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12-361-003
RISER DIAGRAM 5TH FLOOR FOR SHUT RTU RROF IKIE OE @E M117 D125 D124 FOR EXHAUST FAN FOR SHUT DOWN A/C UNIT 5TH FLOOR FEE EJE EKIE IKIE OE EIE EKIE DE EIE FEE EIE EDE NAC# 3 EOL 4.7K O .975 AMP W/ 3.0 AMP MAX 75CD 1575CD 1575CD 75CD 75CD 75CD 75CD V DROP O 19.2080 - LENGHT CIRCUIT 125' .176A .077A .090A .158A .158A .158A .158A ON ON EE EIE OE IDE �E EEE �E VALUES TAKEN FROM 2002 NEC CHAPTER 9 TABLE 8 158 2 .316 `Op 2 -18 1575CD 75CD 1575CD 1575CD 1575CD M116 M115 M114 M113 M112 Mill M110 M109 M108 M107 M106 M105 D135 M53 M52 M27 M26 M9 M8 M7 TOTAL REQUIRED ALARM ALARM CAP. .461 .0384 REQUIRED STANDBY AMP /HRS. 1.56 + REQUIRED ALARM CAP. .0384 TOTAL OPTIONAL REQUIRED REQUIRED SAFETY BATTERY CAP. FACTOR CAP. 1.5984 X 1.2 - 1.9181 BATTERY SIZE: 7.0 AMP HRS .158A .090A .090A .090A .090A .158A .0777A .077A .090A STARTING VOLTAGE USED IN CALCULATIONS IS 20.4 0.997 0.975 PER U.L. do NFPA REQUIREMENTS 2.5059 STARTING VOLTAGE USED IN CALCULATIONS IS 20.4 ( INFORMATION PROVIDED BY CUSTOMER) 17.89408 PER U.L & NFPA REQUIREMENTS % OF VOLTAGE DROP 12.28% 5.84% ACCEPTABLE V - DROP MODULE FOR u v E 3 -21 ©E -E 3 -22 3 -23 ©E 3 -24 15' 3 -25 u � E 3 -26 B 2 EOL 4.7K O .948 AMP W/ 3.0 AMP MAX F1D E OE HD E OE DD OE OE OE OE OE OE OE OE OE OE OE OE DD OE D134 D67 066 D65 064 063 D62 D61 060 D59 058 IMONITOR FLOW AND TAMPER SWITCH 052 051 050 ���� M<E ME ���� OE ���� Z<E ME EE ���� Z<IE ���� 04 - LENGHT CIRCUIT 272' E E �E �E �E �E FE E E �E �E FEE � F±1 WE" HIE �E 5 -40 5 -41 LJVE 5 -42 5 -43 5 -47 5 -48 5 -44 5 -45 5 -46 NBACf34 EOL 4.7K O 1.128 AMP W/ 3.0 AMP MAX. M68 M85 M18 M17 MI6 75CD 176A 1575CD .077A 1575CD .090A 75CD .158A 1575CD .090A 1575CD .077A 75CD .158A 1575CD .090A 110CD .212A V DROP O 16.33 - LENGHT CIRCUIT 302' OE DD E OE OE OE OE OE DD E SE OE OE D122 D121 D120 0119 D115 D114 D113 D112 Dill 0110 0109 D108 0107 D106 0105 OE ���� M<E ���� WE ���� N<E ��7�� WE ���� Z<E ���� Z<E � & OE NAC�s3 5 -30 5 -31 5 -32 5 -33 5 -34 5 -35 5 -38 5 -37 5 -38 EOL 4.7K O .938 AMP W/ 3.0 AMP MAX. V DROP O 17.71 - LENGHT CIRCUIT 293' 75CD 1575CD 1575CD 1575CD 75CD 1575CD 1575CD 1575CD 1575CD & DD DD .158A .090A .090A .090A .176A .090A .090A .077A .077A D104 D103 D102 D101 D49 D48 4TH FLOOR 41 C5 �y Q& 'e 'se F° 1� F° 102- EIE FEE EIE ❑E HIE ❑4e E ❑� E M63 M62 M59 M58 M15 M14 M13 OE DD E OE OE OE OE OE 'D DD OE OE OE OE OE OE OE OE OE D130 D118 D117 D116 D100 099 D98 D97 D96 095 D94 D93 D92 D91 D90 D89 D88 D87 086 3RD FLOOR. MONITOR MODULE FOR �v FLOW AND TAMPER SWITCH r�Q EIE HE 7M E EOE EIE EE HIE HIE SE OE OE OE �D OE OE OE OE M57 M56 M55 M54 M23 M12 Mll MID D140 D134 D133 D132 0131 D85 D84 083 D82 ON ON ON ON OE OE OE OE C Ot r OE DD E � OE (a OE DD E D144 0143 0142 D141 081 D80 079 D78 D77 D76 D75 D74 073 072 071 070 D69 068 2ND FLOOR 4TH FLOOR EXISTING DEVICES NOT PART OF SCOPE OF WORK WE LKIE LINE WE LIgE WE WE LICE BPS/5 NAC -2 5 -20 5 -21 5 -22 5 -23 5 -24 5 -25 5 -26 5 -27 EOL 4.7K O .918 AMP W/ 3.0 AMP MAX 1575CD 1575CD 1575CD 110CD 1575CD 110CD 1575CD 1575CD V DROP O 17.87 - LENGHT CIRCUIT 282' .077A .090A .090A .202A .090A .202A .077A .090A Z< o' o o' o `0 0 0 0E BPS/5 E E Z< E E Z< E E E EOL 4.7K O .907 AMP W/ 3 0 AMP 5 -10 5-17 5 -11 5 -12 5 -13 5 -14 5 -15 5 -18 5 -i6 V DROP O 18.8438 - LENGHT P MAX MAl7 198' 1575CD 1575CD 1575CO 75CD 1575CD 1575CD 75CD 1575CD 1575CD .090A .077A .090A .158A .090A .077A .158A .077A .090A (9< E 4 -30 k_)E 4 -31 l_l<I E 4-32 (DE 4 -35 OE 4 -36 OE 4 -33 OE 4-34 NAC# 3 EOL 4.7K O .975 AMP W/ 3.0 AMP MAX 75CD 1575CD 1575CD 75CD 75CD 75CD 75CD V DROP O 19.2080 - LENGHT CIRCUIT 125' .176A .077A .090A .158A .158A .158A .158A ON 3RD FLOOR. Q!. C!� Qq � �-''E � WE Q- SP 04 o E o E o 0 0 o f a o' E NAY -2 4 -20 4 -21 4 -22 4 -23 4 -28 4-24 4-25 4-26 4 -30 4 -27 EOL 4.7K O 1.255 AMP W/ 3.0 AMP MAX 110CD 1575CD 75CD 75CD 1575CO 75CD 1575CD 1575CD 75CD 1575CO V DROP O 17.2947 - LENGHT CIRCUIT 253' .212A .090A .158A .158A .077A .158A .077A .090A .158A .077A k6E L'JE L°JNE U°`NE UE LIME LIME %(5t t&E LIVE NACU` -1 4 -10 4 -16 4-17 4 -11 4 -18 4-12 4 -13 4 -14 4-19 4 -15 EOL 4.7K O .997 AMP W/ 3.0 AMP MAX 75CD 1575CD 1575CD 1575CD 1575CD 1575CO 1575CD 75CD 1575CD 1575CD V DROP O 18.3036 - LENGHT CIRCUIT 215' .158A .077A .090A .090A .077A .090A .090A .158A .077A .090A BPS/11N NAC -2 11 -2 EOL 4.7K O .158 AMP W/ 3.0 AMP MAX 75CD V DROP O 20.14 - LENGHT CIRCUIT 167' .158A 2ND FLOOR 1ST FLOOR 4Cg 4CR FOR ELEVATOR RECALL-3 FOR ELEVATOR RECALL -2 FOR ELEVATOR RECALL -1 FOR ELEVATOR RECALL-4 ❑M E FEE FLIE ❑E ❑E DE FLIE EE FLIE ERE EIE FEE FLIE EKIE ❑E 0E OE al E]E aE M102 M101 M90 M89 M88 M84 M79 M78 M77 M76 M81 M75 M74 M73 M72 M83 M82 M71 M70 M69 FOR TAMPER AND FLOW SWITCH FIRE PUMP SUPERVISION FIRE PUMP ROOM ❑ E EIE DE EIE EIE FEE EIE FEE M48 M47 M46 M45 M44 M43 M42 M41 4 J` y I y, 1& 16- 4& 4& 4& coq 461` 4& ' d& OR` �k o EIE Fm_1E EE EE EE El E DE IDE EIE EIE ❑E EKIE ❑E EIE M40 M39 M38 M34 M32 M30 M29 M28 M25 M24 M22 M21 M20 M19 ❑O E DE DE FEE ❑O E FEE HD OE t1D OE t1D DD ND OE t1D E M6 M5 M4 M3 M2 M1 D123 D47 D46 D45 D44 D43 D42 040 D39 D38 D37 OE OE HD OE OE eOE DD OE OE OO E DD E OE OE OE OO OE D36 D35 D34 D33 D32 031 D30 D29 D28 D27 D26 D25 D24 D23 D21 D20 (a t1D �h MD HD & OE IUD rD E OE F1D tID �E QA DD OE OE D19 D18 017 Di6 D15 014 013 012 011 DID D9 08 D7 06 D5 D4 D3 D2 D1 SLC Nil. 1 159 SENSOR/ 159 MODULE MAX. BE i LCD -80 REMOTE LCD ANNUNCIATOR ANN EXISTING NOTIFIER NFS -320 FIRE ALARM PANEL 06.OAMP 110\ TWO TELEPHONE LINES Z BPS/11N NAC -1 11 -1 EOL 4.7K O .158 AMP W/ 3.0 AMP MAX 75CD V DROP O 20.1651 - LENGHT CIRCUIT 132' .158A 1ST FLOOR `LAVE Qf� `LAVE ME LAVE ME NAC'!1 3 -10 3 -11 3 -12 3 -13 3 -14 3 -15 EOL 4.7K O .879 AMP W/ 3.0 AMP MAX 75CD 110CD 1575CD 1575CD 75CD 75CD V DROP O 19.3254 - LENGHT CIRCUIT 125' .176A .202A .090A .077A .176A .158A N E LC,x1 E BPSR1oN ka N AC -1 10 -1 10-2 EOL 4.7K O .18 AMP W/ 3.0 AMP MAX. 1575CD 1575CD V DROP O 20.2204 - LENGHT CIRCUIT 102' .090A .090A 1EXISTING DEVICES NOT PART OF SCOPE OF WORK ��jj�(jj i, ., V E 2 -40 �� a, ., IE 2 -41 2 -42 Wr 0 E 2 -43 IM ONI To R MODULE FOR FLOW AND TAMPER SWITCH 2 -45 �{� u V E 2 -46 NAC 4 EOL 4.7K O .799 AMP W/ 2.5 AMP MAX. V DROP O 18.6730 - LENGHT CIRCUIT 221' 1575CD 110CD 1575CD 1575CD o DE 0 �E 0 �E 0' �E o' �E 0 DE 0 0 o DE �E BPS /3 ON ON ON ON EE EIE OE IDE �E EEE �E VALUES TAKEN FROM 2002 NEC CHAPTER 9 TABLE 8 158 2 .316 `Op 2 -18 1575CD 75CD 1575CD 1575CD 1575CD 1575CD 75CD 1575CD 575CD 1575CD NAC -3 DROP O 17.894 - WLE/NGHT CIRCUIT 257' 0138 D137 0136 D135 M53 M52 M27 M26 M9 M8 M7 TOTAL REQUIRED ALARM ALARM CAP. .461 .0384 REQUIRED STANDBY AMP /HRS. 1.56 + REQUIRED ALARM CAP. .0384 TOTAL OPTIONAL REQUIRED REQUIRED SAFETY BATTERY CAP. FACTOR CAP. 1.5984 X 1.2 - 1.9181 BATTERY SIZE: 7.0 AMP HRS .158A .090A .090A .090A .090A .158A .0777A .077A .090A STARTING VOLTAGE USED IN CALCULATIONS IS 20.4 0.997 0.975 PER U.L. do NFPA REQUIREMENTS 2.5059 STARTING VOLTAGE USED IN CALCULATIONS IS 20.4 ( INFORMATION PROVIDED BY CUSTOMER) 17.89408 PER U.L & NFPA REQUIREMENTS % OF VOLTAGE DROP 12.28% 5.84% ACCEPTABLE V - DROP -v E 3 -20 u v E 3 -21 ©E -E 3 -22 3 -23 ©E 3 -24 15' 3 -25 u � E 3 -26 B 2 EOL 4.7K O .948 AMP W/ 3.0 AMP MAX F1D E OE HD E OE DD OE OE OE OE OE OE OE OE OE OE OE OE DD OE D134 D67 066 D65 064 063 D62 D61 060 D59 058 057 D56 D55 054 D53 052 051 050 110CD .212A 75CD .176A 1575CO .077A 75CD .158A 75CD .158A 1575CD .077A 1575CD .090A V DROP O 17.87 - LENGHT CIRCUIT 272' 1ST FLOOR 4Cg 4CR FOR ELEVATOR RECALL-3 FOR ELEVATOR RECALL -2 FOR ELEVATOR RECALL -1 FOR ELEVATOR RECALL-4 ❑M E FEE FLIE ❑E ❑E DE FLIE EE FLIE ERE EIE FEE FLIE EKIE ❑E 0E OE al E]E aE M102 M101 M90 M89 M88 M84 M79 M78 M77 M76 M81 M75 M74 M73 M72 M83 M82 M71 M70 M69 FOR TAMPER AND FLOW SWITCH FIRE PUMP SUPERVISION FIRE PUMP ROOM ❑ E EIE DE EIE EIE FEE EIE FEE M48 M47 M46 M45 M44 M43 M42 M41 4 J` y I y, 1& 16- 4& 4& 4& coq 461` 4& ' d& OR` �k o EIE Fm_1E EE EE EE El E DE IDE EIE EIE ❑E EKIE ❑E EIE M40 M39 M38 M34 M32 M30 M29 M28 M25 M24 M22 M21 M20 M19 ❑O E DE DE FEE ❑O E FEE HD OE t1D OE t1D DD ND OE t1D E M6 M5 M4 M3 M2 M1 D123 D47 D46 D45 D44 D43 D42 040 D39 D38 D37 OE OE HD OE OE eOE DD OE OE OO E DD E OE OE OE OO OE D36 D35 D34 D33 D32 031 D30 D29 D28 D27 D26 D25 D24 D23 D21 D20 (a t1D �h MD HD & OE IUD rD E OE F1D tID �E QA DD OE OE D19 D18 017 Di6 D15 014 013 012 011 DID D9 08 D7 06 D5 D4 D3 D2 D1 SLC Nil. 1 159 SENSOR/ 159 MODULE MAX. BE i LCD -80 REMOTE LCD ANNUNCIATOR ANN EXISTING NOTIFIER NFS -320 FIRE ALARM PANEL 06.OAMP 110\ TWO TELEPHONE LINES Z BPS/11N NAC -1 11 -1 EOL 4.7K O .158 AMP W/ 3.0 AMP MAX 75CD V DROP O 20.1651 - LENGHT CIRCUIT 132' .158A 1ST FLOOR `LAVE Qf� `LAVE ME LAVE ME NAC'!1 3 -10 3 -11 3 -12 3 -13 3 -14 3 -15 EOL 4.7K O .879 AMP W/ 3.0 AMP MAX 75CD 110CD 1575CD 1575CD 75CD 75CD V DROP O 19.3254 - LENGHT CIRCUIT 125' .176A .202A .090A .077A .176A .158A N E LC,x1 E BPSR1oN ka N AC -1 10 -1 10-2 EOL 4.7K O .18 AMP W/ 3.0 AMP MAX. 1575CD 1575CD V DROP O 20.2204 - LENGHT CIRCUIT 102' .090A .090A 1EXISTING DEVICES NOT PART OF SCOPE OF WORK ��jj�(jj i, ., V E 2 -40 �� a, ., IE 2 -41 2 -42 Wr 0 E 2 -43 �E 2 -44 2 -45 �{� u V E 2 -46 NAC 4 EOL 4.7K O .799 AMP W/ 2.5 AMP MAX. V DROP O 18.6730 - LENGHT CIRCUIT 221' 1575CD 110CD 1575CD 1575CD 1575CO 75CD 1575CD 1575CD .090A .212A .077A .077A .077A .176A .090A .158A 'o` E 2 -31 `o E 2 -32 LAVE 2 -33 LJVE 2 -34 V:YE 2 -35 c'E 2 -36 LJVE 2 -37 �E 2 -38 BPSf2_ EOL 4.7K O .992 AMP W/ 2.5 AMP MAX V DROP O 18.5955 - LENGHT CIRCUIT 186' 1575CO 75CD 1575CD 1575CD 75CD 75CD 1575CD 75CD 16 0.00489 .090A .158A .090A .090A .158A .158A .090A .158A 10 0.00121 BATTERY CALCULATION BPS #11 N BPS `�'E 2 -47 1575CD STANDBY QTY. TOTAL ALARM CURRENT CURRENT .065 1 D65 .145 QTY. TOTAL 1 .145 `6i 2 -23 1575CD AT 75 DEGREES -C NAC 41 WIRE SIZE 16 `6i 2 -27 1575CD R- 0.00489 SIZE OHMS PER FOOT L- 152 18 0.00777 1- 0.158 16 0.00489 VD- 0.2349 14 0.00307 VOLTAGE AT LAST DEVICE 20.1651 12 0.00193 X OF VOLTAGE DROP 1.15% 10 0.00121 ACCEPTABLE V - DROP YES VALUES TAKEN FROM 2002 NEC CHAPTER 9 TABLE 8 158 2 .316 `Op 2 -18 1575CD R- 0.00489 FORMULA FOR CALCULATION OF VOLTAGE L- 187 DROP IN DC 2 WIRE CIRCUITS 1- 0,158 .090A TOTAL STANDBY = .065 TOTAL ALARM - .461 STANDBY:24HRS HARM: 5 MIN. X 1 /60 = .0833 HOURS 20.14 REQUIRED STANDBY 24 X TOTAL STANDBY .065 REQUIRED REQUIRED STANDBY AMP/HRS ALARM TIME 1.56 .0833 X TOTAL REQUIRED ALARM ALARM CAP. .461 .0384 REQUIRED STANDBY AMP /HRS. 1.56 + REQUIRED ALARM CAP. .0384 TOTAL OPTIONAL REQUIRED REQUIRED SAFETY BATTERY CAP. FACTOR CAP. 1.5984 X 1.2 - 1.9181 BATTERY SIZE: 7.0 AMP HRS N.A.C. VOLTAGE DROP CALCULATIONS BPS #11N `�'E 2 -47 1575CD DC RESISTANCE FOR SOLID COPPER WIRES `6i 2 -22 1575CO `6i 2 -23 1575CD AT 75 DEGREES -C NAC 41 WIRE SIZE 16 `6i 2 -27 1575CD R- 0.00489 SIZE OHMS PER FOOT L- 152 18 0.00777 1- 0.158 16 0.00489 VD- 0.2349 14 0.00307 VOLTAGE AT LAST DEVICE 20.1651 12 0.00193 X OF VOLTAGE DROP 1.15% 10 0.00121 ACCEPTABLE V - DROP YES VALUES TAKEN FROM 2002 NEC CHAPTER 9 TABLE 8 NAC It WIRE SIZE 16 `Op 2 -18 1575CD R- 0.00489 FORMULA FOR CALCULATION OF VOLTAGE L- 187 DROP IN DC 2 WIRE CIRCUITS 1- 0,158 .090A w' 0.2581 VD -R x 2 L x l VOLTAGE AT LAST DEVICE 20.14 REQUIRED STANDBY 24 X X VOLTAGE DROP 1YES WHERE VD - VOLTAGE DROP AT THE LAST DEVICE ON THE CIRCUIT 'R' - RESISTANCE OF WIRE IN OHMS PER C ACCEPTABLE V - DROP YES FOOT ( VALUES OF RESISTANCE FOR COPPER WIRE NAC ISIS WIRE SIZE 16 PER TABLE ABOVE) 'P - TOTAL CIRCUIT CURRENT IN AMPERES 0.00489 ' L' - LENGTH ONE WAY OF THE CIRCUIT IN FEET ' L' - LENGTH ONE WAY OF THE CIRCUIT IN FEET 257 125 STARTING VOLTAGE USED IN CALCULATIONS IS 20.4 0.997 0.975 PER U.L. do NFPA REQUIREMENTS 2.5059 STARTING VOLTAGE USED IN CALCULATIONS IS 20.4 ( INFORMATION PROVIDED BY CUSTOMER) 17.89408 PER U.L & NFPA REQUIREMENTS `S' 2-20 75CD `�'E 2 -47 1575CD LNE 2 -21 1575CD `6i 2 -22 1575CO `6i 2 -23 1575CD Z'NE 2 -24 1575CD WE 2 -25 75CD `6E 2 -26 75CD `6i 2 -27 1575CD `V'E 2 -28 75CD `6'E LqE 2 -29 2 -30 75CD 1575C0 NAC-2 ECL 4.7K O 1.368 AMP W/ 2.5 AMP MAX V DROP O 17.47 - LENGHT CIRCUIT 219' .158A .077A .090A .077A .077A .090A .158A .158A .077A .158A .158A .090A HORN ST, 15175CO `cam 2 -10 75CD kc>'E 2 -11 75CD L=L�IE 2 -12 1575CO �° E 2 -13 1575CD `3'E 2 -14 1575CD Z<E 2 -15 75CD M<E 2 -16 1575CO 'o` E 2 -17 1575CD `Op 2 -18 1575CD `<: 2 -19 75CD N8PS #21 ECL 4.7K O 1.151 AMP W/ 2.5 AMP MAX V DROP O 18.4301 - LENGHT CIRCUIT 175' .158A .158A .090A .077A .077A .176A .090A .090A .077A .158A ALARM: 5 MIN. X 1/60 = .0833 HOURS VOLTTAAGE AT LAST DEVICE 2B NEW BOOSTER POWER SUPPLY NOTIFIER FCPS -24S8 W/ 4 NAC'S 0 3 AMP EACH/ 8 AMP MAX. SE 4E 11N 3E 10 2E FAC.P. 1E EXISTING BOOSTER POWER SUPPLY CT 81 O NOTinER FCPS -24S8 WITH 8 AMP MAX. 7E B EXISTING FLOW BELL WHEELOCK 24VOLT .040A Through - penetration Firestop Systems System No. W -L -1325 December 03, 2003 F Ratings - 1 and 2 Hr (See Item 1) T Rating - 0 Hr BATTERY CALCULATION BPS #3E BPS CALCULATIONS BPS #3E STANDBY QTY. TOTAL ALARM CURRENT CURRENT 065 1 .065 .145 QTY. TOTAL 1 .145 Z AT 75 DEGREES -C NAC JI WIRE SIZE 16 R- 00169 SIZE OHMS PER FOOT L= 125 HORN ST. 110CD HORN ST. 11 HORN ST. 75M 16 0.00489 .212 HORN ST. 75CD 178 3 HORN ST, 15175CO 12 0.00193 158 9 7 MODE lI000 077 9 202 1 .20 STROBE 75CD STANDBY :24HRS 158 5 STROBE 15/75CD TOTAL STANDBY .065 077 8 REQUIRED HARM CA'. .28 = TOTAL OPTIONAL REQUIRED REQUIRED SAFETY BATTERY CAP. FACTOR CAP. 1.84 X 1.2 - 2.208 BATTERY SIZE: 7.0 AMP HRS F TOTAL STANBY = .065 TOTAL ALARM - 3.123 STANDBY:24HRS 3.1321 ALARM: 5 MIN. X 1/60 = .0833 HOURS VOLTTAAGE AT LAST DEVICE REQUIRED STANDBY 24 X TOTAL STANDBY .065 REQUIRED REQUIRED STANDBY AMP/HRS ALARM TIME 1.56 .0833 X TOTAL REQUIRED ALARM ALARM CAP. 3.123 - .2601 REQUIRED STANDBY AMP/HRS. 1.56 + REQUIRED ALARM CAP. .2601 TOTAL OPTIONAL REQUIRED REQUIRED SAFETY BATTERY CAP. FACTOR CAP. - 1.8201 X 1.2 - 2.184 BATTERY SIZE: 7.0 AMP HRS BATTERY CALCULATION BPS #4E BPS CALCULATIONS BPS #3E STANDBY QTY. TOTAL. ALARM QTY. TOTAL CURRENT CURRENT .065 1 .065 .145 1 .145 DC RESISTANCE FOR SOLID COPPER WIRES Z AT 75 DEGREES -C NAC JI WIRE SIZE 16 R- 00169 SIZE OHMS PER FOOT L= 125 HORN ST. 110CD .21 HORN ST. 75M 16 0.00489 .176 1 .176 HORN ST. 1575Cn 14 0.00307 .090 8 STROBE 75 12 0.00193 158 9 -STROBE 15/75 10 0.00121 077 9 YES VALUES TAKEN FROM 2002 NEC CHAPTER 9 TABLE 8Z TOTAL STANDBY - .065 TOTAL ALARM - 3.368 STANDBY :24HRS ALARM: 5 MIN. X 1/60 - .0833 HOURS REQUIRED STANDBY 24 X TOTAL STANDBY .065 REQUIRED REQUIRED TOTAL REQUIRED STANDBY AMP /HRS HARM TIME HARM HARM CAP. = 1.56 .0833 X 3.368 - .28 REQUIRED STANDBY AMP /HRS. 1.56 + I REQUIRED HARM CA'. .28 = TOTAL OPTIONAL REQUIRED REQUIRED SAFETY BATTERY CAP. FACTOR CAP. 1.84 X 1.2 - 2.208 BATTERY SIZE: 7.0 AMP HRS F SECTION A -A 1. Wall Assembly - The 1 or 2 hr fin 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 construcUan 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. Stec channel studs to be min 3 -1/2 In. wide and spaced max 24 in. OC. B. Gypsum Board* - One or two layers of nom 5/8 in. thick gypsum board as specified in the kdMduol Wall and Partition Design. Max diem of opening ls 14 -1/2 In. The hourly F Rating of the firestop system is equal to the hourly fin rating of the wall assembly. 2. Metallic Sleety - (Optional) - Cylindrical sleeve fabricated from min No. 26 gouge gall sheet steel and having a min 1 in. overlap along the "itudnd Beam. Ends of sleeve to be flush with or extend o 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. diem (or smaller) Schedule 10 (or heavier) steel pipe. M annular space of 0 in. (point contact) to 1 -3/4 in. Is required within the firestop system. 8. Iron Pipe - Nom 12 in. diam (or ematler) Schedule 10 (or heavier) cost iron pipe. M annular pace of 0 M. (point contact) to 1 -3/4 in. to required within the firestop system. C. Copper Tubing - Nan 4 in dim (or smaller) Type L (or heavier) copper tuba M annular space of 0 In. (point contact) to 1 -7/8 in. is required within the firestop system. D. Copper Pipe - Nom 4 in. diem (or smaller) Regular (or heavier) copper pipe. M annular pace of 0 in. (point contact) to 1 -7/8 in. is required within the firestop system. E. Conduit - Horn 6 in. (or smaller) steel conduit or or nom 4 in. diem (or smaller) steel electrical metallic conduit. M annular space of 0 in. (point contact) to 1 -7/8 in. is required within the flrestop system. 4. Firestop System - The firestop system shall consist of the following: A Pecking 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 tM required thickness of lip material. B. F11 Void or Cavity Moteriale - Caulk - Min 1/2 in. thickness of fill material applied within the annulus on both surfaces of the wail assembly. When steel sleeve is not used or when steel derive is flush with the wall surfaces, a min 1/2 in. diem bead of caulk shop be applied to the penetrant /gypsum board interface of the point contact location on both sides of wall. When steel sleeve is used, a bead of caulk is applied to the steel derive/gypsum board interface on both eldes of wall. RECTORSEAL - MC 150+ Coulk, Metaeoulk 1000 *Bearing the UL Classification Mark FIRE ALARM SFIALL D - a\ n r�� ! STATION SEPV"CC. A CERTIFICATE • �k �T: i OR PLACARD SFIALL EE POSTED AT F W -DADS CJLlN s r . r.. .I FiNAL INSk EC o TION, AS PER NFPA 72 L ?-"`C <TC, M Tn TAE DATE.v ME ALARM 51' vvflri 94STALLEU iI` E1C ►,O��ANi,L: NFPA 72; 70;101 N.A.C. VOLTAGE DROP CALCULATIONS BPS #3E e DC RESISTANCE FOR SOLID COPPER WIRES Z AT 75 DEGREES -C NAC JI WIRE SIZE 16 R- 00169 SIZE OHMS PER FOOT L= 125 18 0.00777 I= 0.879 16 0.00489 VD- 1.0746 14 0.00307 VOLTAGE AT LAST DEVICE 19.3254 12 0.00193 X OF VOLTAGE DROP 5.27% 10 0.00121 ACCEPTABLE V - DROP YES VALUES TAKEN FROM 2002 NEC CHAPTER 9 TABLE 8Z MIRE SIZE 16 R- 0. FORMULA FOR CALCULATION OF VOLTAGE L- 2729 DROP IN DC 2 WIRE CIRCUITS 1- 0.948 ^~ n VD- 3.1321 VO -R x 2 L x I VOLTTAAGE AT LAST DEVICE 17.8782 U�Q° X OF VOLTAGE DROP 12.36% WHERE VD - VOLTAGE DROP AT THE LAST DEVICE ON THE CIRCUIT ACCEPTABLE V - DROP 7R' OK - RESISTANCE IMS EM FOOT j VALUES OF REST ANCE FOR CDPPER WIRE NAC ISIS WIRE SIZE 16 PER TABLE ABOVE) 7' - TOTAL CIRCUIT CURRENT IN AMPERES R- 0.00489 ' L' - LENGTH ONE WAY OF THE CIRCUIT IN FEET L- 257 125 1= 0.997 0.975 VD- 2.5059 STARTING VOLTAGE USED IN CALCULATIONS IS 20.4 VOLTAGE AT LAST DEVICE 17.89408 PER U.L & NFPA REQUIREMENTS % OF VOLTAGE DROP 12.28% 5.84% ACCEPTABLE V - DROP OK ( INFORMATION PROVIDED BY CUSTOMER) N.A.C. VOLTAGE DROP CALCULATIONS BPS #4E e DC RESISTANCE FOR SOLID COPPER WIRES Z AT 75 DEGREES -C W /1 WIRE SiZE 16 R- 0.00489 SIZE OHMS PER FOOT L- 215 18 0.00777 1- 0.997 16 0.00489 VD- 2.0964 14 0.00307 VOLTAGE AT LAST DEVICE 18.3038 12 0.00193 % OF VOLTAGE DROP 10.28% 10 0.00121 ACCEPTABLE V - DROP YES VALUES TAKEN FROM 2002 NEC CHAPTER 9 TABLE 8 h$ WIRE SiZE 16 R- 0.00489 FORMULA FOR CALCULATION OF VOLTAGE L- 256 DROP IN DC 2 WIRE CIRCUITS 1- 1.251 ^~ n VD- 3.1321 VO -R x 2 L x I VOLTAGE AT LAST DEVICE 17.2679 U�Q° % OF VOLTAGE DROP 15.35% WHERE VD - VOLTAGE DROP AT THE LAST DEVICE ON THE CIRCUIT ACCEPTABLE V - DROP 'R' RESISTANCE OK - OF WIRE IN OHMS PER FOOT ( VALUES OF RESISTANCE FOR COPPER WIRE NAC 13 WIRE SIZE 16 PER TABLE ABOVE) 7 - TOTAL CIRCUIT CURRENT IN AMPERES R- 0.00489 ' L' - LENGTH ONE WAY OF THE CIRCUIT IN FEET L- 125 1- 0.975 VD- 1.1919 STARTING VOLTAGE USED IN CALCULATIONS IS 20.4 VOLTAGE AT LAST DEVICE 19.208063 PER UL & NFPA REQUIREMENTS % OF VOLTAGE DROP 5.84% ACCEPTABLE V - DROP OK ( INFORMATION PROVIDED BY CUSTOMER) Through - penetration Firestop Systems System No. C -AJ -1409 November 28, 2007 F Rating - 2 Hr T Ratings - 0, % and Hr (See Item 2) 3B 1 3A 2 tDi SECTION A -A 1. Floor or Wall Assembly - Min 4 -1/2 in. thick reinforced lightweight or normal weight (100 - 150 pcf) concrete. Floor may also be constructed of any min 6 in. thick hollow -core Precast Concrete Units. Wall may also be constructed of any UL Classified Concrete Blockse. Max diem of opening is 11 -1/4 in. In hollow -eon floors, max diem of opening is 7 in. See Concrete Socks (CAZT) or Precast Concrete Units (CFTV) categories in the Fro Resistance Directory for names of manufacturers. 2. Through Penetrant - One metallic pips, tubing or conduit installed concentrically or eccentrically within the firestop system. M annular space of min 0 in. (point contact) to a max 2 -3/4 in. is required between the penetrant and the periphery of the opening. Pipe, tubing or conduit to be rigidly supported on each side of the fear assembly. The following types and sites of metallic pipes, tubing or conduit may be used: A Steel Pipe - Nom 8 in. diem (or smaller) Schedule 10 (or heavier) steel pipe. B. Copper Pipe - Nom 4 in. diem (or snarler) Regular (or heavier) copper pips. C. Copper Tubing - Nom 4 in. diem (or smaller) Type L (or heavier) copper tubing. D. Conduit - Nom 6 in. diem (or smaller) steel conduit or ram 4 in. d'iam (or smaller) steel electrical metallic tubing. T Rating is % hr when annular space is 1 -7/8 in. or less and min )4 in. thickness of sealant and min 4 in. thkianess of mineral wool Is used. T Rating is 9 hr when annular space is 1 -7/8 1% or less, and min 1E in. thickness of sealant and min 2 in. thickness of mineral wool is used. The T Rating is 0 hr for annular spaces greater than 1 -7/8 in. 3. Firestop System - The firestop system sholi consist of the fopowtng: A Pak*tng Material - Nom 2 In. or 4 in. thickness of min 4 pcf mineral wool belt insulation firmly packed Into opening as a permanent form. (See Rem 2 above) Packing material to be recessed from top surface of floor or from both surfaces of wall or from both surfaces of hollow -core floor as required to accommodate the required thickness of fill material. B. Fill, Void or Cavity Material* - Caulk - Min N in. or )4 in. thickness of fill material applied within the annulus, flush with top surface of floor or with both surfaces of hollow -con floor. (See Rem 2 above) RECTORSEAL - MC 150+ *Bearing the UL Clossification Mark z / e O Z � O � _ N 1 w \ / `' J Ln V) Ln ce N _j a�� LL. M Q ; � a L � Q O 7 N Q :2 ^~ n C"-4 Z O 7 Z U�Q° O Q Z LU z Z O O (. z / e O O O Q V) 0 r)" ,W V) M Q z Z Q0,,J LL_. Q � 7 N Q :2 ^~ n C"-4 O 7 Z ._-6_. O Q Z O LL. 7 Q W J ry DATE : 03/12/12 DRAWN BY: 1 /U Qn C.N. SCALE: 1/8" CHI ALARMS, INC. � U SHEET 3 OF 3 e i b 4 r 4 ., 1 • 9 t s M � . s ,w rte' Cam^ t a • M 9 �i