System Sensor 8100 FAAST User Manual

SS-400-007 7 I56-3620-005

Alarm Level

Indicator

Particulate Level

Indicator

Power

Indicator

FIGURE 9. PASSCODE ACCESS BUTTONS

ASP-11

FIGURE 11. IP ADDRESS BLINK MODE

FIGURE 12. IP ADDRESS INDICATOR LIGHTS

FIGURE 10. ADDRESS BLINK MODE

ASP-12

ASP-15

ASP-19

DAY, NIGHT AND WEEKEND MODE
If Acclimate mode is not desired, the FAAST system can operate in a simple
day, night and weekend mode. This allows the device to have separate thresh-
old levels for each state. Times can be configured, if desired, for entering and
leaving day and night time operation. The device has an internal time refer-
ence (clock) and automatically switches to the weekend mode for Saturday
and Sunday.
ISOLATION
Isolation mode is initiated by pressing and releasing the ISOLATE button on
the user interface when the button is enabled (refer to the passcode section).
When the ISOLATE button is activated the FAAST system resets the fault and
alarm relays. It then sets the isolation relay and the isolation fault indicator
illuminates on the user interface. In this mode the device operates normally
but will not activate relays for any alarm or fault levels (except the Isolation
relay). Fire and fault events can still be seen on the user interface and the web
server will send e-mail notification of events if enabled. Isolation mode will
be held through resets and power outages. The device will remain in isolation
mode until the isolation mode is removed by pressing the ISOLATE button.
ISOLATE mode may be enabled and disabled using the monitoring portion
of PipeIQ.
DISABLE
Disable mode is initiated by pressing and holding the ISOLATE button on the
user interface for 3 seconds when the button is enabled (refer to the passcode
section). When the ISOLATE button is activated, the FAAST system resets the
fault and alarm relays. It then sets the isolation relay and the isolation fault
indicator illuminates on the user interface. In this mode the fan switches off
and the device does not report any alarm or fault levels on the user interface
or activate any relays (except the Isolation Relay). This mode should only
be used when the system needs to be taken offline. This mode will be held
through resets and power outages. The device will remain in disable mode
until the disable mode is removed by pressing the ISOLATE button. Disable
mode cannot be enabled or disabled using the monitoring portion of PipeIQ.
USER BUTTON ALTERNATE FUNCTIONS
Passcode Access
The user interface has an option that requires users to enter a security code
before the front panel functions become active. All passcodes must be 4 digits
in length using numbers 1 through 9 (zero cannot be used). Passcodes may
only be changed through the PipeIQ software program. In addition, the con-
figuration software tool is capable of locking out buttons individually, so that
certain buttons may be accessed without a passcode, if desired.

The default passcode is ‘1111’.

The TEST button enters digits, the RESET button is used to enter the unlock
mode and the ISOLATE button increments the current digit.

To enter the passcode mode, press and hold the RESET button for 8 seconds.
The first segment on the flow indicator first illuminates yellow, then green.
When the segment illuminates green, release the RESET button. The first seg-
ment on the airflow display blinks green, indicating the device is ready to
accept the first digit.

To enter the passcode, use the ISOLATE and TEST buttons, shown in Figure 9.
The ISOLATE button is used to increment the current digit. As the current digit
is incremented the segments of the Particulate Bar Graph illuminate accord-
ingly. To complete entry of the digit, press the TEST button. As each digit is
entered the airflow segment illuminates solid green and the next segment be-
gins to flash, indicating the next digit is ready to be entered. After the 4th digit
is entered, the fault indicator illuminates green, if the passcode was accepted
and remains green as long as the detector is “unlocked”. If the passcode was
not accepted, the fault indicator illuminates amber for 3 seconds then the
device returns to its previous state.

Once the passcode is accepted, the locked out button(s) become active. After
45 seconds of inactivity the fault indicator begins to blink green. After an ad-
ditional 15 seconds the detector re-locks the button(s) and returns to normal
operation.

Note: If the RESET button is chosen as a locked button, and a reset is initiated,

the device requires the passcode to regain access to the RESET button.

Address Blink Mode
The unit has two types of addressing capabilities. In addition to the IP Ad-
dress, the FAAST system can also have a local address that is assigned through
the configuration software. The address can be between 1 and 255. This ad-
dress can be accessed from the user interface by pressing and holding the
RESET button for 3 seconds. After 3 seconds, the first segment on the airflow
display illuminates amber, shown in Figure 10, indicating the device is in ad-
dress blink mode. Release the RESET button and the device shows the 3 digit
number assigned by lighting the particulate bar graph with the appropriate
number of segments for each digit. The current digit displayed is indicated
by the 3 left most indicators on the air flow graph. The first digit is the 100’s
and illuminates for 2 seconds. Next, the tens digit illuminates for 2 seconds,
followed by the ones digit illuminating for 2 seconds. If one of the numbers is
zero, then no lights will illuminate for that number on the particulate graph.
The device then returns to normal operating mode.
IP Address Blink Mode
If the device IP has been lost or is unavailable, it’s possible to obtain the address
using the IP address blink mode. The IP address can be accessed from the user
interface by pressing and holding the RESET button for 30 seconds. The digits are
displayed using the same method described in the address blink mode, except
that the FAULT and LOW VOLTAGE indicators are used to show the 1st and 12th
digit, respectively. The device gives the 12 digit number by illuminating the par-
ticulate bar graph to the appropriate number of segments for each digit, as shown
in Figure 11. The example shown in Figure 11 shows that the 5th number of the
IP address is 7. The current digit displayed is indicated by the FAULT, FLOW /
FAULT and VOLTAGE indicators (figure 12) starting with the FAULT for the 1st
digit, progressing through the HIGH FLOW, and ending with the LOW VOLTAGE
for the 12th digit. If one of the numbers is zero, then no lights will illuminate for that
number on the particulate graph. The device will return to normal operating mode.