14-184-006BATTERY CALCULATION - FACP - NOT[ fIRE NFW2
-100
Device Type
City.
Standby / Device
(Amp)
Alarm / Device
(Amp)
Total Standby
Current (Amp)
Total Alarm Current
(Amp)
Main Board
1
0,14500
0.27500
0.145000
0.275000
ANN -80 Remote Annunciator
1
0.03700
0.04000
0.037000
0.040000
FDU -80 Remote Annunciator
0
0,02500
0.06400
0.000000
01000000
NP -100 Smoke Detector
11
1 0.00030
2.663225
0.003300
NAG / Output #3
NOT-13G 12LX Pull 5tation
12
1 0.00023
14
0,002760
NAG / Output #4
NH -100 --Heat Detector
6
0100030
NAG 4
0.001800
NAG if Output #4
DNR -100 Duct Detector
1
0.00030
0.065000
0.000300
1
NMM- I COP Monitor Module
24
0.00038
1,560000
0.009120
NC- I OOR Control Relay
B
0.00027
1.560000
0.002160
ALL Addressable devices
1
Time (24 Hours)
0.40000
1.8231
0.40000
NAG # 1
1
A/H required Alarm
1.1700
2,19
1.170000
NAG # 2
1
Time (5 Minutes)
1.7350
4.0 A/H
1.735000
NAG # 3
1
1.7220
1.722000
NAG # 4
1
0.0120
1.8768
2 25
0.012000
Totals
0.201440
5.354000
Derating factor (1.2)
A/H Required 5tandb1
Time (24 Hours)
4.834560
USE BATTERY SIZE
4.0 A/H
A/H Required Alarm
Time (5 Minutes)
0.449736
5ub Total Standby/
Alarm (Amp /hm)
5.284296
Multiply by the
derating Factor ( I .2)
6.34
USE BATTERY 512E
7.0 A/H
BATTERY CALCULATION - NOTIFIER FCP5 -2458 - POWER SUPPLY # I
Device Type
Qt,,
Standby/ Device
(Amp)
Alarm / Device
(Amp)
Total Standby
Current (Amp)
Total Alarm Current
(Amp)
Main Board
1
0.065
0.145
0.065000
0.145000
Power 5upervision Relay
0
0.025
0.025
0.0000
0.000000
NAG / Output # I
1
0.025
0.572
0.0000
0.572000
NAG / Output #2
1
1
0.921
2.663225
0.921000
NAG / Output #3
1
1
0,573
14
0,573000
NAG / Output #4
1
2,960462
0.921
NAG 4
0.921000
NAG if Output #4
1
14
Totals
0.065000
3.132000
1
20.39
0
A/H required 5tandby
Time (24 Hours)
1,560000
3.771000
Q
LL_
A/H required Alarm
Time (5 Minutes)
1.560000
0.263088
Time (24 Hours)
Sub Total 5tandby/
Alarm (Amp/ Hr5)
1.8231
U
z
A/H required Alarm
Multiply by the
Deratmg factor (1.2)
2,19
4.639
Time (5 Minutes)
USE BATTERY SIZE
4.0 A/H
BATTERY CALCULATION - NOTIFIER FCP5 -2458 - POWER 5UPPLY #2
Device Type
Qt,.
Standby / Device
Alarm / Device
Total Standby
Total Alarm Current
DI (Ft)Ce
Voltage
(Amp)
(Amp)
Current (Amp)
(Amp)
Main Board
1
0.065
0.145
0.065000
0.145000
Power 5upervi5ion Relay
0
0.025
0.025
0.0000
01000000
NAG / Output # I
1
250
1.183
2.663225
1.183000
NAG / Output #2
1
1,722
1.039
14
1.039000
NAG / Output #3
1
2,960462
1.404
NAG 4
1.404000
NAG if Output #4
1
14
0.000
150
0.000000
1
20.39
0
Totals
0.065000
3.771000
Q
LL_
A/H required 5tandby
1.560000
Time (24 Hours)
W
U
z
A/H required Alarm
TOTALS
0.316764
4.639
Time (5 Minutes)
U
Sub Total Standby /
Alarm (Amp /Hrs)
Multiply by the
1.8768
2 25
Derating factor (1.2)
USE BATTERY SIZE
4.0 A/H
P.A.C.P. - VOLTAGE DROP CALCULATION - NFW2 -100 Vd= 2 x D(Ft) x DC Re515t(Ohrn/ft) x I(Amp)
Circuit Description
Maximum p� avid
Cur(eAmp)Load
Volt (Volts)
(AWG))
DC(ROhs�Ftj ce
DI (Ft)Ce
Voltage
Voltage Drop
ndincj
NAG I
2.5
1.170
16 - 33
14
0.00307
310
20.4
2.226978
28
NAC 2
2.5
1.735
16 - 33
14
0,00307
250
20.4
2.663225
17.74
NAC 3
2,5
1,722
-
14
.00 0
280
20.4
2,960462
17.44
NAG 4
2.5
0.012
16 - 33
14
0.00307
150
20.4
1
20.39
0
�
0
Q
LL_
M
Z
W
U
z
TOTALS
6,0
4.639
L
! L
U
P5- I - VOLTAGE DROP CALCULATION - FCP5 -2458 Vd= 2 x D(Ft) x DC RC515t(0hM/ft) x I(Amp)
Circuit
Description
Maximum Load
(Amp)
Current Load
(Amp)
Voltage Range
(Volts)
Wire Size
(AWG)
DC Re515tance
(Ohm/Ft)
D15tance
(Ft)
Starting
Voltage
Voltage Drop
Ending
Voltage
NAC I
3.0
0.572
16 - 33
14
0.00307
295
20.4
1.036064
28
NAG 2
3.0
0.921
16 -
14
0,00307
435
20.4
2.459899
17.94
NAG 3
3.0
0.573
16
14
.00 0
305
20.4
1.0723
17.04
NAG 4
3,0
0.921
-
14
0,00307
445
20.4
2.516448
20.40
0
�
0
Q
LL_
M
Z
W
U
z
TOTALS
1 8,0
8
L
! L
U
P5 -2 - VOLTAGE DROP CALCULATION - FCP5 -2458 Vd= 2 x D(Ft) x DC RC515t(0hm/fQ x I(Amp)
Circuit
Description
Maximum Load
(Amp)
Current Load
(Amp)
Voltage Range
(Volts)
Wire 51ze
(AWG)
DC Re515tance
(Ohrr✓Ft)
Distance
(Ft)
Starting
Voltage
Voltage Drop
Ending
Voltage
NAC I
3.0
1.183
16 - 33
14
0.00307
375
e
Control Relay
28
NAG 2
3.0
1.039
16 - 33
14
0,00307
300
20.T-
1.913838
4 -1 /2 114
NAC 3
3.0
1.404
-
14
1 2 -1 13 -305
390
20.4
3.362018
17.04
NAC 4
3.0
1 �2 �1()
16 - 33
z
0.00307
p
20.T__
0.000000
20.40
0
�
0
Q
LL_
M
Z
W
U
z
TOTALS
8.0
W
L
! L
U
CABLE USES AND PERMITTED SUBSTITUTIONS FOR POWER - LIMITED FIRE ALARM CABLES
CABLE TYPE
USE
REFERENCES
PERMITTED SUBSTITUTIONS
FPLP
POWER - LIMITED FIRE ALARM PLENUM CABLE
760.61 (A)
CMP
FPLR
POWER- UMITED FIRE ALARM RISER CABLE
760.61 (B)
CMP, FPLP, CMR
FPL
POWER- UMITED FIRE ALARM CABLE
760.61 (C)
CMP, FPLP, CMR, FPLR, CMG, CM
SCOPE OF WORK
INSTALLATION OF NEW FIRE ALARM SYSTEM
No. Devices
Description
F
Rating Hr
Fire Alarm Control Panel
2
Fire Control Power Supply
1
Remote Annunciator
1 I
Smoke Detector
6
beat Detector
12
Pull Station
24
Monitor Module
e
Control Relay
28
Horn/Strobe
44
Strobe Light
I
Sprinkler Bell
I
Duct Detector
1. THESE UNITS OR DEVICES SHALL BE INSTALLED USING APPOVED
MATERIALS AND WIRING PRACTICES IN ACCORDANCE WITH THE
N.E.C. # 70 AND THE NATIONAL FIRE PROTECTION ASOCIATION
ARTICLE if 760 POWER LIMITED SECTION AND ALL APPLICABLE
LOCAL WIRING ORDENANCES.
2. CONDUCTORS AND CABLES FOR USE WITH THIS POWER LIMITED
FIRE ALARM SYSTEM SHALL BE INSTALLED IN ACCORDANCE TO
THE NATIONAL FIRE PROTECTION ASSOCIATION ARTICLE # 760
POWER LIMITED SECTION AND SHALL BE LISTED FOR THIS USE.
CONDUCTORS SHALL HAVE A MINIMUM RATING OF 300 VOLTS AND
SHALL BE OF SOLID COPPER OR BUNCH - TINNED STRANDED COPPER
CONDUCTORS.
3. ALL NEW WIRING INSTALLED IN DUCTS, PLENUMS AND OTHER
SPACES USED FOR ENVIRONMENTAL AIR SHALL BE TYPE FPLP, AS
PER N.E.C. ARTICLE # 760 -61.
4. FPLP OR FPLR SIGNAL CABLE FOR USE IN ACCORDANCE NTH N.E.C.
ARTICLE 760 AND N.E.C. ARTICLE 725 CLASS 2 OR 3 CIRCUIT.
5. MINIMUN CABLE SIZE:
A - # 18 AWG COPPER ( #18 FPL OR FPLP) FOR INITIATING CIRCUITS.
B - # 16 AWG COPPER ( #16 FPL OR FPLP) FOR SIGNAL CIRCUITS.
6. CONDUCTORS USED IN DUCTS OR PLENUM CEILINGS FOR
ENVIRONMENTAL AIR SHALL EMPLOY THE USE OF ELECTRICAL
METALLIC TUBING OR PLENUM TYPE CABLE WHICH MEETS THE
REQUIREMENTS OF THE NATIONAL PROTECTION ASSOCIATION AND
ARE U.L LISTED OR COMPATIBLE FOR THIS USE.
7. CONDUIT FILL 41X OR LESS.
8. PENETRATIONS: AS NOTED ON DETAIL
9. THE LOCATION OF AUDIBLE DEVICES SHALL BE DESIGNED TO BE
EFFECTIVELY HEARD 15 DB. ABOVE AMBIENT NOISE LEVEL OBTAINED
UNDER NORMAL CONDITION OF OCCUPANCY AS PER ARTICLE 7.4.2
OF THE NFPA 72 2007 EDITION.
10. PULL STATIONS SHALL BE INSTALLED AT 48" (CENTER) A.F.F. AS
PER ARTICLE 4.2.5 OF THE FLORIDA ACCESIBIUTY CODE FOR
BUILDING CONSTRUCTION 2007 EDITION.
11. ALL SMOKE DETECTORS SHALL BE MOUNTED MORE THAN 3' -0" FROM A/C
DIFUSERS.
12. VISUAL DEVICES SHALL BE INSTALLED 80" A.F.F. PER ARTICULE
11.4.28.3 OF FLORIDA BUILDING CODE 2007.
13. ALL EQUIPMENT TO BE INSTALLED SHALL BE COMPATIBLE, NEW
AND U.L USTED FOR USE IN FIRE ALARM SYSTEMS.
14. THIS SYSTEM SHALL BE POWER LIMITED AND ALL EQUIPMENT
SHALL BE RATED POWER LIMITED
15. THE INSTALLATION OF THIS FIRE ALARM SYSTEM SHALL COMPLY
WITH:
A FLORIDA FIRE PREVENTION CODE (FFPC) 2010 EDITION.
B FLORIDA BUILDING CODE (FBC) 2010 EDITION.
C NFPA 1, 2009 EDITION "FIRE CODE ".
D NFPA 101, 2009 EDITION, "LIFE SAFE CODE".
E NFPA 72, 2007 EDITION "NATIONAL FIRE ALARM CODE ".
F) NFPA 70, 2008 EDITION "NATIONAL ELECTRICAL CODE".
16. THIS FIRE ALARM SYSTEM SHALL BE TOTALLY SUPERVISED.
17. CONNECTIONS (120 VOLTS) TO FIRE ALARM CONTROL PANEL AND
POWER SUPPLIES SHALL BE ON A DEDICATED BRANCH CIRCUIT(S).
THE CIRCUITS AND CONNECTIONS SHALL BE MECHANICALLY
PROTECTED.
CIRCUIT DISCONNECTING MEANS SHALL HAVE A RED MARKING.
SHALL BE ACCESIBLE ONLY TO AUTHORIZED PERSONAL, AND SHALL
BE IDENTIFIED "AS FIRE ALARM CIRCUIT" THE LOCATION OF THE
CIRCUIT DISCONNECTING MEANS SHALL BE PERMANENTLY IDENTIFIED
AT THE FIRE ALARM PANEL
I& CONTROL PANEL AND ANY NECESARY POWER SUPPLY SHALL BE LOCATED IN A
MECHANICALLY VENTILED ROOM.
19. THE MAXIMUM HEIGHT TO THE TOP OF THE CONTROL PANEL AND ANY
INSTALLED POWER SUPPLY SHALL NOT EXCEED 6' -0" ABOVE THE FINISij--3
FLOOR.
20. RECORD OF COMPLETION WILL BE PREPARED BY WORLD SECURITY &
ELECTRIC, INC., AND A COPY WILL BE PROVIDED TO THE OWNER AND
TO THE CITY FIRE RESCUE DEPARTMENT.
21. THE FOLLOWING DOCUMENTATION WILL BE ON SITE UPON THE FINAL
ACCEPTANCE TEST OF THE SYSTEM:
- OWNER'S MANUAL AND INSTALLATION INSTRUCTIONS COVERING
ALL SYSTEM EQUIPMENT.
- RECORD DRAWINGS.
NOTES:
A. CEILING HEIGHT. EXCEPT PARKING AREA IS LESS THAN 12' -0 ".
B. THIS SYSTEM WILL BE "CERTIFIED OR PLACARDED" AS A "CENTRAL
STATION SERVICE" FIRE ALARM SYSTEM AND WILL BE PROVIDED
WITH 24 HOURS OF POWER SUPPLY.
THE METHOD OF COMMUNICATION MALL BE VIA TELEPHONE LINES
C. BUILDING IS FULLY SPRINKLERED.
,Q.,�HIS IS A 4 STORY NEW BUILDING WITH APROX. 63,000 SQ.FT.
E. ALL NACe SHALL BE CLASS B - STYLE Y.
F. SLC SHALL BE CLASS B - STYLE 4.
N
M
System No. W -L -1413
February 07, 2007
F- Rating - 1 and 2 Hr (See Item 1)
T- Rating - 0 Hr
A
1
3
3 2
2
X.
1C
16
A
Section A -A
1.Wall Assembly -- The 1 or 2 hr fire -rated gypsum wallboard /stud wall assembly shall be
constructed of the materials and in the manner specified in the individual U400 or V400
Series Wall and Partition Design in the UL Fire Resistance Directory and shall incorporate
the following construction features:
A. Steel Studs - "C -H" or "C -T" shaped studs, min 2 -1/2 in (64 mm) wide by 1 -1/2 in
(38 mm) deep, fabricated from min No. 25 gauge (0.6 mm thick) galy steel,
spaced max 24 in (610 mm) OC.
B. Gypsum Board* - 1 in. (25 mm) thick, 24 in. (610 mm) wide gypsum liner panels installed
vertically. Max. diam of circular cutout in gypsum liner panel is 10 in.(254mm)
C. Gypsum Board* - 1/2 in. or 5/8 in. (13 or 16 mm) thick, 48 in. (1.2 m) wide gypsum
boards. The gypsum board type, thickness, number of layers, fastener type
and sheet orientation shall be as specified in the individual Wall and Pertition
Design. Max diam of circular cutout in gypsum board is 10 in.(254mm).
The hourly F Rating of the firestop system is equal to the hourly fire rating of the wall assembly
in which is installed.
2.Through- Penetrants -- One metallic pipe, conduit or tubing to be installed either concentrically
or eccentrically within the firestop system. The annular space between pipe, conduit or tubing
and periphery of opening shall be minimum 0 in. (0 mm, point contact) to max 2 in. (51 mm).
Pipe, conduit or tubing to be rigidly supported on both sides of wall assembly. The following
types and sizes of metallic pipes, conduits or tubing may be used:
A. Steel Pipe - Nom 8 in (203 mm) diam (or smaller) Schedule 10 (or heavier) steel pipe
B. Iron Pipe - Nom 8 in. (203 mm) diam (or smaller) service weight (or heavier) cast iron
soil pipe, nom 8 in. (203 mm) diam (or smaller) or Class 50 (or heavier)
ductile iron pressure pipe.
C. Conduit - Nom 6 in diam (152 mm) diam (or smaller) steel conduit or nom 4 in.
(102 mm) diam (or smaller) steel electrical metallic tubing.
D. Copper Tubing - Nom 6 in. (152 mm)diam (or smaller) Type L (or heavier) copper tubing
E. Copper Pipe - Nom 6 in. (152 mm) diam (or smaller) Regular (or heavier) copper pipe
3. Fill, Void or Cavity Material* Caulk as sealant - Min 1 in. (25 mm) thickness of fill material
applied within the gypsum board liner panel flush with the faces of the liner panel.
Min 5/8 in. (16 mm) thickness of fill material applied within the gypsum board annulus,
flush with the finished side of the wall. Min 1/2 in. (13 mm) diam beadof caulk applied to
penetrant /gypsum board interface at the point contact location on the finished side of the wall
3M COMPANY - CP25WB+ Caulk or FB -3000 WT Sealant
*Bearing the UL Classification Mark
Ti No. C -AJ-
March 15, 2007.
F- Rating -2,3 and 4 Hr (See Items 2A and 4)
T- Rating - 0 Hr
L- Rating at Ambient - Less than 2 CFM /sq ft
L- Rating at 400 F - Less than 1 CFM /sq ft
W- Rating - Class 1 (See Item 4)
1. Floor or wall Assembly - Lightweight or normal weight(100 -150 pef or 1600 -2400 Kg /m3) concrete.
Except as noted in table under item 4, min thickness of solid concrete floor or wall assembly is 4 -1/2 in.
(114mm). Floor may also be constructed of any min 6 in.(152mm) thick UL Classified hollow core Precast
Concrete Units *. when floor is, constucted of hollow core precast concrete inits, packin material (Item 3)
and caulk fill material (Rem 4) to be installed symmetrically on both sides of floor, flush with flor surface.
Wall assembly may also be constucted of any UL Classified oncrete Blocks *. Max diam of opening in solid
lightweight or normal weight concrete floor is 32 in (813mm ).Max diam of opening in floor constructed of
See Concrete Blocks (CA� and Precast Concrete Units (C categories in the ire Resistance Directory
for names of manufacturers.
1A.Steel Sleeve - (Optional, Not Shown) -Nom 16 in (406mm) diam (or smaller) Schedule 10 (or heavier)
steel sleev cast or groute Int floor or wall assembly.
Sleeve may extend a max of 2 in 151mm above top of floor or bevond either surface of wallAs an alternate,
nom 16 in (406mm) diam (or smaller) min 0.028(0.71mm) thick galvanized sheet sleeve cast or grouted into floor
or wall assembly flush with floor or wall surfaces.
2. Through Penetrants -One metallic pipe, conduit or tubing to be installed either concentrically or eccntrically
within the fire stop system.Max annular space be between pipe, conduit or tubing and edge of through opening or sleeve
is dependent on the parameters shown in item 4.Min annular space between ppipe or conduit and edge of through opening
is 0 In (point contact). Max annular space to be as shown in the table in item 4. pe, conduit or tubing to be rigidly supported
on both sides of floor or wall assembly. The following types and sizes of metallic pipes, conduits or tubing may be used:
A. Steel Pipe -Nom 30in.(762mm) diam (or smaller) Schedule 10 (or heavier) steel pipe.
B. Iron Pipe -Nom 30in. (762mm) diam (or smaller) cast or ductile iron pipe.
C. Conduit -Nom 6 in. 1 2mm diam or smaller rigid steel conduit..
D. Conduit -Nom 4 in. 102mm3 diam kor smaller) steel electrical metallic tube.
E. Copper Tubing -Nom Sin. 152 diam or smaller) Type L or heavier copper tube.
F. Copper Pipe -Nom 6 in.(152mm) diam (or smaller) Regular (or heavier) copper pipe.
3. Packing Material- Polyethlene backer rod or nom 1 in.(25mm) thickness of thighly- packed mineral wool batt or glass
i r insulation firmly packed into open' s permanent f .Pa kung material to be recessed from top surface of floc or fro
both surfaces of wall as requlre� �0 accommoTaatne he required thickness of caulk fill material item 41
RForminq Material * -As an alternate to the packing material in Item 3, nom 4 in.(102mm) wide strips of min
1/2 in 113mm) thick compressible mat to be stacked to a th' greater than the width od the annuls and
compression -fined edge -W, to fill the annular space to a min 4 in.102mm) dept As an option, the strips of min 11 in 13mm)
th' k corn re�siT�l folde in half, II gihwise, gnd stgckV. to g thirkn grater tf�an the wi �f tt e� annular space
am roman- fitted, efrst, to I the annu space a min In. (tram) h. op of ormigg a to recessed Tram
top su ace of floor or from both surfaces of wall as necessary to acommodate the required thickness of caulk fill material.
3M COMPANY -Fire Barrier Packing Material
4. F11, Void or Cavity Material - Caulk, Sealant - Applied to fill annular space flush with the top surface of floor. In wall assembly
required caulk thickness to be installed symmetrical on both sides of wa ,flush with wall surface. At nt contact location between
penetrant and sleeve or betwween penetrant ana concretes a min 1%4 in.(6mm) diam bead orccoulk shall be applied ast
top surface of floor and at both surfaces of wall. The hoary F ralJV and the min regnured caulk thidmesses are dependent upon a number
of parameters as shown in the following table:
Min Floor or Wall
Thkns In (mm)
Nom Pipe Tube or
Conduit Diam In (mm)
Max Annular
Space In. (mm)
Thkns lnu{kmm
l )
F
Rating Hr
2 -1 /2 64
1 /2 -12 13 -305
1 -3/8 35
1 /2( 3)
2
■
1 /2 -1(213 -30)53
3 -1 /4 83
1 2ti
2
4 114
1/2
1 -1 35
1! ()
2
-1/2
-11 3-305
4 32
12 1
1
E
1 %2 -20 13 -508
51
213
3
4 -1 /2 114
1 /2 -20 13 -508
2� 1
- 1�1
3
IN
1 2 -1 13 -305
i4
1 5
M
System No. W -L -1413
February 07, 2007
F- Rating - 1 and 2 Hr (See Item 1)
T- Rating - 0 Hr
A
1
3
3 2
2
X.
1C
16
A
Section A -A
1.Wall Assembly -- The 1 or 2 hr fire -rated gypsum wallboard /stud wall assembly shall be
constructed of the materials and in the manner specified in the individual U400 or V400
Series Wall and Partition Design in the UL Fire Resistance Directory and shall incorporate
the following construction features:
A. Steel Studs - "C -H" or "C -T" shaped studs, min 2 -1/2 in (64 mm) wide by 1 -1/2 in
(38 mm) deep, fabricated from min No. 25 gauge (0.6 mm thick) galy steel,
spaced max 24 in (610 mm) OC.
B. Gypsum Board* - 1 in. (25 mm) thick, 24 in. (610 mm) wide gypsum liner panels installed
vertically. Max. diam of circular cutout in gypsum liner panel is 10 in.(254mm)
C. Gypsum Board* - 1/2 in. or 5/8 in. (13 or 16 mm) thick, 48 in. (1.2 m) wide gypsum
boards. The gypsum board type, thickness, number of layers, fastener type
and sheet orientation shall be as specified in the individual Wall and Pertition
Design. Max diam of circular cutout in gypsum board is 10 in.(254mm).
The hourly F Rating of the firestop system is equal to the hourly fire rating of the wall assembly
in which is installed.
2.Through- Penetrants -- One metallic pipe, conduit or tubing to be installed either concentrically
or eccentrically within the firestop system. The annular space between pipe, conduit or tubing
and periphery of opening shall be minimum 0 in. (0 mm, point contact) to max 2 in. (51 mm).
Pipe, conduit or tubing to be rigidly supported on both sides of wall assembly. The following
types and sizes of metallic pipes, conduits or tubing may be used:
A. Steel Pipe - Nom 8 in (203 mm) diam (or smaller) Schedule 10 (or heavier) steel pipe
B. Iron Pipe - Nom 8 in. (203 mm) diam (or smaller) service weight (or heavier) cast iron
soil pipe, nom 8 in. (203 mm) diam (or smaller) or Class 50 (or heavier)
ductile iron pressure pipe.
C. Conduit - Nom 6 in diam (152 mm) diam (or smaller) steel conduit or nom 4 in.
(102 mm) diam (or smaller) steel electrical metallic tubing.
D. Copper Tubing - Nom 6 in. (152 mm)diam (or smaller) Type L (or heavier) copper tubing
E. Copper Pipe - Nom 6 in. (152 mm) diam (or smaller) Regular (or heavier) copper pipe
3. Fill, Void or Cavity Material* Caulk as sealant - Min 1 in. (25 mm) thickness of fill material
applied within the gypsum board liner panel flush with the faces of the liner panel.
Min 5/8 in. (16 mm) thickness of fill material applied within the gypsum board annulus,
flush with the finished side of the wall. Min 1/2 in. (13 mm) diam beadof caulk applied to
penetrant /gypsum board interface at the point contact location on the finished side of the wall
3M COMPANY - CP25WB+ Caulk or FB -3000 WT Sealant
*Bearing the UL Classification Mark
Ti No. C -AJ-
March 15, 2007.
F- Rating -2,3 and 4 Hr (See Items 2A and 4)
T- Rating - 0 Hr
L- Rating at Ambient - Less than 2 CFM /sq ft
L- Rating at 400 F - Less than 1 CFM /sq ft
W- Rating - Class 1 (See Item 4)
1. Floor or wall Assembly - Lightweight or normal weight(100 -150 pef or 1600 -2400 Kg /m3) concrete.
Except as noted in table under item 4, min thickness of solid concrete floor or wall assembly is 4 -1/2 in.
(114mm). Floor may also be constructed of any min 6 in.(152mm) thick UL Classified hollow core Precast
Concrete Units *. when floor is, constucted of hollow core precast concrete inits, packin material (Item 3)
and caulk fill material (Rem 4) to be installed symmetrically on both sides of floor, flush with flor surface.
Wall assembly may also be constucted of any UL Classified oncrete Blocks *. Max diam of opening in solid
lightweight or normal weight concrete floor is 32 in (813mm ).Max diam of opening in floor constructed of
See Concrete Blocks (CA� and Precast Concrete Units (C categories in the ire Resistance Directory
for names of manufacturers.
1A.Steel Sleeve - (Optional, Not Shown) -Nom 16 in (406mm) diam (or smaller) Schedule 10 (or heavier)
steel sleev cast or groute Int floor or wall assembly.
Sleeve may extend a max of 2 in 151mm above top of floor or bevond either surface of wallAs an alternate,
nom 16 in (406mm) diam (or smaller) min 0.028(0.71mm) thick galvanized sheet sleeve cast or grouted into floor
or wall assembly flush with floor or wall surfaces.
2. Through Penetrants -One metallic pipe, conduit or tubing to be installed either concentrically or eccntrically
within the fire stop system.Max annular space be between pipe, conduit or tubing and edge of through opening or sleeve
is dependent on the parameters shown in item 4.Min annular space between ppipe or conduit and edge of through opening
is 0 In (point contact). Max annular space to be as shown in the table in item 4. pe, conduit or tubing to be rigidly supported
on both sides of floor or wall assembly. The following types and sizes of metallic pipes, conduits or tubing may be used:
A. Steel Pipe -Nom 30in.(762mm) diam (or smaller) Schedule 10 (or heavier) steel pipe.
B. Iron Pipe -Nom 30in. (762mm) diam (or smaller) cast or ductile iron pipe.
C. Conduit -Nom 6 in. 1 2mm diam or smaller rigid steel conduit..
D. Conduit -Nom 4 in. 102mm3 diam kor smaller) steel electrical metallic tube.
E. Copper Tubing -Nom Sin. 152 diam or smaller) Type L or heavier copper tube.
F. Copper Pipe -Nom 6 in.(152mm) diam (or smaller) Regular (or heavier) copper pipe.
3. Packing Material- Polyethlene backer rod or nom 1 in.(25mm) thickness of thighly- packed mineral wool batt or glass
i r insulation firmly packed into open' s permanent f .Pa kung material to be recessed from top surface of floc or fro
both surfaces of wall as requlre� �0 accommoTaatne he required thickness of caulk fill material item 41
RForminq Material * -As an alternate to the packing material in Item 3, nom 4 in.(102mm) wide strips of min
1/2 in 113mm) thick compressible mat to be stacked to a th' greater than the width od the annuls and
compression -fined edge -W, to fill the annular space to a min 4 in.102mm) dept As an option, the strips of min 11 in 13mm)
th' k corn re�siT�l folde in half, II gihwise, gnd stgckV. to g thirkn grater tf�an the wi �f tt e� annular space
am roman- fitted, efrst, to I the annu space a min In. (tram) h. op of ormigg a to recessed Tram
top su ace of floor or from both surfaces of wall as necessary to acommodate the required thickness of caulk fill material.
3M COMPANY -Fire Barrier Packing Material
4. F11, Void or Cavity Material - Caulk, Sealant - Applied to fill annular space flush with the top surface of floor. In wall assembly
required caulk thickness to be installed symmetrical on both sides of wa ,flush with wall surface. At nt contact location between
penetrant and sleeve or betwween penetrant ana concretes a min 1%4 in.(6mm) diam bead orccoulk shall be applied ast
top surface of floor and at both surfaces of wall. The hoary F ralJV and the min regnured caulk thidmesses are dependent upon a number
of parameters as shown in the following table:
Min Floor or Wall
Thkns In (mm)
Nom Pipe Tube or
Conduit Diam In (mm)
Max Annular
Space In. (mm)
Thkns lnu{kmm
l )
F
Rating Hr
2 -1 /2 64
1 /2 -12 13 -305
1 -3/8 35
1 /2( 3)
2
2 -1 /2 64
1 /2 -1(213 -30)53
3 -1 /4 83
1 2ti
2
4 114
1/2
1 -1 35
1! ()
2
-1/2
-11 3-305
4 32
12 1
1
4 -1 %2 114
1 %2 -20 13 -508
51
213
3
4 -1 /2 114
1 /2 -20 13 -508
2� 1
1 25
3
4 -1/2 114
1 2 -1 13 -305
3-11Y4 83)
1 5
3
5 -1 72 140
12 23 016-152)
1? 38 35)
1 �2 �1()
4
a Min 2 in.(51mm) thickness of mineral wool butt insulation of forming material (Item3A) required in annular space
b n 1 in.(25mm) thidmess of mineral wool bott insulation required in annular space of both sides of floor or wall assembly
c)Min 1 in.(25mm) thickness of caulk) to be installed flush with each surface of floor or wall assembly
3M COMPANY - CP25WB+ or FB -3000 WT
(Note: W Rating applies only when FB -30OWT is used)
*Bearing the UL Classification Marking
This material was extracted and drawn by 3M Fire Protection Products from the 2007 edition of the UL Fire Resistance Directory
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FINAL INSPi✓CTION, AS PER Nl P_ A 72
M gySTF'M TO Bt
FIRE ALAR - : dCLw
1, A72,70; 101
085 & SECURITY SYSTEMS
7963 N.W. 14th STREET
DORAL, FLORIDA 33126
TEL : 305.477.9640
FAX: 305.477.1083
www.WSEFS.com
LICENSE #: EC- 0001652
(�� NOTIFIEFe
by Honeywell
APPROVEID
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ENGINEERING:
Carlos Rodriguez, P.E.
LIC. #65687
8 10 1 5.W. 1 04th STREET
MIAMI, FLORIDA 33156
PHONE: (78G) 390 -8213
Revi5ion5:
Di 01 .27.2014
Plan review comments
drawn by: L.C.
date. 07.24..2013
project #: 13 -0724
scale: as shown
FIRE ALARM
SYSTEM
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sheet 6 of 7
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Revi5ion5:
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Plan review comments
drawn by: L.C.
date. 07.24..2013
project #: 13 -0724
scale: as shown
FIRE ALARM
SYSTEM
FA -6
sheet 6 of 7