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P/N 387040P-
EN • REV 013 • ISS 20SEP17
Figure 1: Installing the SIGA-CC2 module
(1) Compatible electrical box
(3) SIGA-CC2 module
(3) Wall plate
(5) #6-32 × 5/8 machine screw
(4X)
(6) #4 × 1/2 self-tapping screw
Protection from transient spikes
For installations in which the output circuit connects to
electromechanical bells or horns, install a bipolar transient
protector (P/N 235196P) to protect the module from transient
spikes caused by switching inductive loads. Locate bells and
horns at least 6 ft. (1.8 m) from the module.
To install a bipolar transient protector:
1. Install the transient protector across the output circuit
inside the electrical box with the module. See Figure 2.
Figure 2: Bell circuit showing bipolar transient protector
placement
(1) Normal state
(2) Active state
Wiring
Wire this device in accordance with applicable national and
local codes, ordinances, and regulations.
General wiring notes
•
Refer to the Signature loop controller installation sheet for
SLC wiring specifications.
•
Each terminal on the module is limited to a single
conductor.
•
Test resistors are supplied with the SIGA-CC2 to prevent
trouble signals on unused circuits during installation.
When connecting field wires, remove the test resistors and
install a UL/ULC Listed 47
kΩEOLR at the end of the
circuit.
•
The module does not support conventional smoke
detectors.
Riser wiring notes
•
For maximum line impedance, refer to the installation
manual for the fire alarm panel. Maximum circuit
capacitance is 0.1 µF.
•
If the riser is used for more than one notification zone,
install in accordance with the survivability from attack by
fire requirements in NFPA 72
National Fire Alarm and
Signaling Code.
•
The SIGA-CC2 module does not supervise the riser; the
fire alarm control panel provides this function.
To wire the module:
1. Verify that all field wiring is free of opens, shorts, and
ground faults.
2. Strip 1/4 in. (about 6 mm) from the ends of all wires that
connect to the terminal block of the module.
When stripping wire ends, exposing more wire may cause
a ground fault; exposing less wire may result in a faulty
connection.
3. Connect the field wires. See Figure 3 and Figure 4.
(1)
(2)
(3)
(4)
(5)
10
9
(1)
(2)
