPU)
60 mA @ 5 VDC (supplied by base)
22 to 26 VDC, 100 mA maximum
32 to 140° F (0 to 60_ C)
–4 to 158° F (–20 to 70_ C)
5 to 95% (non-condensing)
No corrosive gases permitted
MIL STD 810C 514.2
MIL STD 810C 516.2
NEMA ICS3–304
IN/
OUT
+5V
+15V
0V
F2–4AD2DA
–15V
18 26.4 VDC
80 mA
ANALOG
4 IN / 2 OUT
4-20mA
0V
A to D
+24V
IN-
CH1+
IN
CH2+
D to A
CH3+
CH4+
OUT-
CH1+
OUT
D to A
CH2+
F2-4AD2DA
ANALOG
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