Absolute Process Instruments API 6380 G D S HV Manual de inicio rápido - Página 2
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Installation and Setup
Precautions
WARNING! All wiring must be performed by a qualified electrician or
instrumentation engineer. See diagram for terminal designations 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.
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 lead and 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
Socket and Mounting
The module installation requires a protective panel or enclosure.
The socket clips to a standard 35 mm DIN rail or can be attached to
a flat surface using the two mounting holes.
Output Reversal Configuration
The default configuration is normal acting output. The output can be
reversed by moving an internal jumper.
1. Unplug the module from the socket.
2. Remove 4 screws from module bottom and lift off plastic case.
3. Note location of circuit board jumper. See diagram below.
4. Place jumper as indicated for desired output operation.
5. Replace cover and screws.
transformer
jumper
jumper
Normal Output
Range Selection
Set I/O ranges before plugging the module in. See the model serial
number label for options or if a custom range was specified. The mod-
ule side label lists common ranges or see table below to select ranges.
Switch A:
"V" for voltage input or "I" for current input. Switch A
determines the input impedance, typically 10 Ω for
current inputs and 220 kΩ or 1 MΩ for voltage inputs.
Switch B:
Output range
Switches C, D: Input range
Switch E:
"V" for voltage output or "I" for current output
Output
0-1 V
0-2 V
0-4 V
Switches
ABCDE
ABCDE
ABCDE
Input t
0-5 mA
V0A2I
V8A2
V1A2
0-10 mA
V022I
V822
V122
0-50 mA
V002I
V802
V102
0-100 mA
V092I
V892
V192
0-200 mA
V012I
V812
V112
V0A2V
V8A2
V1A2V
0-50 mV
0-100 mV
V022V
V822
V122V
0-200 mV
V0B2V
V8B2
V1B2V
0-500 mV
V002V
V802
V102V
0-1 V
V092V
V892
V192V
0-2 V
V012V
V812
V112V
0-5 V
V000V
V800
V100V
0-10 V
V062V
V862
V162V
0-20 V
V0F2V
V8F2
V1F2V
V042V
V842
V142V
0-50 V
0-100 V
V0D2V
V8D2
V1D2V
0-125 V
V049V
V849
V149V
0-175 V
V054V
V854
V154V
0-200 V
V052V
V852
V152V
0-250 V
V0D9V
V8D9
V1D9V
0-300 V
V0D3V
V8D3V
V1D3V
0-400 V
V0D0V
V8D0V
V1D0V
V059V
V859V
V159V
0-500 V
0-600 V
V053V
V853V
V153V
www.mod-tronic.com | [email protected] | 1-800-794-5883
Signal Output
Polarity must be observed when connecting the signal output to the
load. The module provides 20 VDC power to the output loop when
current output is selected.
Signal Input
For safety, input must be off while connecting wiring. Connect the
AC signal input to terminals 5 and 6.
Module Power
Check model/serial number label for module operating voltage to
make sure it matches available power.
AC power is connected to terminals 1 and 3.
For DC powered modules, polarity MUST be observed.
Positive (+) is wired to terminal 1
Negative (–) is wired to terminal 3
AC voltage or
AC mA input
Socket top
view
Key down
transformer
when
panel
mounting
Reverse Output
mA output
20 V sourcing
Voltage
output
1-5 V
0-5 V
0-8 V
2-10 V
ABCDE
ABCDE
ABCDE
ABCDE
V6A2I
V9A2I
V2A2I
V7A2I
V622I
V922I
V222I
V722I
V602I
V902I
V202I
V702I
V692I
V992I
V292I
V792I
V612I
V912I
V212I
V712I
V6A2V
V9A2V
V2A2V
V7A2V
V622V
V922V
V222V
V722V
V6B2V
V9B2V
V2B2V
V7B2V
V602V
V902V
V202V
V702V
V692V
V992V
V292V
V792V
V612V
V912V
V212V
V712V
V600V
V900V
V200V
V700V
V662V
V962V
V262V
V762V
V6F2V
V9F2V
V2F2V
V7F2V
V642V
V942V
V242V
V742V
V6D2V
V9D2V
V2D2V
V7D2V
V649V
V949V
V249V
V749V
V654V
V954V
V254V
V754V
V652V
V952V
V252V
V752V
V6D9V
V9D9V
V2D9V
V7D9V
API 6380 G HV Additional Input Ranges
V6D3V
V9D3V
V2D3V
V7D3V
V6D0V
V9D0V
V2D0V
V7D0V
V659V
V959V
V259V
V759V
V653V
V953V
V253V
V753V
6380 G
Output
Input
Output
Input
Input
Sel.
Sel.
Range
Range 1
Range 2
I
V
I
V
A
B
C
D
E
C
C
6
5
4
3
AC or DC (–)
Module power
AC or DC
(+)
7
8
1
2
(+)
(–)
R
i
Device
w. mA
Input
7
8
(+)
(–)
Device
w. Voltage
Input
0-10 V
±5 V
±10 V
ABCDE
ABCDE
ABCDE
V3A2I
V4A2I
V5A2I
V322I
V422I
V522I
V302I
V402I
V502I
V392I
V492I
V592I
V312I
V412I
V512I
V3A2V
V4A2V
V5A2V
V322V
V422V
V522V
V3B2V
V4B2V
V5B2V
V302V
V402V
V502V
V392V
V492V
V592V
V312V
V412V
V512V
V300V
V400V
V500V
V362V
V462V
V562V
V3F2V
V4F2V
V5F2V
V342V
V442V
V542V
V3D2V
V4D2V
V5D2V
V349V
V449V
V549V
V354V
V454V
V554V
V352V
V452V
V552V
V3D9V
V4D9V
V5D9V
V3D3V
V4D3V
V5D3V
V3D0V
V4D0V
V5D0V
V359V
V459V
V559V
V353V
V453V
V553V
API 6380 G HV Series
Calibration
The Zero and Span potentiometers can be used fine-tune the
output range.
Note: Perform the following calibration procedure any time switch
settings are changed.
1. Power the module and allow a minimum 20 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 ±10V output.
4. Set the input at maximum, and adjust the Span pot for the exact
maximum output desired. The Span pot should only be adjusted
when the input signal is at its maximum. This will produce the
corresponding maximum output signal.
5. Repeat adjustments for maximum accuracy.
Test Range Adjust – Turn the multi-turn Test Range potentiometer
while holding the Test button depressed until the desired output test
level is reached. It can be adjusted to vary the output signal from 0
to 100% of the output range.
Operation
Depending on the rotary switch settings, the input is either ampli-
fied or attenuated, then filtered and processed by a precision full-
wave rectification circuit. The result is passed thru a low pass active
filter that provides a DC voltage representing the average value of
the input. This DC voltage is passed through an optical isolation
circuit to the output stage.
Test Button – Drives a device on the output side of the loop (a panel
meter, chart recorder, etc.) with a known good signal that can be
used as a system diagnostic aid during initial start-up or during
troubleshooting. When released, the output will return to normal.
GREEN LoopTracker
®
Input LED – Provides a visual indication that
a signal is being sensed by the input circuitry of the module. It also
indicates the input signal strength by changing in intensity as the
process changes from minimum to maximum. If the LED fails to illu-
minate, or fails to change in intensity as the process changes, this
may indicate a problem with module power or signal input wiring.
RED LoopTracker output LED – Provides a visual indication that
the output signal is functioning. It becomes brighter as the input
and the corresponding output change from minimum to maximum.
For current outputs, the LED will only light if the output loop cur-
rent 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.
0-2 mA
2-10 mA 0-10 mA 0-16 mA 4-20 mA 0-20 mA
ABCDE
ABCDE
ABCDE
ABCDE
I0A2I
I6A2I
I9A2I
I2A2I
I022I
I622I
I922I
I222I
I002I
I602I
I902I
I202I
I092I
I692I
I992I
I292I
I012I
I612I
I912I
I212I
I0A2V
I6A2V
I9A2V
I2A2V
I022V
I622V
I922V
I222V
I0B2V
I6B2V
I9B2V
I2B2V
I002V
I602V
I902V
I202V
I092V
I692V
I992V
I292V
I012V
I612V
I912V
I212V
I000V
I600V
I900V
I200V
I062V
I662V
I962V
I262V
I0F2V
I6F2V
I9F2V
I2F2V
I042V
I642V
I942V
I242V
I0D2V
I6D2V
I9D2V
I2D2V
I049V
I649V
I949V
I249V
I054V
I654V
I954V
I254V
I052V
I652V
I952V
I252V
I0D9V
I6D9V
I9D9V
I2D9V
I0D3V
I6D3V
I9D3V
I2D3V
I0D0V
I6D0V
I9D0V
I2D0V
I059V
I659V
I959V
I259V
I053V
I653V
I953V
I253V
ABCDE
ABCDE
I7A2I
I3A2I
I722I
I322I
I702I
I302I
I792I
I392I
I712I
I312I
I7A2V
I3A2V
I722V
I322V
I7B2V
I3B2V
I702V
I302V
I792V
I392V
I712V
I312V
I700V
I300V
I762V
I362V
I7F2V
I3F2V
I742V
I342V
I7D2V
I3D2V
I749V
I349V
I754V
I354V
I752V
I352V
I7D9V
I3D9V
I7D3V
I3D3V
I7D0V
I3D0V
I759V
I359V
I753V
I353V