Instructions
APD 2070
Calibration
Front-mounted Zero and Span potentiometers for each channel
can be used to compensate for load and lead variations.
1. Apply power to the module and allow a minimum 30 minute
warm up time.
2. Using an accurate calibration source, provide an input to the module
equal to the minimum input required for the application.
3. Using an accurate measurement device for the output, adjust the Zero
potentiometer for the exact minimum output desired. The Zero control
should only be adjusted when the input signal is at its minimum. This
will produce the corresponding minimum output signal. For example:
4 mA for a 4-20 mA output or –10 V for a ±10 V output.
4. Set the input at maximum, and then adjust the Span pot for the
exact maximum output desired. The Span control should only
be adjusted when the input signal is at its maximum. This will
produce the corresponding maximum output signal. Example:
for 4-20 mA output, set the Span control to 20 mA.
5. Repeat adjustments for both output channels for max. accuracy.
Ch. 1 Sensitivity Adjustment
This multi-turn potentiometer provides an adjustable threshold
level that the incoming signal must overcome before an output
can be produced. This is used to limit noise and minimize false
input signals that may cause erroneous readings.
Fully clockwise: (max. sensitivity), input threshold is ±25 mV.
Fully counterclockwise: (min. sensitivity), input threshold is ±2.5 volts.
Output Test Function
When the Test button is depressed it will drive the output with a
known good signal that can be used as a diagnostic aid during
initial start-up or troubleshooting. When released, the output will
return to normal.
Each Test Cal. potentiometer is factory set to approximately 50%
output. Each can be adjusted to set the test output from 0 to 100%
of the output span. Press and hold the Test button and adjust the
corresponding Test Cal. potentiometer for the desired output level.
They may optionally be externally wired for remote test operation
or a manual override. See wiring diagram at right.
Operation
The APD 2070 accepts one frequency and one DC voltage or
current input and provides two optically isolated DC voltage or
current outputs that are linearly related to the inputs.
Green LoopTracker
®
input LEDs provide a visual indication that
each signal is being sensed by the input circuitry of the module.
They also indicates the input signal strength by changing in inten-
sity as the process changes from minimum to maximum.
If an LED fails to illuminate, or fails to change in intensity as the
process changes, check the module power or signal input wiring.
Note that it may be difficult to see the LEDs under bright lighting
conditions.
Two red LoopTracker output LEDs provide a visual indication that the
output signals are functioning. They become brighter as the input
and each corresponding output change from minimum to maximum.
For a current output the red LED will only light if the output loop
current path is complete. For either current or voltage outputs,
failure to illuminate or a failure to change in intensity as the
process changes may indicate a problem with the module power
or signal output wiring.
APD 2070
Channel 1
Channel 2
Frequency to DC
DC to DC
Isolated Transmitter
Isolated Transmitter
Test Cal.
Span
Zero
Test
Output
Loop
Tracker
Test Cal.
Span
Zero
Test
Output
Input
Loop
Tracker
Loop
Tracker
Channel 1
Channel 2
Input
Loop
Tracker
®
Sensitivity
14
13
15 16
10
9
11 12
External
Contacts
for Test
Function
–
+ 20V
–
+ 20V
mA
Device 2
R
i
mA
Device 1
R
i
6
5
7
8
2
1
3
4
Ch. 1
Ch. 2
Voltage
Output
–
+
Voltage
Device 1
–
+
Voltage
Device 2
2
1
3
4
Ch. 1
Ch. 2
6
5
7
8
–
+
mA
Device 2
R
i
Loop
Power
Source 2
–
+
+
–
mA
Device 1
R
i
Loop
Power
Source 1
Ch. 1
Ch. 2
2
1
3
4
6
5
7
8
+
–
+15V
–
mA
Xmtr 2
R
i
22
21
23
24
Ch. 2
Current sourcing input
Module powers loop
22
21
23
24
+
–
mA
Xmtr 2
R
i
Loop
Power
Source 2
+
–
Ch. 2
Current sinking input
Input externally powered
Voltage
Xmtr 2
–
+
22
21
23
24
Ch. 2
Voltage input
28 Power AC or DC –
26 Earth Ground
25 Power AC or DC +
26
25
27
28
To maintain full isolation avoid combining power supplies in
common with inputs, outputs, or unit power.
2 Wire
18
17
19
20
–
+15 VDC
+Sig
2 wire using 15 V supply
See sensor specs. if
bleed resistor is required
15 k
W
typ.
2 Wire
17
17
19
20
2 wire self-generating
–
+Sig
3 wire NPN
See sensor specs. if load
resistor is required
NPN
18
17
19
20
–
+15 VDC
+Sig
Load resis.
3 wire PNP
See sensor specs. if
load resistor is required
18
17
19
20
–
+15 VDC
+Sig
PNP
Load resis.
Precautions
WARNING! All wiring must be performed by a qualified electrician
or instrumentation engineer. See diagram for terminal designa-
tions and wiring examples. Consult factory for assistance.
WARNING! Avoid shock hazards! Turn signal input, output, and
power off before connecting or disconnecting wiring, or removing
or installing module.
Précautions
ATTENTION! Tout le câblage doit être effectué par un électricien
ou ingénieur en instrumentation qualifié. Voir le diagramme pour
désignations des bornes et des exemples de câblage. Consulter
l'usine pour assistance.
ATTENTION! Éviter les risques de choc! Fermez le signal d'entrée,
le signal de sortie et l'alimentation électrique avant de connecter
ou de déconnecter le câblage, ou de retirer ou d'installer le module.
Electrical Connections
Polarity must be observed for signal wiring connections. If the
input and/or output do not function, check wiring and polarity.
Each product is factory configured to your exact input and output
ranges as indicated on the serial number label.
Outputs
For milliamp ranges determine if your devices provide power to the
current loop or if the loop must be powered by the APD module.
Typical voltage may be 9-24 VDC at your device's terminals if it
provides power to the loop.
Mounting to a DIN Rail
Install module vertically on a 35 mm DIN rail in a protective
enclosure away from heat sources. Do not block air flow. Allow
1" (25 mm) above and below housing
vents for air circulation.
1. Tilt front of module down and posi-
tion the lower spring clips against the
bottom edge of DIN rail.
2. Push front of module upward until
upper mount snaps into place.
Removal
Avoid shock hazards! Turn signal
input, output, and power off.
1. Push up on bottom back of module.
2. Tilt front of module downward to
release upper mount from top edge
of DIN rail.
3. The module can now be removed
from the DIN rail.
Spring Clips
Upper Mount
Device for Output Channel 1
Terminal Terminal
Voltage input device.
3 (
–)
4
(
+)
Unpowered or passive mA input device.
APD module provides the loop power.
3 (
–)
4
(+20 V)
mA input device powers the current loop.
2 (
–)
3
(
+)
Device for Output Channel 2
Terminal Terminal
Voltage input device.
7 (
–)
8
(
+)
Unpowered or passive mA input device.
APD module provides the loop power.
7 (
–)
8
(+20 V)
mA input device powers the current loop.
6 (
–)
7
(
+)
Frequency Sensor Ch. 1
Signal
Com.
Sensor
Power
Signal
Input
2 wire or Namur
requiring external power
n/a
1
8
(
+15 V)
19
(
+)
2 wire self generating (VR)
17 (
–)
n/a
19
(
+)
3 wire PNP or NPN
17 (
–) 1
8
(
+15 V)
19
(
+)
Input 1, Frequency
The input range is pre-configured at the factory. No input calibra-
tion is necessary. The frequency input is compatible with most
types of sensors that product a minimum 100 mV amplitude
change and a minimum 5 microsecond pulse width.
A 15 VDC supply is available to power the sensor if required.
Always refer to the sensor manufacturer's data sheet to deter-
mine supply voltage compatibility and proper wiring.
DC Input Channel 2
Terminal Terminal
Sensor or transmitter with a voltage output.
21(
–)
23
(
+)
Powered mA output transmitter.
Typically a 3 or 4-wire device.
21 (
–)
23
(
+)
Unpowered mA output transmitter.
Typically a 2-wire device. APD module
provides loop power.
23 (
–) 22
(
+15 V)
Sensor Load
The frequency signal input is capacitively coupled to prevent any
DC in the input. Some sensors, typically those without an internal
load resistor, require a resistive load in order to function.
The resistor value may be specified by the sensor manufacturer
as the "minimum resistive load" or calculated from the sensor
manufacturer's specified "load current range".
The 15 VDC power supply is capable of providing 25 mA. A load current
range of 3 mA to 25 mA would typically use a 5 k
W
to 500
W
resistor.
Input 2, DC
For milliamp ranges determine if your devices provide power to
the current loop or if the loop must be powered by the APD mod-
ule. Typical voltage may be 9-24 VDC at your device's terminals if
it provides power to the loop.
Module Power Terminals
Check label for module operating voltage to make sure it matches
available power. The power supplies are fuse protected and the
unit may be returned to API for fuse replacement.
When using DC power, either polarity is acceptable, but for
consistency, wire positive (+) to terminal 25 and negative (–) to
terminal 28.
Cu 60/75°C
conductors
14 AWG
max.
To avoid
damage to
the module,
do not
make any
connections
to unused
terminals
Wire
terminal
torque
0.5 to 0.6
Nm or 4.4
to 5.3 in-lbs
API maintains a constant effort to upgrade and improve its products.
Specifications are subject to change without notice. See api-usa.com for
latest product information. Consult factory for your specific requirements.
WARNING:
This product can expose you to chemicals includ-
ing nickel, which are known to the State of California to cause
cancer or birth defects or other reproductive harm. For more
information go to www.P65Warnings.ca.gov
Current
Sourcing
Output
Current
Sinking
Output
Module
powers mA
output loop
Module mA
output is
unpowered
3 or 4
wire mA
trans-
mitter
or 2
wire w.
power
supply
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