Absolute Process Instruments API 1090 G Skrócona instrukcja obsługi - Strona 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 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 remov-
ing or installing module.
Précautions
ATTENTION! Tout le câblage doit être effectué par un élec-
tricien ou ingénieur en instrumentation qualifié. Voir le dia-
gramme 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
Range Selection
It is generally easier to select ranges before installation. See
the model/serial number label for module information, options,
or if a custom range was specified.
Set input selector switch A to "I" for a current input or to "V"
for a voltage input.
Switch settings B and C determine the input range.
Switch D determines the alarm configuration.
1. Set input selector switch to either (V)
Voltage or (I) Current as required.
2. From input table, set switches B and C
for specific input range.
3. From alarm configuration table set switch D
1080G
for specific alarm action required.
A
B
C
I
V
Input
Input
Attenu-
Select
ation
1. Set input selector switch to either (V)
Voltage or (I) Current as required.
2. From input table, set switches B and C
for specific input range.
3. From alarm configuration table set switch D
1090G
for specific alarm action required.
A
B
C
I
V
Input
Input
Attenu-
Select
ation
Input
Switch
API 1080 G Alarm Settings
Range
A B C
SP1
0-50 mV
V 8 1
HI
0-100 mV
V 9 1
HI
0-200 mV
V A 1
HI
0-250 mV
V C 1
HI
0-400 mV
V B 1
LO
0-500 mV
V 0 1
LO
±50 mV*
V A 4
LO
±100 mV*
V B 4
LO
0-1 V
V 1 1
0-2 V
V 2 1
API 1090 G Alarm Settings
0-2.5 V
V 4 1
SP1 SP2 Latch
0-4 V
V 3 1
HI
LO
1-5 V
V 5 F
HI
LO
0-5 V
V 5 1
HI
LO
0-10 V
V 6 1
HI
LO
±5 V
V 6 4
HI
HI
±10 V
V 7 4
HI
HI
0-1 mA
I C 1
HI
HI
0-2 mA
I 0 1
HI
HI
0-4 mA
I 1 1
LO
LO
0-8 mA
I 2 1
LO
LO
2-10 mA
I 2 F
LO
LO
0-10 mA
I 4 1
LO
LO
0-16 mA
I 3 1
LO
HI
0-20 mA
I 5 1
LO
HI
I 5 F
4-20 mA
LO
HI
* AP1090 G only
LO
HI
www.mod-tronic.com | [email protected] | 1-800-794-5883
Socket and Mounting
Install module in a protective panel or enclosure. Use API 011
or finger-safe API 011 FS socket. See specifications for maxi-
mum allowable socket voltages. The socket clips to a standard
35 mm DIN rail or can be attached to a flat surface using the
two mounting holes.
Signal Input Terminals
See wiring diagrams below. Polarity must be observed for input
wiring connections. If the input does not function, check switch
settings and wiring polarity.
The milliamp input can be used with either sinking or sourcing
mA transmitters. Determine if your transmitter provides power
to the current loop or if it must be powered by the API module.
Only one device must provide power to the current loop. Use
a multi-meter to check for voltage at the transmitter's output
terminals. Typical voltage may be in the range of 9 to 24 VDC.
In this case, wire the device to terminals 4 and 5.
Relay Output Terminals
See wiring diagrams below. API modules do not provide power
to the relay contacts. Inductive loads (motors, solenoids, con-
tactors, etc.) will greatly shorten relay contact life unless an
appropriate RC snubber is installed.
Module Power Terminals
Check model/serial number label for module operating voltage
to make sure it matches available power.
When using DC power, polarity must be observed. Wire (+) to
terminal 1 and negative (–) to terminal 3.
C
D
C
Alarm
Input
Offset
Config.
Key down
C
D
when panel
mounting
C
C
See
Alarm
Input
api-usa.com/accessories
Offset
Config.
for socket information
and dimensions
Latch
Action
D
NO = Normally Open
2
No
Normal
C = Common
Reverse 6
No
NC = Normally Closed
Yes
Normal
0
Yes
Reverse 4
3
No
Normal
No Alarm
GREEN
Reverse 7
No
Yes
Normal
1
8 NC
Yes
Reverse 5
7 Common
6 NO
Action
D
11 NC
No
Normal
6
10 Common
Reverse E
No
9 NO
2
Yes
Normal
API 1080 G Alarm States with Normal Action HI Alarm
Yes
Reverse A
No
Normal
4
No Alarm
Reverse C
No
Relay 1
GREEN
0
Yes
Normal
8 NC
Yes
Reverse 8
7 Com.
No
Normal
7
6 NO
Reverse F
No
GREEN
Relay 2
3
Yes
Normal
11 NC
Yes
Reverse B
10 Com.
No
Normal
5
9 NO
Reverse D
No
1
Yes
Normal
API 1090 G Alarm States with Normal Action HI/LO Alarms
Yes
Reverse 9
Voltage
or Sourcing
mA Signal
Use terminals 4 and 5 for
(–)
(+)
a voltage input or mA input
Input
from a sourcing transmitter
5
4
Terminals 2 and 4 provide
18 V loop power for a
Passive
passive mA input
Signal
Contact Set 1
(–)
NC
C
NO
Input
Socket
8
7
6
5
4
top view
9
10
11
1
2
3
NO C NC
(+)
Contact Set 2
18 VDC
AC or
AC or
DC+
DC–
Module power
HI Alarm
RED
Relay 1
Relay 1
8 NC
7 Common
6 NO
Relay 2
Relay 2
11 NC
10 Common
9 NO
HI Alarm
LO Alarm
Relay 1
Relay 1
RED
GREEN
8 NC
8 NC
7 Com.
7 Com.
6 NO
6 NO
GREEN
Relay 2
RED
Relay 2
11 NC
11 NC
10 Com.
10 Com.
9 NO
9 NO
API 1080 G, API 1090 G
Setpoint
This multi-turn potentiometer (one for each setpoint on the API
1090 G) allows the operator to adjust the level at which the
alarm is activated. This control is adjustable from 0 to 100%
of the input range.
Deadband
The deadband potentiometer (one for each setpoint on the API
1090 G) allows the alarm trip/reset window to be adjusted
symmetrically about the setpoint from 1 to 100% of the span.
Deadband allows the operator to fine tune the point at which
the alarm trips and resets. The deadband is typically used to
prevent chattering of the relays or false trips when the process
signal is unstable or changes rapidly.
Adjustments
To calibrate the alarm section, set the deadband control to
the minimum (counterclockwise). The deadband will be 1% of
input span in this case.
Set the signal source to a reference that represents the desired
trip point.
Adjust the setpoint control to the point at which the relay
changes state from a non-alarm to an alarm condition.
If a larger amount of deadband is desired turn the deadband
potentiometer clockwise. The deadband is symmetrical about
the setpoint; both transition points will change as deadband
is increased.
Alternately set the setpoint and deadband until the desired trip/
reset points are set.
The adjustment procedure needs to be repeated any time
switch settings are changed.
Output Test / Latching Function
When the test button is depressed it will drive the relays to
their opposite state. This can be used as a diagnostic aid during
initial start-up or troubleshooting. When released, the relays
will return to their prior states.
When the latching mode is selected, it will be necessary to
push the output test button or remove power from the module
mA
to reset the alarm. The alarm will only reset if the alarm condi-
R
tion no longer exists.
i
(+)
Operation
The green LoopTracker
input LED provides a visual indication
®
that a signal is being sensed by the input circuitry of the mod-
ule. It also indicates the input signal strength by changing in
intensity as the process changes from minimum to maximum.
If the 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.
The bi-color alarm LED provides a visual indication of the alarm
status. In all configurations, a green LED indicates a non-alarm
condition and a red LED indicates an alarm condition.
High Alarm
The alarm relay changes state when the input exceeds the
deadband trip point. The relay resets when the input drops
below the deadband reset point unless latching is enabled. For
a high alarm, the trip point is above the reset point.
Low Alarm
The alarm relay changes state when the input goes below the
deadband trip point. The relay resets when the input exceeds
the deadband reset point unless latching is enabled. For a low
alarm, the trip point is below the reset point.
Latching
In this mode the alarm latches when an alarm occurs. The Test
button or powering the module off can be used to reset the
alarm provided the alarm condition no longer exists.
Normal Acting Alarms
Normal acting alarms energize the relay coils in a non-alarm
condition and de-energize them in an alarm condition. This will
create an alarm condition if the module loses power.
Reverse Acting Alarms
Reverse-acting alarms energize the relay coils in an alarm con-
dition and de-energize them in a non-alarm condition. There is
no alarm condition with module power off.