3.0 SYSTEM OPERATION
3-20
CyberCat 50 Operation Manual
UL S2203
Rev 4, 08/2013
P/N: 06-368-2
FM 3029134
SUMMING EXAMPLE:
Photo Sensor SUMMER, Loop 1 - address 5. This device is configured to sum the following devices which are
physically located near one another in the hazard: Loop 1, addresses 10,11,12,13,14,15,16, and 17. It is
programmed for a summing threshold of 4%/ft. Each Summee (addresses noted previous) is configured for the
obscuration to be transmitted to the summer at 0.5%/ft, 0.6%/ft, 0.7%/ft (up to 8 levels). When the summer obtains
a SUM of the obscurations that are >= 4%/ft it reports the event to the system.
L
Note:
As the obscuration level of the summee rises and falls, it will broadcast an “Analog Value” event
message in relation to the summing functionality. The summer will look at the most current values sent from
the summee to calculate the SUM for the SUMMING ALARM.
To set up this operation, a single sensor is selected as a SUMMER. The summer can look at information from 8
photo (or ion,
same type
as summer and
same loop
at summer - can include the summer) sensors called the
SUMMEE(s). The summer will total the obscuration percentages received from each summee defined. The
summer can be set to alarm from 1-10%/ft (programmable in 0.5%/ft. increments). Each summee has configuration
settings for defining the level of obscuration to be transmitted to the summer (0.5 – 4%/ft in 0.1%/ft increments).
Summing groups can overlap and there is no limitation on the number of Summers. The summer can be
configured to report as any one of the following system event types when activated: Alarm, Summing Alarm,
Supervisory Latching, Supervisory Non-Latching, Pre-Alarm1, and Pre-Alarm 2.
3.4.8
SMOLDER (NON LISTED)
The Ionization sensor provides a smolder enhancement feature that allows the sensitivity of the sensor to be
increased where there is a slow buildup of smoke. If the device senses an increase in obscuration of
approximately 30% of alarm, it will speed up its alarm response calculations.
3.4.9 WALK-TEST
Walk-testing allows for the system sensors (i.e., photo, photo/heat, photo/duct and ion) to be tested for proper
operation without unneeded disturbance to building occupants. By default, all sensors are configured to
participate in a system walk-test using smoke. Sensor configuration can be changed using the panel’s
programming software C-Linx to allow walk-testing using Fike’s IR tool. The IR tool must be used for duct
detector walk-testing. Sensors may only be activated once during the walk-test mode. Refer to Section
6.4.1.4 for further details.