BLD2000-0588System Matrix
Functon
0
:3
0
0
0
U
0
6
W
E
W
75
C:
o
0
Qf
Q
Q>
E
>s
0
0
I
z
0
LIN
0
CD
0
0
>
_W
>
-W
0
-a
75
W
40
E
0
�v
CD
V
E
0
<
-,5)
Lo
:�c
a-
->W%
01;
3
C
0.
=3
.2
2
z
0
0
C
V)
0
0
0
1%.
0
U)
0
a)
CL
C:1
40
41
C
L)
0
E
>
>
Input
<
U.
o-
QI
n
0
EL
U
3-
01
a-
C.3
0
:3
1.
_1_j
In 1
:1:
C,
W
In
Alarm each device
Waterflow
+
+
+
+
+
+
+
+
+
1st F1 Smoke Detectors
+
+
+
+
+
+
+
+
+
1st F1 Heat Detectors
+
+
+
+
+
+
+
+
1st F1 Manual Stations
+
+
+
+
+
+
+
+
+
1 st A Eley Lobby Smoke Det
+
+
+
+
+
+
+
+
+
2nd F1 Smoke Detectors
+
+
+
+
+
+
+
+
+
+
2nd F1 Heat Detectors
+
+
+
+
+
+
+
+
+
2nd F1 Manual Stations
+
+
+
+
+
+
+
+
+
2nd F1 Elev Lobby Smoke Det
+
+
+
+
+
+
+
+
+
Smoke Detectors Adj . acent Fire Doors
+
+
+
+
+
+
+
+
+
qurom each device
L. -
.,perv�!M .. .......
Tamper Switch
+
+
+
+
+
Trouble From each Device
Waterflow
+
+
+
+
+
1st F1 Smoke Detectors
+
+
+
+
+
1 st F1 Heat Detectors
+
+
+
+
1st F1 Manual Stations
+
+
+
+
+
1 st F1 Elev Lobby Smoke Det
+
+
+
+
+
2nd F1 Smoke Detectors
+
+
+
+
+
2nd F1 Heat Detectors
+
+
+
+
+
2nd F1 Manual Stations
+
+
+
+
+
2nd F1 Elev Lobby Smoke Det
+
+
+
+
+
Smoke Detectors Adjocent Fire Doors
+
+
+
+
+
Tamper Switch
+
+
+
+
Audible Circuit
+
+
+
+
+
--- ---- -
_L&Stem Functions
ACK Step
+
Signal Silence
+
System Reset
.MEMORANDUM
Date: January 20. 2000
To Building Dapartment
From: John Westfan. Fire Marshalf
SubjeI Plan Ch2ckjQ[62j7,, Chi a Elamentu . XfhXAI=
21603 841h Ave W,
The Fire Department has folkrmrlg comments and requiterrients for resubmMal:
1 . Sheet FA-11 Remove smoke and keep heat detector In sPrinkler riser room.
2- SheetsI FA-3 Provide str0b8I notification In Boys and Girls 14,145.163.
164, 214, 215. 23Z 234.
3. Sheets FA-11 through FA-4 For the WWI of delecffon for the 8ir duct system. only
two duct detectors are required fGr each air handier unit shut down; one detector for
supply and one for return from undetected Smoke cDmpartrmnts on Oud system.
Remove extranecIus duct detectom throKhout system.
4. SheetFA-1 Provide suPaMSM 00I (Or wet AND dry sprinkler.systems.
Add tamper and HI/Lo air initiation from dry portion of sprinkler "M. A single
watarflow &Atch at the wet riser Is sufficient for ffm entire systerrL CWfy tamper
connecWn(s) from underground supply,
Cc: Mr. Matt Woo fax 206 667-0554
?PoavlDe A�5�&IiL15 7r,>
C,tTj.
City of Edmonds OfficD of Firs Marshal
R E C EE 17-E'D
MAY 2 3 2000
DEVELOPMENT SERVICES CTR.
CITY OF EDMONDS
CITY OF EDN10NDIS
BUILDING DEPARTM`NT
WORK V__ rVIL
ADDRESS +"
0 W
1tNiMER M0
APPROVED DATE:
BLDG. OFFICIAL Xf
& 'Op"V
12OVAC DAMPER
i2OVAC
DAMPER
POWER
POWER
120VAC HVAC S--
/Y 11 14
120VAC
HVAC
POWER
POWER
12OVAC DAMPER
'_4bHVA
120VAC HVAC POWER
120VAC
DAMPER
POWER
D HVACI D
POWER
;1 POWEI
D
TYP H AC
Typ tMA 4V
VTy2P HVAC
TYP
2
2
p rk
LLIJ y 'sit 47 K
R R 47 K
47 K
G
G 12OVAC
HVAC POWER
TYP TVP
D
TYP TYP
D
10 2
jo 2
D
MECHANICAL PENTHOUSE LEVEL 2
TYP
N-52 5
2.2 K F F 046 Do 6
C
N-51, TY
3 2
2.112 K F F L F
C C C C
Y 13
N-43 5
2.2 K F F
C C
TYP
N-42
4
2.2 K F L -c >
y G D G-< < >-D
CPI C_ C
I .
N-41. TYP 120VAC 120VAC r ./I I
5 DAMPER J-/ If DAMPER J 0
2,2 K F F F POWER POWER
1 47 K 2.2 K
C C C C C 12OVAC DOOR
120VAC HVAC 411 Ilk 12OVAC DAMPER
I fe 11 16 11,111 HOLDER POWER C 12OVAC DOOR S.11111111
POWER A -A, A is --'R as
POWER X. I -%.' p st'li V HOLDER POWER
Ilk HVAC 13 C
/ 120VAG HVAC y
12OVAC DAMPER'S y
POWER POWER C C C C C TYP TYP TYP TYP
D C C C C 13 2 6 22
HVAC D
DEDICATED 120VAC APS-4 APS-5
8 47 K L Ir y
yi D D D D
G G
TYP <:
2 /12 D.<
I / I# c: >-G
y W "r% LEVEL 2
D
D D
Ds 63 >-G
MECHANICAL PENTHOUSE LEVEL 2
Nor
io y
M
M M TYP TYP
TYP TYP TYP TYP A M� 3 2 N-14
j D jEj D 4 q D D D D D L F L 2.2 K
y
F M M C C C C
R D R D D A AA A
M - - - -
ct I
-M
yc
tj;4:7 K
CI
N-33
TYP
2.2 K
F
F
F
C
WP C
C
N-32
TYP
5
5
2.2 K
F
L
F
WP
C
G
C
N-31
TYP
6
2.2 K
F
F
WP
C
C
UEDICATED 120VAC
47 K C
I V - I
y
C C C.
C
am
%sm
APS-3
2.2 K
TO TELEPHONE LINES
FBI
'46
DEDICATED 120VAC
120VAC
47 K
47 K
DEDICATED 12OVAC
5 N- 13
L F L 2.2 K
WP
D C
T
N-12
2-2 K
C C C
TYP
N.11
F L F 2.2 K
WP
C
�Yp
5
F "L-1_8
y
C C
�c C WP
-A4>-c C
APS-2
NOTE- 2 CMX-2'S FOR APS-2
LOCA�ED IN FACP
-0 A El A
DEDICATED 120VAC
N-24
2.2 K
N-23
I
N-22
2.2 K
N-21
2.2 K
LEVEL i
Symbols Legend
Symbol
QTY
Descrip ion
Mounting
Manufacturer
Part #
I
Intelligent Fire Alarm System Control Panel
CAB-C3 Enclosure at 72" to Top
Notifier
AFP-400
4
Audible Power Supply
Surface
Notifier
FCPS-24
0I
\
2
Remote Annunciator
-
RSE Enclosure at 60" to Top
Notifier� Kirk -land
LCD-807M RSE-GR-GP4
R
51
Intelligent Photo Smoke Detector
4 Square Deep with 3"' Round Ring
Notifier
SDX-751 B71OLP
27
Intelligent Heat Detector
4 Square Deep with 3" Round Ring
Notifter
FDX-551R BX-501
2
Conventional Heat Detector for Shunt Trip
4 Square Deep with 3" Round Ring
Notifier
HD-603
2
Conventional Heat Detector Rate Compensation
4 Square Deep with Threded Hub Cover Plate
Notifier
302-ET-190
15
Manual Pull Station
at 4_8" Ito--ce er
N'6tifier
00
60
Intelligent Duct Smoke Detector
Surface (Ref. Mfg Information)
Notifier
DHX-502
2
Intelligent Monitor Module
4 Square Deep
Notifier
8
Intelligent Relay Module
SBB Back Box
Notifier
CMX-2
82
Horn 110 ed Strobe
-
2 Gang at 800 to Bottom
Notifier
P24110
0<3WP
11
-
/weather proof Horn with 15/75cd Strobe
1
WBB-R Back Box
Notifier
P241575K
17
Strobe 110 cd
2 Gang at 80" to Bottom
Notifier
S24110
9
Dual Sync Module
4-11/16 w Extension Ring
Notifier
MDL
1
Digital Dialer
Surface
Notifier
911AC
13
'Remote Relay
Surface
Notifier
MR-201C
Remote Printer
Citizen
GSX-190
Sprinkler Waterflow Switch
Supplied by Others
I
Sprinkler Tamper Switch
Supplied by Others
Note I
Fire Smoke Dampers
Supplied by Others
Note I
Magnetic Door Holder Closer
Surface (Ref. Mfg Information)
Supplied by Others
Note I
Magnetic Door Holder
Surface (Ref. Mfg Information)
Supplied by Others
1. INSTALLATION SHALL BE ACCOMPLISHED IN STRICT COMPLIANCE WITH NFPA, LOCAL AND STATE AHJ'S,
NEC, AND CONTRACT DRAWINGS.
2.
3.
WIRE ROUTING IS DIAGRAMMATIC IN NATURE ONLY AND NOT INTENDED FOR ACTUAL CONDUIT ROUTING.
ALL CONDUIT SIZING AND ROUTING BY ELECTRICAL CONTRACTOR PER NEC AND AHJ.
THE SYSTEM SHALL BE MONITORED BY A UL LISTED MONITORING STATION BEFORE AHJ TEST.
5.
VERIFY ALL LOCATIONS OF DEVICES WITH ELECTRICAL/ARCHITECTURAL PLANS, SCALE AND PLACE
ALL DEVICES PER ELECTRICALARCHITECTURAL PLANS.
6.
FIELD VERIFY WATER FLOW, SPRINKLER, SMOKE DAMPERS AND DUCT DETECTOR LOCATIONS,
7.
FIELD VERIFY ALL WIRING LOCATIONS AND REQUIREMENTS FOR HVAC AND FAN CONTROL.
8.
SMOKE DETECTORS SHALL NOT BE LOCATED WITHIN.39-0" OF AIR DIFFUSERS.
9.
NFPA 5-3.6-1.3 REQUIRES THAT NO SMOKE DETECTORS ARE TO BE INSTALLED UNTIL AFTER FINAL
CONSTRUCTION CLEAN-UP. DETECTORS THAT HAVE BEEN INSTALLED PRIOR TO CLEAN-UP MUST
BE CLEANED OR REPLACED ACCORDING TO CHAPTER 7 AND WILL BE INVOICED ON A T&M BASIS.
1.00
FACP SHALL NOT BE ENERGIZED WITHOUT THE PRESENCE OF TECHNICIANS,
il,
ALL CIRCUITS WILL BE PROPERLY TAGGED AND TESTED FOR OPENS, SHORTS, GROUNDS AND PROPER
END OF THE --LINE RESISTANCE, EACH CIRCUITS METER READING MUST BE DOCUMENTED AND PRESENTED
TO FIELD TECHNICIAN UPON ARRIVAL ON SITE FOR CHECKOUT.
12.
A SET OF INSTALLATION AS -BUILT DRAWINGS SHOWING ACTUAL CONDUIT AND CONDUCTOR ROUTES
SHALL BE KEPT BY PROJECT FOREMAN FOR USE BY FIELD TECHNICIANS.
13.
AGREEMENT AND CONFIRMATION OF ALL MILESTONE EVENTS WILL BE MADE WITH PROJECT MANAGER,
SERVICES MUST BE SCHEDULED WITH PROJECT MANAGER WITH A MINIMUM OF TEN WORKING.DAYS
NOTICE.
14.
NO TAPPING OF SIGNALING OR INITIATING ZONE CIRCUITS ARE ALLOWED. T-TAPPING OF STYLE 4
ADDRESSABLE CIRCUITS IS ALLOWED PROVIDING SPLICE IS PROFESSIONALLY INSTALLED, POLARITY IS
OBSERVED, SHIELDS ARE CONTINUOUS AND FREE OF GROUNDS. SHIELDS SHALL BE TERMINATED AT
FACP ONLY. "CABLE SHIELDS SHALL BE SPLICED TOGETHER AT EVERY JUNCTION BETWEEN THE FIRE
ALARM PANEL AND THE LAST DEVICE ON EACH CABLE RUN. SHIELDS AND OTHER FIRE ALARM
CONDUCTORS (EXCEPT POWER GROUNDS)
- SHALL BE INSULATED -AND COMPLETELY FREE FROM CONDUIT
OR EARTH GROUNDS, SHIELDS WILL BE TIED TO GROUND ONLY AT THE FIRE ALARM PANEL BY THE
INSTALLING FIRE ALARM TECHNIGIAN.Ij
15-
+
MOUNT AUDIBLE/VISUAL DEVICE BACKBOX AT 80" TO BOTTOM AFF OR 6" BELOW CEILING WHICH EVER
IS LOWER. SEE FLOOR PLANS FOR CANDELA RATING OF DEVICE BEING INSTALLED.
16.
AS BUILTS ARE REQUIRED AT TIME OF AHJ ACCEPTANCE. PRECISION ALARM NEEDS RED LINE
AS BUILTS 2 WEEKS PRIOR TO AHJ TESTS.
Wire
Legend
Symbol
Description
n2e of Circuit
A
2
16
AWG Fire Rated
Conventional QDC) Circuit
C
2
14
AWG Fire Rated
Audible (NAC) Circuit
D
I
pair
16 AWG Twisted Shielded Fire Rated Cable
Data (SLC) Circuit
G
2
16
AWG Fire Rated
Aux Equipment Interface
M
2
14
AWG Solid Fire Rated
Door Holder Circuit
N
I
pair
16 AWG Twisted Shielded Fire Rated Cable
Network Circuit
P
2
14
AWG Fire Rated
Aux Power Circuit
T
r
24 AWG Telephone Cable
Telco Circuit
W
4
Conductor 20 AWG Stranded Fire Rated Cable
Serial Printer Cable
Flag Notes
I To Fire Alarm J Box on Lower Level
2 To Fire Alarm J Box on Upper Level
3 Referance Riser Diagram for Connections in this Area
4 Return Air Duct Detector
5 Supply Air Duct Detector
Connect to Elevator Controller for Alternate Recall
7 Connect to Elevator Controller for Primary Recall
8 Non System Heat Detectors for Elevator Shunt Trip. Locate within 18"' of Sprinkler Head
9 Referance Connection Details for Wiring at This Location
10 Break Tabs on CMX-2 for Relay Operation
11 Connect to Won Door for Activation from Smoke Detector
12
Connect to Roll. Down
Fire Shutter
Door for Activation from Smoke Detector
13
Horn Strobe Located
in Mechanical
Room
Sheet Schedule
Sheet Number
Description
FA-0
Notes, Riser Diagramil- Symbols Legend
FA-1
First Floor North
FA-2
First Floor South
FA-3
Second Floor South
FA-4
Mechanical Lofts
FA-5
Connection Details
FA-6
Loads, Battery Calculations
FA-7
Graphic Annunciator
A
r,4`11
Lis
M
>
>
>
0:
W
In .
MI
>W
Lai
1=
0
La
x
La
ME
:3
Ix
La
C)
a
two
g
CDP
0
Z
04
40 Ln
CO
CV)
f%%
Ch
40
LL�
ID
elm
ago-
0
4D N
C4
F-I
SCALL& AS NOTED
4P 675
PROJECT NUMBER*
DRAWN DESIGNED
BY-90 BY*
AS.I
DSJ/JWS RPV
DATE.* 10/15/99
Note 1 For Referance only
zr,� n rm
L �,Iz
i4,;! U J
FA.2
Fh
.4u LJ�
I
2
�'wp
N-1 I
I
y
A
D
BOILER
126
D
[fill
11111
till)
y
fill
A [till
NIP
/,'x
105
9�1 WP
N-1i
Flag Notes
2 To Fire Alarm J Box on Upper Le 1
3 Referance Riser Diagram for Conn;ctions in this Area
FA-2
FIRST FLOOR NORTH
SCALE: 1/8" 1`0
KEY PLAN
SCALE:
IV_: Lj
e0001
az
c
CL
C)
0
NOW
tow
Ld
La
5
LLI
LLA
Ld
Ld
�j
LLS
0
Q
CIO
LIJ
C)
0
C)
(0 to
CO N
v
at:
ob
0
c
C
U)
co
elm MM
0)
C4
CD
F—
CD
:z
cf)
:3:
U)
CD
L1.j
F—
U)
LLJ
Lij
F—
CC)
M
c:)
co
CU
Ljj
cr.
F--1
LL
rSCALE.* AS NOTED
PROJECT NUMBER: 675
DRAWN DESIGNED
By: BY:
DSJ/JWS RPV
10/15/99
DATE,
� �
H�HL I H
103 �
° STAIfz E
�. REGEPTION101
<1
OFFICE
110
4 . .2 N. I0ili
F AR 2NIp C D, 2 ,P D.G 2C,D p
2C�0 C D N-29
GIR L pTIION0131 D I
o a
VD I o qq .STAIR-� � Cl .c I 3c.2 � ST/� I R-B
G � � CIA
o
WP
F ALE 7
� T � 2 �
N-33 � N
0 118 180 p 1
WORK izM. � 0152 ELEV. IP � � �, o
147 0 165 ° 16 W y
C� 3C,D� 2 3C D'G � � >
� G OhhM. OOM � STOR. v I � I \ 2C,D O1153 � F Q Z W=
1 3 1A �/ F 33 2C � N-24 W Z
i� � 2 N-29 I RL5 � I i z
GLA55ROOM � 0132 N_ F F o 164o15s z oa-
134 SUPPORT / o I 2C \ sc, ,c D D o 2CrD CLASSROOM \ o 0
La
131 hc,o,c
� I I I � 2 � GIRL 2cPROD. � 0155 C,2D.c 158 W o o
N 145 F 148 0 2C I I I Q u o
° LIBRARY F BOYS -22 2
1 / 2C'D•G 146 N-24 2 2,� OS 2C�D � \ O O
O bis os s BOYS I � 2 O D I 12 \\�
� 164 \
/ ST 4 144 2C F N-2 MD .zo.�f0�
D 43� D D D 3C,G ° N-32 F D.G I D D \
D
G 3C F 2C I � 1 0158 165
N-33 � 014 0138 � �
D N-32 f
D, I D G 2C D 9� � C � 22 — —
� 013 R 116 2C 3 D 161
M �
' / O p � 0l40 C 3 F o0166 C'p / I � � 1:
� 9A � TEAGHINC� 14 �. 9 15 �- � UO o � � �
p D V�STI L 2 4 s' I O p— � 2 0 0i6�. / 3
� OV145 0141 I p 146 016 S ULC � �
GONE. o � � I � I � � � ois� 14Q 2C'D
GLf�55ROOM � ° � � �� p \� GON�ER�NG 3 2c,o
/ 13� pp Dias 2 c O � � 0170 GLf�55ROOM �
� N-32 � � �52 N-23 1. 2C 2C�D � 01 4 �5� M
- / D O `LG 2C � � \ 2C N 22 0
N-3 � � � 2 � F \
F BREfkK�OUT ,�� pp p BRED OUT 2C � � N
N-31 F � � 148 p Oil / 0172 / ���j 2C>D 2C.D 2 FZ -22 3
2C p p \ p \ N �
/ 0147 D / F 32 C' I / ' F 0171
2c D 2c,o c � I \ GLf�55ROOM N-23 \ v
/ osso � i c.D is
RSA INC \ 153 � I � D 2c = ^
� — — — / I / � F N-32 146 . i �\ 0173 —I — — — — — — t i - / \ � � .�
O C. �� GLF�SSROOM p i � \ � � �
/ 14 � OUT � � � � 13Q
MOM\ p N-32 �/ \
WP \
/ � \ N 22
DGLA55ROOM �v-31 F
136 / c.D � \ � � N-23 2C 2C c
F \
� CLASSROOM � � ._ F WP
%II2C.D � �4 C \
/ N-22
/ � CLASSROOM � � CID�LA55RG��M
D � 138 � � o \ 156 �
0175
� 0151 � \
C,D
N- i � / 2C.0
/ 2C
D -23 F \
F \ J
/ N-31 F D f 0 \ 011 F N-23\ \
6P
0 CD
GLP55R00 \ � _ �
G�ASSROOM
vlp'-C. (Opp) � � STIR-G"-23
/ F / WP F 0
� N-31
CD
r'
W Q
v � �
� w
�q 0.5 2.1 / 2.6 � �O F-- cr:
CIS H
� ti Q s� V W L.L
15.2 1i.4 � Uj
3
X Lij
Flag Notes
� \ 2 To Fire Alarm J Box on Upper Level �
\ � 3 Referance Riser Diagram for Connections in this Area ul �-
\ 6 Connect to Elevator Controller for Alternate Recall ♦A �
� 7 Connect to Elevator Controller for Primary Recall w�
8 Non System Heat Detectors for Elevator Shunt Trip. Locate within 18 of Sprinkler Head a CrI
UD
FIRST FLOOR SOUTH Q�
� SCALE: 1/8" = 1'-0" � D.
S�
(00,
SCALE: AS NOTED
PROJECT NUMBER: 675
DRAWN DESIGNED
BY: BY:
KEY PLAN �Ji,M R�►
SCALE: NONE } b'
s•ir.� ..: 6,i s.iSHEET
FAi2
C�
i
P.
IV
a
a
GLASSROOM
225
N.51
0
no CIO
023
D GLA55ROOM
0236
N R
N-52
2C
0237
E OUT
<� 25 CD 0238
s,D
2,CvD D 21
3
C�D N-52
40 >- CoD
D
C3 E) 0
E) CD
024 1
10 C*D
N-52
5z
D e
F F]< N-52
020
(EIC
ON Q Q C'M Q
GLASSROOM
220
- T
(E) 0
- 29
r000,0
a
E
US
N
0
Flag Notes
I To Fire Alarm J Box on Lower Level
2 To Fire Alarm J Box on Upper Level
3 Referance Riser Diagram for Connection in this Area
8 Non System Heat Detectors for Elevator Shunt Trip.
0
Locate within 18 of Sorinkler Head
I
2ND FLOOR SOUTH.
SCALE: 1/8" 1`0
KEY PLAN
SCALE:
NONE
e000"
>M
>
no
an
lap
Elbow
Cn
�1:
V)
Uj
WX
W�
z
z
040
Uj
N
0 in
C4
a co
C
r Lim,
us
W
rr
SCALE. AS NOTED
a
PROJECT NUMBER. 675
DRAWN DESIGN
By: By:
DSJ/JWS RPV
Es 10/15/99
SHEET
......................
-7 -'7�A 3
7
1
4 5
5
� 08,44 5 6
' D
1 �
DtG
I I ° G \
0242
2
� D/ EF2-1 R \ 0 a
Cn
0
p D � W Z
MONO
N
� 0293 OY Y \
PULL
STAIRS Z jX
J
\ W N
024
4
Quo
/ F-2 R 0246
0252 � 0 4
D 0251
� O O
� MEGH, HEL� GHAN GAL. R i� D 250 � � N
Z
p � 0249
p D 0248 D
-13 CU-1 I \ / G 025 � p D
F
WP
'*�LADDEFZ
D
0129 R A�Ki U - Z p � �04
zc I F RO M I \ O 0247 p Q
1 � N4 H613-
18 2 STORA �E I 15 I I HWCP-2 / � °oBELOH 3t I
�
L c
c
� M
I EWH2-2 ommmma N
w
/ 3
V! go
00
Iff
qqt
O^
SW CLASS ROOM MECHANICAL LOFT �
SCALE: 1/4" = 1'-0" � D
12 1 E3 4
� 4 I �
� I I / 025 p
0255
\ p 4 ( o
0 CD
3:
7110
\ \ G D � V H
\ � Cn
S
I Q
} 3
D Z C)
4 5 CD
BULL DOHN \I o w
AIRS � w
0256
0 i— cc
/♦ Cn H
0257 pQ v 3 �-�-
4 Uj
� R 1 R .�, IJ_I
0 63 p 0258 \
� D V 0259
� F I p 0260
Q MEGHANI Room \
EF3-1 N
D 0262504 LU
I J1 STA I R 0265 (.n
2G \ AHU-1 � (DX (0
D D
R �
\ U N
� D,G D,G D D OO
6 A , 6 16 4
0�29 0
1
$ D G 2 I HWCP-3 I �269 Flag.Notes
EwH�—�
o \ 1 To Fire Alarm J Box on Lower Level
p0127 % R O O M � � � 4 Return Air Duct Detector
R H WCP —1 5 Supply Air duct Detector
�I p5� AHU-3 I EWH-3
�I \
5 D
0128 Ui
0/
EWH1-2
A -,L];
P � scatF: as NOTED
;. � �, t ,rt'_ K� � PROJECT NUMBER: 675
�' '�-'` �'�3��.., `L � DRAWN DESIGNED
Byes BY*
DSJ/JWS RPV
i rt
CDATE: 18/15/99
KEY PLAN OD ��
ADMIN /COOL M 01LI S MECHANICAL LOFTS O� SE CLASS ROOnn MEGHANICAL LOFTGiSCALE: NONESCALE: 1/4 1 -0 SCALE: 1/9 FA 4
aD
>
CL CL
FROM FROM
FACP FACP
D D
Ts [z) WF
.=9 1 11,9
+8 47K +8 47K
A EOL A EOL
SHIELD -4 2 + +7 RESISTOR SHIELD A L- 2 + + 7 RESISTOR
DRAIN DRAIN
MMx_l I Mmx_ 1
E=3 m (F m MIC
t3i
uF__ii__4LF I %%.� STROBE HORN HORN STROBE (WP)
D D + + + +
WP WEATHER-PROOF
0
C c
TO NEXT DEVICE
OR EOL awilm
TO NEXT TO NEXT Cc Ld
DEVICE DEVICE STROBE HORN HORN STROBE (WP)
WP WEATHER-PROOF
TYPICAL TAMPER SWITCHIMMXoml '%.o.%tv^NNECTl0N TYPICAL WATER FLOW SWITCHNMV1 CONNECTION c LA m c m c p m (A
2 TO NEXT DEVICE LAi
NOT TO SCALE NOT TO SCALE OR EOL
(D v v
STROBE HORN HORN STROBE (WP)
LLI
+ + + +
WP WEATHER-PROOF
c c C; m LAJ
W
L j Ld
TO NEXT DEVICE du
OR EOL
z
STROBE HORN HORN STROBE (WP) uj
FROM + + + +
FACP WP WEATHER-PROOF 0 a
c c 9 C p IN, Lai
N%%w
TO NEXT DEVICE
Ji OR EOL
D
c
SMOKE DETECTOR bjOTE
CMX-2 SDX-751 HEAT DETECTOR *MIN 2'p SPACING BETWEEN ALL BACK BOXES
CPX-751 FDX-551 R 3 cl G 0:30, C+ cl C+ C, t&3 ICE) 1 0, *MOUNT CMX-2 IN SBB BACK BOX
LPX-751 i L 1 -1 to:Ec *MOUNT DSM IN 4-11/16" BACK BOX WITH
2(+) 7 r- C4 IX EXTENTION RING
SHIELD -i 1, 0 5 0 s
1, � + 0: 0 w ce 0
DRAIN D D D ZO z 9w V) Z 0 w
0 LLS tLi
COM6
0
4NO NC5 DSM DSM
A ... ED 3 2 2 1 —u— Cc
cr)
SHIELD SHIELD SHIELD
cz w ui
z z zz 09 zz z z
D DRAIN DRAIN DRAIN 2 g 0-
BX-501 BX-501
ON NO P4
CAUTION: DISCONNECT TAPS FOR
RELAY OPERATION. s C,
B71 OLP 0
D J= 0
47 K 3:
c
J1 c *
a %
TO NEXT
DEVICE
47K
EOL
C3 C3 >-C RESISTOR U)
ft
T?InA Lmmj +9 41
%.,Fr%L CMX� FORM C REELAY TYPICAL SMOKE I ECTO HE DETEI%ft,*f TOR %rw'f'%0NNEC110N 3:
6 SHIELD 0
NOT TO SCALE NOT TO SCALE DRAIN U)
+ .7
RELAY
;woof 0 C4
CMX-2 +6 La
R/ AT
5 cm
L=j c 40
BLACK
RED
L6 6 1 @1 @ 16161616 1 (b 1 61 1
0 j
< 0 e"�% e"-k% 00-% op�% lo�% opp�% e�N .0� e-%46 ow�% ep"% bhb,4 VIM Lai
+ I + f + I + I + I + I
7Z) Z Z z Z
w < m w w w D
z - n 0 0 0 0 0
0 t7i %.�, t %--ool %.We
< qt 1-
+ D 0 :3
m m m
F_ F- I-- F- F-
r. r- 0 M D n n n A
0 0 0 0 0 0 0 0
DHX-502 m 0
x
=3 Z)
0 0 0 0
D r-3 C3 c D-C
DUCT SMOKE DETECTOR 3.0 A MAX. PER CIRCUIT +9
+ 6.0 A TOTAL OUTPUT SHIELD -8
FROM I---- 1 0 POWER LIMITED AND SUPERVISED D31 DMN -7
00)
7re
+
FAcp 4 Fe's 0 +6 1
1 (2) (2) (willi, (2) CONTROL INPUT #1 FROM FACP (IN +) CMX-2
SHIELD 1 1 2 3 4 5 6 7 8
DRAIN I - CONTROL INPUT #1 FROM FACP (IN
D D
CONTROL INPUT #1 (THROUGH +) D -<I--
FROM )TO NEXT w
FACP (n - CONTROL INPUT #1 (THROUGH
SHIELD tK DEVICE p ::g:
DRAJN F U- j
SHIELD SHIELD 0 TROUBLE N.C.
DRAIN DRAIN < m U.
(4= D lopmN W 3�: m: w w w w
+ �= 0 u-j -m-j -j --j -j CONTROL INPUT #2 FROM FACP (IN/OUT +) =j
=>
CD V) M
0 0 0 0
0 CONTROL INPUT #2 FROM FACP (IN/OUT 0
TO NEXT w w uj x - p 0 CD
DEVICE a: v-- n AUXILLARY OUTPUT (+ 24 VDC) (10 rrA MAX)
�rz
m m
z F
0�= 0 m a- a- cL COMMONL CD
rz t__ JL
< => :D =>
TYPIC"AL DUCT SMOKE DETECTOR '%',*,%0NNE(",',,`lloN Typil"',A 0 m 0 0 0 0
5 MMx"wlol/oB^GvX�101L CONNECTION
N OT TO SCALE C) NOT TO SCALE 0000000
co
L
>=
cn
CD
LLJ
HVAC N DAMPERS N DOOR HOLDERS
H H_ H cf)
BATTERY BATTERY w LL
0 No c No 0 0 NC C NO 0 0 �k 6 NO 0 ui
1000) IT &
a
MR-101 MR-1 01 MR-101
ML RESISI
F7
G 100001 (1) (D (D (D Lo d) (D NOTE-0 uj
0 vi 1+�* 0 G 0 its an 0 0 tis 0 USE ONLY 1 OF 2 KNOCKOUTS co
FROM IN CABINET BOTTOM
FACP v
v v CD
J 3: Lo
0i
Typl,o% A
9 %amL AUXILIARY RELAY CONNEC110N
NOT TO SCALE
15 TYPICAL FCPS
NOTTO SCALE
STROBE HORN HORN STROBE (WP)
SCALE: AS NOTED
+ + + +
PROJECT NUMBER: 675
DRAWN DESIGNED
C Km c C Byse BY:
Pit RPV
TO NEXT DEVICE c
FROM t I)r, !7 DSJ/JWS
v
I I - --- � OR EOL
FACP j
U
WP WEATHER-PROOF
SHEET
14 TYPIC& STROBE AND HvnN/STROBE CONNECTION TO NAC Cl'n'%r,.%oUIT A�5
NOT TO SCALE
L
I
3
Chase
Lake
Elementary
Battery Back up Calculation
FACP
AFP-400
Total
Total
Item
Oty
Part #
Description
Standby
Alarm
Standby
Alarm
I
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
I
1
2
2
1
4
8
54
27
60
15
5
15
7
2
13
AFP-400
411
LCD-80-TM
LOM-32
ACM-8R
MMX-1
CMX-2
SDX-751
FDX-551
DHX-502
BGX-101L
P241575K
P24110
S24110
MOL
MR-201C
Fire Alarm Control Panel
Digital Dialer
Remote Ann LCO Terminal Mode
LampDriver Module
Remote Relay Module
Monitor Module
Control Module
Intelligent Photoelectric Smoke Detector 1p
Intelligent Fixed Temp Heat Detector
Duct Detector Housing (SOX-55i).
Manual Pull Station
wp Sync Horn Strobe 15=cd
Sync Horn Strobe 110cd
Sync Strobe iiOcd
Dual Sync Module
Aux Relay
0.00000
0.175000
0.050000
0.040000
0.030000
Oo000200
0.000300
0.000200
0.000200
0.000200
0.000300
0.000000
0.000000
0.000000
0.000000
0.000000
0.420000
0.245000
0.100000
0.056000
0.160000
0,000200
0.000300
0.005200
0,000200
0.005200
0.000300
0,060000
0.193000
0.169000
0.030000
0.035000
0.170000
0.175000
0.100000
0,080000
0.030000
0,000800
0.002400
0.
0.005400
0.012000
0.00,4500
0,000000
0.000000
0.000000
0.000000
0.000000
0.000000
0.590900
0 10800
0.420000
0.245000
0.200000
0.112000
0.
0,000800
0.002400
0.280800
0,005400
0.312000
0.004500
0.400000
2,895000
1.183000
0.060000
0.455000
0.000000
6.735900
160000
Standby Current Total Hours
0.590900
X 24
(Hours
14.181600
Alarm Current Total Minutes
6.735900
X .083
(5 Mins
0.559080
Total
14.710660
30% Battery Depletion
4.422204
Total AH Rated Batteries Needed
19.162BBI
Total AH Rated Batteries Supplied
2
Chase
Lake
Elementary
Battery Back up Calculation
APS-2
FCPS-24
Total
Total
Item
Oty
Part #
Description
Standby
Alarm
Standby
Alarm
1
2
3
4
5
6
1
2
19
6
2
FCPS-24
P241575K-
P24110
S24110
MDLW
Remote Power Supply
wp Sync Horn Strobe 15=cd
Sync Horn Strobe 110cd
Sync Strobe iiOcd
Dual Sync Module
0.032000
0.000000
0.000000
0.000000
0.000000
0.032000'
0.080000
0.193000
0.169000
0.030000
0.032000
0*000000
0,000000
0,000000
0.000000
0.000000
OoO32000
0.032000
0.160000
3.667000
1-014000
0.060000
0.000000
4.933000
Standby Current Total Hours
0.032000
X 2jq
(Hours)
0.768000
Alarm Current Total Minutes
1.933000
X .083
(5 Mins
0.409439
Total
1.177439
30% Battery Depletion
0.353232
Total AH Rated Batteries Needed
1.530671
Total AH Rated Batteries Supplied
4
Chase
Lake
Elementary
Battery Back up Calculation
APS-3
FCPS-24
Total
Total
Item
(it Y�
Part #
Description
Standby
Alarm
Standby
Alarm
Remote Power supply
0.032000
0.032000
0.032000
0.032000
2
3
P241575K
wp Sync Horn Strobe 15=cd
0.000000
0.080000
0.000000
0.240000
3
16
P24ilo
Sync Horn Strobe 110cd
0.000000
0.193000
00000000
3.088000
4
1
S241i0
Sync Strobe 110cd
0.000000
0.169000
0,000000
0.169000
5
2
MDLW
Dual Sync Module
0.000000
0.030000
0.000000
0.060000
6
0.000000
0.000000
0.032000
3.589000
Standby Current Total Hours
0.032000
X 24
0.768000
(Hours
Alarm Current Total Minutes
3.589000
X .083
0.297887
(5 Mins.
Total
1.065887
30% Battery Depletion
0.319766
Total AH Rated Batteries Needed
1.385653
Total AH Rated Batteries Supplied
4.5
Chase
Lake
Elementary
Battery Back up Calculation
APS-4
FCPS-24
Total
Total
Item
Oty
Part #
Description
Standby
Alarm
Standby
Alarm
1
2
3
4
5
1
17
1
2
FCPS-24
P24110
S241iO
MDLW
Remote Power Supply
Sync Horn Strobe 110cd
Sync Strobe iiOcd
Dual Sync Module
0.032000
0.000000
0.000000
0.000000
0.032000
0.193000
0.169000
0.030000
0,032000
0.000000
0.000000
0.000000
0.000000
0.032000
0.032000
3.281000
0.169000
0.060000
0.000000
3.542000
Standby Current Total Hours
0.032000
X 24
( Hours
0.768000
Alarm Current Total Minutes
3.542000
X .083
(5 Mins
0.293986
Total
i.0619B6
30% Battery Depletion
0.318596
Total AH Rated Batteries Needed
1.380582
Total AH Rated Batteries Supplied
4.5
Chase
Lake
Elementary
Battery Back up Calculation
APS-5
FCPS-24
Total
Total
Item
Oty
Part #
Description
Standby
Alarm
Standby
Alarm
I
2
3
4
5
i
10
2
1
FCPS-24
P241lO
S24110
MDLW
Remote Power Supply
Sync Horn Strobe ilOcd.
Sync Strobe 1i0cd
Dual Sync Module
0.032000
0.000000
00000000
0.000000
0.032000
0.03000
0'169000
0,030000
0.032000
0.000000
0.000000
0.000000
06000000
OoO32000
0.032000
1.930000
0.338000
0.030000
0.000000
2.330000
Standby Current Total Hours
0.032000
X 2.4
(Hours
0.768000
Alarm Current Total Minutes
2.330000
X .083
(5 Mins,
0.03390
Total
0,961390
30% Battery Depletion
0.288417
Total AH Rated Batteries Needed
1.249807
Total AH Rated Batteries Supplied
.4.5
NAC
Circuit
Load &
Voltage
Drop Calculation
APS-1
AFP-400
Level I
Candella
Amps
Circuit Number
11
12
13
14
Notifier Horn Strobes
WP Horn Strobe
P2.10
P2430
P2475
P24110
P24075K
15
30
75
110
15-75
0,07.4
0.102
0.169
0.193
080
4
5
4
2
3
2
Notifier Strobes
WP Strobe
S24i5
S2430
S2475
S24110
S241575K
15
30
75
110
15-75
0.050
0.078
0.145
0.169
0.056
1
1
1
4-
Misc
APS
A77-716B
MDL
DSM
Activation
EOL Relay
sync mod
sync mod
WP Bell
0.030
0.015
0.017
0.030
0.030
�1
1
1
1
1
# Devices
Circuit Amps
Circuit Length f t X 14awg.
Circuit Length f t )( 12awg
EOL Voltage (14awg)
EDL Voltage( 12awg),
9
7
8
7
t-198
1*151
1.118
1.079
267
150
270
280
0
0
0
0
22.32
23.09
22.41
22.41
24.00,
2.4. 00
2,4. 00
24.00
NAC Circuit Load & Voltage Drop Calculation
APS-2
FCPS-24
Level I Candella Amps
Circuit Number
21
22
23 i
24
Notifier Horn Strobes P2,4i5
P2430
P2475
P2410
WP Horn Strobe P241575K
15 0. 071
30 0.102
75 0.169
110 0.193
15-75 0.080
3
5
5
6
1
1
Notifier Strobes S24i5
S2430
S2475
S24110
WP Strobe S24075K
15 0.050
30 0.078
75 0.145
110 0.169:
15-75 0.056
4
1
1
Misc
APS Activation
A77-7i6B EOL Relay
MDL sync mod
DSM sync mod
WP Bell
0.030
0.015
0.017
0.030
0.030
1
1
1
1
Devices
Circuit Amps
Circuit Length ( f t X i4awg
Circuit Length (ft)( 12awg)
ECL Voltage (14awg. )
EOL Voltage (i2awg)
8
8
8
7
1.272
1.231
1,231
1.175
312
1400
390
3io
0
0
0
0
21-91
21.41
21.48
22.09
24.00
24.001
24.00
24.00
NAC Circuit
Load &
Voltage
Drop Calculation
APS-3
FCPS-24
Level I
Candella
Amps
lCircuit Number
M
32
33
3-4
Notifier Horn Strobes
WP Horn Strobe
P2115
P2-430
P2&175
P24i10
P241575K
15
30
75
110
15-75
0.074
0.102
0.169
0.193
O,OBO
6
5
I
1
.5
1
Notifier Strobes
WP Strobe
S2415
S2430
S2475
S2,4110
S241575K
15
30
75
110
15-75
0,050
0.078
0.145
0.169
0.056
..............
Misc
APS
A77-7168
MDL
DSM
Activation
EOL Relay
sync mod
sync mod
WP Bell
0.030
0.015
0.017
0,030
0.030
1
#
Circuit
Circuit Length f t
Circuit Length f t
EOL Voltage
EOL Voltage
Devices
Amps
i4awg
12awg
14awg)
(12awg),
8
7
1
1.255
1.231
1.062
0.017
288
96
170
0
0
0
0
0
22. 10
23.38
23.05
24.00
24.00
24.00
24.00
24.00
NAC
Circuit
Load &
Voltage
Drop
Calculation
APS-4
FCPS-24
Level 2
Candella
�Circuit
Amps
Number
41
42
43
44
Notifier Horn Strobes
�WP Horn Strobe
P240
P2430
P2175
P24110
P241575K
15
30
75
110
15-75
0.074
0.102
0.169
0,193
0.080
6
5
6
Notifier Strobes
WP Strobe
S2415
S2430
S2475
S24110
S24075K
15
30
75
110
15-75
0.050
0.078
0.145
0'169i
0.056
I
Misc
APS
A77-7168
MOL
DSM
Activation
EOL Relay
sync mod
sync. mod
WP Bell
0.030
0.015
0.017
0.030
0.030
1
1
Devices
,Circuit Amps
Circuit Length (ft)(14awg)
Circuit Length ( f t )( 12awg )
EOL Voltage (14awg)
EOL Voltage( 12awgY
7
7
7
1
1.175
1.151
1. 175
0,017
108
384
168
0
0
0
0
0
21.48
21-66 �22-96
24,00
24o,001
24-001
24.001
24.00
.NAC Circuit Load &]Voltage
Drop Calculation
APS-5
FCPS-24
Level 2 Candella Amps
Circuit Number
51
52
53
54
Notifier Horn Strobes P2415
P2430
P2475
P24110
WP Horn Strobe P24i575K
15 0.071
30 0,102
75 0.169
110 0.193
15-75 0.080
4
6
Notifier Strobes S2415
S2430
S2175
S241i0
WP Strobe S241575K
15 0.050
30 0,078
75 0.145
110 0.169
:15-75 0.056
2
Misc
APS Activation
A77-7i6B EOL Relay
MDL sync mod
DSM sync mod
WP Bell
0.030
0.00
0.017
0.030
0.030
1
# Devices
Circuit Amps
Circuit Length (ft)(14awg)
Circuit Length (ft)(12awg)
EOL Voltage (Sawg)
EOL Voltage( 12awg)
7
7
0
0
1.27
14�175
0.000
0.000
i90
288
0
0
0
0
0
0
22.87
22.22
24.00
24.00
24.0011
24.00
.24.00[
24.00,
"-r
V 7.;
L
TA
t
>W
>
CL
CL
cc
US
CE
0
doom
L:
Lai
Im
LLI
a::
(n
Lai
z
5:
0
Lai
(n
LLJ
LLI
:3
IX
CL
US
'CD
of)
%%%
%%%4b
C4
W)
4 X
V�
EK
C4
I
II)
40 60
ro C4
at I
a to
�1: 0
C4
0
0
CD
VEM
C4
.0 to
R
La
ME
0z
1<
.j
c<
LLJ
n7
LL
SCALE: AS NOTED
PROJECT NUMBER** 675
DRAWN DESIGNED
BY: BY:
DSJ/JWS RPV
1 41
naa
sNoIsin3a DNnavds
o0 os £o
a
Ada
M31A321 9NIa33M9N3
00 10 ZO
l
"J18 'OA3si
NOI1d121OS3a
31b0
ON
SNOISIA3a
59IZ�M (M) XYJ 91IZ�M (M) 0131
9£096 "OM 'PoomuuAl T ®llns ..M.s PWIS 410OZ ao tt
i9N I
WHTIV 3HIJ
SONOW03 iSIM ]AV HI e C09T2
i
OL
z
•-
�
W
ti
i 3c
fn !.
l�
Sb • S:
na 1
ekl
Ilk
s
I l
1. !�$. I. •`�!
n x�
I
y
.f
I
4
w
r�. b
tr� g1'
WA
I }
t•r
n
—CC . ,,.a 0 4 — D TE JLJ—23-2000 TI " 11: 14 P* 01
MODE = MEMORY TRANSMISSION
STRT=JINN-23 1 = 13
Et D=JU —23 1: 1
FILE 0* = 00
STN NO, CON PEER NO.
01 0K
STT I ON NAME/TEL. NO .
S20S0
—Dpt'--'U SERU DEFT
C'Ity. of Edmonds
Development Services Department
PAGES DURATICN
02002 00 = 00' 2 '.
—CITY OF EDMONDS
— -- 257710221—
Butldlagp Planning nEa 91 metring
iZlw!Sth Avenue Nor% 0 2nd Floor
Edmonds, WA 98020
Phone: (425) 771 =0220 FAX: (425) 771 ow0221
To: �� /ko`� wdc�
Date Transmitted:
Recipient's Fax No:
6�z3�co
FAX COVER PAG E
From: �' �nr-�-vr
r
_ No, of Pages: �
(Including cover page.)
GCS-ess�
If there are any problems during transmission or documents are received Incomplete, please
call (425) 771w0220 and ask for ;
Re: C 14 A__5 6�--
c;recepilonVanalfaxsheetdac
41
11
0
.t
t
Date:
To:
From:
Subject:
M MORANDUM
Building Department
John Westfall, Fire Marsha
Plan Check #00w2'
2160384 th Ave W.
IIIIIIIIII0
N
Fire Alarm
The Fire Department has following comments and requirements for resubmitial:
1. Sheet FA-1 Remove smoke and keep heat detector in sprinkler riser room.
2. Sheets FA2, FA-3 Provide strobe -only notification in Boys and Girls 144, 145, 163,
164, 2149 2159 2329 2340
3. Sheets FA-1 through FA-4 Fo
r the purposes of defection for the air
two duct detectors are required for each air
d
supply and one for return from undetecte
handler unit shin down;
duct system, only
one detector for
smoke compartments on that system
Remove extraneous duct detectors throughout system.
4. Sheet FA-1
Provide supervisory connections for wet
AND dry
sprinkler
systems.
Add
tamper
and Hi/Lo
air initiation
from dry portion of
sprinkler
system.
A single
waterflow switch at the wet riser is sufficient for the entire system. Clarify tamper
connection(s) from underground supply.
Cc: Mr. Matt Woo fax 206 667-0554
City of Edmonds �'o Office of Fire Marshal
% ®
�\ ƒ
\ � �
fez �
.14�
..................
4100 200th St SW,Suite #3. Lynnwood, WA 98 036 Phone: (425) 69 7-21 1 6 . Fax (426) 69 7-2 1 55
Le.
e
e ra n s m
TO: Edmonds Fire Department
5th Ave N ■
Edmonds , WAR
We are sending yo X
the following items.
Shop Drawings
Print Revisions
Plans
Samples
Specifications
Attached
NAM
Date,* 5/16/00 Job No. 6 75
Attn:
mhmmwmw�
From:sRich Vance
Re,* CA
Fire Al a rm
Under separate cover v i a
Changa Order
Submhtals
Prior Approval
Proposal
Copy of Letter
Copiespti
Date No. Descrion
3 3/3 0/00 1 Tire Alann System Shop Drawings
3 3/30/00 2 Fire Alarin System Submittals
3
4
5
These are Transmitted as checked below,,
40
For approval
For your use
As requested
x
x For rem ew and comment
Approved as submitted
Approved as noted
Returned for c o rre cti o n s
Retum I approved sets to P.A.
e
Resubmit copies for approval to appropriate approving agencies.
Remarks
�
Z\
M AY 2 3 2000
DEVELOPMENT SERVICES CTR,
-1 CITY OF EDMONDS
i
4300 200th St SW, Suite . Lynnwood, WA 98036 Phone: 2 -211 . Fax697-2155
Customer
Bird Electric
22930 Stottlemeyer Road NE
Poulsbo,WA 98370
Project
CHASE LAKE COMMUNITY SCHOOL
Project # 675
List. of s..,..
Supplier
Precision Alarm
4100 200th St. SW #3
Lynnwood Wa. 98036
Type of Equipment
FIRE ALARM
Date 8-Dec-99
te Man6f . � � � Ntod.et . ��..Desccip#iorl
DEVELOKIENT SERVICES CTR,
CITY OF EDMONDS
w
1 1 Notifier BE-400 Intelligent Fire Alarm System Control Pane[
2 1 Notifier CAB-C3 Backbcx, Door
3 4 Notifier FCPS-24 Remote charger power supply
4 58 Notifier SDX-751 Intelligent PHOTO
5 54 Notifier B71 OLP Intelligiant Base
6 29 Notifier FDX-551 R Intellig-3nt, analog, Fixed (135 deg} rate -of -rise detector
7 27 Notifier BX-501 Intelligant Base
8 61 Notifier SDX-551 H IntelligaMt Photoelectric Duct Smoke Detector
9 60 Notifier DHX502 Intelfigant Duct Detector Housing APPRO
10 60 Notifier ST-5 Sampling tube, 4 to 8 ft. duct
1'I 40 Notifier RA40OZ Remote Led F� E EPA 1 �
12 15 Notifier BGX-101L IntelligaMt Manual Put[ Station !,O 06
13 2 Notifier MMX_1 Monitor Module
14 8 Notifier CMX-2 Control module
15 'i Notifier 911 AC Universal Digital Alarm Communicator Transmitter.
16 2 Notifier LCD-80TM 80 Character terminal mode only LCD Annunciator.
17 2 Notifier LDM-32 Lamp Driver annunciator Control Module.
18 2 Notifier LDM-CBL24 24"" Limp Driver annunciator LED cable.
19 2 FIR Kirkland RSE-GR-GP4 Graphic Annunciator 9 LSD's 1 LCD-80TM
20 77 Notifier P241 10 Horn Strobe, 24 volt, red, wall mount, 110 cd
21 17 Notifier S24110 Strobe, 24 volt. red, 110 cd
22 10 Notifier P2415K Weather Proof Horn Strobe,
23 10 Notifier WBB-R Weather Proof Back Box
24 9 Notif ier MDL SinceCircuit module, 12 or 24 vdc, red
25 2 Notifier HD-603 Conventional 135 degree Heat Detector
26 2 Notifier 302-ET-1Conventional 194 degree Heat Detector 1 Rate Compensation
27 13 Notifier MR-201 IC DPDT relay in metal enclosure.
28 3 Notifier A77-716B 12 or 24 volt EOL relay module.
29 8 interstate PC 1240 12 volt 4,.5 Amp Hour Batteries
30 2 Interstate PC1 2260NB 12 Cott 26 Amp Hour Batteries
31 * 1 Citizen GSX-1 90 Event printer w Serial Port
32 * 1 Complete Line REL-74766 Printer Stand
33 Y2K Compliance Letter
* Specification Sheet Not Available
Note quantities subject to design
A dire System West, Inc. Company
IL
A Pittway Company
GENERAL
The AFP-400 is a compact, cost-effective, intelligent fire
alarm control with a capacity of 563 points and an extensive
list of powerful features. The AFP-400 integrates conven-
tional output' circuits, such as notification, telephone, and
speakers, with the intelligent features of two signaling ling
circuits (SLC) and 396 intelligent/addressable points.
FEATURES
• The Fire VIEWT11 System:
V Revolutionary new spot laser detection.
V AdvancedAWA CST,&, algorithms differentiate between
smoke and non -smoke signals.
i/ Addressable operation pinpoints the fire Location.
p/ No moving parts to fat! or filters to change.
V early warning performance comparable to the best
aspiration systems of a fraction of the lifetime cost.
• Low pressure CO 2 support:
� Expanded soak timer - 0 to 9999 seconds.
Manual release delay (10 seconds) type ID.
V "Second shot" monitor module type ID.
j/ Triple -coded notification circuit type ID.
• Combo gone. Connect tamper and waierflow detectors b
a common monitor module.
• Modified California Code, pulsed on time.
Is Telephone control module Type ID.
• Simplified UDACT point reporting and programming.
• VeriFire"11 400 report option. Sort Maintenance Reporls
by dirty detector, peak value, or alarm level.
• Two intelligent Signaling Line Circuits (SLC) Style 4, 6 or
7.9
• 396 intelligent device capacity (198 intelligent detectors
and 198 monitor/control modules).
• Up to 68 internal circuits/re lays, plus 99 programmable
zone output relays for a total capacity of 563 points.
• Peer -to -peer network -ready (refer to NOT1*F1RE*NET
and NAM-232 catalog sheets for further information).
Intelligent features:
i/ Manual sensitivity adjustment - 9 levels.
s/ Pre -,alarm AWA CST11 9levefs.
V DaylNight automatic sensitivity adjustment.
V Sensitivity windows:
ION — 0.5 to 2.5%lfoot obscuration.
PHOTO — 0.5to2.35%lfootobscuration,
LASER — 0.03 to 1.0%lfoot o6scuration.
MULTI-SENSOR — 0.71 to 4.0%/foot obscuration.
V Drift compensation (U.S. Patent Pending).
Jury 13, 1998
AFP= 00
Analog Fire Panel
Section: Intelligent Fire Alarm Control Panels
� California
State Fire
Marshal
P`I
A 111r. 7170-0028:182
S635 CS 118/733 7165-0028:181
City of
Chicago
CLASS 1-,P, 1291E
CLASS 2: 1729E
17-96-E
OB1AO.AY
V Multi -detector algorithm Involves nearby detectors
in alarm decision (patent pending),
V Auto detector test (meets NFPA 72).
Maintenance alert (two levels).
V Self -optimizing pre -alarm adjusts pre -alarm level
to environment automatically,
s/ Activate local sounder base on pre -alarm.
p4r LSD blink control for sleeping areas.
61 Automatic device type check.
Verification Trouble counter. Trouble indication after
a detector verifies 20 times.
• Releasing features:
61 Ten independent hazards.
V Sophisticated cross -zone (three options}.
V Delay timer and Discharge timers (adjustable)II.
v' Abort (four options,,
This document is not ]intended to be used for installation purposes. We try to keep our
product information asp -to -date and accurate. We cannot corer all specific applications or
anticipate all requirements. All specifications are subject to change without notice. For
more information, contact NOTI FIER. Phone: - 1 1 A ; 2 - 11
&NOTIFIEW
12 Clintonville Road, Northfocd, Connecticut 06472
IS0,09001
Engineering and Manufacturing
duality System Certified to
Intemational Standard ISO-9001
Made in theU.S.A.
D- 2— Page 1 of 1
T
FEATURES, continued
Voice and telephone features:
V Solid state message generation.
V Hard -wired voice control module options (System
5000 class modules),,
V Distributed voice options (XP transponders).
V Firefighter telephone option.
V 30- to 120-watt high-efficiency amplifier.
s/ Backup tone generator and amplifier option,
s/ Dual channel option.
• optional universal 396 channel DACT, with AC fail de-
lay.
• UL-listed modem interface allows remote/off-site sys-
tem integration.
• LCD-80 remote 80-character displays (up to 32).
• ACS annunciators (EIA-485), including LDM custom.
Is Printer interface (80-column and 40-column printers).
6.0 A usable regulated output power, plus 6.0 A ex-
panders.
• 80-character LCD display, backlit (2 lines x 40 charac-
ters).
• History file with 800-event capacity in non-volatile
memory, plus separate 200-event alarm -only file.
• VGAS graphic monitor system supports up to 8 AFP-
400's.
• Waterflow or supervisory selection per paint.
• Alarm Verification selection per point, with tally.
• Autoprograming and Walk Test repots 2 devices set to
same address.
• Positive Alarm Sequence (PAS) Presignal per NFPA
72*
• Silence inhibit and Auto Silence timer options.
• March time/temporal/Califomialtwo-step code for bell cir-
cuits*
• Field-programmable on paned or on PC, with VeriFire T11
program check, compare, simulate.
• Full QWERTY keypad behind flip -down door.
qo MMX-2 two -wire detector interface provides compatibil-
ity with many non-NOTIFfER detectors for retrofit appli-
cations,
• Dual rate charger for up to 90 hours of standby power.
• Tornado Warning activates different Notification Circuit
code.
0 Non -alarm points for lower priority functions.
Remote ACK/Silence/Reset/Drill via MMX modules.
• Automatic time control functions, with holiday excep-
tions.
• Rapid poll algorithm for manual stations. Responds in <
3 seconds.
Operates with untwisted, unshielded wire (up to 11000
feet) for retrofit applications (U.S. Patent 5, 210t 523)6
• Surface Mount Technology (SMT) Electronics.
• High-speed RISC 16-bit Microprocessor.
• Extensive, built-in transient protection.
Page 2 of 1— DN- 2 2
R
j
z
a)
U3
SYSTEM BLOCK DIAGRAM
SOX-751
IIF-
" w ! s 0
to 68
fully programmable
output circuits
..A JjjLWj
4 To other FRCP
-4
.4
LCD-80 Remote
Display/Control
RS
-485
AFP400
shown In CAB-C
with voice alarm System
Optional LonworksO TP78
111
i -551
CPX- 51
CP -551
FPS-8
RS-232
FDX•551
SLC Intelligent Loop I
19B devices
SLC Intelligent Loop
198 devices
4 To other FRCP
-4
.4
LCD-80 Remote
Display/Control
RS
-485
AFP400
shown In CAB-C
with voice alarm System
Optional LonworksO TP78
111
i -551
CPX- 51
CP -551
FPS-8
RS-232
FDX•551
SLC Intelligent Loop I
19B devices
SLC Intelligent Loop
198 devices
I A4
Is go
op
ACM -BR
Relay
Control
13Gx-101t MMx-1 cMx•z
IDC NAC
annunciator/control Doints
x x
IDC NAC
Optional 396 channel UDACT
RS-232 Terminal
PRN Printer
ACMAEM- 1 AT LED Annunciator
GRT-2 Terminal
P TnpAor
rW5dW MOMRir
MON—!
P Tran sporAer
a
o
0
0
a
0
o
0
Q
o
LDM-32 Custom Graphics
Jo. Dual phone lines
lop. to Central Station
f
The CPU=400
EIA-232
EIA-232 Terminal Port
Printer Port
0
AD
Slide -in Labe
PROM
.ti
E[A-485 "Terminal
Mode" Port EIA-485 Port
N
SLC Loop #1
(Style 4,6, or 7)
Q 0 0
0
0
�
0
ON
niwt PPLEALAR
ALAPIM WAXM*G1hj,
S ECUR
ALAR IM
SYSTEM
TROURLI
D=ILEO
ALAAH j
SLC Loop #2
(Style 4,6, or 7)
80-Character (2 x 40)
Back -Lit LCD Display
Status LE 's
� � � � � � � � � � �W , . : : err � w � � y � � �f � W h& �- W~ � � � � --*I 'nnf✓ ! � � � � �� � ;/ s
The M S 00
Main Power Supply
AC Power 1201240 VAC
(Field Selectable) �
Battery 1 2-o A.H.)
2 non-resettable
24 VDC circuits
rated 1.25 amps
each*
,r 1 CC
1 "0 1
{ }Nt
EA
ji
w
UZC Coder Input I ���do
�
Door Tamper Switch (STS-200)
Resettable
24VDC@
1.25 amps*
Programming
Keypad
Flip -Down Door
(covers the
programming
keypad)
Form-C Alarms Trouble, Supervisory,
and Security con acts. (3 amps @ 30
VDC) (Note: Supervisory and Security
contacts can be converted to alarm
contacts.)
UVQNIIU��
5- 46P&
091iiMWi MOMS f 0
# 0
41 0 =0
LNG
3
` The IMPS-400 is a fi amp
power supply. Total power,
including internal modules
cannot exceed 6 amps.
6
NHS or rceieasing
circuits i & 2.
Class A & Glass B,
24VDC@2.5
amps each
1AC or Releasing
Circuits 3 & 4.,
Class A or E3, 2
C @ 2.5 arps
each.*
Status/Trouble
LEDs
Optional
Transmitter module
(4XTM connector).
Page 4 of 10 — D-2
Meter Module Opiion (MPM-2)
0
AWACSTm Advanced Warning Addressable Combustion Sensing
AWACSTM is a set of software algorithms that provide the AFP-400 with industry -leading smoke detection capabil-
ity. The development of these sophisticated algorithms are made possible by the close cooperation between
Notifier and System Sensor, the world leaders in fire detection and alarm technology. These complex algorithms
require many calculations on each reading of each detector, and are made possible by the very high speed
microcomputer used by the AFP-400 (16-bit RISC Reduced Instruction Set Computer).
i3 Drib Compensation and Smoothing, These algorithms
(U.S. patent pending) identify and compensate for long -temp changes
in the analog readings from each smoke sensor. Long-term changes
are usually caused by dust accumulation inside the smoke cham- Analog
ber. Drift compensation allows the detector to retain its original Reading
ability to detect actual smoke, and resist false alarms, Even as dirk
accumulates. It reduces maintenance requirements by allowing the
system to automatically perform the periodic sensitivity measure-
ments required by NFPA Standard 72. Smoothing filters are also
provided by software to remove transient noise signals, usually
caused by electrical interference. Different smoothing algorithms
are used, depending on the sensitivity selection of each detector.
@ Maintenance Warnings,, When the drift compensation performed
for a detector reaches a certain level, the performance of the detector
may be compromised, and special warnings are given. There are three
warning levels: (1) Low Chamber value, usually indicative of a hardware
problem in the detector; (2)M2intenance Alert, indicative of dust accu-
muiationthat is near but below the allowed limit; (3) Maintenance Urgent,
indicative of dust accumulation above the allowed limit. The Mainte-
nance Alert level allows maintenance before the performance of the
device is compromised. �F
Q Sensitivity Adjust. Nine sensitivity levels are
provided for ala detection. These levels can be set
manually, or can change automatically between day
and night. Nine levels of pre -alarm sensitivity can
also be selected, based on predetermined levels of
warm. Pre -alarm operation can be latching or self -
restoring, and can be used to activate spec':al control
functions that are a subset of the alarm control
program.
0
.%
LL
.%
CL
z
0.6%
0.5%
U
m
SAMPLE
0.3%
SENSITIVITY
WINDOW (LPX-751)
0.5% Alarm Selection
Q SelfmOptimizing Pre -Alarm. Each detector may be set for "Self -
Optimizing" pre -alarm., In this special mode, the detector "teams" its
normal environment, measuring the peak analog readings over a long
period of time, and setting the pre, -alarm level just above these normal
peaks. This allows extremely sensitive pre -alarm capability with rea-
sonable protection against non -fire signals.
Maintenance
Urgent
Alert
0 Cooperating MultimDetector Sensing. A unique feature of
AWACS is the ability of a smoke sensor to consider readings from
nearby sensors in making alarm or pre -alarm decisions. Using logic
algorithms, each sensor can include up to two other sensors in its
decision. Without statistical sacrifice
n the ability ty resist false alarms,
it allows a sensor to increase its sensitivity to actual smoke by a factor
of almost 2 to 1. Multi -detector sensing also allows the combination of
ionization with photoelectric technology in reaching an alarm decision.
Time (days)
CombIned or
00
MOV
4EP dip
Prealarm Threshold
-f'� }-f � -'-may;•_ - '.�� {'' �?} ;
0.1% Alarm Selection 3
0.03% Alarm Selection I
i
Alarm
W ft� OWES W" No" now MW
�" 7'..0 � a .0
Normal Threshold
Low Chamber
Reading 10.
Time (days) ---►
Acceptable
Range
Time (minutes)
ir
'r
FIELD PROGRAMMING OPTIONS
AUTOPROGRAM
---- OWN
U OF R E �-WA
_LEAS
T
-Z
Autoprogram is a timesaving feature of the AFP-400. It is
a special software routine that allows the AFP-400 to leam
% . . . . . . . . . .
what devices are physically connected and automatically
load them in the program with default values for all pararn
eters. Requiring less than 30 seconds to run, this routine
Z?
'S M
L I
allows the user to have almost immediate fire protection in
A- 7. 4'.: 0. ":7-' --7� P-"!
-OUT
Fu S
4 BEL 04
a new installation, even if only a portion of the detectors
PANw
R
are installed. The routine will find all intelligent detectors
. . ......................... . . . . .
..... . . . . . . . . .
and modules, and present them to the installer for edit of
the default option selections, if desired. If a device is found that already exists in memory, autoprogram skips over that device
(only new devices or missing devices are presented to the installer). Often the installer will perform autoprogram as a first step
in a new installationt then upload the program into VeriFire to add all custom labels and other information, then download from
VeriFire to the AFP-400,
KEYPAD PROGRAM EDIT
The AFP-400, like all NOTIFIER intelligent panels, has the
exclusive feature of full program creation and edit capabil-
ity from the front panel keypad, while continuing to prov
vide fire protection. The architecture of the AFP-400
software is such that each point entry carries its own pro-
gram, including control -by -event links to other points. This
allows the program to be entered with independent per -
point segments,, while the AFP-400 simultaneously moni-
tors other (already installed) points for alarm conditions.
ENTE PROG
T"
ASSWORD T H E N
�.A
-7 .... . ...... - -
ENTER E
X C AP
BORI 41
7-
v�:
ZoNtz". 6-z
77.
ESSAGE_�
*.P.D., '1X-4 �Al�: P A S SW D
A _a :i,. -j N'
8 C H E C K%
Y E
F
PH .7-r
-z
In addition to avoiding system shutdown, program edit from the panel keypad has the advantage of not requiring an on -site PC.
This can save significant installation time for minor program changes. The AFP-400 site -specific program 'is password
protected, and all information is stored in non-volatile memory. Menu "trees" are provided to lead the trained installer through
the program steps without the necessity to refer to the programming manual.
Veri'FireTM
VeriFire is an off-line programing and test utility that can
greatly reduce installation programming time, and increase
confidence in the site -specific software. It is WindowsO
based and provides technologically advanced capabili-
ties to aid the installer, The installer may create the
entire program for the AFP-400 in the comfort of the of-
fice, test it., store a backup file, then Ming it to the site and
download from a laptop into the panel.,
The program includes error checks for common program-
ming mistakes, such as an input point that does not acti-
vate any outputs,, or an output point that is not linked to
any inputs. It also includes a simulation routine that will
list all of the output points that are activated by a particu-
lar input point (alternatively, it will list all the input points
that are linked to a particular output). Although this does
not eliminate on -site testing, it greatly increases confi-
dence in the final instalk�tion,, For example, a 200-input
and 1 00-output point system, without using VedFire, could
require 20,000 test observations to verify all possible 1/0
lin k s.
VeriFire includes a compare routine., pictured at right?
that can also greatly help the installer. When a new
program is created, it may be compared with a previous
version and differences are highlighted. If the program'I's
modified from the panel keypad, it may be uploaded into
VeriFire, and compared with the previous version stored
on disk, The identification of program differences greatly
helps the installer in testing the 'installation. NFPA 72
requires that reacceptance test of a fire alarm system be
performed on 100% of all points that are "known" to be
modified. VeriFire allows the installer to determine the
exact points that are changed,,
Page 6 of 10 — DN-5262
i
AA4-1201AA-100:
Audio Amplifier provides up to 120 watts of 25 VRms
audio power for the AFP-400. The amplifier contains
an integral chassis for mounting to a CAB-B3.
-C3, or -D3 backbox (consumes one row). Switch -
mode power. Includes audio input and amplified
output supervision, backup input, and automatic
switchover to backup tone. Order the AA-100 for
70,s 7 VRms systems and 100 watts of power.
VROM,-(n): Factnrv-nrnarnmmPr1
message for installation in AMG-1.
Provides up to 24 seconds of
evacuation message on non-volatile
memory chip. Choose one of many
standard messages available. Up to two of these
messages may be installed in one AMG. Includes
VROM, instructions for installation and operation, and
written text of messarye
IV L;-, 0
11MA
M" I a M U rour-ammeu mpmnry m
be installed in AMG-1. Provides up
to 24 seconds of field -programmable
evacuation message on non-volatile
triumury unip, message is pro-
grammed from microphone or cassette tape., Up to
two of these non-volatfle memory chips may be
installed in one AMG. Includes VRAM and instruc-
tions for installation and operation,
APSw6R: Auxiliary Power Supply
(expander), Provides up to 6.0
amperes of regulated power for
compatible Notification appliance
circuits. Includes battery input and
transfer relay, and overcurrent
protection. Mounts on one of four
positions on a CHS.4L or CHS-4
chassis,
FCPSa24: The FCPS-24 is a remotp _%WVF1
6-amp (4-amp continuous) repeaterlpower supply.
UZCm256: Programmable Universal Zone Coder
provides positive non -interfering successive zone
coding. Microprocessor -con trolled, Field -programma-
ble from IBM-compatible PCs (requires optional
programming kit). (See UZC456 catalog sheet.)
LCDw801LCDw80TM: 80-character
, backlit LCO display.
Mounts up to 61 000 ft, from panel. Up to 32 per AFP.
400. (See LCD=80, LCDm8OTM catalog sheetse)
ACS: Annunciator Control Modules ACM-16AT,, AEM,�
16AT ACM-32A, and AEM-32A.
(See ACS catalog sheet.)
LDM: Lamp Dn'ver Modules LDM-32, LDM-E32, and
LDM-R32. (See LDM catalog sheeta)
A CM4R: Remote Relay Module with eight Form-C
contacts. Can be located up to 6,000 ft. from panel
on four wires.
RPT485: Repeats EIA-485 over twisted pair or con.
verts to fiber-optic medium. (See RPT catalog
sheet.)
XP: The XP Series Transponder provides conventional
monitor and control points. (See XP catalog sheetj
CHS-4: Chassis for
mounting up to
four APS-6R.
CHS4L: Low -profile
four -position Chassis.
Mounts two AA-*30
amplifiers or one
AMG-E and one AA-
30.
lei
P46
W km� -0 00
CHS4M: Expansion Chassis,. Mounts up to four
modules. Includes CHS-4, MP-1 (Module Dress
Panel), and Expander Ribbon Cable&
DP-1: Blank Dress paneL
Provides dead -front panel for
unused tiers or to cover AAa
30, AA-120, orAMG-E.
#^A n
"A%2 *JW11t;9Zi4_ Iflu Ldj"E3_A.5 �Hrlalq
CAB400AA: Provides small cabinet for CPU-400 and
MPS-40ORB, Use with BE-400AA only. Space for
one (only) output circuit module plus expander.
MPS400: Power Supply module. The MPS-400
includes 4 Notification Appliance Circuits (NAC) that
can connect four Class A (Style Z) or Class B (Style
circuits. The NAC also can be used for Releasing
applications. Includes four built-in syst I
(alarm,, trouble., security, and supervisory). For BE-
400 replacement only. The MPS-400 is included in
the BE kits&
MPS-w400RB.o MPS-400 PC board only, Less trans�
formers and mounting chassis.
AFM: Annunciator Fixed Modules AFM-16A AFM-w
16AT
,, and AFM-32A. (See AFM catalog sheet.)
Page 8 of 10 — DN-5262
LEXANID i*s a registered trademark of GE Plasfics, a
subs'ldiary of General Efectdc Company.
4
I
BASIC EQUIPMENT PACKAGES
There are two packages available to configure an AFP.
400 system. The standard mode(, BE-400, is designed
to mound in a NOTIFIER full-sized cabinet in the CAB-
X3 Series. The BE-400AA is a miniature package de-
signed for a smaller cabinet, the CAB-400AA. Order
A11h. one of the following:
qkhk" BE-400: Base Equipment includes the CPU module
(CPU-400), an 80-character display, programming
keypad, MPS-400 main power supply, installation
instructions, chassis and required hardware. Order
CAB-X3 cabinet separately.
BE-400AA: Base Equipment for use with CAB -AA mini
ca6inef. It is similar to BE-400 but for use in CAB -
AA, Includes MPS-40ORB and transformers. Sup-
ports one output option module. Order CAB-400AA
cabinet separately.
SYSTEM MODULES
The AFP-400 includes the ability to communicate with
up to 8 conventional modules each with up to 8 circuits.
Any mix of notification, relay, speaker, or telephone
may be used.
Choose any combination of up to eight output
modules: 1CM/10E, CRM/CRE, DCM4 or VCMIVCE.
1CM-4: Notification Appliance Circuit
Module, provides four Style Y or Style Z
alarm Notification Appliance Circuits.
Maximum signaling current is 3.0 amps
per circuit or 6,0 amps per module,
subject to power supply limitations
(includes auxiliary power harness, Rs
and slide -in labels). Includes ONIOFF
controls and ONIOFF LEDs.
ICE4: Notification Appliance Circuit Ex-
pander, expands 1CM-*4 to provide a tots! of
eight (8) Style Y or Style Z alarm Notifica.*
Lion Appliance Circuits. Circuit ratings are
same as 1CM-4. (Maximum of one per
1CM-4.) May also be used to add four
Notification Appliance Circuits to VCM-40
CRM=4: Control Relay Module, four (4) Form-,
C relay contacts, rated of 5,0 A, 120 VAC
or 28 VDC (resistive) per circuit. Includes
manual ON/OFF controls and LEDs.
CRE4: Control Relay Expander, expands
CRM-4 to provide a iota! of eight (8) Form-
C relay contacts. (Maximum of one per
CRM-4.) May also be connected to add
four relays to 1CM-4, TCM-2, TCM-4,, or
VCM-4.
VCM,,4: Voice Control Module provides four
Style Y or Style Z speaker circuits, eight
manual select switches and indicators,
slide -in labels,, and plug-in terminal blocks,,
Move jumper to convert to telephone
circuits with remote ring signsl and local
call -in flash. Maybe expanded to E
circuits with VCE-4, ICE-4, or CRE-40
0_
INN
10
0 e
VCE.m4: Voice Control Expander adds four circuits to to VCM-4. {Note: VCM-4 I VCE.4 jtji'i
combination must be 8 speaker or 8 phone '111 11 13
circuits.} � ;.
e
DCM-4: Dual Channel Module provides four
Style Y or Style Z speaker circuits plus four
channel AIB select relays. Not expandable.
OTHER OPTION MODULES
ARM-4: Auxiliary Relay Module, tour (4)
Form-C relays controlled by a relay module
(CRM-4 or CRE-4). N.O. contacts rated 20 I ' ��
amps, N.C. contacts rated 10 amps at 125 � �-'
VAC and 30 VDC. (Maximum of one for M
W=0_ 0 3
each CRM-4 or CRE-4.) I °
1
VCC-ols Voice Control Center. Provides a variety of user
selectable tones on a single channel. Up to two
different tones or messages maybe selected on a
single channel. Also provides opfional digital voice
message capability and on�siie programmable voice
messages. Includes Audio Message Generator
(AMG-1) microphone, cables, dress panels, and
instructions.
VCC-o2 * Voice Control Center. Single or dual channel
Audio Tone Generator (ATG-2). Provides a slow
whoop, HilLo or steady tone on the primary channel
and for deaf channel applications, provides a chime
or 20 pulse -per -minute tone on the secondary
channel Includes cables, microphone, dress panel,
and instructions.
VTCC-1: VoicelTelephone Control Center. Provides all
that the VCC- I provides plus two-way Fire Fighter's
Telephone (FFT*-7) capability.
VTCC.o2: VoicelTelephone Control Center. Provides all
that the VCC-2 provides plus two-way Fire Fighter's
Telephone (FFT-7) capability.
TCC-ol: Telephone Control Center. Provides a stand-
alone two-way Fire Fightees telephone (FFT.7S).
Includes cables, dress pane! and instructions.
AMG,,E.lp Audio Message Generator
(without microphone). Order in
addition to VCC-1 or VTCC-1 if
two -channel system is required.
FFT=71FFT-7S: Fire Fighter's
Telephone control with master
handset.
AA-30: Audio Amplifier - 30 wafts. Switch -mode power.
Includes amplifier and audio
input supervision, back-up ....;
input, and automatic:.�:..-
switchvver, power supply,
cables.
.O 0 0 0 0
D+22 — Page 7 of 1
AGENCY LISTINGS AND APPROVALS
See the first page of this catalog sheet for listing agencies
and fife numbers. These listings and approvals apply to
the basic AFP-400 control panel, In some cases, certain
modules may not be listed by certain approval agencies,
or listing may be in process. Consult factory for latest
listing status.
The AFP-400 is UL listed, per Standards 864 (Fire) and 1076
(Burglary). It meets NFPA 72 Local, Auxiliary, Remote
Station, Proprietary, and Emergency Voice/Alarm Fire Sys-
tem Requirements.
SPECIFICATIONS
• Primary input power, 120 VAC, 50/60 Hz, 3.0 Amps.
• TQIal output 24 V power --W- 6.0 A.`
• Standard Bell circuits (4) per MPS-400 2.5 A each.
• Four -wire detector power --- '{ .25 A.
• Two non -reset regulated power outputs — 1.25 A each.
- Battery charger range: 12 AH - 60 AH.
(Use separate BB-55 cabinet for 60 AH batteries.)
• Charge high rate: 29.1 V. Float Rate: 27.6 V.
" Note: The MPS-400 has a total of 6.0 Amps of available power.
This is shared by al! internal modules and each MPS-400 circuit.
SYSTEM CAPACITY
• intelligent Signaling Lire Circuits ....�,i...ii.f............i.... 2
0 Intelligent Detectors i�.........■..i#........iii,iiiii**#.198
0 Addressable monitor/control modules 1
• Programmable internal hardware
and output circuits standard 68
Programmable software zones • ■ ■ i ■ i i ■ * * # • f i * ■ f i i ■ . • i i # * • ■ f ■ . i i 99
• Special Programming zones 1
Programmable remote relay/annunciator points....... 99
LCD-80 aper system (observe power) i 32
• CS annunciators per system...,10 Address x 64 points
CONTROLS AND INDICATORS
Program Keypad: QWERTY type (keyboard layout).
8 LED indicators: AC Power; Fire Alarm; Pre -Alarm;
Security Alarm; Supervisory Signal; System Trouble, Dis-
abled points, Alarm Silenced.
Membrane Switch Controls: Acknowledge/Step; Silence;
Evacuate; System Reset; Lamp Test.
LCD display: SO characters (2 x 40) with long -life LED
back -light.
COMPATIBLE DEVICES, EIA=232 Port
Model Description
PRN4 80 column printer.
VS4095/S2 Printer, 40 column, 24 V. Mounted in exter-
nal backbox (Order from Keltron, Inc.).
CRT-2 Video display terminal.
NAM=232W Wire peer -to -peer NOTI*FIREeNET
network interface module (see separate
catalog sheet).
NAM=232F Fiber peer -to -peer N0T1*F1RE*NET
network interface module (see separate
catalog sheet).
*VGAS Video Graphic Annunciator System
(see separate catalog sheet).
Note: * Not UL 864 listed (ancillary device only).
COMPATIBLE INTELLIGENT DEVICES
Mode! Description
CPX=551 Ionization smoke detector.,
XW otoelectric smoke detector.
SDX=551TH Photoelectric with thermal element.
FDX.m551 Fixed thermal (heat) sensor.
FDXft551 R Fixed and rate -of -rise thermal sensor.
XW an ar .S. detector base.
B501 BH Sounder base.
B524RB Relay base.
B524BI Isolator base.
DHX1,501 Duct housing with alarm relay.
DHX=502 Duct housing without alarm relay.
mmx=i Monitor module.
MMXa2 Two -wire detector monitor module.
MMX=1 01 Miniature Monitor Module.
CMXw2 Control Module.
BGX�101L Manual Fire Alarm Station, addressable.
IS�•X Isolator Module.
XP Series Transponder.
COMPATIBLE
"LOW PROFILE" DEVICES
CPX=751
SDX=751
LPX=751
XW751
8224RB
B224BI
B71 OLP
Low -profile ionization detector.
Low -profile photoelectric detector.
Low -profile laser photo detector.
Low -profile Advanced Multi -Sensor detector.
Low -profile relay base,
Isolator base for low -profile detectors.
Low Profile base. Standard U.S. Style,
COMPATIBLE DEVICES, RS=485 Pori
Model Description (see catalog sheets)
ACS Series Remote Serial Annunciator/Control sys-
tems.
C Remote LCD display.
LDM Series Remote custom graphic driver modules.
ACMma8R Remote relay module. 8Form-C relays.
NlBaH Network Interface Board.
RPT-485 Series epea er, isolator an or f er optic mo-
dem.
UDACT Universal Digital Alarm Communicator
Transmitter.
UZC=256 Zone Coder. Up to 256 programmable
codes.
D- — Page 9 of 1
RO
PRODUCT LINE INFORMATION
Model Description
BE400 Basic Equipment package for an AFP-400 in a CAB-3
cabinet. Includes: CPU-400 with keypad, 80-character
display, MPS-400 power supply, and a!1 necessary cables
and documentation.
BE400AA Basic Equipment package for an AFP-400 when mounted
in a CAB -AA (cabinet ordered separately). Includes CPU-
400 and an MPS-40ORB power supply.
CAB=X3 Series The AFP-400 utilizes NOTIFIER CAB-X3 Series cabinets
(see separate catalog sheet).
CAB=400AA Mini cabinet for AFP-400. Supports one opLion card.
4XTM Plug-in Transmitter Module. Provides municipal box & re-
mote station connection.
PS-*12120 Battery, 12 volt, 12.0 AH (two required).
PS -al 2250 Battery, 12 volt, 25.0 AH (two required).
PSA2600 Battery 12 volt, 60 AH (use 2 with BB-55).
BB=55 Battery Box (required for 60 AH).
VeriFiren400 Programming kit for PC. Includes diskette, cable, and
instructions.
Ocher options as listed in previous sections.
Page 10 of 1 ---DN-5262
lb
December 8, 1997
r -
t ^vr. lift}7�Y vn+r5�� y �e5'arurikLrr, r Sss� W,.a+M�•
{; 1
A Pittway Company
GENERAL
All cabinets for the AM2020, AFP1010, AFP-400, AFP-
300, and System 5000 are fabricated from 16-gauge steed.
The cabinet assembly consists of two basic parts: a
backbox and a locking door.
All cabinet parts are NOTIFIER gray fired color is optional)
with nary blue LEXANO windows. This produces a taste-
ful combination to accent the decor of the finest lobby
setting.
The key -locked door is provided with spin-type hinge, a
LEXANO window, two keys and the necessary hardware
to mount the door to the backbox.
The backbox has been engineered to provide ease -of -
entry for the installer. Knockouts are positioned at numer-
ous points to aid the installer in bringing a conduit into the
enclosure with a minimum of hardship.
Right- or left-hand hinges, selectable in the field.
opens 180*,,
Cabinets are arranged in four (4) sizes, A through
trim ring option is available for semi -flush mounting.
Door
A-1 81
CAB=A3, B3, C3 & D3 Cabenets,
and -CAB=h`l Marine Enclosures
Section: Intelligent Fare Alarm Control Panels
LISTINGS FOR THE CAB-3 SERIES:
California
State Fire
Marshal
7165-0028:141
7165-0028:144
7170-0028:153
7170-0028,0,154
CAB-3 PRODUCT LINE
Each cabinet is available as a separate backbox and door
assembly. Use the following model numbers to order
each backbox and door assembly:
Model*
Description
CABmA3
Cabinet and door
assembly, 1
mounting
tier.
CABmB3
Cabinet and door
assembly, 2
mounting
tiers.
CABmC3
Cabinet and door
assembly, 3
mounting
tiers.
CAE3wD3
Cabinet and door
assembly, 4
mounting
tiers.
CABwD3B Cabinet and solid door assembly 4mounting
D. A tiers.
Chassis bridge available for assembling multiple CHS-4
chassis external to the backbox.
CABomM MARINE CABINETS
NOTIFIER marine cabinets are designed to house the
AFP-200, AFP1010, or AM2020 in marine shipboard envi-
ronments where dirt, dust, ails water, or other contami-
nants are present. Smooth, blended surfaces and an
attractive finish compliment the NOTIFIER fire alarm contol
panel,
CAB=3 TRIM RINGS
Trim rings are available for semi -flush mounting the cabi-
net. An adhesive tape is used to attach this trim to the wall
beside the cabinet. The trim is gray and is 15/16" thick.
Red trim rings are 125" painted meta[ and screwed in
place. Add an "R" in place of the "N" in the trim for red
models.
LEXANO is a registered trademark of GE Plastics, a subsidiary
of General Electric Company.
0-11'
* Add "` " o end of model number to order a red cabinet or door.
Accessories...
DRwA3 Door only, A Style.
SBB=A3 Backbox only, A Style, 1 tier,
TR=A3N Trim ring for use with gray A Style.
DRaB3 Door only, B Style, 2 tiers,
S13-B=B3 Backbox only, B Style, 2 tiers.
TR,oB3N Trim ring for use with gray B Style.
DRmC3 Door only, C Style, 3 tiers.
SBB=C3 Backbox only, C Style, 3 tiers.
TRnC3N Trim ring for use with gray C Style,,
DRwD3 Door only, D Style, 4 tiers.
DR=D3B Solid door only, D Style, 4 tiers.
SBBwD3 Backbox only, D Style, 4 tiers.
TRwD3N Trim ring for use with gray D Sfyle.
WC=2 Wire Channel., Provides a pair of wire trays to
neatly route wiring between CHS chassis.
CBmI Chassis Bridge. Provides a bridge between
I IGHS Series Chassis.
24,
I- 4' ►� --1 fi' ----.i 5-5I32'
- 1-5/8• 2-1/16•
8-5I8'
i 1-9/32`
5118' d1a. 5/16` dig. 20
E j
41
ip
i
2-114' �� —. ,'.-- 2-911 6'
This document is not intended to be used for installation purposes. We try to key product information up-to-date� our
�r
and accurate. We cannot corer all specific applications or
anticipate all requirements. Ali specifications are subject to change without notice. For
more information, contact NOTIFIER. Phone: o - '1 1 FAX: - 11
* N OTI F1 IEW 12 ClintonviHe Road* llcrthfrd, Conneccut 04
ISOM9001
Engineering and Manufacturing
Quality System Certified to
International Standard 1ST-9041
See other side
for other
CAB-3 Series
diagrams and
additional
information on
CAB.wM marine
enclosures.
Made in the U.S.A.
N-4 — Rage 1 of 2
1 W
1*1l!fi!iN:J 40,4911011 Lek 0 4 U-1:0 q1!j,1%Vk d r*].:k
PL-BM
Mounting
Plat
0
0
0
Enclosure
Size
Panel
Mounting
Plate
24"
x
30"
x
8"
27' x
21"
36'
x
30'
x
8'
33" x
2
do
9
d
0
a
7, 77
R, s
V, f�
AV'
_� t-11i
N,
--�,J,
AN
IDWU
tr,amsp.irej7 t wb7dow
DR THE CA B.&M SERIES:
Usse 16leOO2/2311
% (AFP-200 — CAB4
,.oast
% 16loOO2/2711
;uard (AM20201AFPIOIO
CAB -AM, CAB-B&
93100140
(AM20201AFP1010
CAB -AM, CAB-B&
94/00004
(AFP200 — CAR -A.
&1 '00 4 0
011111
%;A1SMffl
!Bel backbox with integra
dl.el door. all welds arntint
9011
opening
door
with zero
clearance
180*
opening
With
full clearance.
Compression
stops
maintain
opfimun
gasket
performance.
Removable
doors
with zinc
diecas
hinges.
Backbox
and door
ground
studs
pro
vide
positive
ground.
Slotted
quarter-tum
oil -tight
latch
an(
key
lock,
Includes
LEXAN@W'ndow
alloWng
ful�
view
of conW
panel
display
with
doo
:losed.
Includes
panel mounting
plate
pre
drilled
for
NOTIFIER
control
pane
mounting.
Backbox
and door
to be painted
gral
polyester
powder
inside and
out
ove
phosphatized
surfaces.
NEMA
Type
4; UL
508 Type
4;
ELA
RS -31
O-C;
CSA Type
4; TUV-1
EC
5
2 9
�Mrr
WJMT._r_"
Ll
IXKJ9.
C)TIM'
9
ut-,,,z5 provicies
regulated ancl
riftered 24 VDG po%
lotification
Appliance
Circuits
(two Class A [St)
vo
Class B [Style
Y] or four
Class B only). Alterr
wr
outputs
may
be configured
as any combina
:6nottable/non-resettable
power
outputs (optimal f
ig
4-wire smoke
detectors).
The FCPS-24(E)
Ons
a battery
charger
capable
of charging up tc
our
batteries,
'EATURES
Requires
input
trigger voltage
of 9.0 - 32 VDC
Contains
two,
fully -isolated
inputIcontrol circ
gered
from
FACP
Notification
Appliance Cin
expander
mode]
or jumpered
permanently c
alone
mode)).
Two
Class
A
(Style Z) or
Class B (Style Y) N
Appliance
Circuits
(circuits
1 & 3).
Two
additional
NACs that
may be individually c
for
Class B
(Style
Y) operation
only (circuits 2
6
Amp full
load output (3
amps max.Ickt.) in
r)RnrlRr mnrin
(HI AAA)
C.j allC
hPly, the
i of re-
)ower-
o con -
I Amr
0
Dwicaijor
onfiourP6
AM MhMW.W_.
M
.o continuous outi)ut in stand-alone mode (UL 14F
:mu-aiane mooe, ouiput power circuits may be con-
iBd qq rP_.qP_if;;hIP_ (nm_qet lingm frnm ;:ArD rem "irjnA
non-resettable,
Fully
regulated
and
filtered
power
output
(optimal
foi
powering
four
-wire
smoke
detectors,
annunciators
and
other
system
Peripherals
reauirina
reaulatedIffitered
rusuiess,
power-iimitea
tecnno
limiting
requirements,
effective
Normally
closed
trouble
contai
Fully
supervised
power
suppl�
Appliance
Circuits.
Selectable
earth fault
detectioi
4C
trouble
report selectable
for
Jelay.
Optional
ammeterlvoltmeter.
Norks
with
virtually
any UL
86
Litilizes
an industrv-standnrd
rp-
e0eI5 flE
I I nor
81 r-0 I I (z] &IFNIW- I OU 0 N' 1% ft
Ks
a
"" il
L i1a
3AC
n C% OP
Uf'k
-FCM24�'
.-M '4""'."2"�
IN
�-p .2
", fe
.% 0
M
Yi G"
%
2
T"
W;
D
�'a
Z11MIK8111t:
lluluut�b lrltdgral L
o 7.0 AH batterie4.
m 'ixed. damn-Wnp.
2C
DrnpaGl,
IOCKaDie
caDin
68
mm]
wide
x
2.75"
[7C
ttery
charaer
canable
nf
in
91161"MM:
zi-jFANuAKub anct cuviEs
immediate, 8- or 16. hour The FCPS-24 complies with the foll
0 NFPA 72mI996 National Fire Alarn
a UL 864 Standard for Control Units fc
4 fire alarm control which (NAC expander mode).
verse -polarity notificaflon UL 1481 Power Supplies for F
(stand-alone modeL
U"
008
3a A I
M
;I �"� �4' �"' ;
Aft
V
iIIIIIJ
Ueep)4
charging
up
dateUDtO
12
Zleterwiffe
DN-5132
Page
db
dw
I
SPECIFICATIONS
Primary (AC) Power
6 FCPS-24: 120 VAC
0 FCPS-24E:
0 Wire size:
220/240
9 -0
minimum
50160 Hz, 2.0 A max.
VAC 50/60 Hz, 1 .0 A max.
#14 AWG with 600V insulation.
Control Input Circuit
* Trigger Input Voltage:
9,,0 to 32 VDC.
Trigger Current: 2.0 mA (16 - 32 V),
(per input) 1.0 mA (9 - 16 V).
Trouble Contact Rating
* 5 amps at 24 VDC.
Auxiliary Power Output
a Specific Application Power - 45 mA Short Circuit,
TERMINAL
DESIGNATIONS
'6
z
0 0
< <
I - .. -
110 0 0 * C
Pi
1 0
*all
TO TRANSFORMER #2
TO TRANSFORMER #1
W
Own*
MWWW', 0 0
CN
Output Circuits
0 +24 VDC (19.1 - 26.4) filtered, regulated.
* 3.0 amps maximum for any one circuit.
a 4.0 amps maximum total continuous current for all out.
puts (Stand-alone mode),
6 - 0 amps maximum total short-term current for all outputs
(NAC Expander mode).
Secondary Power (Battery) Charging Circuit
Supports lead -acid batteries only,
Float Char e Vo 27*6V.-
Maximum Charge Current: 250 mA.
Maximum Battery Ca acity: 7.0 AHOF
Y
N
C�
Z —
3 —
4—
5 '
6 —
7"
8 w
9 610w
11"
12
FZ
Fz
5�_
5:_
Wft%
J-11�
FZ
5mm�
5:b
]a
0
zi-
0
:E�
':9
1�
U)
Aftwo
U)
co
%W-OF
(n
W
%...*
55
4h�w
W
+
+
U)
*-PMP
+
+
%%.�
qr-
CM
C%q
+
[n
5
C".
Cn
-Whoo
c,
=3
=0000-=
00
rz
=10000
0
R76
6WOKI)NO
FCPS=24(E)
:)Jpl
P
Battery fuse I OA 3AG slow blow
TB2W R27
0000000
opmv%
+
4PWM%
I
c)
rZ
W
(1)
0
NEWO
a
0
:3
Ca
Ja
>
0
2
2
2
CN
MM
Cq
M
W
:3
-AMP
4"0
0000
LL
o
W
<
ORDERING INFORAiATION
FCPS=24 Remote charger power supply (120 VAC).
Includes main printed circuit board,
transformers, surface -mount backbox, and
installation instructions,
FCPSlw24E Remote charger power supply (2201240
VAC). Includes main printed circuit board,
transformers, surface -mount backbox, and
installation instructions.
OKN� R1 75
1
JP2 (: 5 D31
1
4
9
M
7
i
vj
TB3
Notes:
1) Cut JP1 to use a UL listed extemal
battery charger.
2) Cut R1 34 to delay AC loss report-
ing for 8 hours (24-hour standby), or
cut R1 34 and R76 to delay AC loss
reporting 16 hours (60-hour standby),
3) Cut R175 to make output #2 non-
resettable in stand-alone mode,
4) Cut R176 to make output non-
resettable in stand-alone mode,,
a
IN + (Control Input #1 from FAcp)
IN -
OUT + I Trouble Contact
OUT -
Trouble Contact
IN + (Control Input #2 from FACP)
IN -
Auxiliary Output (+24 VDC, 10 mA max.)
Common
MPM4
.7 7 . t
AMPERE
0 2 .4 .6 .8 1 'jo
A77w716B 12/24 VDC end -of -line relay for monitoring
four -'wire smoke detector power,
PS4270 Baftery, 12 volt, 7.0 AH (two required).
MPM=4 Optional ammeter/voltmeter. Mounts in
FCPS backbox.
Page 2 of 3 — ON-5132
Example
APPLICATION EXAMPLES
1-0: Expand notification appliance power an additional 6.0 amps. Use up to 4 Class B (Style Y)
outputs or 2 Class A (Style Z) and 2 Class B (Style Y) outputs.
4 �ti •
NAC 41 (Silenceable)
::...#
Input •• = _
NAC # 2 (Non-Silence2ble) Input 2
Uj
.l. ti.
HOST FACP
FCPS
Silenceable
Horns
Non-Silenceable
Strobes
In this example, the FACP notification appliance circuits will activate the FCPS when reverse polarity activation
occurs. Trouble conditions on the FCPS are sensed by the FACP through Notification Appliance Circuit #1.
Example 2.0: Use the FCPS to expand auxiliary regulated 24-volt system power up to 4 amps. Both non-
resettabie and resettable power options are available.
HOST FACPFCPS/�'�P
Addressable
`puts Regulated
+24 VDC
OUtpUt 1,. P�W�RABLE
Output 2 - pW�RSETTABLE
Outpul 3 - POW�RAeLE
Output 4. Pow�RsErrABLE
Res etta b I e outputs are created by connecting the resettable output from the FACP to one or both of the FCPS inputs.
Non-resettable outputs are created simply by cutting on board resistors. For addressable panel applications, use
a monitor module to sense the trouble status of the FOPS via the trouble relay contacts.
Example 10: Use addressable control modules to activate the FCPS versus the FACP Notification
Appliance Circuits. This typically allows for mounting the FCPS at greater distances away
from the FACP while expanding system architecture in various applications.
OST FA(
Addressable
FCPS
Up to 4 NACs
or 2 NACs and
2 Regulated
Power Outputs
Output 1
Output 2
Output 3
Output 4
In this example, an addressable control module is used to activate the FCPS and an addressable monitor module
is used to sense FCPS trouble conditions. Local auxiliary power output from the FCPS provides power to the
addressable control module.
N- 13 ---- Page 3 of 3
P
GENERAL
The NOTIFIER SDX-751 (photo) and CPX-751 (ion) are
analog, addressable, low -profile (hei ht measures on y
1.66") smoke detectors designed for the AM2020,
AFP 10 101 AFP-400, AFP-300, AFP-200, and System 500 0
(when equipped with an AIM-200 module),
Because the SDX-751 and CPX-751 are addressable, the
control panel can provide fire fighters with a pinpoint de-e
scription of where the fire is located. The SDX-751 and
CPX-751 are also analog devices. The control panel is
capable of not only knowing the detector's location but ex-
actly how much smoke is in the chamber of the detector.
The detector may be set for different sensitivity settings
appropriate to the environment of its location.
Analog devices continually send obscuration values to the
control panel. These values may be athered so as to
allow the control panel to determine if a detector has accu-
mulated an excessive amount of dirt or dust. A "mainte-
0
nance 11 required indication allows the *nstaller to clean the
I
smoke detector before an unwanted false alarm occurs,
The CPX-751 Intelligent Ionization Sensor incorporates a
unique single -source chamber design to respond quickly
and dependably to a broad range of fires.
The SDX-751 Intelligent Photoelectric Sensor's unique op-
tical sensing chamber is designed with superior signal to
0
noise ratio. The optical chamber is engineered to sense
the presence of smoke produced by a wide range of com-
bustion sources,
FEATURES
Q Sleek, low -profile design (height only 1.66 inches).
• Common base for both photo and ion detectors.
• Compatible with current SDX.551 and CPX.,551,
• Addressable -analog communication.
Stable communication technique with noise immunity,
% Low standby current
a Rotary decade 01 to 99 address switches.
a Optional remote, single -gang LED accessory (RA40OZ),
* Dual LED design provides 3600 viewing angle.
Visible LEDs blink every time the detector is addressed,
and illuminate steady on alarm (LED blink is optional on
the AM2020, AFP1010, AFP400, AFPmm300 and AFP.
200)9
Built-ain functional test switch activated by extemal ma
net.
Optional relay, isolator, or sounder bases,
Listed to UL 2680
i
CPXm751 and SDX. =751 'H-113
0
LowamProfil Intelligent
Plugmin Smoke Detectors
Section: Intel ligent/Addressable Devi"ces August 21, 1997
U
C
L)
S1115 CS308
(SDX-751A,CPX.-751A)
328mag4ftE (CPX.551,
M EA SDX-551s, & B 71 OLP)
427=91ftE (B501s B50113H)
BASES separate/Y listed.
Contact factory.
Optional SMOKE GUARD is
UL listed with the SDX-751 a
California
State Fire
Marshal
7272,,0028:171
(CPX-751)
7272ftOO28:172
(SDX-751)
F M
OX5A5.AY
. ".7777
1.7
. . . . . . . . ......
P6, M
SDX4o75l with B71OLP base
SDXjw751 with B501 base
SPECIFICATIONS
Size: 1,66" (42.164 mm) high x 4A 01 0 04.14 0 m m) dia.
Shipping weight: 3.6 oz. (104 ),
Operating temperature: 040C to 490C (32*F to 1200F).,
UL listed velocity range: ION: 0 � 1500 fpm, pHOTO* 0
4000 fpm.
Relative humidity: 10% — 93% non -condensing.
EC ICAL SPECIFICATIONS: -
Voltage range: 15 - 32 volts DC peak.,
Standby current — ION: 200 pA @ 24 VDC (without com-
munication)-p 300 pA @ 24 VDC (one communication ev-
I
ery 5 seconds with LED enabled),
This document is not intended to be used for installation purposes. We try to ke'ep our
product information up4o-date and accurate. We cannot cover all specific applications or
I Ch
antidpate all requirements. All specificaUons are subject to inge -without notice. For
more information, contact NOTIFIER. Phone: (203) 484-7161 FAXw (203) 484-7118
PA OTI F1 Ell* 12 Clintonville Road, Northford, Connecticut 06472
ISOM9001
Engineedng and Manufactudng
Quality System Certified to
International Standard ISO-9001
DN-4762 -. Page 1 of 2
a,
Standby current -- PHOTO: 230 pA @ 24 VDC (without
communication); 330 pA @ 24 VDC (one communication
every 5 seconds with LED enabled).
LED current (max.): 6.5 mA @ 24 VDC ("ON").
BASES AVAILABLE:
B71OLP: 6.2" (157.48 mm) diameter.
B501: 400" (101.6 mm) diameter.
B501 BH: Sounder base assembly. includes B501 basE
ORDERING INFORNLATION
Mode! Description
CPX,.751* Low -profile intelligent ionization sensor. Must
be mounted to one of the bases listed below.
SDX4*751 * Low -profile intelligent photoelectronic sensor.
Must be mounted to one of the bases listed be-
low.
:. BASES:
B224RB Relay Base: Screw terminals: up to 14 AWG. B71 OLP Standard U.S. Low -Profile base.
Relay type: Form-C. Rating: 2.0 A @ 30 VDC resistive; B501 Standard European flangeless base.
0.3 A @ 110 VDC inductive; 1.0 A @ 30 VDC inductive. Sounder base, includes B501 base above.
Dimensions: 6.2" (157.48 mm) x 1.2" (30.48 mm).
B524BI Isolator Base: Dimensions: 6.2" (157.48 mm) x B224RB intelligent relay base.
1.2" (30.48 mm). Maximum: 25 devices between isolator B224B1 Intelligent isolator base. Isolates SLC from loop
bases. shorts,
ACCESSORIES:
INSTALLATION S 3 Smoke Detector Guard. For use with SDX.
The CPX-751 and SDX-751 plug-in detectors use a sepa- 751 any
rate base to simplify installation, service, and maintenance. 1710 Retrofit replacement flange for B501 B base.
A special toot allows maintenance personae! to plug in and
remove detectors without using a ladder. RA400Z** Remote LED annunciator. 3 -- 32 VDC. Fits
Mount base on a box which is at least 1.5" deep. Suitable U.S, single -gang electrical box.
mounting base boxes include: MOD40OR Detector sensiiivity test tool. Use with most
analog or digital multimeters. Satisfies require-
• 4-inch square box. meat of NFPA 72 for sensitivity testing.
• • 3-1/2" or 4" octagonal box. S�iK400 Surface mounting kit provides for entry of sur
Single -gang box (except relay or isolator base), face wiring conduit. For use with B5Qy base
SMOKE GUARD only.
Cover: 16 gauge perforated steel (3/16" (4.7625 mm) dia. M)244o0l Test magnet.
perforations on 1/4" (6.35 mm) staggered centers). 51% X Detector removal tool. Allows installation and/
open. SDG-773 is 3" (?6.2 mm) deep by 7" (177.8) wide, or removal of 700 Series detector heads from
base in high ceiling installations.
Frame: 3/4V1 x 3/4" angle 14 gauge solid steel. XQ.� Extension pole for XR-i-2. Comes in three five-
foot�11! guards are supplied with fhe foflowing: sections.
1 j Guards fasten to mounting frame with No. 10/24 x 3/8" *Order suffix "A" for Canadian (Utz) approved devices.
tong Allen -head screws (10124 spanner -head screws and ..Supported by B71OLP and B501 bases only.
tool option at extra cost),.
2} Standard finish: "Cool Tan" baked enamel. REMOTE ANNUNCIATOR
SDG-773 Smoke Guard
314
aT
i
F4
F
i
1
1
J
i
1
i
1
i
1
Ceiling
or Nail
0
MOUNTING. DIAGRAM
(SA .7 0 a W 773)
Page 2 of 2 — DN-4762
hm
CO
to
A
A Pittway Company
GENERAL
The FDXm551 Series intelligent thermal detector is used
W ith the AM2020, AFP1010, AFP-200, and AIM-200 ad-
vanced multiplex systems to measure thermal levels caused
by a fire and report the analog level of the thermal meam
surement to the control panel. The use of analog informa-
tion provides significant benefits to the end user, installer
and serviceman in ways which are not possible with a con-
ventionaltype system. Since this detector is also addres-
sable, it will help firemen to more quickly locate a fire dur-
ing its early stages,
FEATURES
Dual Thermistors.
• Hate-ot-Rise model (FDX-551 R), 1
• Factory preset at 1350 F (5811C)d
5'F (9.4'C) per minute
e Addressable by device,,
e Direct DECADE 01-99 entry of address,
2-Wire loop connection.
Sir
vismie LtUS innK ON every !me the unit is add ria.,S,%S-.3 d:
—Optional with AM2020 software revision 5 or hiaher.
Optional with AFP1 01 GO
OrAl'onal with AF:P-Pnn
a
a 360' field viewing angle of the visual alarm indicators
(Two LEDs)., LEDs illuminate steady during alarm.
e Integral Communications and Built-in Device Type Idenm
fif ication,
• Compact, Stylish Design.
• Remote test feature from the panel.
• Built-in functional test switch activat
net,
• Low standby currentO
* Listed to UL-521 0
• Built-in tamper --resistant feature.
ed by external magm
9 Designed for Direct Surface or Electrical Box Mounting,
* Sealed against back pressure.
FDX=551 Ser* H-110
ies
Intelligent Ther al Detectors
Catalog Section: Intelligent / Addressable Devices
Uo L
S747
OQ4AO-AY
(FDX-551)
OQ4A7.AY
(FDX-551 R)
C I
CS630
FDX-551 A
MEA
460-92-E
104-93-E
290-91 -E
11
US Coast Guard
161 *0 02/2 7/0
161 @0 02/23/0
F
1014 M
Plop,
A
...........
April 12, 1995
California
State Fire
Marshal
7270-028-Do 150
(FDX-551)
7270-028:167
(FDX-551 R)
93/00141
BASES SEPARATELY
LISTED. CONTACT
FACTORY,
_7
:3
e Separate base allows interchange of Photoelectric, Ion-4P
0
ization and Thermal sensors.
* SEMS screws for wiring of the separate base.
* 94-5V plastic flammability rating'.
memote U=U OUtPU connection to optional RA40OZ re�
r
Plugs into separate base for ease of installation and mainm ote LED annunciator-
tenance,
* Optional sounder, relay and isolator bases.
o Optional recessed base mounting kit (RMK400),,
This document is not intended to be used for installation purposes. We try to keep our
product information up to date and accurate. We cannot cover all specific applications or
anticipate all requirements. All specifications are subject to change without notice. For more
information, conlact NOTIFIER, Phone: (203) 484-7161 FAX: (203) 484-7118
NOTIFIE 12 Clintonville Road, Northford, Connecticut 06472
IS0109001
ngineenng an anu acturing
Quality System Certified to
Intcmational Standard ISO-9001
oil
P zt In gm I e-.4 0
f
APPLICATIONS
Use thermal detectors for protection of property.
For further information call Notifier for manual 156-407-
00, Applications Manual for System Smoke Defectors",
which provides detailed information on detector spacing,
placement, zoning, wiring, and special applications,.
CONSTRUCTION
These detectors are constructed of LexanO in an off-white
color,
The FDXm551 Series plug-in intelligent thermal detector
is designed to commercial standards and offers an at-
tractive appearance.
INSTALLATION
The FDX=551 Series plug -gin intelligent thermal detector
uses a separate base to simplify installation, service and
maintenance.
Installation instructions are shipped with each detector,,
A specially designed tool allows maintenance personnel
to plug-in and remove the sensors without using a lad-
der.
Mount base (all base types) on box which is at least 1,,511
deep.. Suitable boxes include:
• 4" square box
• 3-1/211 or 4" octagon box.
• Single gang electrical box (except relay isolator base)
Use a 4" square with B501 BH base.
Use a 3-1/2" or 4" octagon or 4" square box for the
B524RB or B524BI base,,
NOTE: Because of the inherent supervision provided b}�
the SLC loop, end -of -line resistors are not required. Wir-
ing "Ttaps" or branches are permitted for Style 4 (Class
"B"} wiring.
OPERATION
Each FDX-551 Series uses one of 99 possible addresses
on a control panel SLC loop. It responds to regular polls
from the control panes and it reports its type and status,
including the analog level of its heat sensing elements. if
ft receives a test command from the panel {or a local
magnet test}, it stimulates its electronics and reports an
alarm analog level. It blinks its LEDs when polled and
turns the LEDs on when commanded by the pane[ (de-,
tector blink is optional on the AM2020, AFP1 01 and
AFP-200). The FDXw551 Series offers features and per-
formance that represent the latest in thermal detector
technology,.
Page 2 of
SPECIFICATIONS
Operating Temperature ... 320-120OF
Operating Voltage/
Cur -rent Range ................. 15-28 V (Peak DC), 5 mA current
for visible LEDs latched on.
De ec or Standby Current: 150 pA maximum.
B524RB or B524 BI: 000 < 700 uA @ 24 VDC (includes
detector)
Sensor ............................. Electronic, Dual Thermistors,
Fixed temperature alarm .
570
G, (1350
Fa
Rate of Rise Option...,....#15'F
(
minute.
Relative Humidity.............
10% 93%@
Weight
6 oz, (170
gm.)
BX-501 Base Dia,6.2
inches
(15,8
cm),
B501 Base Dia. •a as* 6a0 #900440.
.
inches
(10.3
cm),
■
rsoz4rses neiay rase:....... Screw terminals: Up to 14 AWG
Relay type: Form-C
Rating: 2 A @ 30 VDC resistive
B524BI Isolator base:..... Dimen
.3 A @ 110 VDC inductive
1.0 A @ 30 VDC inductive
sions: 6,2 in. (157 mm x 1.4
in. (36 mm).
Maximum: 25 devices between
isolator bases.
PRODUCT LINE INFORMATION
Model
FDX- 1
FDX- R
FDX-551A
FDX-551 RA
Description
intelligent Thermal Sensor
In elligentThermal Sensor., with Rate -*of -Rise
feature.
Intelligent Thermal Sensor. ULC Version
Intelligent Thermal Sensorwith Rate of Rise.
ULC Version
Bases border separately)
E3X-501 Standard U.S, Base.
B501 Base, flangeless (European style).
B501 BH Flangeless base (B501) with 24 VDC, 85
dBA internal horn.
B524RB Relay base.
B524BI Isolator base. Isolates SLC Loop against
Loop short.
Other Accessories
XR5 Removal Tool.
MCP-4 Extension Pole for Removal Took.
RMK400 Recessed mounting kit for 500 series detec-
tors (requires B501 base).
SMK400 SurfacQ �1oun�ing Kit for 500 series detec-
tors. Provides for entry of surface wiring
conduit. A B501 base is required.
RA400Z* Remote LED. Mounts to single gang box-,
Supported by SX-501 and B501 bases only.
Architectural / Engineering Specifications
Specifications 'are available from Notifier for the AM2020,
AFP1 010, AFR*200, or System 5000 AIM-200 module on an
IBM compatible 3.5" disk in Wordperfect* 5.1 and ASCII for-
mats.
0
LO
rw
GENERAL
The SDXu551 and SDXn551TH Analog Photoelectric Detec-
tors are used with the NOTIFIER AM2020, AFP1010, AFP-
400, AFP-300, AFP-200, and System 5000 (when equipped
with AIM-200 module) Advanced Multiplex Systems to mea-
sure the analog level of smoke and report this analog level to
the control panel. The use of analog data provides signifi-
cant benefits to the end user, installer, and service personnel
in ways not possible with a conventional -type system. Since
this detector is also addressable, it will help firefighters to more
quickly locate a fire during its early sages. The SDX-551TH
offers the same features as the SDX-551 with the addition of
a 135°F (57*C) internal thermal element.
FEATURES
• Unique optical sensing chamber.
• optional integral 135°F (57°C) fixed -temperature element.
• Superior signal-to-noise ratio (2.0).
• Stable photoelectric operation.
• 1.6% nominal sensitivity for panel alarm threshold level.
• Fully coated circuit boards and superior RF/transient pro-
tection.
• Addressable by device.
• Rotary DECADE 01-99 address switches.
• Two -wire loop connection.
• Visible LEDs "blink" every time the unit is addressed, and
illuminate steadily on alarm (this feature may be deselected
on the AM2020, AFP1010, AFP-400, AFP-300, and AFP-
200)6
360*-field viewing angle of visual alarm indicators (2 LEDs).
• Integral communications, built-in device type identification.
• Compact. stylish design.
• Remote test feature from the panel.
• Built-in functional test switch activated by external magnet.
• Low standby current.
• Listed to UL-268.
0 Built-in tamper -resistant feature.
• Designed for direct -surface or electrical -box mounting.
• Sealed against back pressure.
• Optional sounder, relay or isolator bases.
• Plugs into separate base for ease of installation and main-
tenance.
0 Separate base allows interchange of photoelectric, ioniza-
tion and thermal elements.
94-VO plastic flammability rating.
• Removable cover and insect screen for field cleaning.
• Remote LED annunciator output connection.
June 18, 1998
H-1 05
SDXm551 and SDX=551TH
Intelligent Photoelectric Detectors
Section.
U L
S1115
93/00141
(SDX-551)
Intel ligent/Addressable Devices
UDC
CS308
CS1 18/CS733
(SDX-551A)
California
..; State Fire
:. Marshal
7272-0028-6148
US Coast Guard
161 *002/27/1
161,e002/23/1 (SDX-551)
BASES FISTED SEPARATELY.
CONTACT FACTORY.
This document is not intended to be used for installation purposes. We try to keep p our
product information up-to-date and accurate. We cannot corer all specific applications or
anticipate all requirements. All specifications are subject to charge without notice* For
more information, contact NOTIFIER. Phone: 8) 484-7161 FAX: 08) 484-711
(ONOTIFIEFI& 12 Clintonville Road, Northfard, Connecticut 06472
Screen
Detectc
base
(order
separa fE
ISOM9001
Engineering and Manufacturing
Quality System Certified to
International Standard 1S0-9001
F M
OQ4AO,AY
MEA
460-92-E
290-91 -E
BSA
1-SA
-551)
Made in the U.S.A.
DN-1 - Page 1 of 2
t
APPLICATIONS
Photoelectric defectors are often faster than ionization de-
tectors in sensing smoke from show, smoldering fires. Ion-
ization detectors are often beater than photoelectric detec-
tors at sensing fast, Taming fires.
CONSTRUCTION
These detectors are constructed of LEXANO in an off -while
color. The SDX-551 plug-in series of smoke detectors is
designed to commercial standards and offers an attractive
appearance.
LEXAN@ is a registered trademark of GE Plastics, a subsidiary of
General Electric Company,
INSTALLATION
The SDX Series Plug -In Detectors use a separate base to
simplify installation, service and maintenance. A specially
designed too! allows maintenance personnel to plug-in and
remove the sensors without using a ladder,
Mount base {all base types} on a box which is at Least 1.5
inches deep. Suitable boxes include:
COMMON SPECIFICATIONS
• Operating voltage: 15 — 28 V (peak DC).
• Current range: 6.5 mA current for visible LEDs latched
"O N".
• Detector standby current: 230 pA maximum (no com-
munication); 330 pA maximum (with LED blink).
• Standby current for B524RB or B524131: < 700 pA
24 VDC (includes detector).
• Sensitivity: 1.6% nominal.
• Sensor: Photoelectric (light -scattering principle).
• Ambient temperature: SDX-551: 0°C to 49°C (32°F
to 120'OF). SDX-551TH,.9 0°C to 38°C (32°F to 100'OF),
• Relative humidity: 10% to 93%.
• Air velocity: 3,000 feet/minute maximum.
• Weight: 6 oz. (170 gm.).
• BXa501 Base diameter: 6.2" (15.8 cm).
• B524RB Relav Base:
Screw terminals: Up to
Relay type.* Form-C.
14 AWG (2.0 mm=).
• 4" (101.6 mm) square box with, or without, plaster ring. Contact rating: Z-0 A @ 30 VDC resistive.0.3 A @ 120 VDC inductive.
• 3-1/2" (88.9 mm) or 4" (101.6 mm) octagonal box. 1.0 A @ 30 VDC inductive.
• Single -gang box. Dimensions: 6.2" (157 mm) x 1.4" (36 mm).
• For the B524RB or85248! base: use a 3-1/2" (88.9 mm) E3524BI: Dimensions: 6.2" (157 mm) x 1.4" (36 mm).
or 4" (101.6 mm) octagonal box; or 4" (101.6 mm) square Maximum: 25 devices between isolator bases.
box.
is When using the SDX with the B501BH sounder base:
use a 4" square box (1.5" [38.1 mm] deep).
NO : Because of the inherent supervision provided by
the SLC loop, end -of -line resistors are not required. Wir-
SDXm551TH SPECIFICATIONS
Includes 135°F (57°C) fixed -temperature thermal element.
mg "I -taps" or branches are permitted for Style 4 (Class PRODUCT LINE INFORMATION
"B") circuits. Mode! Description
OPERATION
Each SDX-551/SDX-551TH uses one of 99 possible ad-
dresses on a SLC loop. It responds to regular polls from
the control pane[ and reports its type and status, including
the analog level of its smoke -sensing chamber. If it re-
ceives a TEST command from the pane! {or a local magnet
test}, it stimulates its chamber electronics and reports an
alarm analog bevel. It blinks its LEDs when polled, and
turns the LEDs on when commanded by the panel.
The SDX detector uses the ffght-scattering principle, rep-
resenting the latest in smoke -sensing technology.
ARCH ITECTU RAL/ENGI NEERI NG
SPECIFICATIONS
For specifications request a copy of the Arch itect/En gineer
Specification Disk, available from NOTIFIER Literature Ser-
vices, on !BM format 3.5" 1.44 Mbyte magnetic disk. This
disk includes files in both ASCII and WordPerfect@ 5.1
formats.
WordPerfect@ 'i's s registered trademark of the WordPerfect
Cor o rati ,
SIDX=551* Intelligent Photoelectric Sensor
(base ordered separately).
SDX.*551TH* Intelligent Photoelectric Sensor with
built-in 135°F (57°C) fixed -temperature
Thermal element (base ordered
separately). .1
* Order suffix "A" for Canadian (ULC) approved devices.
Bases...
BX=501 Standard U.S. 6.2" diameter mounting base,
8�0� European style 4" diameter mounting base
(without flange),
B501 BH Sounder base assembly (includes B501
base).
8524RB Intelligent relay base,,
B52481 Intelligent isolator base.
Optional Accessories...
RA400Z** 'Rem LED. Mounts to a single -gang box.
XR5 Removal Tool.
XP4 Extension Pole for Removal Tool.
** Supported by BX-501 and B501 bases only.
Page 2 oft — Did-1 884
i
GENERAL
The DHX-502 Series Duct Housing is designed to sample
air currents passing through a duct and allows the early
detection of developing fire. The DHX-502 Duct Housing
will accommodate either the CPX-551 intelligent Ionization
Sensor or the SDX-551 Intelligent Photoelectric Sensor,
either of which provides continuous analog monitoring of
the unit's sensitivity. When sufficient smoke is sensed, an
alarm signal is initiated at the AM2020 control panel,
AFP1010 control panel, AFP-200 control panel or AIM-200
module (supports the SDX-551 detector head only) moni-
toring the detector, and appropriate action can be taken to
shut off fans and blowers, change over air handling sys-
tems, etc. This can prevent the rapid distribution or isola-
tion of toxic smoke and fire gases throughout the areas
served by the duct system.
The DHX-502 duct detector system features the superior
capabilities of an intelligent sensor in a unit that is easy to
install and maintain. making This duct detector the new in-
dustry standard.
FEATURES
• Accommodates intelligent ionization or photoelectric
heads.
Continuous sensitivity monitoring and alarm verification
from the panel.
a Simple change -out of detector heads: twist -in, twist -out,
Easy and quick mounting to found or rectangular ducts.
• Outputs for remote test station (separate 24 VDC is re-
quired}.
• Air velocity rating from 500 to 4,000 feet per minute.
• UL 268A listed.
2 Clear polycarbonate cover for convenient visual inspec-
#ion of sampling tube fifers.
0 Rugged Noryi(D housing (mounting portion).
Three-year limited warranty.
,, Optional remote LED (RA40OZ).
CONSTRUCTION AND INSTALLATION
The twist -in, twist -out detector and base allow the removal
of detectors easily and quickly for cleaning and main#e-
nance. In addition, detector heads can be changed to fit
the application without removing the du%^.,t housing. The
DHX-502 comes with abuilt-in exhaust tube. Sampling
tubes are available to fit ducts from 'i to 10 feet wide.
June 111 1997
DHX=502
H-121
Intelligent Duct Defector Housing
Section: Intel lient d dressa ble Devices
U L) (ULQ) M EA
427-9'I-E
S1115 CS308
ML154
(DHX-502A)
F M
OT3A9.AY
California
State Fire
Marshal
3240-0028:158
The DHXo502 Intelligent Detector Duct Housing
SPECIFICATIONS
Dimensions: 14-1/2" (36..8 cm) wide, 511(12,7 cm) high,
3-1/2" (8.9 cm) deep.
Weight: 2 lbs., 8 oz. (1.1 kg).
Operating temperature range: 0°C to 49°C (32°F to
120*F)o
operating humidity range: 10% - 93% relative humidity.
Air duck velocity: 500 to 4,000 feet per minute.
UL listed to 268A*
ELECTRICAL RATINGS
Voltage range: 14.5 to 28.0 VDC peak
Standby current (nominal): 150 pA at 24 VDC.
Power -up surge at max. rated voltage: 1.5 mA-sec.
LED current (nominal): 6 mA at 24 VDC.
This document is not intended to be used for installation live �
purposes. rr ep air
Product informationup-to-date and accurate. We cannot cover all specific applications or
anticipate all requirements. All speciflcations are subject to charge without notice. For
more information, contact NOTIFIER.. Phone: o # 1 1 FAK (203) - 11
(a N OTI FW 12 Clintonvilie Road., Card, Connecticut 06472
ISOM9001
Engineering and Manufacturing
Quality System Certified to
(ntemational Standard ISO-8001
0 0 w e• e
#7r
i # f #
��0 VP
D-o — Page 1 of 2
k
1
1��
INLET TUBE SELECTION
Outside Duct Width Inlet Tube Required*
Up to 2 feet ST-1 *5
2 to 4 feet S T-3
4 to 8 feet S T-5
8 to 10 feet ST-1 0
*NaTE: Inlet tube is required and must be purchased sepa-
rafely. Order one inlet tube for each duct detector housing
you order.
u
1,
u
RA40OZ
Remote Annunciator LSD
LINE INFORMATION
Model Description
DHX.oS02** Intelligent Duct Housing. NOTE: Intelligent
Duct Housing is priced without Inlet Tube or
PK Sensor Head. Order one Inlet Tube and one
Sensor Head for use with each Intelligent Duct
Housing.
CPX-551** Intelligent Ionization Sensor Head. NOTF:
The CPX-551 is for use with the AM2020.,
AFP1010, and AFP200 only. This sensor
head, when installed in a DHX-50 1, is not sup-
ported by the AIM-200.
S D X,-5 51
igenotoe ectronic Sensor
Head.
STA,5
S =
S M
ST=1 0
Metal
etal
etal
Metal
Sampling
Sampling
Sampling
Sampling
Tube,
Tube,
Tube,
Tube,
duct
duct
duct
duct
widths
widths
widths
widths
V -
2'-
4'o,
8' -
2'.
4'.
8'.
lot*
RA40OZ Remote LED,,
F36=05,.00 Replacement Filters.
M02.,04 Test Magnet.
P48m2l,wOO End Cap for Sampling Tube.
A2650,.00 Installation Kit (parts bag).
RS24 Photoelectronic Replacement Screen.
RS14 Ionization Replacement Screen.
MOD40OR Sensitivity Test Kit.
CRT400 Ionization Cover Removal Tool.
156473mOO Applications Manual. Duct Detectors.
RTS451 Remote Test Station.
'*Order "A"suffix for Canadian (ULC) listed versions.
Page 2 of 2 - DN-3530
&J4
RLTU
K1h5
fithin
ADA
5 lb.
pull
force
wher
iodels
manufactured
10.
after
ider
station
spring).
ighly
visible.
asily
operated
(dual
-action).
Iractive
shape
and
textured
fir
:1mi-flush,
. A
mounts
to a
standard
um
depth),
double
-gang,
or
4"
perates
with
or
without
a
crus�
andle
latches
in
down
positic
ation
has
been
operated.
nL%r
re%r-A-Lf
ouit�vv
it:mimai.5
ior
easy
connecuor
Optional
trim
ring.
Meets
UL
38,
Standard
for
ManuE
Boxes.
ONSTRUCTION
Shell,
door,
and
handle
are
molded
Polycarbonate
eauivalent)
with
s
ts
0 16 gauge steel back plate.
OPERATION
Pulling the handle down causes i
tion. The handle is restored mar
cal key which allows the top of th
the spring -loaded handle to reft
The case can then be pivoted b
and secured with the key.
Each manual station, on comma
-3ends data to the panel represent
-Switch. Two rotary denimni _qwifr+
Qlar.
0
a
a
L
LU
iiawn
ii
ually
by
u
a
case
to
p
M
to its
a
C k
to
i fiq
0
0
a
qW
0
8
a
M
&W
=11111W
W
'46
VVI I PC
iecha
/ard a
positi(
nmiti
,0,.
controi
p
Bi
of
the
ma
ro-diait
add
0i
a
1b
I YA
E3
oil
I
IS 1 XX 1:1
MR. -
A.,
$
NO
-vvz� iY1
W
_"M
4
R_. z
N,
M4
�VH
mi
IHII;, pf'.'.4
4.z
Al.
:z
n
a
7 7
t
n
ct
...... . . . . . . .
Zz�,�
V
10
....................
M.
ii k
) �gx
.. . . ............
-------- - -
1h
I q
q " I ,
011
AU
A.
25
A f g-V@ if jFZ-
M
ine BuxmiG
Mkin "niinfir
URI=
LIML INIFOIR
_q r rin in in
ks
E3GXo101L Standard unii
without, a fib
locking featui
BGmTR Optional trim i
5/32" Deep.
SRW1 n Ri irfnriiiii hnr%te
ta KU L
gel ffp- I
Ko
a
0=4
71814F
i
0
a1z
4- 14
IL
elz
IN
.140
01a
L)N-3189
Re
ribIALLATIOIN
to BGX-1011- will m,
tLIA;TKICcAL 5FE491FICATIC
formal operating voltage: 24 VDC.
Maximum SLC loop voltage: 28.0 VDC
Oaximum SLC loop current: 230 NA.
1kQCW1rVcT11on1 i
0
V
a
YJ
ustdnce oi one nunare❑ reei, Front or s ae.
Manua! stations shall connect with two wires to one of the
:ontrol panel SLC loops. The manual station shall, on
:ommand from the control panel, send data to the panel
epresenting the state of the manual switch. Manual sta-
ions shall provide two -digit address setting by use of ro-
ary decimal switches.
Aanual stations shah be constructed of LEXANO (or poly-
%arbonate equivalent) with clearly risible operating instruc-
ions provided on the cover. The word FARE shail appear
yn the front of the stations in raised letters, 1.75 inches or
arger. Stations shall be suitable for surface mounting on
natching backbox, or semi -flush mounting on a standard
;ingle-gang, double -gang box, or 4 inch square box. and
shall be installed within the limits defined by the Ameris
,.tans with Disabilities Act (ADA) dependent on manual
station accessibility or per local requirements. Manual
stations shall be Underwriters Laboratories Inc_ fisted -
PUSH
£s'
IMMSS;s>? �N
ors#:}tip �r �.....' �:'.<...�k�<�..>a„�..f..., .�r..tEJ{i:,�.: �:,...... .. •, .�}.. vow iF
;WjrW rra
TO P
0
upuuna
surface
backho
;M _�Ane 1PAOSVP
f
i
GENERAL
The NOTIFIER MMX-1 Monitor Module is used with the
AM2020, AFP1 0101 AFP-400, AFP-300, AFP-200 or Sys-
tem 5000 (equipped w1th an AIM-200 module) to monitor a
single Initiating Device Circuit (IDC) of normally -open conwo
tact devices.
FEATURES
49 Built-in type identification automatically identifies this de-
vice as an MMX-1 to the control panel.
0 Powered directly by 2-wire AM2020, AFP1 010, or AIM-
200 SLC loop. No additional power required.
41 High noise (EMF/RFI) immunity.
a SEMS screws with clamping plates for ease of wiring,
a Direct dial entry of DECADE address (01-99).
0 Built-in magnetic alarm test switch.,
a LED flashes during normal operation (this is optional on
the AM2020, AFP1010, AFP-400, AFP-300, and AFP-
200)8
is LED latches steadY to indicate alar on command from
control panel.
APPLICATIONS
Use to monitor a zone of 4-wire smoke detectors, manual
fire alarm pull stations, waterflow devices, or other normally
open dry -contact alarm activation devices. May also be
used to monitor normally open supervisory devices with
a 1W
special supervisory indication at the control panel,, Moni-
tored circuit may be wired as an NFPA Style B (Class 13) or
Style D (Class D) Initiating Device Circuit. A 47 K ohm
End -of -Line Resistor (provided) terminates the Style B cir-
cuit. No resistor is required for supervision of the Style D
circuit. Maximum IDC loop length is 2,500 feet (20 ohms
maximum),
CONSTRUCTION
Controls include two rotary switches for direct dial entry of
DECADE address (01-99). A label is provided to mark the
loop number, address, and device type,
OPERATION
Each MMX-1 uses one of 99 available module addresses
on an SLC loop. It responds to regular polls from the con-
trol panel and reports its type and the status (open/normal/
short) of its Initiating Device Circuit (IDC). A flashing LED
indicates that the module is in communication with the con-&
trol panel. The LED latches steady on alarm (subject to
current limitations on the loop),,
August 27, 1997
MA&X=1
H-140
Monitor Module
Section: Intelligent/Addressable Devices
U U C.
a L) ( Lt
n *1 C
001 6
CS669 (MMX-1A)
BSA
578-81 -SA
(AM2020,
A
OV2A3,,AY
0Q1A8,AY
93/00140
(AM20201
AFP1010)
MEA
290-91-E, Vol. 5 (S-5000)
104-93-E (AFP-200)
17-96-E (AFP-400)
California State Fire Marshal
7165-0028:141 (AM20201AFP1010)
7165-0028-.144 (System 5000)
7170-0028:153 (AM20201AFP1010 High Rise)
7170-0028:154 (System 5000 High Rise)
7165-0028:181 (AFP-400)
7165-0028-0164 (AFP-200)
:7
k
1 7'
<
:r -
17
CAUTION
E-ENERGIZE -UNIT PRIOR TO SER%nC;l NG
1 K .7
The Face P-11cate
Wj
LOOP ADDRESS
[][DOmowmst (:t)
13 snNiLL
ORELAV CAUTM: MENEM=
UWT PRJOA TO SERVCNO
0
or- 4 S loO00'714- 5
X,
6
2 7 2 7
+ 9 0 9 8
j 67 67
8 8
0 9 0 9
0
F, 1 0
Thl*s document is not intended to be used for installation purposes. We try to keep ur
product information up-to-date and accurate. We cannot cover all specific applicationsc)cr
anticipate all requirements. All specifications are subject to change without notice. For
more information, contact NOTIFIER, Phone: (203) 484-7161 FAX- (203) 484-.7118
(I J) 04 OTI F1 ERO 12 Clintonville Road,, Northfordl, Connecticut 06472
The MMX- I
ISOM9001
Engineedng and Manufactudng
Quality System Certified to
Internabonal Standard ISO-9001
Made in the U.S.,jk
DN-2306 - Page 1 of 2
INSTALLATION
V4.
I
The MMX-1 mounts to a standard 4" square, 2-1/8" deep,
junction box. In addition, the MMX-1 may be mounted to
the SMB-500 surface mount box. Mounting hardware and
installation instructions are provided with each module.
SLC Loop (-*)
SLC Loop (+)
MMX-1 Monitor Module
F&7"
rMl
Field Wiring Connections
Style D (-)
Style D (+-)
Style B (i-)
S tyle B (-)
SPECIFICATIONS
Operating voltage: 15 - 28 VDC (peak),
Standby current: 200 pA maximum plus supervisory
current.
Temperature range: OOC to +49'OC (+32'OF to +120'OF).
Humidity range: 10% to 95%, relative.,
Weight: 150 grams (5 ounces),,
rel
01
N�:Id
'410
Mounting the MMX-1 to a
4 rr square, 2-118 " deep
junction box
*6
PRODUCT LINE INFORMATION
Model Description
fVJMX@*1 Monitor Module.
?V,MX=IA Monitor Module, ULC listed,
ARCH ITECTURAL/ENGINEERING
SPECIFICATIONS
Contact NOTIFIER,
Page 2 of 2 — DN-2306
Alf
A Pittway Company
GENERAL
The NOTIFIER CMX-2 Control Module is used with the
AM2020, AFP 10 10, AFP-400, AFP-300, AFP-200, and Sys-
tem 5000 (equipped with an AIM-200 Module) to provide a
single Notification Appliance Circuit (NAC) or Form-C re-
lay.
FEATURES
Built-in type identification automatically identifies this de-M
vice as a CMX-2 to the control panel,
• Internal circuitry and relay powered directly by two -wire
SLC loop. NAC configuration uses second loop for No-P
tification appliance power.
• Integral LED "blinks" each time a communication is re-
qP
ceived from the control panel. (This optional feature is
available on the AFP1010/AM2020/AFP-200 equipped
with Revision 5 or higher software.)
• LED blink may be deselected globally (affects all devices)
on the AFP1 0 10 and AM2020 equipped with Revision 5
or higher software. Standard on the AFP-400 and AFP,,
3006
• High noise immunity (EMF/RFI),
• May be used to switch 24 volt NAC power, Audio (up to
70.7VRMS) or telephone,,
• Wide viewing angle of LED.
9 SEMS
screws with
clamping
plates for wiring ease.
a Direct
dial entry of
DECADE
address (01-99).,
0 Built,,in magnetic test switch.,
o Speaker, audiblelvisual, and telephone applications may
use wire Style Y or Z*
APPLICATIONS
The CMX-21s used to switch 24 VDC audible/visual p6wer,
high level audio (speakers), or telephone devices. It may
be programmed to operate dry contacts for door holders,
Air Handling Unit shutdown, etc., and to reset four -wire
smoke detector power,,
CONSTRUCTION
• The face plate is made of LEXANO in off-white,,
• Controls include two rotary switches for direct dial entry
of DECADE address (01-999).
• As shipped, configured for a single Style Y (Class B) or
Style Z (Class A) NotificaUon Appliance Circuit.
May be modified in the field to provide a single Form-C
(SPDT) dry contact.
LEXANO is a registered trademark of GE Plastics, a subsidiary of
General Electric Company.
August 27, 1997
CAAX=
Control Module
Section.: Intelligent/Address able Devices
U La
S635 MLI 60
CS669 (CMX-2A)
All
427-91 s-E
iiiiiiiiiiiiiiijilillIIIIIIIIIIIII
H-146
California
State Fire
Marshal
7300-0028:166
F M
OXOA3.AY
93/00140
(AM2020i
AFP1010)
0
LOOP AD E24
0 uowm
MkAL
RILAT I
0
1
12
3)
A
CAUTION:
DE-ENERGLZE UNIT
PRIOR TO SEWCING
( )1 10 (9
The CMXw2
r 'v.:
-Ae.'o-
zr lu
Y..;y '5. .
...........
t'
t
�5-
jr, 'd
NOTIFIR
A MOOV
d
�P.
This document is not intended to be used for installation purpose s. We try to keep our
product information up-ta-date and accurate. We cannot cover all specific applications or
anticipate all requirements, All specifications are subject to change without nouce. For
more informaGon, contact NOTIFIER. Phone: (203) 484-7161 FAX: (203) 484-7118
NOTIFIE 12 Clintonville Road, Northford, Connecticut 06472
A ON
OE;ENERGIZEUNIT!��OFV SERVICING
The Face Plate
ISC109001
Englneedng and Manufactudng
Quality System Certiried to
IntemaEonal Standard ISO-9001
Made In the U.S.A4
DN-4551 — Page 1 of 2
R
f
ON`
4
0
W
Ii sL���1t\�li�j
OPERATION
Each CMX-2 uses one of 99 possible module addresses
on a SLC loop. It responds to regular polls from the ad-
dresses on a control panel and reports its type and status,
including the openlnormallshort status of its Notification
Appliance Circuit (NAC), The LED blinks with each poll
received. On command, the CMXw2 activates its internal
relay. The CMX-2 supervises Style "Y" (Class B), or Style
"Z" (Class A), Notification or control circuits.
upon code command from the panel, the CMX-2 will dis-
connect the supervision and connect the external power
supply in the proper polarity across the load device. The
disconnection of the supervision provides a positive indi-
cation to the panel that the control relay actuary turned
ON. The external power supply is always relay isolated
from the communication loop so that a trouble condition on
the external power supply will never interfere with the rest
of the system.
Relay control with Form C contacts is obtained by break-
ing off J1/J2 tab.
Rotary switches set a unique address for each module.
The address may be set before or after mounUng. The
built-in TYPE CODE (not settabfe) will identify the module
to the control panel, so as to differentiate between a mod-
u1e and a sensor address.
A built-in magnetic
test
switch
is provided to simulate a
short
circuit on the
NAC
to test
the
CMXm-2.
SPECIFICATIONS
Operating voltage: 15-w28 VDC {peak}.
Current range: 5 mA for LED latched in alarm.
Standby currenf: 30NA maximum plus supervision.
Pulsing current: 30 mA for 15 mS.
Supervision current:
0 pA OPEN.
100 pA NORMAL.
200 pA SHORT.
Contact rating: 2.0 Amp @ 30 VDC (resistive).
1.0
Amp
8
30 VDC (inductive, 0.6 PF).
0.3
Amp
@
110 VAC.
0.6 Amp @ 30 VDC (pilot duty, 0.35 PF).
Temperature range: 0°C to +49°C (+32°F to +120°F).
Humidity range: 10% to 95% relafive,
Weight: 150 grams (5 oz.).
RELAY CONTACT RATINGS
Resistive:
inductive:
Pilot Duty:
2 Amp @ 30 VDC.
1 Amp @ 30 VDC (0.6 PF).
0.6 Amp @ 30 VDC (0.35 PF).
0.3 Amp @ 110 VDC (0.35 PF).,
0.3 Amp @ 120 VAC (0.35 PF).
PRODUCT LIME INFORMATION
CMXa2* Analog, Intelligent Control Module.
A2143w20 Capacitor. Required for style Z operation of
speakers (check with factory for listing status).
SMB500 Optional Surface Mount Backbox,
C13 500 Control Module Barrier — required by UL for
separating power -limited and non -power lim-
ited wiring in the same junction box as CMXm2.
*NOTE: Order suffix "A" for Canadian (ULC) approved
devices.
3reak off Tabs J1 and J2
o convey from a supervised
ndica#ing circuit to Fo -C
fry contact option.
Page 2 of 2 - 1
I
K-90
Ab
GENERAL
A Pittway Company
The FireeLite 91 1AC Fire Control/Communicator is a three -
zone Digital Alarm Communicator Transmitter (DACT).
The 911AC can be used in limited stand-alone applica-
4�
tions or in slave applications for off -premises monitoring
of an existing Fire Alarm Control Panel (FACP).
FEATURES
a Three -zone Digital Alarm Communicator Transmitter.
0 UL listed for NFPA 72 applications as a control unit or
control unit subassembly for digital fire signaling sys-
tems.
Can be used as a stand-alone communica-
tor for sprinkler systems or as a slave com-
municator for existing fire systems.
UL listed as power -limited,
* Optional Telephone Trouble Relay for con-
nection to an external annunciation device.
a Optional Alarm Relay for annunciation of Zone
1 Alarm Initiating Circuit.
a Dual telephone lines for Central Station re-
porting,
* Prim'ary and alternate telephone numbers,,
0 Built-in telephone trouble LED and buzzer.
0 Compact size and easy to install,
Communicates using
single -round fast format
acknowledgment tone),,
BFSK or pulsed
(accepts 2,300 Hz
ja Automatic test reports every 24 hours.
CONSTRUCTION
& OPERATION
Zone I is a four -wire class "A" Alarm Initiating Circuit. In a
stand alone application, this zone can be used to monitor
up to five waterflow alarm switches, or up to 100 mechani-s
cally operated devices such as heat detectors and manual
pull stations. In a slave application, this zone can be used
to monitor an alarm output on an existing panel,
Zones 2 and 3 are class ""B" Supervisory Circuits. They
can be used to monitor up to 20 sprinkler supervision
devices in a stand-alone application, or it can be used to
monitor a trouble output on an existing panel.
The 911AC is UL-11sted for NFPA 72 Central Station Fire
Signaling Systems, and NFPA 72 Remote Station Signal-w
ing Systems,
91 1AC
F 0
ire Control/Co unicator
Sectiow, Miscellaneous
u
LC
S635 CS572
MEA
12-92-E
Opflional Relays
June 2.,1997
California
State Fire
46 Marshal
7165-0075:152
FM
OV3A4AY
NOTI t4 FIRE D5050
Two separate relay sockets are provided so that opflonal
relays can beinstalled. These relays provide outputs for
Telephone Trouble, and Alarm Initiating Circuit annuncia-
tion devices.
Phone Line Connections
Two mod u lar phone connectors on the 911 AC provide com-
nections to two separate telephone lines using RJ31X or
RJ38X jacks. Both telephone lines are supervised. If one
of the phone lines is operational and the other is in trouble,
a report is sent to the central station.
This document is not intended to be used for installation purposes. We try to keep our
product information up-toAate and accurate. We cannot cover all specific appl-cations or
anticipate all requirements. All specifications are subject to change without nofice. For
more information, contact NOTIFIER. Phone. (203) 484-7161 FAX: (203) 484-P7118
aPA 0TI F1 E2 M'* 12 Clintonville Road, Northford, Connecficut 06472
ISOM9001
Engineering and Manufacturing
Quality System Certified to
International Standard ISO-9001
we
DN-4607 — Page 1 of 2
0
Phone Trouble LED
11A
A yellow LED provides a visual indication of trouble condi-
tions on either of the telephone dines. The LED can be
viewed through the hole in the corer.
phone Trouble Buzzer
A buzzer provides an audible indication of telephone Line
trouble. The buzzer and the LED both follow the phone
line trouble. The buzzer can only be silenced by correcting
the telephone line trouble.
SPECIFICATIONS
Listings and Approvals:
• NFPA 72: Central Station Signaling Service.
• NFPA 72: Remote Station Signaling Service.
• UL Standard 1635: Digital Alarm Communicators.
• UL Standard 864: Control Unit Fire Signaling Systems.
FCC Registration: AJ9USA-61104-AL-E.
Ringer Equivalence: 0.0 B (AC), 1.3 B (DC).
Programming: A digital programming unit with a keypad
is available for programming the communicator.
Power input: 12 VAC, 20 VA with 12 VDC battery, or 24
VDC from existing control panel.
Minimum Panel Operation Voltage: 9.1 VDC.
Operating Current:
Idle: 29.5 mA (12 VAC Mode).
30.0 mA (24 VDC Mode).
Max.: 157.6 mA (12 VAC Mode).
166.8 mA (24 VDC Mode).
Batteries; {Use only when configured in the 12 VAC Made.}
Do not use diodes in cable.
12 V, 7.0 A.H. — required for NFPA 72 stand-alone appli-
cations.
• 12 V, 4.2 A.H. (NFPA 72 applications only).
Response Time: Zone
on Retard/ Reset time.
seconds.
1: 0.2 to 94 seconds, depending
Zones 2 & 3.N approximately 2 - 4
Phone Voltage and Current:
Minimum: 10 VDC, 10 mA.
Normal.- 48 - 52 VDC.
Operating Temperature: 32°F to '[20°F (O'C to 48.80C).
Wire Specifications: Refer to Article 760 of NEC, NFPA
70 for wire specifications.
PRODUCT LINE INFORMATION
Nodel 911AC
includes 911A dual -line communicator, stand -atone en-
closure, transformer, and phone cords.
D136 Alarmffrouble Relays
D5050 Programmer
Allows 911AC programming.
PSml 270
Battery, gel -type, 12 V, 7.0 A.H.
PS,wl 242
Battery, gel -type, 12 V, 4.2 AAW
0
Page 2 of 2 — DID-"
r
GENERAL
The LCD-80TM (Terminal Mode) is an 80-character, back -
!it LCD display annunciator for the NOTIFIER AM2020,
AFP1010, AFP-400, and AFP-200 Fire Control Panels. Up
to 32 LCD-80TMs may be connected onto the two -wire EIA-
485 Terminal Mode port of each control panel. Each an-
nunciator will mimic the fire control panel's display. The
LCD-80TM requires no programming, which helps at sys-
tem start-up time.
FEATURES
• 80-character Liquid Crystal Display (20 characters x 4
lines), backlit.
• Control switches for System Acknowledge, Signal Si -
fence and System Reset.
• Time and date display field.
• Enable/Disable key switch & phone jack options.
• Can be remotely located up to 6,000 feet from the control
panel.
• Local piezo sounder with alarm/trouble resound.
• Flush/Surface/Panel mount option.
e. Decorative cover plate option.
TERMINAL MODE
(AM2020, AFP 1 0 1 .01 AFP1n400,
AFP=200r & INA welth CCMm I only)
The LCD-80TM mimics the AM2020, AFP1010, AFP-400
and AFP-200 displays. Up to 32 LCD--80TMs can annun-
ciate and provide remote reset, acknowledge, and silence
of the control panel from remote locations, The AFP1 010
and AM2020 display interfaces include' a terming[ mode
driver port for the LCD-80TMs. A terminal mode port is
standard on the AFP-400 and AFP-200 main PC boards.
• Displays device type identifiers,
• Device and zone custom alpha labels,,
• Time/date and device address,
• May operate in addition to CRT.
• NO PROGRAMMING NECESSARY. The LCD-80TM dis-
plays time, date, and custom messages received from
an AM2020, AFP1010, AFP-400 or AFP-200 system.
December 23,1996
LCDww80TM
Liquid Crystal Display
Section: Annunciator Control systems
xTr
* x
Ah
•f`
(D DL
Ave
S635 CS100
This document is not intended to be used for installation purposes. We try to keep our
product information up-to-date and accurate. We cannot cover all specific applications or
anticipate all requirements. All
specifications aresubject to change without
notice. For
more info rf ation., contact N OTI FIER, Phone: o 4# 1 1 FAX: 20 -11
6NOTIFIEW 12 Clintonville Road
, Nrtrd, Connecticut 06472
#A
D-1 22
California
State Fire
Marshal
7120-0028:156
104-93-E Vol. III
W1
HOLDFOR
STATUS
caNraAsT
ADJUST
HOLDFOR
LAMP TEST
GLOBAL
AGKNpYVEEDG�
SILENCE
RESET
LCD-w,80TM
ISO,09001
Engineering and Manufacturing
Qualify System Certified to
International Standard fS0.9001
I
- - Page 1 of
P
The LCD=80TM
AM2020, AFP1010,
AFP-200, or AFP-400
Off 6, T AV
'h � J.
MEEN
di
I
R
n
filP
EIA-232
Printer Port
PRN Printer
Terminal
Mode
EIA-485
(2 wires
+ shield)
24 VDC
(2 wires)
-6
6,000 feet maximum wire length between each LCD-80TM
0
LCDa.80TM
0
.0
LCDmBOTM
a
0
LCDm8OTM
a
Terminal Mode EIA-485 return (2 wires + shield)
Up to 32 LCD-80TMs may be used in a continuous
4-wire loop (verify sufficient 24 VDC available).
Each may optionally have ACK/STEP, SIGNAL
SILENCE, and SYSTEM RESET switches.
Copies control panel display,
No prograrnming required for LCD-80TMs.
0 Small compact design,
0 Decorative cover plate available.
ABF14D: The ABF-1D is a semi -flush mount backbox
for the NOTIFIER LCD-80 Series Annunciator.
The ABF-ID mounts one LCD-80TM. It includes an
attractive smoked glass door with NOTIFIER Keylock.
Dimensions: Box only: Height = 9-15/16",
Width = 4-5/8" Depth = 2-12".
Door: Height = 10.713". Width = 6", Depth = 0.75"s
RELATED OPTIONS
�j
CCIVIM11 Converter Module. Required for terminal mode operation on older AM2020s or AFP1010s that do not
include the DIA-2020 or DIA,,l 010 Display Interfaces., Also required for AM2020 or AFP1 010 systems which
require a CRT with keyboard. Required for use with INA as well, Uses one ICA-4 chassis slot or two CHSM
4 chassis slots.
ADP4 Annunciator Dress Plate. Allows panel mounfing of up to four LCD-80TM modules in a CAB-X3 series
cabinet.
ABF=1 Annunciator Flush Box, 9-15/16" high, 4-5/8" wide, and 2-1/2" deep. Order AKS-1 keyswitch and APJA
phone jack if desired. Can also be mounted in ABF-2 orf*AE3F-4 Annunciator backboxes.
ABSAT Deep Surface Backbox (mounts one LCD-80TM).
AKS=1 Keyswitch to enable/disable controls when mounted in ABF or ABS-1T.
APJ=1 Annunciator Phone Jack., Mounts to ABF Flush Box or ABS-1T,
ABF=1 D Flush Annunciator Box with decorative front door (1 module).
ABFm2D Flush Annunciator Box with decorative front door (2 modules).
DN-5249 — Page 2 of 2
I
a
May 11, 1998
GENERAL
The LDM Series lamp driver modules, when combined with a cus-
tom graphic display, provide annunciation and control for the
AM2020, AFP 1010 1 AFP-400, AFP-300, AFP-200, System 5000, and
System 500 control panels. These modules use a serial communi-
cations interface, and may be located up to 6,000 feet from the panel,
FEATURES
ALARMICIRCUIT ON and TROUBLE lamp/LaD per -point option,
or more dense alarm -only option (field -selectable),,
• Control switch option for remote control per point,
• Lamps/LEDs may be programmed to display status of indicating
circuits or control relays as well as system status conditions.
0 System trouble lamp/LED signal,
# On-line/power LED indicator.
0 Optional RPT-485 increases EIA-485 wire distance (see RPT-485
Series catalog sheet).
e Optional fiber -optics EIA-485 transmission with RPT-485F wire -
to -fiber converter (see RPT-485 Series catalog sheet),
a Alarm and trouble resound with flash of new conditions.
Local sounder for both alarm/circuit-on and trouble conditions with
silence/acknowledge switch connection.
Serial EIA-485 interface for reduced installation costO
& May be powered by 24 VDC from the panel or by remote power
supplies,
8 Efficient switched -power converter reduces power consumption.
Microprocessor -controlled electronics, fully supervised.
Plug-in terminal blocks for ease of ]installation and service.
Trouble monitor option for remote power supplies.
CONSTRUCTION
Two basic models are available:
the LDM-E32 expander module.
32 alarm indications; or 16 alarm,
APPLICATIONS
the LDM-32 control module and
Each may be selected to provide
16 trouble, and 16 control pointsf
The LDM-32/LDM-E32 with a custom graphic array may be used to
indicate point status and, in some versions, to control the state of
output points.
In addition, the LDM-R32 module may be used to provide 32 dry -
contact relays for electrical isolation when connecting the system to
other equipment.
INSTALLATION
The LDMw32 and LDM-E32 modules mount on four standoffs inside
the custom annunciator graphic box. Alternately, the modules may
be installed in a standard CHS-41. chassis. The module size is ap-
proximately 4.4" (11.2 cm) x 7.1" (18 cm),
Communications between the LDM Series annunciators and the host
Fire Alarm Control Panel are made through a two -wire EIA-485 multi�
LDlin 's
m Series
La P Driver Modules
Section: Annunciator Control Systems
S635
CLA%44W
: 44
CS100
0Q1A7.AY (System 5000)
OW6A2*AY (AFP-200)
OV7AO.AY (System 500) <
OV4A5.AY (AFP-200)
OBlAO-AY (AFP-300 AF - 0)
A�j
291-91 -E
(System 500 LDM-R32)
289-91-E
(AM20201AFP1010)
104-93-E (AFP..200)
17-96-E (AFP-300,, AFP-400)
D-110
California
State Fire
Marshal
7120-0028-6,156
J
BSA
5 7 8 - 8 1 - %13 A%
(System 5000;
System 500
except LDM-R32)
0160006601 [--se-6.6 seem*
0 1 1 a a a 0 a 0
FT
20 29
Agftawr
TS2
TBI
LDM.m32
J2
ON UNE 0
LED
N
drop loop, and a two -wire re ulated 24 VDC ower
loop. Up to 32 LDM systems may be connected
to a single control paneL
All field-widng terminations use removable, com-
Pression-type terminal blocks for ease of installa.,
tion, widng, and circuit testing,
This document is not intended to be used for installation pur-poses. We try to keep . our
product information up-to-date and accurate. We cannot cover all specific applications or
anticipate all requirements. AH specifications are subject to change without notice. For
more information,. contact NOTIFIER. Phone: (203) 484-7161 FAX-0 (203) 484-7118
6 NOTI F1 EW 12 ClintonviHe Road, Northford, Connecticut 06472
ISO409001
Engineen*ng and Manufacturing
Quall". ty System Certified to
Intem'atio'nal Sta ndard ISO-9001
Made in the U.S.A.
DN-551 — Page 1 of 2
I
OPERATION
LDM Series modules, when used with a custom graphic annunciator, provide the
NOTIFIER AM2020, AFP1010, AFP-400, AFP.300, AFP.200, System 5000, Or Sys..
tem 500 with up to 32 unique or redundant annunciators, ear,.%,h with a capacity of 64
points for a total capacity of 2048 points.
Local or remote power supplies and serial communications allow the custom annun-
'P
clators to be located virtually anywhere on the protected premises.
AM2020 or AFP1010 system alarm and/or trouble conditions may be annunciated on
a per -point basis, or in a grouped -zone configuration,
AFF400 or AFP.*300 system panel points, intelligent addressable devices and soft-
ware zones can be annunciated/controlled in a grouped fashion (see programming
manual for details).
Control of system operational controls, such as Signal Silence, System Reset, and
local annunciation controls (such as Local Acknowledge), and Lamp Test may be
accomplished through special key- or push -switches.
PRODUCT LINE INFORNiATION
LDM,w32.n Lamp Driver Module with 32 ala lamp -driver transistors (sink to power
common on alarm). May be selected (dip switch) for 16 alarm/circuit on, 16 trouble,
and 16 switch inputs if desired. Also includes system -trouble lamp driver and lamp-
test/local-acknowledge switch input. Integral piezo sounder sounds for each new
alarm or trouble and is silenced with the Local Acknowledge switch, or permanently
disabled with a dip -switch selection. Flash of new alarms cr troubles is selectable
through dip switches. 16 switch inputs may be used for panel SILENCE, RESET, or
remote relay control. Instructions are included.
LDMmE32w. Lamp Driver Module with 32 alarm drivers; or 16 alarm, 16 trouble, and
16 switch inputs. One LDM-E32 is allowed per LDM-32 'in aarm-only mode. Three
LDM-E32 modules are allowed per LDM-32 in alarm/trouble. 'ncludes ribbon cable to
connect to ACM.
LDMwR32v. Lamp Driver Module which connects to any LDM-32 or LDM-E32 to
convert transistor outputs to 32 Form -A dry contacts (1 amp. @ 30 VDC). Provides 32
output terminal screw connections and a single common te-minal screw. Includes
ribbon cables to connect to the LDM-*32/LDM-E324,
444k�.'. Use for electrical isolation when interfacing the system to other equipmeft,
LDM=CBL24, LDM=CBL48wd Ribbon cable sets to proyide either a 24" (60.96
cm) or 48" (121.96 cm) connection between LDM-32/LDM-E32. and LEDs or lamps on
a custom graphic panel. Includes all cables necessary for one LDM-32 or LDM-E32.
Cables have connector on one end only (split, strip, and conn:,W.&ct other end to graphic
annunciator),
ARCH ITECTURAL/EN GIN EERI NG
SPECIFICATIONS
For specifications on LDM Graphic Annunciator Lamp Driver Modules, contact
NOTIFIER,
LDM,wCBL24,,
LDM=CBL48
SYATCH
"TAUX
SWI lanis"6061 E
J2
SW2
=SW4
N
LDMw32
4 a",
�__j
ON UNF, 0
LED
N)
0 some* 43 G 0 0 a 40 qb is * 0
JsLU A A dq 04 qq 0 a J6 J7 04�
P Pq
Ob rk ft 14
J4
ilk 1?p PP R ft
J! P.M IR_ 14 _R FF Ot 9!
J10
0
0
0
SWTCH
AAATRIX
hom"Worm"A
J12
SW4
0
@
ff
LDA
W=%) A
k
-F
_4
4
PC ' 0
a
An
k
47
KI
3
IM
_. Nqj
r
4,1wR32
Page 2 of 2 — DN-551
t
gnm
ol�
INTZ OF
5.111'
U V?
MR' �'�b
'x
N
>
-71 .41 0 e 2
0
EM
pir _0
44
gg-
r->
leffilwalm
d
mc
it
IN N?Wipl
-J,
It,
D-11
11!
F :tl &AF 0 1
MaLic
11.1-appl-Al
im
W .4
i
- 19 P ..'
roe.
W = a Am
wow I
k.'W- ., � E
1
Awl
r
GRAPHIC
MATL: BOXES: #IbGA STEEL -FINISH
PRECISiQN TAN
DOOR: #16GA STEEL -FINISH
PRECISION TAN
OR
#i 6GA STAINLESS
STEEL -FINISH #4 BR.
HORIZONTAL
HINGES: CONCEALED SS ON
LEFT SIDE
FASTENER: #2171 LOCK
ISLE DISPLAY
SE11 I-
L 5-1
SURFACE
OVMODEL ERALL
w
A
A
D
GRA-GR
8.85
4.35
7.5012.75
. 4
14.25
9.31
14.50
GI GI
12.00
12.75
13.34
14.25
13_ 1
14-50
RS-GR
9.80
7.80
12.00
14.25
I3.
15-75
14.
16-00
IS -GIB
12-80
15.80
17.25
1.
18-75
22.
19-00
IS -L-GR
15-80
12.80
1 `.25
20.00
18.75
21.5
1 .
21. 5
HINGED N
LONG SIDE
RSD GIB
17.80
17.80
U.
�. 5
23-50
23.
4*00
RSE-GIB
17.80
23#
22-2
�' ,
30.00
. 200
RSE-L--G R
23.
1.
22.25
23.75
4.25
2 5
HINGED OIL
r
LONG SIDE
CE -GR
23.6
35-60
41.
41-00
29.00
41-00
29.00
CE -L-GR
3 .6
23-60
29.00
41.
41-00
29.00
41.00
HINGED ON
LONG SIDE
RSG-G
34.6
46.6
.31
3.
.41
.2
.
7
RSG-L- R
46.6
34.
3 . 6
,5 . 1
40.41
.2
,.+.
2.47
HINGED NLONG
SIDE
THE .R* KIRKLAI D CO, INC. 4935 ALLIS N ST. #13 1 ARVADA., COLORADO 80002 Q03) 422-6 4 - 3 FAX
4
1
oooK Lle inn
Typical Part Number
RSC - L - GR - GP3
Graphic Face Method
(See Right)
"Graphic"
"Size",see page # 3911
Other Info ation Required
El Is the annunciator to be surface or semi -flush mounted.
D Model # FACP that annunciator will interface with.
E:1 Will Kirkland hardwire to terminals or provide studs
& connectors for customer's driver boards.
GRAPHIC ANNUNCIATORS
ORDERING INFORMATION
Graphic Face Method
GRAPHIC METHOD GP-2
� Display is a white screened image on gray {appears
black) background.
❑ LEDs mount to the rear and backlight through the
transparent gray.
❑ LEDs do not show location until lighted unless
screened circles on the map are requested.
❑ Nod recommended with switches in the display area.
o Tamperproof.
GRAPHIC METHOD GP-3
❑ Display is a black screened image on white acrylic
background. (Available with multi -colors.)
o LEDs mount through holes in the acrylic.
❑ Not recommended with switches in the display area.
o Can be combined with Graphic Method GP-5.
o'This method used with exterior graphics. Incandescent
%" or !4-" dia. indicators available.
El Options ❑ A clear front pane renders the
LT—Lamptest. tamperproof.
CT —Trouble circuit to include LED, buzzer & silence switch. GRAPHIC METHOD GP-4
AA —Buzzer circuit to operate from alarm inputs
w/common silence switch.
MS —Switches for customer's use. Explain or provide
schematic.
SS —Stainless steel doors.
PO —Power on LED.
PS —Power supply required on annunciators
EC —Extra colors required on graphic face. Specify.
BZ-24VDC buzzer hardwired.
LEDs and display
o Display is a unique laminate of reverse screened
polycarbonate, aluminum and electrical grade plastic.
❑ LEDs mound through the Lamination.
o ideal for control panels as switches maybe mounted
in the display area.
❑ Rigidity of the panel allows its use on displays
in a range of 3-15 square feet.
❑ Ideal. for use with colors.
GRAPHIC METHOD GP-5
❑ Display is a black screened image on a white
background.
El Backlighted partitioned areas (min. size %" x
max. size 30 square inches.
❑ Requires approximately one (1) watt per square inch.
o No switches in -the display area.
o Tamperproof.
GRAPHIC METHOD GP-6
o Display is a black screened image on clear anodized
brushed aluminum.
c LEDs mount through holes in the aluminum.
0 A clear front pane renders the LEDs and display
tamperproof.
c Not recommended with switches in the display unless
the clear front pane is omitted. (This omission will void
the UL listing.)
THE H.R. KIRKLANCO., INC. 1 4935 ALLIS N ST. #13 1 ARVADA, COLORADO 80002 1 3 341-66 1 8 0 3 3 1 FAX 303 420-1856
I
t
September 16,1998
GENERAL
System Sensor SpectrAlert Series strobes, horns, and combina-
tion hors/strobes are UL listed for primary signaling in life safety
systems and meet ADA public mode visible signaling requirements.
SpectrAlert products can be connected to the alarm indicating cir-
cuit of a fire alarm control panel and are compatible wi#h DC line
supervision. The SpectrAlert product line mounts to standard
backboxes using a universal mounting pate included with each unit.
An optional small footprint mounting plate fits to a single -gang box.
An accessory backbox skin gives a cosmetic finish to a 4'f x 4" x
1-1/2 it or a 2" x 4" x 1-7/8" surface -mounted backbox. All strobe
and horn/strobe mounting options require only one screw attach-
ment of product to plate.
These products are designed for 12 and 24 VDC and full -wave rec-
tified unfiltered power. Full -wave rectified operation requires more
current than DC operation. For detailed current draw information,
consult the Current Draw Tables (page 2). The horn/strobe com-
bination products are factory -assembled with jumper wires for in -
tandem operation. For independent wiring of horn and strobe, re-
move jumper wires. When wired for independent operation the
strobe will continue to run while the horn can be silenced. How-
ever, the strobe must be running for horn to operate.
Morns -- The SpectrAlert Series horns and horn/strobes pro-
vide two different field-selectablefteversible tones, ahigh-low ;ield-
selectabie/reversible sound output setting flow setting on 24-volt
models only) and afield-selectablefrevefsibfe temp 3 pattern or
non -temporal continuous pattern. These field -selectable features
are accomplished using pins and jumpers located on the back of
each SpectrAlert horn and hom/strobe., An accessary module is
not needed to make these field selections. The horn on hom/strobe
models will operate on a coded power supply. Those horn -only
models with "NC" in their pars numbers will also operate on a
coded power supply. The horn and horn/strobe series includes
weatherproof models.
Strobes -- The ADA-compliant SpectrAlert strobes are eiec-
tronicvisible warning signals that flash at 1 Hz over their operating
voltage range. These products are available in 24-volt models at
1 5, 15/751 75 and 110 candela intensities and in 12-volt models at
15 and 15/75 candela intensities. The strobe series includes weath-
erproofmodels. SpectrAlert products feature dramatic reductions
in current requirements.
SynceCircuit Module (MOL) —The Sync*Circuit Module
is available for synchronization of strobes and horns and can syn-
chronize two Style Y (class B) circuits or one Style Z (class A)
circuit. The module can also generate a synchronized temp 3 tone
for System Sensor's Multi-AlertT" and PA400 horn products.* The
synchronization module allows the SpectrAfert horns on combina-
tion horn/strobes to be silenced on two -wire systems. SpectrAfert's
SyncoCircuit Module can be daisy -chained for multiple zone syn-
chronization. The module does not operate on a coded power sup-
ply.
*For Multi -Alert and PA40O.- Strobes must be wired to a conti
nuous
source of power (non -coded poorer supply),,
SpectrAlert"' Series
Horns, strobes, and Horn/Strobes
Section: Audio/Visual Devices
4 S4011 & S5512 (P12151 P121575f P241511
P241575r P24751 P24110). S5512 (S1215,
� L
S 121575, S24151 S241575i S24751 S241 10).
S4011 (HC12/24).
�� � CS549 (P2415A, P241575A, P2475A, P24110A,
52415A,S241575A,S2475A,S24110A).
CS548 (H12/24A, HC72124A
U).
000
0138A4,AY (P1215, P1215751 ► F M
P2415o P2415751 P24751 P241 1
S1215, S1215751 S2415i S2415751
S2475,S24110tH12/24). OD4A7.AY(HC12/24).
California
State Fire
Marshal
-ow 7135-1209:173 (P12151 P121575.1 P2415s
P2415751 P24751 P24110).
7125-1209:174 (S12151 S1215751,
S2415t S2415751 S24753 S241 1 O)m
7135-1209:143 (H12/24s HC12/24).
MEA 114
319o-96-E (P12153 P1215751
P2415, P241575t P24751
P241 101 S1 215, S 1215759
S2415l S241575, S2475.1
S241 101 H 1 2J24 s HC1 2/24).
SerAl, sysCiri', and Multi-AlertTm are trade-
marks of System Sensor, a division of Pittway Co oration.
This document is not intended to be used for installation ur es. We try o keep our
Product infor do p-to-eats and accurate. We cannot cover all specificapplications or
anticipate all requirements. All �
specifications are sub -act to charge without notice* For
more information, contact OTIFI R, Phone:(203)-1 1 FAX: o 4- 11
(rJ) Pd 0 T I F I E W
One Fire-Lite Fuca, Northford, Connecticut 06472
Aso -goon
Engineering and Manufacturing
Quality System Certified to
Intematianal Standard ISO-9001
Made it the U, .A.
CAN- — Page 1 of
A
Single -gang mounting without the use of a mounting plate
FEATURES
a 24-volt strobe models: 15, 15/759 75 and 110 candela. (horn model only),
a 12-volt strobe models: 15 and 15/75 candela. Self-contained screw covers.
V Horn models operate on 12 and 24 volts. Aesthetically pleasing design-,
0 Low current draw.- reductions as high as . 45%. Synchron Ize horn and strobe with Sync%Circu jtT1 module
-0 (M D L).
Two field-selectablefteversible horn tones,,
3000 Hz interrupted electromechanical Silence horn on horn/strobe over a single pair of wires using
a SynceCircuit module (MDL),,
Field-selectablelreversible high -low dBA output on horn *Sound output varies with tone and ut 0 ti I d- d
(low output on 24-volt models only): levels based upon anechoi*c room measurements.
101 peak dBA @ 10 ft. high output.*
96 peak dBA @ 10 ft. low output,* SPECIFICATIONS
Field-selectable1reversible ternp 3 pattern or non -temp 3 con- Input terminals: 12 to 18 AWG (3.25MM2 to 0.51 MM2).
tinuous pattern on horn. Dimensions: see diagrams page 3.
Horn/strobe can be wired either in tandem or independently. Weight, hom only: 7.2 oz,.(204 g).
Weatherproof strobes, horns, and horn/strobes available.
Horns for use with coded power supply available. Weight, strobe and hornIstrobe: 8.8 oz. (250 g).
Universal mounting plate included with each unit. Mounting: see diagrams page 4.
One -screw mounting of strobe and horn/strobe to mounting Operating temperature: 320F to 120T (O*C to 49*C).
plate. Operating voltage range:** 12 V: 10.5 - 17 V4 24 V: 20 - 30
SpectrAlert strobe and horn/strobe take up no room in the V.
backbox, ** These products should be operated within their rated voltage
range. UL does, however, test functional integrity to -20% and
+10% of manufacturer's stated ranges.
CURRENT DRAW TABLES
Strobe Only
Horn Only
High/Low Tomp
Tone Volume INan
AVERACE CURRENT (mA)
12V Modalit 24V M
10.5v 12V � IN 20V : 2 V 30V
X --WVt OC FWA OC IrWP DC I FOM OC I Fp"Om =c I V"
Electro- High Temn
mech. Non
Low Temn
Non
10
11'
V)
M
it
1A
19
21,
231
is
291
26
10
16.
10
191.
14
2 5i
17
29 1
231
34
30'
A 2
NA
NA
NA
NA,
NA
INA
11
12
13
13
IT
15
NA
NA
NA
NA
NA
NA
12
16
14
19
1?
2A
3000 Hz High Temp
Interrupt. Non
Low Temp
Non
11
131
11
11
16.
16
.1
24,
26
281
23
37
33
11
17
11
21
14
28
' 19
34,
27
'7
39
3 '
35
45
NA,
NA
NA
NA
NA
NA
14
14
17#15
21
VS
NA
I NA,
NA,
NA
I NA
NAI--
131
181
1 6
2�1
22.
25
Horn/Strobe = 15 cd
High/Low Temp
Tone Volume /Non
AVERAGE CURRENT (rnA)
12V Models 24V Models
I 0-5V 12V 17V 20V 24V 30V
X I --WR Dr. FWR FWFt DC FWR 0 C F M 0 C P�VAMM
Elecito- High Te mo
mech. Non
Low Temo
Nion
14.3
170
124;
167
95
142
78
101
78
98
75
'75
141
141
143
170
124:167
95
1421
69
98
76
6
100:
76
138
NA.
NA
NA
- NA
NA
NA
70
92
:66
66
93
63
132
NA
NA
NA
I NA
NA
NA
71:
92
67
93.
63
132
3000 Hz High Te rnp
Interrupt. Non
Low Temp
Non
14A
172
125!'
168
97
144
83
108
81
103
83
14te
1441
173
125!
168.
95
146
... .
78
.......
102
60
106
81
142
NA
I
NA
NA
NA
I
NA
I I
NA
73,
94
70
951
67
13
NA
NA
NA
NA
NA
NA
721
92.
691
�!941
681
132
2j
Horn/Strobe wo 15/75 cd
AVERAGE CURRENT (MA)
12V M 24V Models
High/Low Temp
1 0.5V 12V 17V 20V 24V 30V
I
Tone Volurne [Non
DC, --WA Pt
DC FWR DC FWFt _0C I M'S CC I F" :C --VM
Electro- High Ternp
1781_193
15.2
181
113
184
dNA
951113
91.
111
87
153
178
193
152
181
113
W-WE - *_
16&.4
93
110,
69
113
iBS
150
ml�ch. Non
Low Tamp
NA
I
NA
NA
NA
' NA
87
104
79
MENNE"
106
mmhn�
75
1 4"A
NA
NA
NAI
NA
NA
NA
.88
104
801106
75
1"
Non
:3000 Hz High Temp
1791
195
152:
183
115
ies
loo
118
9411115.
95
158
179
196
152
1831113
168
95,
114
931119
93
155A.4
lnleffuj3L Non
Low Tem2
NA
NA
NA
NA
I
I NA
NA
90
105,
83
j 108,
19
79
1"1
NA NA
NA
NA
I NA
Nik
891
1041
82
107
Sol
I AAWAJ
Non
Horn/Strobew 75 ed
High/Low Tamp
Tore Volume /Non
AVERAGE CURRENT (mA)
12V Models 24V Mogela
I 0.5V 12Y 17V 20V 24V 30V
:c VW;pql oc I Pwn CC lwk DC FW1% DC F" :=c P"
Elertrom- High Temp
mach. Non
Low Temp....
Non
NA
NAN
N
NA -
NA
NA
1e4
191
148
167
131
187
NA
NA
NA
NA'
NA
NA
163
188
146
169
132
169
NA
NA
NA
NA:
NA:
NA
156
182
136
162.
119
156
NA
NA
NA
14A
NA:
NA
157
1821-
137
1 E6Q2
119
IS7
30100 Hz High TernD
Inlerrupt. Non
Low Temp
Non
NA.i
NA
NA
NA
NA.
NA
169
196
isil
172
139
174
NA
NA
NA
NA
NA
NA
164
192
I.Sor
1'7S
S1
137
1771
NA
NA_
NA
NA
NA �
NA
1591
184
JA0
164
I
123
1601
NA
NA
I NA
NIA
NA,
NA
I 581
is
1881
139
16-3
I 124,1621
Horn/Strobe = I 10 cd
High/Low Tamp
Tons Volume /Non
---------- .. , . . . - N -
AVERAGE CURRENT (MA)
12V M 24V Modelz
10.5v 12V 17V 20V 24V 30V
DC PWR CC FVM oc OC PHR f>C PVM :)C I MOM
Eleclro- High TeMp
mech. Non
LOW Tem2
Non
NA
I NA
NA 1
NA
NA
NA
189
241
165
65
209
1"!
200
NA
NA
NA
NA
NA
NA
188,
238
183
211
145
202
NA
NA
NA
NA
NA
NA
180
232
1 S3'
2D4
132
log
NA
NA
NA
NA.
NA
NA
181
232
154.
204
132
190
:3000 Hz High Temp
.InterrupL Non
Lcw Temp
Non
NA
NA
NA
NA
NA
NA
193
246
168
214::
14
IS2
207
NA
NA
NA
NA
NA
NA
189
242
167
217
N2137
IiO
210
NA
NA
NA
NA
NA
NA
1113
234
157
136
193
NA.
NA
N&
-
NA
1 NA
NA
18+
2
232.1156
05
195
Page 2 of 6 - DN-5939
J
ENGINEERING SPECIFICATIONS
General — SpectrAlert horns, strobes and horn/strobes
shall be capable of mounting to a standard 4" x 4" x 1-1/211
(10. 16 x 10. 1 fi x 3.81 cm} backbox or a singe -gang 211 x 4" x
1-1/2 Is (5.08 x 10.16 x 3.81 cm) backbox using the universal
mounting plate included with each SpectrAlert product. Also,
SpectrAlert products, when used in conjunction with the ac-
cessory SyncoCircuit Module, shall be powered from a non -
coded power supply and shall operate on 12 or 24 jolts. 12-
volt rated devices shall have an operating voltage range of
10.5 - 17 volts. 24-volt rated devices shadl have an operating
voltage range of 20 - 30 volts. SpectrAlert products shall have
an operating temperature of 32°F to 120°F (0°C to 49°C) and
operate from a regulated DC or full -wave rectified, unfiltered
power supply.
Horn — Horn shall be a System Sensor SpectrAlert model
capable of operating at 12 and 24 volts. Horn shall
be listed to UL 464 for fire protective signaling systems. The
horn shall have two tone options, two audibility options (at 24
volts) and the option to switch between a Temporal 3 pattern
and anon-temporal continuous pattern. The horn -only model
shall NOT operate on a coded power supply except those
modes (model numbers contain "HC") designed to do so.
Strobe — Strobe shall be a System Sensor SpectrAlert
model listed to UL 1971 and be approved for fire
protective service. The strobe shall be wired as a primary
signaling notification appliance and comply with the Americans
with Disabilities Act requirements for visible signaling appli-
ances, flashing at 1 Hz over the strobe's entire operating volt-
age range. The strobe light shall consist of a xenon flash tube
and associated fens/reflector system.
DIMENSIONS
3-318"
(65.725 mm)
T
2-151i 6"
(74.6125 mm)
5"
(127 mm
5-5 0
0 42.875 m m
(58.7375 mm)
DATER: 5-51q
(142-875mm)
INNER 5-5 1 "
(134-9375 m
�4-- 2-5/16"
(58.7375 mm)
Horn/Strobe Combination —Horn/strobe shall be a
System Sensor SpectrAlert model listed to UL 1971
and UL 464 and shall be approved for fire protective service.
Horn/strobe shall be wired as a primary signaling notification
appliance and comply with the Americans with Disabilities Act
requirements for visible signaling appliances, flashing at 1 Hz
over its entire operating voltage range. The strobe light shad
consist of a xenon flash tube and associated lens/reflector
system. The horn shall have two tope options, two audibility
options (at 24 volts) and the option to switch between a tem-
pora! 3 pattern and anon-temporal continuous pattern. Strobes
shall be powered inde en Y of the sounder with the re-
moval of factory -installed jumper wires. The horn on horn/
strobe models shall operate on a coded or non -coded power
supply.
Module — Module shall be a System Sensor SynceCircuit
model fisted to UL 464 and shall be approved for
fire protective service. The module shall synchronize
S ectrA robes at i Hz and horns at temporal 3. Also, the
MO e shall silence the horns on horn/strobe models, white
operating the strobes, over a single pair of wires. The module
shall be capable of mounting to a 4-11/16" (119.0625 mm)
square x 2-1/819 (53.975 mm) deep backbox and shall control
two Style Y (class B) or one Style Z (class A) circuit. Module
shah be capable of multiple zone synchronization by daisy -
chaining multiple modules together and resynchronizing each
other along the chain. The Module shall NOT operate on a
coded power supply.
r2-15/16" —
74.6125 mm)
/ 6W
(23.8125 mar
5-511 "
(134.9375 mm
(33.3375 mm) /
UPPER LEFT: Horn/Strobe with Small Footprint Mounting
Plate (same dimensions for strobe only.
LOWER LEFT: Horn/strobe with Universal Mounting Plate
(same dimensions for strobe only).
UPPER RIGHT,: Hom only {may be mounted with either Small
Footprint or Universal Mounting Platej.
LOWER RIGHT: SyncoCircuit Module (MDL).
5-1l4°
(133.35 mm)
5-1I4" (133.35 mm)
2"
(50.8 mm)
D-5 - Page 3 of
MOUNTING DIAGRAMS
2 31 x 11 1- ff LJ b x
ii
I Li
0
0
++ x " x 1-1 /2"
bx
D-MP
" x 4" 1- 1 12" backbox
-torn
Direct
Mount
%q
" x 4" x 1-1122" ba ckbox
Horn with Universal Mounting Plate
(included with each product)
9:
ion W-Sim
�oil pdlic,�w
4-1 11 11 x- 1 1" x 2-1 11
(119.0625 x 119.0625 x 53.975 mm)
backbox
Strobe or Horn/Strobe with
Universal Mounting Plate
(included with each product)
" x 4" x 1-112" backbox
Horn surface Mount
with accessory
Backbox Skirt
201 x 4" x 1-7/8" backbox
i
� S-MP
Strobe
Horn/Strobe
wixn accessory
Small Footprint
Mounting Plate
SynceCircuit Module Direct Mount Strobe or Horn/Strobe Surface Mount
with accessory Backbox Skirt
SOUND OUTPUT GUIDE (dBA)
UL Reverberant Room dBA @ Volts DC
E Anechoic Room Peak dBA @ 10 ft/VDC
10v5 12 17 20 24 30 10s5 12 17 ZO 24 30
LOW Electromechanical NA NA NA 75 75 79 NA NA NA 94 96 98
TONE 3000 Hz Intermpted NA NA NA 75 79 79 NA NA NA 94 96 98
Temporal
HIGH Electromechanic. .....al 75 75 79 82 82 82 94 95 98 100 101 102
TONE 3000 Hz Intermpted 75 75 79 82 85 85 94 95 98 100 101 102
LOW Electromechanical NA NA NA 79 82 85 NA NA NA 94 96 98
TONE 3000 Hz Intemipted NA NA NA 82 82 85 NA NA NA 94 96 98
F�
Non -
Temporal HIGH Electromechanical 79 79 85 85 88 88 94 95 98 100 101 102
TONE 3000 Hz Intemipted 79 82 85 88 88 90 93 95 1 9.8 100 101 102
Page 4 of — DN-5939
WIRING DIAGRAMS
NO Do NOT loop wires under terminal screws.
H
TO NEXT
DEVICE
OR EOL (+)
FACTORY
INSrALLED
JUMPERS
Tande Operation
HORNISTROSE COMBO
. [FRI
.7fmi
HORN HORMSTROBE
FRO
H MOD
PRE
DEV
M FACP,
ULE OR
VIOUS
ICE
STROBE ONLY
H I
PH
Two -wire system, any mix of models,
wired for TANDEM OPERATION.
FACP 01
NAC 1
H
NAC 2
FACP #2
(+)
NAC 1
F)
NAC 2
H
E
0
L
Horns silenced over twomwire circuit.
Any mix of horn/strobes or strobe -only devices is
acceptable.
Horn control connects to interruptible power
source,,
MODULE1
0
C)
I'b)
6)
HORN
ZONE I
I
CONTROL
C)UT
{O
0
to?
I
ZoNr:l
ZONE2
1-1
IN
OUT
1-1
f
0
0
0 0
(44
I-
zo HE 2
T A 0 US LJEE
H
�211
0
0
(a)
SLAVE
SLAVE
OUT
f'a
1-i
7F±1
7EMP JUMPER OFF
MODULE2
0
("I
MO R N
ZONEI
(-I
MaROL
0 LrT
0
0
0
0
('61
2)1
ZONEI
ZONE2
C-)
IN
OUT
{
0
0
ZQNE2
IN
MOUSLE
{b
0
01
0
0
0
1.)
SLAVE
SLAVE
IN
OUT
m
0
1 0
[j) 1
TEMP JUMPER OFF
DIAGRAM NO So
Pm
TO NEXT
SpectrAtert
DEVICE
OR EOL
TYPES OF
SpectrAlart
DEVICES:
Kom Only
Horn/Strobe
Strobe Onty
_>
_>
TO NEXT
SpectrAlert
DEVICE
OR EOL
TO NEXT
SpectrAlert
HORN ONLY
DEVICE
OR EOL
All SpectrAlert
homs, homlstrobes,
and strobes will
operate in sync.
1) Any mix of SpectrAlert horn/strobe, strobe -only, or horn -
only devices is allowable for Zone 1.
2) No devices or horn -only are allowed on Zone 2. If no de-
vices are installed on Zone 2, terminate EOL resistor at
hom control terminal.
Independent Operation
HORN AND STROBE
INSTAUED
JUMPER MRESI
REMOVED
TO NEXT
HORN
OR EOL
TO NEXT
STROBE
OR EOL
NOTE: Break Wire as shown
for supervision of connection.
D 0 NO T alla wsffipp e d wire
leads to exlend beyond switch
housing. DO NOT loop wires.
T
R
0
B
H E
H
1 I'm
HORNS
NOTE: Strobes must be
powered for hom operation.
STROBES
:0
:M
E3
0
S
T
R
0
B
E
H
FR 0 M FA CP,
MODULE OR
PREVIOUS
DEVICE
Four -wire system, combo models,
wired for INDEPENDENT OPERATION,
(Hom can be tumed off at the panel
while strobes continue to operate.)
Temp 3 coding of MultimAleft
V
E
0
L
and PA.400 sounders,
NO Strobes must be powered fr6m non -code
supply.,
FACP
NAC I
NAC 2
MODULE1
0
01
0
HORN ZONEI
0
CONTROL C)LIT
0
0
f*1
ZONEI ZONE2
(-I
IN OUT
0
111
1?
(*1
1-1
ZONE2 "OUBLE
IN
t2)
0
0
0
0
1-1
SLAVE StAVE
0
IN ou'r
TEMP. JUMPER ON
>
MULT16
TO NEXr
ALERT
Of PA400
DEVICE
MOAN
ONLY
OR EOL
>
>
MULTI-
TO NEXT
ALERr
arPA400
DEVICE
HORN
ONLY
OR EOL
Hom s will be
temporal -coded
and in sync.
DN-5939 — Page 5 of 6
I
14777
an, mA* avg. m P
MITE
RED
voltage candela,
nom. nom. FVA
P 1215 P 12 1 5W 12 15 124 167
Horn/Strobes __P 121575 P121575W 12 15/75 152 18 Tq�
P2415 P2415W 24 15 78 98
P241575 P241575W 24 15/75 91 111
P2475 P2475W 24 75 148 167
Impoftl P24110 P2411OW 24 110
165
209
M INEOPW P241575K (weatherpr000 24 15175 91
P2475K (vieatherproo� 24 75 148 167
P24110K (weatherproo� 24 110 165
I . - 209
P2415A P2415WA 24 15 78 98
P241575A P241575WA 24 15175 91
P2475A P2475WA 24 75 148 1,67
Canadian Models, P24110A P24110WA
Horn/Strobes 24 110 165 207
P241575KA (weatherpr000 24 15175 91
rP2475KA (weatherpr000 24 75 148 167
P24110KA (weatherprooQ 24 110 165 209
Spanish Labeling, H/S P241575F (FUEGO) 24 15/75 91
OOOOMNOOWA�
[4S 1215 S 1215W
12 15 114 157
Strobes S121575 S121575W 12 15/75 142 171
Now
S2415 S2415W 24 15 53 80
S241575 S241575W 24 15175 66 93
S2475 S2475W 24 75 123 149
DMOm- S24110 S2411OW 24 110 140 191
S241575K (weatherpmoo 24 15175 66 93
S2475K (weatherproo� 24 75 123 159
S24110K (weatherproo� 24 110 140 191
S2415A 32415WA 24 15 53 800
S241575A S241575WA
24 15/75 66 93
S2475A S2475WA 24 123 149
75
Canadian Models, S24110A S24110WA 24 110 140 191
Strobes
241'0
1
S 241E575K
MOMMOF
S241575KA (weatherproo� 24 15t75 66 93
S2475KA (weatherproo� 24 75 123 14
9
S24110KA (weatherprOD� 24 110 140 191
Spanish Labeling, Strobes S241575F (FUEGO) 24 15175 66
93
H 12124 H 1 2/24VV 12124 NA 12/23 12/21
Horns H12124K (weatherpr000 12/24 NA 12123 12121
HC12/24 (coded power) HC12124W (coded power) 12/24 NA 12123 "m
"ONNOMMEMM4 12/21
HC12124K (weatherproof, 12124 NA 12/23
for coded power) 12121
H12124A H12/24WA 12124 NA 121203 12/21
Accessories H I 2124KA (we athe rp m o 12124 NA 12123 12/21
HC12J24A (coded power) HC12124WA (coded power) 12124 NA 12 / 23' 12 / 21
MDL MDLW I
SynceCircult Module 12/24 1 WENEWOF NA NEEM" 16 24
MDLA MDLWA 12124 NA 16 24
Small Footprint Mounting
P late fo r S in 9 fewGa n 9 ONZ. Y S_MP S-MPW NA NA NA NA
SurfacemMount Backbox Skirt BBS BBSW NA
NA NA NA
Universal Mounting Plate D-MP D-MPW NA NA NA
PE12:1 2 4:A
114.
nj;
'I 1r A rj 121
Ej:S:k i r t]
(replacement) NA
We 0 atherproof Backbox WBB NA NA NA NA
00 Omft�
N 0 1) Canadian model numbers end in 'A, 2) Latin American model numbers end in "F 3) All weatherproof models must
use weatherproof backbox model WBB. 4) All SpectrAlert products are designed for wall -mount only. 5) Installation of less than 75
candela strobes may be permissible under the equivalent facilitation clause of the ADAAG (Sec. 2.2). However, it is the responsibility
of the person or entity designing the fire alarm system to determine the acceptability of less than 75 candela strobes. 6) All 15/75
candela strobes or horn/strobes are recommended for 20'x 20' rooms or less. Tor a complete listing of SpectrAlert current require-
ments, please refer to the Current Draw tables on page 2 of this document,, or the Instruction ManuaL Hom and hornIstrobe current
draws assume the hom is set at Temp 3, electromechanical tone, and high audibility,
Page 6 of 6 — DN-5939
A20ji
N1001W
:_;ach ME
a .
a I "ley
!J"k d I 01-j!
j
i iu
m-mw
uutputks)
irom
ine
panei
are connected
to
thE
zone
inputs
of
the
MDL
module
and
the
zone
output(s)
frorr
the
MDL
module
are
connected
to
the
notification
loop(s)
Supervision
is
accomplished
in
the
module
by
direc-
a
connection
between
the
zone
input
and
the
zone
output
o-
each
of the
two
zone
circuits
connected
to the
normal
end
-
of
-line
device.
The
FACP
"sees"
the
EOL
device
througt
the
MDL
module.
When
either
or
both
outputs
(zones
1 8
2)
from
the
module
are
wired
to the
SpectrAlert
products,
the
horns
and
strobes
in
both
zones
wili be
synchronized,
The
MDL
module
can
be
configured
so
that
more
than
twc
zones
can
be
synchronized
by
the
interconnection
of
the
slave
input
and
output
(see
Application
Examples).
SPECIAL
CONSIDERATIONS
A
latching
Form-C
contact
is
provided
in case
the
synchro-
nizing
signal
to
the
notification
devicesis
interrupted.
The
output
can
be
wired
so
that
a trouble
signal
will
be
annun-
dated
at the
panel.
If
the synchronization
pulse
fails
in the
MDL
module,
the
strobes
will
shut
off.
NOTE:
The
MDL
Module
is
factory
-set
with
the
trouble
contacts
(n
the
open
state.
These
contacts
may
close
during
shipping.
Approximately
two
seconds
after
power
-up,
these
contacts
wili
onnn.
bF01hC11F1fwAT10H5
Voltage
range:
DC
or
full
-wave
-re
NOTE:
Supply
voltaae
rance
at
12
vn
volts, 21 to 30 VDC9
Maximum load on loop: 3,,
C;urrent: chart at right.
Operating temperature: C
'32'F to 120*F)-
0
0
3; 11
tO
�W
VC
r to 17
VDC.-
al
W
Z
lu.
BIPWRIAMUMME
Average Peak ln=Rush
U66 — Pace I C
APPLICATION EXAMPLES
MODULE 1
• Program module to provide temporal coding
by inserting jumper plug per instructions.
• Connect only sounders producing a continu-
ous tone to the module zone autput(s).
OCAUT/ON! V
Strobes cannot be used on a module pro-
viding temporal coding to horns! Strobes
must be wired for independent operation,
NOTE: Temporal jumper should be inserted across
both erns only on non-SpectrAleri products That are
to be powered for Temporal sound oufput.
NAC 1
NAC 2
Synchronize SpectrAlert Horns and Strobes
MODULE 1
FACP
NAC 1
NAC 2
Configured as:
Style ZlClass A
N
NAC 3 out
OUT (-)
RETURN (+)
NAC 4
RETURN
° HORN
0CONTROL
ZONE 2
01 IN
ZONE 1
OUT {O
zor�E 2
OUT Q
0
TROUBLE 10
�N�
�`:� SLAVE LAVE
o IN our o
lie oil
TEMP. JUMPER ON
To NEXT
DEVICE
OR oL
CLASS
TO NEXT
DEVICE
OR COL
ALL SpectrAlert horns,
orrrobes, and strobe -only
devices will operate in sync.
JUMPER OFF
Multi -Alert
or PA 00
Hors ONLY
TO NEXT
DEVICE
OR EOL
Multi -Alert I /f TO NEXT
r PA 0
Ham ONLY
DEVICE
DR COL
Horns will be temporal -coded
and in sync.
Synchronize SpectrAlert
Horns and Strobes
Each module can power Two
three -amp circuits wired in
Class B, or one three -amp
circuit powered as Class A.
Each module will synchronize
two zones.
Additional modules can be
added and may �e synchro-
nized to all other modules by
interconnecting the "slave"
input and output terminals
between modules.
MODULE 2
TEMP. JUMPER OFF
Pugs 2 of 4 ---DN-6066
Now: Class on r tron
requires a speciatpaneL
Consult with genet rr anufa t rer.
4
Controlling Sounder On/Off Over Two Wires Using Module Horn Control
• Connect the current source to the horn control input,, if a zone output is used for the source, you must use an ESL on
the horn control input terminal.
• When multiple modules are used, the horn control circuits can be wired in parallel. If wired in parallel and a zone
output is used from panel, use an ESL on the last module for supervision.
horns Silenced Over Two -Wire Circuit
1) Any mix of SpectrAlert horns/strobes or strobe -only devices is acceptable.
2) Horn Control connects to interruptible power source.
FACP 1
NAC 1 �
NAC 2
FACP 2
NAC 1
NAC 2��
MODULE 1
� l HORN
CONTROL0
01 ZONE 1
0�j�' IN
0� ZONE 2
0IN
0
SLAVE
01 IN
ZONE 1 f O
OUT �0
ZONE 2I0
OUT `0
0
TROUBLEto
SLAVElO
OUT
O
• e0
MODULE 2
0l HORN
0f CONTROL
0l ZONE 1
0� IN
0 (+) ZONE 2
IN
0
0� SLAVE
IN
0 F
ZONE 1 �O
OUT
ZONE 2 f0
OUT {(O
OUBLE�0
j)
O
o
SLAVE j0
OUT �O
TEMP. JUMPER OFF
TO NEXT
SpectrAlert
DEVICE
OR EOL
SpectrAlert
hypes o devices:
HORN ONLY
HORN/STROBE
STROBE ONLY
TEMP. JUMPER OFF
9
TO NEXT
SpectrAlert
DEVICE
DR ESL
TO NEXT
SpectrAlert
HORN -ONLY
DEVICE OR EOL
ALL SpectrAlert horns,
homlstrobes, and strobes
will operate in sync.
NOTES.
1) Any mix of SpectrAterf horn/
strobe, strobe -only, or horn -only
devices is allowable for Zone 7.
2) No devices or horn -only are al-
lowed on done 2, if no devices
are installed on gone 2, terminate
EOL resistor at horn control ter-
minal.
D- — Page 3 of 4
x
P]
I
PRODUCT LINE INFORAIATION
NIDL Sync module for use with SpectrAlert Series, red.
AIDLW Same as above, white.
Three -Year Limited Warranty
cz�� system Sensor warrants these horns/strobes to be free
from defects in materials and workmanship under normal
1 / use and service for a period of three years from date of
A manufacture. For complete warranty information, contact
System Sensor.
r
MOUNTING DIAGRAM
1) Complete Feld wiring.
2) Mount unit to 4-11/16" backbox with screws ("A").
E1,WARNINGI
LIMITATIONS OF HORNS/STROBES
The horn and/or strobe will not work without power,
The horn/strobe gets its power from the fire/security panel
monitoring the alarm system. if power is cut off for any
reason, the horn/strobe will not provide the desired audio
or visual warning.
The horn may not be heard. The loudness of the horn
meets (or exceeds) current Underwriters' Laboratories stan-
dards. However, the horn may not alert a sound sleeper
or one who has recently used drugs or has been drinking
alcoholic beverages, The horn may not be heard if it is
placed on a different floor from the person in hazard or if
placed too far away to be heard over the ambient noise
such as traffic, air conditioners, machinery or music appli-
ances that may prevent alert persons from hearing the
alarm. The horn may not be heard by persons who are
hearing impaired.
The signsl strobe may not be seem. The electronic vi-
sual warning signal uses an extremely reliable xenon flash
tube. It flashes at least once every three seconds and ex-
ceeds current Underwriters'.Laboratories standards for pri-
vate mode viewing. The visual warning signs[ is suitable
for direct viewing and must be installed within an area where
it can be seen by building occupants. The strobe must not
be installed in direct sunlight or areas of high light inten-
sity (over 60 footcandles) where the visual flash might be
disregarded or not seen. The strobe may not be seen by
the visually impaired and is not intended to meet Ameri-
can Disabilities Act (ADA) requirements.
The signal strobe may cause seizures. Individualswho
have positive photic response to visual stimuli with seizures,
such as persons with epilepsy, should avoid prolonged
exposure to environments in which strobe signals, includ-
ing this strobe, are activated.
The signal strobe cannot operate from coded power
supplies. Coded power supplies produce interrupted
power. The strobe must have an uninterrupted source of
DC power in order to operate correctly. System Sensor
recommends that the hom and signal strobe always be
used in combination so that the risks from any of the above
[imitations are minimized.
Page 4 of 4 —DN-6066
4
April 2, 1998
1-304
th
sd
Ai
g 11 Y
Ll W,
A Pittway Company
GENERAL
The HD-600 Heat Detector is attractive, durable, and fea-
tures combination rate -of -rise and fixed -temperature de-
tectors. Heat detectors are available in 135'F (57'C) and
200*F (94'C) temperature ratings.
Rate -of -rise elements detect heat by quickly responding to
rapid temperature increase. HD-600 detectors use the
same reliable pneumatic rate -of -rise element used 'in former
models, but offer added aesthetic appeal. The pneumatic
rate -of -rise element responds to a rapid rise in tempera-
ture, approxfimately 15'F (8'C) per minute, by expansion
of air within the sealed chamber faster than it can escape
through a calibrated vent. The resultant increase in pres-
sure depresses the diaphragm, causing the electrical con-
tact to close the circuit. HD-600 rate -of -rise units have a
wide spacing allowance of 50-foot (15.24-meter) centers.
See Specifications table (page 2) for details.
Fixed -temperature elements react to heat by responding
to a specific temperature setting. The fixed -temperature
element uses a fusible alloy. When activated, the external
heat collector drops away to provide quick visual confirma-
tion that the element has operated.
The units protrude only 1-3/8" (34.925 mm) from the ceil-
ing surface with a junction box mounting. They have pleas-
ing contours and an all -white finish that conforms to ceiling
aesthetics.
FEATURES
• Rate -of -rise and fixed -temperature.
• One- or two -circuit, normally open.
• Easy installation.
• Low -profile design,
• Visual indication.
• Operation testingS
INSTALLATION
Each detector includes a patented reversible mounting
plate. In one position, it easily attaches to a 3-1/4" (82.55
mm) octagonal box or 4" (101.60 mm) junction box.
In reverse, the plate can be used for open wiring without a
junction box. A 1/4" (6.35 mm) space between detector
and mounting surface allows for wire connections, All
mounting screws are concealed,
The detector attaches simply to the mounting plate with a
push and twist motion. No special tools are required.
The mounting plate is molded of white self -extinguishing
thermoplastic rated at 1050C. The plate is extremely strong,
yet adapts to uneven mounting surfacesO
HDm600
Heat Detectors
Section: Conventional Initiating Devices
U LC
S747 ML361
(except HD622)
California
State Fire
Marshal
d do
-ff
del
UqVI t 7270-0028:170
MEA
250-94-E
F M > ON3A8.AY (HD621, HD601, HD602)
OF4A3.AY (HD603, HD604)
OF4A3*AY (HD62Z HD623)
OF4A3,,AY (HD624)
1-3/811
3-1/4" OR 4" OUTLET BOX
OR 4"SQUARE BOX
REVERSIBLE
/ MOUNTING
IF P LATE `�
8-32"
round head
SCREWS
JUNCTION BOX
MOUNTING
This document i's not intended to be used for installation purposes. We try to keep our
product information up-to-date and accurate. We cannot cover all speciffic applications or
anticipate all requirements. All specifications are subject to change without notice. For
more information, contact NOTIFIER. Phone: (203)484-7161 FAX:(203)484-7118
aN OTI F1 E R* 12 Clintonville Road, Northford, Connecticut 06472
IS to I "
2-1/8w
Cut for OHD=600
surface MOUNTING
mounting.
a�� X-21 h. �_
�Nkq I MO. wa
Ma, 6 00 M I M �� �
1 8-32"
N;4t flnt h Pn ri
WOOD
SCREWS
CEILING SURFACE
MOUNTING
ISOO-9001
Engineering and Manufacturing
Quality System Certified to
International Standard ISO-9001
Made in the U.S.A.
DN-5075 — Page 1 of 2
1
1
0
HDw600 SERIES TESTING METHODS
• Models HD-601/HDq.621 and HD-w602/HD.*622 can be tested by the application of quick heat from any convenient
source. A portable hair dryer is recommended. However, do not apply heat that exceeds the fixed -temperature rating
of the detector.
= Models HDw603/HDw623 and HDw604/HDw624 cannot be tested. However, the fusible alloy element is generally con-
sidered so reliable that testing is not necessary.
SPECIFICATIONS
HD*-601 & HD=621
HDw602 & HD-622
HDo603 & HDaw623
HD-604 & HD-624
0
e
e
No marking.
Gray nng.
Gray spot.
Black dot on white.
Model HD-601 (one circuit)
Model HD-602 (one circuit)
Mode[ HD-603 (one circuit)
Model HD-604 done circuit)
Model HD-621 (dual circuit)
Model HD-622 (dual circuit)
Model HD-623 (dual circuit)
Model HD-624 (dual circuit)
rR_n_"t�rz-of -rise and
Rate -of -rise and
Fixed -temperature only
Fixed -temperature only
fixed -temperature
fixed -temperature
135°F (570C).
200°F (94"C).
135°F (570C).
200°F (94*C)a
Application: norms!
Application: normal
Application: unusually violent
Applicationunusually violent
temperature fluctuabons and
temperature fluctuaflons and
temperature fluctuations and
temperature�fluctuations and
ceiling temperatures not
ceiling temperatures
ceiling temperatures not
ceiling temperatures
exceeding 100'OF (380c).
exceeding 100°F (380C) but
exceeding 100°F (380C).
exceeding 100°F (38°C) but
not 150°F (66*C).
not 150°F (660C)o
Maximum spacing allowance*
Maximum spacing allowance*
Naximum spacing allowance''
Maximum spacing allowance"
UL: 50 ft, x 50 #t.
UL: 50 ft. x 50 ft,
LL: 25 ft. x 25 ft.
UL & FM: 15 ft. x 15 ft.
(15.24 x 15.24 meters),
(15.24 x 15.24 meters).
(1.62 x 7.62 meters).
(4.572 x 4.572 metes).
FM: 30 ft. x 30 ft.
FM: 30 ft, x 30 ft.
1(9.144
FM: 20 ft. x 20 ft.
(9.144 x 9.144 meters).
x 9.144 meters).
(6.096 x 6.096 meters).
*Refer to NFPA for application requirements.
SCREW TERMINALS
Standard
Single -Circuit
Detector
Wire from
alarm panel
or previous
detector,
/00�
Wire connected to
next detector or
end -of -line resistor.
Dual -Circuit
Defector
It -
Used to send two
independent signals.
Wire arc
alarm P
or previ
detector
NOTE: Allsingle-circuit
models come with one (1)
normally open dry contact.
connected to
next detector or
end -of -line resistor.
Wire connected to
next detector or
end -of -dine resistor.
NOTE: All dual -circuit
models come with two (2)
normally open dry contacts.
NOTES
Application: Heat detectors should be
used for property protection. Reliance
should not be placed solely on heat de-
tectors for life safety. When Fife safety is
involved, smoke detectors MUST also be
used. Detectors must NOT be painted.
Bat#cry backup: Heat detectors should
be electronically supervised with battery
backup at the panel.
Rate -of -rise mechanism: The rate -of -
rise mechanism may be scibject to re-
duced sensitivity over time. Annual test-
ing of the rate -of -rise operation is recom-
mended.
ELECTRICAL RATINGS
• 6-125 Volts AC, 3.0 Amp.
• 6-28 Volts DC, 1.0 Amp.
• 125 Volts DC, 0.3 Amp.
• 250 Volts DC, 0.1 Amp.
Page 2 of 2 — DN-5075
.1p J&
&VAd I I*
Ner amuieni
orls setting, e
ierent in convi
tates false ala
id tn mnmenfip
temperature reacnes a
nating the thermal time
onal heat detectorsi,
s. The 302 Series do not
temperature fluctuations
perature.
utjivurziai zippnuzirion, i ne oul. z:)eries can DE
used in all areas for any type of occupancy.
Self-res toring,
Hermetically sealed, shock resistant, corrosior
41
resistant, and tamper-proot
PRINCIPLES OF OPERATION
The 302 Series rate -anticipation heat detectors re-
spond and activate the fire alarm immediatel�
vvhenever the ambient temperature reaches the
oreset temoersture settinn- I Inrfp-r rnnirl hant rica
imurib, ine rate-anucipation Teature enanies thE
,ctor to respond one to three degrees ahead ol
setting. At the same time, however, it does nol
)ond to momentary temperature fluctuations be -
the selected protection level, thus eliminating
3.! alarms. When temperature drops back dowr
�w the orotection level. the detector 2Ut0M;;fi-
L11rd1t:N5101N
rotal overall leng
Rase diamp-Mv '.0
Vairage
5-125
V)
5-25
VC
125
VD(
UUwAL HATIN
Current
5 n m n.q
0
I
M dd e": I �i:' 3 0 2
�`-EPM
M o"""d e"I "� 3020
M
Model':30VAW
MMMM6d,61 302..% H
ff,
IFFLICATION INIFORI"TION
�02 Series detectors have a smooth -ceiling UL rating ol
U
x
50ff
(15,24
x
15,24
meters)
and
are
the
only
type
ol
ieat
detectors
having
such
a
rating
on
both
fixed
tempera-
ure
and
rate
anticipation.
V
The
302-H
is
designed
for
horia
P.ontal
mountina
and
UL
rated
for
40'
x
4n,
119-1
�c4
Y
19
1 q
a-
JN-1271 Pr_
PRODUCT LINE INFORAPIATION
k
�j4 � z �'
Thermotech Model 302 Series Ratei-Anticipipition Heat Detectors
M mo
ODEL NUMBER
DESCRIPTION
REFER TO
302�1 35
0
135'F
Intedor Vertical Mounflng.
Note 1
below,
K -194
02
194'F
Intedor Vertical MounUng.
1302-AW-1 35
1357
All -Weather Vertical Mounting,
Note 2
below.
302-AW-1 94
1940F
All -Weather Vertical Mounbng,
7 %7'-�'
I'M
302-ET-1 35
1350F
All -Weather Verdcal Mounfing.
[302.-ET-1
11
Note 3
below.
94
940F
All -Weather Vertical Mounting.
d.. X ..... ..
......... .
302-H-1 35
135*F
Intedor Hoftontal Mounbng.
E3,
Note 4
below.
.302-H-1 94
.... ........
194'F
19
Intedor Hodzontal Mounfing,
... OR
.7
302-EPM-1 35
1
135*F
Explosion -Proof Mountinm.
E3F
Note 5
below,,
302-EPM-1 94
.E
1 94 c)F
194'F
E%rr-flosi on-P roof Mounting.
D
Decorative white plasuc adaptor plate fu
mounfi'ng
AP-P
1302
3
and 302-AW to 4" oLrUet box.
ILVER
�CT POINTS
SION STRUTS
:.XPANSION
qG SHELL 0.040
ZED ALUMINUM
�NTICIPATION
ZOL SLEEVE
4G SCREW
M
&�ff %� IV 16-0
HERMETIC SEAL
Note 1: For interior mounting in any atmosphere that is
compatible with terminal screw type connedons.
UL rating 50'x 50' (15.24 x 15.24 meters),
Note 2: Humitically sealed for moisture. -proof or dustm-
proof installations. Requires no special backbox
when the all-weather leads are properly spliced
to 'THW' or equivalent type wire.
Note 3: Flumitically sealed for moisture -proof or dust�
proof installations. Requires no special
backbox. Has plastic hexagonal wrench grip
bushing with 1/2" (1.27 cm) conduit threads for
attachment to threaded hub cover, or any outlet
box.
Note 4: Same as model 302 except designed for hori-
zontal mounting, UL rating 40' x 401 (12.19 x
12.19 meters)l
Note 5: Exp] os ion- proof for installation in hazardous lo-w
cations. Has hexagonal wrench grip bushin
with 1/2" (1.27 cm) conduit threads for attach-
ment to threaded hub cover of Series JL fixture
fiffing as manufactured by Killark Electric Co., or
equal.
Cut -Away View
,, ACTUAL SIZE
Page 2 of 2 — DN-1 271
GENERAL
The Air Products & Controls MR Series Multivoltage Conm
trol Relays offer SPDT or DPDT 10-amp contacts which
may be operated by one of four input control voltages. A
single relay may be energized from a voltage source of 24
VDC, 24 VAC, 115 VAC, or 230 VAC by wiring to appropri-
ate input terminals,
Each relay contains a red light -emitting diode (LED) which
indicates the relay coil is energized. Relays may be
f1snapped apart" from a standard four -module assembly
and used independently,
These devices are ideal for applications where local con-
tacts are required for system status, remote contacts for
control of electrical loads and general purpose switch-
ing. They are suitable for use with HVAC, Temperature
Control, Fire Alarm, Security, Energy Management, and
Lighting Control Systems.
The Air Products & Controls MR=199 Heavy Duty Power
Relays are designed for control applications where 30
amp DPDT contacts are required. The 24 VDC and 120
VAC relays are mounted in a rugged steel enclosure.
MR SERIES FEATURES
(Excluding MR= 199 S i s)
ene
Each relay position may be energized from one of four
input control voltages-,
Each relay position contains a red LED which illuml..
nates when the coil is energized. This provides a tim&W
saving convenience when checking an installed sys-
tem, no metenng is required,
a Single, dual, or triple relay modules may be It snapped
apart" from a standard four -position master,
a SPDT or DPDT relays available,
0 Available in dust -proof metal enclosures (with gray plas-a
tic cover on MR-1011C and MR-2011C) with LED view-
ing port,
• Red enclosure available on some models.
• Track mounting hardware to facilitate installation in stan-
dard cabinets.
• UL recognized relays rated at 10,000,000 mechanical
operations.
January 21, 1999
an
mR Ser'
ies
Control Relays
(MR-101/C or CR,
M R-1 04/C or CR,
M R-20 1 /C or CR,
MR-204/C or CR)
U C
L ,
33
(MR-104 and
MR-204
Series ONLY)
This document is not intended to be used for installation purposes., We try to keep our
product information up-to-date and accurate. We cannot cover all specific applications
or anticipate all requirements. All specificafions are subjed to change with . out nofice.
For more information, contact NOTIFIER. Phone: (203) 484-7161 FAX: (203) 484-7118
(0 N OTI F1 EW One Fire-Lite Place, Northford, Connecticut 06472
Section: miscellaneous
MEA
73�92-wE
(MR-1 0 1 /C or CR,
M R-1 04/C or CR)
K-1 00
73ft92=E, Vol, III
(MR-201/C or CR,
M R - 2 0 4 / C o r %C.""In 1,
California
State Fire
Marshal
*0
01vt a 7300-ol 004:101
(MR-101/ I 4�0 / I
MR-201/C. MR-204/C)
The MR4011C
The MRw 1041C
IS0109001
Engineedng and Manufactudng
Quality System Certified to
Intemabonal Standard ISO-9001
C3
E
3�
VM
Made in the U.Sik.
DN-3477 —
Page 1 of 2
e
19
PRODUCT SPECIFICATIONS FOR
MULTIVOLTAGE CONTROL RELAYS
Power requirements:
MR-101 Position is rated at 0.015 amps (15 milliamps)
@24VAC124VDC,115VAC,230VAC,
MR=201 Position is rated at 0,035 amps (35 milliamps)
24 VAC, 24 VDC, 115 VAC, 230 VAC.
Relays: All relays are UL recognized components. NOTE:
Only models with enclosures ("C" suffix) are UL listed as-
semblies (excludes MR-199X-13C and MR-199X-14C).
Enclosure: 18 gauge CRS, plated with 1/2" conduit knock-
outs (top and bottom). The MR4011C and MR-2011C
include a metal backbox with durable plastic cover.
Contact rating: 10.0 A @ 115 VAC resistive.
Ambient temperature: -50°C to +85°C {-54°F to +1 850F)p
Dimensions:
MR-1011T and MR-,2011T are 3.0" (82 mm) H x 2.125"
(54 mm) W x 1.5" (38.1 mm) D.
MR4041T and MRw204ITare 3.0" (82 mm) H x 8.5" (215
mm) W x 1.5" (38.1 mm) D.
MR4011C and MR-P2011C are 6.125" (130.2 mm) H x
3,25" (82 mm) W x 2.5" (63.5 mm) D.
MR4041C and MR-2041C are 6,125" (130.2 mm) H x
9*5" (241.3 mm) W x 2.5" (63.5 mm) D.
PRODUCT SPECIFICATIONS
FOR HEAVYm-DUTY POWER RELAYS
Contact arrangement: DPDT standard.
Contact rating: 30 Amps @ 240 VAC; 20 Amps @ 277
VAC; 2 HP @ 250 VAC.
Coil power: MR499X,43 is rated at 24 VDC @ 85 mA.
MR=199X=14 is rated at 120 VAC @ 85 mA.
Temperature range: -30°C to +50°C (-22°F to +1220F).
For MR499X43: -55°C to +80°C (-67°F to +176°F). For
MR499X.44: -55°C to +45°C (-67°F to +1137).
Dimensions: MR"199X43 and MR=199Xw14 is 3,13" 79.4
mm) high x 2.5" (63.5 mm) wide x 2.31" (58.7 mm) deep.
MR499X43C and MR-499X44C is 5.31" (134.9 mm)
high x 138" (85.,9 mm) wide x 3.13" (96.,8 mm) deep.
MR SERIES RELAYS
PRODUCT LINE INFORMATION
Model
Description
NRal 01[T Single SPDT Relay with LED and track -
mounting hardware (UL recognized).
MR-1011C
Single
metal
listed).
SPDT Relay with LED, mounted in
backbox with plastic cover (UL
MRm1011CR Single SPDT Relay with LED, mounted in
metal backbox with red plastic cover (UL
listed).
MR=1 041T Four -Position SPDT Relay with LEDs and
track -mounting hardware (UL recognized).
MR=1041C Four -Position SPDT Relay with LEDs,
mounted in meta! enclosure (UL listed).
MRwl 04/CR Four -Position SPDT Relay with LEDs,
mounted in a metal backbox with a red
cover (UL listed)b
MR-201/T Single DPDT Relay with LED and track -
mounting hardware (UL recognized).
MR-201/C
Single
metal
listed}.
DPDT Relay with LED, mounted in
backbox with plastic cover (UL
MR-201/CR Single DPDT Relay with LED, mounted in
metal backbox with red plastic cover (UL
listed).
MR,w2041T Four -Position DPDT Relay with LEDs and
track -mounting hardware (UL recognized).
MR-204fC Four -Position DPDT Relay with LEDs,
mounted in a meta! enclosure (UL listed).
tI�R-204ICR Four -Position DPDT Relay with LEDs,
mounted in metal backbox with a red cover
(UL listed).
MR=199X1m13 Heavy-duty DPDT Relay only, 24 VDC coil
input (UL recognized).
MRa199Xw13C Heavv-yduty DPDT Relay, 24 VDC coil input,
mounted in enclosure (UL recognized).
MR-�99X-�4 Heavy-duty DPDT Relay only,120 VAC coil
input (UL recognized).
X-eavyw U
ty DPDT Relay, 120 VAC coil in-
put, mounted in enclosure (UL recognized).
COIL VOLTAGE CONTACTS MOUNTING LISTINGS - wmmwmw� RED
MODEL UL, COVER
NUMBER 24 24 120 230 SPDT DPDT DPDT Track Spacer Enclosure CSFM, ULC (Add "R"
VDC VAC VAC VAC (IDA) (10A) (30A) & MEA suffix.)
MR,-101/T X X X X 1 X
MR-101/C XnmlmlX X X 1 X X X
MRA04/T X X X X 4 X. ............ X
M R-1 04/C X X mmw -X X 4 X X. X X
-.01 miwmd
MR-201fr X X X X 1 X
MR-201/C X X X X 1 X X X
MR-204fr X X X X 4 X X
MR-204/C X X X X 4 X X X X
MR-199X-13 X X
MENEM"
MR-199X-13C X 1 X
M R-1 99X-1 4 X �
MR-199X-14C X 1 X
73
n..
V 0U U 1 4 — LJ 1 -9344 f I
5
GENERAL
System Sensor/NOTIFIER offer a number of accessory items
and replacement parts to enhance the use, maintenance and
testing of the smoke detectors.
PRODUCT LINE INFORAIATION
Remote LED Annunciator
The RA40OZ Remote LED is an
ont
,--ional visual annunciator de-
signed to provide remote status
indication for all of our system
smoke detectors, duct detectors
and beam detectors. It uses an
active current regulator to main-
tain 7 rnA of current within the
specified 3.1 to 32 VDC operatm
ing range. The 2" x 4" beige an-
nunciator mounts in a standard,
single -gang backbox,
Remote Test Station
The 400/500 Series Duct Detec-s
tors and 6424 Beam Detectors
can be tested using the RTS451
Remote Test Station., A magnet
is used to activate the test. The
RTS451 KEY model, for testing
2-wire or 4-wire detectors, in-m
cludes a key reset switch in-
stead of the magnet too[. The
RTS451 KEY(A) is an automatic
remote test stationO
Remote Sounded
LED Annunciator
For stand-alone conventional
duct detector applications, the
Model APA451 Annunciator con.
sists of a plezo sounder along
with alarm and power LEDs to
signal trouble in compliance with
NFPA 90A. The device fits con-*
venlently in a single -gang box.
.7
...... . . . . . . . ...... .....
RA 0 OZ
CSFM 7300-1209130
-E VOL 2
FM OV8A5,AY
L 2
ULC CS308
R T,%^.-> 4 5 1
CSFM 7300-1209:129
MEA 427d-91,-E
FM OV3AO,AY
UL S2522
ULC CS308
%P
'6
po""
V'7
APA451
CSFM 7135ft1209:143
M EA 427-91 -E
FM OV3AO.,AY
UL = S4011
K-220
Detector Accessories
used with
0
Syste Sensor/Notifier products
Catalog Section: Miscellaneous
Relay Modules
End -of -line supervisory applica-
flons in 12- or 24-volt systems
can be handled with the A77tv
716B Relay Module. It is spe-
cifically designed for use in 4ft
wire systems%
Removal Tools
June 4,, 1996
A77-716B
The CRT400 Cover Removal Tool simplifies
removal of the tamper -proof covers on 400/
551 Series Ionization Detectors. It simulta-
neously depresses the three lock prongs on
the top of the unit so the cover can be ro-
a ed counterclockwise and removed. It can
also remove the cover of photo units,,
The XR5 and XR2 Detector Removal Tools
can be used with any 400/551 Series Plug-&
In Detector. The XR5 is used with the Sys-
40
tem Sensor 400 Series an he NOTIMER
CPX-551 SDXo-551 d DX-
551 ThP_YRPiQ"c=rivvithfh=
NOTIFIER SDaW651, CP-651
SDX�751, and CPX-751
When used with h XP. X.
V
ension Poles, detectors can
be installed and removed u
to 18 feet overhead without
ladders or scaffolding*
This document is not intended to be used for installation purposes. We try to keep our product
information up-to-date and accurate. We cannot cover all specific applications or anticipate all
requirements. All specifications are subject to change without notice. For more information,
contact NOTIFIER. Phone: (203) 484-7161 FAX: (203) 484-7118
(a N OTI F1 ER a
12 Clintonville Road, Northfordl, Connecticut 06472
XR5
ISO-09001
Engineenhg and Manufactudng
Of I&
Quality System Certi ied to
Intemational Standard ISO-9001
CRT400
-ft
q
Made in the U.S.A.
DN-4653 — Page 1 of 2
�i p4w 4� w T
� ..... .... ... .......
7:� jz'
A
m IN
W 4t 4;f
46 At*,. ..111i M
4B
ill Al pi �A-j' , r* di,4. a ;r A.
�'.Vl. i 41P
trill'
p0- f0c -N- W 41.
w
4� PPL
4r
I
, 41-
4e—
NrOL 'Mom
illill ", 11.,4. �, , .7 1 w
A a,*
-T A?
Dr
p iftm U
-- ---- ip
TV4
A'�'k 4 N'W
G
MA. M��
7"
Fast
T ab
-18
4.26 2. Wire
Lead
r- .0i '.. -
w/Tov
Plug
fill
Wire Lead w/Toy Plug
IPC636ON/B-1 36.0 4 6.25 3.35 6.95
6 9 5
a t
6% VIM
.25* Fast Tab
AM
cr
N MA
w %"6 Oil C�-
ol ;%
VOL
Wk
KIM, . ........
I a
',o
4W-
jj�
I � WN IF I
2 R
M �o
�0
Nn
'7�
LI
6. Z�.I
-a
6vl�
A
"4
IPI
PC 1212 1.2
'PS. 1229 2.9
ftomon I PC 1240 4 ill
rPS 1252 5.o
PC 12 100
PC 12120L
iTS 12120
tw!M-q-
2.60 .187" Fall Tab
2.95 .187" Fast Tab
W�
"flail
Bcj
'oi"
sk
-A.
R"
IV
71�
or,
Orr 411
T
Rctw
IYK�
w-
-g lk4�'% aq. -
mr
-w "I ,V�
'w 4 44,5 6 il 1 .93 49
PS445
440
., V.-. 11 3.7
2.09
53
PSG,450 0
4
5.0 1 3.54 90 1.94
wqp, F.: W*
3.70'
54
-7.( -2.08 3
Air w
-PC,470 49 2.87
2.52'
Ok 4-b
PSG480
4 8.0 6 3.54 90
1.94 49
PC41 00 4.00
10.0
4.02
102 1.97 So 3.72
P5605
BLU11,JT WIRE
6 0.5
2.24 57 0.55 14 1-97
.,c pm AW
Aq,
P�4
-p1O-- 11W Z47;,
'k
4V-
Ar
wn' ,
- -0-;;
A.
rvvw
1hp
MW-'*
. 1A.
ON
WAN*
-1- 41.0
4
Ow
of.*
V
0,
1Fw*
im
.Ohl
." - -,W -
zp
MORPT
1 4P.- *4 -
Lip
4A.
Lv
'A
w,
7) C I
p
8
-OM
PC1295
PC12100
*PS12100N
%Aft
PC 121 20L
PS 12 120
7z:;�v
JC 12170
PSI 21 7OF
4�p'
g,
j, ge"
PSI 21 80NB
-kr
"CIF
JC 12240
�X
PC1 2260 (F or NB)
F
PSI 2 280,
A16p
PC 12400
t .'s
'g'A.
U 1 -3 1
lap U 1-33AG
m
*1p mt,
GC 1'2400
All T
GC 12550
t �*Lj*
GC I 2V75
m4l GC I 2VIS10
a
a
0
a
0
a
9
a �: -. -.-
0
0
4.0
6
5
3.7
3.7
2
4.6
D
-13
-�
0
Fh.
idw 83
J.Z 0
'W� -dor' _MFIr I dd6M&
PF SG24
*A 24 1 64 9 0. 2 8 261 6.85 174 840
H w SG27
8
27 12' 80 9 12.08 307 6.85 174 .40
SRAA-SL27
P,.;g 0 27
12 80 9
12.08 307, 6.85 174 8.40
"12% 85 174- 8 .4 0
29 9' 13-02-- 33 1 6m
SG4D
4D 12 154
AUT OST
Ah� �-V� 0 P' 20.78 528 8.7 1
221 8.83
SG8D
8D 12 190 AUTO POST 20.78 528 10.99 279 8,83
Ab. .. d- ......
�5 In,
4 wr�
Z
s3 Soler
V;,
Y,
Xr Mm
d. W
F]
=- z� g:;%
"
p R__ P t-*4 I-= W
P
rD OR., "
r)
= rD = ::� =
r;) b&.& a �� Cl.
Le) cn
D-b � rD C-D (*D
02 ZZ m
tn
..*
Le
V_
= 0
C/o
=
WwwwJ
f--Ilp ("'!,11
0, 4 .004
.L . " P!
m -.::� " ..,
r-� Lf)
0 r. " P " 0 (A P
r-,*
�� n . EI CA ::3 =
E4
"S Cr
UF* CD ....... .
r-1.
Im
uc D 111111110'
P m
.
CD pv
m
, cl. (D
= n
E4 a
. �
.n P
�
n
;�! P -e, r.r m
lb-11 0
-
_W�
US (" P-1 CD
ha 4
m
r I
�; 5:�, r_+ m -,:: I�L
" IP
E3 0-C3 9 Cn rD r-+
Ln " t v
CD 0 m
o cn. ;]
0 V4
I. -A a
� .
r�l ,IF - r
C) �5 . Ln " P 0 ,� %
,I.. oI-IIIIIIm
M
M P.
= PL
= r-L cn D-Pdd m III-*,
-.0
0_10�
@-%p r_: = 0
vo
0--mo 0 D " "
4
=. P-Z I
(A
(A :=t- rD
!� o _0wFq
.-a
(A bpomm"
op 0
P �d
n H
0
:1;.1
C:: rz P-0 9
�i
Iwwwwo
,C� - P
CIO
= .
r.
= _W
P
21
46 .<
1. t;* " Ln ff=
*-0 := c=- 1:.00
lPPR_
r
too",
"
4FIN-6. P.-Od
=.
I
"
f-011, % .< vap.4
(z P
"
C
(z
"Eno . ��
5.0, m lkh�
CA 4k _<
�4' "Z:)
m �.� b?j
rD S, a. CA
:::S
rD
0
H
=�
6-1. n
0 " 0 0
B".
- I
_<
::I
m O.." 0
-4 CL
J, I
ppm"
R".
B F. C> C1Q
0 r-. - I- V;..;
-
r-:1 -<
= _Rol: :� "
rD n R. P
I .� m
r_.. cr, _10, r-mr),
rz r= g r a"-* .5
-4 C-140 0
*-.* 6
r" (
'n
F� =
0
C:r
I
:�� 0 t.n
-4
pmww� r-,l r=.
:=)
0--i
P .
P r%`1 "
ff ,bz
_r*
.. F-0
V-111 M r--r
CD 0. 0 (D
M ..0 11
-c!:
�q I. � P
"
.r4 _0
= I
r_1W PZ. cr E? .
F-Iwomme -9
5,W IMF"
U r 0
1ww_j dw,""r r-W P
n
::::r. I M CD &-ft--h
" "
0 cl C;
m
rD '" M *
D
.0 (':I Ln
=14 m
=
Lm PJ
C= " i,c Rn
0IIIIIImb W . V;m tn
1_"`l
a
. 0
(*D
=
" =3 " -
`I4II
. E�
rW1W m
-
a . .e r_i�
M
"
CA
W111*
0 Sm.-O ID :5 C)
uI,RF, W-00
or, P...
m (Z I-=
t��
r _1
n n �::p
ro0 3" """'w""
m
oql.j
I.....
�_ � &= &
P'a
��
Ln
3 mobs
a IN+
IN+
(D
no a ON
0 0
"
M
,a
a
Ili,,,*
on M
(D M
on
"
14< %<
ti
Lm
N< 12
(A -
an#* � *
(D 3
(D
W*
N
M
cl
e%
tA
%%
in
=
"
I
16
-
a
- L
. *V. 4 P i-,' I I.., I. I .: .14 4b I '. I - .t b ; I - *. 6a�% * - I
' ,
L * , 0 I.- . I I . P.r - � , � �,.i,: L6 T, .rl . I j* I
, .. a. 4. L.' .,,� . . 1. .'t '. L.1 % ,1! - .. 4. ;. .,t ILI ." I
L " . . . .11 Lf
. I 'k . - ! _�P. , 1. (I I
� 110 $ , Nk . I f
I . I W. b
d Is ., ... - _ - �, .. .
I v. , 11
I f
*W
I ., I !:,T.11. s'.. ) �j t, .. I I % I., .
p ': . 64. .;r ,
, I. x
I .4' RIC I'; .1 . J.r , I 11 V
,
. I :1 . ov -I ; I �ftr I' I , - j �
- : ;-.�. � ..(`1,;i,k;!'.� .1
I V ..
1, � .. I' , '� , ., I . . - I'll.. , .'"
,. . 'I I , I- 1. -1 .. � .!,--. � I
. 3 ipz..
.
'*f �
. & - L ob 4 -4. .'.r t Nujr.
.
r . I . A 4 -
: . 'OIL I . - J, , � , L I4
IV
: � 0-; k
. I I , ��O. L$4"l '
x . .
: I ? . -D T �1
.
'
L,l� Id :. , G "
' 4
: ,;I - Y.
l I j ,% *..
,
-
. z it, ,�p k - 4 .
*" P Is �i 1�1'riL� I rp ,
r I . 0
RAP., ,�- t� ;IIs; i " Il " " *4
4. 1 1
'j '4k.�-
. . . 11 I -
I. . 0
, , _
_)I
I
. 4 .j1-,**- I -M zk,! - I. I 10 , , ,
o*. . ; 't. I 4 +"L.. ,
.4
. If& I . ,
4rd . Id, �k 1 11 I *�4 � -
-
L I, Y 4 .', � - . . , , �
. 0
I 1, ,
. I. I . I
.41A.- r
Ut L.�" r
I I.
. -1 �_ t !�
- ��F. ik
. t: A tl
. . 4
.
dL7 �" I � , _. 0 -
-j I- 4. 4 A SP
'T. 6'. s ,*. 4 I ,�
D ,.T
. . . R P.Pt
0
. . ---
74 11 I il .. 1�4.
41 ,
. .
.
. Pp I I . 0.� I .
1r, (
; I . : 0 i
6 :1 I ift is r,
I , - .'of .+, of .,. �y "L". I - r'. . i
I I L4 , �
A I r. *,. I. I I I " I,
)r I .. -
. ,� .: - ..: -
9
. � 4 R.
�L i;r I 1�_
W 1. %I#I 4 , I
,g
. a Is . . I
, I
0 V 0 ll, %I. t I I -
b; ' �,'
j t'W� 104"' A' 0 t. - I
I I - 9
I F . .&k.; - LIP 0.1i " ep, -
I ,�
;
1$11 PL
4 I 11 $�
4% , . I i �
vel. 1 L' . 1. A
I
� .q i Z ,,9 i,
�17 1�
I f + i 6. 1 M. �! .
6
-
& v 1. -. r. -,
;i +7. ...
0 . I F, &
% . c
i - I
� �� t .
izi !) .. . f
- - � if
. . :t - L, - I I
46' . I ,
- 'A � '. .., Ck . It
I ., " F. I r 4
p4t r- i "'m � 1 41% 9
& :'. .1 - ,
.
. J%t . . I
. .
.4
.1 � - --v, .. I
, t' I L A F , 1-.-�], 1. e j. -
I I
11 1 4�!' ' ! F . I - ir V �. .
0 14% '� , RIP
-1: .. j I 4 W� . 1i I
* . i, 11
pP 1 d&
- - i
.
1% �, W ,* I
., A
... " - a I .
. 1; t V. I � _.. tv a - - - I . 4
!, ::I j ,v 11 - r
,
'
. I I �
'
j 7 - i to ,r "o ,
. I' 1�, , hl k, 1; G. 'F;4 f?'. I r... I .
1 "I' I ; ) . ot MI P
, . 0 - I ;4
1� i V
I
I It 1k. x 41.
"" I _9V
I., I I..
IF, I 1"`.� ;
Z r 'it 0 i
1. q, ': %r : ,,,,,r -.0 � T'J* i" ,
� , j ., �f - iA -., . ? �j . . % it -
I I . i, 13 4 .
; I r 4 1;�_11
k& " � f , t4- S ;.) i ,
r
0 74 , : . i . 4 �_ � " �',. i r &l.-,-. ,
I J. i I .. I h l.',�,- -k It: '.
!F6 J. Z1. . ,�. i, ,%
- %J
- 'it ,* I .r.,
I " -
4 , I I 1p . . ) . � I
- - I h� _� I
, 1. ,!. 6 *M,4� f 4 -iLl", . I.
,
L v . .
o -ALV.... . A 11. I 4 I 11)
- .
. -, FA , � . *�'.
1� 4% .1 JL �
, I I . , 'A
1� h '. 0 - i.w ..,k ... *1.1: ,4&'Lit�l .
10 r
I P,. .�,F,g , �I I
- �i ;1I .., I j :
. 41
i,
, " . �,., i ,
P
. i I r . I t �, - : i; 6*. �. 0 , , ! � *47011 41 N . I - t. :10'�'[ �t
I - Au
_
. : .. . �!.i� -t .P
-4 . ; T� % .r,;!rV.itj- .P I.-,o
- � -1*0 - ,� 7 , - " .'
" , ' ' ' ' ., - .
-Z 4P
T �'.- - jlr'j4-'rj.6$I 49 f
41 1
%II. .;& jk,?. "
. OA -*
-p.;-
lip,
d .Rk
::. �,'k
-j�. .
I - �
�- q , J'jp�
r j It 7.: .L�,- k.4�0 14 . - .. 4
4 , 9 .
0, " � *.4F
. §�,
I ..c
i ,,. �- 0 I t',LZ
'0; 1W Ir? A * .
I
. , . '.
if P s .
* I A h
* I ., , 1,� . 0 I. .1 I ! � -
-
h Y'.
. - 0 §* . P , 1.
I t .1 - 4 4 .z:0 - f , � k ." I - .. - & . jr , X, ie� ..I..
4 I 4, �i- : , . . . I ,� . .
I 1. 41."!t I � �q- ii-o * -, !
,
WL I
"I '&I-
. .
. ) . I . -
.. i .." I. . I V1. i 11! m� NP - - :_ . ; �
, - .�.'4)` �
k . .
I � tO, .
. I '. Ij F
. !� I I ii , .. , I?
'.. . * - . I I . �
;- I., 8
RIP
I I I
i . - 1- * I
. I I I I Fi-i'+ �� �. I
. . � L,! 17 I'
,
;1 IL 0", � ,
rj 4
t".., 'J'.4. - .0. , .
I
,v ,4t j �-�--' -� I
�.�,il- R'*�.11
10' . 0 . . i i P, '... I. ... -
I'. . _i; v I . . .,�4,
� y . I. �. L . t, jol�
IR 4iL ! .P I
I ,,, -� ,
- .. ... .... -� �-;,,..i - I .
, - , F - -0 - -
-t Pop h., -'. , , 4 . . _. - - - - -- - - -
.0 d4r '.. , d . I ". I, 46 6 ". . - � . .it W-44k"o;. I. .�-.? I.. I. - 40 f I : -
i s ; .. 1P , �,. .� �%,*' 9 Flo, .I.VF1 I ..,
, 11 , I- . '-& I I ,?�'. k r ..p .I-
-
4 * I y . LA
Y %.
t - 'L I - ilk ,
-1 & >,r
l; 41 I �
- I 11 ""�, ,',F) r jh P; �
. .. I 4 IA ).,I
i,'A 4., ;:5b,
. : - I I
;' ."A -A
.
�
. L, I
.1, 0., I .& ,0'-ij(- 'q�-?7
I �""" 0* :4 6 f
, *
.WLI. �p
Ih.
, .k" WC, It t I
- 11 .. - if u 4 .I'.
- I
I fm 4 op
" t, �-i--.,�tvifr- I " I !% �-114.741'.
,
.,;A -, j I ._�:L .tll �� - � .
.'. "" . 1A. -%Art 1
1� 1 % I j A"
, ...d L- L . - $ n't A., -. - . �
* *. -X, .. I jl� u wnv-
.A
t I" . I . ed
'� 'I , , .'.I
4 f It* IP tj k L - - I I JU;j[dj IF , - 71
- ju " 10
# .' ';'
I 1? - - . - - 'r- � " I'
t . �t-jl!-' t,
ILI -.1 '.r Q ) I "I.Ir _P:'�,
�:", I_ I III I W.jFLIP �kkjj,
. In i� I i (�2,-.:, ,�l
41 ,; - , "1% L
F.4 t
.. , ;, Vb 0 - .ry I (
"M _I_,sr .% 64 . .
dIP1j%
& .Z, � a (� . P
.1 . �
- Z)rf I _ I? 4. �,
_
T- k. S .rn
: I d. L . .
W1. �11% 0
III + 4h ,.' e. !--lf-r.;j�11'.'- 0 .ir 4 . 0
" J:
a ; . e
- �+, 4. .
I � -1 k . ;. L ;i I �" %rd
.
. J�
I ... 469d...L A . yy - �6 . .
I - 0 . . I. -j
I
.
. .:.
%
1
.. , ,
I.- � .
J i
L .0�.,m F r
.
11 " �_ f. I 4; ,
I. . --% -f - * q ". , ,.j.
I . �a W - k 4( k .
. A .
41 , ;7 _� '" !
. L .4 - -
. I . - �. I '.$I* 41
I 71:d .. , I.-W.., %4V_
- .1
I � 0.
� # g� 4,
:- - , �' t
�
I . I
�
,
;0 -b.%Z - - -.1 ,
14 , A .1 ,, 9or
. % 11
.IF
I 04 a I.. L
.
t'l*;,.
. 44 X. j jr.j 6M
I I f .,. ..
. 1.
'I Ft _�
. �:. -
.4 M MM-dFPPMMVM
.
.
r
.
,
' :
. �
. 4 . MY.
I f J,,
0
VL I
, 6 I t 11, iq: , . , I
f; �. I ,
Ir
I. LN 0
" Tr . kL�,' I
. .. f 16 - q .
t a ..! ,,A'4 '' a
.- . , 6 � vr:j 1411.y"h - jA$1jQ1 Jf
, �. L , -
.'ib, 1. I. .111 :IcLl?p _�4' 47r.
� lk I. 3% 1� I - �-.*, - ) Wript. . 1'li-4 " -
I 6 .1. e . IMI, 4 �1- p'. *. � , I ;!,L.') MI.
. " ef��4
. .,. � .
I . I ,
1. i4v A :i
- I - - . . - , ,� r!
4 , f . k . IF r I .N.,
I . . - - %s 4;L L. � I ' ,ljk,.Wq1
, Z J�V r ,
N . .1% , . As .
..tj. ;A I ..W .
I I . -, .
. . ,�t4&461. -,.,, P. - - - i1j....111
* 0, I. . . 1A 1%
APA4
4 ; 4'.. ..,..I: -T 6, ,L .01.1
9. 1P.. '�� - r A'. ;
I I - L
; : .Y. �[ -
,
, �. 14, � i a O.O. a. I . -
-
.P7.1 'm I W - uOrl Wk NLO-
; P. I*. id'.
.Ilk
t r
. I �' I , P f ? I . tj i;% �%-J, I ; I 'a f"! t Is , K t. i 0. .. . 8; - ., ? t.r,!+
- , . V '., , 4 . f
. 6 I - jv� .if% I
. I - a .
. WV - .;Pm . IL ,
I 4 .
R.-i , .,
I . .T.c 14 01P .!. (
10 .�tj'l
. I _jr
4 0 .
4-.PIL .
W 4 , - -
. 1, b 44.r. -�l. To. * ;
* �., % A. of. Fro. . .
. . . - , qt. - r :
,
IPP. 10 I: .;. 0 * &A , r.. I - s,I: .0 I " 6' " 1�,.4�r,
L#
.3 � I k I I .� �..4..*
-.1 %, . !P 14 01*
?4 % I " .0.11 'P.
. It I
.. .' Ah
- r - '�- ir. - - -
.. .�L- R � - , .. . It
I , . ,P � . . !f I
,�, .0 aqi V. - " I)
. NP s : - ...
_. I..
16 41p, . � - �; - .� LA qh , _; Ir...
, I � � A . I
. J,
Ir e -I) F I '_ 4T"w" 4 . 1. i R" ji! �2 ;Ca i _
h 0 .
' "
-
V,"� !' - "" q.-
tw�;o _. k ,." .4 � - - � :,�
.
I IF
. *AA I
. a , �, 4W." .1, tt V
'W 'ir.** , 1_411WI.ej� 1.0
.,. .
I .. *� 4 or llriq
- , 4
j
--,--*, x 'j. , I -�,nzy.. -
40 t. k� L '. I F.
_ A S_�
, .. " -it
ti ! .1- -1 P�4- .. %. I IL.
:. �t ,
. I - , ;
. 1� ri� ��I. !, I FLi_4 P I . k j
.,
P . r .. �4 PO = . 4 - TT
. 4 -0�- I *)' FFF%1-7i, -Wr
I 0 � .
- P4. "I " , :, t,. :, .. r a - � -. . :4 J
`40 �V--k 9
- - r,, � , F
A " I,. -.J�4; h.. r4 lq�
'd, lf, 14. It, I . �,h I - . .4 P.Wilort
.1 L J.- I. %
.
I*- . 1
.1 0 .,. - . P.,4 . a A 'd . ..
it
. I tt- "
I , I T- -RP- -b:
�i it -�,P t., ji.- �.4 o- D�f.- . .11 .e, 1111 ,.,,'or 1
. ,
I � , , 1k , . ". k. .. ..
, P. v I �0 ivvr '-x,
, 0 9 I I d r I
) W .
Ce 4. 44. I _� - ,,, _. .. . *j I k
s . . 1. *. I
. '.. I*." IP'. , . 1.
, al I 'r.,
- 11 0 I- -, A , . . f-a
I. , I I .10 � ; . PA
I Rw .. .. .. 16 -P 4 4 � 4 -
- - - - .. - ...... .. . .. . . . . . I
0 . . '. ..* i
. .. - ,
JA . ,-. -.,, .. .. i ,-"' - ? -. U,p ., ,
. . � ,I.
! I .10 1;1 - .., -
. .P -0. ,
_44 - .� kp'.'. -, t
I I 4 Wr'd in' I ,
I * ; 4 . #.-. , , , - F. ;.,-It V
4..T., ; "
: I g �.,
I`&
.
-� I , i
. I. - I - I. , :.I -k
..
. I j . �vv -,I ... 4.
,
� I � "
. . . I . .
I' k .
004
(D
9
z
C
604
>
z
0
0
to
F�_
"
voww"141101
W
Z
%k1.0
EA
>
M
>
C:
"mi
%;
0
0
04
tA
I
ts - I I. , . :k 4 t I - .I' � I '. . " , , - -, 0 - t , 91 46 , 0 . . .k, I
I I . 0 ."L, j , t - , -
'm m , 1,
I
J� " - I , - .. .&- , I "b� P 'I , , - : 0 , , .. � I 1 * mp L , 0
I , � O.. &
. . t- - , P � I , Mk, L
. 4 4. m 6 o m , I , I � 1. m , , 1� m", , I , A'* .. I'm mg -
, I m m t � IV. ,; , . m 'k
- m , Is ,
.�
I ., m . - 11
I N.. m , . 4 -
L ;; - ;� � - ,,�
0
,1P N., f 1: 0, -A* i .r 0 ml 0". . � - I ft,
m " . , 5 kj4 4 * 7, U. m :,; �,l
. 1. k s P '4r �� , m .m I , 4. ? 0 mqj� ;Lt'M I .
-
I . . . . . I - -
m
.�; I - Ar
- M4 1W , . "� � N , . ,
- m-
- . .
. '. r . .. .
. . "' t ; ,:-61% � !41L, I
I , -
. , . I
mi. .
m
m; 61 , - � 11 I-
I - f j lk I I , . I m 0 m
I
I , 11� 'It .im M ,,I M. 4s�- - ,-( I 0�
, - ., r jtMt . � i jj - . -m ,A 41 It. f
, il ;b I . a. . . - % k m�
.1; a k
.
'i F it M. Yap-. I t
� m . .s 4 r. . m I $ mo,
A m -m I I I t., : I I. 7, ..47 'k .
. , . 'm I. 1-ft C
(
__ ,wwk� ,:,�t I , 4
, 1 4;
. A
, I , - j
0 IF - 1W 444 jj
.4 -_ -
, I; � , f-4
mi' Aid .... ", 'I l . i I'm ig Nt �Rlv
W 1-mm"i 4T I --gm
. . ,�; 01 . .111,
4LL d. I, . pq . � i . . v
.. &
I ,!N , .;i
r!
if. -j . F, 1 k'�'. .4 .
. ) J- . , . A L
. i4j, ot b - ' r. $1
.. A . r,x :
I 11, , ,-.- 4 ht.' , 11' 's T ,
, I 11
�.. L .
I. I t . - � . - , - . - 'IP 0
I � . I D F. Y:_
. 1 94 Ar. H ( k F. IZ 41 4,
. � ''-L . .. .,� ? d"(j . , I
. - em ; ?'(6A _�S
'L
... �, kt - . - - I %
if. - 0 o:k.,#.
mtj : . ,
,� � *
_,J. - f ) 14 � ;�q -rt -k
,
, . d . - , If CIO ; I . I , .
.1% Ir ! " 111. 1 4 it-
1P � I u *
gd-, 4�', r . 4 A
.f..
4 4� 1 . - L'o
.., , vi� 12.�� 4r :1 -31 �- - 11 - I -
.
. ;,A I . 6 ". * , fs W% 21 1 7.111 , .;4 . . (,�
; j T',
I .4�. 1� 'L L J, .1 I
., t ,' r ;�rl �
, ...
- Alt " 0 0V - -
'.. '? 4;6i (,,. , , �6; � '� r -:i I
.� j ow I I � A IF d I N -W
% -.,( 4'r, .r". ji ; .1 - I
. �
. ,
- - , . I" -
_ .I !J ;;4 " - .-t ! . 7
.-I . rj ,
t) . I , F . - �Z.
- 1111; � - ' . 1 4 � , � .. - .
.
I i J.? . '. .4 I .
_ ; " 1, " L L-.� .. lit - I .
J.'i I . dy- 0
I 4kq' b% ItZ x, �
, ew: N
t - r I
� 140 tik'. 4 4r ,. � V
I q)j 0
I -J�� !.. i I- -� I .o- I I
`' W k4 ... -
. . .1, I ) . ; - $ 4 Rk -
, I . 't.. sf 4 W 4 4 - 11%� :4 � as ., , L
, � m
1A .btj � .
-�� .�j 'T - � . - ig - .I,_- .!
'I ' * t il � " '44, 1 . ... ( f.'.
q. I .y. 0;.-, .4
.
i .6 od - r I jLf I Z
* .6 . * & * .
.
: V 1, 4 I ., .-W
: 16, 40 1 L �
. '. h I. A i - f. 01. Ib, 4 NIP- I .j . 4 p P1 .
. r , k If - 4... ; � 4, 141
I ( , . I
. 0 .. 1 0 L.ei m ; 1%, %%� .S.- 41' 0 % @I
. a . . , I I
. - 1.
. y a � ..Y, � 1, 'JA -d I I t. V;i ! , ., , I r 0 is� L P'' k L,;
F k. is ...
fg, I ,I- ,*;Vt I , ,� ..-d -
.-4�
�j I
, I ti . .:.
r. � Ji hc
I ., .. * . L .t ,
Ill; 0 ir
. If,. . . ... I , . . va, a , . t L . & I I I j I
I - I ; L, P..p .r �. I. I I a pyr.. I * I. .
I �j I ; .� ., I I 'b" F 61�
- . .% , ,1� 4 0 A ,r - I
, "go -� . f I *4M*- " L.;. "', . ,�.! I -'. I I ;4 ) �
:. 0 - I .1 .0. 44",
.41 -0 r - S, ..
. 0 �-j.ri.f' .1 - " 14
d - r� ..� 4'.L.p _.�RLA It *. b . , OF L c S %I I r t �
; 44 . , . 6 4 '_, .. _ ,
.
'r-, '. "iff.. I , I , .
r 1;.n &
fA f. - - 14k... - -
, .j. �4- - .". �,�fi�.
I 1. 1� .. -,t -
I � ,
h4 "
, ,
4 . , .j 1. ,.* A � . .j. , L ai, -i .i � " 'i r4 .%i I i
. , .%! , 0 '..
-il ,. .4r,, .I, -,.�. 4 'i �2 6
-
� Lf ..Y
W ;�t � .Lt - -I I f �
� -i
, 'q. 641 f v
-1 I
P :; )'� , RPL 10 I , 1 LA �1! 4. ,!. 1-P: i .-t
i . � r4 4F I
. , , Pk** I j , I I , .
. : i ; 4b �, 6 L -
�
'a . 4 4 . L I., . ,16.1 4' s
4�1 r ( 114.4.
-�N.t .; - -, 5 r.. , I d, ,,, i 6 - �: , I .-
. )a - ,
L k) o
t Co .i ." 1% .14. ..
* t .1 1� 4 - j - 4 4
-A I , , L -m ` - ,*.
�1
, .. r i 4 ,
'k Pe �0.�
) P, j 't - �5� .i,js
,e
, '.4 �5� I r - I
. . . V%.,It , 4 h . I 0 i!� .... ; . . tr
't. L .;*S
. L
.. .. I .
dv'. -� . A ,�J� I I
'., - -i ,,,
'It*c . �;, %�r .-O..l 'tjl f. I
L,
" ,I G - q k ,.� , �, � .1 -"It - - I, - I.
4.ft . .., - .1 �x. ,
11 SY 4 t; A
11 . - .1 % J'L
.? ,?% j Sit., ... ,;. 1%, I
. 4 I * - & I . If, .rt
, I . I I , , , 0 '.I &.* � I� %
. .
I �fj, --Lt
' 4L $ 1 t' I . Vj , f
I I. & �P';� j T -x *40 - .4p I JL h U? . 'Y -
, t I. '; ?. 'i I P It ;. i j t �j � k
I 11 1113R.........,... I � I q � V; -� O . I
.
.
, I I I I _.. IP 0'� 1� . , , �. . , P4 -
-* , - - I
I 4 , , I I . , I w. P. .;,I I , 0 I
. - . h 6 � �_,;_ , 1 ,.64 '. ,0 .T r
L� , � . - . '
.. 9 4L 6 1 a
I I '! 01 * -P 41%1
dq I , .... &.# .-%It
� .�i I I
I 10 . 16
�.
, C.- " , . , ..
41 �. 0 1 V1 t , %&P� S6 Lit
4. Ala -4r, - -
� iv. 'h r 40 I % ,*' - 4,;
. -
'
L 1. I I j I 4'* *� -
. .
I
-
" i . . , . 4 , . I IP k . '. - I; , I, * . I ,
. , . , . I . :1 IF ?.-.I I. a 1 , I
4. - qk :.qfL, . C1 `� i ..
r i4i 4. ; . _� i " . . k. ;! i�� t. 4
I I � r 1! � 11, . . Im f
R M,-- .. � .. I to" 1. - I - - - I -sel J! - r .�.i � ,F -, I
,
, : I I 0 � � IM (
, I
- -W V. It ,
. . , , - . . t, � ,.-i , !P " - pi� ,
. , , d '? .. I, .,.�
, , I J, . . 14 , .4 i� S.'.
41 1 o. �'- -.-
� I I t vP. % ,,.', .41 I ., : , I , I , I 10 . .., twi
4 . I . , - f I S , I r
.
, V. h
I - e L �
Ft ;� �
I
I 1P
W
,
- J�-._
I
I
� I I
I L11,14A Lf O. .I- . - P-. .1.;44, .. *. .4 I ,61. I P. P
'. 0 , I
, 11 I 9 , - -
� 0 .1 . I C , A LT I' ih Ps . . I
I - I. - , 11�.t. I .1 * I
.. " 1, � I . �r - � I �;-1 �
- 9 -so' .b of * . � 4 '. . 41
- to, , CW4, 11 - i - 'I . s.
bR. I. " OL - ,- t - e i � I .
, ... y A. I . '44 . � I 4. � 4, IP.
I . r . k P .. a 4 . ,, I. e, I.
4, --I u . * it"', -'- . Irec.,01o'd %
- " 4 'A A * - '. -
. j 1. 1. I 01,
I .. ,I . x . r. L%
, 10 � I J1 R
L_" Ad, I ;.11 'r I . I * � ,."A., �. I "r I ki I
.v
c .1 i
dP
.
I . . �
.. .., r ; ( dk - .
t i i .:1 - *. %+ V4 - -, 4; ill �T � . -
-
. *,�
I . . !.. -4 I � � �, A. 1.� - 1,1;,:..-� Al. -
! i . 4
,
r -
I "I'Re - _.'. ., ZL, - 4.. .? - . I.
` , - iF f. V I .. i; v .b . .1' -
., f . w a'.
4 ! - , - L -4) 'i
I .0 9)110! ; I ,R1 � ; r
S i ,,�i ,
-
L 0?, fi '. 4. _40E� � 14 k"'11161. V_ 11, ;g Y. :
.. , .
I ALr , :k. !s, .j -s
I - - , - A) ,
I .
.
� - I 4 .
. �p
. - .
:. � % m - .--.
V I , 3 - . 1P , rej,
-it ti ir 0
N ;j ..i. . .
g 4 . I
41 .
! I. - - ,
W
-
.174-". � Im . c . k.� . 'Iba t ,
11
. , 50 ,.,Oj. , .� It �x !r )��- I -�i ,
,& .;.c 4 , i'I'sMf. . i .P I .
.',;I� I , . lq,31'" ,61 Lly A0116.1� .. .F. . - L P_.: IV
A! .. .`F. . . rh_ 4�',.,' g"Fe." %� p .. r. a 4 h , f $
1. �'7 . .
I .P r
- . I .�. . .. �. I . , . It.. 4 Ll� 4 �-
I m I . ., ,( I L
. T -t� ,I .�� 'L
. 0 . .
", . I, . I 4... ,..4 ' -L J.r i
� I '1� "6 ., I. j . 0 al 4 ,-.n Ut
.�, *Vk " ,i I ,-,d, I 1.1 i -I
61 0 "'.P,
. .,.
I , j
"&.. , " � ..L
. I
( i ',dl� ,a _ to, 71 rT, I I
. . 'k ! vj I
.-A t - ,V
t Ar. r
, ,:,-W� 11 �_ I V.
� rt�,;. k. , .L a .
. . . , IV 4L "4 t,.q sb+ -
1
h . 14 41
1'i.. .q..'ri-v .. 1.
. 0 rI., " *I .� ; 1;, 9 *
.
. 0 ;?. 11 *
, �,
� . ,., - f 91P I . �, �. I
f
06 Ft - 4 W It F
:-, .0
6 4
-� 0? , - it " *' a� i, 60 4, 0 , ' I .';L.-
. z 'j"W ..'& 14 Lo.
I v - ). 10�� !, - .4 *%
. . , , l:46%, t . . I L .1.1 1. b
. I 4 . � , � P t
I I . .
-1 f, " I, I k
. . I... IF , of.
L 0 , F
. ., � " t .'ll �1 .. �
. -
, - j h
.1 I j 0 i. R.,. - I I d 1. *. 1P . *
. ! -yr I .
*4 1 _ , r. ..' r I
� ,
- I - I - - � !-- � I
d rkef Im '?, 0
...
� �
11 � . 'i
-
',
LqW
I. - .
4;,-, -
:3
al
f. i I. I.P014"'I
. .,.j.,., � All Py j.. . T4
.
'* .
.�! ; ;-.5 ic I
'� r ?I ..
L 0 j S .
db� A Of � ."t I .
416 -�j 0 oV
.4 -e;v I - ,
: "S r , a
. .
l,. ., , ,�r .114 -
_k
- I L.
. 11 . P0, i 4 .1
�* . . � - F_�_v I
� . . "I t
$ C3 - 1W%
,
I .,, � I
-
4r, . t 1,
- I
I .11 .7 .1 " .
-ft, v .0 V Ir 0
. %
W plq,: c
.. ; ob I
I * OW. I �r. .
I Li'. I V 1. f, k I .P 64 . 4.
I t, O. 0 I I
L
.. � � , .11
i1l 1
I - �, "Or � ..,M � -
, I
'
� T �,
V, � , -k I
a . . . r * k , q I ,.b.
$ � 0. e__ 7, -. i k. I., � , * *
.
. J I
�,
. . I �.,.
rh . ; Pl. Ill . III I
, , '.. !d
. *.,.L
. j " . I ogri . o' .,y W7
. I PP'L *
N1 4 � , '.' - If. � . 41 W . �4 -
V
4 " I 14
Pr . � " � . IN . J�_
'. _111,
� V I �= -
.
I F 410 .-P 4�
A �fll 11, '4�
I
I
-
I , .� .bv� I 9 �., IT
I
I - I .-I
OP I- 4P "�Jk',Fp T�j I., t
I f I r, I
t4v� 1L IL
" "
.4 it'. L �
- . I
jaq. ,r A
. k
-
I 1 "4 P10 C. 4- - .kr I") " '
� . 4 16 * '
.% �tp -4s
1L. h: t') ) L, . L !. . I" .'I LL'
;dl I k4li--b. ;.,.j_.j,*-t,_ IV . - . .�j�:
I � ..
� - �.
I . Z W ,;.j4%
. A . i
0 1 � . ��r
- . 0 , 1L*;i..+[ S
t - L ' k
jjr�mlrvl,j�) 4P .'I tl
. L4
I
I I - . " -*.;"L .;Lq-L"4! '40'.
- a . .X j
V ,;a i1F.
0 .jYjX I I. ,
.t ..(t.., , 4'. ,- ..?,.vj,
6.1b,_
I � �� h 0 - I vv*:I, � .%
I I I I
d I � #W .. t nPa q.-.* , .
- k � 4 'qp.. - - I " � � I.. # 0 �)
I i t t. 1.t . ; , k F & _ .j 46
t
.4
Ilk - r ?I .11r, , _� � .t. . . z
I . 1. t I A ,� !!I1,;i I: 1 " 6 s di, V,�, T_ ill *I,
'. ,rl
-I&4L
+4, ,
A
0
". .#,, 6A -L .Ffz;
- . F
I 4 -1. . , c. I I dr , I
. .r -. .� f ; ". ',
. k �si f v ..P. 'IF - - - I' . - �,r -
I d . , d. - '
L . 4 ' , 1%4 r�k 'j.0 L'i $ Vr
t
4 , 'i .... �-L ; tkj;��Jt. I - 4 ! . .. .. . .
L
. - . '. ' I - * OIL & ., . I .
. . t . L!1 I , df . 11.1 4 P_ . . . .
... - ..
. � � * . 4.4
-
I 11-�'. ....:� "I I
.. L ,..IF � * f
�� �,-[ 4
�
iik. .10 . 4 '% if k
16 r 06 , -%.'L . I P. 4 "
, * - I . 47. j
.47 - ..... .4 1 . r I
A%!4L I f I
,
. F 4'. 11 -�
1,; I - jkl Y-12 j �*- 11-� I ,li, P -1
P I:p I - I.- .. 4; ..
� V4
'. .,I � �� I " , I _' - f.%L4 ' a -.
-I 1p"�-. 1.4 ,
B:4 ,�70,:,"'�Jr- , , _-
. _
.. 11' - k. 1. J.
I . I. t .4
^ . I v !44. .�,
k '. rb j
.1"E'. I � .1 OR i -
4��... . .4-141, -�'.WzXi:-ii - " .v-,11 0. , - -,I- '4
-
- .1 I . '. k:, - ,
.
III , 411
.
, . _-Mir
. . 11ft . .
ni I 1
- . I - WhW-*u4dW*_S1vruFW4A4i1
I . . 15ot �. ! 1 ! ! �=!�Ir
. .. -.-- -
;' ,P " j'; 'L' � .. Is' $';I '.. 4. fit I .,p . s
L .'. (AL ., I .. . - ,
t,W'!-,P " �. - , -it -, " - . .. ..L, I - I � I - I 'r b :1
't , �p .1 .. I .- 41 . P.,O. W ,
, i 4. 4 t -f i I I .. . up � 4 �
. r,, Rb lip) I h 6 4 49 P.
I ftl NIL 'A
'I- I ,Pp� V ,I! D "', 5*1 W.1-4. 11�' % - . ..F
�Llrl gP1jnF- .
I ,
I -opt�'; All& PW; I. .1 W, Ii e., .0
4& -* . , 4 I. 1, 4.;-�@. 1 I 0 . �
�
. - 4:�
.1 W V, :. tQ__k.P - I
ri law,!;W. I . j C.F4 0 Ill
g
I --rof- ij_-,-.Aj ;r.,.L. A No
. lip V" Is ;
Rp-i � 0, '.
.
�_..
Nw.'j . a
- _Q "
1 r 0101. 4 ilk
'
' - - - - - V
j . ' ';.'3 ' W .
-$'
i .416.; I.'. �' ' - t
-1 .5k ,
e k .. - IR 4
P 14, !'I, r.�j - L I I , 1161'. V_ !0
1 P4 1 1
,
it ... r� 'I -,Av14!-qJP
. . I . W � L.� k, . . - .0 al� I . I IV - . I �
I . ..; &�,j op'
. I N It , PA"" ,
r Eit L44 _? .
... ' f I 01 1* ... I
- , �.
. - -, .. -
I .F.0 f-T , � i - T. ! \
91 .t , . L L I
I ., �� I i:. t
*1 01 tlM I x ... I
'r 1 .
.cv I t 4' -,Zj. r.0:op. I
1! I x � . A 4 1$L
It I, I L
. , A ; k V 5:4 4% - q - .�,,11
.! . - N 4 .
A I 5 _ .14 t
4 1A -
R. It 'r ff �4(t
- ; .'-,r
. - - - � k? r-r ,
-
-b
I .1 1 I, 1; ��t . -m� If 'o
. k !.A.M
.0 lkl.&A
L Ir.., . P. - I :1W
M -,,Vzm-�
j , ,; I
. .
, - ; . u
.
11: , .4 . "N %-� �%IL I IF
-.14 - ,,j k ,.,
,
4 - J: R. 7� : -
I., 1, el .
P
..
.. p, I
.� 'r �'.p
I . .IV .
OR, ,IFP J, - ; i-,- - -4
. . of I.-
1. I . LD
.'
4
.
4, k
L I I . _', '7t,; I r, T9 &�
`$" kri" 4 IF
" '.. .P.-It" !
i . %1 . % _. 11
I" .. - I. " -11 - 4 I
11 I.. "' $J.h. - jj * .j ,:gi. 0 1
. j, :; 0. lt I I I i
-T: j - .1� . 4 1 4
b .6 6 .. dr . _& I 0 0
, '�N
.� 1i - - �
. - 4 P �gl
". .
t .
-
I I I
to -
: I i
: All
: ..v
. At 6 , 1 � I
::
! .... . 1.'.' - ,
. . I I
. . � r � I - .
..L, 0 P it
.'P. 0 1 I P, 14 4N
l&7;.A
A
I ,
- e A 6IIM0 s I I
f- (" IF' 0 W I It
- I . .P
it - . . %*
� R.-
% L J&j j : i �
- - - - . . - ... I .
. . ( , .p4p
I 41, 1. k, ..
. I ..
q `......i .
vi , "�07 'J' - ,.�,
171h i 0 1 �. I 0 -
I' �-) h. *4
. V.1.
1
I ., I
.,�-- 1 � . 'topf " .'I * -
I � , , . . . . �;�
1, I t I I 4. &, " r - !.IP I , 4 P1 .
1%k ' r ' I
I
j .J4 - : - ___y - - - r I
. , '* , � " ', , - - - - yv- j ,-r I I
�
. , �._; , ) I 115.�Ft
4 . 0 L , - , ..
11ILS, .,- I _L - It -1 R
01.-h - 1j.!j . j . k 4
4! - -
I , J.ja
0 . '. -- v t s ..
" &r " L L, I
-;: L . ,
, � � 0 I. , . " J! Y. _, ...0 r ,P .
',*, .1 _
- , -
& . . .: I .1. Ll P. F ... I. 4-b I& 1.19 ilk ) 1j,$ " � 4 �J.
I, ;I 1.?� - RIF ... � �v I. .
1 f. t I , r.,.-. I
h y I ' Rk & q -�
. _&Iko . 1p -
IF.
C -.1 . 44L ..F r..
. .P . r'V'L! 'V .1
j�A .4 - to ,W1.L It
LSM.. tH .4 . � I .�
%. j �Jlrh . ,
. 4 Z
Lt - I ,. 1 ?1Xmk,) ;
-% i,(!. ?'I 1 - "q RIF
I sit ); I I Rip - PP' . -v
,
, I '�V-11
� k.- 01.e; :1 k -'- %
.
.
v A Pbv-
... i -0
, .
, y
11, A a '"I ._*'wJW. at I
& i-
- *.' . .. . I
I I X7 . I 01i
.
; .0 - s � V&
$ 4,
. �.k I tt
c P
r 4% I ,I) '( I 4-AL *
I . I I 4 j .1�1
tv Ig t -
L Lt - ..pwbf^ I
.4. � INV[ 4 " C ", :U P . .
9 I .; j r 4: rp - .% L -
* �
I I ) j&lle
. _1� .,, X4 .-C"
IFJ 1 4, - % L
.. I It 1;!r.t,4 ;cp,,. ,
5 P1 k FNI
k f Op. I I.%, 'rg; I I ,r
I !r 4- of , ",
a i4l f ! v . S, h I . I ...'r I . .
. Lt I .
A4. �� .s . , 0 1
. I a I 4 I. .� , - ,.�.;
:. *q I . 41; .. 1 1.6 . ... 11, F I.
"., " *-� .. k
4' -i"t
. I ;.j I .--� ..q,.-y t ih� i 0 61 4 .. .!I � b
r �-f . T d. .,. -
. . fi�
. 1. . - , 1. 4 ,,A, r, . '�-. ki, f , I .Lb, # ;.,- % %r.# I - - '1p; 4
4. , __ , . . .; .1 , I
f I
, 4;IrQ I
. ,
. w t
.A I T - k - P,
A.' .0 I
-
,jzt1r 4 ,, Prqk+
" $%% .11 ok - vac W
. do%!
.
.� P L.r v I.,4414 LI iI 6 dr
. I? �.. . "
. I .
I � r . L 4 *4& 4 I I 41 . I I- ..
:1? ._!� jo 1; '.L,t ... 40
, I L'y - . .;��rj, t4.,V j ' '
0 1 ,, k - - N, - %,-..:J;� t- C) I
44 "!;
ft . - � . , ,i�*, - ".
.
I a 'A .0 J% �A
, , , ,*t �,%��j i! t I jL. r
1 k� : L ,'A .4 ,L " - ,
VI.; .� 14 # '14
,
-
. I f. � - -
..- .. .�
. r 4 1. .,
. _!�; PFP ��x .,�i
. . . . . . �
. - .. . ... . ... . . -A
0%
I
on
>
11,14111-f
tA
*71loof
01>
U3
0
"
Ln
�
Iq
1
"n -
>
CA
�1111111111111111111ki
SE4.
>
to
op""44%
m
0
!
111111111111
?a
N
rn
.
cy
1�0
4
�
>
�q
mmdm
Z
rn
�f
m
z
>
r"
.
11
� m . M
. .4 b 11
U. IL 4, .41. , - . . 44
I m^ ,4 m ,�: 0 1 m mm , . a kid
4 . I . S ., im
4 I - -, I I . , I .
m
.i ;mp . 1 , I, , 1, I 1o.' . , %L t m 6 A Is
! #4 1 , s* , '. . - m I I I 61 . : . k m - I
�tj ,W�10 I V " ma I , 41
., L I 01, , 0 -49 '? . .e
A[ ',%L- ,Z. 'O 1�.j L � mi q - i m, , i ql: .1� 0 . L.j . '.
m
13 Ibm ,P% , ml L OR,
R 5; 1 4c , T : � I I
Y ll�, �m t 440 1 , M% S I � 1 q
-L -W �A�ta, SO � , , . I
11 " , , I "
I ) 4-�, , V)W-t -
- m
.. . - obA ,
.tb _- - mg r;, �-
.,mk I 1 I 4 ,P, �', � ..�
4
, .
I .1 I .,ew mi " � I *m r ,Z :k m ,., d% 0
. i A� W. ,. , Is r .1 W �
- . D . ! L
I . '. 6 .. di ,
ap, , m M F. 1. . . I "... J I I * . mt, ,� .: , 71 m� I� M Ph . 'm
mt L I r I ,
I) q f 4 ,4 de
I I
mmW ! 1P � .� . ... f, , I
i rm..
r� I �4 � I m 4P : -1� I R`.m 0 q . - . . � 74, 4-4 1 1.
: I '. , . - )
jLM � ' - I ' 4 . 1 4; W.1 - 4 Ir . -
. I Jr. v 1 6 � I I - , f . .
v d "' Is
' *' .
.
,
;-_t, . , , I.
.
- - ' '
, -i Ufo!4i P'Mc-', " ; .�!�,j DT -.� I
,`.J� . f
�M�pl , r. i ,0'. -, I ,I .
'.
I I _4h . .2. . &
,r * k. Ir S ., ll
. $I + , I -
4 h
. . . 4. 4 .
4, �k I - 4 6 : . L . t
. 16 - . IF I i If � -
!k J, 11 0-- 4 I 1 I.,4 ,"' ! j, � Ix� I
I I r di - . ,
. .1R. j .V
0 , 41
11 i. 0� 9 -
) 1 4% , (L I .. -
L . 4 f. ... t . 1,6,..
b vI . _1� I
. ' . .
, & �`, � �ftT,. *1 f.- 4 4 I'm S 1
I
'� 0 10 1 4 1 OrN ) .
.44 r: �- �[ 1�1 �--.
�p . I
4d, , t I il' '. Lri 0 V 19 . 0 t if 14
. 0 - r 9
�? It'. � h. 4;, � ,
,:v -- --,d�: -, b..
, I 4;1 k...
i . 4 0 ' r I L . $Vt . 4 � I �. % .0 ., " t .
9 N. 4. -� d-. P .r , . I% # ,; -L 11, ,
I j .,
. *.. IF % . I .
. I It � % 0. .
I .1 t , m� . �sr.r
) 1K
�. � �',�-, 16 . . I .a
41 &
. I "I ; t, k ,
I , - ;,.,.4�! - -
, �, I � ,
I . - $ 41 , . . FL; � � - 'I
. - , 416 . 1 '4 .�
. 4 .Iil.l 1, 1. I - . �_
- 4r , j , 6' , ., I P% ,:b.
: llI I
IN - k .N., I , , $. .. . . �,, : vip . %.
r w
;x, .� O., .
. C.:b. .
�_ 9 , .
) I - -W-n 1 I$ 'i , d I .
. .
- 'Er . me- - & . - L 14) 1 ,P%
k i I -,-� � ; - J,0- it I -.1- .. 11- 141** �, I ,
T ,-t ; Ir m * e. 41 * - le , .kl� `% i , -
. a r 441.- r,
. ,;. %
- I x O.. . I , 4 4 . .kit ,
.. 4 . �_
. ,� I , . - - 0-6 . .0.
,
, . ."� . J, d'L* .
: $� LN. .. .1% ,v,4 '' U. �
I 4�' J. . . �c ? dy Is
: k .41r I 40. I% , U .
;. !114 I,
`fl.161 , 'd, .
N I 1; I -
, I � .1 H,
: lk's- &'I
: . tj � F41" I - .
) - Y1 �. � - I
- I-Q
,
- � e , -
, - , , . : 1 -* g v - .9 ;; 0 - i - ,
r. I I
'. 0 . �'�
�
I A ,Op 7: x-A. . , , , f �,, - , .',%t % _4
� .:A , . 1� I' V.- - we .%o , ". � 4 . .41F
& 4 - ,�%. �,. I.# . .140 C, q 4, -9 -
I . P f, - - -41
� , I �: I i. f .. L�
-
A . � f 1k L.% . 4L
.
. , t
I . -" I ;i r% I .-
. 4.W .0 1 0
I -.0 . 1.1 - 1 '4. � %,q - '.! I. i
A,, L' , & .J..ej 0. mr 69 : M4 h 0 I
.. I �. .�, i ?0, * I I
� i I L ft .
)1, ,P� P - I - k. -.4 '0 -, Q! : I I- �: IV *t . . . .
.& .jL . a
I ... , I -A -'IXW.� A'....116 "rirr A I L
s y ' j 4. . . .
. -.�.f .-W4.4. 0i I Tj
.1 % 4. 4b t .
� . .
0 - . i zj4 � 01%.'00 I I . I .
, I t , .0 A I;
1,46 � NPk 4
4 A :4 , .. - I Ir Q t
_k 4. , ;� ,bR, P.,
. L I
I ft we
.
. ll..� : .� .
. . 174 16H 1i �', 1 7
.4 v. , -V.-&; -�* .-P.
, ..
7- ; . s . ; Pk 4 I. :,� - n ,-4 . .
".
(1.4.
I
I . - �** - "
I . . I. ', k%r
;. . ., 0
% ) I 1!� 1.1 i. . . 8: 0 -
� � .
� 41 1 wq,A%i
. .
r . ..�j III 1 1 L t . I - .6. � 16
- , ,
17' LO I .1; F: . .! b I
.�. I
.41 I a 4P k . I t ..:0. i. A .. .
Y - 4
. 4, ..i- I I
t. .� :jd. 'I 1, % lc� .
�? t P1 P 1"t C, �141 r -�tlt: �
. .
t ,.I f -
. * I I I �j. 41 134
I - I J-10
4t I
1, f , * .4..
-P -4 j . � .. �� _� 4 I 6
: .
0 I J� I
T � f I % 0. , -
-
/'-I & 4 *4 r. g - . 0 4 .47.,
V .1,h I .
m W. . . % v
. , I. 0, , I, , rl Lf J� ..
- % .1 ; tv a
1b
t , [.1, I - . y
- I - 'PI ,�- tl : ,,, P
I P 0 L. lj.,t� � ;
I . �" I - , .# 6 ., , " It Ijz - � :�.
, " I
Iffis � .41- I)'
. I , 1101 � ,4* ow 4 .)� I. 0 "7 I
. "� 'QLj"�L.' .d',t 6.b i �k to I . 1�41.1:, fjP6.,
. 4: L" t Vq4�--,�,b;j,-jN4r1q- P,
I 1-1, 1- . I., �
-i A 1� 0 v . .
J. .., _.t it
. - I I . . . . .01�;t ,4",. :
r.*% I . L 4 . I *
.
P .
r %I 'Wt. - j
. I ,
- 'L: A4f 4 i "r.- , I I I. , t Wr ?_ I. N -it
- ;J.- I). .1 -- - N . , 1, ,I'l 4'.. I . +
-
X rr:. r ,, ROO I
7 if..; h 'A I
-b j . j;j �g j I.* * '." 4' ._- W _%. I .. 4eL .. J'� U.�-).Djv . ! .4',
4 j T - . 1pfi: .
, I . .1 )�. .
. I I
I v h f i -.0 -I' jr, 4 ,
. -
. I W4 , 44� . - %, ?, . IV I " I,,. -
� . I
I � L �&. M I. . .1 - I - . I" ., . I -1 %-
I ` :4, I * I . i. ,.*T�r...,' "
41 . ki 0, 6 .,A I
. .
. -� - T: ,I , 1. �� fii, V, ....%
- .. j A. 4. :PL . 4 I
�41 , - , . "
A. 9 " , , I
. rjkvL F 6. ; N. q'i A C. I , I � 4 - -
.
. - ,
4 "'; -1 '_ --� .
. In, .411, . .
; hc r - �;Q�"--:' �
.,
f
. :.. -
. it : I
I
t 1",
*
I I (J�
4
�. ,
�', ;1 "
3
� V
. 14
.
el I
"
-
- -
I
r 1�
Ltlj
, IL I I -
. . , '' - _
, I I ,P , ! I - . s, - � ., .".-, I
.
% - 4 ..) , I
1b I.' 4 , I il I j I , ). k I i . I . . I .
. .. P.
% 1 0 .,!. �� d . .. I . T, I! .,IF ... . I
i IF .. I * . . . .
.4-1.
L, , .. - - 4. 1 1 1 0 * . . ,
Ia 1� 'q r I ..
ki... J.;.4 � I � v, .
.1 . wt
411'. - ; N1,41 t�! I
. .-.' -, : - -.41 d$`
; .". '11' "' "
.. k 4 1116. & 4 'I t I * -%..*�' .
, * ): -. 4 " :. o. .L. I , , � � I
W
"
-A r I I ?I I I .1 v Zi li: I . I .
, ;1 .,� 1P, �
i, , 5 :,Y;,
A ! 4 -4. - � -.P.,q;-' o 11 .
i
I % , A I i
-h - ! I 1q. - I
. �_.. I I F., 6 ; I ,.,. ,
, � I RP . . '. . . � �1
'1L
3 �1 - r i .� - - I I P1
k. 0. %: - op.'., -Is
I
4. .0"'I i. ., t* ob .� . �e'*, - �
-
-�, I.. , !" D t I
F, j 4 .L.I. '. t 40 -rd f *e�-, I, 'I, d �! : :
0 I 4I I F;., 0: .
r. 1* , - I - .. %11
I 4 , I. .;
a X 1. t I �, Pj A, - 4, - I - � -
. T.. . %40 It - 0"i I , 0, . 11 IF ,;4l_r:..:f.,.-). it'.
;a - 11 JI.0 ' , " INF %I0- � IF Ti-
'L ;.. . g. . I , I
'A .1. I i, I 1. - I - - X N. - ) "'. I I
.1 . �
";46 - i -3 1�1� I' I � Y.r
-b - . �. , 0.
. . &
� I . -
0 lb 4 ,I 4�, 1,
. . L . I , . , .
11.0, ti , �-g;; �. I I 4 1 it
- 49 qr .ywk ,� . ,
1. - I I-, ),If - ..
.'4! h; F X -W & j P' rP`P1 t &.,%I � " * f. 1 a , ;I �,.-Pr
-, .? .., Lih .
�, I, IN I%$ '4., , � -
.. - . . . . 11 Ik .
$ � - bf, -
- �
I % k. . I 6 IRA b
..W. ... . . d4t 'I I� -( im I .4 6 - . . 4 .
h ; I,;_ 1;
, � A ;I ,;
- . ; 11-Illp ;I , ri .
0 f � - .'.P.*.! I - � � " I "' .4,
I I . � "., L",q�& .1 , 1'. � IT., - � ,.'I' , .4 `Rs. � S I - .. .
I o. ;
.tvlt � I
. i T,
I L
i�,
11 - I . . 4 '.1 I , # a % , :. i -
D � . ,
1*4 " ! I ij-�. ory , . ,
*P.IL
i.:1 . ,)� !k 1ptQ . . . I -
L 4��, " L t - 11 - L � 4
,
. , , , . ql� *'� -, � I I, *� Olt I*
�
I.. - k � P* I - .. - . ., *;,." oL.; � P: , , ��. !, ��. 1.
, I - I
-
4 U.. 6r,�. I I k .�� .- -
4 . I i
V I, ) f � . lb*..
i.) - - o- O'Is . . , 01 - , , h
� . .10 6L . .if a . - I ,
4 it 1.
..
1. . 0, )4. & I . -
IT , 'j, -k . . , t I , I
�
. I A -
". ., V .% ., ;. -I
�
I,
Ilk. k
4 "
:4 " 4. 1 1 . P , 11 I
� ,'oll :" "
't
, . 4
-
% Z. '! I .;. I 6
. &
4 -
4 -.4
.Itz' ! RO, PC. I - 0.
.. . . L' +�, P.) I 0 4.
Tps.. I g *
IF .
'i Ir . -
I- �. k,
. W v I bo. ,
. , , A
.: �! 'I
I I I ;. ,'q 4R) � fS ... 'i
- . ?
0
410 -0 .110. 4 .1, � ; �
I , +
�.
- . �
0
: I
�j;; . 4 ..W ? . b
X
I.: 0 . 40 . r . . - . . i .
. IF
.b �, . (B -
:.�
* -1 v N
q
I . . I ; , I
% - - --
%�kF
qr
1%1
j I - . -.�
- .1 . . N -d . j 11
I � .
_U O.'. , .I.. I. I
' . 7� %4
I A 14 , I h . I
14 %I .
-.,. * : .
A . .
. I.. .4 op, ,
I . , g. " I ,
' , - I , ..o..."
11
i Q .
I- qjfA RI, - 1 .75, I � . 3
.:b , - I ,
; 4 .. - - ,- .k.... I -
.9 . to :�.. , - i -
..
,,. . I . 4 I I P 01 I jjr 4�ot
1.'L - P :&. '�h .7 I Gb -
.1 . I I .A
.kJ);, i A, "'. � . . �-v �,$% r
.'A III GLLI � i - 4 j F-U. , , , � 4 R
. . " , " ,
I.,% . _T_ I , . , .0
t L '? f I .JJIL; -
I , -t: - I .
, � I
1..,.1z I;
� 475 31
*N -c 1"! ,I j. t.'
, , -
. �
�
,
.,,,jjr_- , " L. � � V 1% V....
.11,h; Z-1
Le . ft' . t�k 6
. . I 4 1) I 1.41, P, P"
, , - , A
it -� . �- III t .1 +
t 4 - .
I . v I 0
I - * h # .
I I j q_. I .
IX % .rl I L - i 31 .YIV �.
.
.,--�-.a..) - V 1-�, ii� ci- , ,,, .1 ,
,
I 46 %2 i,x
k .#-� 4L ' 7 , ,
. t �..i., 4 .'. , . - 1p �
. . , I cp -
�� �, .�
,� . J;, A, t,
I4, -i Ft . �l , if *4 at 11, 1, �L.l . . %, 4 , . P
., -.1 V I '.! I - - 1,
4
I* I - .. n
I. P .& ;..',s � .4, 1� ,% % 'P
I- 'At 44' � WNr 14 . , .
,
-.40 tj I q 11'. . .0 04:4v - - .. ,?!,z.
I, k. ,,4 Irl . __, �1_1. j��p , �.!k I ! :I pl� fil � .op
,
4..p . I -
4 - . ., ", I. I 4
t ,a L .. .1 ., . . & I
IF. Y V.. .,..I - .. I Nt _
I :, �_. t
?I �. A.11pt !,e I '�' ' * JP4 - - bjf-."�, 0 -'. - L, IA:
, , t .1 I ,.L6"�
. R. , - -
. .. . . Vr �.�",6V �L.�#:..-j.`P..%.D1Lb%L..j� ; lia. .I i Cif -
If T. - I t�. 4� -.T-. 4'. I Ir . . '4� '11
- -
I �
. .t
! t 1i � : +0 -� % I . ,
. . . - I
, .ft . . .1. '.. _:W
I . JL %'I' � FL ..
. . A .
J, . -it. '� ill ,.,qs $ � �
11
. - .
, - T. . 3 ,
. : q. I. q. - ; � -It. " Ir ,
, - 11 S1 .9 04 4 $ ,v ; R; I: Il.,L I J. :1 4
- - I I I. I. j
- "?. , . I : - 1;
A ." , - - � .-. -��
.S k - 1. Ib. ., 61.. 1 j , , . V 4
- - ,
11 t t 0 ',I � f." ' P:".'j6.g,- , 0
I . .. I . 4 -
"A %. . 2, �
�
-
(I A; I 1� - � 41 �
. . 1, . , - I , .� - - , � � 7.
I '( 0 IF I
I v# . . 41 . . .
, I I . ..; 4 . U k
- I -;. -�t� : 4 4 A .0
, §.,'j� .1. -L, I I 9 � �.'.- - & 4 z
-
, .- 0 4
- - jj.. ,� , , � I ., 7 - ?;�� ., .
-
. 1,
. � N. I
�*'W�,%Xkll. ,
t ". sp - L-� t
. P
r
. . , ": I i -.,i I -?,t�,,-, %P ,, ,.r
I. 2 I. .,4 , �
I .
0 , 4. . ,P-. , I . ,
. t . .. : - a !Rb I
.
.. .41 + . Or 4-. '. ' ' , I I 1. t'p r -0 , k. .. I [ F , ..."1414 P .7
. . 0 �, i ,qr . .
,
. - . . - .. - - - ---. -
h ; I ., .0 , P, *,J, j, P 0 I P'.
I . I
. - I I I . $
� - . . .. - ?
, ,
' 1 4k. , �*;. i :
I )
' lob.,;j0Zj '. , 'I . �
I P. "t q I : I
. * '. 0 1� - I ' P j�L;� , , I I
.' il * ' - �-% I � .' , I - - 1 �$ 4L" r I - - ""$ I
, . -J` -(I. -0- . I
'7W. * �
- d _f V4, %* - oi*,P . I L I -&,?
e�2 W, 1
jr. .,, J-4. - FL , I 1.
, q .4. .'.' . � i AO , _V It 4: - %E v 1, fi- ,*.,; ..
- , "re "'. 1'.1t. - .
0 h* V41 � 0 em -W-.
-1 -_ I it ik: Is 10 V; ;� - .
I
.,.,. !I7 ,!*, 4)
'
..' k.A I .L-W.% 4P EOL.,;o . V .4-
k d -.-4 -- -.0.1 FAq 'n t:. " - .,* .
IP�. 111. PL
!F.4
I
.&� , 1 4 . :t.
90
I �
, i
- - 411 , I
Wa lN
.
. � ir, %. ;t . . , . I . t
-t� I L . $
I!v.L.ji41r4 4!;46,., , -..-, -P
., � -; , i
. I I
I . II.L iw..:, iW 14. . . ..;jj.'j*..
� - 0; 4 ) Ill,
A 1. 11I 44 CJDL� I - -
111 , . .
I '7 , pt.".v. --.�'.'- " �w VIP el .. ,
,* ,
- .q� .
41 0 ) .
i,
I - I ; - :
. 11 - ,W .1 _'T -,
. . I le ( P! -, i�. . i. - 41
, . - - , .
o�.W j i ,�
-
7 .k. ?,
� i to 4 4
I I
70 1J , 0 Z III.$' & P $.n 1) I C'b .
- I . � 1111� ,Nr� .m if
t ,. K .I , � 4 Rrq
tit ;4 , IL
I I .
. r
rttII IN .,m 41,
�b � N � t- - N14
,
P- -PIFIS , 0, r.7
.. X.
'i 4:Z 4.
. ,.- I I r. j; , u
L, q - V j 11 , r.� -9 t I., , - - LIr
I Ir , 4 4% � LW) - -1� , 1i
4 .111 �
, I I I '41
jjq, . 4
I
- M
6 - c I r., V., � W58&1�- e I _�
j � P%%
� P -�v,,
0 ,
I li,S . Ni I: I I
-
Y, �*,Wk; I P , ., .
N
L ,�
I 4 . ..J.��A
.� + ,v
tZi. . � -1 � d. i _11� - I .1 I ,.A �
. . -N , ,
&� - - ,-�'L ' ��k 1 S.
I 4�A -1 , 4 1. , t 16 *T .
- tl I It I-* I " ;, 0
Re - ' "" 'i�3 ,I ,15., " I
- - . rIL r,- -._ h . , , Ir. - �,,, I - I
I � ,-.q*.,* -
, .� i:f Ms -Pi 1-3 'I k'YP � I �rm " .- L
I I, q I 1 I I I 1
�*- . -rip - V. �
. V ',1$4. t'4 alk *, �
.
. ! - jk� I - t".% - K., i r., c jA i 1. . i-!b .
I I ,
!�, �
I 1 4 "' I I r r
. :� I V `.- �4 �'
.
, � a -
I ft .
. I
.
.
. . .k, , "r, I.
I . , -1�
.
0 1 .
, -IsIIWIPPII� ...0
-
F*,- I , +
IN ?� GL .
. . .
4 d I . - 4. .
r, * LVJF.�. 11% .
q s, s " h
--- - I I , T
- ,
. I P I. , . - ( I, s s .
* I L 1. , - 4 I - "'; , 1. . 23 - PY "
' J4 't 1, � � '49 t, ys, .4.
_ .% I . rp Ah. -1
d�, , (
PC., 0 , P 4
.. -r, - C p ". -:I VL 0 T '1_W
.1 .4 -
-N
�-
.
: ,I.
. .1, , F4 1 o' V I
PO4 . . , I , . 0, I. a , Is - d" 3'. 8
I .. �')
- P. ib%;.1r I
d
� . I i I . . 19 . v . W . L % ."I -
I .
,
# :w I.rr, - 3 I- II "r. - 4-i7-4 .,
� P 1 -it - -op" W "4, .
. r.� 0 h .. - I I
.
it . P, t
. , , �1:�, &. .
L
- I
A ;
. .* r. - "I F., u�,Sljl - ... I - " - ILI 7 1 * L JIV, ,
I
- ( W. je- r - ' I
4 P I :�, LPr' - .,$
.1. % , j
"P.O. i . -q V
I .. � 1. W c. * , t
3p, - %;--� - I .L. " 'L
- -�,:� k
,.# 1� I ;!,ql $ '* A.
,
. I. ! � 1A I ., J.'..101 0%, t
h,
. '.
- " . 'r -; -.1 .
-1 I
joi q .1 ;I,gi �_ 1 �4* - 41 Z,;,..; -4 -
I
X, . 0
.
Lt. � .', ,ii,t, IF, . 11
.jj _ � 67C, -A
r. '
P -j � 11�r_* , � ).
Jr.*., . -.4 'r , ,
P. 16 , . L - .0 64T `r,p
trp,. A(ItI s 17. ."'. I .111, . _', -
� t it
+ k , T .
. t - 0
11-�V
. .4
�V�Ifl 3. *I At ,07.141 . I z . ,
' ' k
',�'�" j4 .'I:,P_. 16 "P ij X � . 6,61
. - 44 - r 4LI.
_
" - . . . ,r '�� -F
.1
, . - r,P .' 44 : %. 1Y
. . , 1,
.. , ; �nip.t
if i
WK. 0 . I . ; t.. .
: -.4 4�.,S&, , .5jy
.#%Pt -L - . '0 f F '-- a , r
. 11 .. - A, , F`IIP 'aWj I L
I *j�;'J. .
. '
, .� Is ""' j -11 '�-�"4 I.0 'I.'- I +P 16 -.1- I a'%
.. Al", V
" I
.�,A � A . .
. I � I,
� I; i !,P, - . .11 �., -. I P � .7 ;; . . i a . � .
. .,� ,I- pr
�, "I . i"S f'� - , V I 410.1
. . ��:: . a v S - I �
- ;fq I' I I ;!-�Zr. b �,, 4 - . 'r Lt . k .+ N .1L
.;: 4 ..k j " , . a L4 %. i. I.
'14
.: 4d
&-ip - t
,�." ".14" .4j ;. . t
-
�, I , I . 4.4 0 - I - ,.4 ll; " -
1 49#
�, . 0 ,
. I '
v i .V. P .
I . . 01. P, DI,, 4.
* 4 t'; L. I " '0 % �T
,4 4 4
. Q I r % ;i;,j,, '..- t � I- Ilk 16--,
. :00, 4 � , ..
4
I ..".7"i -ccv) . , . .
. , . , 1F* I " �- " . . I --�`.;*:,
t,,6 .L.", P. . . I
, , i1b. -r
k I. I I - i
I - x a 'I I % ' 40'r.' I 't . -
.r, I - ., * 0 f. 4
A 1 �'h j;* 6 * 41 I , VOR
Alp'. I k'm . � a r * . , 1-1� I
� .1. W,r I
: .iwL�- 't . -1 4P...
.%' . -
*
It .
I ..: 1114 q
. t. , ll� 1.11
- P;
-
I . I% ..
0 I . . .
. I
7m,
a
""�
):�;
OM4
(A
!mi
03
01i
0
"
00
N
'144
.-Z
0
>
I
m
:
0
__R1
M
;u
�c
G)
a
W
rook"
m_q
m
z
r"
>
- - -
P Im .m * I'm m . , I .
h I I I . - . m , m 4. -
* I I . , IF ".
. F I
. *
I ! . I
M. . m
;. i-,".0", m Is , , dA I I .6 . . . m s I I
144 -,* . �md . a , " , I _. I. I 4 . � I I
. I , 1. i I I . 4 I .
, I . d i
, .
Is 4 I .
m RIF
. f 14 01 ,410 ir. ,_ " , 1d; � - - I I " I I , I m m . .m. � A
m lb YD � , *- !� m 1) d - I - - - - - I .
t *d m - 14- , - 6�m; - - , , . . ..b P. LY
- ,,, 4 9 I
- I v -
- I f . . - ; md, "s M44%
v ; m
I
0 I m ll� I � :; I - . t y 1.
, ; ;�Jw m . S .
. :v, .40 111 -
F� L * ,
. - i '. .0 - I . .1 I � : j. . P, IIJ . m , ,
- , - i i% 'm ..m, m tL - ! 0 * 41 ;s IF 4 I I " m m
. - - 4 7 b ' . ','L ? 0 a - - M D
is@
?,, m j .-t I
mq -$I - L - I I? I f -, M4 m . .4 Vm, I
1 44 - i R. � � . I ,q -,
I . ) � % ; . ...... 16 e D I
Ot IT) , I - , I mh I
, I , I
8
1414i . I - r %' 1. 11 4 d
-t I t - 0, - � F.
. d-L _X 44 ;i� 1'_� 0.544, I ,s .' I i %. wl
i L d+ 1.1% L
. - . . �
. in I I , 11 ; .*.
. . 4 . A . !Jt
, L� .1. � il. �11
.1 ... .
I $' 0,
41rr. i a it I %b..� RIF . - I t s 4 . 0
; - I go . � - , . D .
a It
I I
4 F , , P, - L '4 It,
S� . N , & i . !a . I I * .
OL I . . I ; 0 . .It - 4 .r '4 ., IN
4.. 0; . j �. . 41 do 0 i
it a
.I,. � ." . ..:, ,._� '1,1"q .- .1
&
7 444 LI I I # t * . .2
.. % I 11
lt t � 'n, " �kL�.. I , I,
6 :1, -. 01 4 -.. ,q .-I - . i . t
. . I � !b:� "I ,
. 11 .�. 4
. ,j I.L 1. .
, - - ) 4."g; I I � . - - ,-. _% 41
7. , P 0 r I __ I .�
d , 11 II, ! I .k., - "
L I r, ., . . P , :F ,4 ',- � , , I
* U .d.. I , '. , , I ;�
-, At. * b. .- - -, �. .
I , � . 411 I - I , ;I ),
041. 00 . . I - I. :10. I
-
0 ..1i r - , I
41 . I
. O'. I u h � 14
%op 4 ,�
i
23 -,-,;--* t. -.-.. It I - J, J�-r �J. �- I .r. .,- 1 1 1*' ;j. , 4. ..A, ,� r
' ' ti
t B .- I , T 1, ` �' I .:j'� �- ; - dd ;..j '? J-0 i 4, .4 , , I . . .
�- F -�j..,) L i �.�t 1 4. .. . . .1
: . ,
' L I I -4 i. *--- 4 ,
.4�t* " - I - - . 4 .
I -"% . - .. 1� *
*RrL j � 0-* .
I ., 11 1; ,
, ` h-�: I.- ..
I4 0 ,fi . . Lj , I
, J1 4 I .. lb,.j s - 0 4
1p . . I I d - I " ;,a
( 4; . -4 r) I _'d ,,, f I "I"".
I I
M- CD , F� ., - 4 i. I'll -4 . .. , I 'm LA -t - P . A
11 4'4 - I. - RIP r 1. I . v I H
-L.. -,'I , Isi 1, .� . -1 I .1. I
.6 I I
. , " ;;- 1,
L I.. 1!1'1.1 IR
I , I. 4, .. -1tk.,..-,r ,
Ad .
. ��.,
li�
�. ,,�. I, I La ,z I 4, 1, k . .
� I - , *--34 s 'd #.I. .
, m , ls� ::� I L S ..r".j . .; .
. .
., >; . ,
. I
1 1 . 9 I I I I I ,
I . ir, 1 I I , I'll P.
., ,
-.A 91
I -
.1 :
. 0 '.11 , :1'r 4
- A, - 0
�', -.1 %0 E)- 9 . . -1 I - -
: 1.% I ,1j. I ;
4t - & I)) 6 'A . . - .� - i : I P4,
Ilk.. I �-
* ., .1, I
. I I � I I b. , '. .. :
, ;Ac .. I � . I I.
. . d "'D - I .
-� I - It 4. '13 *!. . . I 1,
% 1. ..At 4; I 0 -
I . .L.s. , d
. I P 4 . - P. , - - I
. I I 1 4 1 j a I,.. C
.1,4 ., I . N % . . i - I I
- . fit - 4 � ,
I
1- :.
I .... jm:. �
� � ,
.. : : '. : . - , f
I �0 , -
-;, - Nt " I, ,. ! � .,d k I .
4 .1 1.
� 1% . I � . k " L
L-4 0 , k,' 0 -.,I
7� -
j V.s0A .
- . .
. j�[ LIL .., ,� 0. i .��
Uk
� I . ; . . 't. S
4)41 6 , q, "�
.1 . ., I )*� ,- I L, I lk I, , - . I " , I
of I ij ,I I ". . RIF I j . 14 ", It 41 - I � -0 '.
' . 4 -11 I * : . I.
. 4P 6 t I , , d. I
I - s I I ... L . I ) 4% I ,�..' I . I
j I .,. . . .
. , , I I ."..
it , '.
T : I .eLv.. - I. 0 I " ve ..
t i il L I
.;A
-4 .
" ...at . t P4
i e. -Z -4 . F.t ,. .' 6 *
I . I *-. !
1� _ '. - �- �41 -C'
q Ca . I - !
i .
.6* . .* .
& % . , . % ,
I , IF ? I I
- 0 - , .. . . I ir S, .
ji . I I . � ..&f; . "41- I ' "
A, . I � P., I. , , . t
f i I . ;
, I . k I . '". 1 I$ . I , , - i - '1 .` ,
- �-.i_-. - , I �dl .
.
- "T " , - dlr
41 . " r I
I
�i
-
I , 4-til As I . I
-At , - --' -N - . . � t � . . , 0" . 1,
. - , .; 4 r . .1 4 I. P .P
P. I rW C., I ,
I . I 4 - I .,� '10
I - - . - "It I , 4 I -L, rj Lj.,J. .:. k'119- "
, . 4 . � P
t 0 , ,X h , �.j L'�
1 �6 i
( * 0 P. ;1%4h �: . F ;" 1� . k, 0. - �
; , . `b% ml Is F L � I j 4 ,:-& 1. . I IPj -
. I . I .$' I
-- ! .x .. - I,. i I AkPi q,jyb4- A �j r. op. . r
, - %?It - � -Tr , , "
, , 1'. f� .. , . 14F . s `411 1 1 m - 'I" r, , - ,
I- - I ., s .. 0 d - rI. I d . mi 1 4 , t %F,!* S1.
., -4; h w$I ,
I I - 4P
, , I I
.6 . I .6',po., '.P .. ;,. i a 49 - ..? 0 '�' - . - .1 * , I;.
. 6 . . q * .1 ' *
( ...
I I . . 4 I r 1 L " .'A ,
$ s, " It! - :. . I I ' , 'f
'I , I - 1 ...4- 0
1
. ZE I . : I" �
..
- - '4 *
- W j L -! . - . `
:. ; 7-q - .
I Pj.. - -1 ,
I
. . .I t.. _�'. ... - .
. '. '.., ,�, . .,i I ,� � V
. 4 . t7�
. . ... . s .. �, 4 . I
. . . I - .. - . 4 %vj lk 1, 14. 0 F I . .1 - . .
.
" 'I
, "', "
""
L
I .4 I
`PL ! �, h 0
�4` 10L
I
. i ks %. �*_
N qq I
I " ' - 1, i
11 � .V4'1
,
,
I 'I'
'! P P I �
I
I E I 1
- -
. L -t._ $ .1. . - .
.;I I -.,, .Pi I . I h 4 .
I. 6 .
.
.�j e C ; , . P '.4 - * !
, ,
...ao . Rk, .P I ,
1 $-qp�$ tdl ,.'.k P; , I
1 . , t. ,(%,g.. .. 't* 44 1 j I 4P Jq ,.4 0. .-, ,r
f 1 4* � - A. so - I` L., 4 . I jq � 4e 04'. 1 C 0 , , 4
v.-�.-' '- , - ,
I 0 , �, It ".1-4.0 P., . . I, I f I 1 �-4,� id
1 61, .
t., ti?, I .
., *. I 0 '. ... i, I .- b. , - I - - ..
.
.. i I I I - - . f � : . . .4
4
I . ,
. . : .
§ L
wt ,.p ,
,
-D;j 5 P.1, �Ip j � 0 - 'j .1b ', ". ' I. ; .4
� , 4t 196 J.'r; e A I
, " 0 I 4 ..k - " - I -
6 F I. q it, Al. 4 4.
- f 'I 4&'%L"
. IF
.
�� - t! �.* ) " " .'� " I
It . . ..j I IF. t I - . , .4., � ., . - ,
., : :Y. - .". %
I k 4 :
. -- 4 � ,.G W I 4 I % 6 .6 ,
. 4 .
. . b kh 0 .4. L I
, . I A r. : I ...
,:4 �- .." - I IL'k .P . : , 0 j:R'. I
, 4. �J,,.,f- I . I " - - s '.
1 4 - , I . * r.'. 0
I , % I- I
. I IL 1, ,4 , ,,I I i. ' '
�'Itl%
% I , - n" :,
- .., .0 fi I
h i ) - .. s�k I E 0
, � - * F ;.4
. *., q .- � ,� ."r. J. C.P. -P. I , I I � , a I.
J., , h .
.9- itn I . I � .
ST- * - r , * t - i � - I 4 .
- - -k - , ,
%I
L If. .. I. - ..
't ,? .1 .. . .. I I Ij I I . I I . "
I ! �1, . .. . '14. .
r. 11,L - - ,. i ,,,,., li, ,. - . - . t
i .
- J*drt - '. - j d"
, I I j .10 I
N. .; . .
. ., -Ir 4;. . �. I i - .
4 ll� b s I i r
, I
" ,
.�.- .
t�t , . *� I ,
1 4 41 � q., w . 4 , '-'.I, . , ., , . -
I E-k% - , 'i i .1 I . . ��- I I
c I'..
% 1. .1 , I I .
* S."t
. .. .1
. �
I ., .. i � u n n I I I I
1% e
4 OFAII I e
I
a I . . I . � ')) ,
- r -
11. .., L u u gj�k j
�� ji I ;
. ,
,
� howl ... ., . V L I ft . I-,..
- .1 . A 71. 1� '.I .
- ___
-. - ; �:. zpio.',.111,6� 'r; v t-
.49 I - .'�- * ;ti I P -, I 40, [,..t,r
I .,,,,. � . .., . ,
I , T
jr.. 9 a i. . I .;,. I. ,a
t..
.I I 11, r P :4 1�% I I . - "'r
. . K, *. .7, p V - I � P Ij . �
4 ��F� !
" -,�. Pqk 1, m r, I L ,!N - I - I
.1 4 - 14 I 4 "'. "
1 95� a , � � iI�v Ij . , I
I Mbiil ". I I
. I . - �
It F-. `16. 10. , t � �Ir-', ;
P � . . I i I
mW " . t F I 4
. F1 -1 I 1
.11 III: . , "� ,4 .; ,,, 6 ,
4 ., Q � . ., , ..L. :�. ,
% I rr ,,, . r L11 � �. 11 I. 41 r' `4 9 - - 'It-L .� - .3 ." I I . R. , I
..
.
�j
�,,�. 11 -4 4- 4 " , k- '
I
I
- I T f.. - - m I, ,�
"bl' I , IF 40, - 4 I -
I 4 � .1 -i .v, - 0 ,.%b
I! - 4-! F --,. 7els v '01A..O., "RV I y i, y �.,� 41 f -� ., �- :
...% . L. � . I%t
� �,,- I' I i; ., %'r.c I! I, .;-. -;,.�., , 1 �qj P a I * i 1jP % ep ;'! Tw F, ..I
I
, I A
I .
1! �&�-. I F.; m -I. S.-I * P; �,
�,, k I � 1j. ;, r' dp, .
.P -Tlpr. - - -4 . I
';I -0 W. F 1. -FA" I 4 L; 4 " r6 � v 4A
r �f;R; . - �� .4 Ll , 1;11 NIL p .1, l.k - .. �' 1. 1 r
- ,
. P. I Dq t , It It L ,� . .,, % , J4, 41. ,, ., . I - F
% It L .7t . . . h -or . 1P .
. 11 0 r RP i , - - -
.
J+ Ll ') 1'. ' ' -
4 " ... . .1 C' ..! . 1441i"' i.,ri"j. - I
�'
?[L. j I .. 1:. j I 46, I . .01 I ... , : -, I
I I- t �'h & r'lk 1p "
IN . I 7- .' -'.%.. I I
- P . I is r ,
.11 , 4
v .
I . .
4,9 i I
.
4 . P d
, ,P. ,A - i. - .. � 'k
.
h Is . r d 0.
.. ,I, O., *4 If .. I 1* I
.... 11, ! , .P ,.,, I � - ..% ..
%_ ' ' - i ' r
.
. I 14 9 Sp I . Pjr I F. , It, . i " . . .. h - -
I !, I
r . It
, I 41 I , .� - ' I?'.
. r�6 9 � . 'T - r d
.
I
I .. ". , r - - ... I
4W
4
* I
I I .
410-1 ! 414 - kIR .. I 11 � 41 . 3.
lac P I p , k 4 1. ..'� ... . J. - 4 I,.. I D., � .
"(,.Lo I ,� .kj. L� I : -11 .
.� �4'L'_# t " I 116 4 .- t. ...I q 0% I , . -
f I
I , ) f -'. ... Z ip
1 4 . i."k.. .
.� , � �;�4k - ..,I .. - . - - - - :
k, -% I c, ,�, te 4 .6 IV.. " I L I . ) .1
, , '. .., ;) I I j ' .1
. .P, ..
. F .
I . 6 5
; -*4 0 1 �.," P,t � � _I,"t." I. - ... t q .. - I -
..; D . . , q 4 .4, IF . I %
.* ,+, ip * I It ". I it 04k 4t.h. %, * "Lo
, -1 Q ; .* ... Ift d .
, , .
fiP 'rj -A r I ,
", , I - ,
�_ . j' , I I I , �
I - - . -
I ... - - ...z ;.; ., :
L . '; .1 -. , , I I. V, ,
'%P P! 1 41;1,. (- ki ., , .� " I % W . .
I r
- .
" . I �L'11. .." ?. ".&P , $. ,-� .;.,,- i '. -, - L' .. , -
,�Ci 4, 4. 4 -� ': 6,41 #4 r
, .4 I rN, , t , �
1p�.Tvp.- �ft 4, - i � ::111 '. a . , I
d I P.k . . . , I I. . . : . .
t 1vv - K_ �*.J- - Pj .1 4 0 A I .r; , ' * L ;..* I
.. Id I -
. . .. I
W I -1 ,,,, '.. .. � . , 'm I P.
,0 , , % .
,a 1, - I w., � .r.z? I P. I .'. - , ..l, I
- 1" r f ''. 11�0 Is I
' - Pi .1
� L '.L-. *:-I j li�"Z
V I .. I
-L, r 0 " ;'� �t J-1 - .-' 1,
, , , I - - . i
I I
.
. .Ail ,-, , � a
i.41- V.
-
" t ,
I
- -
.
0 Mi.. toz :. . 'V. , I" : 01 116 �
..
I
�� ,
I
,.� . . ,...;4 1 _ '.;, 6 . ..* I P.
0 . $ . I d . .h I . . I I . � I . I .
- I %. . . I *
.
� - - - - - _.... . . . I
- V� . '.
.4 . . - - - --- --
1. �*- - 'L I . . . I
. %
1 ,,(.,'I - .. ". - .. '. +. 'I I , - ,�-- , -
.6 IF e � . .
,4, , ..t; , - 0
14.0p 44] -I%' ' - - , 4' 1 . 4 m q P . . - �'P-lf k .
, - 4, " k :
�! .,! � 11 C". , ;b :
- , ,qL , v "M
I.'
I '..r41.%,'j.
i
, .,. �0, � � I I. ,
_� ; i,.�- �.,;." 4! I I ,
. ,4.,
, -1.), - t 4; 03 I A 61
I I
es. 1� I
,
.
_ . - ��, �, I ..��-�%. � ;,; �
Is %� . . ' . *' I
.
. ..1 S.k.4"
�, $1 17e-L i j.t. j i : "op ef-' I
. .
.
- L
i�-'-
. ....
L.. I - I . 4
"Pt S , 14 � -IL v - I -Alk-P, �J. % k I W I
P. : !I I
""i, I . k . . I
4 ,sk,*�-!, 1. FA I a LA I . "`W-� L .
.� 41c+g.% - j, . ". .
t) I T'.1 ,,, S I.
I LI'L ,)ft ly . � . I . i - �
'i.t 41. J-O ir 1 k IP I .. m I - .
I * '* ' ' - - L'
4k, ti 6 11 I I . - -..,, '. ,;I ,�+L
. J.
11, i " Ilvr . J I .� F r
.
,
*j .
I .
I M'. *
I
R1 - L �
r
. ,P1Pr -J�: - .
16 _: ; I, ;�. "L 'j.-j'. I
r ; +4 I' ' .
I s , - , I I ,
. k. s k
%, �t 1%
. . L. h . A 4
..". I 1; �. *�wy_,;f. r
all" F to. rtl . . b 16 %,P.r- ,, ,,.;; 1P , : 4
I I v;
#I S
. ri - - A 71 i's
at; W .11, I 1,�v . *�
11. ,�, .11 I
1 � .4,
f . '� 1; !�, %
..,
N%. , . ir'. .! P � '
.11. � I ; .4 I 17. - ,. W. - ,, , , � ,*. � I r
. rk - ,.I. I a . -
.
.U., 11N � I �
I I go.
.-- f ON 61 f, -P�1.., I. PII.� . ,
. .
447 .14 D so h a . -
6 I I 1 I .
- I - q , , I,. I '. .: I
I , - - '.
..
�- *1 , I d L 6 P 4 ,� .P; .
'-. P(F.t � j .q..I �,,j P� .
s" -4:�,f t I ,� '.j
P, . v .�Cj y
� , , . J11A.4 .. I P 4 4 ,,-q VIP t
A Fk` . . I
4 . top I "
,�.--N
� i
, ,..
. I
I ,
- . � . -- 6'
. � . ".41. I - F
, . ,
.1 I
f . % `L9 .
d I 4-P. 1 4t !,.r . ��
11 , � L .16 f I
I �
�
. $
.jm . .
�*
.
. -r
, I I F .1 I " . -
, , 1C %
, I
-]i 1, - -0 - I I I . .
. ., I V� /0 � tA
h .
I U
.�4 f� N % :.,, r / " _ . I . 4 I
pie, k
I
. it.
�A I � I , � - r I I * -
'k , i. : I
..� " r f - . I
4 .� 14 . .
I 4 m ;�',. I V to. .
�`s . . I I'S I
, I
, P I I I
�. o 16i En- - L '.. , I
% I . # I
Ok .; I:- .0 W 4
. 1� ,I 'r ;
% P.. 0 S "I j
. I _*' r ,
I I
;
- h eo, . : I
; Ll-,�.. I I I I I
.�
I
, I
4i is I 0�
- r I
v - I
I R , L k I U . - s (p)
..., .
I - 'r
- .
I ., + . � , 4 . 9 A � L '. 0 I
" 'S h. I., I
-N " _P .
��;`� ,,��; 4
!4
C, I I I' 4 1. . 41 ". ?., . I . ..
. �j ; i.%. k . j .
N
.0 AM .v
- 1. 'I j i4l! - 4ts , ,� I; , " - I, 1-1 I , "' - ,
op'liffiP81, I. I.% . ,,a, , - - I. .
Is . . - . 1, .. . , .. - � 1:P I. .
. ' I I ? 41 . I
r-f , I , I -.1 j '
- i 1 )4.-W.,� 1'r
. _� j46 1 I W , I, i, ..; lt.,T-A ".
I* 3 � - .. , .
go :
1?14 0 dh 2 I
. - - - - b - -
- i - -0 P. , - -.1 I ' . 4ob .; L _
� %I : F I I I ; jk .
.
I.
& U 1% �.
j..
- I
.
;
i
" - i.., .. . k% ;.% I 0L
.
- *_ �,P. r,,,, I
f T 6: 0 1 !.! .�. 14 I t. J.� t I'l I - ... m . .
,q -. .... . . .
. T'. it L .
,; 1, iw".t . i, ,
I
, . .
'L
. ...lhL . - ,%,* *j 4 . . .
:. . 11 " :.. . , v, I - I P .
.V, $ I, .4 .- 6 . .. Is. ,
Rrb I � C T - r� a 't ..IF l. .
I I r." . -
. 4 W 0 h I. 9� , -
" - � rr, :.,41.; I L�
�. P. .
I 4 . I .
. I
t:�,; ( .. :, I J� ,
I
.
I 1h .
. I I
, q* � . . r I, h. 4. 4 I . -
W *1 I . , t . .
C) -_ - - I -1 - ' I d I . - .
.44% I � : r .jq I. . I :1 ilp .-.14 . P . , . i. h
. . ;Q .'%� . 4F&' - ,�L+ - I I I . bl�v' I
I&P .. . .91 %. s oft . . 4. rs. . h a $ 1 6' 4 1
9P . .6 - -
..dwo . .� I ... , 0.
14 .4sm I * I " ! � I .-i ,
W I
* - r
1
N16. 11. d ,
�; . ,P.r... I - ,It . r-
41, T I - I " , fo. - I % P : " I .
Rib- �� 4j 1 'j' I , I . .i..�N 11. , T , . �
-
I � I � _4 . I "
I& :,. � . � , I. .. I , 0 -1, , : Rb ._.� -, , .. : . - I - V; I I I
. , .� j - . I ;
, I'd
I . 11
" ...: - I
i I. I - .. k . -� 6
, �L - I
IbIt ,b' .
, I" :
4 1�
;,. 1. ,,'I :� Ill I .S... ::..p I
. I I
.!
-� I
01
I -
I ..% �. � 4
. ., I - I ,
.
13
"
I
��
I
mu
so""
z
mu
Irm
a
0
,
1P
_j
I
�j
00
M
0
z
>
c
a4
0
ma
rw*
C:
0
C4
v
1
on
0
>
W04
0
z
n
0
z
r"
n
z
111111oFF4
M
0
"Wi
j 05
"
0" a
:3
91
no
2
tl
0
:I
mm 0
(n
a
"I
Moo
Q
=04 0
0
3
(A
41
I
I
i
.
.
.
�
A
.1 ,
.
-%%
s
I
I
;z
I
I
1
;
.
I
.
%% N I
I
m N ,
-
I
U� I
1
%
6 I
tr .
j -
h
114
I
�
�3 (knu
it
I . s
4
I. ,bIw. _..
I .
AP
I I
I I -
�Ili�oiiioioFmmm I �,-�. 1%. N
.-�.
Y2K Letter
Page 1 of 3
Current Date
Company Name
Street Address
City, State, ZIP
YEAR 2000 READINESS DISCLOSURE
Last Updated 7120/99
Dear Sir/Madam,,
Our products have been divided into four sections of Year 2000 compliance. They are 1-Compliant because they do not
process date functions, 2-Compliant based on factory testing, 3-Compliant with exceptions as noted, and 4-Not
Compliant.
1-These items are Y2K compliant. They do not process date fimctions:
4800 Series
48XX Series 1
911/911 A/91 I AC
ACS Series Annunciators
AFC-90
AFM Series Annunciators
AIM-200
AMG-i/AMG-E
AN-PN Control Panels
AP Series Panels -7, -12
APS-6R
ICBC Class 1/2
1CCM-1
CMS100
ICMS200 w/o Printer
CNiX Series Modules
. ... ...............
CRL-1
ICRL-24/124
CRT-1
CSGL-404
NUVEK Series Modules
OLP- I
PRN Series Printers
IRP- 100 1
.... ......
RP-1002
RPT-W[WF/F
EVAC-AE1 S2500
IFCPS-24
ATG-2 IlMagni-Fire CD-ROM
AVL-1
AVPS-24
JMD Series
SAS-200
ISFP 1/2/4/6/8 .................
SGL Series
System 500
[System 5000
IUDACT
IUPDL- 1020
EC-25/50
lVeriFire 200
VeriFire 400
VeriFire- 1020
VESDA E70-D
IXP Transponder
XPS-M/C
ISFP-400 JWFD 20, 25, 30.0@80
IIMD4-48/24 IISFP-400B
2-These items are Y2K compliant and have been tested at the factory. They process date functions. If you have a product
with an earlier version number, it is not implied that there is a Y2K concern. Rather, that particular version was not
tested, either due to unavailable hardware, software, or both.
AFP 200
AFP 400/300 Systems
AM2020/AFP 1010 Systems
AMNET II
Version(s)
Tested
at Factory:
......
All
Versions
Version(s)
Tested
at Factory:
All
Versions
Version(s) Tested at Factory: Standalone R5.5 and higher,
Network M2.5 and higher
Version(s) Tested at Factory:
available)
V2.45c (Product no longer
http://notifier.com/y2kletter.htm 12/8/99
Y2K Letter
W.
Page 2 of 3
ICGAS
CRT-2
11NA Network Annunciator
ILCD-80
IMC- 1 Master Clock
ISFP-1024
INotifier integrated Systems
IBCI3-3
BOCC
lUniguard
jUniNet 4.0 1
jUniNet 2000
IVGAS[Uni"Net 3.1
Version(s) Tested at Factory: V2.45c (Product no longer
available)
Version(s) Tested at Factory: All Versions
lVersion(s) Tested at Factory-, M2.5 and higher
Version(s) Tested at Factory: PIN 73261 and higher
Versions) Tested at Factory: All Versions
Version(s) Tested at Factory: M2.0
0
Versions) Tested at Factory: V3.2 and higher
Version(s) Tested at Factory: 6.03 and higher, Note: Leap
Year is not processed automatically in the Year 2000
Versions) Tested at Factory: 1.2 B23
Versions) Tested at Factory: All Versions
Vtirsion(s) Tested at Factory: V4.0 and higher
Versions) Tested at Factory: All Versions
1 Version(s) Tested at Facto. ,,ry: V3.1
3-These items are Y2K compliant with the exceptions as noted:
NRT Network Reporting Terminal
1(all. versions except M2.0)
4-These items are not Y2K compliant:
CMS200 with Printer (circa 1960's)
JSFP 1024 (versions prior to 3.2)
JA technical issue regarding the time synchronization
feature has been identified. In the Year 2000, the NRT
may not accept the hourly time sync message transmitted
from another node on the network. The NRT will continue
to perform all of its regular functions using its own time
base. Customers should consult with their ESDs and ESDs
Ishould consult their RSMs.
If you have: 2.5, 2.51.9 2.521) 2.5311 2.54, or 2.55 you need to
order upgrade NRTDisk-2.55A.
II f you have: 2.5 6, 2,5 7 3 2.5 8 5 2.5 9 2 2.6 0 , 2.6 1.) 2.7 , 2.7 1 3
2.72, or 2.77 you need to order upgrade NRTDI*sk-2.78M
11f you have: 2.8 or 2.81 you need to order NRTDisk--2.82M
The
printer
uses a mechanical
clock which will stop at the
year
2000.
The control
panel
will continue to function
normally.
Versions prior to 3.2 will not properly roll over to Year
2000, causing erroneous print out and display of the date
field. Once in the Year 2000, the panel's tune/date can be
manually reprogrammed, however printouts of the date will
still be erroneous.
I hope phis helps address any of your concerns. We at NOTIFIER are committed to supplying the highest quality product
possible.
http://notifier.com/y2kletter.htm 12/8/99
Y2K Letter
0
Page 3 of 3
Sincerely,
x
.r
Robert Holkup/Director of NOTIFIER Quality Assurance
(DC 1999 NOTIF R
http://notifier-com/y2kletter.htm
12/8/99