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P <br />0 <br />w <br />M <br />L <br />K <br />J <br />;v <br />G <br />F <br />E <br />u <br />r.� <br />B <br />1 <br />'BACKUP' o <br />TELCO <br />MONITORING <br />CONNECTIO <br />TO 120V, N <br />PROVIDE SURGE <br />PROTECTION <br />TO PANEL BATTERIES <br />FIRE COMkVMcorrFx <br />oAAI� <br />o>� <br />ou <br />® o000 <br />co ®n®co <br />co ®n®® <br />t� ® O &=_I CI <br />(ED <br />REMOTE ANNUNCIATOR <br />FIRE ALARM RISER DIAGRAM <br />'PRIMARY. NETWORK <br />MONITORING CONNECTION <br />REQUIRED) <br />WIKXM . pus xw <br />30 CELL RAW <br />BACKUP OF USM) <br />MODEM ROUTER SWITCH <br />PRIMARY FIRE JFWROM <br />BACKUP - LINE ALARM SYSTEM <br />SEIZE FROM MONITORING PER <br />RJ21X PHONE SYSTEM NFPA 72 <br />PUNCH AND BURG FIRE <br />DOWN ALARM ALARMRJ31X " PHONE <br />...ADDITIONAL LINES TO PHONE SYSTEM... <br />RJ 1X PHONE BLOCKS WHEN PROPERLY WIRED TO ALARM PANELS DISCONNECT THE UPSTREAM <br />DEVICES FROM THE CIRCUIT AND ALLOW THE ALARM PANEL TO "SEIZE", ISSUE A CALLED PARTY <br />DISCONNECT SIGNAL TO ASSURE DIAL TONE AND THEN COMPLETE THEIR CALL WITHOUT <br />INTERRUPTION FROM THE UPSTREAM DEVICES. <br />PHONE <br />SYSTEM <br />A BEALLS BURKES PHONE LINE CONNECTION DIAGRAM <br />FA 10 3 NOT TO SCALE <br />r <br />• • <br />= � 1= =11= =1 1= =1 I• • - <br />�. <br />2.2K <br />EOLR <br />110cd 110cd 110cd 110cd <br />J. <br />0lb <br />0 0 WPO,k 02.2K <br />EOLR <br />110cd 110cd 110cd 75cd 110ed <br />MISC. DMP XR150 f XR550 PROGRAMMING NOTES: <br />1. BELL OPTIONS - FIRE = STEADY <br />2. OUTPUT OPTIONS - FIRE ALARM OUTPUT = 3 <br />MISC, AX-AL602UADA INSTALL NOTES: <br />1. INSURE THAT FACTORY INSTALLED JUMPER IS INSTALLED AT DRY1 AND DRY2 CONTACTS ON <br />INPUT HEADER <br />2. NO WIRING (EXCEPT FACTORY JUMPER AT DRY 2) SHOULD ,BE CONNECTED TO RET1 OR RET2 <br />TERMINALS ON BOTTOM TERMINAL BLOCK <br />3. SET SYNC MODE DIPSWITCHES TO 1, 2, & 4 "ON", 3 "OFF" (SYSTEM SENSOR SYNC MODE) <br />NOTE: IT IS REQUIRED TO CONTROL VISUAL NOTIFICATION APPLIANCES (STROBES) VIA INPUT 1 <br />(IN1) AND AUDIBLE NOTIFICATION APPLIANCES (HORNS) VIA INPUT 2 (IN2). THIS ALLOWS AUDIBLE <br />NOTIFI%RATION APPLIANCES TO BE SILENCED WHILE VISUAL NOTIFICATION APPLIANCES CONTINUE TO <br />OPERATE. <br />DMP XR150DNFC-R INSTALLATION TROUBLESHOOTING: <br />A. INDICATING APPLIANCES DO NOT ACTIVATE WHEN A FI TYPE ZONE IS PLACED IN ALARM <br />1. CHECK THAT BELL OUTPUT HAS AN ACTION OF STEADY OR PULSE. (DEFAULT IS PULSE) <br />2. CHECK FOR 12VDC OUTPUT ON TERMINALS 5 AND 6 OF THE PANEL. <br />3. CHECK FOR 12VDC ON TERMINALS 3 AND 2 OF THE 866. <br />4. CHECK FOR 12VDC OUTPUT ON TERMINALS 5 AND 6 OF THE 866. <br />B. 12VDC OUTPUT ON TERMINALS 5 AND 6 OF THE PANEL <br />1. CHECK FOR 12VDC ON TERMINALS 1 AND 2 OF THE 866. <br />2. CHECK FOR 12VDC ON TERMINALS 4 AND 2 OF THE 866. <br />C. INDICATING APPLIANCES HAS A DELAY BEFORE ACTIVATION <br />1. CHECK TERMINALS 7 AND 8 OF THE 866 FOR A CLOSED CIRCUIT. <br />2. IF CIRCUIT IS OPEN, CHECK 10K RESISTOR IS INSTALLED FOR TERMINALS 5 AND 6 OF <br />THE 866. ENSURE 866 SILENCE SWITCH IS SET TO NORMAL. <br />3. WHEN METERING TERMINAL 5 AND 6 OF THE 866, A NEGATIVE VOLTAGE IS OBSERVED <br />UNTIL VOLTAGE IS APPLIED TO TERMINAL 3 IN WHICH THE SENSING VOLTAGE REVERSES <br />AND YOU HAVE OUTPUT, PROVIDED A POSITIVE VOLTAGE IS APPLIED TO TERMINAL 4 OF <br />THE 866. <br />2 3 4 5 6 7 8 <br />XR550/XR150 Series Control Panel <br />Relay Outputs 1-2 (ON) <br />Switching Grounds 3-6 (ON) <br />Active Zones 1-8 <br />Active Zones 9-10 <br />2-Wire Smokes <br />Panel Bell Output <br />893A Dual Phone Line Module <br />865 Style Y or Z Notification Module <br />866 Style W Notification Module <br />867 LX-Bus Style W Notification Module <br />869 Class A Style D Module <br />630F Remote Fire Command Center <br />710 Bus SpLitter/ Repeater <br />71OF Fire Bus SpLitter/ Repeater <br />711 Zone Expander <br />Active Zones (EOL installed) <br />716 Output Expander <br />Active Form C Relays <br />717 Graphic Annunciator <br />Annunciator Outputs <br />860 Relay Module <br />(Active Relays) <br />521 LX, 521 LXT Smoke Detectors <br />Required Minimum Alarm Time in minutes <br />13 <br />VOLTAGE DROP CALCULATIONS <br />Project Name <br />Bealls Outlet #542 - Zephyrhills, FI CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS <br />Date <br />09/26/17 <br />Circuit Number <br />NAC#1 <br />Totals <br />Current Distance <br />0.000 196 ft. <br />Voltage <br />Drop <br />0.44 <br />Totals <br />Voltage <br />Drop <br />0.870 <br />Totals <br />Voltage <br />Drop <br />0.435 <br />Specific Area <br />Receiving, Manager, Hall, Restroom, and Lounge <br />Current <br />0.723 <br />Distance <br />196 <br />Current <br />0.723 <br />Distance <br />196 <br />Nominal System Voltage (Vdc) 20.4 <br />Minimum Device Voltage (Vdc) 14 <br />Maximum Allowable Load this NAC Circuit (Amps) 3.0 Wire Ohm's <br />Gauge Per 1000 <br />Distance from source to 1st device [77TS 14 3.07 <br />End of Line Voltage <br />19.96 <br />End of Line Voltagel <br />19.53 <br />End of Line Voltagel <br />19.96 <br />Percent Dropl <br />2.14% <br />Percent Dropl <br />4.27% <br />Percent Dropl <br />2.13% <br />use only the wire guage for the first device to source <br />stance in Ohms per 1000 feet. <br />18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 <br />18-14 Awg = Solid Conductors 12-10 Awg = Stranded Conductors <br />Wire Gauge for balance of circuit <br />14 3.07 <br />Enter current in amps. <br />.150 = 150 ma <br />Distance <br />from <br />previous <br />device <br />Voltage <br />At Drop from Percent <br />Device source Drop <br />Notes: <br />Wire resistance is doubled in the calculations for two wires (Positive and Negative) <br />The voltage calculated to the last device in any method must not be lower then <br />the manufactures listed minimum operating wltage (IE: rated operating voltage 20-32 VDC). <br />DEVICE LIST FOR THIS CIRCUIT Device <br />Current <br />System Sensor 95cd - Ceiling Horn/Strobe 0.194 <br />System Sensor 75cd -Ceiling Strobe 0.066 <br />System Sensor 75cd - Ceiling Strobe 0.158 <br />System Sensor 15cd - Ceiling Horn/Strobe 0.079 <br />System Sensor 75cd - Ceiling Strobe 0.066 <br />System Sensor 15cd - Ceiling Strobe 0.066 <br />System Sensor 30cd - Ceiling Strobe 0.094 <br />TOTAL LOAD OF ALL DEVICES 0.5 Amp <br />15 <br />20.33 <br />0.067 <br />0.33% <br />56 <br />20.15 <br />0.248 <br />1.22% <br />24 <br />20.08 <br />0.317 <br />1.55% <br />24 <br />20.04 <br />0.362 <br />1.77% <br />24 <br />20.01 <br />0.395 <br />1.94% <br />25 <br />19.98 <br />0.420 <br />2.06% <br />281 <br />19.96 1 <br />0.436 <br />2.14% <br />196 ft. <br />End of Line <br />Voltag4 19.96 Vdc <br />Point to Point Method <br />End of Line Method <br />Load Centering Method <br />Project Name <br />Bealls Outlet #542 - Zephyrhills, FI <br />CIRCUIT IS WITHIN LIMITS <br />CIRCUIT IS WITHIN LIMITS <br />CIRCUIT IS WITHIN LIMITS <br />Date <br />09/26/17 <br />Circuit Number <br />NAC#2 <br />Totals <br />Current Distance <br />0.000 273 ft. <br />Voltage <br />Drop <br />0.92 <br />Totals <br />Voltage <br />Drop <br />1.388 <br />Totals <br />Voltage <br />Drop <br />0.694 <br />Specific Area <br />Sales Area <br />Current <br />0.828 <br />Distance <br />273 <br />Current <br />0.828 <br />Distance <br />273 <br />Nominal System Voltage (Vdc) 20.4 <br />Minimum Device Voltage (Vdc) 14 <br />Maximum Allowable Load this NAC Circuit (Amps) 3.0 Wire Ohm's <br />Gauge Per 1000 <br />Distance from source to list device 89 14 3.07 <br />End of Line Voltage <br />19.48 <br />End of Line Voltage <br />19.01 <br />End of Line Voltage <br />19.71 <br />Percent Drop <br />4.49% <br />Percent Drop <br />6.80% <br />Percent Drop <br />3.40% <br />End of Line and Load Centering Methods use only the wire guage for the first device to source <br />Standard Wire Resistance in Ohms per 1000 feet. <br />18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 <br />18-14 Awg = Solid Conductors 12-10 Awg = Stranded Conductors <br />Wire Gauge for balance of circuit 14 3.07 <br />Enter current in amps. Distance <br />.150 = 150 ma from Voltage <br />DEVICE LIST FOR THIS CIRCUIT Device previous At Drop from Percent <br />Current device Device source Drop <br />System Sensor 11Ocd - Ceiling Horn/Strobe 0.212 89 19.95 0.452 2.22% <br />System Sensor 110cd - Ceiling Strobe 0.202 62 19.71 0.687 3.37% <br />System Sensor 110cd - Ceiling Horn/Strobe 0.212 60 19.56 0.839 4.12% <br />System Sensor 110cd - Ceiling Strobe 0.202 62 19.48 0.916 4.49% <br />TOTAL LOAD OF ALL DEVICES 0.83 Amp 273 ft. End of Line Voltage 19.48 Vdc <br />Notes: <br />Wire resistance is doubled in the calculations for two wires (Positive and Negative) <br />The voltage calculated to the last device in any method must not be lower then <br />the manufactures listed minimum operating wltage (IE: rated operating voltage 20-32 VDC). <br />Project Name <br />Bealls Outlet #542 - Zephyrhills, FI <br />CIRCUIT IS WITHIN LIMITS <br />CIRCUIT IS WITHIN LIMITS <br />CIRCUIT IS WITHIN LIMITS <br />Date <br />09/26/17 <br />Circuit Number <br />NAC#3 <br />Totals <br />Current Distance <br />0.000 309 ft. <br />Voltage <br />Drop <br />1.11 <br />Totals <br />Voltage <br />Drop <br />1.571 <br />Totals <br />Voltage <br />Drop <br />0.785 <br />Specific Area <br />Sales Area <br />Current <br />0.828 <br />Distance <br />309 <br />Current <br />0.828 <br />Distance <br />309 <br />Nominal System Voltage (Vdc) 20.4 <br />Minimum Device Voltage (Vdc) 14 <br />Maximum Allowable Load this NAC Circuit (Amps) 3.0 Wire Ohm's <br />Gauge Per 1000 <br />Distance from source to 1st device 125 14 3.07 <br />End of Line Voltage <br />19.29 <br />End of Line Voltage <br />18.83 <br />End of Line Voltage <br />19.61 <br />Percent Dropl <br />5.43% <br />Percent Dropl <br />7.70%1 <br />Percent Dropl <br />3.85% <br />End of Line and Load Centering Methods use only the wire guage for the first device to source <br />Standard Wire Resistance in Ohms per 1000 feet. <br />18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 <br />18-14 Awg = Solid Conductors 12-10 Awg = Stranded Conductors <br />Wire Gauge for balance of circuit <br />L14 3.07 <br />Enter current in amps. <br />.150 = 150 ma <br />Distance <br />from <br />Voltage Notes: <br />At Drop from Percent <br />Device source Drop The <br />Wire resistance is doubled in the calculations for two wires (Positive and Negative) <br />voltage calculated to the last deuce in any method must not be lower then <br />manufactures listed minimum operating wltage (IE: rated operating voltage 20-32 VDC). <br />DEVICE LIST FOR THIS CIRCUIT Device previous <br />Current device <br />System Sensor 110cd - Ceiling Strobe 0.202 125 <br />System Sensor 11 Ocd - Ceiling Horn/Strobe 0.212 62 <br />System Sensor 11 Ocd - Ceiling Strobe 0.202 60 <br />System Sensor 110cd - Ceiling Horn/Strobe 0.212 62 <br />TOTAL LOAD OF ALL DEVICES 0.83 Amp 309 ft. <br />19.76 <br />0.635 <br />3.12% the <br />19.53 <br />0.874 <br />4.28% <br />19.37 <br />1.026 <br />5.03% <br />19.29 <br />1.107 <br />5A3% <br />End of Line <br />Voltagl 19.29 Vdc <br />Project Name <br />Bealls Outlet #542 - Zephyrhills, Fill <br />CIRCUIT IS WITHIN LIMITS <br />CIRCUIT IS WITHIN LIMITS <br />CIRCUIT IS WITHIN LIMITS <br />Date <br />09/26/17 <br />Circuit Number <br />NAC#4 <br />Totals <br />Current Distance <br />0.000 401 ft. <br />Voltage <br />Drop <br />1.1 <br />Totals <br />Voltage <br />Drop <br />2.472 <br />Totals <br />Voltage <br />Drop <br />1.236 <br />Specific Area <br />Sales Area <br />Current <br />1.004 <br />Distance <br />401 <br />Current <br />1.004 1 <br />Distance <br />401 <br />Nominal System Voltage (Vdc) 20.4 <br />Minimum Device Voltage (Vdc) 14 <br />Maximum Allowable Load this NAC Circuit (Amps) 3.0 Wire Ohm's <br />Gauge Per 1000 <br />Distance from source to 1st device 171 1 14 3.07 <br />Wire Gauge for balance of circuit 1 14 3.07 <br />Enter current in amps. Distance <br />.150 = 150 ma from Voltage Notes: <br />DEVICE LIST FORTH IS CIRCUIT Device previous At Drop from Percent Wire <br />Current device Device source Drop The <br />System Sensor 110cd - Ceiling Horn/Strobe 0.212 171 19.35 1.054 5.17% the <br />System Sensor 11 Ocd - Ceiling Strobe 0.202 62 19.04 1.356 6.65% <br />System Sensor 110cd - Ceiling Horn/Strobe 0.212 60 18.83 1.573 7.71% <br />System Sensor 75cd - Wall Horn/Strobe 0.176 47 18.72 1.682 8.25% <br />System Sensor 11 Ocd - Ceiling Strobe 0.202 61 18.64 1.758 8.62% <br />TOTAL LOAD OF ALL DEVICES 1 Amp 401 ft. End of Line Voltage 18.64 Vdc <br />End of Line Voltage <br />18.641 <br />End of Line Voltage <br />17.93 <br />End of Line Voltage <br />19.16 <br />Percent DropI <br />8.62%1 <br />Percent Dropl <br />12.12% <br />Percent DropI <br />6.06% <br />End of Line and Load Centering Methods use only the wire guage for the first device to source <br />Standard Wire Resistance in Ohms per 1000 feet. <br />18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 <br />18-14 Awg = Solid Conductors 12-10 Awg = Stranded Conductors <br />resistance is doubled in the calcul-tiPRs for two wires (Positive and Negative) <br />voltage calculated to the last devic_ any method must not be lower then <br />manufactures listed minimum operating voltage (IE: rated operating wltage 20-32 VDC). <br />BATTERY CALCULATIONS <br />(DMP FACP PANEL) (ALTRONICS POWER <br />SUPPLY EXPANDER) <br />Qty <br />1 <br />X <br />180 <br />mA <br />180 <br />mA <br />Qty <br />1 <br />X <br />180 <br />mA <br />180 <br />mA <br />Qty <br />0 <br />X <br />30 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />30 <br />mA <br />0 <br />ITA <br />Qty <br />0 <br />X <br />5 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />5 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />1.6 <br />mA <br />0 <br />mA <br />Qty <br />2 <br />X <br />2 <br />mA <br />4 <br />mA* <br />Qty <br />2 <br />X <br />4 <br />mA <br />8 <br />mA <br />Qty <br />2 <br />X <br />30 <br />mA <br />60 <br />mA* <br />Qty <br />0 <br />X <br />0.1 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />0.1 <br />mA <br />0 <br />mA* <br />Amount of Bell Current drawn <br />1500mA Maximum <br />1500 <br />mA <br />mA <br />Qty <br />0 <br />X <br />35.5 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />35.5 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />26 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />85 <br />mA <br />0 <br />mA <br />Qty <br />1 <br />X <br />45 <br />mA <br />45 <br />mA <br />Qty <br />1 <br />X <br />76 <br />mA <br />76 <br />mA <br />Qty <br />0 <br />X <br />30 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />86 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />25 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />75 <br />mA <br />0 <br />mA <br />Qty <br />1 <br />X <br />63 <br />mA <br />63 <br />mA <br />Qty <br />1 <br />X <br />92 <br />mA <br />92 <br />mA <br />Qty <br />0 <br />X <br />30 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />30 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />40 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />40 <br />mA <br />0 <br />mA <br />Qty <br />12 <br />X <br />11 <br />mA <br />132 <br />mA <br />Qty <br />12 <br />X <br />11 <br />mA <br />132 <br />mA <br />Qty <br />12 <br />X <br />1.6 <br />mA <br />19.2 <br />mA <br />Qty <br />12 <br />X <br />2 <br />mA <br />24 <br />mA* <br />Qty <br />0 <br />X <br />7 <br />mA <br />0 <br />mA <br />Qty <br />1 <br />X <br />13 <br />mA <br />13 <br />mA <br />Qty <br />0 <br />X <br />12 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />10 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />10 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />1 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />34 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />34 <br />mA <br />0 <br />mA <br />Qty <br />0 <br />X <br />34 <br />mA <br />0 <br />mA <br />Qty <br />1 <br />X <br />8.8 <br />mA <br />8.8 <br />mA <br />Qty <br />1 <br />X <br />28 <br />mA <br />28 <br />mA* <br />Total St <br />andbyl 456 mA Total Alarm I 609 mA <br />5 Minutes <br />Number of standby hours needed <br />24 <br />Total number of standby mA hours <br />10944 <br />Total required alarm current <br />51 <br />Total number of mA hours <br />10995 <br />Contingency factor 1 20%1 <br />13194 <br />Minimum Battery Amp hours required <br />13 <br />hours <br />mA-Hour <br />mA-Hour <br />mA-Hour <br />mA-Hour <br />Amp -Hour <br />MINIMUM BATTERY <br />SIZE. PROVIDE NEXT <br />SIZE UP TO COVER <br />THIS MINIMUM. <br />9 ' 10 11 12 13 14 <br />DMP AX-AL602ULADA SERIES BATTERY CACLULATIONS Job #: 2017-1474 <br />Job Title: BEALLS OUTLET #542 ZEPHYRHILLS, FL <br />Number of <br />Device <br />Devices Current per Device <br />Standby Current Alarm Current <br />Standby: 90 mA <br />90 mA <br />AL602ULADA <br />1 <br />Alarm: 175 mA <br />175 mA <br />A <br />AL602 Current <br />90 mA <br />175 mA <br />Standby: 21 mA <br />105 mA <br />D4120 Duct Smoke Detector <br />5 <br />Alarm: 65 mA <br />325 mA <br />B Auxiliary Devices Current (must not exceed 1 amp) <br />105 mA <br />325 mA <br />NAC #1 <br />Alarm: 0.5 A <br />500 mA <br />NAC #2 <br />Alarm: 0.83 A <br />830 mA <br />NAC #3 <br />Alarm: 0.83 A <br />830 mA <br />NAC #4 <br />Alarm: 1 A <br />1000 mA <br />C Notifacation Appliances Current must not exceed 6.5 amp (6500mA) <br />3160 mA <br />D Total Standby Current <br />195 mA <br />E Total Alarm Current <br />3660 mA <br />F Total current ratings converted to Amperes <br />0.195 A <br />3.66 A <br />Required Minimum Alarm Time in Minutes: <br />5 Minutes <br />Standby Hours Needed <br />24 Hours <br />Total number of standby mA hours <br />4.68 Amp -Hour <br />Total required alarm current <br />0.31 Amp -Hour <br />Total number of mA Hours <br />4.99 Amp -Hour <br />Contingency Factor = 20% <br />1.00 Amp -Hour <br />Minimum Battery Amp Hours Required <br />6 Amp -Hour <br />15 <br />16 <br />MINIMUM BATTERY <br />SIZE. PROVIDE NEXT <br />SIZE UP TO COVER <br />THIS MINIMUM. <br />Ifl <br />18 <br />19 <br />20 <br />NATHANIEL J. HATCHER, P.E. <br />2108 W. RISK STREET <br />PLANT CITY, FLORIDA <br />TEL (813) 752-6900 <br />FAX: (813) 752 6911 <br />3ACE <br />10GEC <br />®®®NN ��®1 <br />i <br />® a No 593W <br />0 A � <br />OF®_ <br />�OzlSTATE <br />RtID <br />Nam`®� <br />NATHANIEL J. HATCHER, FL PE #59350 <br />Q <br />L. <br />M <br />L <br />K <br />J <br />G <br />REV. DESCRIPTION DATE <br />BID & PERMIT SET 'E <br />09.29.17 <br />CURRENT ISSUE STATUS: <br />I <br />PROJECT NORTH <br />0 <br />ARCHITECTS ENGINEERS <br />8130 Lake��°ood R�1ain Street Phone: 9� 1-556-0757 I <br />Suite 210 Fax: 941-556-0759 <br />Lakewood Ranch, FL 34202 wwW.wbrcae.com <br />Firm Lic. AA26001395 & 27389 Dauglas W_ Vhitney 1A <br />BEALLS OUTLET #542 <br />ZEPHYRHILLS <br />PROJECT: 6030 Gall Blvd, Zephyrhills, FL 33542 e <br />FIRE ALARM RISER <br />DIAGRAM & CALCULATIONS <br />SHEET TITLE: <br />WBRC CAD PILE: 11, Projects-Florida\3501-36=3542M5 Bealls Outlet Zephyrhills FL\2 Design\Dwgs\B1dg\3542M5 <br />BEALLS OUTLET ZEPHYRHILLS.,t <br />PROJECT No. 3542XX GRAPHIC SCALE: <br />1 C, <br />A <br />SCALE: XV - 1'-0" <br />PROJECT MANAGER: Approver SHEET No. <br />DRAWN BY: AJC FA 10 3 <br />,. <br />CHECKED BY: NJH <br />rz „ <br />19 20 <br />