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08-1131-013r 4009 Notification Appliance Extender Panel Batts I I NAC 17 Ca cu adan - 4009 Notification of ication Appliance Extender Panel Matte Calculation -NAC TY NAC SCHEDULE / VOLTAGE DROP CALCULATION 17% M MAXIMUM VOLTAGE DROP CIRCUIT OU1TUi VOLTAGE FOR CALCULATIONS) _ 20.4 TYPE -- � 4 WIRE RESIST OHM FT 0.00307 APPLIANCE ••• • DRAW m MAXIMUM X .' .' Y • y• i 1' `I Alarm •ui Y Y v 6 • • • Descri tiro AS DESIGNED ESTIMATED CIRCUIT LENGTH FT Current • - ICurrent ••i •• Panel Equipment TOTAL CIRCUIT LOAD AMPS ,. 1 -. • • U• . - -- 4906- `9101.110 Y y 4,00 4009 -9201 .,r 14009 IDNET NAC EXTENDER 120 VAC 110CD 0.015000 0.095000 0. 195000 0.185000 • tr 4009 Notification Appliance Extender Panel Batts I I NAC 17 Ca cu adan - 4009 Notification of ication Appliance Extender Panel Matte Calculation -NAC TY NAC SCHEDULE / VOLTAGE DROP CALCULATION 17% M MAXIMUM VOLTAGE DROP CIRCUIT OU1TUi VOLTAGE FOR CALCULATIONS) _ 20.4 TYPE -- � 4 WIRE RESIST OHM FT 0.00307 APPLIANCE / QUANTITIES / CURRENT DRAW m MAXIMUM X MUM RMS TOTAL CIRCUIT LOAD Standby : Total Alarm Total Module Q Descri tiro AS DESIGNED ESTIMATED CIRCUIT LENGTH FT Current Standby ICurrent Alarm Panel Equipment TOTAL CIRCUIT LOAD AMPS MAX CIRCUIT :' CAP. AMPS AS DESIGNED MTOTALS X ALLOW. CIRC. LENGTH - W MAXIMUM LAST VOLTAGE DEVICE DROP V T VOLTS X VOLTS 4906-9 101 4906- `9101.110 TOTAL CIRCUIT RES. OHMS 4009 -9201 1 14009 IDNET NAC EXTENDER 120 VAC 110CD 0.015000 0.095000 0. 195000 0.185000 0,2520 0.1860 0.2520 14 Total Panel Stb 0.025000 : - ... Penal Alarm 0.185000 Peripheral Devices 0 0 1,302 1.499 2.000 , 2.000 2.000 2.000 2.3 2.3 3.00 14.7% 17.4 4906- 9101 *75 14 TRUEALERT MULTI - CANDELA STROBE RED, WALL 0 75 CANDELA 16.9 - -16.9 0.000000 01000000 0.186000 2,604000 4906 -9101 *110 0 TRUEALERT MULTI - CANDELA STROBE RED, WALL 0 110 CANDELA CKT3 0.000000 0.000000 0.252000 0,000000 4906-9151 *75 25 TRUEALERT MULTI - CANDELA SPEAKER STROBE RED, WALL 0 75 CANDELA 1.488 0.000000 0.000000 0.186000 ' 4.650000 4906-9151 110 0 TRUEALERT MULTi- CANDELA SPEAKER STROBE RED, WALL • 110 CANDELA 01000000 0.000000 0.252000 0.000000 3,5 17.0% 16.9 Total Peri h -1.. 0.000 Total Peri h Alarm 7.254 14 0.00307 325 Total Standby Amps 0,015 Total Alarm Amps 7.439 0 1.489 2.0 2.97 Standby 17.4 Alarm 3.5- 17.OX 16.! Battery Calculations Current CCurrent Control Panel Card Power 0.095 0.185 Power For External Peripheral Devices '" 0.00000 11.25400 0.015 < -- Totals - -> 7.439 Additional Battery Capacity Required 0% 0.000 0.000 Standby Time = 4 Hr: 0.340 Standby Ah Alarm Time - 15 Mins, 1.860 Alarm Ah 2.200 Total Ah ---Bott!g Required 2081 -9274 10AH 4.442 Ah METHOD USED TO CALCULATE VOLTAGE DROP: 31 0 0 0 [(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS / FT)] Wirt Resistance At WIRE RESISTANCE BASED ON TABLE V 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 INTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTING MAY DIFFER FROM WHAT IS SHOWN 12 GA 0,001130 AM TUr QUAD nDlwlklre K Tur AeT1 uI MDM BIT IrIJrTu IQ rnWn Tn rvrrrn Tur u*vnn nA &I IA-1r n, ■n, ur 1 4009 Notification of ication Appliance Extender Panel Matte Calculation -NAC TY NAC SCHEDULE / VOLTAGE DROP CALCULATION 17% M MAXIMUM VOLTAGE DROP CIRCUIT OU1TUi VOLTAGE FOR CALCULATIONS) _ 20.4 TYPE -- � 4 WIRE RESIST OHM FT 0.00307 APPLIANCE / QUANTITIES / CURRENT DRAW m MAXIMUM X MUM RMS TOTAL CIRCUIT LOAD MAX CIRCUIT CAP. TOTAL CIRCUIT RES. OHMS 1.1 1 .8 1.i i.i VOLTAGE ALS *, w u u • • w c ` • • • aCIRCUIT WIRE GAUGE AWGOHM WIRE RESIST /Fi 0,00307 AS DESIGNED ESTIMATED CIRCUIT LENGTH FT MAXIMUM ALLOWABLE CIRCUIT LENGTH FT STROBE STROVE SPKR STRB . - - -- 4906-9151 *75 SPKR 5TR1 -., -- 4906 -5151 *110 TOTAL CIRCUIT LOAD AMPS MAX CIRCUIT :' CAP. AMPS AS DESIGNED MTOTALS X ALLOW. CIRC. LENGTH - W MAXIMUM LAST VOLTAGE DEVICE DROP V T VOLTS X VOLTS 4906-9 101 4906- `9101.110 TOTAL CIRCUIT RES. OHMS ACTUAL VOLTAG E DROP VOLTS X UST DEVICE VOLT VOLTS 75CD 110CD 14 I IOCD CIRCUIT DESCRIPTION CKT 1 NORTH TOWER 2FL STROBES 0.1860 0,2520 0.1860 0.2520 14 375 375 325 434 380 390 7 i i O 0 0 0 0 0 1,302 1.499 2.000 , 2.000 2.000 2.000 2.3 2.3 3.00 14.7% 17.4 6 3.5 ' 17.0% - 16.9 - -16.9 KT 2 NORTH TOWER 1FL STROBES NORTH TOWER 2FL STROBES - 17.0X_ 14 14 14 0.00307 0.00307 CKT3 2 NORTH TOWER 3FL STROBES 7 0 0 0 0 1.488 6.649 3.43 ti.8% 17.0 3.5 17.0% 2.0 2.97 14.9% 17.4 3,5 17.0% 16.9 CKT 4 _ NORTH TOWER 3FL STROBES 14 0.00307 325 380 i 0 0 ': 0 1.489 2.0 2.97 14.6% 17.4 3.5- 17.OX 16.! 5,766 METHOD USED TO CALCULATE VOLTAGE DROP: 31 0 0 0 [(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS / FT)] Wirt Resistance At WIRE RESISTANCE BASED ON TABLE V 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 INTO CONSIDERATION THE ACTUAL INSTALLED CIRCUIT ROUTING MAY DIFFER FROM WHAT IS SHOWN 12 GA 0,001130 AM TUr QUAD nDlwlklre K Tur AeT1 uI MDM BIT IrIJrTu IQ rnWn Tn rvrrrn Tur u*vnn nA &I IA-1r n, ■n, ur 1 METHOD USED TO CALCULATE VOLTAGE DROP: 11 0 24 0 i [(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS / FT)] Wire Resistance At WIRE RESISTANCE BASED ON TABLE II FROM NATIONAL ELECTRICAL CODE (UNCOATED SOLID COPPER WIRE) : 75 Degrees Celsius NOTE: " Ohms / ft LUMP SUM METHOD WAS USED TO CALCULITE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A 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 TNr AM W Mwrl nT I RJrTN IQ rnlnlr Tn rvrrrn Tur uivuu Iu u i nw.■i r mom irt - . SMH NORT TWR NAC #6 NAC SCHEDULE / VOLTAGE DROP CALCULATION 17% MAXIMUM VOLTAGE DROP CIRCUIT CIRCUIT OUTPUT VOLTAGE FOR CALCULATIONS = 20.4 TYPE . CIRCUIT DESCRIPTION CKT 1 NORTH TOWER 1 F STROBES WIRE GAUGE AWG 14 WIRE RESIST OHM FT 0.00307 APPLIANCE AS DESIGNEDAAXI UM ESTIMATED ALLO AXLE CIRCUIT CIR UIT LENGTH LE TH FT 300 QUANTITIES CURRENT DRAW 0 MAXIMUM STROBE STROBE 4906- 9101 *75 4906- 9101*110 75CD 110CD 0.1860 0.2520 FT 347 2 0 - RMS SPKR STRB SPKR STRB WP SPKR 5TR1 TOTAL CIRCUIT LOAD MAX CIRCUIT CAP. TOTAL CIRCUIT RES. OHMS 1.1 1 .8 1.i i.i VOLTAGE OL GE DROP TOTALS ' AS DESIGNED AT MAX ALLOW. CIRC. LENGTH ACTUAL LAST TOTAL MAXIMUM VOLTAGE DEVICE CIRCUIT VOLTAGE DROP VOLT RES, ' DROP VOLTS % VOLTS OHMS VOLTS X 3.00 14.7% 17.4 2.1 3.5 17.0% 1 3.08 15.1% 17,3 2.1 3.5 17.0% 3.08 15.1X 17.3 2.1 3.5 17.0% 3.08 15.1X 17.3 2.1 3.5 17.OX LAST DEVICE VOLT VOLTS 16.9 16.9 16.8 16.9 4909 -1151 *110 4906 - 9151 *75 4906 -9151 *110 0WP- 2475W- 75CD I IOCD 75CD 0.1860 0.2520 0.1310 6 0 1 AMPS 1.626 1.674 1.674 1.674 AMPS 2.000 1 2.000 2.000 2.000 CKi 2 300 NORTH TOWER 1FL STROBES 4 0 14 0.00307 300 337 4 0 5 1 0 1 0 CKT 3 VOLTS NORTH TOWER 1FL STROBES - VOLTS 14 0.00307 300 337 3 0 6 0 0 CKT 4 17.3 NORTH TOWER 1FL STROBES 3.5 - 17.0X_ 14 O.D0307 300 337 2 0 7 0 1 0 Li 0,00 O.1 204 N/A N/A 6.649 METHOD USED TO CALCULATE VOLTAGE DROP: 11 0 24 0 i [(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS / FT)] Wire Resistance At WIRE RESISTANCE BASED ON TABLE II FROM NATIONAL ELECTRICAL CODE (UNCOATED SOLID COPPER WIRE) : 75 Degrees Celsius NOTE: " Ohms / ft LUMP SUM METHOD WAS USED TO CALCULITE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A 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 TNr AM W Mwrl nT I RJrTN IQ rnlnlr Tn rvrrrn Tur uivuu Iu u i nw.■i r mom irt - . METHOD USED TO CALCULATE VOLTAGE DROP: 14 0 1 25 0 [(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS / FT)] Wire e Resistance At WIRE RESISTANCE BASED ON TABLE a FROM NATIONAL ELECTRICAL CODE (UNCOATED SOLID COPPER WIRE 75 Degrees Celsius NOTE:- ) Ohms f / t LUMP SUM MER100 WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A 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 sHnP nRAwimm IF THr irnw rlwriirr I rurru IQ rnlur_ Tn rvrrrn Tur LiMij lif .f f „w.- ..,.,.,,,r 1 ' U . 4009 Notification Appliance Extender Panel Battery Calculation ` , AC 7 - NAC SCHEDULE VOLTAGE DROP CALCULATION 0 17% MAXIMUM VOLTAGE DROP CIRCUIT .WIRE OUTPUT VOLTAGE FOR CALCULATIONS = 20.4 TYPE GAUGE CIRCUIT DESCRIPTION N AWG CKT 1 NORTH TOWER 1FL STROBES 14 WIRE RESIST OHM Fi 0.00307 APPLUNCE UANTITI QUANTITIES /CURRENT DRAW m MAXIMUM AS DESIGNED MAXIMUM STROBE STROBE ESTIMATED ALLOWABLE 4909- 1101 *75 4906-9101 110 CIRCUIT CIRCUIT 75CD 110CD LENGTH LENGTH 0.1960 0.2520 FT FT 300 304 3 0 RMS SPKR STR B SPKR STRB TOTAL CIRCUIT LOAD MAX CIRCUIT CAP. TOTAL' CIRCUIT RES. , OHMS i.i 1.8 i.i 1.1 VOLTAGE DROP TOTALS AS DESIGNED ACTUAL AL LAST VOLTAGE DEVICE PROP VOLT VOLTS % VOLTS 3.43 16.9% 17.0 3.43 19.2% 17.0 3.43 li.BX 17.0 3.09 1 5.1% 17.3 AT MAX ALLOW. CIRC. LENGTH .TOTAL MAXIMUM 'CIRCUIT VOLTAGE RES. DROP OHMS VOLTS % 1.9 3.5 17.0% 1 � 3.5 17.0% -- 119 3.5 17.0% 2.1 3.5 17.0X LAST DEVICE VOLT ' VOLTS 16.9 16.9 1fi.9 16.9 VOLTAGW�IA AS DESIGNED .4909 - !151'75 4909 -1151 *110 75CD 110CD 0.1860 0.2520 7 0 AMPS 1.990 1.990 1.160 1.674 7.254 AMPS 2.000." 2.000 2.000 2.000 CKT 2 I I NORTH TOWER iFL STROBES 75CD- 11OCD 14 0.00307 300 304 4 0 1 6 0 CKT 3 NORTH TOWER 1 FL STROBES 14 0.00307 300. 304 CKT 4 NORTH TOWER 1FL STROBES 14 0.00307 300 337 4 0 3 0 i 0 6 0 METHOD USED TO CALCULATE VOLTAGE DROP: 14 0 1 25 0 [(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS / FT)] Wire e Resistance At WIRE RESISTANCE BASED ON TABLE a FROM NATIONAL ELECTRICAL CODE (UNCOATED SOLID COPPER WIRE 75 Degrees Celsius NOTE:- ) Ohms f / t LUMP SUM MER100 WAS USED TO CALCULATE ALLOWABLE VOLTAGE DROP. THIS METHOD ALLOWS FOR A 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 sHnP nRAwimm IF THr irnw rlwriirr I rurru IQ rnlur_ Tn rvrrrn Tur LiMij lif .f f „w.- ..,.,.,,,r 1 ' U . METHOD USED TO CALCULATE VOLTAGE DROP: 25 1 0 1 0 0 [(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS / 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 FOR A 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 GOING TO Fxr.FFn THE YAYIUI Iu u I nwAwi r ruerl IR BA TTERY CALCS I y .. w • w U li OG U - l+ v VV y • V • cWU •o. • Y w w JGC U ?r*w* M' u I b (N "x30 T' ^ *'4 + 4 009 Notification Appliance Extender Panel Battery NAC SCHEDULE /VOLTAGE DROP CALCULATION 17% MAXIMUM VOLTAGE DROP CIRCUIT OUTPUT VOLTAGE FOR CALCULATIONS = CIRCUIT DESCRIPNON CKT 1 NORTH TOWER 1FL STROBES Calculation -NAC CIRCUIT 20.4 TYPE * #a WIRE GAUGE AWG 14 WIRE RESIST OHM FT 0.00307 APPLIANCE / QUANTITIES AS DESIGNED MAXIMUM ESTIMATED ALLOWABLE CIRCUIT CIRCUIT LENGTH LENGTH FT FT 250 304 / CURRENT DRAW 0 MAXIMUM S TROBE STROBE RMS SPK1SPKR /STRB TOTAL CIRCUIT LOAD MAX CIRCUIT CM. VOLTAGW�IA AS DESIGNED OTALS - AX ALLOW, CIRC. LENGTH 4906- 9101 *75_ 4906- 9101 *110 4!_06- 9151 *75 _ 75CD 4906 -9151 *110 TOTAL CIRCUIT RES. AC TUAL VOLTAGE DROP LAST DEVICE VOLT T MAXIMUM VOLTAGE DROP LAST DEVICE VOLT 75CD- 11OCD _ 110CD 0.1860 0.2520 0.1990 0.2520 10 0 0 0 AMPS 1,860 AMPS 2,000 2.000 2.000 2,000 OHMS - 1.5 VOLTS 2.96 % 14.0% VOLTS -- 17,5 VOLTS % - VOLTS _. 3.5 17,0% -. 16.9 CKT 2 NORTH TOWER 1FL, STROBES 14 '0.00307 300 337 CKT 3 NORM TOWER 1 FL STROBES 14 000307 350 506 CKT 4 SPARE 14 0.00307 300 N A 9 0 6 0 0 0 0 0 0 0 0 0 1.974 1.116 0,000 4.650 1.i 3.Oi 15.1% 17.3 3.5 - 17.0X_ -- 19.9 - 21 2.40 .11.9% H.0 3.5 17.0% 1 i.9 Li 0,00 O.1 204 N/A N/A N/A METHOD USED TO CALCULATE VOLTAGE DROP: 25 1 0 1 0 0 [(CIRCUIT LENGTH IN FEET X 2) (AMPS) (OHMS / 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 FOR A 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 GOING TO Fxr.FFn THE YAYIUI Iu u I nwAwi r ruerl IR BA TTERY CALCS I y .. w • w U li OG U - l+ v VV y • V • cWU •o. • Y w w JGC U ?r*w* M' u I b (N "x30 T' ^ *'4 +