09-700-003ff 71 _! s
WIRE LEGEND b
SYMBOL WIRE TYPE AND DESCMPT10N
A 18 -2 FPLP FOR INIM71NG CIRCUIT
B 14-2 FPLP FOR NOTIFICATION APPLIANCE CIRC.
C 18 -2 FPLP WIRE FOR ANNUNCIATOR POWER
D 18 -4 FPLP WiRE FOR ANNUNCIATOR COMMUNICATIONS
ALLOWABLE AMPACffY FOR COPPER WIR
r
FROM NEC -TABLE 310 -16 do 402 -5
EO.L
NX if (Pt} I,VA,
CO.L. 75od iV75W
NAG #3 (Pt) __>___ -�
t_J LJ LJ 1
Pt_18 PIM P1.14
1
I
1
75W IV75W 1V75.d
L J L_1 L.J _ B _ !
Pt33 P1.3.2 1i 1
r
EO,L 75W t5V75W 18f75ed
NAC #2 (Pt) ______rH..h
fj_j �C P1.2.6 P1.2.5 P1.2.4
r
r
r ---- __.___ ------------ W---AA Al Y/ EA.L. ZONE #14
Oil
,. -------- _ -[Pj.E _-EPa _ - -AYAV v/ EO.L ZONE #13
PS9 PStO FiFTH FLOOR
1 i i i r ------ __- ________iE_ - -AYAv Y/ EO.L ZONE #12
DID
1 a i _____ -
_ _ EP:.-E E _ fP:.E _- -AYAYAY E.O.L ZONE 011
P57 P58
111.1 FOUR 14 FLOOR
i i iii i t r____ ____ ______ Z --AYAvA v / E'
O L ZONE #10
1 1 ,#1111, ®® s
DO
Nr--- - -�P�E - {P }E - --^Y v/'v/ Ii ZONE N
If r PSS ps THIRD FLOOR
PERMIT AREA ONLY (MRA EXPANSION)
`_ ^ A /
jilt
r
w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w w
j 1
i
B
i
I
EQ1. 15/75od 750d 75od 75od 75ed 15/75ed
eirl
r t
NAC #3 (P3)
! 1 I ! !'- P,j P EOL 2131E j7
I
L t t H H L
anal, 30
! !
®
TAL 2 F P33.6 P3.3.5 P33.4 P333 P3M P3al
TOTAL MIRE RUN 122 fEE'T
I
t
i o i e i i j i i i r -__ --------------------------------------- _
ZONE#2 1
i
i
B
i
I
Ea.L 750d 75cd 75od 75od 75W 750d 75od 75od 75W 75W 75W 750d 75od
I
®
NAG #2 11
� HD
i
(2.180 all 10 mmr)
I
I
TDIAL WIRE RUN 180 FEET P3.2.13 F3.2.12 P33.11 P32.t0 P3.2.St P3.2.8 P3.2.7 P3.2.6 P3.24 P3.2.4 P3.2.3 P3.22 P3221
I
I
i
�•
B g
I
i
i
E(LL 75W 75cd 75cd 75ed 75od 75cd 75W 75W 75W 75W 75W 75W 75W 75W 75W 75od
I
NAT: t 3 t A / 4. ®___ -_
-- LLB- --LL_1 LLi- - -LL - -- LLB- -- LLB -__ L_} ___ iL
Rzapalaw-REALARMI -
I
(2 090 mI, 3A} fill Lj L L_j ii L j iiH- L.�}r__ L-�_j
! ! ! , t ! ! ! 1 ! ! , ! L ------------- I n s� ryE i I
IStf` !
122
TOTAL 1� RUN 2/6 FIE. P3.1.16 P3.t.15 P3.t.14 P3.t.t3 P3.1.12 P3.1.11 P3.1.t0 P3.1.9 P3.1.8 11i P3.t.6 P3.1.5 P3.1.4 P3.11.33 P3.1.2 P3.1.1
1
I
;
i
i
EXISTING FIRE -UfE 7OPS- 24FS6' REMOTE i
I
,1tr1111111Lt1
POMiER SUPPLY LOWED IN SERVER ROOM. E
!
!
I
rJ_
r -a RPS _- -t
i
L i P3-
! r
; !
!-
i
120/208V 11M PMEL i i CKT. #t2 w/ 2 #12
{
!
I
dr 1#1213 CU, TIM#i, IN 1/2• C, 20 AMP CS
-
i,lrwwwwwwww110
Wwwwwwwwwwwwwwreswwwwwwwww. rwwwwwwww® wmwwwr®w ® ®wwwwwwwww ®w ®wnw -wIll
,1 {I{l1rlt11 ,l1 E E E
,tt,litll l i l l l l T r .s
Ix'
4
CALCULATIONS EQUAL 20.4 VOLTS
T_ -
�.. .r.
]_ „7.tr_ :...
E,O,L t5�75cd 15f75cd 15j75ed i
•r -s -,
i j
i°�_t
I ! 1
NAC N (P1) L-1- -- L- - '1E---- --- - - - - °J
REQUIRED
P1.43 P1.4.2 Pt.4.1
REQUIRED
B-
SIXTH FLOOR
1 j
r
ff 71 _! s
WIRE LEGEND b
SYMBOL WIRE TYPE AND DESCMPT10N
A 18 -2 FPLP FOR INIM71NG CIRCUIT
B 14-2 FPLP FOR NOTIFICATION APPLIANCE CIRC.
C 18 -2 FPLP WIRE FOR ANNUNCIATOR POWER
D 18 -4 FPLP WiRE FOR ANNUNCIATOR COMMUNICATIONS
ALLOWABLE AMPACffY FOR COPPER WIR
r
FROM NEC -TABLE 310 -16 do 402 -5
EO.L
NX if (Pt} I,VA,
CO.L. 75od iV75W
NAG #3 (Pt) __>___ -�
t_J LJ LJ 1
Pt_18 PIM P1.14
1
I
1
75W IV75W 1V75.d
L J L_1 L.J _ B _ !
Pt33 P1.3.2 1i 1
r
EO,L 75W t5V75W 18f75ed
NAC #2 (Pt) ______rH..h
fj_j �C P1.2.6 P1.2.5 P1.2.4
r
r
r ---- __.___ ------------ W---AA Al Y/ EA.L. ZONE #14
Oil
,. -------- _ -[Pj.E _-EPa _ - -AYAV v/ EO.L ZONE #13
PS9 PStO FiFTH FLOOR
1 i i i r ------ __- ________iE_ - -AYAv Y/ EO.L ZONE #12
DID
1 a i _____ -
_ _ EP:.-E E _ fP:.E _- -AYAYAY E.O.L ZONE 011
P57 P58
111.1 FOUR 14 FLOOR
i i iii i t r____ ____ ______ Z --AYAvA v / E'
O L ZONE #10
1 1 ,#1111, ®® s
DO
Nr--- - -�P�E - {P }E - --^Y v/'v/ Ii ZONE N
If r PSS ps THIRD FLOOR
--------------- f�� _ �{.}1r._ - JtV V V EO.L ZONE #5
t r 1 ,II,IlIIIt11r1It
S17 $18 S19
t I I ir1, /1,Irrr1,,11
f 1 1 ,t1,11111tI111rr
r , r
it11
`_ ^ A /
jilt
r
75ed 75W 75ed 15VMW 1X5W tgSed
j 1
--/� E.O.L. ZONE j8
1 6 11 I r. _______ -- Y Y Y •
1111
t
!!
I I r 1 t 111 r D6
eirl
r t
REQUIRED
! 1 I ! !'- P,j P EOL 2131E j7
errrt
1JJJ
!
! !
I! 1!
PS3 PS4
FiREALARM SYS'1k.ivl'IU 13.E
75ed I 75.d 1V75bd
a
i o i e i i j i i i r -__ --------------------------------------- _
ZONE#2 1
NSLIkU nINACCORDANCEWM
-,
! !
!!!!{!!! {!! S9`� Std` Sttt S12t
, ! ! , ! ! ! ! r - - -- ---- i- - - -k --- i!-- - - - - -, i
V V V V
NFPA 72, 70;101. .
L.-1 LJ L.J-
B
Pt.2.3 P112 Pt21 !!
i
! ! !
{ i i! i i! i i i i i i -_ - - -- E _- E: -_ E Et ! i
TIME
� HD
i
! !
,!t!1!!rt!!1t S5 -A S6�A S7rAS8 -A i t
VOLTAGE TO LAST DEVICE 17.99
Lr�lLl ut,� / `+ 1
1
, 1
! 11! ! 1 ! r r 1 i 11 r-Y 'v -vr -v -i 1
! t I DrC� i7 p G� I i
CAPACITY
MIAMI -DADE COUNTY FIRE DEPARTM
WHERE VD = DROP iN VOLTS iN THE CIRCUIT
CURRENT
!
t ! ^SEMND FLOOR
HOURS)
Rzapalaw-REALARMI -
1
!
1 1
!
! ! ! , t ! ! ! 1 ! ! , ! L ------------- I n s� ryE i I
IStf` !
122
F «- ®s -
1
!
! !
,rI,Irllrtrll E E E E ! St4` STS Stb�
!!!,l1!!{1I1l S1CA S2 -A S3 -A S4 A1 `- �-- V- -V�J
1 =
d
f).� Bit
!
! I
,1tr1111111Lt1
!
!
, m
!!
,rt,Irlrrrtatl
,IP,r111firt1l
x
!
t
1
! r
; !
!-
)1 j1
,1 {IPr1111itt{ L '� ;E `t -AAA/
; I 1 ! I ; ! ! ! ! ! ! i _______ _______ p D p p EO,L ZONE #6
I t I t 1 1 1!! 1 r Y Y Y
1
{
!
t 1
1 I
, III I I fill 1 1 Q4 QS D6 Q7
111,11111{If I
-
!
1
1 t
1 1
,1 {I{l1rlt11 ,l1 E E E
,tt,litll l i l l l l T r .s
Ix'
4
--------------- f�� _ �{.}1r._ - JtV V V EO.L ZONE #5
t r 1 ,II,IlIIIt11r1It
S17 $18 S19
t I I ir1, /1,Irrr1,,11
f 1 1 ,t1,11111tI111rr
r , r
it11
! j f
jilt
r
75ed 75W 75ed 15VMW 1X5W tgSed
DC RESISTANCE FOR SOLID COPPER
LL- -- LLB- -- L-__ ,�!-�� �� r 1 1
E __
tl- j E_
1111
L•
Lill L��
P1.1.6 Pt.t.S 11i P1.13 Pt.1.2 P11.1.1
REQUIRED
i i � i
eirl
r t
REQUIRED
r r
r.y.1_� _L__
errrt
1JJJ
r --1
TOTAL SYSTEM
EXISTING SILENT ia6GffT vor FIRE ALARM
CONTROL
PMEL LOCATED IN am ROOM. FiRST FLOOR.
7.77
tf!l1,11 E E
r ---- .__t___t _____ Av YAY E.0.1- 20NE #4
Iitjp�9jH
01 D2 D3
r it i w-..- '_- -__ {p� - �P]•E - --AvAY v/ E.O.L. ZONE 13
PSI PS2
IIp111,F11
tllfllljr,al
A EXISTING REMOTE ANNUNCIATOR
i r! li i 1 1 t f 1 LOCATED IN MAIN ENTRY, FIRST FLOOR.
111111111i1i1i__,Pt TELGD LINES FOR REMOTE STATION
F.A.C.P. 1=
.1 NOTIFICATION TIM FWIX /CORD
r --- E
t 1 L _---- -__ -�� AiUN I Z
_____________
r- _____.L, --- ,
1
t
!
L ------- 120/208V ELEC. PANEL .w/ 2f12 3 1#12G
Cu, THHN, IN 1/2• C„ 20 AMP CS
FIRST FLOOR
BATTERY & VOLTAGE DROP CALCULATIONS
P3
System No. W-L -1326
December 03, 2003 _i _ �' ► ° ; -
F Ratings - 1 and 2 Hr (See Item 1) 5LCTN A-A
T Rating - 0 Hr
1. Wall Assembly - The 1 or 2 hr fire rated gypsum board /stud wail 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 Fre 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* - One or two layers of non 5/8 in. thick gypsum board as specified in the individual
Wall and Partition Design. Max dam 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 golv 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 systern. Pipe, conduit or tubing to be rigidly supported on both sides of
wall assembly. The following types and sizes of me1i pipes, conduit or tubing may be used:
A. Steel Pipe - Nom 12 in. dlom (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. Iran Pipe - Non 12 in. diam (or smaller) Schedule 10 (or heavier) cost iron pipe. An annular space
of 0 in. (paint 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. (pant contact) to 1 -7/8 in. is required within the firestop system.
D. Copper Pine - Nan 4 in. thorn (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. dial (o 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. Fil Void or Cavity Materials' - Caulk - Min 1/2 in. thickness of fill material applied within the annulus
on both surfaces of the wall assembly. Whet steel sleeve is not used or when steel sleeve is flush with
the wall surfaces, a min 1/2 in. dram beod of caulk shell 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+
*Bearing the UL Classification Mark E
CIRCUIT CURRENTCALCULATION
"FIRE-LITE FCPS- 24FS6- ON BOA4D NAC CIRCUITS
CIRCUIT NO. 1
QTY I DESCRIPTION ATALOGNUMBEIR m TOTAL IMA
7 ISTROBE WALL MOUN 75cd ISYSTEM SENSOR S SR 1 1531 1106
S IHORNISTROSE WALL MOUNT (75cd) ISYSTEM SENSOR III P2R 1 176 1564
.., . a
CIRCUIT .4 SPARE
ACTUAL NOTIFICATION APPLIANCES LOAD IN AMPS 5.69
N.A.C. VOLTAGE DROP CALCULATIONS
FIRE-LITE "FCPS- 24FS6^
Standby 24 Hours r, t Alarm 5 106itmwtes )r T11115C 11111A633 Filaurs 777
REMOTE POWER SUPPLY
DC RESISTANCE FOR SOLID COPPER
NAC#1
Wire 14
col
REQUIRED
SIZE
TOTAL
10
REQUIRED
12
1.93
14
TOTAL SYSTEM
REQUIRED
STANDBY
7.77
SYSTEM
Z G
STANDBY
CL
REQUIRED
L=
ALARM
FORMULA FOR CALCULATION OF VOLTAGE
ALARM
TIME
DROP IN DC 2 WiRE CIRCUITS
STANDBY
CAPACITY (AMP-
VOLTAGE TO LAST DEVICE 17.99
ALARM TIME
CURRENT
CAPACITY
(HOURS}
WHERE VD = DROP iN VOLTS iN THE CIRCUIT
CURRENT
HOURS)
R =
(HOURS)
IN OHMS PER FOOT (VALUES OF RESISTANCE
(AM PS)
122
(AM P-
AMPS
1 =
13.$22
WAY OF CIRCUIT iN FEET
VD =
0.62
VOLTAGE TO LAST DEVICE 19.78
HOURS
24
x
0.065
NAC#4
1 1.560
1
0.083
1 x
5.837
-
0.486
MM
"army `' . a,.
,•
Ix'
4
CALCULATIONS EQUAL 20.4 VOLTS
T_ -
�.. .r.
]_ „7.tr_ :...
: .Z:• 'Z.
iLl�.t tl•~ .xc�9` �, *'.�I...tI «�3.-s..ai.ti,.Sm° �.
i°�_t
1:,..t -.. P��44 ,Coln
REQUIRED
REQUIRED
TOTAL
REQUIRED
STANDBY
ALARM
REQUIRED
OPTIONAL
BATTERY
CAPACITY
CAPACITY
CAPACITY (AMP-
FACTOR OF
CAPACITY (AMP -
(Amp /Hours)
(AMP-
HOURS)
SAFETY
HOUR)
HOURS)
1.560
+
0.486
-
2.046
x
1.2
-
2.456
:. ti`7i 1.._. .st. ii'.t:Ft •:°
= `- "A'.
-+ -. 1'[�t%`�1.'S. "�"°Y= .tt!":R
-17 7VI�.LNG�7M"..^.t ^Y 1 1%
r w:
<R p 7.+� A+/i:. � v° -. - "'.'�T_� 6.1 -°`°r: �4n�,`•�°Y+S I. �-Y.� t,%°.5�...- d-- ^«...�� -.
°X"- _
System No. W-L -1326
December 03, 2003 _i _ �' ► ° ; -
F Ratings - 1 and 2 Hr (See Item 1) 5LCTN A-A
T Rating - 0 Hr
1. Wall Assembly - The 1 or 2 hr fire rated gypsum board /stud wail 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 Fre 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* - One or two layers of non 5/8 in. thick gypsum board as specified in the individual
Wall and Partition Design. Max dam 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 golv 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 systern. Pipe, conduit or tubing to be rigidly supported on both sides of
wall assembly. The following types and sizes of me1i pipes, conduit or tubing may be used:
A. Steel Pipe - Nom 12 in. dlom (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. Iran Pipe - Non 12 in. diam (or smaller) Schedule 10 (or heavier) cost iron pipe. An annular space
of 0 in. (paint 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. (pant contact) to 1 -7/8 in. is required within the firestop system.
D. Copper Pine - Nan 4 in. thorn (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. dial (o 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. Fil Void or Cavity Materials' - Caulk - Min 1/2 in. thickness of fill material applied within the annulus
on both surfaces of the wall assembly. Whet steel sleeve is not used or when steel sleeve is flush with
the wall surfaces, a min 1/2 in. dram beod of caulk shell 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+
*Bearing the UL Classification Mark E
CIRCUIT CURRENTCALCULATION
"FIRE-LITE FCPS- 24FS6- ON BOA4D NAC CIRCUITS
CIRCUIT NO. 1
QTY I DESCRIPTION ATALOGNUMBEIR m TOTAL IMA
7 ISTROBE WALL MOUN 75cd ISYSTEM SENSOR S SR 1 1531 1106
S IHORNISTROSE WALL MOUNT (75cd) ISYSTEM SENSOR III P2R 1 176 1564
.., . a
CIRCUIT .4 SPARE
ACTUAL NOTIFICATION APPLIANCES LOAD IN AMPS 5.69
N.A.C. VOLTAGE DROP CALCULATIONS
FIRE-LITE "FCPS- 24FS6^
REMOTE POWER SUPPLY
DC RESISTANCE FOR SOLID COPPER
NAC#1
Wire 14
WIRES @ 75 DEG -C
R = 0.00307
L = 216
1= 2.69
VD = 3.5
VOLTAGE TO LAST DEVICE 16.83
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
Z G
FROM 1994 NEC - APPENDIX B TABLE 8
CL
M
CID
L=
180
FORMULA FOR CALCULATION OF VOLTAGE
I =
2.18
DROP IN DC 2 WiRE CIRCUITS
VD a
VOLTAGE TO LAST DEVICE 17.99
VD- 2RXLXI
NAC#3
Wire 14
WHERE VD = 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 -
122
FOR COPPER WIRE PER TABLE ABOVE) I =
CURRENT IN AMPERES, AND L- LENGTH ONE
1 =
13.$22
WAY OF CIRCUIT iN FEET
VD =
0.62
VOLTAGE TO LAST DEVICE 19.78
NOTES
STROBE REGULATED VOLTAGE RANGE AS
NAC#4
SPARE
PER ATTACHED SPECIFICATION SHEET IS 16
TO 33 VOLTS
STARTING POINT FOR VOLTAGE DROP
CALCULATIONS EQUAL 20.4 VOLTS
c -�
a rt
Orua�:: ai
, a
I Ali
REVISICINS,
-.rte- ,.> ,� •
i
11
DRAWN
l.M
..O
DATE: 07/20/09
0
a
Z
wj
O
Z
Z
O
Ow
irk
u-
W Q
Z G
CL
M
CID
W
Go
Z
40
11
DRAWN
l.M
..O
DATE: 07/20/09