08-441-002PARTIAL FIRE ALARM SYSTEM RISER
N.T.S.
SECOND TO FOURTH FLOOR (TYPICAL)
NAC # 4 E.O.L.
(1.209 amp, 3.0 max) \/N
NAC #3 E.O.L.
(1.197 amp, 3.0 max)
120V DEDICATED CIRCUIT TO ELECT
PANEL (HOUSE PANEL CKT #16) WITH
20Amp CIRCUIT BREAKER.
B
Vhux=
PERMIT AREA ON -Y
STANDBY
CURRENT
PER UNIT
(Amp)
I
QTY
CURRENT(mA) m
110cd
110cd
110cd
75cd
75cd
75cd
- - -
- - - -
- - -
- - -
- -
- - -
- -
- - -
- -
- - -
- -
- -
- - -
- -
- - ---
NAC #3
H406
H405
H404
H403
H402
H401
B
0.040
X
1
=
0.040
0.075
75cd
(2.108 amp, 3.0
max)
75cd
75cd
110cd
75cd
E
E
E
E
E
E
E
H
H
H
L
B
L
L
H307
H306
H305
H304
H303
H302
H301
X
28
B
E.O.L.
Addressable Devices
{ maximum alarm draw for all
devices)
75cd
75cd
75cd
75cd
75cd
75cd
75cd
15/75cd
75cd
75cd
75cd
75cd
75cd
I
0.00040
N
N
N
N
N
N
N
N
N
N
N
N
N
I
=
0.000
L
0.00027
L
20
H
_0.005
L
0.00030
H
1
L
0.000
L
0.00027
X
L
=
L
Sprinkler Bell
H
X
L
_
L
0.023 X 1 -
L
I
TCFTAI Sl'TEM;STAtt
:::: Gt�ftl�l
»�tT
fAmo1• ..:.'.:
H313
H312
H311
H310
H309
H308
H307
H306
H305
H304
H303
H302
H301
L ------------------------------------------
-�
NAC #2
(1.711 amp,
3.0 max)
B
E.O.L.
75cd
75cd
75cd
75cd
75cd
75cd
75cd
75cd
15/75cd
75cd
75cd
E
E
E
E
E
E
E
E
E
E
E
H
L
H
L
L
L
L
H
L
L
L
NAC #1
H211
H210
H2O9
H2O8
H2O7
H2O6
H2O5
H2O4
H2O3
H2O2
H2O1
(1.851 amp,
3.0 max)
B
E.O.L.
75cd
75cd
75cd
75cd
75cd
75cd
15/75cd
75cd
75cd
75cd
75cd
75cd
E
E
E
E
E
E
E
E
E
E
E
E
L
L
L
H
L
L
L
L
H
L
L
L
H112
H111
H110
H109
H108
H107
H106
H105
H104
H103
H102
H101
P12
FROM EXISTING R.P.S
R.P.S
E (P6) NAC #2.
NAC # 4 E.O.L.
(1.209 amp, 3.0 max) \/N
NAC #3 E.O.L.
(1.197 amp, 3.0 max)
120V DEDICATED CIRCUIT TO ELECT
PANEL (HOUSE PANEL CKT #16) WITH
20Amp CIRCUIT BREAKER.
B
Vhux=
DESCRIPTION
STANDBY
CURRENT
PER UNIT
(Amp)
I
QTY
CURRENT(mA) m
110cd
110cd
110cd
75cd
75cd
75cd
15/75cd
^E
-E
E
=
E
E
E
L Nyp
L W
H yyp
�,E
L yyp
H p
H
H
H407
H406
H405
H404
H403
H402
H401
B
0.040
X
1
=
0.040
0.075
75cd
75cd
75cd
75cd
75cd
110cd
75cd
E
E
E
E
E
E
E
H
H
H
L
H
L
L
H307
H306
H305
H304
H303
H302
H301
X
28
B
0.008
Addressable Devices
{ maximum alarm draw for all
devices)
0.400
Addressable Duct Detector
NAC #2 E.O.L. 15/75cd 15/75cd 15/75cd 75cd
(0.385 amp, 3.0 max) N-d-"
H2O4 H2O3 H2O2 H2O1
120V DEDICAITD CIRCUIT TO ELECT
PANEL (HOUSE PANEL CKT #16) WITH
20Amp CIRCUIT BREAKER.
FIRST FLOOR
19
R.
G
-- -A 1 F -
EXISTING FIRE -LITE "FCPS -24S8'
REMOTE POWER SUPPLY LOCATED
IN ELECT ROOM.
EXISTING FIRE -LITE "FCPS -24S8"
REMOTE POWER SUPPLY LOCATED
IN ELECT ROOM.
SERVING 2ND FLOOR
SECOND TO FOURTH FLOOR (TYPICAL)
-A
PERMIT AREA ONLY
F- - - - --1
�M N
D19
n N I
M20
MU SHUTDOWN
L - - - -J
EEE E
D10 D11 D12 D13
E n E n E �E
Em R !\
M15 M16 M17 M18
AHU SHUTDOWN MU SHUTDOWN AHU SHUTDOWN AHU SHUTDOWN
E E E
D06 D07 D08
E E E E
SD SD SD SD
D01 D03 D04 005
TS E FS E
M E M E
M75 M76
TF E E E
P P WP P WP P WP
M E M E P E P E P� M E
M61 M62 M63 M64 M65 M66 M67
TS E TS E FS E TS E ��`�' ,�eo�� TS E
M05 E M06 M07E MOB M09E M10 Mill M11E E
M12
4 CjJ
Q�
R R R R E
M02 M03 M04 M13
ELEV. RECALL E
M TO MONITOR 120V SHUNT TRIP CIRCUIT
81 A MO1
�,S E6 R.P.S E2 WP
E
G
G 120V DEDICATED CIRCUIT TO ELECT C E
PANEL WITH 2OAmp CIRCUIT BREAKER. F = A M100
04
G
F.A. ;.P. ' TELCO LINES FOR CENTRAL STATION NOTIFICATION
P1 E THRU RJ31X /CORD
EXISTING NOTIFIER NFW -100 F C
FIRE ALARM CONTROL PANEL
LOCATED IN ELECT. ROOM. EXISTING 120V DEDICATED CIRCUIT TO ELECT. PANEL
LOCATED IN ELECTRICAL ROOM, WITH 21
CIRCUIT BREAKER.
Fire Alarm Control Panel NOTIFIER FIREWARDEN -100
Vhux=
DESCRIPTION
STANDBY
CURRENT
PER UNIT
(Amp)
I
QTY
CURRENT(mA) m
TOTAL
STANDBY
CURRENT
(Amp)
ALARM
CURRENT
PER UNIT
(Amp)
TOTAL
QTY
TOTAL
SYSTEM
TOTAL ALARM
CURRENT
(Amp)
Main Board
0.255
X
1
=
0.255
0.325
X1
1
=
0.325
Remote Annunciator
0.025
X
1
=
0.025
0.064
X
1
=
0.064
UDACT Communicator
0.040
X
1
=
0.040
0.075
X
1
=
0.075
ACM -16AT /ACM -32A
0.040
X
1
=
0.040
0.056
X
1
=
0.056
AEM- 16AT /AEM -32A
0.002
X
1
=
0.002
0.018
X
1
=
0.018
Addressable Smoke Detector
0.00030
X
28
=
0.008
Addressable Devices
{ maximum alarm draw for all
devices)
0.400
Addressable Duct Detector
0.00030
X
17
=
0.005
Addressable Heat Detector
0.00030
X
6
=
0.002
Monitor Module
0.00040
X
30
=
0.012
Addressable Pull Station
0.00023
X
12
=
0.003
Control Module
0.00039
X
1
=
0.000
Addressable Relay
0.00027
X
20
=
_0.005
New Addressable Duct Detector
0.00030
X
1
=
0.000
( New Addressable Relay
0.00027
X
1
=
0.000
Sprinkler Bell
0.000
X
1
_
0.000
0.023 X 1 -
0.02 3
TCFTAI Sl'TEM;STAtt
:::: Gt�ftl�l
»�tT
fAmo1• ..:.'.:
BY
0.398
Tt)TAE SYSTEf1ALARi�?t
.''.
0.961
NOTE: Provide XRM -24 (E) Transformer to expand maximum current capacity up to 6 Amperes
FIRST FLOOR
BATTERY & VOLTAGE DROP CALCULATIONS
Maximum Capacity
Remote Power Supply FCPS -24S8
"FIRE -LITE FCPS -2438" ON BOARD NAC CIRCUITS
8 Amperes
I,m
DESCRIPTION
STANDBY
CURRENT(mA) m
1
STROBE 15 175cd
TOTAL
ALARM
TOTAL
SYSTEM
9
TOTAL ALARM
DESCRIPTION
CURRENT
1422
QTY
HORN /STROBE (75cd)
STANDBY
CURRENT
QTY
STANDBY
CURRENT
STANDBY
PER UNIT
ALARM TIME
NAC #1 TOTAL
ALARM
CURRENT
PER UNIT
TIME
CATALOG NUMBER
(Amp)
1
(Amp)
SYSTEM SENSOR # SR
(H0URSI
77
(Amp)
(Amp)
(AMP -
(H O U R S)
158
Main Board
0.065
X
1
=
0.065
0.145
1
=
0.145
Strobe 15/75od
0.000
X
2
=
0
0.077
Ex
2
=
0.154
Strobe 75cd
0.000
X
26
=
0
0.158
26
=
4.108
Horn /Strobe 75cd
0.000
X
8
=
0
0.176
8
=
1.408
NAC #4 (SPARE)
TOTAL SYSTEIM ST�tNIDl3'f
0.065
T..
REQUIRED
5.815
FACTOR OF
CUfErT Ate
BATTERY
CAPACITY (AMP -
AM
(AIP -
CAPACITY (AMP.
SAFETY
a<,•.,.,..:• ire "s1xe 1T''aratin 1 trr.a aE 8ecdnda€ 'Exaxe€ Sarce iro t hi FtA 12 4.4 . 1, ,5,3
"FIRE -LITE FCPS -2438" ON BOARD NAC CIRCUITS
3 tan db 24 Hours Alarm 5 M mutes x 1160 0.0833 Hours
T
DESCRIPTION
CATALOG NUMBER
CURRENT(mA) m
1
STROBE 15 175cd
REQUIRED
77
TOTAL
SYSTEM
9
REQUIRED
SYSTEM SENSOR # SR
REQUIRED
1422
TOTAL SYSTEM
HORN /STROBE (75cd)
REQA ED
ALARM
STANDBY
352
STANDBY
STANDBY
ALARM TIME
NAC #1 TOTAL
ALARM
CIRCUIT NO. 2
CAPACITY
TIME
CATALOG NUMBER
CURRENT
1
CAPACITY (AMP.
SYSTEM SENSOR # SR
(H0URSI
77
CURRENT
STROBE CEILING MOUNT (75cd)
(AMP -
(H O U R S)
158
(AM PS)
STROBE (75cd)
HOURSI
158
948
3
(AMPS)
SYSTEM SENSOR # P1224MC
H O U R S
24
x
0.065
=
1.560
WAY OF CIRCUIT IN FEET
0,083
x
5 815
=
0.485
m m
10
STROBE (75cd)
SYSTEM SENSOR # SR
158
1580
3
HORN %STROBE (75cd)
SYSTEM SENSOR # P 2R
176
REQUIRED
REQUIRED
ALARM
STARTING POINT FOR VOLTAGE DROP
TOTAL
OPTIONAL
2_,108
REQUIRED
NAC #4 (SPARE)
STANDBY
CAPACITY
REQUIRED
FACTOR OF
BATTERY
CAPACITY (AMP -
CAPACITY
(AIP -
CAPACITY (AMP.
SAFETY
(Amp[Hours)
HOURS]
H 0 U R S I
HOUR)
1.560
0.485
-
2.045
x
1 2
2.454 1
EXISTING NOTIFIER FIRE ALARM
REMOTE ANNUNCIATOR IN MAIN
ENTRY GND FLOOR.
D
A.N.N P10
E
System No. W -L -1326
December 03, 2003
F Ratings - 1 and 2 Hr (See Item 1)
T Rating - 0 Hr
1. Wall Assembly - The 1 or 2 hr fire rated gypsum board /stud wall assembly shall be constructed of the
materials and in the manner specified in the individual U300 or U400 Series Wall and Partition Designs in the
UL Fire Resistance Directory and shall include the following construction features:
A. Studs - Wall framing may consist of either wood studs or steel channel studs. Wood studs to consist of
nom 2 by 4 in. lumber spaced 16 in. OC. Steel channel studs to be min 3 -1/2 in. wide and spaced max 24 in.
OC.
B. Gypsum Board* 9 One or two layers of nom 5/8 in, thick gypsum board as specified in the individual Wall
and Partition Design. Max diam of opening is 14 -1/2 in. The hourly F Rating of the firestop system is equal to
the hourly fire rating of the wall assembly.
2. Metallic Sleeve - (Optional) - Cylindrical sleeve fabricated from min No. 26 gauge gals sheet steel and
having a min 1 in. overlap along the longitudinal seam. Ends of sleeve to be flush with or extend a max 1 in.
beyond each surface of wall.
3. Through Penetrants - One metallic pipe, conduit or tubing to be installed concentrically or eccentrically
within the firestop system. Pipe, conduit or tubing to be rigidly supported on both sides of wall assembly. The
following types and sizes of metallic pipes, conduit or tubing may be used:
A. Steel Pipe - Nom 12 in. diam (or smaller) Schedule 10 (or heavier) steel pipe. An annular space of 0 in.
(point contact) to 1 -3/4 in. is required within the firestop system.
B. Iron Pipe - Nom 12 in. diam (or smaller) Schedule 10 (or heavier) cast iron pipe. An annular space of 0 in.
(point contact) to 1 -3/4 in, is required within the firestop system.
C. Copper Tubing - Nom 4 in diam (or smaller) Type L (or heavier) copper tube. An annular space of 0 in.
(point contact) to 1 -7/8 in. is required within the firestop system.
D. Copper Pipe - Nom 4 in. diam (or smaller) Regular (or heavier) copper pipe. An annular space of 0 in.
(point contact) to 1 -7/8 in. is required within the firestop system.
E. Conduit - Nom 6 in. (or smaller) steel conduit or or nom 4 in, diam (or smaller) steel electrical metallic
conduit. An annular space of 0 in. (point contact) to 1 -7/8 in. is required within the firestop system.
4. Firestop System - The firestop system shall consist of the following:
A. Packing Material - In 2 hr wall assemblies, foam backer rod firmly packed into opening as a permanent
form. Packing material to be recessed from each surface of the wall to accommodate the required thickness of
fill material.
B. Fill Void or Cavity Materials* - Caulk - Min 1/2 in. thickness of fill material applied within the annulus on
both surfaces of the wall assembly. When steel sleeve is not used or when steel sleeve is flush with the wall
surfaces, a min 1/2 in. diam bead of caulk shall be applied to the penetrant /gypsum board interface at the
point contact location on both sides of wall. When steel sleeve is used, a bead of caulk is applied to the steel
sleeve /gypsum board interface on both sides of wall. RECTORSEAL - BF 150+ Caulk, Biostop 500+
1
810 FIRESHIELD
*Bearing the UL Classification Mark
WIRE LEGEND
SYMBOL WIRE TYPE AND DESCRIPTION
A 18 -2 FPLP FOR SIGNALING LINE CIRCUIT
B 14 -2 FPLP WIRE FOR NOTIFICATION APPLIANCE CIRCUITS
C 18 -2 FPLP WIRE FOR ANNUNCIATOR POWER
D 18 -4 FPLP WIRE FOR ANNUNCIATOR COMMUNICATIONS
F 12 AWG THHN WIRE FOR RPS & FACP POWER
G 12 AWG THHN WIRE FOR RPS & FACP GROUND
0t t AI..Al2►M SV! 'it WfO 13F,
IPSTAL.LEI) W ACCORDANCE- Wt I I I
�ALAA11 -l)ADE COUNTY FIRE DEPAR'1'N : NI'
61.04. FEA1,llt_.. - Fib AUA1 a._=._. - ----
Flhc SUFF:iESSICN ,� 1VATEn MAIN -
O.ii£: l�I ZC
FIRE AIA.RM MALL BE A Cf_•alMAL
STATIOti SEfR`✓ICE, A CT:RTIF11I
OR PLACARD SNAIL BE SX TED Ar
FIMrAL INS€=ECrIIII AS PER NFPA n
CIRCUIT CURRENT CALCULATION
"FIRE -LITE FCPS -2438" ON BOARD NAC CIRCUITS
CIRCUIT NO. 1
T
DESCRIPTION
CATALOG NUMBER
CURRENT(mA) m
1
STROBE 15 175cd
SYSTEM SENSOR # SR
77
77
9
STROBE (75cd)
SYSTEM SENSOR # SR
158
1422
2
HORN /STROBE (75cd)
SYSTEM SENSOR # P2R
176
352
FROM 1999 NEC - APPENDIX S TABLE 8
NAC #1 TOTAL
1851
CIRCUIT NO. 2
QTY
DESCRIPTION
CATALOG NUMBER
CURRENT (mA) TOTAL(mA)
1
STROBE 15175cd
SYSTEM SENSOR # SR
77
77
1
STROBE CEILING MOUNT (75cd)
SYSTEM SENSOR # SCR
158
158
6
STROBE (75cd)
SYSTEM SENSOR # SR
158
948
3
HORN /STROBE 75cd
SYSTEM SENSOR # P1224MC
176
528
CURRENT IN AMPERES, AND I LENGTH ONE
1 =
2.108
WAY OF CIRCUIT IN FEET
NAC #2 TOTAL
1 711
CIRCUIT NO. 3
OTY
IT
m m
10
STROBE (75cd)
SYSTEM SENSOR # SR
158
1580
3
HORN %STROBE (75cd)
SYSTEM SENSOR # P 2R
176
528
STARTING POINT FOR VOLTAGE DROP
4AC #3 TOTAL
2_,108
NAC #4 (SPARE)
ACTUAL NOTIFICATION APPLIANCES LOAD IN AMPS 5.67
ALLOWABLE AMPACITY FOR COPPER WIRES
SIZE
ALLOWABLE AMPACITY
18
6
16
8
14
15
12
20
10
30
FROM NEC -IAULE .51U -15 & 40Z -5
STROBE OR
HORN /STROBE
80' A.F.F. OR
e BELOW CEIUNG "
(WHICHEVER IS LOWER) }
t
PULL STATION
48' A.F.F.
ADA HEIGHT REQUIREMENTS
NO SCALE
N.A.C. VOLTAGE DROP CALCULATIONS
ADVANCED DETECTION TECHNOLOGIES, INC.
LICENSE NO.: EF0001218
UL 100045/337
1781 S.W. 3RD AVE
. / MIAMI, FLORIDA 33129
TEL. (305) 663-0738
FAX: (305) 856 4514
� al i }A•
QUALIFIER: E.E, FELIX TUCjA
-7WC >*1
x 2000
,
r ,
,
,
,
1
s•
X
we x
• • tic
Q E-4
1�1 w V1
1 T.
0
CI 1
AIIIIII II,
W
PROJECT NO.:
DRAWING NO.:
SCALE: N.T.S
DATE: 11/10/07
DRANK BY: I.M.
ISSUED:
FOR PERMIT
0
FIRE-LITE
e
REMOTE POWER SUPPLY
OWERSUPPL'
DC RESISTANCE FOR SOLID COPPER
NAC #1
Wire 14
WIRES @ 75 DEG -C
R = 0.00307
L = 322
1 = 1.851
VD= 3.6&
VOLTAGE TO LAST DEVICE 16_74
NAC #2 Wire 14
-
R - 0.00307
SIZE
OHMS PER 1000 FT.
10
1.21
12
1.93
14
3.07
16
4.89
18
7.77
FROM 1999 NEC - APPENDIX S TABLE 8
L =
341
FORMULA FOR CALCULATION OF VOLTAGE
I =
1.711
DROP IN DC 2 WIRE CIRCUITS
VD=
3,38
VOLTAGE TO LAST DEVICE 16_82
VD- 2RXLX1
NAC #3
Wire 14
WHERE VO a DROP IN VOLTS IN THE CIRCUIT
TO THE LAST DEVICE, R- RESITANCE OF WIRE
R =
0.00307
IN OHMS PER FOOT (VALUES OF RESISTANCE
L =
265
FOR COPPER WIRE PER TABLE ABOVE)1
CURRENT IN AMPERES, AND I LENGTH ONE
1 =
2.108
WAY OF CIRCUIT IN FEET
VD=
3.43
VOLTAGE TO LAST DEVICE 16_97
NOTES
NAC #4
Spare
STROBE REGULATED VOLTAGE RANGE AS
PER ATTACHED SPECIFICATION SHEET IS 16
TO 33 VOLTS
STARTING POINT FOR VOLTAGE DROP
CALCULATIONS EQUAL 20.4 VOLTS
ADVANCED DETECTION TECHNOLOGIES, INC.
LICENSE NO.: EF0001218
UL 100045/337
1781 S.W. 3RD AVE
. / MIAMI, FLORIDA 33129
TEL. (305) 663-0738
FAX: (305) 856 4514
� al i }A•
QUALIFIER: E.E, FELIX TUCjA
-7WC >*1
x 2000
,
r ,
,
,
,
1
s•
X
we x
• • tic
Q E-4
1�1 w V1
1 T.
0
CI 1
AIIIIII II,
W
PROJECT NO.:
DRAWING NO.:
SCALE: N.T.S
DATE: 11/10/07
DRANK BY: I.M.
ISSUED:
FOR PERMIT
0
e
CIO
SHEET NO.:
#
FA-02
�a
02 OF 02
.j��r