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DIAGNOSTIC LEDS
The
Q106 is equipped with three front panel LEDs. The green LED is a dual function
LED labeled IN. This LED indicates line power and input signal status. Active
AC power is indicated by the illuminated LED. If this LED is off, check AC
power and wiring connections. If the input signal is 7% above or below the
configured input range the green LED will flash at 8Hz or 4Hz,
respectively.
Two red LEDs indicate the relay state for each setpoint. An
illuminated red LED indicates the tripped condition.
OUTPUT
The Q106 is
equipped with two SPDT (form C) relays, rated at 120VAC or 28VDC at 5 amperes.
Each of these relays is independently controlled by the field configurable
setpoint and deadband.
OPERATION
The field
configurable Q106 limit alarm setpoints can be configured for HI or LO,
failsafe or nonfailsafe operation. Each of the setpoints has a respective HI or
LO deadband. In a tripped condition, the setpoint is exceeded and the
appropriate red LED will illuminate. The trip will reset only the process falls
below the HI deadband or rises above the low deadband (see Figure 1). For
proper deadband operation, the HI setpoint must always be set above the LO
setpoint. In failsafe operation, the relay is energized when the process is
below the HI setpoint or above the LO setpoint (opposite for non-failsafe). In
the failsafe mode, a power failure results in an alarm state output.
DYNAMIC DEADBAND
LSI
circuitry in the Q106 prevents false trips by repeatedly sampling the input.
The input must remain beyond the setpoint for 100 milliseconds, uninterrupted,
to qualify as a valid trip condition. Likewise, the input must fall outside the
deadband and remain there for 100 milliseconds to return the alarm to an
untripped condition. This effectively results in a “dynamic deadband”
—based on time— in addition to the normal deadband.
CONFIGURATION
Unless
otherwise specified, the factory presets the Model Q106 as follows:
| Input: |
Current |
| Range: |
0-20mA |
| Output: |
Dual, SPDT |
| Trip: |
A:HI, B:LO |
| Failsafe: |
No |
| Deadband: |
A, B: 0.25% |
The AC power input accepts any AC source between 85 and
265VAC.
Note: An I/QRail is required to power the modules. A two
position rail is provided. See ordering information.
WARNING: Do not attempt to change any switch settings with
power applied. Severe damage will result!
- With the module removed from the rail and not powered,
snap off the face plate by lifting the right edge away from the heat sink. Note
the input switch (SW1) is located under the face plate. Set positions 9 &
10 for voltage or current input (see Table1).
- Set positions 1 through 4 of input range switch
“SW1” for the desired input range (see Table 1).
- Set position 5 of input range switch “SW1” to
ON (closed) for unipolar (e.g. zero based, 0-20mA) range or OFF (open) for
bipolar (e.g. -100% offset, -20 to 20mA) range (see Figure 4).
- Set positions 6 and 7 of input range switch
“SW1” to ON for a HI trip setpoint or OFF for a LO trip setpoint (see
Figure 4).
- Set position 8 of input range switch “SW1” to
ON for non-failsafe operation or OFF for failsafe operation (e.g. alarm trips
upon power failure).
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CALIBRATION
- After configuring the DIP switches, connect the input to
a calibrated DC source and apply power. Refer to the terminal wiring in the
specifications section.
- Starting Calibration: After applying power to the unit
all three LEDs will flash for approximately 10 seconds. Next, adjust the input
signal level for Relay “A” setpoint, the green LED should be on.
Press the CAL button and hold for four seconds (until the red LED starts
flashing) to enter the calibration mode. The green LED should be on and the red
Relay “A” LED should now be flashing. flashing.
- Setpoint "A": Input the desired trip level for Relay "A",
if not already done, and push the CAL button. The green LED and the red Relay
"A" LED should be flashing. Note, The green LED will stop flashing when the
input drops below a high setpoint or rises above an low setpoint.
- Deadband "A": For minimum deadband (0.25% approx.), press
and hold the CAL button for 4 seconds. For high setpoints lower the input level
to the desired deadband point and push the CAL button. For low setpoints
increase the input level (green LED turns off) to the desired deadband level
and push the CAL button. The green LED should be on and the red Relay "B" LED
should be flashing.
- Setpoint “B”: Input the desired trip level for
Relay “B”, and push the CAL button. The green and the red Relay
“B” LED should be flashing. Note, the green LED will stop flashing
when the input drops below a high setpoint or rises above a low setpoint.
- Deadband “B”: For minimum deadband (0.25%
approx.), press and hold the CAL button for 4 seconds. For high setpoints lower
the input level (green LED turns off) to the desired deadband point and push
the CAL button. For low setpoints increase the input level to the desired
deadband level and push the CAL button. The green LED should be on and both the
red LEDs should be flashing.
- Press the CAL button one final time to exit the
calibration mode. Check the setpoint and deadband to validate
calibration.ployed by a growing number of advanced users. Additionally, the
efficiency advantages of PC based range programming can also be realized.
RELAY PROTECTION AND EMI
SUPPRESSION
When switching inductive loads, maximum relay life and
transient EMI suppression is achieved using external protection (see Figures 2
and 3). Place all protection devices directly across the load and minimize all
lead lengths. For AC inductive loads, place a properly rated MOV across the
load in parallel with a series RC snubber. Use a 0.01 to 0.1mF pulse film
capacitor (foil polypropylene recommended) of sufficient voltage, and a 47W, 1/2W carbon resistor. For DC inductive loads, place a
diode across the load (PRV > DC supply, 1N4006 recommended) with (+) to
cathode and (-) to anode (the RC snubber is an optional enhancement). |
