12-1058-005r
r
Y
4010 Fire Alarm Control Panel - SOUTH h7AM HOSPITAL ACC FACP
C FACP
75 Degrees Celsius
NOTE:
Ohms /ft
LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGIN
Module
Oty
Description
Total
Standby
Current
Total
Standby
Alarm
Current
Total
Alarm
Panel Equipment
Current
Stand
Current
Alarm
Panel E I ent
WA
TOTAL
CIRCUIT
RES.
4010 -9101
1
FACP 25OPT4NAC 4A 120V BEIGE
110CD
0.300000
0.300000
0.320000
0.320000
4010 -9811
1
DUAL RS232 INTERFACE CARD
0.2850
0.075000
0.075000
0.075000
0.075000
4010 -9816
1
DACT POINT REPORTNG
ACTUAL
0.040000
0.040000
0.040000
0.040000
4010 -9829
1
12 CKT CTY MOD W /OUT DISCONNECT
TRUEALERT MULTI - CANDELA STROBE RED, WALL @ 75 CANDELA
0.020000
0.020000
0.036000
0.036000
4906-9101.110
0
TRUEALERT MULTI - CANDELA STROBE RED, WALL @ 110 CANDELA
0000000
Total Panel Stby
0.435000
Total Panel Alarm
0.471000
Peripheral Devices
TRUEALERT MULTI-CANDELA HORN /STROBE RED, WALL @ 75 CANDELA
0.000000
0.000000
0.221000
3.094000
4906-9127.110
0
4099 -9002
4
JIDNETDOUBLE ACTION PULL STATION
0.285000
0.000000
0.000000
0.000000
0.000000
4098 -9714
52
TRUEALARM PHOTO SMOKE SENSOR
4 768
0.000000
0.000000
0.000000
0.000000
4098 -9792
56
TRUEALARM SENSOR BASE
4.3
0.000000
0.000000
0.000000
0.000000
4098 -9733
4
TRUEALARM HEATSENSOR
Batte Calculations
0.000000
0.000000
0.000000
0.000000
4098 -9756
2
TRUEALARM DUCTSMOKE SENSOR W/ RELAYOUTPUT
-2
0002400
0.004800
0 015000
0.030000
2098 -9806
2
REMOTE TESTSTATION W/ LEDAND KEY SWITCH
CKT#4
0000000
0.000000
1 0000000
0.000000
4090 -9001
8
IDNET SUPERVISED IAM
4.953
0000000
0.000000
0000000
0000000
4090 -9002
8
IDNET RELAY [AM
2.8
0000000
0.000000
0000000
0000000
4090 -9118
0
RLY IDNET 2 [AM W/TSENSE
0000000
0.000000
0000000
0000000
2088 -9032
12
RELAY SPDTW/LED MR -8011T
0.000000
0.000000
0022000
0.264000
4009 -9201
1
4009 IDNET NAC EXTENDER, 120 VAC
*REF(
0 OOD000
0.000000
0000000
0.000000
4606 -9101
1
LCD ANNUN FOR 4010 FACP N2
0.065000
0.065000
0.140000
0.140000
4906 -9101
0
V/O MC NON-ADDRESSABLE @75CD
0.000000
0.000000
0.186000
0.000000
4906.9101 1
0 IWO
MC NON-ADDRESSABLE @11 tOCD
0.000000
0.000000
0.252000
0.000000
4906 -9127 1
0
AN MC NON- ADDRESSABLE @75CD
0.000000
0.000000
0.221000
0.000000
4906 -9127 1
0 IAN
MC NON- ADDRESSABLE @110CD
0.000000
0.000000
0.285000
0.000000
Total Peri h Stby,
0.070
Total Peri h Alarm
0.434
' Current Draw Included With Device Addresses Used (See additional current draws)
2-Wre detector alarm current is included in the alarm current of the Initiating Device Circuit.
2 50% ofthese devices in alarm, are used in the calculations below
Battery Calculations
Total Standby Amps 1
Standby
Current
0.505
Total Alarm Amps
Alarm
Current
0.905
Control Panel Card Power
Power For External Peripheral Devices
Additional Current Draws
MAPNET /IDNet Device Addresses ordered /used 79 79.0
Spare addressable point capacity Included for battery calc 20% 16
Additional Battery Capacity Required 20%
Standby Time = 4 Hrs
Alarm Time = 5 Mins.
Battery Required 2081 -9272 6.2
0.435
0.06980
0.505
0.063
0.013
0.581
0.116
2.786
0.099
4.781
0.471
0.42140
<- Sub Totals -> 0.892
0.078
0.016
Grand Totals 0.986
0.197
Standby Ah f
Alarm Ah
Total Ah
4009 NotificationA liance Extender Panel Batte Calculation- NAC #1
C FACP
75 Degrees Celsius
NOTE:
Ohms /ft
LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGIN
10 GA :0.001210
OF SAFETY, TAKING NTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTING MAY DIFFER FROM WHAT IS SHOWN
Standby
Total
Alarm
Total
Module
DY
Descrl tion
Current
Stand
Current
Alarm
Panel E I ent
WA
TOTAL
CIRCUIT
RES.
NAC SCHEDULE /VOLTAGE DROP CALCULATION
LAST
DEVICE
VOLT
75CD
110CD
40099201
1
4009 IDNET NAC EXTENDER, 120 VAC
0085000
0 085000
0.185000
0.165000
0.2850
AWG
AS DESIGNED
Total Panel Stb
0.085000
Total Panel Alarm
0.185000
Peri eral Devices
ACTUAL
ALLOWABLE
4906 - 9101.75
4906.9101'110
4906 - 9127'75
4906- 9127'110
4906.9101.75
9
TRUEALERT MULTI - CANDELA STROBE RED, WALL @ 75 CANDELA
0 000000
0 000000
0.186000
1.674000
4906-9101.110
0
TRUEALERT MULTI - CANDELA STROBE RED, WALL @ 110 CANDELA
0000000
0 000000
0.252000
0.000000
4906 - 9127'75
14
TRUEALERT MULTI-CANDELA HORN /STROBE RED, WALL @ 75 CANDELA
0.000000
0.000000
0.221000
3.094000
4906-9127.110
0
TRUEALERT MULTI - CANDELA HORN /STROBE RED, WALL @ 110 CANDELA
0.000000
0.000000
0.285000
0.000000
0.2210
0.2850
LOAD
Total Peri St
0.000
Total Per h Alarm
4 768
CIRCUIT SIGI
DESCRIPTION
Total Standby Amps
0.085
Total Alarm Amps
4.953
FT
4.3
3.5
Standby
16.9
Alarm
AMPS
OHMS
VO
Batte Calculations
Current
463
Current
0
3
0
Control Panel Card Power
0.085
2.06
0.185
18.3
2.8
3.5
Power For External Peripheral Devices
0.00000
CKT#4
4.76800
AN
14
0.00307
275
0.085
<- Totals ->
4.953
4
0
1.256
Additional Battery Capacity Required 20°%
0.017
10.4%
0.991
2.8
3.5
17.0%
Standby Time = 4 Hrs
0.408
Standby Ah
Alarm Time - 5 Mins.
0.495
Alarm Ah
4
M903
TotalAh
Batte R uired 2081 -9272 6.2
2.565
Ah
4009 Notification A liance Extender Panel Batter Calculation- NAC #2
C FACP
75 Degrees Celsius
NOTE:
Ohms /ft
LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGIN
10 GA :0.001210
OF SAFETY, TAKING NTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTING MAY DIFFER FROM WHAT IS SHOWN
Standby
Total
Alarm
Total
Module
DY
Descri tion
Current
Stand
Current
Alarm
Panel Equipment
WA
TOTAL
CIRCUIT
RES.
NAC SCHEDULE /VOLTAGE DROP CALCULATION
LAST
DEVICE
VOLT
75CD
110CD
4009 -9201
1
4009 IDNET NAC ExTE :'DER, 120 VAC
0.085000
0.085000
0.185000
0.185000
0.2850
AWG
AS DESIGNED
Total Panel Stby
0.085000
Total Panel Alarm
0.185000
Peripheral Devices
ACTUAL
ALLOWABLE
4906 - 9101.75
4906.9101'110
4906 - 9127'75
4906- 9127'110
4906 - 9101'75
18
TRUEALER r muunCA;:DELA STROBE RED, WALL @ 75 CANDELA
0.000000
0.000000
0.186000
3.348000
4906 - 9101'110
0
TRUEALERT MULTICA:'DELA STROBE RED, WALL @ 110 CANDELA
0.000000
0.000000
0.252000
0.000000
4906-9127'75
17
TRUEALERT MULTI - CANDELA HORN /STROBE RED, WALL @ 75 CANDELA
0.000000
0.000000
0.221000
3.757000
4906 - 9127'110
0
TRUEALERT MULTI-CA.+DELA HORN /STROBE RED, WALL @ 110 CANDELA
0.000000
0 000000
0.285000
0.000000
0.2210
0.2850
LOAD
Total Peri Stb
0.000
Total Per h Alarm
7.105
CIRCUIT SIGI
DESCRIPTION
Total Standby Amps
0.085
Total Alarm Amps
7.290
FT
4.3
3.5
Standby
16.9
Alarm
AMPS
OHMS
VO
Batte Calculations
Current
463
Current
0
3
0
Control Panel Card Power
0.085
2.06
0.185
18.3
2.8
3.5
Power For External Peripheral Devices
0.00000
CKT#4
7.10500
AN
14
0.00307
275
0 085
<- Totals ->
7.290
4
0
1.256
Additional Battery Capacity Required 20°%
0.017
10.4%
1.458
2.8
3.5
17.0%
Standby Time - 4 Hrs
0.408
Standby Ah
Alarm Time = 5 Mins.
0.729
Alarm Ah
�I
1.137
Total Ah
Batte R uired 2081 -9272 6.2
3.450
Ah
4009 Notification A liance Extender Panel Batter Calculation- NAC #3
C FACP
75 Degrees Celsius
NOTE:
Ohms /ft
LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGIN
10 GA :0.001210
OF SAFETY, TAKING NTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTING MAY DIFFER FROM WHAT IS SHOWN
Standby
Tot al
Alarm
Total
Module
WA
Descri tion
Current
Stand
Current
Alarm
Panel Equipment
WA
TOTAL
CIRCUIT
RES.
NAC SCHEDULE /VOLTAGE DROP CALCULATION
LAST
DEVICE
VOLT
75CD
110CD
4009 -9201
1
4009 IDNET NAC EXTENDER, 120 VAC
0.085000
0.085000
0.185000
0.185000
0.2850
AWG
AS DESIGNED
Total Panel Stby
0.085000
Total Panel Alarm
0.185000
Peripheral Devices
ACTUAL
ALLOWABLE
4906 - 9101.75
4906.9101'110
4906 - 9127'75
4906- 9127'110
4906 - 9101'75
19
TRUEALERT MULTI- CANDELA STROBE RED, WALL @ 75 CANDELA
0.000000
0.000000
0.186000
3.534000
4906 - 9101.110
0
TRUEALERT MULTI - CANDELA STROBE RED, WALL @ 110 CANDELA
0.000000
0.000000
0.252000
0.000000
4906 - 9127'75
0
TRUEALERT MULTI - CANDELA HORN /STROBE RED, WALL @ 75 CANDELA
0.000000
0.000000
0.221000
0.000000
4906 9127.110
0
TRUEALERT MULTI- CANDELA HORN /STROBE RED, WALL @ 110 CANDELA
0.000000
0.000000
0.285000
0.000000
0.2210
0.2850
LOAD
Total Peri Stb
0.000
Total Peri h Alarm
3.534
CIRCUIT SIGI
DESCRIPTION
Total Standby Amps
0.085
Total Alarm Amps
3.719
FT
4.3
3.5
Standby
16.9
Alarm
AMPS
OHMS
VO
Batte Calculations
Current
463
Current
0
3
0
Control Panel Card Powwer
0.085
2.06
0.185
18.3
2.8
3.5
Power For External Peripheral Devices
0.00000
CKT#4
3.53400
AN
14
0.00307
275
0 085
<- Totals ->
3.71 B
4
0
1.256
Additional Battery Capacity Required 20°%
0.017
10.4%
0.744
2.8
3.5
17.0%
Standby Time - 4 Hrs
0 408
Standby Ah
Alarm Time = 5 Mins.
0.372
Alarm Ah
0.780
TotalAh
Batte R uired 2081 -9272 6.2
2.096
Ah
4009 Notification A liance Extender Panel Batter Calculation - NAC #4
C FACP
75 Degrees Celsius
NOTE:
Ohms /ft
LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGIN
10 GA :0.001210
OF SAFETY, TAKING NTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTING MAY DIFFER FROM WHAT IS SHOWN
Standby
Total
Alarm
Total
Module
WA
Descri tion
Current
Stand
Current
Alarm
Panel E i ent
WA
TOTAL
CIRCUIT
RES.
NAC SCHEDULE /VOLTAGE DROP CALCULATION
LAST
DEVICE
VOLT
75CD
110CD
4009 -9201
1
40091DNETNACExrENDER 120 VAC
0.085000
0.085000
0.105000
0.185000
0.2850
AWG
AS DESIGNED
Total Panel Stby
0.085000
Total Panel Alarm
0.165000
Peripheral Devices
ACTUAL
ALLOWABLE
4906 - 9101.75
4906.9101'110
4906 - 9127'75
4906- 9127'110
4906 - 9101'75
5
TRUEALERT MULTI - CANDELA STROBE RED, WALL @ 75 CANDELA
0.000000
0.000000
0.186000
0.930000
4906 - 9101'110
0
TRUEALERT MULTI- CANDELA STROBE RED, WALL @ 110 CANDELA
0.000000
0.000000
0.252000
0.000000
4906- 9127'75
0
TRUEALERT MULTI-CANDELA HORN /STROBE RED, WALL @ 75 CANDELA
0.000000
0.000000
0.221000
0.000000
4906 - 9127'110
0
TRUEALERT MULTI- CANDELA HORN /STROBE RED, WALL @ 110 CANDELA
0.000000
0.000000
0.285000
0.000000
0.2210
0.2850
LOAD
Total Ped Stb
0.000
Total Perl h Alarm
0.930
CIRCUIT SIGI
DESCRIPTION
Total Standby Amps
0.085
Total Alarm Amps
1.115
FT
4.3
3.5
Standby
16.9
Alarm
AMPS
OHMS
VO
Battery Calculations
Current
463
Current
0
3
0
Control Panel Card Power
0 085
2.06
0.185
18.3
2.8
3.5
Power For External Peripheral Devices
0.00000
CKT#4
0.93000
AN
14
0.00307
275
0.085
< Totals ->
1.115
4
0
1.256
Additional Battery Capacity Required 20°%
0 017
10.4%
0 223
2.8
3.5
17.0%
Standby Time = 4 Hrs
0.408
Standby Ah
Alarm Time = 5 Mins.
0.112
Alarm Ah
11520
Total Ah
Battery Required 2081 -9272 6.2
1.100
Ah
\\SC► W1 \MAFTINC\0o- 2003\501101 AMIA HOSPRAL (MISTER Mt)\SAM ACC IIYPERBMC CHAMBER 965293212 REV 00 \SAM AOC IrlPERBARIC "M t0 MMIAVuly 24, 2012 DATE PIAITED: Juy 25, 2012 DATE SAVED: Jay 25, 2012
BATTERY CALCULATIONS
I
4010 Fire Alarm Control Panel -SOUTH MIAMI HOSF PID's
C FACP
75 Degrees Celsius
NOTE:
Ohms /ft
LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGIN
10 GA :0.001210
OF SAFETY, TAKING NTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTING MAY DIFFER FROM WHAT IS SHOWN
12 GA:0.001930
ON THE SHOP DRAWINGS. IF THE ACTUAL CIRCUIT LENGTH IS GOING TO EXCEED THE MAXIMUM ALLOWABLE CIRCUIT
14 GA:0.003070
LENGTH, CONTACTYOUR LOCAL SIMPLEXGRNNELL DISTRICTOFFICE.
16 GA:0.004890
WA
18 GA:0.007770
NIA
APPLIANCE! QUANTITIES /CURRENT DRAW MAXIMUM RMS
WA
NIA
NIA
WA
TOTAL
CIRCUIT
RES.
NAC SCHEDULE /VOLTAGE DROP CALCULATION
LAST
DEVICE
VOLT
75CD
110CD
AS DESIGNED
MAXMUM
I STROBE
STROBE
HORN /STRB
HORN /STRB
0.2210
0.2850
AWG
AS DESIGNED
FT
17% MAXIMUMVOLTAGE DROP
CIRCUIT
WIRE
WIRE
ACTUAL
ALLOWABLE
4906 - 9101.75
4906.9101'110
4906 - 9127'75
4906- 9127'110
TOTAL
MAX
TOTAL
ACTUAL
LAST
CIRCUITOUTPUTVOLTAGE (FOR CALCULATIONS)- 20.4
TYPE
GAUGE
RESIST
CIRCUIT
CIRCUIT
75CD
110CD
75CD
110CD
CIRCUIT
CIRCUIT
CIRCUIT
VOLTAGE
DEVICE
12.2%
17.9
2.3
3.5
LENGTH
LENGTH
0.1860
0.2520
0.2210
0.2850
LOAD
CAP.
RES.
DROP
VOLT
CIRCUIT SIGI
DESCRIPTION
0.814
AWG
OHM /FT
FT
FT
4.3
3.5
17.0%
16.9
AMPS
AMPS
OHMS
VO
0.00307
VOLTS
is G 3 FIRST FLOOR STROBE CIRCUIT AN 14 0 00307 0 N/A 0 0 0 0 0.000 2.000
G- 4 F6[ST FLOOR STROBE CIRCUIT AN 14 0 00307 0 NIA 0 0 0 0 0.000 2.000
SIG-5 FIRST FLOOR STROBE CIRCUIT AIV 14 0.00307 0 N/A 0 0 0 0 D.DDm 7 rinn
E CIRCUIT
(METHOD USED TO CALCULATE VOLTAGE DROP:
[(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS / FT)]
1 0 1 0 1 0 1 0 1 0.000 1
0 0 0 0 0.000
Wire Resistance At
WIRE RESISTANCE BASED ON TABLE 8 FROM NATIONAL ELECTRICAL CODE (UNCOATED SOLID COPPER WIRE)
75 Degrees Celsius
NOTE:
Ohms /ft
LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGIN
10 GA :0.001210
OF SAFETY, TAKING NTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTING MAY DIFFER FROM WHAT IS SHOWN
12 GA:0.001930
ON THE SHOP DRAWINGS. IF THE ACTUAL CIRCUIT LENGTH IS GOING TO EXCEED THE MAXIMUM ALLOWABLE CIRCUIT
14 GA:0.003070
LENGTH, CONTACTYOUR LOCAL SIMPLEXGRNNELL DISTRICTOFFICE.
16 GA:0.004890
WA
18 GA:0.007770
NIA
14009 Notification Appliance Extender Panel Battery Calculation - NAC #1 PID's NTITIES / CURRENT DRAW @
AT MAX ALLOW. CIRC. LENGTH
TOTAL MAXIMUM LAST
CIRCUIT
Total NAC Load: 0.00 A 0%
CIRCUIT
TYPE
Largest Single Circuit Load:
0.00 A 0%
VOLTAGE
DEVICE
RES.
DROP
VOLT
OHMS
VOLTS
%
VOLTS
WA
N/A
NIA
NIA
WA
NIA
NIA
WA
Total NAC Load: 0.00 A 0%
CIRCUIT
TYPE
Largest Single Circuit Load:
0.00 A 0%
AS DESIGNED
ACTUAL
CIRCUIT
LENGTH
Lowest Voltage at any Device:
20.4 V 128%
STROBE
Total NAC Capacity:
8 A
TOTAL
CIRCUIT
LOAD
Single Circuit Capacity:
2.0 A
AT MAXALLOW CIRC. LENGTH
Minimum Device Voltaire:
16 V
4906- 9127.75
Note:
'Regulated 24 VDC' refers to the voltage range of 16 to 33 VDC
per UL standard 1971. This voltage is the absolute operating range.
Please note that 16VDC is the lowest operating voltage that is allowed
at the last appliance on the NAC under worst case conditions.
The maximum RMS current listed is the nameplate rating.
Strobe designs are constant wattage and the maximum RMS current
rating occurs at the lowest allowable operating voltage.
VOLTAGE DROP TOTALS
NAC SCHEDULE /VOLTAGE DROP CALCULATION
17% MAXIMUM VOLTAGE DROP
CIRCUIT OUTPUT VOLTAGE FOR CALCULATIONS 20.4
CIRCUIT
TYPE
WIRE
GAUGE
WIRE
RESIST
AS DESIGNED
ACTUAL
CIRCUIT
LENGTH
MAXIMUM
ALLOWABLE
CIRCUIT
LENGTH
STROBE
STROBE
HORN/STRB
HORN /STRB
TOTAL
CIRCUIT
LOAD
MAX
CIRCUIT
CAP.
AS DESIGNED
AT MAXALLOW CIRC. LENGTH
49069101.75
906- 9101'11
4906- 9127.75
4906-9127.110
TOTAL
CIRCUIT
RES.
ACTUAL
VOLTAGE
DROP
LAST
DEVICE
VOLT
TOTAL
CIRCUIT
RES.
MAXIMUM
VOLTAGE
DROP
LAST
DEVICE
VOLT
75CD
110CD
75CD
110CD
CIRCUIT DESCRIPTION
'
CIRCUIT
0.1860
0.2520
0.2210
0.2850
AWG
OHM /FT
FT
FT
OF SAFETY, TAKING INTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTNG MAY DIFFER FROM WH_ATIS SHOWN_
VOLT
Minimum Device Volta e: 16 V
DROP
AMPS
AMPS
CHMS
VOLTS
%
VOLTS
OHMS
VOLTS
%
VOLTS
CKT #1
FIRST FLOOR STROBES
AN
14
0.00307
275
382
2
0
5
0
1.477
2.000
2.000
2.000
2.000
1.7
2.49
12.2%
17.9
2.3
3.5
17.0%
18.9
CKT#2
FIRST FLOOR STROBES
A/V
14
0.00307
275
694
2
0
2
0
0.814
1.7
1.37
6.7%
19.0
4.3
3.5
17.0%
16.9
CKT#3
FIRST FLOOR STROBES
AN
14
0.00307
275
463
3
0
3
0
1.221
1.7
2.06
10.1%
18.3
2.8
3.5
17.0%
16.9
CKT#4
FIRST FLOOR STROBES
AN
14
0.00307
275
450
2
0
4
0
1.256
1.7
2.12
10.4%
18.3
2.8
3.5
17.0%
16.9
`
'
WIRE
GAUGE
4.rbU
AS DESIGNED
ACTUAL
CIRCUIT
LENGTH
METHOD USED TO CALCULATE VOLTAGE DROP:
9 0 14 0
STROBE
HORN/STRB
Total NAG Load: 4 77 A 60%
TOTAL
CIRCUIT
LOAD
[(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS ! FT)J
AS DESIGNED
ATMAXALLOW. CIRC. LENGTH
Largest Single Circuit Load: 1 48 A 7a%
908-9101.11
I
4906 - 9127.110
TOTAL
CIRCUIT
RES.
ACTUAL
VOLTAGE
DROP
Lowest Vdtage at any Device: 16.9 V 106%
TOTAL
CIRCUIT
RES.
Wire Resistance At
WIRE RESISTANCE BASED ON TABLE 8 FROM NATIONAL ELECTRICAL CODE (UNCOATED SOLID COPPER WIRE)
75CD
110CD
75CD
75 Degrees Celsius
NOTE:
CIRCUIT
Total NAG Capacity 8 A
0.2520
Ohms /ft
LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGIN
AWG
Single Circuit Capacity: 2.0 A
FT
10 GA= 0.001210
OF SAFETY, TAKING INTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTNG MAY DIFFER FROM WH_ATIS SHOWN_
VOLT
Minimum Device Volta e: 16 V
DROP
12 GA = 0.001930
ON THE SHOP DRAWINGS. IF THE ACTUAL CIRCUIT LENGTH IS GOING TO EXCEED THE MAXIMUM ALLOWABLE CIRCUIT i
OHMS
14 GA= '0.003070
LENGTH, CONTACTYOUR LOCAL SIMPLEXGRNNELL DISTRICT OFFICE. i
Note:
16 GA = 30.004890
1
'Regulated 24 VDC' refers to the voltage range of 16 to 33 VDC
18 GA = 0.007770
I
per UL standard 1971. This voltage is the absolute operating range.
0.000
f I
Please note that 16VDC is the lowest operating voltage that is allowed
275
374
at the last appliance on the NAC under worst case conditions.
0
'
I i t
The maximum RMS current isted s he nameplate rating.
I
i ?
Strobe designs are constant wattage and the maximum RMS current
2.55
!
rating occurs at the lowest allowable operating voltage.
4009 Notification Appliance Extender Panel Battery Calculation - NAC #2 PID's
S I CURRENT DRAW
VOLTAGE DROP TOTALS
NAC SCHEDULE /VOLTAGE DROP CALCULAi ION
17% ML4XIMUMVOLTAGE DROP
CIRCUIT OUTPUT VOLTAGE FOR CALCULATIONS 20.4
CIRCUIT
TYPE
WIRE
GAUGE
WIRE
RESIST
AS DESIGNED
ACTUAL
CIRCUIT
LENGTH
MAXIMUM
ALLOWABLE
CIRCUIT
LENGTH
STROBE
STROBE
HORN/STRB
HORN /STRB
TOTAL
CIRCUIT
LOAD
MAX
CIRCUIT
CAP.
AS DESIGNED
ATMAXALLOW. CIRC. LENGTH
4906 - 9101'75
908-9101.11
4906- 9127.75
4906 - 9127.110
TOTAL
CIRCUIT
RES.
ACTUAL
VOLTAGE
DROP
LAST
DEVICE
VOLT
TOTAL
CIRCUIT
RES.
MAXIMUM
VOLTAGE
DROP
LAST
DEVICE
VOLT
75CD
110CD
75CD
110CD
CIRCUIT_ _DESCRIPT_ION
'
CIRCUIT
0.1860
0.2520
0.2210
0.2850
AWG
OHM /FT
FT
FT
DROP
VOLT
RES
DROP
AMPS
AMPS
OHMS
VOLTS
%
VOLTS
OHMS
VOLTS
%
VOLTS
CKT #1
SECOND FLOOR STROBES
0.000
14
0.00307
275
374
1
0
6
0
1.512
2.000
2.000
2.000
2.000
1.7
2.55
12.5°%
17.8
2.3
3.5
17.0%
16.9
CKT#2
SECOND FLOOR STROBES
LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FORA SMALL MARGIN
14
0.00307
275
287
7
0
3
0
1.965
t.7
3.32
16.3 °%
17.1
1.8
3.5
17.0 °%
16.9
CKT#3
SECOND FLOOR STROBES
14
0.00307
275
324
7
0
2
0
1.744
1.7
2.94
14.4°%
17.5
2.0
3.5
17.0%
16.9
CKT#4
SECOND FLOOR STROBES
14
0.00307
275
300
3
0
8
0
1.884
1.7
3.18
15.6°%
17.2
1.8
3.5
17.0%
16 9
7.105
METHOD USED TO CALCULATE VOLTAGE DIN.OP: 18 0 17 0 Total NAG Load: 7.11 A 89%
[(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS / FT)J i Largest Single Circut Load: 1.97 A 98 °%
i Lowest Vdtage at any Device: 16 9 V 106°%
Wire Resistance At WIRE RESISTANCE BASED ON TABLE 8 FROM NATIONAL ELECTRICAL CODE (UNCOATED SOLID COPPER WIRE)
75 Degrees Celsius NOTE: Total NAG Capacity: 8 A
Ohms / ft LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGN Single Circuit Capacity 2.0 A
1O'GA= 0.001210 OF SAFETY, TAKING INTO CONSIDERATION THE ACTUAL INSTALLED CIRCUITROUTNG MAY DIFFER FROM WHAT IS SHOWN Minimum Device Volta e: 16 V
12 GA= 0.001930 ON THE SHOP DRAWINGS. IF THE ACTUAL CIRCUIT LENGTH IS GOING TO EXCEED THE MAXIMUM ALLOWABLE CIRCUIT i
14 GA= 0.003070 LENGTH, CONTACTYOUR LOCAL SCAPLEXGRNNELL DISTRICTOFFICE. Note:
16 GA = 0.004890 'Regulated 24 VDC' refers to the voltage range of 16 to 33 VDC
18 GA = 0.007770 ! per UL standard 1971. This voltage is the absolute operating range.
I Please note that 16VDC is the lowest operating voltage that is allowed
at the last appliance on the NAC underworst case condlh,ns.
The maximum RMS current listed is the nameplate rating.
Strobe designs are constant wattage and the maximum RMS current
rating occurs at the lowest allowable operating voltage.
4009 Notification Appliance Extender Panel Battery Calculation - NAC #3 pID s
NAC SCHEDULE / VOLTAGE DROP CALCULATION AS DESIGNED MAXMUM STROBE
17% MAXIMUM VOLTAGE DROP CIRCUIT WIRE WIRE ACTUAL ALLOWABLE 4908- 9101`
CIRCUITOUTPUTVOLTAGE FOR CALCULATIONS = 20.4 TYPE GAUGE RESIST CIRCUIT CIRCUIT 75CD
CIRCUIT DESCRIPTION LENGTH LENGTH 0.1860
I AWG OHM/FT FT FT
ITIES / CURRENT DRAW @ M
FIRST FLOOR STROBES
VOLTAGE DROP TOTALS
STROBE
HORN /STRB
HORN /STRB
275
380
AS DESIGNED
AT MAXALLOW. CIRC. LENGTH
i 4906- 9101'11
4906 - 9127'75
4906. 9127.110
TOTAL
MAX
TOTAL
ACTUAL
LAST
TOTAL
MAXIMUM
LAST
110CD
75CD
110CD
CIRCUIT
CIRCUIT
CIRCUIT
VOLTAGE
DEVICE
CIRCUIT
VOLTAGE
DEVICE
0.2520
0.2210
0.2850
LOAD
CAP.
RES.
DROP
VOLT
RES
DROP
VOLT
CKT #1
FIRST FLOOR STROBES
VOLTS %
AN
14
0.00307
275
380
8
0
0
0
1.488
2.00
CKT#2
FIRST FLOOR STROBES
AN
14
0.00307
275
380
8
0
0
0
1.488
2.00
CKT#3
FIRST FLOOR STROBES
AN
14
0.00307
275
1,012
3
0
0
0
0.558
2.00
CKT#4
FIRST FLOOR STROBES SPARE
AN
14
0.00307
0
N/A
0
0
0
0
0.000
2.00
3.534
METHOD USED TO CALCULATE VOLTAGE DROP: 19 0 0 0
[(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS l FT)]
Wire Resistance At
_ .
WIRE RESISTANCE BASED ON TABLE 8 FROM NATIONAL ELECTRICAL CODE (UNCOATED SOLID COPPER WIRE)
75 Degrees Celsius
NOTE:
Ohms / ft
LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FORA SMALL MARGIN
10 GA = 0.001210
OF SAFETY, TAKING INTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTING MAY DIFFER FROM WHAT IS SHOWN
12 GA = 0.001930
ON THE SHOP DRAWINGS. IF THE ACTUAL CIRCUIT LENGTH IS GONGTO EXCEED THE MAXMUM ALLOWABLE CIRCUIT
14 GA= 0.003070
LENGTH, CONTACT YOUR LOCAL SIMPLEXGRINNELLDISTRICTOFFICE.
16 GA = 0.004890
18 GA = 0.007770 _
I , t
� i k
4009 Notification Appliance Extender Panel Battery Calculation - NAC #4 PID's RTITIES / CURRENT DRAW @
C O
OHMS V
VOLTS %
% V
VOLTS O
OHMS V
VOLTS %
% V
VOLTS
Note:
'Regulated 24 VDC' refers to the voltage range of 16 to 33 VDC
per UL standard 1971. This voltage is the absolute operating range.
Please note that 16VDC is the lowest operating voltage that is allowed
at the last appliance on the NAC under worst case conditions.
The maximum RMS current listed is the nameplate rating.
Strobe designs are constant wattage and the maximum RMS current
rating occurs at the lowest allowable operating voltage.
VOLTAGE DROP TOTALS
NAC SCHEDULE /VOLTAGE DROP CALCUATION AS DESIGNED MAXIMUM STROBE STROBE HORN /STRB HORN /STRB AS DESIGNED AT MAXALLOW. CIRC. LENGTH
17% MAXIMUM VOLTAGE DROP CIRCUIT WIRE WIRE ACTUAL ALLOWABLE 4906 - 9101.75 906- 9101`11 4906- 9127`75 4906 - 9127`110 TOTAL MAX TOTAL ACTUAL LAST TOTAL MAXMUM LAST
CIRCUIT OUTPUT VOLTAGE FOR CALCULATIONS 20.4 TYPE GAUGE RESIST CIRCUIT CIRCUIT 75CD 110CD 75CD 110CD CIRCUIT CIRCUIT CIRCUIT VOLTAGE DEVICE CIRCUIT VOLTAGE DEVICE
CIRC_U_IT DESCRIPTION LENGTH LENGTH 0.1860 0.2520 0.2210 0.2850 LOAD CAP. RES. DROP VOLT RES. DROP VOLT
AWG OHM /FT FT FT AMPS AMPS OHMS VOLTS °% VOLTS OHMS VOLTS °% VOLTS
CKT #1 SECOND FLOOR STROBES AN 14 0.00307 0 N/A 0 0 0 0 0.000 2.000 0.0 0.00 0.0% 20.4 N/A N/A N/A N/A
CKT #2 SECOND FLOOR STROBES AN 14 0.00307 275 607 5 0 D 0 0.930 2000 1.7 1.57 7.7% 18.8 3.7 3.5 17.0°% 16.9
CKT #3 SECOND FLOOR STROBES SPARE AN 14 0.00307 0 N/A D 0 0 0 0.000 2000 0.0 0.00 D.0% 20.4 NlA N/A N/A N/A
CKT#4 SECOND FLOOR STROBES SPARE AN 14 0.00307 0 N/A D 0 0 0 0.000 2000 0.0 0.00 0.0% 20.4 N/A N/A N/A N/A
! U.WU
METHOD USED TO CALCULATE VOLTAGE DROP: E 5 0 0 0
[(CIRCUIT LENGTH IN FEET X2) (AMPS) (OHMS / FT)J
Wire Resistance At WIRE RESISTANCE BASED ON TABLE 8 FROM NATIONAL ELECTRICAL CODE (UNCOATED SOLID COPPER W_ IRE)
75 Degrees Celsius NOTE- i
Ohms /ft LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGIN
10 GA= 0.001210 OF SAFETY, TAKNG INTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTNG MAY DIFFER FROM WHAT 0 SHOWN
12 GA= 0.001930 ON THE SHOP DRAWINGS. IF THE ACTUAL CIRCUIT LENGTH IS GOING TO EXCEEDTHE MAXIMUM ALLOWABLE CIRCUIT
14 70 GA= 0.0030 LENGTH, CONTACT YOUR LOCAL SIMPLEXGRINNELL DISTRICT OFFICE.
16 GA = 0.004890 i
18 GA = 0.007770
f
Total NAC Load: 0.93 A 12%
Largest Single Circuit Load: 0.93 A 47°%
Lowest Vdtage at any Device: 16.9 V 106°%
Total NAG Capacity. 8 A
Single Circuit Capacity: 2.0 A
Minimum Device Vdtage: 16 V
Note: ;
'Regulated 24 VDC refers to the voltage range of 16 to 33 VDC
per UL standard 1971. This voltage is the absolute operating range.
Please note that 16VDC is the lowest operating voltage that is allowed
at the last appliance on the NAC under worst case conditions.
The maximum RMS current listed is the nameplate rating
Strobe designs are constant wattage and the maximum RMS current
rating occurs at the lowest allowable operating voltage.
L%�Lr�nx`-:J�\-qFD
MIAM4 -DADS ^0'1it." 't' FIRE DEPARTM15EPe
OLD0.PE'r',1, /: "i FiLIEALAR"
FIRES P RES tOi1 1 "1 c d I EXi.
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DRAWN BY: DATE:
CCRJR 7/24/12
DESIGNED BY: DATE:
CCRJR 7/24/12
APPROVED BY: DATE:
PROJECT NUMBER:
263-410034 / 965293212
SHEET TITLE/ PATH:
\ \Sgmiami 1 \DRAFTING \00 - 2003 \SOUTH
MIAMI HOSPITAL (MASTER SITE)\SMH
ACC HYPERBARIC CHAMBER 965293212
REV 00
SHEET NUMBER:
BATTERY
SIZE D(24-X36')
Na
! U.WU
METHOD USED TO CALCULATE VOLTAGE DROP: E 5 0 0 0
[(CIRCUIT LENGTH IN FEET X2) (AMPS) (OHMS / FT)J
Wire Resistance At WIRE RESISTANCE BASED ON TABLE 8 FROM NATIONAL ELECTRICAL CODE (UNCOATED SOLID COPPER W_ IRE)
75 Degrees Celsius NOTE- i
Ohms /ft LUMP SUM METHOD WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A SMALL MARGIN
10 GA= 0.001210 OF SAFETY, TAKNG INTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTNG MAY DIFFER FROM WHAT 0 SHOWN
12 GA= 0.001930 ON THE SHOP DRAWINGS. IF THE ACTUAL CIRCUIT LENGTH IS GOING TO EXCEEDTHE MAXIMUM ALLOWABLE CIRCUIT
14 70 GA= 0.0030 LENGTH, CONTACT YOUR LOCAL SIMPLEXGRINNELL DISTRICT OFFICE.
16 GA = 0.004890 i
18 GA = 0.007770
f
Total NAC Load: 0.93 A 12%
Largest Single Circuit Load: 0.93 A 47°%
Lowest Vdtage at any Device: 16.9 V 106°%
Total NAG Capacity. 8 A
Single Circuit Capacity: 2.0 A
Minimum Device Vdtage: 16 V
Note: ;
'Regulated 24 VDC refers to the voltage range of 16 to 33 VDC
per UL standard 1971. This voltage is the absolute operating range.
Please note that 16VDC is the lowest operating voltage that is allowed
at the last appliance on the NAC under worst case conditions.
The maximum RMS current listed is the nameplate rating
Strobe designs are constant wattage and the maximum RMS current
rating occurs at the lowest allowable operating voltage.
L%�Lr�nx`-:J�\-qFD
MIAM4 -DADS ^0'1it." 't' FIRE DEPARTM15EPe
OLD0.PE'r',1, /: "i FiLIEALAR"
FIRES P RES tOi1 1 "1 c d I EXi.
� 0 1 ` ply:
FIRE ALARM SYSTEM TO BV
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DRAWN BY: DATE:
CCRJR 7/24/12
DESIGNED BY: DATE:
CCRJR 7/24/12
APPROVED BY: DATE:
PROJECT NUMBER:
263-410034 / 965293212
SHEET TITLE/ PATH:
\ \Sgmiami 1 \DRAFTING \00 - 2003 \SOUTH
MIAMI HOSPITAL (MASTER SITE)\SMH
ACC HYPERBARIC CHAMBER 965293212
REV 00
SHEET NUMBER:
BATTERY
SIZE D(24-X36')
Na
Total NAC Load: 0.93 A 12%
Largest Single Circuit Load: 0.93 A 47°%
Lowest Vdtage at any Device: 16.9 V 106°%
Total NAG Capacity. 8 A
Single Circuit Capacity: 2.0 A
Minimum Device Vdtage: 16 V
Note: ;
'Regulated 24 VDC refers to the voltage range of 16 to 33 VDC
per UL standard 1971. This voltage is the absolute operating range.
Please note that 16VDC is the lowest operating voltage that is allowed
at the last appliance on the NAC under worst case conditions.
The maximum RMS current listed is the nameplate rating
Strobe designs are constant wattage and the maximum RMS current
rating occurs at the lowest allowable operating voltage.
L%�Lr�nx`-:J�\-qFD
MIAM4 -DADS ^0'1it." 't' FIRE DEPARTM15EPe
OLD0.PE'r',1, /: "i FiLIEALAR"
FIRES P RES tOi1 1 "1 c d I EXi.
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DRAWN BY: DATE:
CCRJR 7/24/12
DESIGNED BY: DATE:
CCRJR 7/24/12
APPROVED BY: DATE:
PROJECT NUMBER:
263-410034 / 965293212
SHEET TITLE/ PATH:
\ \Sgmiami 1 \DRAFTING \00 - 2003 \SOUTH
MIAMI HOSPITAL (MASTER SITE)\SMH
ACC HYPERBARIC CHAMBER 965293212
REV 00
SHEET NUMBER:
BATTERY
SIZE D(24-X36')
Na
Note: ;
'Regulated 24 VDC refers to the voltage range of 16 to 33 VDC
per UL standard 1971. This voltage is the absolute operating range.
Please note that 16VDC is the lowest operating voltage that is allowed
at the last appliance on the NAC under worst case conditions.
The maximum RMS current listed is the nameplate rating
Strobe designs are constant wattage and the maximum RMS current
rating occurs at the lowest allowable operating voltage.
L%�Lr�nx`-:J�\-qFD
MIAM4 -DADS ^0'1it." 't' FIRE DEPARTM15EPe
OLD0.PE'r',1, /: "i FiLIEALAR"
FIRES P RES tOi1 1 "1 c d I EXi.
� 0 1 ` ply:
FIRE ALARM SYSTEM TO BV
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DRAWN BY: DATE:
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PROJECT NUMBER:
263-410034 / 965293212
SHEET TITLE/ PATH:
\ \Sgmiami 1 \DRAFTING \00 - 2003 \SOUTH
MIAMI HOSPITAL (MASTER SITE)\SMH
ACC HYPERBARIC CHAMBER 965293212
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BATTERY
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