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10025 PORTER STE 300_19-0131_18-2125__________
10025 PORTER #300 PORTER Ci t y of La Por t e 604 W Fai r rnont Pkwy La Port e, Tx 77571 (281) 470- 5073 I NSPECTI ON LI NE: (281) 470- 5130 " " BUI L DI NG PERM T" " ---------------------------------------------------------------------------- Appl i cat i on Number . . . . . 19- 000001 31 Dat a 2/ 11 / 19 Property Address . . . . . . 10025 PORTER RD #300 HCAD Nurrbar: 129-636-000-0003 Al t er net a Sear ch Mat hod: Appl i cat i on t ype description FIRE ALARM Subdi vi si on Name . . . . . . UNDERVCOD BUSINESS PARK Property Use . . . . . . . . Property Zoning . . . . . . . PLANNED UNIT DEVELOPMENT Appl i cat i on val uat i on . . . . 8000 ---------------------------------------------------------------------------- Type of Vlbrk OCCUPANT NOTI FI CATI CN ADD. ---------------------------------------------------------------------------- GRAN[ TA UNDERVVDOD DI ST CTR LP % BLACKROCK REALTY ADV INC 11757 KATY FVW STE 250 HOUSTON TX 77079 Cont r act or PRMM FIRE & ALARM LLC . 13727 FM 529 HOUSTON TX 77041 (713) 376-4612 St r uct ur e I of or rrat i on 000 000 X Const r uct i on Type . . . . . NOW COMBUSTI BILE I I Occupancy Type . . . . . . STORAGE Flood Zone . . . . . . . . ZONE X ------ --------------------------------------------------------------------- Per m t . ... . . . BLDG PERM T- FI RE ALARM Addi t i onal desc . . OCCUPANT NOTI FI CATI ON ADD Perm t pi n number . 586768 Per m t Fee . . . . 72.50 Plan Check Fee .00 I ssue Dat e . . . . 2/ 11/ 19 Val uat i on . . . . 8000 Ex pi rat i on Date . . 8/ 10/ 19 Cl y Uni t Charge Per Extension BASE FEE 20.00 7.00 7. 5000 THOU BLDG - 1, 001 - 5.0, 000 52.50 ---------------------------------------------------------------------------- Speci al Not es and Comrent s Febr uar y 1, 2019 10: 13: 30 AM I apokl k. FIRE ALARM NOTES 1. AS PER APPROVED PLANS AND NOTES FROM THE FMD. 2. CALL FOR I NSPECTI ON. 3. THI S PERM T I S FOR FI RE ALARM 4. CONTRACTOR/ CNWER IS RESPONSIBLE FOR REMOVAL OF ALL CONSTRUCTION DEBRIS. 5. A BUI LDI NG PERM ST (AND ALL I TS APPLICABLE SUB PERM TS) MAY BE BASED ON THE REMAINDER OF THE VCRK TO BE DONE. Ci t y of La For t e 604 W Fai r rront Pkwy La Porte, Tx 77571 ( 281) 470- 5073 I NSPECTI ON LI NE: (281) 470- 5130 "BUILDING PERM T" ---------------------------------------------------------------------------- Page 2 Appl i cat i on Number . . . . . 19- 00000131 Dat a 2/ 11 / 19 ---------------------------------------------------------------------------- Speci al Not es and Comrent s HO/EVER, IF THE WORK IS NOT CCNPLETED W THIN THE ALLOTTED TINE OF THE RENEWAL PERI OD, THE BUI LDI NG PERM T ( AND ALL APPLICABLE SUB PERM TS) MJST BE APPLIED FOR AS A NEW PERM T, AND ALL PERM T FEES W LL BE CALCULATED FROM THE ORI GI NAL PERM T VALUATION. ---------------------------------------------------------------------------- Fee summery Charged Paid Credited Due ---------- --------------------------- Per rri t Fee Tot at 72.50 -------------------- 72.50 .00 .00 Plan Check Total .00 .00 .00 .00 Grand Total 72.50 72.50 .00 .00 (SI RACTOR OR AUTHORI ZED AGENT) DA ( APPROVED BY BUILDING OFFI CI AL OR AUTHORIZED AGENT) DATE Cl t - a2 City of La Porte Planning & Development Department Phone:281.470.5073 604 W.Fairmont Pkwy. Fax:281.470.5005 La Porte,TX 77571 FIRE PERMIT APPLICATION www.laportetx.gov 1. PROJECT INFORMATION: /pr-� G/ DATEOFSUBMITT L: PROJECT ADDRESS IIf existing): IDt) C lor4fr LA/'G//Z I HCAD PARCEL NO(s)13-dIgit Tax ID(s): 1.) X07 9- 3 Q ' U __-ô003 2.) 3.) PROPERTY LEGAL DESCRIPTION: -/ (JL41CC.¢/L-W Cry Ll Ki-to-4-J FIRE ALARM [3 FIRE SUPPRESSION 0 VENT HOOD FIRE SUPPRESSION OUNDERGR0UND FIRE LINE Q ABOVE-GROUND FIRE SUPPRESSIOf/y1 L❑FIRE S,P�R/pU,1./K1LER DESCRIBE WORK: ll/ /1'i NGr!/Cu1 t 0"' W/U t7/ j �r BUILDING USE: GJpreLc St NO.OF STORIES:TOTAL SQ.FOOTAGE: PROJECT VALUATION:$ v/606 2. PROPERTY OWNER CONTACT INFORM r TION: OWNER'S NAME: am Gr ✓f TCt eITNe - liul( k1 (,, PHONE: �7 tL 1 /) LI v X7.7/ MAILING ADDRE55: 1175 / k4L 1t •rr S" 6t+'f5An T/' 7C?' E-MAIL: 3. CONTRACTOR: ]/j� �,I f l /Jf ®'HOMEOWNER IS CONTRACTOR CONTRACTOR COMPPANY:7PRYhh'i I•ICO / IIGrr's•I PHONE 1: 7 /3-3 7(-g /2 PHONE 2: E-MAIL: FAX#: MAILING ADDRESS: J 7 ` fG 5 / 77C 'j 'j / c// f CONTACT PERSON'S NAME: PHONE: 71 1 -l7C ' 7L 1 4. APPLICATION CHECKLIST&SUPPORTING DOCUMENTATION (Check applicable boxes): . Homeowner is Contractor, ® COMPLETE ITEMS 1-4 OF PERMIT APPLICATION ® SUBMIT TWO(2)COMPLETE SETS(HARDCOPIES)OF CONSTRUCTION PLANS FOR REVIEW rHommTolt -NOTES TO APPLICAPT: AN 1' 12�� �1. CONTRACTOR MUST BE REGISTERED WITH THE CITY2. TO REGISTER WITH CITY,SUBMIT CURRENT CERTIFICATE OF INSURANCE WITH CITY NAME&ADDRESS AS C _ 3. NOT A VAUD PERMIT.0 OWNS f ONTRACT'yORRRIIIS NOTIFIED OF APPROVAL AND ALL APPLICABLE FEES APPLICANT PRINTED NAME: �d �•,� / '#5'C APPLICANT SIGNATURE: (STAFF USE ONLY): Occupancy Type:Scc• Coonst.Type: Flood Zone:_____ Use Zone(Zoning District):c�0 CE: Taxes: Qk FEES: PERMIT FEE:$ `d'}0 PLAN CHECK FEE:$ 710 •a-c' Special Conditions: ® Must complete all work and pass City Inspection within 10 days of permit issuance to avoid further Code Enforcement Action PERMITAPPROVAL: Fire Marshal(Commercial Only Approved for Issuance by: PERMIT NO. ( '" 13 PERMIT#: ( q - � J COMMERCIAL PLAN REVIEW COVER SHEET (INTERNAL USE) ADDRESS: t2.1.x� OWNER'S NAME: PROJECT TYPE: NEW: ADDN: HCAD#: FLOOD ZONE: USE ZONE: Y/N SUB /DATE RETURNED USB/CD ZONING PERMIT CERT. SITE PLAN APPROVAL ASBESTOS SURVEY RECEIVED TAS (ADA) PROOF OF SUBMITTAL FILL DIRT APPL/PERMIT CLEARING PERMIT NEEDED? FLOOD PERMIT NEEDED?: W/S FEES APPLICABLE?: TAP FEES APPLICABLE 100% MASONRY/GLASS STORM WATER QUALITY PERMIT TAXES UP TO DATE?: DATE OF REVIEW: ITEMS NEEDED FOR ISSUANCE OF PERMIT: a -a k5 -'F=tvLo �t,� (Applicable on Demo, Addn, or Remodel) (Applicable to Comm. Or Ind.) (If yes, figure fees. If no, use w/s form to explain why they are not.) INSPECTOR: OWNER OR CONTRACTOR NOTIFICATION DATE TIME NAME OF PERSON CONTACTED SACPSh=\fNSPECr10N DMSIOMInspediom\COML PLAN REVIEW COVER SIEETAx Rev. August 15, 2018 LA ORTE MARSHAL rFf'SLA PORTE �`t♦ FIRE MARSHAL'S OFFICE "PLAN REVIEW99 Date 01/29/2019 Business Name _ Loctek TI Address 10025 Porter Road, Suite 300 Type of Review Fire Alarm Contractor PRMM Reviewed by Clif Meekins, Fire Marshal City Permit # 19-131 Approval I YES The Applicant shall be responsible to ensure the design specifications and plans are complete and in compliance won me requlremenrs inu tarn in in. avie International Fire Code (IFC) and Local Amendments as well as the applicable referenced Standards listed in Chapter 45 of the 2015 IFC. This plan review Is not intended to be fully Inclusive as other requirements my be Imposed as warranted by the Fire Marshal or as deemed necessary during on.site inspections by the Fire Marahai's Office. "THIS PLAN REVIEW MUST BE ON THE JOBSITE WITH THE APPROVED SET OF PLANS" Additional requirements of the 2015 International Fire Code (IFC) may apply per tenant occupancy and use 1) A State of Texas licensed Fire Alarm Installer that works for (Primm) must be onsite for ALL Fire Marshal's inspection and shall be onsite during all phases of installation. 2) Ensure the system is designed and installed so silencing the Audible devices WILL NOT cancel the Visuals devices through -out the facility. The strobes shall remain active when the system has been silenced and will remain active until the system has been reset. 3) NFPA 72-13, 26.3.6.6 - Two independent means shall be provided to retransmit an alarm signal to the designated communications center. One means shall be a dedicated phone line and the second can be a shared voice line. Phone lines that share data, such as a fax, will not meet this requirement. Cellular phone/signals are permitted. 4) The Fire Marshal's Office must witness a function test of the Fire Alarm system. Contact the Fire Marshal's Office 24hrs in advance to schedule a Fire Alarm system test. 5) Approved (Stamped) copy of the %ig"Afta plans shall be on the job site and available to the Fire Marshal Inspector at any time durin t *on. 125 South 3rdStreet, La Porte, TX 77571 * Office: 281-867-4603 * Fax: 281-867-4629 FIRE ALARM PERMIT NOTES 1. AS PER APPROVED PLANS AND NOTES FROM THE FMO 2. CALL FOR INSPECTION. 3. THIS PERMIT IS FOR FIRE ALARM 4. CONTRACTOR/OWNER RESPONSIBLE FOR REMOVAL OF ALL CONSTRUCTION DEBRIS. 5. A BUILDING PERMIT (AND ALL ITS APPLICABLE SUB PERMITS) MAY BE BASED ON THE REMAINDER OF THE WORK TO BE DONE. HOWEVER, IF THE WORK IS NOT COMPLETED WITHIN THE ALLOTTED TIME OF THE RENEWAL PERIOD, THE BUILDING PERMIT (AND ALL APPLICABLE SUB PERMITS) MUST BE APPLIED FOR AS A NEW PERMIT, AND ALL PERMIT FEES WILL BE CALCULATED FROM THE ORIGINAL PERMIT VALUATION. CITY '4�J®�"py City of La Porte 604 W Fairmont Pkwy (281)470-5073 La Porte, Tx 77571 INSPECTION LINE:(2B1) 470-5130 ----------------- ****BUILDING PERMIT**** --------------- ----------- Application Number Date 1/14/19 Property Address . ' 18-00002RT HCAD Number: 119-636-000-0003 2PORTER RD #300 Alternate Search Method: 9-6 I Application type description COMMERCIAL BUILD OUT Subdivision Name UNDERWOOD BUSINESS PARK Property Use . . . Property Zoning PLANNED UNIT DEVELOPMENT - Application valuation . 375000 ----------------------------------------------------------- Type of Work COMM BUILD OUT ----------------------------------------------------------------------- Owner ------------------------ GRANITA UNDERWOOD DIST CTR LP °k BLACKROCK REALTY ADV INC 11757 KATY FWY STE 250 HOUSTON TX 77079 Contractor CORVUS CONST CO. 414 GARDEN OAKS BLVD. HOUSTON TX 77018 (713) 699-3100 ------------ Structure Information 000 000 ---------------------- Construction Type . . . . . NON-COMBUSTIBLE II Occupancy Type . . . . . . STORAGE -------------------------------------------------------------------------- Permit . . . . . . BLDG PERMIT-COML-BUILDOUT Additional desc . . COML BUILD OUT Permit pin number 584920 Permit Fee 1925.00 Plan Check Fee 962.50 Issue Date . . . . 1/14/19 Valuation 375000 Expiration Date 7/13/19 Extension Qty Unit Charge Per BASE FEE 687.50 i 1237.50 275.00 4.5000 THOU BLDG - 100,001 - 500,000 ---------------------------- Special Notes and Comments January 10, 2019 12:29:21 PM lapovfl. COMMERCIAL PERMIT NOTES 1. All NEW development must obtain a water account through the City of La Porte Water Department @ 281-470-5020, prior to Building Permit issuance. 2. ALL WORK MUST COMPLY WITH THE ,APPROVED PLANS, INSPECTIONS. 3 , CO?VTRACTORP TREVIEWYWITH COMMENTSATTACHED ECEIVE FIRE 14ARSHAL JAN 2 1 2013 APPLICABLE• �f 4 OWNER / CONTRACTOR RESPONSIBLE TO _ U 1 BPS6(10)A Booster Power SUUpIV Battery Calculations Make entries in yellow areas. Follow instructions at the end to determine proper battery size. Supervisory (AUX7, AUX2, AUX3, AUX, ; Nob: OrJy add apdary anent a sN/t.7 is OFF. Ara output sutays an eaw AC faMre. Device Type Quantity Current mA Total mA 0 0 0 0 0 Number of ckts set to AUX: 35 0 Total AUX current if switch SW2-7 is o : 0 Total supervisory current is limited to 8 amps. 200 mA AUX Device Type Quantity Current mA Total mA 0 0 0 0 0 0 Total 200 mA AUX current: 0 Rated base BPS supervisory current, 70 Total superviso current A+B+C : 70 Hours of supervisory: 25 SupervisorySupemsory mAH required DxE : 1 1750 Alarm NACt NAC2 NAC3, NAC4 Device Type Quanti Current mA Total mA NAC 1 1 571 571 NAC 2 1 890 890 NAC 3 1 942 942 NAC 4 1 942 942 0 0 0 Total NAC current: 3345 Rated base BPS alarm current: 270 Total alarm current D+G+H : 3685 Minutes of alarm: 5 Hours of alarm K/60 : 0.0833333 Alarm mAH required Jxl-: 307.08333 Total battery Prelimina Total battery Supervisory battery -o use the load current table below: This is for devices connected to signal circuits that have been configured as AUX outputs and will stay powered if loss of AC (battery backed up). MA (A) This is the dedicated 20omA AUX output that is typically used for low current devices, such as 4 wire smokes, that do require battery backup. MA (B) MA (C) MA (D) Hrs (E) mAH (F) This is for signal loads (total of all circuits configured as NACs). Use 24VDC, RMS current ratings of devices. MA (G) MA (H) MA (J) Min (K) Hr (L) mAH (M) mAH required M+F : 2057.0833 mAH (N) AH required N/1000 : 2.0570833 AH (0) wrtent DI1000 : 0.07 A (P) First, select the column where the load is greater than or equal to (P). Second, select the row from that column where the capacity is greater than or equal to (0). Third, select the corresponding battery size from column B. Battery size I Load current (amps) First, select the column where the load is greater than or equal to (P). Second, select the row from that column where the capacity is greater than or equal to (0). Third, select the corresponding battery size from column B. Battery size I Load current (amps) 0.2 0.4 0.6 0.8 1 2 3 4 5 6 7 81 9 10 6.5 Ahr 5.4 5.3 5.2 5 4.8 4.3 3.9 3.6 3.3 3 2.8 2.6 2.5 2.3 < 10 Ahr 8.3 8.3 8.1 7.9 7.7 7.1 6.6 6.2 ' 5.8 5.5 5.2 5 4.7 4.5 17 Ahr 14.1 14.1 14.1 14.1 13.5 12.8 12.3 11.8 11.3 10.9 10.5 10.1 9.8 9.5 24 Ahr 20 20 20 20 20 18.7 18.1 17.5 17 16.5 16 15.6 15.2 14.8 40 Ahr 1 33 33 33 33 33 33 32 31 30 29 28.5 28 27.5 27 50 Ahr 1 42 42 42 42 42 42 41 40 39 38 37 36.5 36 35.5 55 Ahr 1 46 46 46 46 46 46 45 44 43 42 41 40.5 40 39.5 65 Ahr 1 54 54 54 54 54 54 54 53 52 51 50 49 48.5 48 (1) Not for use on fire and security applications. AZ AFAA NAC Voltage Drop Calculator for Audio / Visual devices This calculator provided voltage dropcalculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set b the respective jurisdiction Point to Point Method End of Line Method Load CenteringMethod Project Name LOCTEK TI CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 1.17.19 Circuit Number PS 1 NAC 1 Totals Voltage Totals Voltage Totals Voltage Area Covered Current Distance Drop Current Distance DropCurrent Distance Drop Nominal System Voltage 21.4 0.571 95 0.31 0.571 95 0.531 0.571 95 0.265 Minimum Device Voltage 16 End of Line Voltage 21.09 End of Line Volta 20.87 End of Line Voltagel 21.13 Total Circuit Current 0.571 Wire Ohm's Percent Drop1.46% Percent Drop2.48% Percent Drop1.24% Gauge Per 1000 End of Line and Load Centering Methods use only the wire gua a for the first device to source Distance from source to 1st device 15 16 4.89 Standard Wire Resistance in Ohms per 1000 feet. Wire Gauge for balance of circuit 16 4.89 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Aw = Solid Conductors 12-10 Aw = Stranded Conductors .150 = 150 ma from Voltage Notes: Device Device previous _ _ At Drop from Percent Wire resistance is doubled in the calculations for two wires (Positive and Negative) Number Current device Device source DropThe voltage calculated to the last device in an method must not be lower then Device 1 0.063 15 21.32 0,084 0.39% the manufactures listed minimum operating voltage (IE: rated operatingvoltage 20-32 VDC). Device 2 0.180 19 21.22 0.178 0.83% Device 3 0.063 21 21.15 0.246 1.15% Device Manufacturer EDWARDSNIGLIANT Device Manufacturer EDWARDSNIGLIAN Device 4 0.063 10 21.13 0.271 1.27% Current @Rated Volta a Current @Rated Volta e Device 5 0.063 10 21.11 0.291 1.36% STROBE CEILING HORN -STROBE CEILING Device 6 0.063 10 21.10 0.305 1.42% Model # Candela Model # Candela Device 7 0.076 10 21.09 0.312 1.46% EGCFR-VM 15 0.063 MGCFR-HDVM 5 0.076 END 21.09 0.312 1.46% EGCFR-VM 30 0.09 MGCFR-HDVM 30 0,103 END 21.09 0.312 1,46% EGCFR-VM 75 0.168 MGCFR-HDVM 75 0.18 END 21.09 0.312 1.46% EGCFR-VM 95 0.194 MGCFR-HDVM 95 0.205 END 21.09 0.312 1.46% END END 21.09 0.312 1.46% EGCFR-VMH 95 0.212 _ MGCFR-HDVMH 95 0.212 21.09 0.312 1.46% EGCFR-VMH 115 o.245 MGCFR-HDVMH 115 0.245 END 21.09 0.312 1.46% EGCFR-VMH 150 0.306 MGCFR-HDVMH 150 0.297 END 21.09 0.312 1.46% EGCFR-VMH 177 0.342 MGCFR-HDVMH 177 0.334 END 21.09 0.312 1.46% END END 21.09 0.312 1.46% 21.09 0.312 1,46% END 21.09 0.312 1.46% END _ 21.09 0.312 1.46% Is 0.571 95 End of Line Volta a 21.09 AZ AFAA NAC Voltage Drop Calculator for Audio /Visual devices This calculator provided voltage drop calculations in three formats Point to Point, End of Line, and Load Centering). Make sure that you know what method is accept d by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method , End of Line Method Load Centering Method Pro'ect Name LOCTEK TI CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 1.17.19 1 Circuit Number PS 1 NAC 2 Totals Voltage Totals Voltage Totals Voltage Area Covered Current Distance Drop Current Distance DropCurrent Distance Drop Nominal System Volta 21.4 0.890 203 1.09 0.890 203 1.767 0.890 203 0.883 Minimum Device Voltage 16 End of Line Voltage 20.31 End of Line Voltage 19.63 End of Line Voltage 20.52 Total Circuit Current 0.8901 Wire Ohm's Percent Drop 5.07% Percent Drop 8.26% Percent DrOD 4.13% Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to 1 sl device 43 16 4.89 Standard Wire Resistance in Ohms er 1000 feet. Wire Gauge for balance of circuit 16 4.89 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Aw =Solid Conductors 12-10 Awg = Stranded Conductors .150 = 150 me from Volta a Notes: Device Device previous At Dro from Percent Wire resistance is doubled in the calculations for two wires (Positive and Negative) Number Current device Device source Drop The voltage calculated to the last device in any method must not be lower then Device 1 0.215 43 21.03 0.374 1.75% the manufactures listed minimum operating voltage IE: rated operating voltage 20-32 VDC . Device 2 0.245 60 20.63 0.770 3.60% Device 3 0.215 50 20.42 0.981 4.58% Device Manufacturer EDWARDSNIGLIANT Device Manufacturer EDWARDSNIGLIAN Device 4 0.215 50 20.31 1.086 5.07% 1 1 Current @Rated Voltage I Current @Rated Voltage END 20.31 1.086 5.07% STROBE CEILING HORN -STROBE CEILING END 20.31 1.086 5.07% Model # Candela - Model # lCandela END 20.31 1.086 5.07% EGCFR-VM 15 0.063 MGCFR-HDVM 5 0.076 END 20.31 1.086 5.07% EGCFR-VM 30 0.09 MGCFR-HDVM 30 0.103 END 20.31 1.086 5.07% EGCFR-VM 75 0.168 MGCFR-HDVM 75 0.18 END 20.31 1.086 5.07% EGCFR-VM 95 0.1941 MGCFR-HDVM 95 0.205 END 20.31 1.086 _ 5.07% END 20.31 1.086 5.07% EGCFR-VMH 95 0.212 MGCFR-HDVMH 951 0.212 END 20.31 1.086 5.07% EGCFR-VMH 115 0.245 MGCFR-HDVMH 115 0.245 END 20.31 1.086 5.07% EGCFR-VMH 150 0.306 MGCFR-HDVMH 150 0.297 END 20.31 1.086 5.07% EGCFR-VMH W7 0.342 MGCFR-HDVMH 177 0.334 END 20.31 1.086 5.07% END 20.31 1.086 5.07% END 20.31 1.086 5.07% END 20.31 1.086 5.07% END 20.31 1.086 5.07% Totals 0.890 203 End of Line Voltage 20.31 JAN2`�40 AZ AFAA NAC Voltage Drop Calculator for Audio / Visual devices This calculator provided voltage drop calculations in three formals Point to Point, End of Line, and Load Centering). Make sure that you know what method is accept d by, and the results do not exceed the limits set b the res ctive jurisdiction Point to Point Method End of Line Method Load Centering Method PZ'ct Name LOCTEK TI CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS D 1.17.191 1 1 - I Circuit Number IPS 1 NAC 3 Totals Voltage Totals Voltage Totals I Volta e Area Covered I Current Distance Drop Current Distance DropCurrent Distance Drop Nominal System Volta el 21.4 0.942 224 1.31 0.942 224 2.064 0.942 224 1.032 Minimum Device Volta a 16 End of Line Voltage 20.09 End of Line Voltage 19.34 End of Line Voltagel 20.37 Total Circuit Current 0.942 Wire Ohm's Percent Drop 6.13% Percent Drop 9.64% Percent Dron I 4A2% Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to 1 st device 74 16 4.89 Standard Wire Resistance in Ohms er 1000 feet. Wire Gauge for balance of circuit 16 4.89 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Aw =Solid Conductors 12-1OAT = Stranded Conductors .150 = 150 me from Voltage Notes: Device Device' previous At I Drop from Percent Wire resistance is doubled in the'calculations for two wires Positive and Ne ative Number Current device Device I source Drop The voltage calculated to the last device in any method must not be lower then Device 1 0.297 74 20.72 0.682 3.19% the manufactures listed minimum operating volts a IE: rated operating voltage 20-32 VDC . Device 2 0.215 50 20.40 0.997 4.66% Device 3 0.215 50 20.19 1.207 5.64% Device Manufacturer EDWARDSNIGLIANT Device Manufacturer EDWARDSNIGLIAN Device 4 0.215 50 20.09 1.313 6.13% 1 1 Current @Rated Voltage Current @Rated Volta e END 20.09 1.313 6.13% STROBE CEILING HORN -STROBE CEILING END 20.09 1.313 6.13% Model # Candela Model # lCandela END 20.09 1.313 6.13% EGCFR-VM 15 0.063 MGCFR-HDVM 5 0.076 END 20.09 1.313 6.13% EGCFR-VM 30 0.09 MGCFR-HDVM 30 0.103 END 20.09 1.313 6.13% EGCFR-VM 75 0.168 MGCFR-HDVM 75 0.18 END 20.09 1.313 6.13% EGCFR-VM 95 0.194 MGCFR-HDVM 95 0.205 END 20.09 1.313 6.13% END 20.09 1.313 6.13% EGCFR-VMH 95 0.212 MGCFR-HDVMH 95 0.212 END 20.09 1.313 6.13% EGCFR-VMH 115 0.245 MGCFR-HDVMH 115 0.245 END 20.09 1.313 6.13% EGCFR-VMH 150 0.306 MGCFR-HDVMH 150 0.297 END 20.09 1.313 6.13% EGCFR-VMH 177 0.342 MGCFR-HDVMH 177 0.334 END 20.09 1.313 6.13% END 20.09 1 1.313 6.13% END 20.09 1.313 6.13% END 20.09 1.313 6.13% END 20.09 1.313 6.13% Totals 0.942 224 End of Line Voltage 1 20.09 LCE" e' E JAN 2` 12019 AZ AFAA NAC Voltage Drop Calculator for Audio /Visual devices This calculator provided voltage drop calculations in three formats Point to Point, End of Line, and Load Centering). Make sure that ou know what method is accept d by, and the results do not exceed the limits set b the res ctive jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name LOCTEK TI CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 1.17.19 Circuit Number IPS 1 NAC 4 Totals Voltage Totals Voltage Totals Voltage Area Covered I Current 1 Distance Drop Current I Distance Drop Current Distance Drop Nominal System Voltage 21.4 0.942 273 1.76 0.942 273 2.515 0.942 273 1.258 Minimum Device Voltage 16 End of Line Voltage 19.64 End of Line Voltage 18.88 End of Line Voltage 20.14 Total Circuit Current 0.942 Wire Ohm's Percent Drop 8.24% Percent Drop 11.75% Percent Drop 5.88% Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to 1 st device 123 16 4.89 Standard Wire Resistance in Ohms er 1000 feet. Wire Gauge for balance of circuit 16 4.89 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Aw =Solid Conductors 12-10 Aig = Stranded Conductors .150 = 150 me from Voltage Notes: Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires Positive and Negative) Number Current device Device source Drop The voltage calculated to the last device in any method must not be lower then Device 1 0.297 123 20.27 1.133 5.30% the manufactures listed minimum oDeratinq volts a IE: rated ocierating voltage 20-32 VDC . Device 2 0.215 50 19.95 1.449 6.77% Device 3 0.215 50 19.74 1.659 7.75% Device Manufacturer EDWARDSNIGLIANT Device Manufacturer JEDWARDSNIGLIANI Device 4 0.215 50 19.64 1.764 8.24% 1 1 Current @Rated Voltage Current @Rated Volta e END 19.64 1.764 8.24% STROBE CEILING HORN -STROBE CEILING END 19.64 1.764 8.24% Model If Candela Model # Candela END 19.64 1.764 8.24% EGCFR-VM 15 0.0631 MGCFR-HDVM 5 0.076 END 19.64 1.764 8.24% EGCFR-VM 30 0.09 MGCFR-HDVM 30 0.103 END 19.64 1.764 8.24% EGCFR-VM 75 0.168 MGCFR-HDVM 75 0.18 END 19.64 1.764 8.24% EGCFR-VM 95 0.194 MGCFR-HDVM 95 0.205 END 19.64 1.764 8.24% END 19.64 1.764 8.24% EGCFR-VMH 95 0.212 MGCFR-HDVMH 95 0.212 END 19.64 1.764 8.24% EGCFR-VMH 115 0.245 MGCFR-HDVMH 115 0.245 END. 19.64 1.764 8.24% EGCFR-VMH 150 0.306 MGCFR-HDVMH 150 0.297 END 19.64 1.764 8.24% EGCFR-VMH 177 0.342 MGCFR-HDVMH 177 0.334 END 19.64 1.764 8.24% END 19.64 1.764 8.24% END 19.64 1.764 8.24% END 19.64 1.764 8.24% END 19.64 1.764 8.24% Totals 1 0.942 1 273 End of Line Voltage 19.64 ECEIVE JAN t 12013 h.ARDS' Catalog ► Power Supplies and Accessories United Techruilif I IFE SAFETY i3OIDENT MAFnAU- MFI.T Remote Booster Power Supplies BPS6A, BPS10A Overview The Booster Power Supply (BPS) is a UL 864, 9th Edition listed power supply. It is a 24 Vdc filtered -regulated, and supervised unit that can easily be configured to provide additional notification appliance circuits (NACs) or auxiliary power for Mass Notification/ Emergency Communication (MNEC), as well as life safety, security, and access control applications. The BPS contains the circuitry to monitor and charge internal or external batteries. Its steel enclosure has room for up to two 10 ampere -hour batteries. For access control-ony applications, the BPS can support batteries totaling up to 65 ampere -hours in an external enclosure. The BPS has four Class B (convertible to two Class A) NACs. These can be activated in one or two groups from the BPS's unique dual input circuits. The BPS is available in 6.5 or 10 ampere models. Each output circuit has a capacity of three amperes; total current draw cannot exceed the unit's rating. The BPS meets current UL requirements and is listed under the following standards: standard (car) Description UL884 gth ed.OionN "Alarmsystems' Alarm Unas and Systems U ems u , UERn Ac ea Central Systems A A Cation Connected Burglar Alarm n ystane UL1 otary Burglar Alarm System Units u t r taboo Alarm Unit u m Rro Alarm Burglar Aaarm Unts and Systems Page t of a Standard Features • Allows for reliable filtered and regulated power to be installed where needed • Cost effective system expansion • Provides for Genesis and Enhanced Integrity notification ap- pliance synchronization • Supports coded output operation • Self -restoring overcurrent protection • Multiple signal rates • Can be cascaded or controlled independently • Easy field configuration • On -board diagnostic LEDs identity wiring or internal faults • Standard EDWARDS keyed lockable steel cabinet with re- movable door • 110 and 230 Vac models available • Accommodates 18 to 12 AWG wire sizes • Optional tamper switch • Dual battery charging rates • Optional earthquake hardening: OSHPD seismic pre -approval for component Importance Factor 1.5 JAN2'12 =Y DATA SHEET E85005-0125 Not to be used for installer on purpesev. Issue f Application The BPS provides additional power and circuits for notification ap- pliances and other 24 Vdc loads. It is listed for indoor dry locations and can easily be installed where needed. Fault conditions are indicated on the on -board diagnostic LEDs, opening the BPS input sense circuit and the trouble relay (if programmed). While this provides indication to the host system, the BPS can still be activated upon command. A separate AC Fail contact is available on the BPS circuit board, which can be programmed for trouble or AC Fail. There are seven on -board diagnostic LEDs: one for each NAC fault, one for battery fault, one for ground fault, and one for AC power. Dimensions The unique dual -input activation circuits of the BPS can be acti- vated by any voltage from 6 to 45 VDC (filtered -regulated) or 11 D1 to 33 Vdc (full -wave rectified, unfiltered). The first input circuit can be configured to activate 1-4 of the four possible outputs. The second input circuit can be configured to control circuits 3 and 4. When outputs are configured for auxiliary operation, these circuits can be configured to stay on or automatically deactivate 30 sec- onds after AC power is lost. This feature makes these circuits ideal for door holder applications. The BPS also has a separate 200 mA 24 Vdc output that can be used to power internal activation -21 modules. BPS NACs can be configured for a 3-3-3 temporal or continuous output. California temporal rate outputs are also available on cer- tain models. This makes the BPS ideal for applications requiring signaling rates that are not available from the main system. R% D5 0 j Top View R- a Front View 0 at v ' 0 0 W All knockouts m for 3/4 in conduit < (1.9 cm) , I I 1 i of D2. D3 D4 D5 D6 17.0 in 3.5 in 13.0 in 6.5 in 3.375 in 12.0 in (43.2 cm) (8.9 cm) (33.0 cm) (16.5 cm) (8.6 cm) (304 cm) In addition to the internally generated signal rates, the BPS can also be configured to follow the coded signal rate of the main Wire routing system NACs. This allows for the seamless expansion of existing NACs. The BPS enclosure has mounting brackets for up to three Signa- ture modules to the right of the circuit board. Engineering Specification Supply, where needed, EDWARDS BPS Series Booster Power Supplies (BPS) that are interconnected to and supervised by the main system. The BPS shall function as a stand-alone auxiliary power supply with its own fully -supervised battery compliment. The BPS battery compliment shall be sized to match the require- ments of the main system. The BPS shall be capable of supervis- ing and charging batteries having the capacity of 24 ampere -hours for Mass Notification/Emergency Communication (MNEC), life safety and security applications, and the capacity of 65 ampere - hours for access control applications. <<The BPS shall be capable of installation for a seismic com- ponent Importance Factor of 1.5.>> The BPS shall provide a minimum of four independent, fully supervised Class B circuits that can be field configurable for notification appliance circuits or auxiliary 24 Vdc power circuits. BPS NACs shall be convertible to a minimum of two Class A NACs. Each BPS output circuit shall be rated at 3 amperes at 24 Vdc. Each output circuit shall be pro- vided with automatically restoring overcurrent protection. The BPS shall be operable from the main system NAC and/or EDWARDS Signature Series control modules. BPS NACs shall be configurable for continuous, 3-3-3 temporal or optionally, California rate. Fault conditions on the BPS shall not impede operation of main sys- tem NAC. The BPS shall be provided with ground fault detection circuitry and a separate AC fail relay. Route AC supply through these knockouts only (Nonpower-limited and supervised) Power -limited wiring area Notes 1. Maintain 1/4-inch (6 mm) spacing between power -limited and nonpower-limited wiring or use type FPL, FPLR, or FPLP cable per NEC. [2j Power -limited and supervised when not configured as auxiliary power. Non - supervised when configured as auxiliary power. [3] Source must be power -limited. Source determines supervision. 4. When using larger batteries, make sure to position the batteryteggpa., II the door. Page 2of4 D I T A SH T tMW "It t) be v _ -r .Con oard JAN V 1 VE_k`' 2019 b Typical Wiring Single or cascaded booster anywhere on a notification appliance circuit Existing NAC end -of -line resistors are not required to be NAC Circuit NAC Circuit Fire Alarm ti m installed at the booster's terminals. This allows multiple Control Panel N boosters to be driven from a single NAC circuit without the s — need for special configurations. Configuring the Booster for AC Power Fail delay operation" Notification applian NACi/ 4 AUX7 - NAC2/ 4 AUX2 - NAC3/ 4 AUX3 - NAC4/ 4 AUX4 - 200 mAAUX v Continuous F IN Sense i COM OUT IN Sense 2 COM OUT NO Trouble COM NC Data in from previous device or Signature controller Notification EOL47kQ circuit (NAC) c UL listed EOL 15 k0 circuit (NAC) r UL listed EOL 15 k0 CC1(S) module [1][3] 0 0 Booster Po, To neat signaling device, booster, or EOL resistor NAC output #1 NAC output #2 NAC output #3 NAC output #4 Multiple CC1(S) modules using the BPS's sense inputs T81 Notification appliance circuit (NAC) NAC7/+ _ : ULlisted AUX1 - EOL 15 KW NAC21 + AUX2 - Notification appliance circuit (NAC) AU NAC3/ + UL listed AUX3 - $ r EOL 15 KW NAC4/ + AUX4 - 200 mAAUX N Continuous F IN Sense 1 COM OUT IN Sense 2 COM EK OUT NO Trouble COM NC TB2 0 Onextilevice Data in from �1 I L� Data out to previous device <-'I 4 next device or Signature controller Data out to 'The Booster supports AC Power fail delay of three hours via its trouble contact when dip switch SW2-6 Is on. Al other troubles are reported to supervising module or panel without delay via Sense inputs. Security and access BPS TB1 24 V NAC7/ + 24DC12 AUX7 - NAC2/ + AUX2 - NAC3/ + AUX3 - NAC4/ + V Security Security EOL device device monitoring device Control panel Carr reader Car+reade controller controller + — [1] Disable the BPS's ground fault jumper(JP3) Page 3 of 4 i� 1 � O 109 ios (S)module L CCi(S)module0 0 9321 0 0 8765 4321 r1 BPS [1] [31 Card reader controller To next device or end ECEIVL-, AAAJi Q0� . ,=Issue 1 �E®WARDS iceIr_NT Contact us... Email: edwards.fire@fs.utc.com Web: edwards-fire.com 1016 Corporate Park Drive Mebane, NC 27302 EDWARDS is a registered mark in the United States and other countries. C 2018 United Technologies Corporation. All rights reserved. 1. Requires installation of sepa- rate battery cabinet. 2. BPS supports batteries greater than 24 Amp hours for access control applications only. 3. For earthquake anchorage, including detailed mounting weights and center of gravity detail, refer to Seismic Applica- tion Guide 3101676. Approval of panel anchorage to site structure may require local AHJ, structural or civil engineer review. Page 4 of 4 Specifications --Model 6.5 amp Booster 10 amp Booster AC Line Voltage _ 120VAG or 220-240VAC 50/60Hz 120VAC or 220-240VAC 50/60H� T 390 watts 580 watts Notification Appliance 3.OA max. per circuit @ 24Vdc 3.OA max. per circuit @ 24Vdc I Circuit Ratings nominal 6.5A max total all NACs nominal 1 OA max total all NACs Auxiliary Outputs Four configurable outputs replace NACs 1, 2, 3 or 4. as auxiliary outputs and 200 mA dedicated auxiliary. (See note 2.) Input Current (from an existing NAC) 3mA @ 12Vdc, 6mA @ 24Vdc Booster Internal Supervisory Current 70mA + 35 mA for each circuit set to AUX Booster Internal. Alarm Current 270mA Signature Mounting Space Accomodates three two -gang modules. Maximum Battery Size 10 Amp Hours (2 of 12V1 OA) in cabinet up to 24 Amp hours with ex- ternal battery cabinet for fire and security applications; up to 65 Amp hours for access control applications in external battery box. Terminal Wire Gauge 18-12 AWG Relative Humidity 0 to 93% non condensing @ 32`C Temperature Rating 32' to 120'F (0° to 49°C) NAG Wiring Styles Class A or Class B Output Signal Rates Continuous, California rate, 3-3-3 temporal, or follow installed panel's MAC. (See note 1.) Ground Fault Detection Enable or Disable via jumper Agency Ustings UL, ULC, CSFM 1. Model BPS'CAA provides selection for California rate, in place of temporal 2. Maximum of 6 Amps can be used for auxiliary output. Ordering Information Catalog Description Shipping Number _ Wt. lb (kg) BPS6A 6.5 Amo Booster Power Suooly 13 t 5 91 CI'S6GAA 6.b Amp Booster Flower Supply with Galifornia rate 13(5.9) BP810A 10 Amp Booster Power Supply 13(5.9) BPSI OAC 10 Amp Booster Power Supply (ULC) 13(5.9) BPS10AI230 10 Amp Booster Power Supply (220V) 13(5.9) BPSI0CAA 10 Amp Booster Power Supply with California rate 13(5.9) Related Equipment _ 12VSA5 7.2 Amp Hour Battery, two required 3.4 (1.6) 12V10A 10 Amp Hour Battery, two required 9.5 (4.3) 3-TAMP Tamper switch BC-1 EQ Seismic Kit for BC-1. Order BC-1 separately. See note 3. BPSEQ Seismic kit for BPS6A or BPS10 Booster Power Supplies. See note 3 JAN, 2` t 2013 E85005-0125 Issue 1 J �G/LA N T Flre 6 Llfe Safety f.'nt I ► Strobes, Horns, Bells, Chimes Field Configurable Ceiling Horn -- -strobes__ Genesis Series Overview Genesis ceiling horn -strobes are small, compact, and attractive audible -visible emergency signaling devices. Protruding no more than 1.6" (41 mm), Genesis horn -strobes blend with any decor. Thanks to patented breakthrough technology, Edwards Gen- esis strobes do not require bulky specular reflectors and lenses. Instead, an exclusive cavity design conditions light to produce a highly controlled distribution pattern. Significant development efforts employing this new technology have given rise to a new benchmark in strobe performance - FullUght technology. FullUght strobe technology produces a smooth light distribution pattern without the spikes and voids characteristic of specular reflectors. This ensures the entire coverage area receives consis- tent illumination from the strobe flash. As a result, Genesis strobes with FuIlLight technology go well beyond the minimum UL-required "cross" pattern. Depending on the model, Genesis horn -strobes feature 15 to 95, or 95 to 177 candela output (see ordering information), which is selectable with a conveniently -located switch on the front of the device. The candela output setting is clearly visible even after final installation, yet it remains locked in place to prevent unauthorized movement after installation. Genesis hom-strobes feature textured housings in architecturally neu- tral white or eye-catching fire alarm red. An ingenious iconographic symbol indicates the purpose of the device. This universal symbol is code -compliant and is easily recognized by all building occu- pants regardless of what language they speak. Models with "FIRE" markings are also available. Page 1 of 4 FM C ` O MEA 73DO1657: LC 0202 51te Standard Features • Field configurable - no need to remove the device - 15/30/75/95 cd and 95/115/150/177 cd models available - Switch settings remain visible even after the unit is installed - Low/high dB settings • Unique low -profile design - 30 per cent slimmer profile than comparable signals - No visible mounting screws - Available with white or red housings • Easy to install - Fits all standard 4" square electrical boxes with plenty of room behind the signal for extra wire - no extension ring or trim plate needed - Pre -assembled with captive hardware - no loose pieces - N 18 to N 12 AWG terminals - ideal for long runs or existing wiring • Unparalleled performance - Exclusive FuIlLight strobe technology produces the industry's most even light distribution - Single high -efficiency microprocessor controls both horn and strobe - Low current draw minimizes system overhead - Independent horn control provided over a single pair of wires - Highly regulated in -rush current allows the maximum number of strobes on a circuit - 100 d8 peak - multiple frequency tone improves wall penetration JECr=jVL---, JAN 1.1 2019 DATA TP E T M85001-0559 No' 'o r.L u5m1 fw ,n,lalltdlon pwposue, biueg.2 Application Genesis strobes are UL 1971-listed for use indoors as ceiling- or wall -mounted public -mode notification appliances for the hearing impaired. Prevailing codes require strobes to be used where ambi- ent noise conditions exceed 105 dBA (87dBA in Canada), where occupants use hearing protection, and in areas of public accom- modation as defined in the Americans with Disabilities Act (see application notes - USA). Combination horn -strobe signals must be installed in accordance with guidelines established for strobe devices. Strobes Genesis strobes are UL 1971-listed for use indoors as ceiling- or wall -mounted public -mode notification appliances for the hearing impaired. Prevailing codes require strobes to be used where ambi- ent noise conditions exceed specified levels, where occupants use hearing protection, and in areas of public accommodation. Consult with your Authority Having Jurisdiction for details. All Genesis strobes exceed UL synchronization requirements (within 10 milliseconds other over a two-hour period) when used with a synchronization source. Synchronization is important in order to avoid epileptic sensitivity. NOTE: The flash intensity of some visible signals may not be adequate to elan or waken occupants in the protected area. Research indicates that the intensity of strobe needed to awaken 90% of sleeping persons Is approximately, 100 cd. Edwards recommends that strobes In sleeping rooms be rated at at least 110 cd. WARNING: These devices will not operate without electrical power. As fires frequently cause power interruptions, further safeguards such as backup power supplies may be required. Horns Genesis horn output reaches as high as 99 dB (peak) and features a unique multiple frequency tone that results in excel- lent wall penetration and an unmistakable warning of danger. All models may be configured for either coded or non -coded signal circuits. They can also be set for low dB output with a jumper cut that reduces horn output by about 5 dB. The suggested sound pressure level for each signaling zone used with alert or alarm signals is at least 15 dB above the average ambient soured level, or 5 dB above the maximum sound level having a duration of at least 60 seconds, whichever is greater, measured 5 feet (1.5 m) above the flow. The average ambient sound level is, A -weighted sound pressure measured over a 24-has period. Doubling the distance from the signal to the ear will theoretically result in a 6 dB reduction of the received sound pressure level. The actual effect depends on the acoustic properties of materials in the space. A 3 dBA difference represents a barely noticeable change in volume. Dimensions I- 6.9' dta. I (179 mm) I 1.0' (25 mm) O.BOy15 mm) Page 2 of e Installation and Mounting All models are intended for indoor wall or ceiling applications only. Horn -strobes mount to any flush North-Amedcan 4" square electrical box. Genesis ceiling horn -strobes simply unlatch and twist to open. This gains access to mounting screws and the selectable candela switch. The shallow depth of Genesis devices leaves ample room behind the signal for extra wiring. Once installed with the cover in place, no mounting screws are visible. Edwards recommends that these fire alarm horn -strobes always be installed in accordance with the latest recognized edition of national and local fire alarm codes. Field Configuration Depending on the model, Genesis horn -strobes may be set for 15 to 95, or 95 to 177 candela output (see ordering information). The output setting is changed by simply opening the device and sliding the switch to the desired setting. The horn -strobe does not have to be removed to change the output setting. The setting remains visible through a small window on the front of the device after the cover is closed. The horn -strobe comes factory set for high dB output. Low dB output may be selected by cutting a jumper on the circuit board. This reduces the output by about 5 dB. Wiring Field wiring terminals accommodate It 18 to It12 AWG (0, 75 mm2 to 2.5 mm2) wiring. Horn/strobes are interconnected with a single pair of wires as shown below. u Polarity shown in alarm mrWllion N To nett appliance. ene•ofim or realm 1a control equpment Note: StroWa must have conWuae wo tege. LIAN1 2019 DATA SHEET M85001-0559 v�; r� h.• asc[I io�,n;;allni o� o,.:pos ;; Issueg.2 Current Draw MGC-HDVM Temporal Horn -strobe: High dB Setting i UL 15 cd 30 cal 75 cd 95 cd t Rating RMS RMS RMS RMS 16 Vdc 147 190 316 372 16 Vlwr 189 253 417 451 MGC-HDVM Temporal Horn -strobe: High dB Setting { Typical Current 15 cd RMS Mean 30 cd RMS Mean 75 cd RMS Mean 95 cd RMS Mean 16 Vdc 111 95 152 143 281 276 333 328 20 Vdc 91 80 124 117. 219 214 257 251 24 Vdc 80 71 108 101 185 180 212 207 33 Vdc 69 62 89 84 144 140 160 156 16 Vlwr 153 81 218 123 388 240 420 268 20 Vfwr 141 70 190 100 325 188 378 219 24 Vfwr 135 64 176 90 280 154 310 180 33 Vfwr 139 61 167 80' 241 122 254 133 MGC-HDVM Temporal Horn -strobe: Low dB Setting Typical Current 15 cd RMS Mean 30 cd RMS Mean 75 cal RMS Mean 95 cal RMS Mean 16 Vdc 108 91 149 139 275 269 327 322 20 Vdc 87 75 120 113 214 209 250 245 24 Vdc 76 66 103 97 180 175 205 201 33 Vdc 64 57 85 80 138 135 153 150 16 Vlwr 141 76 204 118 384 239 418 265 20 Vfwr 127 65 176 95 312 181 371 214 24 Vfwr 118 60 162 82 262 149 301 171 33 Vfwr 127 56 155 73 229 118 249 129 MGC-HDVMH High cd Temporal Hom-strobe: High dB Setting 95 cd 115 cd 150 cd 1'77cd j RMS RMS RMS RMS 341 399 506 570 487 578 670 711 MGC-HDVMH High cd Temporal Horn -strobe: High dB Setting 195 cal RMS Mean 115 cd RMS Mean 150 cd RMS Mean 177 cd RMS Mean 324 322 377 374 477 474 554 551 258 256 299 296 369 366 417 414 220 217 252 249 304 301 341 338 172 169 188 185 223 220 244 241 463 265 535 312 665 400 718 442 392 211 439 240 517 287 587 334 346 179 382 212 458 246 498 271 296 142 323 152 358 178 387 194 MGC-HDVMH High cd Temporal Horn -strobe: Low dB j RMS Mean RMS Mean RMS Mean RMS Mean j 317 315 378 378 480 477 544 542 212 211 VIP�4 285 134 308 149 349 159 313 186 Notes and Comments 1. Current values we shown In mA 2. UL Nameplate Rating can vary from Typlcsl Current due to measurement methods and instruments used. 3. Edvards ro ornnunds using the Typical Currant for systom design i ckttlirg NA.0 and Powor Suppy badkV and vokago drop calP4ztiom. 4. Use the VdC RMS Pasant ratings far filleted paver Supply end battery AH CalPladOnS. Use the Vfm RMS Current eAkV lot unthered power supply calculations. 5. Fuses, circuit breakers and other ovencurrenl protectbn devices we typiWly rated for Wrest In RMS values. Most of these devices operate based upon the heating affect of the Wren AovArg through the device. The RMS current (not the mean cureent) datermines the heating affect and therefore, the aft and held threshold for those devices. 8. Our irldustry has used'moon currents over the years. However, UL v41 direct the industry to use the 20D4 RMS values in the future. dBA output UL484 Average Peak i High dB Setting Temporal Steady TemporoV Steady TemporaV Steady 16 Vdc 79.8 83.2 90.6 93.6 24 Vdc 83.3 85.4 93.6 98.8 33 Vdc 85 87.8 95.7 98.7 UL464 Average Peak Low dB Setting Temporal Steady 7emporeV Steady TempomV I Steady 16 Vdc 75 79.3 86.3 88.7 24 Vdc 78 83 88.8 92.4 33 Vdc 80.9 85.9 91.8 95.1 Notes 1. Al values shown are dBA measured at 10 law (3.01m); 2. UL464 values meowed in reverberation roan; 3. Average and Peck vakos we measured In fnedholc chmn- ber. Page 3 of 4 Light output - (effective cd) Percent of UL rating versus angle :CEOVEr, JAN 2" 12013 DATA SH[Er IVIOOULIA-UODU Not to be used for I83ue9.2 Contact us... Email: eowaros.fireOfs.utc.com Web: w ..doflanf-fire.c-om Vigilant la an EDWARDS brand. 1016 Corporate Park Drive Mebane, NC 27302 O 2013 UTC Fire 8 Security Americas Corporation, Inc. All rights M"rved. specifications subject to change without notice. Edwards Is part of UTC Clinwta, Controls d Security, a unit of United Technologies Corporation. Specifications Hots'ug Textured W stabilized, color imp ag ated engineered plastic. Exceeds 94V- 0 UL flammability rating. Red and % to models available. Mounting North -American 4' square box, 2 1/8' (54 mm) deep (indoor wall or ceiling applications only). Wire connections Screw terminals: single input for both horn and strobe. k18 to k12 Meets or exceeds ULG-S525 8 ULG-S526, year 2004 UL Agency listings/approvals requirements for standards UL1 BW and UL7971, and complies with UL1480. All horn -strobes comply with ADA Code of Federal Regulation Chapter 28 Part 36 Final Rule. CSFM, MFA FM pending. MGC-HDVM series temporal -tone hom-strobes: non -coded, filtered Operating voltage 16-33 Vdc or unfiltered 16-33 Vdc FWR (or coded (audible NAC only) when used with optional MG1 M Genesis Signal Master) Strobe output rating UL 1971, UL 1638. ULC S526: selectable 15/30775/95 cd (MGC- HDVM) and 957115/150/177 cd (MGC-HDVMH) MGC-HDVM series temporal -tone horn -strobes: one flash per second synchronized with optional MG1 M Genesis Signal Master indefinitely Strobe flash rate `"fin 10 milliseconds (or self -synchronized within 200 nvQiseconcs over thirty minutes on a common circuit without MG1 M Genesis Signal Master) Temporal setting (private mode only): synchlratized to temporal output of horns on same circuit Synchronization Sources MMG1M-RM, GSA-CC1S, GSA-MCC1S, MIRMIRBPSBA, MIRMIRBPS10A MGC-HDVM series temporal -tone horn -strobes: temporal rate synchrorl¢ed with optional MG1 M Genesis Signal Master indefinitely Horn pulse rate within 10 milliseconds (or self -synchronized within 200 milliseconds over thirty minutes on a common circuit witfut MG 1 M Genesis Temporal audible pattern 1h sac ON, Ve sec OFF, Vi sec ON, Vi sec OFF, fi sec ON, 1 Vi sac OFF, then repeat cycle Ordering Information Ship Catalog Housing Marking Description Wt Ibs Number Color (kg) MGC-HDVM White None MGCF-HDVM White 'FIREesLs Ceiling Wall Horn -Strobe with selectable 15, 30. 75, or 95 cd output 0.82 MGCFR-HDVM Red 'FIRE' (1.8) MGC-HDVMH White Nora Genesis CeilingWall Han -Strobe MGCF-HDVMH WNte 'FIRE' with selectable 95. 115. 150, or 177 od output Y"Accessones MMG1M-RM Genesis Signal Master - Remote Mount (i-gang) 0.2 (01) GSA-CC1 S Intelligent Synchronization Output Module (2y 0.5arg) (0.23) GSA-MCC1S Intelligent Synclvonization Output Module (Plug-in UIO) 0.18 (0.08) wNte Reld Consgisnde Ceiling Horn-Stmbes may be ordered with or without optional 'FIRE' marking. Red Horn-Strobos coma with'FIRE' marking. a�1tIVE+. JAN 21 ZW n k / Page 4 of DATA SHEET Md0UU1--_M'3tJ Nor io hn used f n r , rS; a lid 11on pmpo.:s Issue 9.2 Page is too large to OCR. BPS6(10)A Booster Power Supply Battery Calculations Make entries in yellow areas. Follow instructions at the end to determine proper battery size. Supervisory (AUX1, AUX2, AUX3, AUX4; Note: Only add auxilary current if SW2-7 is OFF. Aux output stays on after AC power failure. Device Type Quantity Current mA Total mA 0 0 0 0 0 Number of ckts set to AUX: i 35 T 0 Total AUX current (if switch SW2-7 is off): 0 Total supervisory current is limited to 8 amps. 200 mA AUX Device Type Quantity Current (mA) Total mA 0 0 0 0 0 0 Total 200 mA AUX current: I0 Rated base BPS supervisory current: 70 Total supervisory current (A+B+C): 70 Hours of supervisory: 25 Supervisory mAH required (DxE): 1750 Alarm (NAC1, NAC2, NAC3, NAC4 Device Type Quantity Current mA Total mA NAC 1 1 571 571 NAC 2 1 890 890 NAC 3 1 942 942 NAC 4 1 942 942 0 0 0 Total NAC current: 3345 Rated base BPS alarm current: 270 Total alarm current (D+G+H): 3685 Minutes of alarm: 5 Hours of alarm (K/60): 0.0833333 Alarm mAH required (JxL): 307.08333 Total battery m Preliminary Total battery A Supervisory battery mA( ) mA (B) mA (C) mA (D) Hrs (E) mAH (F) mA (G) mA (H) mA (J) Min (K) Hr (L) mAH (M) mAH required M+F): 2057.0833 mAH (N) H required (N/1000): 2.0570833 AH (0) current (D/1000): 0.07 A (P) This is for devices connected to signal circuits that have been configured as AUX outputs and will stay powered if loss of AC (battery backed up). This is the dedicated 200mA AUX output that is typically used for low current devices, such as 4 wire smokes, that do require battery backup. This is for signal loads (total of all circuits configured as NACs). Use 24VDC, RMS current ratings of devices. To use the load current table below: First, select the column where the load is greater than or equal to (P). Second, select the row from that column where the capacity is greater than or equal to (0). Third, select the corresponding battery size from column B. Battery size I Load current (amps) 0.2 0.4 0.6 0.8 1 2 3 4 5 6 7 8 9 10 6.5 Ahr 5.4 5.3 5.2 5 4.8 4.3 3.9 3.6 3.3 3 2.8 2.6 2.5 2.3 10 Ahr 8.3 8.3 8.1 7.9 7.7 7.1 6.6 6.2 5.8 5.5 5.2 5 4.7 4.5 17 Ahr 14.1 14.1 14.1 14.1 13.5 12.8 12.3 11.8 11.3 10.9 10.5 10.1 9.8 9.5 24 Ahr 20 20 20 20 20 18.7 18.1 17.5 17 16.5 16 15.6 15.2 14.8 40 Ahr 1 33 33 33 33 33 33 32 31 30 29 28.5 28 27.5 27 50 Ahr 1 421 421 421 421 421 421 411 401 391 381 371 36.51 36 35.5 55 Ahr 1 46 46 46 46 46 46 45 44 43 42 41 40.5 40 39.5 65 Ahr 1 541 541 541 541 541 541 541 531 521 511 501 491 48.5 48 (1) Not for use on fire and security applications. NAC Voltage Drop Calculator for Audio / Visual devices This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name LOCTEK TI CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 1.17.19 Circuit Number PS 1 NAC 1 Totals Voltage Totals Voltage Totals Voltage Area Covered Current Distance Drop Current Distance Drop Current Distance Drop Nominal System Voltage 21.4 0.571 95 0.31 0.571 95 0.531 0.571 95 0.265 Minimum Device Voltage 16 End of Line Voltage 21.09 End of Line Voltage 20.87 End of Line Voltage 21.13 Total Circuit Current 0.571 Wire Ohm's Percent Drop 1.46% Percent DLoa 2.48% Percent Drop 1.24% Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to 1st device 15 16 4.89 Standard Wire Resistance in Ohms per 1000 feet. Wire Gauge for balance of circuit 16 4.89 1 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Awg = Solid Conductors 12-10 Awg = Stranded Conductors .150 = 150 ma from Voltage Notes: Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires (Positive and Negative) Number Current device Device source Drop The voltage calculated to the last device in any method must not be lower then Device 1 0.063 15 21.32 0.084 0.39% the manufactures listed minimum operating voltage (IE: rated operating voltage 20-32 VDC). Device 2 0.180 19 21.22 0.178 0.83% Device 3 0.063 21 21.15 0.246 1.15% Device Manufacturer EDWARDS/VIGLIANT Device Manufacturer EDWARDS/VIGLIAN Device 4 0.063 10 21.13 0.271 1.27% Current @Rated Voltage Current @Rated Voltage Device 5 0.063 10 21.11 0.291 1.36% STROBE CEILING HORN -STROBE CEILING Device 6 0.063 10 21.10 0.305 1.42% Model # Candela Model # Candela Device 7 0.076 10 21.09 0.312 1.46% EGCFR-VM 15 0.063 MGCFR-HDVM 5 0.076 END 21.09 0.312 1.46% EGCFR-VM 30 0.09 MGCFR-HDVM 30 0.103 END 21.09 0.312 1.46% EGCFR-VM 75 0.168 MGCFR-HDVM 75 0.18 END 21.09 0.312 1.46% EGCFR-VM 95 0.194 MGCFR-HDVM 95 0.205 END 21.09 0.312 1.46% END 21.09 0.312 1.46% EGCFR-VMH 95 0.212 MGCFR-HDVMH 95 0.212 END 21.09 0.312 1.46% EGCFR-VMH 115 0.245 MGCFR-HDVMH 115 0.245 END 21.09 0.312 1.46% EGCFR-VMH 150 0.306 MGCFR-HDVMH 150 0.297 END 21.09 0.312 1.46% EGCFR-VMH 177 0.342 MGCFR-HDVMH 177 0.334 END 21.09 0.312 1.46% END 21.09 0.312 1.46% END 21.09 0.312 1.46% END 21.09 0.312 1.46% END 21.09 0.312 1.46% Totals 0.571 95 End of Line Voltage 21.09 NAC Voltage Drop Calculator for Audio / Visual devices This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name LOCTEK TI CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 1.17.19 Circuit Number PS 1 NAC 2 Totals Voltage Totals Voltage Totals Voltage Area Covered Current Distance Drop Current Distance Drop Current Distance Drop Nominal System Voltage 21.4 0.890 203 1.09 0.890 203 1.767 0.890 203 0.883 Minimum Device Voltage 16 End of Line Voltage 20.31 End of Line Voltage 19.63 End of Line Voltage 20.52 Total Circuit Current 0.890 Wire Ohm's Percent Drop 5.07% Percent DLoa 8.26% Percent Drop 4.13% Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to 1st device 43 16 4.89 Standard Wire Resistance in Ohms per 1000 feet. Wire Gauge for balance of circuit 16 4.89 1 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Awg = Solid Conductors 12-10 Awg = Stranded Conductors .150 = 150 ma from Voltage Notes: Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires (Positive and Negative) Number Current device Device source Drop The voltage calculated to the last device in any method must not be lower then Device 1 0.215 43 21.03 0.374 1.75% the manufactures listed minimum operating voltage (IE: rated operating voltage 20-32 VDC). Device 2 0.245 60 20.63 0.770 3.60% Device 3 0.215 50 20.42 0.981 4.58% Device Manufacturer EDWARDS/VIGLIANT Device Manufacturer EDWARDS/VIGLIAN Device 4 0.215 50 20.31 1.086 5.07% Current @Rated Voltage Current @Rated Voltage END 20.31 1.086 5.07% STROBE CEILING HORN -STROBE CEILING END 20.31 1.086 5.07% Model # Candela Model # Candela END 20.31 1.086 5.07% EGCFR-VM 15 0.063 MGCFR-HDVM 5 0.076 END 20.31 1.086 5.07% EGCFR-VM 30 0.09 MGCFR-HDVM 30 0.103 END 20.31 1.086 5.07% EGCFR-VM 75 0.168 MGCFR-HDVM 75 0.18 END 20.31 1.086 5.07% EGCFR-VM 95 0.194 MGCFR-HDVM 95 0.205 END 20.31 1.086 5.07% END 20.31 1.086 5.07% EGCFR-VMH 95 0.212 MGCFR-HDVMH 95 0.212 END 20.31 1.086 5.07% EGCFR-VMH 115 0.245 MGCFR-HDVMH 115 0.245 END 20.31 1.086 5.07% EGCFR-VMH 150 0.306 MGCFR-HDVMH 150 0.297 END 20.31 1.086 5.07% EGCFR-VMH 177 0.342 MGCFR-HDVMH 177 0.334 END 20.31 1.086 5.07% END 20.31 1.086 5.07% END 20.31 1.086 5.07% END 20.31 1.086 5.07% END 20.31 1.086 5.07% Totals 0.890 203 End of Line Voltage 20.31 NAC Voltage Drop Calculator for Audio / Visual devices This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name LOCTEK TI CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 1.17.19 Circuit Number PS 1 NAC 3 Totals Voltage Totals Voltage Totals Voltage Area Covered Current Distance Drop Current Distance Drop Current Distance Drop Nominal System Voltage 21.4 0.942 224 1.31 0.942 224 2.064 0.942 224 1.032 Minimum Device Voltage 16 End of Line Voltage 20.09 End of Line Voltage 19.34 End of Line Voltage 20.37 Total Circuit Current 0.942 Wire Ohm's Percent Drop 6.13% Percent DLoa 9.64% Percent Drop 4.82% Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to 1st device 74 16 4.89 Standard Wire Resistance in Ohms per 1000 feet. Wire Gauge for balance of circuit 16 4.89 1 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Awg = Solid Conductors 12-10 Awg = Stranded Conductors .150 = 150 ma from Voltage Notes: Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires (Positive and Negative) Number Current device Device source Drop The voltage calculated to the last device in any method must not be lower then Device 1 0.297 74 20.72 0.682 3.19% the manufactures listed minimum operating voltage (IE: rated operating voltage 20-32 VDC). Device 2 0.215 50 20.40 0.997 4.66% Device 3 0.215 50 20.19 1.207 5.64% Device Manufacturer EDWARDS/VIGLIANT Device Manufacturer EDWARDS/VIGLIAN Device 4 0.215 50 20.09 1.313 6.13% Current @Rated Voltage Current @Rated Voltage END 20.09 1.313 6.13% STROBE CEILING HORN -STROBE CEILING END 20.09 1.313 6.13% Model # Candela Model # Candela END 20.09 1.313 6.13% EGCFR-VM 15 0.063 MGCFR-HDVM 5 0.076 END 20.09 1.313 6.13% EGCFR-VM 30 0.09 MGCFR-HDVM 30 0.103 END 20.09 1.313 6.13% EGCFR-VM 75 0.168 MGCFR-HDVM 75 0.18 END 20.09 1.313 6.13% EGCFR-VM 95 0.194 MGCFR-HDVM 95 0.205 END 20.09 1.313 6.13% END 20.09 1.313 6.13% EGCFR-VMH 95 0.212 MGCFR-HDVMH 95 0.212 END 20.09 1.313 6.13% EGCFR-VMH 115 0.245 MGCFR-HDVMH 115 0.245 END 20.09 1.313 6.13% EGCFR-VMH 150 0.306 MGCFR-HDVMH 150 0.297 END 20.09 1.313 6.13% EGCFR-VMH 177 0.342 MGCFR-HDVMH 177 0.334 END 20.09 1.313 6.13% END 20.09 1.313 6.13% END 20.09 1.313 6.13% END 20.09 1.313 6.13% END 20.09 1.313 6.13% Totals 0.942 224 End of Line Voltage 20.09 NAC Voltage Drop Calculator for Audio / Visual devices This calculator provided voltage drop calculations in three formats (Point to Point, End of Line, and Load Centering). Make sure that you know what method is accepted by, and the results do not exceed the limits set by the respective jurisdiction Point to Point Method End of Line Method Load Centering Method Project Name LOCTEK TI CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS CIRCUIT IS WITHIN LIMITS Date 1.17.19 Circuit Number PS 1 NAC 4 Totals Voltage Totals Voltage Totals Voltage Area Covered Current Distance Drop Current Distance Drop Current Distance Drop Nominal System Voltage 21.4 0.942 273 1.76 0.942 273 2.515 0.942 273 1.258 Minimum Device Voltage 16 End of Line Voltage 19.64 End of Line Voltage 18.88 End of Line Voltage 20.14 Total Circuit Current 0.942 Wire Ohm's Percent Drop 8.24% Percent DLoa 11.75% Percent Drop 5.88% Gauge Per 1000 End of Line and Load Centering Methods use only the wire guage for the first device to source Distance from source to 1st device 123 16 4.89 Standard Wire Resistance in Ohms per 1000 feet. Wire Gauge for balance of circuit 16 4.89 1 18=7.77 16=4.89 14=3.07 12=1.98 10=1.24 Enter current in amps. Distance 18-14 Awg = Solid Conductors 12-10 Awg = Stranded Conductors .150 = 150 ma from Voltage Notes: Device Device previous At Drop from Percent Wire resistance is doubled in the calculations for two wires (Positive and Negative) Number Current device Device source Drop The voltage calculated to the last device in any method must not be lower then Device 1 0.297 123 20.27 1.133 5.30% the manufactures listed minimum operating voltage (IE: rated operating voltage 20-32 VDC). Device 2 0.215 50 19.95 1.449 6.77% Device 3 0.215 50 19.74 1.659 7.75% Device Manufacturer EDWARDS/VIGLIANT Device Manufacturer EDWARDS/VIGLIAN Device 4 0.215 50 19.64 1.764 8.24% Current @Rated Voltage Current @Rated Voltage END 19.64 1.764 8.24% STROBE CEILING HORN -STROBE CEILING END 19.64 1.764 8.24% Model # Candela Model # Candela END 19.64 1.764 8.24% EGCFR-VM 15 0.063 MGCFR-HDVM 5 0.076 END 19.64 1.764 8.24% EGCFR-VM 30 0.09 MGCFR-HDVM 30 0.103 END 19.64 1.764 8.24% EGCFR-VM 75 0.168 MGCFR-HDVM 75 0.18 END 19.64 1.764 8.24% EGCFR-VM 95 0.194 MGCFR-HDVM 95 0.205 END 19.64 1.764 8.24% END 19.64 1.764 8.24% EGCFR-VMH 95 0.212 MGCFR-HDVMH 95 0.212 END 19.64 1.764 8.24% EGCFR-VMH 115 0.245 MGCFR-HDVMH 115 0.245 END 19.64 1.764 8.24% EGCFR-VMH 150 0.306 MGCFR-HDVMH 150 0.297 END 19.64 1.764 8.24% EGCFR-VMH 177 0.342 MGCFR-HDVMH 177 0.334 END 19.64 1.764 8.24% END 19.64 1.764 8.24% END 19.64 1.764 8.24% END 19.64 1.764 8.24% END 19.64 1.764 8.24% Totals 0.942 273 End of Line Voltage 19.64 L 0 44c�,'V__ A United Technologies LIFE SAFETY g- INCIDENT MANAGEMENT Remote Booster Power Supplies BPS6A, BPSIOA Overview The Booster Power Supply (BPS) is a UL 864, 9th Edition listed power supply. It is a 24 Vdc filtered -regulated, and supervised unit that can easily be configured to provide additional notification appliance circuits (NACs) or auxiliary power for Mass Notification/ Emergency Communication (MNEC), as well as life safety, security, and access control applications. The BPS contains the circuitry to monitor and charge internal or external batteries. Its steel enclosure has room for up to two 10 ampere -hour batteries. For access control -only applications, the BPS can support batteries totaling up to 65 ampere -hours in an external enclosure. The BPS has four Class B (convertible to two Class A) NACs. These can be activated in one or two groups from the BPS's unique dual input circuits. The BPS is available in 6.5 or 10 ampere models. Each output circuit has a capacity of three amperes; total current draw cannot exceed the unit's rating. The BPS meets current UL requirements and is listed under the following standards: Standard (CCN) Description UL864 9th ed.ition (UOXX)Fire Alarm Systems UL636 (ANET, UEHX7) Holdup Alarm Units and Systems UL609 (AOTX, AOTX7) Local Burglar Alarm Units and Systems UL294 (ALVY, UEHX7) Access Control Systems UL-365 (APAW, APAW7) Police Station Connected Burglar Alarm Units and Systems UL1076 (APOU, APOU7) Proprietary Burglar Alarm System Units UL1610 (AMCX) Central Station Alarm Unit ULC-S527 (UOXXC) Control Units, Fire Alarm (Canada) ULC-S303 (AOTX7) Local Burglar Alarm Units and Systems (Canada) C22.2 No. 205 Signaling Equipment (Canada) EDWARDS° Catalog ► Power Supplies and Accessories FM AEA 76-91-E V01.13 UL URC S3424 .E i- 7300-1657: 0229 Standard Features • Allows for reliable filtered and regulated power to be installed where needed • Cost effective system expansion • Provides for Genesis and Enhanced Integrity notification ap- pliance synchronization • Supports coded output operation • Self -restoring overcurrent protection • Multiple signal rates • Can be cascaded or controlled independently • Easy field configuration • On -board diagnostic LEDs identify wiring or internal faults • Standard EDWARDS keyed lockable steel cabinet with re- movable door • 110 and 230 Vac models available • Accommodates 18 to 12 AWG wire sizes • Optional tamper switch • Dual battery charging rates • Optional earthquake hardening: OSHPD seismic pre -approval for component Importance Factor 1.5 Page 1 of 4 DATA SHEET E85005-0125 Not to be used for installation purposes. Issue 1 Application The BPS provides additional power and circuits for notification ap- pliances and other 24 Vdc loads. It is listed for indoor dry locations and can easily be installed where needed. Fault conditions are indicated on the on -board diagnostic LEDs, opening the BPS input sense circuit and the trouble relay (if programmed). While this provides indication to the host system, the BPS can still be activated upon command. A separate AC Fail contact is available on the BPS circuit board, which can be programmed for trouble or AC Fail. There are seven on -board diagnostic LEDs: one for each NAC fault, one for battery fault, one for ground fault, and one for AC power. The unique dual -input activation circuits of the BPS can be acti- vated by any voltage from 6 to 45 VDC (filtered -regulated) or 11 to 33 Vdc (full -wave rectified, unfiltered). The first input circuit can be configured to activate 1-4 of the four possible outputs. The second input circuit can be configured to control circuits 3 and 4. When outputs are configured for auxiliary operation, these circuits can be configured to stay on or automatically deactivate 30 sec- onds after AC power is lost. This feature makes these circuits ideal for door holder applications. The BPS also has a separate 200 mA 24 Vdc output that can be used to power internal activation modules. BPS NACs can be configured for a 3-3-3 temporal or continuous output. California temporal rate outputs are also available on cer- tain models. This makes the BPS ideal for applications requiring signaling rates that are not available from the main system. Dimensions D1 D5 O O j O Top View D2 ♦1 1' D3 o o� D4 oo Front View O m cn O D6 ° rn All knockouts Q for 3/4 in conduit < • (1.9 cm) o D1 D2 D3 D4 D5 D6 17.0 in 3.5 in 13.0 in 6.5 in 3.375 in 12.0 in (43.2 cm) (8.9 cm) (33.0 cm) (16.5 cm) (8.6 cm) (30.4 cm) In addition to the internally generated signal rates, the BPS can also be configured to follow the coded signal rate of the main Wire routing system NACs. This allows for the seamless expansion of existing NACs. The BPS enclosure has mounting brackets for up to three Signa- ture modules to the right of the circuit board. Engineering Specification Supply, where needed, EDWARDS BPS Series Booster Power Supplies (BPS) that are interconnected to and supervised by the main system. The BPS shall function as a stand-alone auxiliary power supply with its own fully -supervised battery compliment. The BPS battery compliment shall be sized to match the require- ments of the main system. The BPS shall be capable of supervis- ing and charging batteries having the capacity of 24 ampere -hours for Mass Notification/Emergency Communication (MNEC), life safety and security applications, and the capacity of 65 ampere - hours for access control applications. <<The BPS shall be capable of installation for a seismic com- ponent Importance Factor of 1.5.>> The BPS shall provide a minimum of four independent, fully supervised Class B circuits that can be field configurable for notification appliance circuits or auxiliary 24 Vdc power circuits. BPS NACs shall be convertible to a minimum of two Class A NACs. Each BPS output circuit shall be rated at 3 amperes at 24 Vdc. Each output circuit shall be pro- vided with automatically restoring overcurrent protection. The BPS shall be operable from the main system NAC and/or EDWARDS Signature Series control modules. BPS NACs shall be configurable for continuous, 3-3-3 temporal or optionally, California rate. Fault conditions on the BPS shall not impede operation of main sys- tem NAC. The BPS shall be provided with ground fault detection circuitry and a separate AC fail relay. Route AC supply through these knockouts only (Nonpower-limited and supervised) Power -limited wiring area Notes 1. Maintain 1/4-inch (6 mm) spacing between power -limited and nonpower-limited wiring or use type FPL, FPLR, or FPLP cable per NEC. [2] Power -limited and supervised when not configured as auxiliary power. Non - supervised when configured as auxiliary power. [3] Source must be power -limited. Source determines supervision. 4. When using larger batteries, make sure to position the battery terminals towards the door. Page 2 of 4 DATA SHE- E85005-0125 Not to be used for installation purposes. Issue 1 Typical Wiring Single or cascaded booster anywhere on a notification appliance circuit Existing NAC end -of -line resistors are not required to be installed at the booster's terminals. This allows multiple boosters to be driven from a single NAC circuit without the need for special configurations. Configuring the Booster for AC Power Fail delay operation* TB1 Notification appliance circuit (NAC) NAC1/ + UL listed AUX1 - z a = a EOL 15 kO NAC2/ + Notification appliance circuit (NAC) AUX2 - NAC3/ + UL listed AUX3 - _ = EOL 15 k() NAC4/ + AUX4 - 200 mAAUX Continuous IN Sense 1 COM NT OUT NT IN NT Sense 2 COM OUT NO Trouble COM NC TB2o Data in from previous device or Signature controller EOL 47 kQ CC1(S) module [1][3] 0 0 NAC Circuit To next signaling NAC Circuit device, booster, or EOL resistor n(D NAC output #1 Fire Alarm NAC output #2 Control Panel NAC output #3 NAC output #4 -o a Booster Power Multiple CC1(S) modules using the BPS's sense inputs T61 Notification appliance circuit (NAC) NAC1/ + UL listed AUX1 - a Q = Q EOL 15 KW NAC2/ + AUX2 _ Notification appliance circuit (NAC) NAC3/ + UL listed AUX3 - a EOL 15KW NAC4/ + AUX4 - 200 mAAUX 0 Continuous co IN Sense 1 COM NT OUT NT IN 117 Sense 2 COM OUT NO Trouble COM NC TB2o • Data in from Data out to CT1 previous device next device m ®ul®[4] or Signature ' P ' controller �Tnext 'The Booster supports AC Power fail delay Data out to of three hours via its trouble contact when device dip switch SW2-6 is on. All other troubles are reported to supervising module or panel without delay via Sense inputs. Security and access BPS TB1 24 V 12 V NAC1/ + 24DC12 =devic AUX1 - NAC2/ + AUX2 - NAC3/ + AUX3 - NAC4/ + AI IVA Control panel [1] Disable the BPS's ground fault jumper (JP3) Security EOL device monitoring device EOL 47 K EOL 47 K CC1(S) module I CC1(S) module 0 0 0 0 [3] BPS [1] Card reader Card reader Cad reader controller controller + — controller To next device or end Page 3 of 4 DATA SHEE 1 7 E85005-0125 Not to be used for installatio: Issue 1 LIFE SAFETY & INCIDENT MANAGEMENT Contact us... Email: edwards.fire@fs.utc.com Web: edwards-Irre.com 1016 Corporate Park Drive Mebane, NC 27302 EDWARDS is a registered mark in the United States and other countries. © 2018 United Technologies Corporation All rights reserved. 1. Requires installation of sepa- rate battery cabinet. 2. BPS supports batteries greater than 24 Amp hours for access control applications only. 3. For earthquake anchorage, including detailed mounting weights and center of gravity detail, refer to Seismic Applica- tion Guide 3101676. Approval of panel anchorage to site structure may require local AHJ, structural or civil engineer review. Specifications Model 6.5 amp Booster 10 amp Booster AC Line Voltage 120VAC or 220-240VAC 50/6OHz 120VAC or 220-240VAC 50/6OHz 390 watts 580 watts Notification Appliance 3.OA max. per circuit @ 24Vdc 3.OA max. per circuit @ 24Vdc Circuit Ratings nominal 6.5A max total all NACs nominal 1 OA max total all NACs Trouble Relay 2 Amps @ 30Vdc Auxiliary Outputs Four configurable outputs replace NACs 1, 2, 3 or 4. as auxiliary outputs and 200 mA dedicated auxiliary. (See note 2.) Input Current 3mA @ 12Vdc, 6mA @ 24Vdc (from an existing NAC) Booster Internal 70mA + 35 mA for each circuit set to AUX Supervisory Current Booster Internal Alarm 270mA Current Signature Mounting Accomodates three two -gang modules. Space Maximum Battery Size 10 Amp Hours (2 of 12V10A) in cabinet up to 24 Amp hours with ex- ternal battery cabinet for fire and security applications; up to 65 Amp hours for access control applications in external battery box. Terminal Wire Gauge 18-12 AWG Relative Humidity 0 to 93% non condensing @ 32°C Temperature Rating 32° to 120°F (O° to 49°C) NAC Wiring Styles Class A or Class B Output Signal Rates Continuous, California rate, 3-3-3 temporal, or follow installed panel's NAC. (See note 1.) Ground Fault Detection Enable or Disable via jumper Agency Listings UL, ULC, CSFM 1. Model BPS*CAA provides selection for California rate, in place of temporal. 2. Maximum of 8 Amps can be used for auxiliary output. Ordering Information Catalog Description Shipping Number Wt. lb (kg) BPS6A 6.5 Amp Booster Power Supply 13(5.9) BPS6AC 6.5 Amp Booster Power Supply (ULC) 13(5.9) BPS6A/230 6.5 Amp Booster Power Supply (220V) 13(5.9) BPS6CAA 6.5 Amp Booster Power Supply with California rate 13(5.9) BPS10A 10 Amp Booster Power Supply 13(5.9) BPSI0AC 10 Amp Booster Power Supply (ULC) 13(5.9) BPS10A/230 10 Amp Booster Power Supply (220V) 13(5.9) BPSI0CAA 10 Amp Booster Power Supply with California rate 13(5.9) Related Equipment 12V6A5 7.2 Amp Hour Battery, two required 3.4 (1.6) 12V10A 10 Amp Hour Battery, two required 9.5 (4.3) 3-TAMP Tamper switch BC-1 EQ Seismic Kit for BC-1. Order BC-1 separately. See note 3. BPSEQ Seismic kit for BPS6A or BPS10 Booster Power Supplies. See note 3 BC-1 Battery Cabinet (up to 2 - 40 Amp Hour Batteries) 58 (26.4) BC-2 Battery Cabinet (up to 2 - 17 Amp Hour Batteries) 19(8.6) 12V17A 18 Amp Hour Battery, two required (see note 1) 13(5.9) 12V24A 24 Amp Hour Battery, two required (see note 1) 20 (9.07) 12V40A 40 Amp Hour Battery, two required (see notes 1, 2) 32 (14.5) 12V50A 50 Amp Hour Battery, two required (see notes 1, 2) 40 (18.14) 12V65A 65 Amp Hour Battery, two required (see notes 1, 2) 49 (22.2) Page 4 of 4 DATA SHE- E85005-0125 Not to be used for installation purposes. Issue 1 VIGIL.AivT Fire & Life Safety Field Configurable Ceiling Horn -Strobes Genesis Series Overview Genesis ceiling horn -strobes are small, compact, and attractive audible -visible emergency signaling devices. Protruding no more than 1.6" (41 mm), Genesis horn -strobes blend with any decor. Thanks to patented breakthrough technology, Edwards Gen- esis strobes do not require bulky specular reflectors and lenses. Instead, an exclusive cavity design conditions light to produce a highly controlled distribution pattern. Significant development efforts employing this new technology have given rise to a new benchmark in strobe performance — FuIlLight technology. FuIlLight strobe technology produces a smooth light distribution pattern without the spikes and voids characteristic of specular reflectors. This ensures the entire coverage area receives consis- tent illumination from the strobe flash. As a result, Genesis strobes with FuIlLight technology go well beyond the minimum UL-required "cross" pattern. Depending on the model, Genesis horn -strobes feature 15 to 95, or 95 to 177 candela output (see ordering information), which is selectable with a conveniently -located switch on the front of the device. The candela output setting is clearly visible even after final installation, yet it remains locked in place to prevent unauthorized movement after installation. Genesis horn -strobes feature textured housings in architecturally neu- tral white or eye-catching fire alarm red. An ingenious iconographic symbol indicates the purpose of the device. This universal symbol is code -compliant and is easily recognized by all building occu- pants regardless of what language they speak. Models with "FIRE" markings are also available. Standard Features Strobes, Horns, Bells, Chimes One or more patents pending. U� e FaonEo C E 0UDC MEA FC 73020257 S218 • Field configurable — no need to remove the device — 15/30/75/95 cd and 95/115/150/177 cd models available — Switch settings remain visible even after the unit is installed — Low/high dB settings • Unique low -profile design — 30 per cent slimmer profile than comparable signals — No visible mounting screws — Available with white or red housings Easy to install — Fits all standard 4" square electrical boxes with plenty of room behind the signal for extra wire — no extension ring or trim plate needed — Pre -assembled with captive hardware — no loose pieces — #18 to #12 AWG terminals — ideal for long runs or existing wiring Unparalleled performance — Exclusive FuIlLight strobe technology produces the industry's most even light distribution — Single high -efficiency microprocessor controls both horn and strobe — Low current draw minimizes system overhead — Independent horn control provided over a single pair of wires — Highly regulated in -rush current allows the maximum number of strobes on a circuit — 100 dB peak — multiple frequency tone improves wall penetration Page 1 of 4 M85001-0559 Issue 9.2 Application Genesis strobes are UL 1971-listed for use indoors as ceiling- or wall -mounted public -mode notification appliances for the hearing impaired. Prevailing codes require strobes to be used where ambi- ent noise conditions exceed 105 dBA (87dBA in Canada), where occupants use hearing protection, and in areas of public accom- modation as defined in the Americans with Disabilities Act (see application notes — USA). Combination horn -strobe signals must be installed in accordance with guidelines established for strobe devices. Strobes Genesis strobes are UL 1971-listed for use indoors as ceiling- or wall -mounted public -mode notification appliances for the hearing impaired. Prevailing codes require strobes to be used where ambi- ent noise conditions exceed specified levels, where occupants use hearing protection, and in areas of public accommodation. Consult with your Authority Having Jurisdiction for details. All Genesis strobes exceed UL synchronization requirements (within 10 milliseconds other over a two-hour period) when used with a synchronization source. Synchronization is important in order to avoid epileptic sensitivity. NOTE: The flash intensity of some visible signals may not be adequate to alert or waken occupants in the protected area. Research indicates that the intensity of strobe needed to awaken 90% of sleeping persons is approximately 100 cd. Edwards recommends that strobes in sleeping rooms be rated at at least 110 cd. WARNING: These devices will not operate without electrical power. As fires frequently cause power interruptions, further safeguards such as backup power supplies may be required. Horns Genesis horn output reaches as high as 99 dB (peak) and features a unique multiple frequency tone that results in excel- lent wall penetration and an unmistakable warning of danger. All models may be configured for either coded or non -coded signal circuits. They can also be set for low dB output with a jumper cut that reduces horn output by about 5 dB. The suggested sound pressure level for each signaling zone used with alert or alarm signals is at least 15 dB above the average ambient sound level, or 5 dB above the maximum sound level having a duration of at least 60 seconds, whichever is greater, measured 5 feet (1.5 m) above the floor. The average ambient sound level is, A -weighted sound pressure measured over a 24-hour period. Doubling the distance from the signal to the ear will theoretically result in a 6 dB reduction of the received sound pressure level. The actual effect depends on the acoustic properties of materials in the space. A 3 dBA difference represents a barely noticeable change in volume. Dimensions 6.8" dia. (173 mm) (25 mm) 0.60"(15 mm) Installation and Mounting All models are intended for indoor wall or ceiling applications only. Horn -strobes mount to any flush North -American 4" square electrical box. Genesis ceiling horn -strobes simply unlatch and twist to open. This gains access to mounting screws and the selectable candela switch. The shallow depth of Genesis devices leaves ample room behind the signal for extra wiring. Once installed with the cover in place, no mounting screws are visible. Edwards recommends that these fire alarm horn -strobes always be installed in accordance with the latest recognized edition of national and local fire alarm codes. Field Configuration Depending on the model, Genesis horn -strobes may be set for 15 to 95, or 95 to 177 candela output (see ordering information). The output setting is changed by simply opening the device and sliding the switch to the desired setting. The horn -strobe does not have to be removed to change the output setting. The setting remains visible through a small window on the front of the device after the cover is closed. The horn -strobe comes factory set for high dB output. Low dB output may be selected by cutting a jumper on the circuit board. This reduces the output by about 5 dB. Wiring Field wiring terminals accommodate #18 to #12 AWG (0.75 mm2 to 2.5 mm2) wiring. Horn/strobes are interconnected with a single pair of wires as shown below. 101 Polarity alarm c 0 u next Aiance, i-of-line eturn to ontrol iipment Note: Strobes must have continuous voltage. Page 2 of 4 M85001-0559 Issue 9.2 Current Draw MGC-HDVM Temporal Horn -strobe: High dB Setting UL Rating 15 cd RMS 30 cd RMS 75 cd RMS 95 cd RMS 16 Vdc 147 190 316 372 16 Vfwr 189 253 417 MGC-HDVM Temporal Horn -strobe: High dB Setting Typical 15 cd 30 cd 75 cd Current RMS Mean RMS Mean RMS Mean 451 95 cd RMS Mean 16 Vdc 111 95 152 143 281 276 333 328 20 Vdc 91 80 124 117 219 214 257 251 24 Vdc 80 71 108 101 185 180 212 207 33 Vdc 69 62 89 84 144 140 160 156 16 Vfwr 153 81 218 123 388 240 420 268 20 Vfwr 141 70 190 100 325 188 378 219 24 Vfwr 135 64 176 90 280 154 310 180 33 Vfwr 139 61 167 80 241 122 MGC-HDVM Temporal Horn -strobe: Low dB Setting Typical 15 cd 30 cd 75 cd Current RMS Mean RMS Mean RMS Mean 254 133 95 cd RMS Mean 16 Vdc 108 91 149 139 275 269 327 322 20 Vdc 87 75 120 113 214 209 250 245 24 Vdc 76 66 103 97 180 175 205 201 33 Vdc 64 57 85 80 138 135 153 150 16 Vfwr 141 76 204 118 384 239 418 265 20 Vfwr 127 65 176 95 312 181 371 214 24 Vfwr 118 60 162 82 262 149 301 171 33 Vfwr 127 56 155 73 229 118 249 129 MGC-HDVMH High cd Temporal Horn -strobe: High dB Setting 95 cd 115 cd 150 cd 177 cd RMS RMS RMS RMS 341 399 506 570 487 578 670 711 MGC-HDVMH High cd Temporal Horn -strobe: High dB Setting 95 cd 115 cd 150 cd 177 cd RMS Mean RMS Mean RMS Mean RMS Mean 324 322 377 374 477 474 554 551 258 256 299 296 369 366 417 414 220 217 252 249 304 301 341 338 172 169 188 185 223 220 244 241 463 265 535 312 665 400 718 442 392 211 439 240 517 287 587 334 346 179 382 212 458 246 498 271 296 142 323 152 358 178 387 194 MGC-HDVMH High cd Temporal Horn -strobe: Low dB Setting 95 cd 115 cd 150 cd 177 cd RMS Mean RMS Mean RMS Mean RMS Mean 317 315 378 376 480 477 544 542 252 250 292 290 364 362 414 411 212 211 245 243 297 295 334 332 159 157 181 179 215 213 234 232 461 265 521 305 656 396 705 432 381 208 437 242 508 285 576 326 335 172 370 195 440 235 485 264 285 134 308 149 349 169 373 186 Notes and Comments 1. Current values are shown in mA. 2. UL Nameplate Rating can vary from Typical Current due to measurement methods and instruments used. 3. Edwards recommends using the Typical Current for system design including NAC and Power Supply loading and voltage drop calculations. 4. Use the Vdc RMS current ratings for filtered power supply and battery AH calculations. Use the Vfwr RMS current ratings for unfiltered power supply calculations. 5. Fuses, circuit breakers and other overcurrent protection devices are typically rated for current in RMS values. Most of these devices operate based upon the heating affect of the current flowing through the device. The RMS current (not the mean current) determines the heating affect and therefore, the trip and hold threshold for those devices. 6. Our industry has used 'mean' currents over the years. However, UL will direct the industry to use the 2004 RMS values in the future. dBA output Average Light output - (effective cd) Peak Percent of UL rating versus angle Temporal/ Steady 12D 110 100 9D 60 70 60 50 40 30 0 17 0U 10aU20 30 40 6060 9080 90 - 110 120 9o. 93.6 96.6 1 98.7 -7a F� High dB SettingTemporal UL464 Stead p Y Temporal/ Steady 90.6 16 Vdc 79.8 83.2 24 Vdc 83.3 85.4 93.6 33 Vdc 85 87.8 1 95.7 Low dB UL464 Average Peak Setting Temporal Steady Temporal/ Steady Temporal/ Steady 16 Vdc 75 79.3 86.3 88.7 24 Vdc 78 83 88.8 92.4 33 Vdc 80.9 85.9 91.8 1 95.1 Notes 1. All values shown are dBA measured at 10 feet (3.01 m); 2. UL464 values measured in reverberation room; 3. Average and Peak values are measured in anechoic cham- ber. Page 3 of 4 M85001-0559 Issue 9.2 EDWARDS Contact us... Email: edwards.fire@fs.utc.com Web: www.vigilant-fire.com Vigilant is an EDWARDS brand. 1016 Corporate Park Drive Mebane, NC 27302 © 2013 UTC Fire & Security Americas Corporation, Inc. All rights reserved. Specifications subject to change without notice. Edwards is part of UTC Climate, Controls & Security, a unit of United Technologies Corporation. Specifications Housing Textured UV stabilized, color impregnated engineered plastic. Exceeds 94V- 0 UL flammability rating. Red and white models available. Lens Optical grade polycarbonate (clear) Mounting North -American 4" square box, 2 1/8" (54 mm) deep (indoor wall or ceiling applications only). Wire connections Screw terminals: single input for both horn and strobe. #18 to #12 AWG (0.75 mm2 to 2.5 mm2) wire size Operating environment Indoor: 32-120°F (0-49°C) ambient temperature. 93% relative humidity Meets or exceeds ULC-S525 & ULC-S526, year 2004 UL Agency listings/approvals requirements for standards UL1638 and UL1971, and complies with UL1480. All horn -strobes comply with ADA Code of Federal Regulation Chapter 28 Part 36 Final Rule. CSFM, MEA. FM pending. MGC-HDVM series temporal -tone horn -strobes: non -coded, filtered Operating voltage 16-33 Vdc or unfiltered 16-33 Vdc FWR (or coded (audible NAC only) when used with optional MG1 M Genesis Signal Master) Strobe output rating UL 1971, UL 1638, ULC S526: selectable 15/30/75/95 cd (MGC- HDVM) and 95/115/150/177 cd (MGC-HDVMH) MGC-HDVM series temporal -tone horn -strobes: one flash per second synchronized with optional MG1 M Genesis Signal Master indefinitely Strobe flash rate within 10 milliseconds (or self -synchronized within 200 milliseconds over thirty minutes on a common circuit without MG1 M Genesis Signal Master) Temporal setting (private mode only): synchronized to temporal output of horns on same circuit Synchronization Sources MMG1 M-RM, GSA-CC1 S, GSA-MCC1 S, MIRMIRBPS6A, MIRMIRBPS10A MGC-HDVM series temporal -tone horn -strobes: temporal rate synchronized with optional MG1 M Genesis Signal Master indefinitely Horn pulse rate within 10 milliseconds (or self -synchronized within 200 milliseconds over thirty minutes on a common circuit without MG1 M Genesis Signal Master) Temporal audible pattern 1/2 sec ON, 1/2 sec OFF, 1/2 sec ON, 1/2 sec OFF, 1/2 sec ON, 11/2 sec OFF, then repeat cycle Ordering Information Catalog Number MGC-HDVM Housing Marking Description Color White None MGCF-HDVM White "FIRE" MGCFR-HDVM Red "FIRE" MGC-HDVMH White None MGCF-HDVMH White "FIRE" Accessories Genesis Ceiling/Wall Horn -Strobe with selectable 15, 30, 75, or 95 cd output Genesis Ceiling/Wall Horn -Strobe with selectable 95, 115, 150, or 177 cd output Ship Wt. Ibs (kg) 0.82 (1.8) MMG1 M-RM Genesis Signal Master — Remote Mount (1-gang) 0.2 (0.1) GSA-CC1S Intelligent Synchronization Output Module (2-gang) 0.5 (0.23) GSA-MCC1 S Intelligent Synchronization Output Module (Plug-in UIO) 0.18 rn nay White Field Configurable Ceiling Horn -Strobes may be ordered with or without optional 'FIRE' marking. Red Horn -Strobes come with 'FIRE" marking. Page 4 of 4 M85001-0559 Issue 9.2 L4 E �ek 0, Page is too large to OCR.