HomeMy WebLinkAbout5320 1st St (2)0
A Advat�i(,,_-.,e(J
A 0
xis AX [lite 111gerit" photoelectrlc, Detef"Jor
The low -profile Intelligent Photoelectric Detector, with built-in
dedicated microprocessor, offers a wide range of capabilities to
suit any commercial, industrial, or institutional application.
Distinguished by it's clear dual -alarm LEDs which illuminate red
during alarm, the detector provides a complete 360 0 view of
device status. The detector's dual -alarm LEDs can also be
programmed for flashing during quiescent mode.
The Intelligent Photoelectric Detector incorporates a unique
industry method of addressing the detector. Each detector is
individually addressed through it's associated base by a patented
address ("XPerT") card. The address is quickly and easily set by
removing "pips" on the XPerT card according to a chart supplied
with each base. Once the address is set on the XPerT card, it can
be slid into place and locked into the detector base. By addressing
the detector at the base rather than internally to the detector, the
all -too -common errors associated with detector removal and
maintenance are eliminated.
Designed to adapt to changing environments and protect against
unwanted false alarms, the response characteristics of the
detectors have been carefully set to comply with the stringent
requirements of UL 268 and NFPA 72. Each detector is
continuously monitored and tested for proper sensitivity and
operation. If a problem is detected with either the device's
sensitivity or proper operation, a trouble or maintenance signal is
reported back to the fire alarm control panel. In addition, the
detector will compensate for any sensitivity drift of the initial
programmed response/sensitivity value due to environmental
contamination and/or dust build-up. Each detector will maintain the
initially set sensitivity at a constant level even when the chamber is
severely contaminated. When compensation levels exceed normal
values, a maintenance signal will be generated.
In addition to the detector's superior false alarm reduction
features, each detector is capable of being field programmed for
one of five response/sensitivity modes (see Table 1).
Response modes correspond to unique response behaviors of a
detector and the type of environment it is protecting, which can be
broadly related to the characteristics of a fire. The detector
response modes relate to different combinations of smoke
sensitivity characteristics and transient rejection/stabilization times
(see Table 2). Response mode 1 is more sensitive than response
mode 5. Detectors set to response mode 1 would be for
environments in which sources of unwanted alarms are rare.
Response mode 5 set detectors would be suitable for more dusty
or smoky environments (i.e.: factory, light industry areas).
Response mode 3 (default programmed) would be the
mid -sensitivity level used for most normal ionization detector
applications.
W
Patented XPerT Detector Base Addressing
Built-in Dedicated Microprocessor
Five Selectable Response/Sensitivity Modes
Ten 7-Day Response/Sensitivity Mode Timers
Sub -Addressing of Ancillary Functions
Dual -Alarm LEDs with 360 0 View
* 100% Digital Communication Protocol
* Integral XPerT Card Address Labeling Tab
. ETL ANSIIUL 864 Listed: 101 564744NYM-001
. UL file: UOXX.S5022 / ML file: S24459
CSFM Approved: 7271-1713:104
NYC MEA: 294-95-E-4
FIRE ALARM PLAN
SCALE: 1/4" = V-0
RA TTERY CAL CULA TIONS
MIRCOM POWER REQUIREMENTS (ALL CURRENTS ARE IN AMPERES)
ITEM
DESCRIPTION
QTY
STANDBY
TOTAL
STANDBY
ALARM
TOTAL
ALARM
1
EXP
0
.130
.130
.220
.220
2
PULL STATION
2
000200
.0006
.00020C
.0006
3
SMOKE DETECTOR
12
.000300
.0144
.000300
.0144
4
HEAT DETECTOR
0
.000300
.000
.000300
.000
5
CARBONMONOXIDE DETECTOR
0
.000300
.0006
.000300
.0006
6
7
NAC S1
1
3.0
3.0
TOTAL
CURRENTS
.146
.236
Standby .146 x 24 Hrs =3.50 + Alarm .236 x Alarm Hr .083 = .019
Standby 3.5 + Alarm .019
Derating X 1.25 = 4.39 AH
BATTERY MODEL
BATTERY SIZE
INTERSTATE
7AH
-FIRE ALARM WIRE LEGEND
A
= 16/2
FPLP
NON -SHIELDED
(WHITE/BLUE)
B
= 14/2
FPLP
NON -SHIELDED
(BLUE)
C
= 14/2
FPLP
NON-SHEILDED
(YELLOW)
D
= 14/2
FPLP
NON-SHEILDED
(BLACK)
E
= 18/4
FPLP
NON-SHEILDED
(WHITE)
FIRE ALARM SYMBOLS
—
POTTER
SIGNAL
FIRE CONTROL PANEL
—
POTTER
SIGNAL
REMOTE ANNUNICATOR
F—E—XP--] —
POTTER
SIGNAL
NAC PANEL
ID —
POTTER
SIGNAL
ADDRESSABLE MANUAL STATION
ED -
POTTER
SIGNAL
ADDRESSABLE CONTROL RELAY
H —
TAMPER
SWITCH
BY OTHERS
FFSJ —
FLOW SWITCH BY OTHERS
F D D] —
POTTER
SIGNAL
DUCT DETECTOR
Fs_m� —
POTTER
SIGNAL
SOUNDER CONTROL MODULE
F-C-01 —
POTTER
SIGNAL
CARBONMONOIXIDE DETECTOR
El —
DOOR HOLDER
Pml —
POTTER
SIGNAL
DUAL MONITOR MODULE
POTTER
SIGNAL
HEAT DETECTOR
POTTER
SIGNAL
PHOTO SMOKE DETECTOR
W/6" STANDARD BASE
@CO
POTTER
SIGNAL
PHOTO SMOKE DETECTOR W/6-
BASE, CO DETECTOR W/6" STANDARD BASE
POTTER
SIGNAL
CEILING STROBE ONLY
WHITE
POTTER
SIGNAL
CEILING HORN/STROBE WHITE
Fs� —
POTTER
SIGNAL
MULTI cd STROBE ONLY WHITE
a—
POTTER
SIGNAL
HORN/STROBE MULTI cd WHITE
EAPOTTER
SIGNAL
HORN/STROBE MULTI cd WHITE
WP
WEATHERPROOF
-'VVV —
END OF
LINE RESISTOR
NOTES:
1. Verify with contract drawings for exact device location and mounting height.
2. All Visual Signal Device Candella Ratings (cd) indicated next to Device.
3. Fire Alarm System Complies with 2016 NFPA 72 & 101 of F.F.P.C.
30 1 � 31
b32D ��5v tA-
ALL WORK SH�kl_L CUIVIII-L' VVI'H
NFFA CODES AND STANDARDS
V I E v q 0 AT E 3
N4
ILL
'iy OF ZEPW ILL
RE AND LIFE S F EXAMINEPZ��
z
0 C5
V)
E
V)
Cn
0
12
N
=
C-
0
U-)
z
0
E
1_
a_
V)
0
W
ELI
C*4
1-1
co
Ljj
7F
Cn
z
0
<
0
F—
C)
LJ
ry
z
0 tf) 10
E N c,4 00
-2 U-)
8 CL n
CU CF) 53
04
L0
C 101)
(0 0
L? Go to
0 0) n
0 1
04 - S 0'a X
Ln P, a
00
*4%