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Plans Euf c w 3 5? C, Cre Ce urt,eeaodc G r -r, (21 �" A I�vB erma; G J FIRE ALARM SYSTEMS Heaping People Take Action . A Calculations Report for WALL mounted strobes „ Room Size: 45 Strobe Height: 17. Rated Candela: 110 ; ' ' i: UL Angle UL Angle UL Wall% Lumens /sgft UL Wall% Lumens /sqft (on axis = 0) (radians) Vertical Vertical Horizontal Horizontal 0 0.000 100 0.054 100 0.054 5 0.087 90 0.049 90 0.049 10 0.175 90 0.047 90 0.047 15 0.262 90 0.046 90 0.046 20 0.349 90 0.043 90 0.043 25 0.436 90 0.061 90 0.040 30 0.524 90 0.086 75 0.041 35 0.611 65 0.081 75 0.054 40 0.698 46 0.072 75 0.067 45 0.785 34 0.065 75 0.081 50 0.873 27 0.060 55 0.070 55 0.960 22 0.056 45 0.066 60 1.047 18 0.051 40 0.065 65 1.134 16 0.050 35 0.062 70 1.222 15 0.050 35 0.067 75 1.309 13 0.046 30 0.061 80 1.396 12 0.044 30 0 063 85 1.484 12 0.045 25 0.054 90 1 571 12 0.046 25 0.054 This utility uses data provided by the user to perform the calculations descnbed in Chapter 7 of the 2002 edition of NFPA 72, which permits the use of a performance based alternative in lieu of tables for spacing wall or ceiling mounted strobe appliances. These calculations are described in Section 7.5.4.3 as follows and are to be provided to the authority having jurisdiction: To calculate performance based strobe coverage, the inverse square law is used to calculate the • I , illumination at each of the angles in the horizontal and vertical planes per UL 1971 and the effect of polar distribution is included using the minimum percentages in UL 1971 or actual test results recorded by the Listing organization (per Section 7.5.4.3.2). The calculated illumination is required to be at least 0.0375 lumens /ft squared at any point within the covered area (per Section 7.5.4.3.1). The calculation points are in the horizontal and vertical planes in 5 degree increments per UL 1971 (to comply with Section 7.5.4.3.2). For the effect of polar distribution (rated candela at each angle), the UL 1971 minimu rue centages are used for the calculations UL 1971. • • - • s� pro ide ratings- for-�e e . a ual test results. I i - - $ )°' ` „ • This utility is based on square room = - wall mounted strobes on the centerlfl cftf`ie' I and ceiling mounted strobes on the cent r of the ceiling,,,,,,,,, ,,,, , f • i t*T7 ', "A4!"41 WHEELOCK, INC. DISCLAIMS ALLIWARRANTIES..IINQJ _J J taglIMPL1EDLIA'RF ' IES OF MECHANTABILITY AND FITNESS MI A PARTIC(YIL PIA OSP,' 'SEE'F ES 1 -3. ' Notes "' 1. Licensed professional engineer (s),'should - be responsible forjgiper specification, appli 'lion, design, layout and installation of the equipt lent.- ' ' ,;,r.• , 2. All wiring and product settings shall be In accordanceiv¢tlocal, state and other applica e codes and t.4 standards, or as recommended � the'AHJ' , 3 All appliances to be installed shall!be in accordarfae.with local state and other applicabjelcodes and standards, or as recommended by the 'AHJIOV: - . - - 3 I t ' - Ti . � I � • • %40-5(11 whet:iodic 11 ADA ti . s FIRE ALARM SYSTEMS Helping People Take ActiOn CALCULATION DETAIL REPORT FOR WALL MOUNTED STROBES Calculation Parameters PRELIMINARY CALCULATIONS Candela . 110 Corner Angle (V) = ATAN( Strobe Height / Room Size ) Room Size : 45.0 (ft x ft) = ATAN(17.0 / 45.0) Strobe Height : 17.0 (ft) Corner Angle (V) = .361 Corner Angle (H) = ATAN( Room Size / 2'Room Size) = ATAN(1 /2) Corner Angle(H) = 0.46 Angie: 0 UL Wall %H = 100 Radians = ANGLE • (PI / 180) UL Wall %V = 100 Radians = 0.000 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) * (Candela)) / ( Room Size / COS ( Radians ) ) ^2 = ((100 %)'(110)) / (45.0/ COS ( 0 000) )^2 Lumens / sqft = 0.054 Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Room Size / COS ( Radians ) )^ 2 = ( (100 %) * (110) ) / (45.0/ COS ( 0.000) ) ^2 Lumens / sqft = 0.054 Angle: 5 UL Wall %H = 90 Radians = ANGLE • (PI / 180) UL Wall %V = 90 Radians = 0.087 Horizontal Calculation Lumens / sqft = ((UL Wall % H) • (Candela)) / ( Room Size / COS ( Radians ) ) ^2 = ((90 %) • (110) ) / (45.0/ COS ( 0.087) ) ^2 Lumens / sqft = 0.049 • Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Room Size / COS ( Radians ) )^ 2 = ((90 %) * (110) ) / (45.0/ COS ( 0.087) ) ^2 Lumens / sqft = 0.049 Angle: 10 UL Wall %H = 90 Radians = ANGLE * (PI / 180) UL Wall %V = 90 Radians = 0.175 Horizontal Calculation Lumens / sqft = ((UL Wall % H) * (Candela)) / ( Room Size / COS ( Radians ) ) ^2 = ((90 %) • (110)) / (45.0/ COS ( 0.175) )^2 Lumens / sqft = 0.047 Vertical Calculation Lumens / sqft = ((UL Wall % V) • (Candela)) / ( Room Size / COS ( Radians) )^ 2 = ((90 %) • (110) ) / (45.0/ COS ( 0.175) ) ^2 Lumens / sqft = 0.047 • "*.• SEE DISCLAIMER ON LAST PAGE'"" ►aura u#IgeloCh — II 0 MiEA O I . 1 FIRE ALARM SYSTEMS Helping People Take Action' ` CALCULATION DETAIL REPORT FOR WALL MOUNTED STROBES Calculation Parameters PRELIMINARY CALCULATIONS Candela : 110 Corner Angle (V) = ATAN( Strobe Height / Room Size ) Room Size : 45.0 (ft x ft) = ATAN(17.0 / 45.0) Strobe Height : 17.0 (ft) Corner Angle (V) = .361 Corner Angle (H) = ATAN( Room Size / 2•Room Size) = ATAN(1 /2) Corner Angle(H) = 0.46 Angle: 15 UL Wall %H = 90 Radians = ANGLE • (PI / 180) UL Wall %V = 90 Radians = 0.262 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) • (Candela)) / ( Room Size / COS ( Radians) ) "2 = ((90 %) • (110) ) / (45.0/ COS ( 0.262) ) "2 Lumens / sqft = 0.046 Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Room Size / COS ( Radians ) )" 2 = ((90 %) • (110)) / (45.0/ COS ( 0.262) ) "2 Lumens / sqft = 0.046 Angle: 20 UL Wall %H = 90 Radians = ANGLE • (PI / 180) UL Wall %V = 90 Radians = 0.349 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) • (Candela)) / ( Room Size / COS ( Radians ) ) "2 _ ((90 %) • (110) ) / (45.0/ COS ( 0.349) ) "2 Lumens / sqft = 0.043 Vertical Calculation Lumens / sqft = ((UL Wall % V) • (Candela)) / ( Room Size / COS ( Radians ) )" 2 = ((90 %) • (110)) / (45.0/ COS ( 0.349) ) "2 Lumens / sqft = 0.043 Angle: 25 UL Wall %H = 90 Radians = ANGLE • (PI / 180) UL Wall %V = 90 Radians = 0.436 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) • (Candela)) / ( Room Size / COS ( Radians) ) "2 = ((90 %) • (110)) / (45.0/ COS ( 0.436) ) "2 Lumens / sqft = 0.040 Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians ) )" 2 =((90 %)•(110)) /(17.0 /COS( 1.5708 - 0.436) )"2 Lumens / sqft = 0.061 '••• SEE DISCLAIMER ON LAST PAGE •••• • i ) • sacsra wheel x* • .ua�t, tay t t' rL PP ADA EA y I ' ` J FIRE ALARM SYSTEMS Helping People Take Action CALCULATION DETAIL REPORT FOR WALL MOUNTED STROBES Calculation Parameters PRELIMINARY CALCULATIONS Candela : 110 Corner Angle (V) = ATAN( Strobe Height / Room Size ) Room Size : 45.0 (ft x ft) = ATAN(17.0 / 45.0) Strobe Height : 17.0 (ft) Corner Angle (V) = .361 Corner Angle (H) = ATAN( Room Size / 2'Room Size) = ATAN(1/2) Corner Angle(H) = 0.46 Angle: 30 UL Wall %H = 75 Radians = ANGLE " (PI / 180) UL Wall %V = 90 Radians = 0.524 Horizontal Calculation Lumens / sqft = ((UL Wall % H) " (Candela)) / ( Room Size ' 0.5 / COS ( 1.5708 - Radians) ) ^ 2 = ((75 %) • (110) ) / (45.0 0.5 / COS ( 1.5708 - 0.524) ) ^2 Lumens / sqft = 0.041 Vertical Calculation Lumens / sqft = ((UL Wall % V) ' (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians ) )^ 2 = ((90 %) ' (110)) / (17.0 / COS ( 1.5708 - 0.524) )^2 Lumens / sqft = 0.086 Angle: 35 UL Wall %H = 75 Radians = ANGLE ' (PI / 180) UL Wall %V = 65 Radians = 0 611 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) • (Candela)) / ( Room Size 0.5 / COS ( 1.5708 - Radians) ) ^ 2 =((75 %)'(110)) /(45.0 "0.5 /COS( 1.5708 - 0.611) Lumens / sqft = 0.054 Vertical Calculation Lumens / sqft = ( (UL Wall % V) ' (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians) )^ 2 =( (65 %)'(110)) /(17.0 /COS( 1.5708 - 0.611) Lumens / sqft = 0.081 Angle: 40 UL Wall %H = 75 Radians = ANGLE " (PI / 180) UL Wall %V = 46 Radians = 0.698 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) ' (Candela)) / ( Room Size • 0.5 / COS ( 1.5708 - Radians ) ) ^ 2 =((75 %)•(110)) /(45.0'0.5 /COS( 1.5708 - 0.698)) ^2 Lumens / sqft = 0.067 Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians ) )" 2 =((46 %)•(110)) /(17.0 /COS( 1.5708 - 0.698)) "2 Lumens / sqft = 0.072 "*"" SEE DISCLAIMER ON LAST PAGE """ M � A wheelock -- �Y ADA I 1 IN : r FIRE ALARM SYSTEMS Helping People Take Act CALCULATION DETAIL REPORT FOR WALL MOUNTED STROBES Calculation Parameters PRELIMINARY CALCULATIONS Candela : 110 Corner Angle (V) = ATAN( Strobe Height / Room Size ) Room Size : 45.0 (ft x ft) = ATAN(17.0 / 45.0) Strobe Height : 17.0 (ft) Corner Angle (V) = .361 Corner Angle (H) = ATAN( Room Size / 2 •Room Size) = ATAN(1 /2) • Corner Angle(H) = 0.46 Angle: 45 UL Wall %H = 75 Radians = ANGLE • (PI / 180) UL Wall %V = 34 Radians = 0.785 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) • (Candela)) / ( Room Size • 0.5 / COS ( 1.5708 - Radians ) ) A 2 = ((75 %) • (110) ) / (45.0 0.5 / COS ( 1.5708 - 0.785) ) ^2 Lumens / sqft = 0.081 Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians ) )^ 2 =((34 %)•(110)) /(17.0 /COS( 1.5708 - 0.785)) ^2 Lumens / sqft = 0.065 Angle: 50 UL Wall %H = 55 Radians = ANGLE • (PI / 180) UL Wall %V = 27 Radians = 0.873 Horizontal Calculation Lumens / sqft = ((UL Wall % H) • (Candela)) / ( Room Size • 0.5 ! COS ( 1.5708 - Radians ) ) A 2 = ((55 %) • (110) ) / (45.0 / COS ( 1.5708 - 0.873) ) ^2 Lumens / sqft = 0.070 Vertical Calculation Lumens / sqft = ((UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians ) )^ 2 = ((27 %) • (110)) / (17.0 / COS ( 1.5708 - 0.873) )^2 Lumens / sqft = 0.060 Angle: 55 UL Wall %H = 45 Radians = ANGLE • (PI / 180) UL Wall %V = 22 Radians = 0.960 Horizontal Calculation Lumens / sqft = ((UL Wall % H) • (Candela)) / ( Room Size • 0.5 / COS ( 1.5708 - Radians ) ) A 2 = ((45 %) • (110) ) / (45.0 ! COS ( 1.5708 - 0.960) )A2 Lumens / sqft = 0.066 Vertical Calculation Lumens / sqft = ((UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians) )" 2 = ((22 %) *(110)) !(17.0 /COS( 1.5708 - 0.960) "2 Lumens / sqft = 0.056 •••• SEE DISCLAIMER ON LAST PAGE '••• ' 1 MONO! ameba - BR EA 5 ADA vvrewi FIRE ALARM SYSTEMS Helping People Take Action " CALCULATION DETAIL REPORT FOR WALL MOUNTED STROBES Calculation Parameters PRELIMINARY CALCULATIONS Candela : 110 Corner Angle (V) = ATAN( Strobe Height / Room Size ) Room Size : 45.0 (ft x ft) = ATAN(17.0 / 45.0) Strobe Height : 17.0 (ft) Corner Angle (V) = .361 Corner Angle (H) = ATAN( Room Size / 2•Room Size) = ATAN(1 /2) Corner Angle(H) = 0.46 Angle: 60 UL Wall %H = 40 Radians = ANGLE (PI / 180) UL Wall %V = 18 Radians = 1.047 Horizontal Calculation Lumens / sqft = ((UL Wall % H) • (Candela)) / ( Room Size * 0.5 / COS ( 1.5708 - Radians ) ) ^ 2 =((40 %)•(110)) /(45.0 1.5708 - 1.047))^2 Lumens / sqft = 0.065 Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians ) )^ 2 _ ((18 %) • (110) ) / (17.0 / COS ( 1.5708 - 1.047) )^2 Lumens / sqft = 0.051 Angle: 65 UL Wall %H = 35 Radians = ANGLE (PI / 180) UL Wall %V = 16 Radians = 1.134 Horizontal Calculation Lumens / sqft = ((UL Wall % H) • (Candela)) / ( Room Size • 0.5 / COS ( 1.5708 - Radians) ) ^ 2 = ((35 %) • (110) ) / (45.0 *0.5 / COS ( 1.5708 - 1.134) ) ^2 Lumens / sqft = 0.062 Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians) )^ 2 =((16 %)•(110)) /(17.0 /COS( 1.5708 - 1.134))^2 Lumens / sqft = 0.050 Angle: 70 UL Wall %H = 35 Radians = ANGLE • (PI / 180) UL Wall %V = 15 Radians = 1.222 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) • (Candela)) / ( Room Size • 0.5 / COS ( 1.5708 - Radians) ) ^ 2 _((35 %) *(110)) /(45.0 1.5708 - 1.222) Lumens / sqft = 0.067 Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians) )^ 2 =((15 %)•(110)) /(17.0 /COS( 1.5708 - 1.222) Lumens / sqft = 0.050 ••'• SEE DISCLAIMER ON LAST PAGE '••• • o4 afar a1 Matta MEA g '' "' u FIRE ALARM SYSTEMS Helping People Take Action' CALCULATION DETAIL REPORT FOR WALL MOUNTED STROBES Calculation Parameters PRELIMINARY CALCULATIONS Candela : 110 Corner Angle (V) = ATAN( Strobe Height / Room Size ) Room Size : 45.0 (ft x ft) = ATAN(17.0 / 45.0) Strobe Height : 17.0 (ft) Corner Angle (V) = .361 Corner Angle (H) = ATAN( Room Size / 2*Room Size) = ATAN(1/2) Corner Angle(H) = 0.46 Angle: 75 UL Wall %1-1= 30 Radians = ANGLE • (PI / 180) UL Wall %V = 13 Radians = 1.309 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) • (Candela)) / ( Room Size • 0.5 / COS ( 1.5708 - Radians ) ) " 2 = ((30 %) • (110)) / (45.0 0.5 / COS ( 1.5708 - 1.309) ) "2 Lumens / sqft = 0.061 Vertical Calculation Lumens / sqft = ((UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians) )" 2 =((13 %)•(110)) /(17.0 /COS( 1.5708 - 1.309)) "2 Lumens / sqft = 0.046 Angle: 80 UL Wall %H = 30 Radians = ANGLE • (PI / 180) UL Wall %V = 12 Radians = 1.396 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) • (Candela)) / ( Room Size • 0.5 / COS ( 1.5708 - Radians ) ) A 2 = ((30 %) • (110) ) / (45.0 / COS ( 1.5708 - 1.396) ) "2 Lumens / sqft = 0.063 Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians) )" 2 = ((12 %) • (110) ) / (17.0 / COS ( 1.5708 - 1.396) ) "2 Lumens / sqft = 0.044 Angle: 85 UL Wall %H = 25 Radians = ANGLE • (PI / 180) UL Wall %V = 12 Radians = 1.484 Horizontal Calculation Lumens / sqft = ( (UL Wall % H) • (Candela)) / ( Room Size * 0.5 / COS ( 1.5708 - Radians ) ) " 2 _ ((25 %) • (110) ) / (45.0 / COS ( 1.5708 - 1.484) ) "2 Lumens / sqft = 0.054 Vertical Calculation Lumens / sqft = ( (UL Wall % V) • (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians) )" 2 =((12 %)•(110)) /(17.0 /COS( 1.5708 - 1.484)) "2 Lumens / sqft = 0.045 •'•• SEE DISCLAIMER ON LAST PAGE •••• um« uteitock — n --- ADA � . I r r FIRE ALARM SYSTEMS Helping People Take Action CALCULATION DETAIL REPORT FOR WALL MOUNTED STROBES Calculation Parameters PRELIMINARY CALCULATIONS Candela : 110 Corner Angle (V) = ATAN( Strobe Height / Room Size ) Room Size : 45.0 (ft x ft) = ATAN(17.0 / 45.0) Strobe Height : 17.0 (ft) Corner Angle (V) = .361 Corner Angle (H) = ATAN( Room Size / 2`Room Size) = ATAN(1 /2) Corner Angle(H) = 0.46 Angle: 90 UL Wall %H = 25 Radians = ANGLE ` (PI / 180) UL Wall %V = 12 Radians = 1.571 Horizontal Calculation Lumens / sqft = ((UL Wall % H) ` (Candela)) / ( Room Size • 0.5 / COS ( 1.5708 - Radians ) ) A 2 = ((25 %) ` (110)) / (45.0 ` 0.5 / COS ( 1.5708 - 1.571) )^2 Lumens / sqft = 0.054 Vertical Calculation Lumens / sqft = ((UL Wall % V)* (Candela)) / ( Strobe Height / COS ( 1.5708 - Radians) )^ 2 =((12 %)•(110)) /(17.0 /COS( 1.5708 - 1.571)) ^2 Lumens / sqft = 0.046 This utility uses data provided by the user to perform the calculations described in Chapter 7 of the 2002 edition of NFPA 72, which permits the use of a performance based alternative in lieu of tables for spacing wall or ceiling mounted strobe appliances. These calculations are described in Section 7.5.4.3 as follows and are to be provided to the authority having jurisdiction: To calculate performance based strobe coverage, the inverse square law is used to calculate the illumination at each of the angles in the horizontal and vertical planes per UL 1971 and the effect of polar distribution is included using the minimum percentages in UL 1971 or actual test results recorded by the Listing organization (per Section 7.5.4.3.2). The calculated illumination is required to be at least 0.0375 lumensfft squared at any point within the covered area (per Section 7.5.4.3.1). The calculation points are in the horizontal and vertical planes in 5 degree increments per UL 1971 (to comply with Section 7.5.4.3.2). For the effect of polar distribution (rated candela at each angle), the UL 1971 minimum percentages are used for the calculations. UL 1971 does not provide ratings for each angle based on actual test results. This utility is based on square rooms with wall mounted strobes on the centerline of the wall and ceiling mounted strobes on the center of the ceiling. WHEELOCK, INC. DISCLAIMS ALL WARRANTIES INCLUDING THE IMPLIED WARRANTIES OF MECHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. SEE NOTES 1 -3. Notes 1. Licensed professional engineer(s) should be responsible for proper specification, application, design, layout and installation of the equipment. 2. All wiring and product settings shall be in accordance with local, state and other applicable codes and standards, or as recommended by the 'AHJ' 3. All appliances to be installed shall be in accordance with local state and other applicable codes and standards, or as recommended by the 'AHJ' 1 o vee v''A AcasK RECEIVED ' ,vs vE UN- 101 B°° isoo OR cot F . fig 958> Gil . s , i20( / 4 JUL 2 8 2005 C °� ors ul I Y OF TIGARD BUILD NG DIVISION WASHINGTON SQUARE . • • • • • N r\ 5 04 FIRE ALARM • EQUIPMENT SUBMITTAL q\ � 1 ( ` GENERAL CONTRACTOR: HOWARD S. WRIGHT 425 NW 10TH AVE. SUITE 200 PORTLAND, OREGON 97209 SUBCONTRACTOR: OREGON ELECTRIC 1010 SE 11th Ave PORTLAND OREGON 97214 PROJECT SUPERVISOR: JODY LAPOINT 503 -849 -2044 SUBMITTED BY: OREGO��f R�. ELECTRIC GROU ' er DU •m The .,I'(rn su.ve et( C,wfarflea. Sat tiett. 1010 SE 11th Ave PORTLAND, OREGON 97214 Phone (503)234-9900 Fax (503)234-6608 Submittal Information FACP Battery Calculation 'Washington Square Mall SIEMENS FIS Division • • 'MXLV -1 (EXISTING) Battery Calculations Job No. 251023 - MXL Supervisory Current Alarm Current Notes Module Quantity Module Current (mA) Total Current (AMPS) Module Current (mA) Total Current (AMPS) MMB-3 1 175 0 175 175 0.175 80% Capacity (1.2 Amps Audible Circuits 6 12 0 072 1200 7 2 Atb21 105 0 0 0 XLD-1 215 0 0 0 Initiating Devices 1.1 0.000 1.1 0.000 PSR -1 70 0 70 0 MKB-2 1 5 0005 15 0015 RCC -1/1F 75 0 80 0 TSP-40 70 0 70 0 CSM-4 10 0 34 0 Audible Circuits 12 0 1200 0 CRM-4 1 15 0.015 15 0015 Relays 0 0 15 0 CZM-4 55 0 55 0 Zones 3 0 180 0 CMI-300 30 0 86 0 NET-4 5 0 5 0 NET -7 30 0 30 0 NET -7M 30 0 30 0 NIM-1 W 1 70 0.07 70 0 07 REP -1 40 0 40 0 MO1 -7 120 0 120 0 MOD-16 2 0 850 0 MID-16 2 0 32 0 CZM -1 6 0 50 0 80% Capacity (1.2 Amps ICP 18 0 1200 0 PIM-1 1 10 0 01 10 0 01 MDACT 1 150 0.15 150 0.15 Silent l(nIgM 60 0 130 0 ACM -1 85 0 85 0 TMM-1 71 0 71 0 VSM- 1NIM-1 17 0 160 0 VFM-1 17 0 90 0 ASC-1 1 22 0 022 41 0 041 ASC-2 22 0 61 0 OCC-1 17 0 17 0 BTC-1 44 0 44 0 RCM -1 150 0 130 0 80% Capacity (2 4 Amps ZAC-30 160 0 2400 0 ZC1-8B 2 19 0038 170 034 ZC24AB 19 0 167 0 2C2-8B 19 0 342 0 ZC3-4AB 18 0 168 0 ZCT-8B 2 34 0 068 78 0 156 PS-5N7 225 0 225 0 DMC-1 1 50 0.05 50 0 05 80% Capacity (80 Watta'_EL410D 200 0 8200 0 Total Supervisory Curren 0.675 Total Alarm Current 8.222 - Total Supr Current 0.675 AMPS Total Battery 16.885 AMP HOUR Hours of Standby 24 HOURS 30% UL Deration 5.066 AMP HOUR Total Supr Required 16.2 AMP HR Total Battery Required 21.951 AMP HOUR Total Alarm Current 8.222 AMPS Total Battery Supplied 33 AMP HOUR Minutes of Alarm 5 MINUTES Total Alarm Required 0.685 AMP HR. Page 1 oft Submittal Information FACP Battery Calculation !Washington Square Mall SIEMENS FIS Division ;MXLV -2 Battery Calculations Job No. 251023 -- - MXL - - Supervisory Current Alarm Current Notes Module Quantity Module Current (mA) Total Current (AMPS) Module Current (mA) Total Current (AMPS) MMB-3 1 175 0175 175 0175 80% Capacity (1.2 Amps Audible Circuits 6 12 0 072 1200 7 2 ALD-2l 1 105 0.105 0 0 XLD-1 215 0 0 0 Initiating Devices 120 1 1 0.132 1 1 0.132 PSR -1 70 0 70 0 MKB-2 1 5 0 005 15 0 015 RCC -1/1F 75 0 80 0 TSP-4O 70 0 70 0 CSM-4 10 0 34 0 Audible Circuits 12 0 1200 0 CRM-4 15 0 15 0 Relays 0 0 15 0 CZ/A-4 55 0 . 55 0 Zones 3 0 180 0 CMI -300 30 0 96 0 NET-4 5 0 5 0 NET -7 30 0 30 0 NET -7M 30 0 30 0 NIM-1 W 1 70 0.07 70 0 07 REP -1 40 0 40 0 MOI -7 120 0 120 0 MOD-18 2 0 850 0 MID-18 2 0 32 0 °ill CZM-1 8 0 50 0 80% Capacity (1 2 Amps ICP 18 0 1200 0 PIM-I 10 0 10 0 MDACT 150 0 150 0 Silent Knight 80 0 130 0 ACM-1 85 0 85 0 TMM-1 71 0 71 0 VSM- INLM -1 5 17 0.085 160 0 8 VFM-1 17 0 90 0 ASC-1 1 22 0 022 41 0 041 ASC-2 22 0 61 0 OCC-1 17 0 17 0 BTC-1 44 0 44 0 RCM-1 1 150 015 130 0.13 80% Cepaaty (2.4 Amps ZAC-30 180 0 2400 0 ZC1-8B 2 19 0 038 170 0 34 ZC2-4AB 19 0 167 0 ZC2-8B 19 0 342 0 ZC3-4AB 18 0 188 0 ZCT-8B 34 0 78 0 PS-5N7 225 0 225 0 DMC-1 1 50 0 05 50 0 05 80% Capacity (80 Watts, _ 200 0 8200 0 Total Supervisory Curren 0 904 Total Alarm Curren' 8 953 Total Supr. Current 0.904 AMPS Total Battery 22.442 AMP HOUR Hours of Standby 24 HOURS 30% UL Deration 6.733 AMP HOUR Total Supr Required 21.696 AMP HR. Total Battery Required 29.175 AMP HOUR Total Alarm Current 8.953 AMPS Total Battery Supplied 55 AMP HOUR Minutes of Alarm 5 MINUTES Total Alarm Required 0.746 AMP HR Page 1 of 1 • Submittal Information FACP Battery Calculation Washington Square Mall SIEMENS FIS Division • • •PSR -1 (EXISTING) Battery Calculations Job No. 251023 MXL Supervisory Current Alarm Current Notes Module Quantity Module Current (mA) Total Current (AMPS) Module Current (mA) Total Current (AMPS) MMB-3 175 0 175 0 80% Capacity (1 2 Amps Audible Circuits 12 0 1200 0 ALD-21 3 105 0.315 0 0 XLD.1 215 0 0 0 Initiating Devices 1.1 0 000 1 1 0 000 PSR -1 1 70 0.07 70 0 07 MKB-2 5 0 15 0 RCC -1 /1F 75 0 80 0 TSP-40 70 0 70 0 CSM-4 10 0 34 0 Audible Circuits 12 0 1200 0 CRM-4 15 0 15 0 Relays 0 0 15 0 CZM4 55 0 55 0 Zones 3 0 180 0 CMI -300 30 0 96 0 NET-4 5 0 5 0 NET -7 30 0 30 0 NET -7M 30 0 30 0 NIM-1W 70 0 70 0 REP -1 40 0 40 0 M01 -7 120 0 120 0 MOD-16 2 0 850 0 MID-1B 2 0 32 0 m CZM-1 6 0 50 0 80% Capacity (1.2 Amps ICP 18 0 1200 0 PIM-1 10 0 10 0 MDACT 150 0 150 0 Silent Knight 60 0 130 0 ACM-1 85 0 85 0 TMM-1 71 0 71 0 VSM- 1NLM -1 17 0 160 0 VFM-1 17 0 90 0 ASC-1 22 0 41 0 ASC-2 22 0 61 0 OCC-1 17 0 17 0 BTC-1 44 0 44 0 RCM -1 150 0 130 0 80% Capacity (2 4 Amps ZAC-30 160 0 2400 0 ZC1-8B 19 0 170 0 ZC24A8 19 0 187 0 ZC2-8B 19 0 342 0 ZC34AB 18 0 188 0 ZCT-8B 34 0 78 0 PS-5N7 225 0 225 0 DMC-1 50 0 50 0 80 % Capacity (80 Watts_EL4100 200 0 8200 0 Total Supervisory Curren 0 385 Total Alarm Current 0 07 Total Supr Current 0.385 AMPS Total Battery 9.246 AMP HOUR Hours of Standby 24 HOURS 30% UL Deration 2.774 AMP HOUR Total Supr Required 9.24 AMP HR Total Battery Required 12.020 AMP HOUR Total Alarm Current 0.070 AMPS Total Battery Supplied 18 AMP HOUR Minutes of Alarm 5 MINUTES Total Alarm Required 0.006 AMP HR Pagel of l 1. , .. • .._ . . . .. , - i SIEMEN Fire Safety • . . . . • 0 MXLV . . . Multiplex .Emergency Voice Alarm /Communication System ENGINEER AND ARCHITECT SPECIFICATIONS • Switched Multiplex Audio and Firefighter's 4 , Telephones - • _ . • . • Modular Design • 25 or 70..7 VRMS Audio Signals ■ _ • • 1, 2 or 3 Channel Operation it n .. • • Central or Distributed Amplification : k: io • Remote Command Consoles - ° 4 °• • Flexible•System Architecture +ti GI'. - • StyleY (Class B) or Z (Class A) Speaker Circuits O Z. • Redundant and Distributed Proces C • • StyleY (Class B) or Z (Class A) Strobe Circuits an a j l - 1111 • 1.8 Amps per Strobe Circuit . ..-• • LED Annunciator Modules • • • StyleY or Z Audio Risers • Backup Amplification ( ._ -.1 • SelectableTones with Backup . ., • • Auxiliary Audio Input . • Auxiliary Audio•O.utputs.forRecording Pages and SIEMENS ,• FirefightersTelephone Calls - .: 1 • Remote Intelligent Aiidio,•Strobe andTelephone • Zone Modules (ICP's) j l • Optional Power Limiting • Degrade ModeTone Generator OUUKL Listed for Smoke Control 4 • Optional Firefighter'sTelephone System • Campus Paging and Evacuation i • Fan Control (HOA) Modules 1 ; • Separate Call -in and.Telephone Zone Fault Indication • Digitized Voice Messaging • Acknowledge and BusyTones on Firefighter's • Custom Recordable Messages (Any Language is. Telephone Possible) • IntegratedTransponders • Spoken Coding • ® Listed, ULC Listed, CSFM, NYMEA, • SpokenWalkTest City of Chicago, and .FM Approved • Voice MessageText Programmable via AccuLINK NOTICE: The use of other than Siemens Fire Safety detectors and bases with Siemens Fire - Safety equipment will be considered a misapplication of Siemens Fire Safety equipment and as ) • LifeLINK - MXLV Global Network Voice (CSGM) such void all warranties either expressed or implied with regard to loss, damage, liabilities and/or Operation • service problems • ) • Peer -to -Peer Paging Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 10/01 Brampton, Ontario Siemens Building Technologies Tel: (973) 593 -2600 10M Canada �6T 9 9 C A T ALOG. N U M B E R FAX (9731593 -6670 SFS -IG Tel (905) 799 -9937 October 2001 5035 Fire Safety Website wwwcerbpyro corn Printed in U.S A. FAX. (905) 799 -9858 Supersedes sheet dated 3/00 __ - Description Speaker, Strobe and Firefighter's Telephone zones can MXLV is a switched multiplex Emergency Voice Alarm be provided as either plug -in type cards, installed in the and Communication System designed to be used as a main enclosure or in MXLRV transponders, or as remote part of the Siemens Fire Safety MXL. Its operation is Intelligent Control Points (ICPs), which connect to the fully integrated with the MXL and programmed via a MXL analog signaling line circuits. ICPs used for audio • III can only support single channel operation. laptop computer. The An auxiliary audio input is supplied for routing to the he system will respond rapidly to either automatic or manual commands from MXL logic or switch modules lowest priority audio channel. This input can provide for located on the command console(s). Audio signals such activation of an external audio signal on either an All Call or selective basis. In addition as Evacuation, Alert, Auxiliary or Page can be routed to . addition, a auxiliary audio output is , any number of speaker circuits. A wide selection of provided to record all activity on the paging channel and microprocessor controlled tones with backup are firefighter's telephone talk bus. available. Remote tone generators can be installed in Audio risers are fully supervised and can be wired as , ,MXLRV transponders to provide tone generation in a StyleY or Style Z circuits. All audio risers are power degrade mode. The system also supports the use of a limited. digital message player. One or speaker.and strobe The system may be designated to meet the require- circuits can be "mapped" to switches.through MXLs ments for multiple command centers with selectable AccuLINK programming software:'Switches can be paging. . used to manually activate or deactivate any zone. Through the use of multi -color LEDs a clear indication is System Modules provided showing which zones are active and linked to . which audio channel. OMM -1 Voice Module Cardcage ' The Microphone Master Module includes a dynamic This module is a cardcage for all MXLV related plug -in microphone with a push -to -talk switch and a ready -to- option modules. It occupies one MOM -4 type footprint • page indicator light along with a small local speaker and in the MXLV enclosure. It provides four slots for optional volume control for monitoring audio signals. An optional modules, such as OCC -1, ASC -1, ZAC -30, ZCT-8B, ZC18B, pre- announce tone is also available. etc., as well as terminals for applicable field wiring. The The MXLV's flexible. system architecture allows it to be terminals accept up t� 14 AWG wiring using saddle type , configured as either a single,dual or three - channel audio clamps. At least one OMM -1 or OMM -2 is required in system using-central or distributed amplification. each MXLV system. Multiple OMM -1s or OMM -2s may Automatic transfer to standby amplifiers can be pro- be used and located either centrally at the command • • vided in a• one for one or one for multiple mode. console or distributed in MXLRV enclosures. A standby amplifier can act as a backup for active amplifiers in any channel. Because of the field programming capability and plug -in card configuration, field wiring is kept to a minimum and sJ,� - t __ on site changes are easily made. � ? — _ As an option, the system can provide a Firefighter's _ _ �'. Telephone system that can provide both an "acknowl I _; c , •! 11111M±7111!17111t1/11! ?1 ? +!. 1 edge" tone and a "busy" signal. Clear indication is provided at the command console as to which zones are active. The Telephone Master Module provides a red master telephone with retractable coil cord, switch hook OMM -1 and push -to -talk button. ` • The telephone system uses a selective talk configura- OMM -2 Voice Module Cardcage This module is a cardcage for all MXLV related plug -in tion. Any phone that is plugged in or taken off hook will option modules. It occupies one MOM-4 type footprint in 1 light a specific zone indicator LED and sound an audible the MXLV enclosure. It provides two slots for optional signal at the command console.- Up to six telephones modules, such as OCC -1, ZAC -30, etc., as well as termi- may be active in the system simultaneously with no nals for applicable field wiring. The terminals accept up to loss of audio quality. 14 AWG wiring using saddle type clamps. At least one Remote paging can be provided from any telephone zone (Warden's Page) with selection at the command console. In addition, specific telephone zones can be pre - selected as automatic page zones on a selective or All Call basis. Speaker zones are selectable for either 25 Volt or 70.7 _' . °" :z. - __ C Volt operation and either Style (Class B) or Style Z r _ —i • (Class A) wiring configuration. Strobe circuits are rated � : �� __ «. _; at 1.8A and may be wired as StyleY or Style Z. . - * -- r OMM -2 combination of copper and fiber optic cable. The commu- MDG -1 Louvered Ventilation Plate - OMM -1 or OMM -2 is required in each MXLV system. OCC -1 Output Control Card nication path between RCM modules can be configured The MDG -1 is a louvered plate that mounts in either one . • Multiple OMM -1s or OMM -2s may be used and located The OCC -1 acts as a controller for up to 11 option .. to meet the requirements of either Style 4 or Style 7 for of the two openings in the MME -3 enclosure door or in either centrally at the command console or distributed in modules plugged into a maximum of three OMM -1 full bi- directional live voice paging or Style 4 one direc- one of the three openings in the MLE -6 enclosure door. MXLRV enclosures. cardcages.The OCC -1 plugs into one slot in the OMM -1 tion live voice paging. All communication paths are fully The MDG -1 is required on MXLV systems to provide or OMM -2. The OCC -1 accepts up to three channels of supervised. Short circuit isolation is provided between ventilation for the enclosures when using either the EL- • go, ACM -1 Audio Control Modul audio risers and a telephone riser. The BTC -1 optional This module acts as the main controller for MXLV. It degrade mode tone generator mounts on the OCC -1. RCM modules for an added level of system perfor- 410 or the ZAC -30 audio amplifiers in that enclosure. 9 9 mance , this is particularly important for campus paging One MDG -1 plate is included in the MDG -1 package. mounts on studs at the back of the MKB 2 that also contains the MXL display and keyboard. It provides an _ systems. interface between the MXL RS -485 network and other -f : • . ,,.. D. 1 : A. r ; •jriwnrI 1:-.: } i 1 MXLV modules. It also provides the microprocessor r i —� , p p D . .. - _ I. I I! - . ,_ controlled tone generator as well as primary and backup � ►►) ° J' .. I�•nnnn , . !" . • 1, . 7 : -i i !o �. 1 microphone pre -amps. t � _ i i ...7: a , f - �� l• _ - F , 1 1 a . •_ . . • • • -► _ - ` ,Y :4�� i i -� k I _ � i. "� =•a oe� reC F { i � i � / •� • • • r - 5F- � � .� ti a i� l . r 4 F• cso:ilT3 N. , i5 4u :79 i �. i c r't _, i C ti _ I[ �I ` y, „,.s.-7.---- ! . • —. a — — • { 2 L t., i uu.-,. I = �--� •t 1 - , • 3 • •— r • • • • r _. .-. 0 -- 1 ',p I ! tiles _, i� el�ioO • � ARAP1IFL 1111 J �Yi[bl�lt(t9fi J ' ) { : . ,,,, - __. --, ::l 1 • _.• OCC -1 MDG -1 'Y .,a • I - _ 1 ; z :. ` ... s , • - 1 ` ` 1 ,1:.-11; .; ,1o. - . 4, e - RCM -1 - • 1 , . o , y� � i ASC -1 Amplifier Supervision and Backup Card ' i t f a • lr t Url� I MPS -6 Transformer/Supply MRRC -1 Extension Cable `,f ,7,,t,,,,,„:4- 1, 4 • m ',V,;-;---.-'',,!, :' The ASC -1 plugs into one slot in an OMM 1 or OMM 2 The MPS -6 is a transformer /supply used with either the The MRRC -1 is a 4 conductor cable used to connect , #„G4_ :,� , -_- I. •_ S. _ y • l li cardcage and supervises up to 3 primary and one MXL MMB -2 or PSR =1. It mounts in the.bottom of the VSM, VFM orVLM modules from one row to.the next. ACM -1 backup amplifier(s) (EL- 410D). It also provides transfer MXL enclosure backbox and provides 6 Amps. of from primary to backup amplification during failure. One unfiltered, unregulated DC and includes screws for MHD -5 Deadfront Panel DM - C -1 Digital Message Card ASC -1 is required for each 3 primary amplifiers even termination of the primary AC, a circuit breaker and The MHD -5 is a sheet metal panel which attaches to the The DMC -1 is an MXLV optional module that provides the when no backup is used. Multiple ASC -1 s may be used transient protection: MSE -2 backbox. It fits in the lower section of the MXLV with voice message capability for evacuation, alert, to increase the primary to backup ratio. - enclosure. It has openings for one row of VSM -1 switch emergency or other building occupant information messag- modules, VFM -1 fan modules orVLM -1 LED indicator ing.The DMC -1 message text is programmed via the • • modules (one row of five) and attaches to the MSE -2 MXLV custom configuration software. Custom messages = [l , , a !, li s q Kit a with screw fasteners. When in place it covers and (30 seconds) may be recorded directly to the DMC -1 via _ — v (' ?_ i ` � protects modules and wiring, providing deadfront III • an external microphone or by connecting an external pre �`� F ti - -r >i construction in that area. recorded audio source. DMC 1 mounts in the OMM 1 . ,: _ ; 1 -- ” � 3 ? O o0 I cardcage and requires 1 of the 4 available OMM -1 slots . .' = :- `-� +�, f M " . MTE -2 PortableTelephone Enclosure MXLV supports up to two DMC -1 modules. \, ,.,,,,E `z -- 0 • , r f . { 1 • . i q (r � The MTE -2 is a sheet metal enclosure that can house up "' ,i . ;1 1 I ' . ' * R" T- . to six portable telephones. The door has a lexan window ; •, rzi r rri i r i n r i n r r i 'a. -i ; v= �'=p t T C `a ? p :4 • 1 ,. 11 , .. ._ . j • - -"•—°— e for visibility and a lock with key for security. _ • e _. ,--' +',• + ..' 1 : -I ) ,i---=--' 1 t , ll u ' r .- • t" " ",. _ M PS -6 ? y I E . . ASC -1 • r ,, l ; , MPS -12 Transformer /Supply . .:1 I o,� c_ • .. . The MPS -12 is a transformer /supply for use with the_ I • i; ; b ASC -2 Amplifier and Riser Supervisory Card !>. <<- I F ` • "�;, This card is used for amplifier supervision, transfer to MMB -2 or PSR =1. It mounts in the bottom of the MXL t - o Q - -1 . ` -' ` backup and high level audio riser in systems using enclosure backbox and provides 12 Amps. of unfiltered, - '11'2.:- j,'..,, . '.!:,-•,.0 " l ` r ∎ --- = } - , • central amplification with ICP remote zone modules or unregulated DC and includes screws for termination of - MXLV transponders. The output of the ASC-2 is super the primary AC, a circuit breaker and transient protection.. DMC - vised. It plugs into a slot in the OMM -1 or OMM -2 ; i MMM -1 Microphone Master Module cardcage. It supervises one primary and one backup EL- • 446 • • The MMM -1 contains a supervised microphone with 410D audio amplifier. Multiple ASC -2s can, be used to „� supervised push -to -talk switch and retractable coil cord. I, increase the primary to backup ratio. It also provides a ready to page LED and monitor o E 00 speaker with volume control. It mounts to the left of the + - --- 7'3;7 ® LCD display and keypad in the MXLV enclosure. '` ' r o o f0- 3_ 1{` s:;r.: : v 1 1 v; WARNING _ ' • - *.'17... lY •'• "•• "•-Y:: .'' . • MPS -12 fl .]S —. a; y " ° �rw • , , .:_ ,.„,„_,..).., - 40 ..;;:__-_:_...c,;', --2-2L",_- Q - ---" I ASC -2 MMM -1 . I VSM -1 Voice Switch Module of VSM -1 Switch Modules, VLM -1 LED Annunciator • The VSM -1 mounts in the front of the MXLV command ' ' i Modules,VFM -1 Fan Control Modules orVSB -1 Blank ,,, iri 4 a console in either the MHD 3, MHD-4 or MHD -5 hinged - Modules. Each row has space to mount (4) modules, for �__ , ' : gi i •n;- _ •, .y , ?�� 4 .t_ panels. It provides eight switches and 16 LEDs. The .�• ~' a total of (8) modules per MHD -4. The MHD-4 also has a � r .� .� ,._�,�;,_,- ; switches are mappable to output circuits through MXLV 1111 ! cutout to display the TSP 40 Internal Thermal Strip , : e , ,; i_1, _ ;-0��RI I ;,_,;,-y I .1- AccuLINK programming logic. T hey allow selection of ' i Printer. The MHD -4 mounts to the backboxes with paging or other audio signals to various circuits as well ■m h d _' Ls • R yN screw fasteners. It is hinged for easy access to the rear • e,a v. y i ,,I 1� a „,,t_r: m i° 9 Y as other general system switch control functions, such of the modules and inside of the enclosure. When in , rt 4,1'V=-2-.7-7-.:4 : = . as All Call, All Evac, Warden's Page, etc. Each switch is 1114 •'•• place, it covers and protects modules and wiring, 1 '1 I it 0:::,;:..- ., - -, providing dead front construction in that area. . �, L', 1ii x 1' i . , .k _./ = -' provided with 2 LEDs, one bicolor and one amber. The P 9 ,a ”_- � , ;.; -� z bicolor LEDs indicate circuit status activity as to which VFM - MMB audio channels and telephone zones call in. The amber - LED indicates a fault. Space is provided for labeling each • PSR -1 VSB -1 Switch Blank switch. Network Power Supply The VSB -1 is a blank plate which covers one VSMNLM/ I The PSR-1 is an intelligent power supply /battery charger wan __ VFM opening in either the MHD -3, MHD-4 or MHD -5 deadfront panels. It attaches to the MHD with screw for use with MXLR or MXLRV transponders as well as a ® fasteners. stand alone power supply. It is used in conjunction with =I-7.7 . the MPS -6 or MPS -12 transformer /supply. It can accept ® . - the NET-4 or NET-7 network interfaces and includes ® diagnostic LEDs and two system relays. It mounts in ®-; the upper section of the MXL enclosure backbox. _ = : MHD - 4 r' MSR -1 Rail Kit •y` The MSR -1 is a S type I d a I . ' ,i�)� , R: • stem 3 i . m• Y Yp e Rail Kit which fits into , . 1._ ? sip F •,� e} I �. : 11, 1 1 1 !'f:! VSM -1 either the MME-3 or the MLE -6 enclosures. The MSR -1 �. �! •. -, _∎ i. �-1- '1J:._ �,, ,. ; comes. with a U- bracket and a Z- bracket. It allows '`, " - ,i -� . ,_ ,_ . = � ' VLM -1 Annunciator Module modules such as the E amplifier, PS -35 Power 1 ` � �- `' J ' Supply, BC 35 Batte Charger, ,,,.ow mil The VLM -1 is an LED annunciator module that mounts in ry g , M01 -7 I/O I /0. Interface, = 1 � . 1 , � E � +' the front of the MXLV command console in either the VSB - MID -16 Input Driver, MOD -16 Output Driver, PS -5A . . . - Power Supply, SYS3 MPFO for mounting the D2300CP , _ 1 �%'ri _ , �i v 1111'1, � _ 46 : ` MHD -3, MHD -4 or MHD -5 hinged panels. Each VLM -1 c ► provides eight sets of LEDs, one capable of being lit red ZC1 -8B Zone Card fiber optic interface modules or the CCU Pager interface, j, 6664 > -r8.--, . I �h, � •� �� 111.1 MOO L- • M �..- _ -.... .i 4YfY �; l. AMR. GA_ or green, and one amber. A space is provided for 1 Channel Audio (2 or 70V)/ Strobe or any other System 3 type module required to be •.- mounted in the MME -3 or the MLE-6 enclosures. PSR - • labeling the LEDs..The LEDs are assignable through the The ZC1-8B is a plug in speaker or strobe zone card. It • MXLV AccuLINK programming software for annunciation plugs into a slot in either the OMM -1 or OMM -2 When used in the MME -3 enclosure (3) MSR -1 Rail Kits RCM -1 Audio Riser Control Module of alarm and trouble or status (such as fan or dampers cardcages. ZC1 -8B contains 8 Class B speaker or strobe can be installed to mount up to three rows for up to (3) The RCM -1 adds the capability of inter panel paging or status). circuits. The 8 zones can be divided into groups of 3, 3, EL-410 amplifiers. When used in the MLE -6, up to (5) The to peer" paging to MXL LifeLINK networks. MXLV and 2; where each group can either use strobe or speaker MSR -1 Rail Kit rows can be installed to allow mounting systems are designed to provide full stand alone life circuits. Strobe circuits are limited to 1.8 amps @ 24VDC up to (5) EL-410 amplifiers. When the MLE -6 enclosure is safety protection, voice evacuation and paging capability, S • each. When used for 25V speaker circuits, each zone is used with the MBR -MP mounting plate to install MXL or the RCM -1 adds the ability to be able to send a live voice I= " rated at 45 Watts max. When used for 70V speaker MXLV equipment, up to (2) MSR -1 Rail Kit rows can also paging announcement to any or all other MXLV stand _ . circuits, each zone is rated at 70 Watts max. The maximum be installed in the MLE -6 for mounting of either (2) EL alone systems that are connected as part of the LifeLINK ZC1 -8B card (all zones) wattage is 300 Watts. For applica- 410 amplifiers or some complement of System 3 type - network. The RCM -1 provides a "global page riser" that NM : tions that require high speaker loads on a single zone, ZC1- mount modules. connects MXLV systems together and operates in MI < 8B cards are capable of up to (3) 100 Watt, 70V speaker various configurations to meet an almost unlimited IIIM : zones when audio is supplied by (3) separate EL-410 1 number of combinations of inter-panel audio communica- • amplifiers. For Strobe or non coded horn applications, the ., _ tion requirements. • ZC1 -8B card (all zones) is rated for a maximum card load of — VLM - 14.4 amps @ 24VDC. If power limiting of zones is required • -.._- V j The RCM -1 is designed for applications that call for live the PLC -4 and the appropriate PL864 (PL864 -25A, PL864- 5 voice paging between buildings, such as are required for 70A, PL864 -25S) current limiting module(s) must be used. __ ___ campus, industrial facilities, and other multiple building VFM -1 Voice Fan Module — � • — sites. These applications typically call for independent, The VFM -1 mounts in the front of the MXLV command - ... stand alone life safety systems with live voice paging both console in either the MHD -3, MHD-4 or MHD -5 hinged - , •• , 3_ - =- '• • -, ___ _ within each individual building and between buildings in control application It provides (4) 3 position rotary switches for fan lication y 4l;��� ��i i ' rill r �,'I r1 `" } i '1'` • LJ. JL - any combination. requiring " 1- _ n l`: - ,.•, 1 • PP q uirin 9 � hand- off - auto control. The -e� � __ ��! 1 MSR =1 switch positions are on off and automatic. 3 LEDs are .1i_ ,: - -- _ ., t i {i The RCM -1 also provides the option within a single or provided with each switch to indicate on off and ��!e` 1= `]'_,_ kn�j�� ��j' n;ln MMB -2 MXL Main Board multi building application of multiple unique command consoles, or subset command consoles for paging system trouble. Switch control is programmable through the ,;li,i,__�" o f� i.-=.— , ..,. , , „ ,,, , MXLV AccuLINK program. A space is provided for ;:k _.. �- - — ,+-- :- :: •�- ii l ° , - - The MMB -2 is the main control board of the MXL. When control. 1.T,(,i(iii "Alf labeling the switches. j = n �i:r -j" rtJ a i�? ;It,.,. �i used in an MXLV system, it acts as the central system The RCM -1 plugs into a full OMM -1 or OMM -2 cardcage • r.:ws �. r:•• •� - u. 0 1- Ji v III controller. It also supplies two ALD circuits and two slot and communicates directly with the MXLV system via - •^ •'�•—'• - i notification appliance circuits along with three system TTL logic. The RCM -1 provides control and supervision of ZC1 - 8B relays. The MMB -2 mounts in the MXL enclosure global page risers in MXL Voice networks. The audio backbox. communications path between RCM modules will support f the use of twisted pair copper wire or fiber optic cable or a P • • . . • ZC2 -8B Zone Car Watts max. When used for 70V speaker circuits, each zone • - , - • 2 Channel Audio (25V or 70V) is rated at 70 Watts max. The ZC3 -4AB total speaker load The ZC2-8B is a plug in 25V or 70V speaker zone card. It (wattage total for all zones) maximum is 100 Watts. For '. • -.• plugs into a slot in either the OMM 1 or the OMM-2 card- applications that require high speaker loads on a single cage. ZC2 -8B contains 8 Class B dual channel speaker zone, the ZC3 -4AB is capable of a single 100 Watt, 70V • circuits. When used for 25V speaker circuits, each zone is audio zone. If power limiting of zones is required the PLC- rated at 45 Watts max. When used for 70V speaker 4 and the appropriate PL864 (PL864 -25A, PL864 -70A, circuits, each zone is rated at 70 Watts max. The ZC2 -8B PL864 -25S) current limiting module is required. • 11111 • total speaker load (wattage total for all zones) maximum is • . 100 Watts. For applications that require high speaker loads - - . - MBR - 3MP MHD - on a single zone, the ZC2 -8B is capable of_a single 100 , I ' •• 1� fi L,,,, t • T] _ • t he PLC-4 and i the a e power ate e PL864 (PL864 -25A, d rl ' r i �bt, ._ r 'I, MDL -1 Clear Lens MHD -2 Lower Dead Front Panel pP ro p PL864 1 ( ('� H n The MDL -1 is a clear Plexiglas' lens which fits in either The MHD 2 is a hinged sheet metal panel which attaches 70A, PL864 -25S) current limiting module must be used 1 1 { I ' $' I • • 'I, = one of the two openings i n the MME -3 enclosure door or )•• - '•' to either the MME -3 or the MLE -6 backboxes. It mounts . �_ ' ( ��.� .l I .1 - ..i i .� ..i ..i i - i . i i i I i i i �: _ =: - . " `! fii� `' in one of the three openings in the MLE 6 enclosure in the lower section on the MME -3 and on the lower two Et.,,Xr 'z� 'ss ? door. One lens is included in the MDL -1 package. sections of the MLE -6 backbox. It has no o enin sand , II y : 5 -. I lit 1 1 1 1 . 1 ',: i'® • • attaches to the enclosures with screw fasteners. When i� '• � • . q you 7a=-1 � L�S �tr r� , i' i C 7E ]E ] 19 iE ] wiring g, ) r w w - a v. - providing dead front construction in that area ' ,1 ,, w "' ZC3 -4AB y • ` ) +1 , '1' - t; . _ T -1 Telephone Master Module rf " t :T u — �" =i ^ w �� The TMM -1 provides a master firefighter's telephone : • • •• 1 __,, i handset (push -to- talk), switch hook and telephone riser • interface circuitry. It mounts to the right of the MKB -2 ZC2 -8B that also contains the MXL display and keyboard. ZC2 -4AB Zone Card • MDL -1 2 Channel Audio (25V or 70V) / Stro The ZC2 -4AB is a plug in speaker or strobe zone card. It — MDB -1 Sheet Metal Blank Plate plugs into a slot in either the OMM -1 or the OMM -2 The MDB -1 is a sheet metal blank plate which fits in cardcage. ZC2 -4AB contains 4 Class A or B dual channel speaker I MHD eaker circuits or Class A or B strobe circuits. Strobe/ either one of the two openings in the MME -3 enclosure p door or in one of the three openings in the MLE -6 enclo- non coded horn circuits are limited to 1.8 amps @ 24VDC sure door. One blank plate is in the MDB -1 package. MHD -3 Middle Dead Front Plate for Mounting each. When used for 25V speaker circuits, each zone is Switch /LED /Fan Control Modules rated at 45 Watts max. When used for 70V speaker The MHD -3 is a hinged sheet metal panel that attaches circuits, each zone is rated at 70 Watts max. The ZC2 -4AB ('' "' to the MME -3 or MLE -6 backboxes: It fits in either the total speaker load (wattage :total_ for all zones) maximum is • • middle of the upper sections of these enclosures. It has 100 Watts. For applications th - at require high speaker loads TMM -1 openings for two rows of VSM -1. Switch Modules, VLM -1 on a single zone, the'ZC2 -4AB is capable of a single 100 LED Annunciator Modules, VFM -1 Fan Control Modules Watt, 70V audio zone. If power limiting of zones is required ZCT-8B Telephone Zone Card orVSB -1 Blank Plates. Each row•can mount up to (7) the PLC-4 and,the appropriate. PL864 (PL864-25A, PL864- The ZCTBB is a plug -in optional module that provides modules for a total of (14) modules per MHD -3. The 70A, PL864 25S) current limiting module is required. eight Class B telephone zones with acknowledge and MHD -3 attaches to the backboxes with screw fasteners. .- - busy signals. It plugs into a slot in the OMM -1 or OMM= r . It is hinged for easy access to the rear of the modules I 2 cardcage. and inside of the enclosure. :rx=;1 r MDB -1 .,. '- n ice: ,:- ' II J,Jij u • _1 •_ 'ffir llllll. • ; M HD -1 Upper or Middle Dead Front Panel ' _ - 1 ,� ' � , ' I P-1P i; j tli i .141 ; The MHD -1 is a hinged sheet metal panel which at- - -_ °.; . i . ��,_y� .Q I (t, '; !: taches to either the MME -3 or the MLE -6 enclosure ,s rr ,: , ':,,,}i,i �l -- 111111. / r -. — , ` l '1 ° :� ; l' • 1: _ ; It }ip F -� n backbox. It fits in either the. upper or the middle section r • ', r ;frt.-;n " ' r` f°° r ► • • t ' 1 i0 f� ' '' 4.1 likp of the MME -3 backbox or the upper or either of the two , , ?}i 'l i, 1�) "r :'1 . , •.. � 1�u"� II p ( middle sections of the MLE -6 backbox. It has an opening ��r i ��: t "F''I elf- , ZC2 -4AB v- l:F with a cover plate for the TSP -40 printer when used and � J ' y €a �,�p ; ' • ' \# : . attaches to the backboxes with screw fasteners. When in place it covers and protects modules and wiring, - . MHD-3 ZC3 -4AB Zone Card ZCTBB providing dead front construction in that area. 3 Channel Audio (25V or 70V) / Strobe . • MHD -4 Middle Dead Front Plate for the Switch /LED/ The ZC3-4AB is a plug in speaker or strobe zone card. It 0 Fan control Modules with Printer Cutout plugs into either the OMM -1 or the OMM -2 cardcage. The MHD-4 is a hinged sheet metal panel that attaches to • ZC3 -4AB contains 4 Class A or B three channel speaker g P circuits or Class A or B strobe circuits. Strobe /non -coded the MME -3 or the MLE-6 backboxes. It fits in the middle horn circuits are limited to 1.8 amps @ 24VDC each. When section of both enclosures. It has two rows for mounting used for 25V speaker circuits, each zone is rated at 45 TBM -2 Terminal Block Module ZAC -30 MME -3 is designed for surface of semi -flush mounting MLE -6 MXL /V Large Size Enclosure The TBM -2 provides screw terminals for field wiring Amplifier /Speaker Zone and includes various knockouts for wire and conduit The MLE -6 enclosure set consists of a sheetmetal such as audio and telephone risers, auxiliary inputs and The ZAC -30 is a combination 30 Watt Amplifier Speaker entry.The door in the MME -3 set has two cutouts for backbox and door with two key locks.The MLE -6 can be outputs.TheTBM -2 mounts in the MBR -2 or MSE -2 Zone for use with MXLV. StyleY orZ and Class NB either clear lenses, blank plates or grills depending on used for either the MXL system, MXLV Voice Command enclosure backboxs. It includes an RCA type Auxiliary speaker zones are supported. ZAC-30 is power limited • • the application, and contains a key lock. Console, MXLR Transponder, MXLRV Voice Transponder audio input jack and auxiliary audio output jacks for and provides 30 Watts of audio at either 25 Volt or 70.7 or Amplifier Equipment (using the MSR -1 rail kit). To recording both page and telephone. Volts. ZAC -30 plugs into one slot of OMM -1 or OMM -2 mount MXLN modules in the MLE -6, the MBR -MP cardcage and provides 1, 2, or 3 channel operation via - - removeable module mounting plate is required with the input signal switching. A single ZAC -30 can be used to - " '1,0 MBR -3MP optionally available for use. Using the MBR - provide amplifier backup to a single or many ZAC -30s. MP mounting plate (1) MMB or PSR -1 and up to (3) ZIetttRr,rr.PR*r,e expansion cardcages (MOM or OMM) can be mounted p y � in the MLE -6. If additional cardcages are required, the i s •,,, L�;i�+ MBR -3MP optional cardcage mounting plate can also be ct _ installed in the MLE -6 below the MBR -MP. The MBR - T « • y' C - • 3MP allows mounting of an additional (3) MOM or OMM •,_-:'•". �` • < .. module expansion cardcages. Z 0 a = I Various combinations of hardware can be installed in the MLE -6. If only amplifiers are to be installed in the MLE - TBM - = • 6, no MBR -MP or MBR -3MP plates are required. Instead "Y_ 4"'` - SIEMENS up to (5) EL-410 amplifiers can be installed by using (5) BTC -1 BackupTone Card ZAC - 30 MME - MSR -1 rail kits. The MLE -6 can also be used to mount The BTC -1 provides two simultaneous tones, selectable up to (3) MXL cardcages and (2) amplifiers. This configu- through DIP switches. It can be used in conjunction with MKB -2 Display /Keyboard ration would be typical of a remote voice transponder the ACM -1 module to provide a backup tone generator The MKB -2 mounts on a hinged frame in the MXLV MBR -MP MME -3 and MLE -6 MXL Module Mounting cabinet. In this configuration (1) MBR -MP would be used or plugged onto the OCC -1 board to provide a degrade enclosure and provides a two-line, 80 character LCD Plate in the upper half of the MLE -6 to mount the MXL mode tone generator in the MXLRV transponders. display, indicator LEDs, display control keys, numeric The MBR -MP MXLN Module Mounting Plate is required modules, while the lower half would use (2) MSR -1 rail keypad, user programmable function keys and all other for use in both MME -3 and MLE-6 enclosures to mount kits to mount up to (2) EL-410 amplifiers. keys necessary for operator control. These keys include all MXL and MXLV equipment. MBR-MP is not neces �:, . ' -.I :. : sary if the MME -3 and MLE -6 enclosures are to be used The MLE -6 is designed for surface or semi -flush mount- -' ' i 7" gI ' but ut are not limited to: Acknowledge, Silence and Reset. , only for mounting of amplifiers (EL-410). ing and includes various knockouts for wire and conduit •:: "�i I a i spaces for mounting the MMM -1 micro - r" ' �!� p g entry. The door supplied with the MLE -6 set has (3) .. . -1 -Y"•• • p mo and theTMM -1 telephone.The MKB -2 is The MBR -MP is a removeable MXUV module mooting • , k q : :_. . ° p pOO0000 000 ma' : „ : sup plied with two blank plates for use when either the • • plate that allows the enclosure MME -3 or MLE-6 to be depending on the application. The door also contains (2) microphone . , • _ , :';: ' icrophone or telephone are omitted. • shipped to the job site for installation of wiring and key locks — keyed the same. Various combinations of !� !! -) , != ' conduit, while the system hardware (electronics) is dead front mounting plates are possible with the MLE -6 _w ,� . MBR-MP, i,€ �` , �•,_. ;( {� P pre enclosure. A typical MXLV installation would have (1) �,: +� . � q ,, • t ; m ounted to the studs on the programmed and tested prior to delivery and installation MKB-2 at the top, and (2) MHD-3 dead front plates in - _. � at the job site. This allows for quicker, more efficient the middle (for (14) VSMNLM/VFM modules per plate) BTC - system start ups with less chance of the sensitive and (1) or (2) MHD -2 lower dead front plates. p• - electronics being damaged while field wiring and ;F' M ..a. EL -410D Amplifier i conduit are connected to the system enclosure. — L - The EL-410D is a 100 Watt RMS audio amplifier that can !R — MBR -MP mounting plate bolts to either the MME -3 or • be configured to provide either 70.7 Volt or 25 Volt pw(gt.1-',r7E. ,c. - 9 , f•) r.) i_, r MLE -6 enclosures for easy installation on the job site. output. It can be used in either a central or distributed i ;:Jo,uf= „I - _ o ■ mode. It mounts on System 3TM type rails and occupies �•' -_,.__ The MBR-MP also has handles to allow easy transport one complete row. It operates from 120 VAC and sup- and mounting. The MBR -MP contains mounting studs for ports the use of battery backup. Battery inputs are (1) MMB or PSR -1, (1) PIM -1, (1)TBM -1, and up to (3) supervised for high or low voltage. MKB MOM or OMM cardcages or 2 cardcages and (1)TSP -40 Printer (same mounting studs as the MBR -2 enclo- _- • MME -3 MXL /V Standard Size Enclosure sures). War ”' The MME - 3 enclo sure set consists of a sheetmetal -- I �,� � " � . I , The MBR -MP is ordered and shipped seperately from MLE - backbox and door with keylock.The MME -3 can be used the MME -3 and MLE -6 enclosures. • for either the MXL System, MXLV Voice Command MBR -3MP MLE -6 Optional Cardcage Mounting Plate •.. ' ' • ` TR 1a - Console, MXLR Transponder, MXLRV Voice Transponder The MBR-3MP is an optional MXUMXLV cardcage ''''-'' ` BATTERY - ♦:,.eta i • FAULT T or Amplifier Equipment (using the MSR 1 Rail Kit). To mounting plate for use exclusively in the MLE -6 enclo- '* / _ mount MXUMXLV modules in the MME -3, the MBR -MP sure. When installed in the MLE -6 backbox, the MBR- • '' i a removeable module mounting plate is required. Using 3MP adds the option of mounting up to an additional (3) • C" "` a w.,;. •• t he MBR -MP mounting plate (1) MMB or (1) PSR -1 and . `" - , •. -- , , , , ,, ,,,,,,,,,, • g p MOM or OMM expansion cardcages. B ' up to 3 expansion cardcages (MOM or OMM) can be EL mounted in the MME -3 enclosure. When used to mount • • MXL amplifiers (EL-410), the MBR -MP is not required, instead up to (3) EL-410 amplifiers may be installed in the MME -3 by using (3) MSR -1 rail kits. When amplifiers �. are mounted in any enclosure always install MDG -1 grills in the door for proper ventilation. MBR - MP SIEMENS Fire Safety ASC -1 /ASC -2 MXLV Amplifier Supervisory Cards Fire Alarm Panel Accessory ENGINEER AND ARCHITECT SPECIFICATIONS f • Amplifier Input And Output Supervision I '; - ; • Variable Backup Amplifier Ratio — _ • Automatic TransferTo Backup ,N ° e • ' Amplifier ���: I , - 440 • Plugs Into OMM -1/2 Cardcage �. '�"�` �'ry ^�`_., imilso I • ® Listed ULC Listed CSFM, ! , ' " ' City Of Chicago o- • Ili Description ASC -1 ASC -2 The Siemens Fire Safety ASC -1 is an MXLV card which The Siemens Fire Safety ASC -2 is an MXLV card which plugs into one slot of the OMM -1 or OMM -2 cardcage. plugs into one slot of the OMM -1 or OMM -2 cardcage. It supervises the output of up to three primary and It supervises the output of one primary and optionally, optionally, one backup amplifier. The amplifiers may be one backup amplifier. on the same or different audio channels. One ASC -2 is required for each primary amplifier, One ASC -1 is required for each 3 primary amplifiers, whenever a high power audio riser is to be connected even if no backup amplifiers are being used. to ICP Control modules or ZC Zone cards in remote enclosures, even if no backup amplifiers are being The ASC -1 monitors and compares the channel riser used output on the OMM -1/2 to the EL-410D amplifier output. If it determines that the output of any primary The ASC -2 monitors and compares the channel riser amplifier is incorrect, it will automatically transfer output on the OMM -1/2 to the EL -410D amplifier operation to the backup amplifier. The backup amplifier output. If it determines that the output of any primary may be shared by multiple ASC -1 cards providing the amplifier is incorrect, it will automatically transfer ability to determine the primary to backup ratio. If operation to the backup amplifier. The backup amplifier desired, backup amplification can be provided on a one may be shared by multiple ASC -2 cards providing the for one basis, using one ASC -1 for each primary /backup ability to determine the primary to backup ratio. If amplifier set. desired, backup amplification can be provided on a one for one basis, using one ASC -2 for each primary/backup Each ASC -1 occupies one OCC -1 sub - address. The amplifier set. address is set using an on -board DIP switch. A second DIP switch is provided for configuration of the ASC -1. Each ASC -2 occupies one OCC -1 sub - address.The address is set using an on -board DIP switch. A second Connections between the amplifiers, audio riser DIP switch is provided for audio configuration of the busses and the ASC -1 are made through the ASC -2. appropriate OMM -1/2 screw terminals. This equipment is approved for operation over the temperature range of 0 °C to 49 °C. CATALOG NUMBER 5020 • Connections between the amplifiers, "audio riser Ordering Information busses and the ASC -2 are made through the Part appropriate OMM -1/2 screw terminals. Model Description Number This equipment is approved for operation over the ASC-1 Amp Supervisory Card 500 -891187 temperature range of 0 °C to 49 °C. Installation Instructions 315-091263 ASC -2 Amp Supervisory Card 500 - 892084 Installation Instructions 315 - 092085 • Electrical Ratings ASC -1 High Level Outputs: 25V RMS, 100W 70.7V RMS, 100W Backup Amp Input: 1V:RMS • • • ASC -2 High Level Outputs: 25V RMS; 100W 70.7V RMS, 100W • Backup Amp Input: 1V RMS TABLE 1 - SPEAKER ZONE DECIBEL LOSS (25VRMS) TABLE 2 - SPEAKER ZONE DECIBEL LOSS (70VRMS) Gauge Gauge Length 14 AWG 116 AWG 118 AWG Length 16'AWG 1 18 AWG (feet) (Loss in decibels) (feet) (Loss in decibels) 200 0.2 0 3 0.6 - 200 0 04 0 06 400 0.5 0.7. 1.1 400 0 07 0.11 600 0.7 11 1.6 600 011 0.17 800 0.9 15 2.2 800 014 0.22 1000 1.2 1 8 2 7 • NOTICE: The use of other than Siemens Fire Safety detectors and bases with Siemens Fire Safety control equipment will be considered a misapplication of Siemens Fire Safety equipment and as such void all warranties either expressed or imphed.with regards to loss, damage, liabilities and/or service problems Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park NJ 07932 2/02 Brampton, Ontario Siemens Building Technologies Tel: (973) 593 -2600 5M Canada L6T 5E4 g g IeS FAX (973) 593 -6670 SFS -IG Tel (905) 799 -9937 February 2002 Fire Safety Website: www cerbpyro corn Printed in U S.A FAX: (905) 799 -9858 Supersedes sheet dated 11/00 SIEMENS Cerberus Division 0 CC - 1 MXLV Output Control Card ENGINEER AND ARCHITECT SPECIFICATIONS • Controls and Supervises Up to 11 Audio Output Cards - • Gold Plated Card Edge Fingers y4 u —'° i ' 21 1 . • Plugs Into OMM -1 or OMM -2 Cardcage I • T f" °. • ® Listed, - J ; -� -- -: r ULC Listed, FM i =16 3 . 60c 9 rY c< . -. v. CSFM, NYMEA and City of Chicago Approved - Description supplied with each OCC -1 which when inserted into the The Cerberus Pyrotronics OCC -1 Output Control Card is card edge slot will prevent any other option module from being inadvertently placed in that location. an MXLV module which plugs into a half width -slot in the OMM -1 or OMM -2 Cardcage. The OCC -1 acts as a A BTC -1 may be plugged onto the OCC -1 to provide a controller for other MXLV modules. It processes com- • backup tone generator for use in degrade mode. mands received from the MXL network and directs them to the appropriate cards or modules, producing the Engineer and Architect Specifications desired output. Up to three audio risers connect to the OCC -1 through screw terminals on the OMM -1 or OMM- Plug -in cards shall be supervised and controlled using a 2 Cardcage. The Firefighters Telephone riser also con- microprocessor based module (OCC -1) through which nects to the OCC -1. The audio buses are routed to the audio and telephone riser circuits are routed. This respective audio channel amplifier sets, either central or module shall also be a plug -in card and shall occupy one distributed. The telephone riser is routed to either the half width slot in the OMM -1 or OMM -2 cardcage and ZCT zone cards or the ICP telephone zone modules. one address on the high speed RS -485 network bus. The OCC -1 supervises the cards plugged into the Network addresses shall be set using on -board DIP OMM -1 or OMM -2. As each card is supervised, it switches. This module shall control and supervise up to responds with its status. This status information is then 11 plug -in cards. Multiple OCC -1 cards shall be used to sent to the MXL over the high speed RS-485 network accommodate additional option modules as needed. bus as required. The OCC -1 shall provide the ability to use a plug -in backup tone generator for operation in a degrade mode. At least one OCC -1 is required in the MXLV system. It can supervise and control up to 11 plug -in cards each The controller shall be supplied with a key which when having a unique sub - address (3 full OMM -1's). Additional inserted into the card edge slot will prevent any other OMM -1's can be added as necessary. Each OCC -1 option module from being inadvertently placed in that occupies one MXL network address and provides the 11 location. sub - addresses. The MXL network address is set using a DIP switch on the OCC -1 card. The OCC -1 card edge Module card edge fingers shall be gold plated. fingers are gold plated for maximum reliability. A key is CATALOG NUMBER 5021 Electrical Ratings: End of Line Resistors: Audio Risers: 10K Ohms, 1/2 watt, 5% Max Loop Resistance: 20 Ohms (both wires) P/N 140 - 820396 Max Wire Size: 14 AWG twisted, shielded pair Telephone Risers: 5.6K Ohms, 1/2 watt, 5% P/N 140 - 820390 Min Wire Size: 18 AWG twisted, shielded pair OCC -1 Wiring Diagram . SUPERVISED, TYPICAL RISER CONNECTIONS POWER UMRED AUDIO RISER I + \ TO THE NEXT 2 EOL AUDIO RISER I- — OCC -1 IN THE 3 SYSTEM 4 ® + - AUDIO RISER I SHIELD • 5 — AUDIO \ RISER 2 6 SH AUDIO RISER I + FROM THE .TBM -1/2 ' - 7 ® + - AUDIO RISER 1- — OR PREVIOUS 8 - AUDIO AUDIO RISER 1 SHIELD OCC-I IN THE SYSTEM SH ~ RISER 3 9 - - 0 ® + - All wiring must conform to National and Local codes 1 - - — TELEPHONE Notes: RISER 1 'If this is the last or only 0CC -1, terminate the inputs shown as 2 SH - follows: - 3 ® Audio risers' 10K, • W, 5% (P /N 140 - 820396) . 4 ® NO Telephone riser. 5 6K, • W, 5% (P /N 140- 820390) 2. Maximum loop resistance: 20 ohms for telephone and audio risers - 5 ® CONNECTIONS 3. Minimum wire size: 18 AWG twisted pair, shielded 1 - 6 & Maximum wire size. 14 AWG twisted pair, shielded 7 TO AMPUFIER A INPUT+ PLACE AMPUFIER INPUT AND OUTPUT • 8 ® TO AMPUFIER A INPUT+ CABLES IN SEPARATE CONDUITS • 9 ® TO AMPUFIER B' INPUT+ TERMINATE THE 20 ® TO AMPUFIER B' INPUT - — SHIELD AT THE AMPLIFIER 2- ® TO AMPUFIER C' INPUT+ 22 ® V TO AMPUFIER C INPUT - r \ SUPERVISED, POWER LIMITED Ordering Information Model Description P/N OCC -1 MXLV Audio Output Control Card 500 - 891184 Refer to Installation Instruction P/N 315-090918 • Cerberus Division Cerberus Division 8 Fernwood Road 50 East Pearce Street Florham Park, NJ 07932 7/00 Richmond Hill. Ontario Siemens Building Technologies Tel (9731593 -2600 10M L4B, 1B7 CN 9 9 FAX: 1973) 593.6670 SCD -IG Tel: (905) 764 -8384 July 2000 Cerberus Division Website www.cerbpyro corn Panted in U S A. FAX (9051731 -9182 Supersedes sheet dated 9/98 1 CERBERUS PYROTRONICS • • • ACM -.1 • LifeLINK — Audio Riser Control Module ENGINEER AND ARCHITECT SPECIFICATIONS • LifeLINK — MXLV Global Network Voice Interface • Peer -to -Peer Paging Capability • Multiple Unique Page Command Centers .�,- - "' '' ' "' j,•=-3:41116 • Style 4 or Style 7 Inter -Panel Audio Communication w. l _ } �__.. • -. ��. • ♦Y 600 R[1� 1 . .•• • Audio Signal Repeater j >J = .... • r. • Copper, Fiber Optic or Combination a:f 4 . ' .~„ Inter -Panel Audio Communication • Campus Paging and Evacuation • ®Listed • • Description global page risers in MXL Voice networks. The audio communications path between RCM modules will support The RCM -1 adds the capability of inter -panel paging or the use of twisted pair copper wire or fiber optic cable or a "peer to peer" paging to MXL LifeLINK networks. MXLV combination of copper and fiber optic cable. The comMuni- systems are designed to provide full stand alone life safety cation path between RCM modules can be configured to protection, voice evacuation and paging capability, the meet the requirements of either Style 4 or Style 7 for full bi- RCM-1 adds the ability to send a live voice paging an- directional live voice paging or Style 4 one direction live nouncement to any or all other MXLV stand alone systems voice paging. All communication paths are fully supervised. that are connected as part of' the LifeLINK network. The Short circuit isolation is provided between RCM modules RCM -1 provides a "global page riser" that connects MXLV for an added level of system performance , this is particu- systems together and operates in various configurations larly important for campus paging systems. to meet an almost unlimited number of combinations of In a LifeLINK network voice system using RCM -1's, each inter panel audio communication requirements. individual MXLV control panel can be programmed to The RCM -1 is designed for applications that call for live support inter -panel paging (Panel #1 can send a live voice . voice paging between buildings, such as are required for page to any zone or group of zones on Panel #2 and vice campus, industrial facilities, and other multiple building versa). The ability to transfer the control between paging sites. These applications typically call for independent, command consoles is also programmable. This allows stand alone life safety systems with live voice paging both multiple paging command consoles to be installed with the within each individual building and between buildings in ability to indicate which command console has control and any combination. the ability to "Request" , "Grant" or "Deny" access to gain The RCM -1 also provides the option within a single or multi- control of the paging command console. building application of multiple unique command consoles, In the event of a network failure of any type, each individual or subset command consoles for paging system control. MXLV systems still maintains the ability to control the voice The RCM -1 plugs into a full OMM 1 or OMM-2 cardcage page system locally. In all cases whether a system failure NOTICE: The use of other than Cerberus Pyrotronics detectors and bases with Cerberus Pyrotronics equipment will be considered a misapplication of Cerberus has occurred or not, the individual MXLV's local system Pyrotronics equipment and as such void all warranties either expressed or implied with regards to loss, damage, liabilities and /or service problems • • slot and communicates directly with the MXLV system via TTL logic . The RCM -1 provides control and supervision of microphone always has the highest priority in the system. Cerberus Pyrotronics Cerberus Pyrotronics 8 Ridgedale Avenue 50 East Pearce Street 1 CERBERUS Cedar Knolls, NJ 07927 8/97 Richmond Hill, Ontario ' PYROTRONICS Tel (201) 267 -1300 10M L4B, 187 CN It a III CATALOG NUMBER 5058 FAX (201) 397 -7008 CPY -IG Tel (905) 764 -8384 August 1997 Website www cerbpyro com Printed in U.S.A. FAX (905) 731 -9182 Supersedes sheet dated 5/96 s r s r t r, t • S F I Y i (F S RCM -1 Mode's of Operation RCM -1 Module Terminal Description Diagram The RCM -1's operation can best be described as operating in three possible modes; Local Mode, Global Mode 1 and III ill ,. Global Mode 2. Please refer to the diagram below. ACM -1 / TBM -1 or TBM -2 'i 1 [7 2 Local Mode : Audio from the local MXL (ACM/TBM) will NOT USED — � 4 A -► D be switched to the local speaker zones [ 5 (OCC). The Global audio riser will be '` [ ''] 6 P ORT C: Copper Interface, Transmit, Style 4 (CT4 [' ] 7 Global switched to Port C the Style 4 output riser. [.,] 8 • A B Style le 4/7 M 9 Global Mode 1: The audio output from the local MXL is N OT USED M 10 Input/Output [] 11 B C disconnected. The audio from the global PORT B: Copper Interface, Receive, Style 4 (BR4 [# 12 U B -► D rises is connected to the local speaker PORT B: Copper Interface, Transmit, Style 4 (BT4 [ 13 r , , RCM -1 zones and to Port C, Style 4 output riser. )— r 114 U] . • Global Mode 2: The audio from the local system is con- NOT USED [o] 16 Global U] 17 D C > Style 4 and the global -► B nected to both the local speaker outputs sers. PORT B: Copper Interface, Receive, Style 7 (BR7 [o] 1 A -► C d thloba ris ers. �[o 20 — A -► D PORT B: Copper Interface, Transmit, Style 7 (BT7 [6] 21 22 • CABLE TO PORT B: Fiber Interface, Style 4 (BF4 i� 1 MMB OR PSR i [��] 2 P/N 555 - 190506 OCC -1 PORT B: Fiber Interface, Style 7 (BF7 )— 3 — [O] 4 PORT C: Fiber Interface, Style 4 (CF4)- E 3 5 [0] 7 Module Diagram Li 8 [..] 9 I [%] 10 • • NOT USED — [] 11 Liu [x pi] 14 s2 ['J 15 CONFIGURATION Mi - VA 16 PORT D: Copper Connection To The OC [ OMM -� [x.7 18 ii ] 19 or PORT D: Copper Connection To The OCC [ -fi i m , [07 OMM -2 PORT A: Copper Connection To The ACM ,i 22 . RCM -1 Si NETWORK Please Note: This diagram should not be used to wire and install the RCM -1 module. 0 0 ADDRESS - il 0 0 0 0 0 0 Please refer to the RCM -1 Installation Instructions (315- 093878). • ANY XMIT LM1 GM1 GM2 XMIT XMIT XMIT TRBL F B A Electrical Information Maximum Current: 50mA @ 24VDC Ordering Information Maximum Voltage: 1.5 V RMS Model Description Part Number (RCM to RCM) RCM -1 Audio Riser Control 500 - 894918 This equipment is approved for operation over the tempera- Module ture range of 0° and 49° C. • • III i l ,I . . I SIEMENS Fire Safety MOM -4 Network Option Module Card Cage ENGINEER AND ARCHITECT SPECIFICATIONS • Four Half -Width orTwo Full -Width Option • Provides InputTerminals for Power Module Slots • Accepts CRM-4, CZM-4, ALD -21, NET-7, • Clamp -Type ScrewTerminals Wiring Connections CSM-4, CMI -300, REP -1, NIM -1 W, XLD -1 and MDACT • Mounts in MXL Main Cabinet Remote Units • t Listed, ULC Listed, CSFM, NYMEA, • Gold Plated Connectors FM, and City of Chicago Approved • '=i ±J 2 1d ts►t+ fc'f #: l !I c'4 'N cT� ,a s3G�3 ,;;•; I .� C — �� �• '�.11 .. - l * il't _ - _ __- -` F MOM - 4 - I (r'• •4 •w �%iZ1SZE4��w�.S.J/Stin 19�I �`dER�4i�dEi�� +�� Description The Siemens Fire Safety MOM-4 card cage provides MME -3, the standard MXL enclosure. Six MOM -4's the MXL main unit or remote units with card slots for can be mounted in the large MXL enclosure, Model option modules. Each MOM-4 supplies connection MLE -6. In each of these, if aTSP -40 strip printer is space for either two full width option modules (ALD -21, installed it requires one MOM-4 space. The MXL -IQ CZM-4, NIM-1W, XLD -1) or four half -width option enclosure, Model MSE -3L can house one MOM-4. modules (CSM -4, CRM-4, CMI -300, MDACT, REP -1, This equipment is approved for operation at NET -7), or a combination of one full and two half -width temperatures of 0° to 49 °C. modules. Note: only one CMI -300 may be used per MXL system. Only one MDACT may be used per MXL Engineer & Architect Specifications system. Modules are supplied with card guides. 9 p Interface between optional circuit cards and the MXL The MOM-4 also provides a means of connecting the system network shall be provided by a MOM-4 option modules to the MXL network. It supplies 24V expansion card cage. The MOM -4 shall provide edge unfiltered /unregulated DC and 5VDC to power the connector-type plug -in slots for the addition of the option modules. The DC is routed to the MOM-4 from following system option card modules: CZM -4 Conven- the MMB -2 or SMB -2 main board or the PSR -1 power tional Zone Module; NIM -1 R LifeLINK Network Inter - supply. face Module; XLD -1 "X" Series Device Module; REP -1 Screw terminals are mounted on the MOM-4 to Network Repeater; NET-7 Style 7 Network Module; provide easy access for field wiring connections. CRM-4 Controllable Relay Module; CSM-4 Controllable Screw terminals are also provided for connection to an Signal Module; ALD-2I Analog Loop Driver Module; auxiliary power supply for use with CSM-4 notification CMI-300 CXL modem. The ALD 21, CZM-4, NIM -1 R and appliance circuits (when additional audible /visual XLD -1 shall occupy one full slot in MOM-4 and CRM-4, power is required). REP -1, NET-7, CSM-4 and CMI -300, shall each occupy one half slot in the MOM-4. The MOM-4 mounts in each of the MXL system back boxes located at the main MXL, MXLR remote panel or MXL-IQ. Up to three MOM -4's can be mounted in the CATALOG NUMBER 5004 _________ _________ _ _ _ _ _ The MOM-4 shall also provide a distribution point for option module power. The MOM-4 shall supply necessary screw terminal connections for any option \' module field wiring. This shall allow the replacement of modules without the removal of field wiring. • Dimensional Data m10000000000000000I m 00 a IOOOOOOOOOOOOOOOO 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 1 2 3 4 5 6 7 8 910111213141516 • 2 i o 4.500" 0 0 2 a e 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 F 1 2 3 4 5 6 7 8 910111213141516 OOOOOOOOOOOOOOOO) m 00 c I0000000000000000 r 15.500" �I MOM -4 Circuit Board Layout Compatible MXL /MXL -IQ Modules Part Model Description Number CSM -4 Signal Crt. Module 500- 890402 CRM -4 Relay Module 500- 890401 CZM -4 Cony Zone Module 500 - 890488 CMI -300 CXL Interface Module 500 - 891238 REP -1 RS485 Repeater Module 500- 892954 NIM-1R Network Interface Module 500 - 892953 XLD -1 'X' Series Device Interface 500 - 893383 ALD -21 Analog Loop Driver 500 - 891618 NET -7 Style 7 Network Interface 500 - 091914 Ordering Information Part Model Description Number MOM -4 MXL Option Module Card Cage 500 - 890269 Refer to Installation Instruction P/N 315 - 090852 Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 2/02 Brampton, Ontario Siemens Building Technologies Tel (973) 593 -2600 10M Canada L6T 5E4 g g FAX (973) 593 -6670 SFS -IG Tel: (905) 799 -9937 February 2002 Fire Safety Website www cerbpyro.com Printed in U.S A. FAX (905) 799 -9858 suparseaes sheet dated 600 SIEMENS Cerberus Division 0MM MXLV Option Module Cardcage ENGINEER AND ARCHITECT SPECIFICATIONS • Cardcage for MXLV Voice Option Modules • Mounts Vertically in MXL Backbox • Four Keyed Cardslots - �_ /2 / , �__s___ !L " • Card Edge Guides "` J- • "" _ • Gold Plated Connectors i • Configurable Screw Terminals L o i4i1M411 ”1111 11114” ;t # ;, ;7 #,a”sz ?, • Saddle Clamp Type Terminals Listed, ULC Listed, FM, CSFM, NYMEA and City of Chicago Approved Description Engineer and Architect Specifications The Cerberus Pyrotronics OMM -1 is a backplane or All Voice System modules shall be plug -in type and cardcage into which all MXLV option modules plug. It is supplied with a cardcage, model OMM -1. The OMM -1 used in both the MXLV Command Console enclosure shall provide slots and card edge guides for up to. four and the MXLRV Remote Transponder unit enclosures. It option modules. Cardslots shall be pressure type with mounts vertically to threaded studs in the MBR -2, MME- gold plated contacts and shall provide keying to•avoid 3 or MLE -6 back boxes, and provides 4 half -width card reversal of the modules. The OMM -1 design shall allow clots with card edge guides. The OMM -1 also provides the use of any option module in any card slot. screw terminals for termination of all field wiring. Screw terminals are saddle clamp type and designed to fit from The cardcage shall provide screw terminals for all field 18 AWG to 14 AWG wire. wiring. Screw terminals shall be saddle clamp type, capable of being used with 18 -14 AWG wire. Power and network communications are provided by either the MMB -1/2 or the PSR -1, depending upon the The OMM -1 Cardcage.shall mount in the MBR -2, MME -3 application. Connecting cables are supplied with the or MLE -6 back boxes and shall include necessary ribbon OMM -1. cables for connection.to the MXL main board (MMB -1/2) The .OMM 1 fits into the same footprint as the MOM-4 or remote power supply (PSR -1) as well as for intercon- MXL option module cardcage. nection of cardcages. Up to 3 OMM -1 or MOM -4 Cardcages can fit in a single MXL enclosure (MBR -2 /MME -3) and up to 6 in an MLE -6 in whatever combination is necessary. Ribbon cables are provided for interconnection of cardcages. No more than 3 OMM -1's may be connected together. This equipment is approved for operation over tempera- ture range of 0 °C to 49 °C. CATALOG NUMBER 5022 ....• _.•. Wiring The OMM -1 Ordering Information Model Description Part No. CABLE UIE PM 6Da192339 0MM -1 Voice Module Cardcage 500- 891235 SUPPLIED WITH ACM -1 MOD 1 - u STAR ON LEFT Installations Instructions 315-090267 FART OMM -1 TO P3 ON MMB -1!t OR 183-1 AN 183. ON PSR-1 Compatible MXLV Modules Model Description Part No. _ ASC 1 AMP. Supv. Module 500-891187 FROM P6 OF MMB -1/2 . CABLE FROM P 3 OF • P6 OF PSR-1, OR ' I _ _ _ LEFT-HAND OMM-1 ASC -2 AMP..Supv. / Riser Module 500 - 892084 P7 OF MOM-0 TO RIGHT HAND 0MM-1 . FIRST ILEFT - a L OR MOMd, IF FARTHEST) OMM -1 AVAILABLE OCC - 1 Output Control Card 500-891184 ZC1-8B 1 Channel, 8 Class B Spkr. or 500-891180 Strobe Zones - ZC1=86 1 Channel, 8 Class B Spkr. or Zones 500 - 892067 ZC2 86 2 Channel, 8 Class B Spkr. or 500 - 891191 Strobe Zones ����� ZC2-8B 2 Channel, 8 Class B Spkr. or Zones 500 - 891186 C L:I • . FROM OMM -1 To P2 OF ZC2 -4AB 2 Channel, 4 Class A Spkr. or 500- 891188 ON THE LEFT NEXT OMM-1 Strobe Zones ZC2 -4AB 2 Channel, 4 Class A Spkr. or Zones 500- 892066 Mounting Diagram ZC3 -4AB 3 Channel, 4 Class A Spkr. or 500 - 892090 Strobe Zones ZC3 -4AB 3 Channel, 4 Class A Spkr. or Zones 500 - 892088 ZAC -30 30 Watt AMP / Spkr. Zone 500 - 892999 ZCT-8B 8 Telephone Zone Modules 500 - 891183 RCM -1 Riser Control Module 500 - 894918 � ��� . % . DMC -1 Digital Message Card 500 - 893000 . .. % % [1 , • OMM - • .. %. ii 1- ,•....""*". ' % _% • Cerberus Division Cerberus Division 8 Fernwood Road 50 East Pearce Street Florham Park, NJ 07932 6/00 Richmond Hill, Ontario Siemens Building Technologies Tel (973)593 -2600 10M L4B, 187 CN FAX: (973) 593 6670 SCD -IG Tel: (905) 764 -8384 June 2000 Cerberus .Division Website. www.cerbpyro.com Printed in U.S.A. FAX (905) 731 -9182 Supersedes sheet dated 9/98 SIEMENS Fire Safety PSR -1 Remote Power Supply ENGINEER AND ARCHITECT SPECIFICATIONS • 24VDC Power Supply • 5VDC Regulated Power Supply • 6 Amp or 12 Amp Output Power Options e D µ, • • Microprocessor Controlled i ��■■11 _ • Status Indicator LEDs • Common Alarm Relay a • - = = `: • Common Trouble Relay ;,::.:. - j • Degrade Mode I • 19" Rack Mount Capability W ° L I • 2 Amp. 24VDC Class A Power Output . -..._ _ • Power Limited 1 • : • MODEL' r- : , PSR -1 • Auxiliary Power Output • Listed, ULC Listed • CSFM, NYMEA, FM and City of Chicago Approved Description The Siemens Building Technologies, Inc., Fire Safety transferred to and from the MXL through the PSR -1. If the Division PSR -1 is a microprocessor controlled remote MXL main processor fails or.network communication is power supply and battery charger for use with the Fire lost, the PSR -1 will continue to receive a common alarm Safety MXL. It operates in conjunction with either an or common trouble signal from modules in the MOM -2's, MPS -6 or MPS -12 to provide 6 or 12 Amps of power for MOM -4's or OMM -1/2 to which it is connected. When an use with various MXL modules. When used with a NET-4 alarm is received during degrade operation, it can activate or NET -717M plug in communication module, the PSR -1 local notification appliance circuits. becomes a part of the MXL's RS-485 network. It acts as an interface between remote option modules and Connectors are provided for interface to the MPS -6 or the MXL. MPS -12, and M01- 7,TSP -40 and a MOM -2 or MOM-4 cardcage. The PSR -1 can be mounted in the MBR or MME/MLE backbox and is an integral part of the MXLR or MXLRV The on -board battery charger can charge up to 55 Amp remote units. It can also be mounted in a graphic annun- hour batteries. Any PSR -1 can be interrogated by the ciator panel and used to power an MOl /MOD annunciator MMB. Battery voltage, charge current, DC load and AC driver set.The PSR -1 can also be used to power a remote voltage can be viewed on the MKB display. MKB module. When used to power an M01 -7, a NET The PSR -1 provides two 24VDC outputs: a 2 Amp output board is not required. Interface to the network is provided is provided to power MXL remote intelligent modules by the M01 -7 such as CZM -1 s and ICPs.This output can be wired in a The PSR -1 provides LED status indicators for: Power On, Class A type configuration. When wired this way, a 5V Power On, 24VDC Aux. Power On, Battery Trouble, transfer relay will supply power to these devices even CZM -1 PowerTrouble, Ground Fault, Transmit Enable, during a single open in the circuit.This output is power Common Trouble and Common Alarm. limited per NEC 760 and is supervised.The other 24VDC output is used to power MXL option modules. The PSR -1 always requires an MPS -6 or MPS -12. The PSR -1 is UL, ULC listed and approved by NYMEA, The PSR -1 provides a common alarm and a common FM, CSFM and the City of Chicago. This equipment is trouble relay. When connected to a MOM -2, MOM-4 or approved for operation over the temperature range of 0 °C OMM -1/2 cardcage containing option modules, data is to 49 °C. CATALOG NUMBER 501 Electrical Ratings Ordering Information Supervisory: 24 VDC, 70mA max Model Alarm: (MPS -6) 24 VDC, 6A max Number Description Part Number (MPS -12) 24 VDC, 12A max PSR -1 MXL Remote Power Supply 500- 891182 , Refer to Installation Instructions P/N 315-090911 Mr' ii 184 o ALAI re a 0 NET J OR IetT•7 N • NETWORK O Pt! IFOR NPS•BI ' — 3 0 NSIWOCIX POWER PSR-1 NETWORK w 2 0 ransom L O K 1 0 NETWORK Pro (FOR MPS-12) Illllllllllswi .. O • TAMPER P 5 e T N A SNITCH 0 Y A• e 0 A N OPTIONS :: W . A 2 T ] F Y • A lllel ' R 6 �\ D AMP E U 4 T T A X T . swt :: O 0 ja— R X V R R U N R A 1•111 U 6 F�'� BATTERY N N N 8 6 I T L Y e O T CONVECT TO �% � �O O C1 PO 0 0 0 0 0 0 E Cuss21FOWER ▪ A s 0 UMW ONLY ?EO • P1 112 Ps P13 W N A 2 IOOOOOOI 0 e El' m '� I � �' d U t 0 't T t 2 • S 6 ro vrro PAa m NOr POIt ro TO FOR MOWN CBt Isorm uas Nal•N mac, TKP.ro aR 0011 -10 181 l' ' + 4.L. - - 1 Noma LOWED • Remote Power Supply • TB3.t s 2 we NOT Payer United ■ ID 37 s T - 4. 4-. I87 ,«s al 19 00` Mounting Plate NOTICE: The use of other than Fire Safety detectors and bases with Fire Safety control equipment will be considered a misapplication of Fire Safety equipment and as such void all warranties either expressed or implied with regards to loss, damage, liabilities and/or service problems. Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 12/02 Brampton, Ontario Siemens Building Technologies Tel (973) 593 -2600 5M Canada L6T 5E4 9 9 FAX (973) 593 -6670 SFS -IG Tel (905) 799 -9937 December 2002 Fire Safety Website www sbt siemens com/fis Printed in U S.A FAX (905) 799 -9858 Supersedes sheet dared 6/00 I. CERBERUS Mounting Diagram lr . PYROTRONICS �;t . �_- ^ III VSM. 1 VLM -1 VFM -1 t ! : \" :_ MXLV Operator Switch Module /MXLV LED Annunciator Module /MXLV Fan Control Module . ` =_` ENGINEER AND ARCHITECT SPECIFICATIONS t --- ..........„........ . l • Eight Programmable l Switches o� II w< SP ZONE 1 \ ° -" o '' � • Protected Space - Q Provided for Labeling SPKR Z 2 • , � -- F7 Q, SPKR ZONE 3 • Discreet Switches la VFW SPKR ZONE U • Multi- Color LED For in FIGURE 1 I --- c. ' • Clear Indication Of Mounting the VSM -1 /VLM -1 /VFM -1 i STRB ZONE 1 ° System Status _ STRBZONE: L i _ • Modular `) Wiring Diagram From Previous STRBZONE3 �� . Programmable LED - TT FOUR WIRE CABLES TO Next VSM•-/ VSM- 1/VLM•1/ __ Annunciation I I VLM- INFM -1 VFM-1 ToTBM•1P• ` STRB ZONE 4 f • �W E • © Listed, ULC Listed, CAB`E NYMEA, CSFM, FM, City MHO D PANEL VSM-1 VLM-1 V 1NFM VSM -1 VSM -1 VLM -1 - Modules • • (4) Programmable Fan Description Control Switches VSM -1 • Rotary H.O.A. The VSM -1 is an MXLV Command Console option module From Previous To Next VSM -1/ VSM- 1NLM- 1NFM -1 e o {� VSM-1NLM-1NFM-1 VLM- 1/VFM -1 ` Modules at the Far Right Switches which provides manual control of the Emergency Voice 4 - • Manual On /Off/ Evacuation System. Each VSM -1 module provides eight IF 1111 momentary push button switches and 16 LED's to LOWER ROW P1 P2 P1 P2 Automatic Positions - ` Orr . -��N indicate their status. Each switch is assigned two LED's BACK OF • Positive Feedback TRBL and a label to indicate the switch's programmed usage. MHO PANEL The label slides behind a clear protective membrane. VLM-1 VFM -1 (S upervised) AUTO • LED Indication of Fan °r` °" One of the LED's assigned to each switch is a dual color Other VSM -1/ TRBL i LED used to indicate what type of signal is active. This VLM- 1NFM -1 Status (On /Off and LED may also be lighted steady or flashing to further Modules Trouble) Auro a indicate system status. For example, zones active to the °" °N Evacuation audio channel will have the LED lighted, RED • Protected Label TABL and steady; zones active to the Alert audio channel will VSM- INLM- 1NFM -1 at Far Left FIGURE 2 Provided have the LED lighted RED and flashing; zones selected • Modular ' for paging will have the LED lighted GREEN and flashing VSM 1/VLM 1/VFM - Wiring Diagram (, F °� until the microphone key is pressed; when the zone TRBL • Activation Stagger Timer transfer confirmation message is received by the MXLV NOTICE The use of other than Cerberus Pyrotronics detectors and bases with Cerberus Pyrotronics equipment will be considered a misapplication of Cerberus Pyrotronics equipment and as Command Console, the LED change to steady such voids all warranties either expressed or implied in regard to loss, damage. liabilities and /or service problems • © Listed, ULC Listed, GREEN, indicating that it is clear to page; telephone III III NYMEA and CSFM zones with a call -in in progress will have their LED Approved VFM-1 flashing RED until selected at the Command Console at which time the LED will convert to steady RED etc. This Cerberus Pyrotronics Cerberus Pyrotronics 8 Fernwood Road 50 East Pearce Street CERBERUS Florham Park, NJ 07932 3/98 Richmond Hill, Ontario ! CATALOG NUMBER 5023 Ar P'YROTRONICS Tel. (973) 593 -2600 10M L4B, 1 B7 CN NK FAX (973) 593 -6670 CPY IG Tel. (905) 764 -8384 March 1998 SYSTEMS 5 E R•V I C E S Website wwwcerbpyro com Printed in USA FAX (905) 731 -9182 Supersedes sheet dated 2/97 allows the operator easy, clear access to the overall the green LED will flash indicating that the output circuit Each switch shall also include an amber LED to indicate switch to the "On" position or based on system logic system condition at all times. The second LED is amber used to turn on the Fan /Damper /Motor has activated. 1 a fault condition on a zone or zones associated with that control). Green flashing shall indicate that a manual and is used to indicate a fault condition. The green LED will light solid green to indicate positive I switch. command has been sent out to turn on a fan. Green solid Each VSM -1 and each switch is fully programmable and feedback of the Fan /Damper /Motor actually turning on • Switches and LED's shall be easily configured using shall indicate that positive feedback has been received may be used to control speaker circuits, and a wide (via a monitored input). See chart below. AccuLINK system programming software. Any number of that the fan is On. range of general system functions such as All Call, All During system reset when switches are turned manually speaker, strobe or telephone zones may be mapped to a Switches shall be easily configured using AccuLINK Evac, Warden's Page, Local Speaker, Select, etc. Any to the "ON" or the "OFF" position their associated single switch. system programming software. Many fans can be number of .circuits may be grouped and controlled by a outputs do not change state. They stay either On or Off mapped to a single switch..When more than one fan is single switch. Switch usage and zone groupings are based on the switch's position. Outputs will only change Switch modules shall be mounted in a hinged panel to controlled by a single switch, an optional stagger time provide easy access to the rear of the module. Module assigned using AccuLINK system programming software. shall be programmable to prevent all fans from turning Switch LED Indications Descriptions address shall be set using a DIP switch on the rear of the on simultaneously. The VSM -1 s are mounted on a hinged panel as a part of Position unit. Modules shall be interconnected using a polarized the MXLV Command Console enclosure. A four conduc- four conductor cable, supplied with the unit. A 12" cable Fan control modules shall mount in a hinged panel to supplied for interconnection of the modules. AUTO OFF - Red Solid Based on System Logic Driving Fans tor cable is su (Model C -1 shall be available for connection provide easy pp ON -Green Solid ( MRR ) p Y access to the rear of the module. The A 12" cable (Model MRRC -1) is available for connection ON Green Flashing Command Sent Out to Turn On Fans between rows. module address shall be set using a DIP switch on the between rows. rear of the unit. Modules shall be interconnected using a Green Solid Fan's On - Positive Feedback Received VLM -1 polarized four conductor cable, supplied with the unit. The VSM -1 connects to the TBM -1 module mounted in that Fan is On the enclosure. OFF Red Flashing Command Sent Out to Turn Off Fans Annunciation of system status including but not limited This equipment is a roved for operation over the to alarms and troubles shall be provided by a.set of Ordering Information pp p Red Solid Fan's Off - Positive Feedback Received temperature range of 0 °C to 49 °C. that Fan is Off modular visual annunciation units, model VLM -1. These units shall be a part of the Cerberus Pyrotronics MXLV Model Description Part No. VLM -1 state when manually controlled via the On /Off switch or equipment family and each shall provide eight dual color VSM -1 Switch Module (8 Switches) 500 - 892065 based on system logic when switch is in the Auto posi and eight amber LED's each of which can be assigned to The VLM -1 is an MXLV option module which provides tion. any system function using AccuLINK programming VLM - LED Annunciator Module (8 LED Sets) 500 -092086 LED annunciation of system activity. Each VLM -1 module software. Each dual color LED shall be capable of being VFM -1 Fan Control Module (4) 3 Position 500- 893967 assigned to desired outputs using the AccuLINK program- gramming. providing contains eight groups of 2 LED's, each of which can be The VFM -1 s are mounted on a hinged panel as a part of lighted either RED or GREEN based upon system pro - the MXLV command console enclosure. A four conductor rammin LED annunciators not rovidin these three Switches (On - Off - Auto) ming software. Eight LED's are dual color capable of cable is supplied for interconnection of the modules. A color states shall not be acceptable. MRRC -1 12" Cable, 4 Conductor , 500 -692106 being lighted either RED or GREEN, flashing or steady. 12" cable MRRC -1 is available for connection between r ows. A space shall be provided for labeling LED assignments. MHD -3 Hinged Frame, 14 Module Openings 305 -092072 The remaining LED's are AMBER flashing or steady. The label shall slide behind a clear protective mem- A space is provided for labeling of LED functions. The Each VFM -1 switch is fully programmable. Many outputs brane. MHD-4 Hinged Frame, Openings for 8 Modules 305 -092074 label slides behind a clear protective membrane. circuits or relays may be grouped and controlled by a and TSP-40 Strip Printer • • single switch. When more than one fan is controlled by a LED annunciator modules shall be mounted in a hinged The VLM -1 dimensions are identical to the VSM -1 and is single VFM -1 switch, an optional programmable stagger panel to provide easy access to the rear of the module. MHD -5 Hinge Frame (for MSE-2), 5 Module 305 -092377 mounted on the same hinged panel as a part of the MXLV time can be set to prevent all fans from turning on Module address shall be set using a DIP switch on the Openings Command Console enclosure. A four conductor cable is simultaneously, (0 - 255 seconds). Switch programming rear of the unit. Modules shall be inter - connected using VSB -1 Module Blank w/ Overlay 500 -692075 supplied for interconnection of the modules. A 12" cable and zone usage groupings are assigned using AccuLINK a polarized four conductor cable, supplied with the unit. (Model MRRC -1) is available for connection between system programming software. A 12" cable (Model MRRC -1) shall be available for Installation Instructions VSMNLMNFM 315 -092064 rows. connection between rows. Any combination of the VSM, VLM or VFM modules may Any combination of VSM and VLM modules may be used. be used (up to 31 modules per ACM -1). VFM -1 This equipment is approved for operation over the This equipment is approved for operation over the Manual control and annunciation of all system fan's temperature range of 0 °C to 49 °C. temperature range of 0 °C to 49 °C. status shall be provided by a set of modular rotary switches units, model VFM -1. Each module shall include VFM -1 Engineer & Architect Specifications 4 rotary 3 position switches. Units using linear toggle The VFM -1 is an MXLV command console option module type switches will not be acceptable. that provides manual control of building HVAC system VSM -1 Each switch shall include space for labeling the switch fans, motors, and dampers. Each VFM -1 module provides Manual control and annunciation of system status shall function. The label shall slide behind a clear protective (4) rotary (3) position switches for manual system control. be provided by a set of modular switch units, model membrane. These H.O.A. (Hand, Off, Auto) switches provide a visual VSM -1. Each module shall include eight discreet, indication of the switch state. (Off, On, or Automatic g Each switch shall have these LEDs associated with it. momentary push button switches. Units using mem One LED shall be yellow and will indicate if any device position) and its associated control outputs by both brane type switches for this purpose will not be accept- Y visual switch position indication and LED status indica- able. used to control or monitor a fan is in trouble. Yellow tion. Each switch has 3 associated LEDs to indicate Fan/ flashing shall indicate the device is in trouble but has not Damper /Motor status: OFF (Red LED), ON (Green LED), Each switch shall include space for labeling switch been acknowledged. Yellow solid shall indicate that the TROUBLE (Yellow LED). function. The label shall slide behind a clear protective device is in trouble and has been ackowledged. When in the automatic position the red and green LEDs membrane. A red LED shall be used to indicate that the status of the indicate fan status (On or Off) based on the system logic In addition, each switch shall have two LED's associated fan's are Off (based on either manual activation of the that can be programmed to automatically control the fan with it. One of the LED's shall be dual color, and capable switch to the "Off" position or based on system logic outputs. When manually switched to the Off position, the of clearly indicating zone status including which audio control). Red flashing shall indicate that a manual red LED will flash indicating that the output circuit used source is active. Systems which indicate only zone • • command has been sent out to turn off a fan. Red solid to turn off the Fan /Damper /Motor has activated. The red activity without indicating the type of signal which is shall indicate that positive feedback has been received LED will light solid red to indicate positive feedback of active (i.e., Evacuation, Alert, Page, etc.) will not be that the fan is Off. the Fan /Damper /Motor actually turning off (via a moni- acceptable. A green LED shall be used to indicate that the status of tored input). When manually switched to the On position, the fan's are On (based on either manual activation of the SIEMENS Cerberus Division / /_� • • . N I M - 1 W/N I M 1 M • (,)`. IT iiii : [ ;'ii - ,, MXL Long D Commun Bridge i::/I a E ENGINEER AND ARCHITECT SPECIFICATIONS r li J U I. • MXL LifeLink Wide Area Network (WAN) z ¢3 uua cc Ii lnln • ' Communications f .r a t ; ' - : Module I "id +u;l ,'ll f t L If , 731 a Z Z 2 2 ii 2 I r 0 a}-. Ikci'n,,p ~O. ,:1 - '_ : \ ->i U III'I - ¢ 3 • rrtn i -..')% ' i� 1 ■ L . 4 . • ' � � ''141111°- co l!nla o I .. Extends MXL Communication Distance between .� ;., E ¢ z a to iJ llll!I c..... L L�Ea 'Il11 �' 1 I1� E - 0 - i. — ' z z single MXL's and MXL network = _ ` • L z / ///I um \111 # a _ --: s, , �I. ll ° ° CI t --•,- • Unlimited Communication Distance between MXL, * 11 ...... l it `' 4 1J E.-4. : --- . y 111111111 I •£ x MXLIQ or MXLV systems when a dedicated line - • V z conditio for 19 .2K baud is used NIM -1W 1 / I �ru_,w C m _c . c !'ill! Z Z I • Up to 8 miles on dedicated 18 AWG copper wire :! , • Il!III 2 - dE,_,. 9 �_+, �1 r nil! h •� M • 0 i0r°A • 111 1 um ¢3 u a a t i ! N 'f E c • Supports both Network and Stand Alone M XL , I _ ',; - I' � si ; 2 2 E; p o p U r, Configuration a c c c CD v m E • Instant control /monitoring capabilities of remot ?', = ` a ; c a- d 0 H N � ¢ 2 . . • • • Nine Communication Status LEDs (NIM-1M) H _ � C E glib o i _ r ° m E CP f 2 " l E � ' '!'!ii - ¢ 3 NIM -1M V o 8 EE 0 z" z i • J < •- _ • Supports Full Interpanel Logic z Z N - � . _ r _� . I I I , 2 • Compatible with OS /2 ® and Windows NT ® base ll0 a • '� 11 ® `; ,--: — Z r D o FireFinder m '41".1.....q I . Gl ® t I .'�i I. V O CD O C N CO -Li '�L11 ` �.Lt. t , 1:, t I) t r 7 } I-� .. . • C i; L 0 i c L —•' ° m E • UL Listed ` t r--I�I 1, r u k'Y ! �- ` I a G !ml! c E E oEE � ' of ® - f'; 11 - -} "`. • ; I , m a um! 9 v E , ` E 22 • $ ULC Listing Pending � . _ _ -J o • z z • g NIM -1W with NIM -1M Lii • t o Z lop ¢ 3 i / _ � udn J 22 M M Z Description 0 x The NIM-1W is a full width network interface module that. MXL Network with a remote network and /or single MXL • cc PPP ' rig ' imp _ . communicates MXL s stem information to an on-board system. The NIM -1 W /NIM -1 M occupies a full MOM 2 !!II! ¢ 3 � !!ll ! - �` 3 ��I! III! O i l y cardcage slot and communicates directly with the panel's ¢ analog modem.The on -board analog modem is the NIM- 9 Y P. z -� ! 9 g mo 2 2 z z Z 'I''ll!' 1 M, which is a daughter board that connects directly onto networking interface module (NIM -1 R). z the NIM-1W module. When the NIM-1M modem module is connected to the NIM-1W, MXL system information Since the NIM -1 W /NIM -1 M functions as a communica- can be transmitted over dedicated telephone twisted pair tion bridge, it is transparent (takes no network addresses) wires. The NIM -1M can transmit MXL system(s) informa- to the overall system configuration.Thus, the MXL tion on dedicated telephone wire (18 -26 gauge), and /or a systems function as one unified MXL network (X -NET). A NOTICE: The use of other than Cerberus Pyrotronics detectors and bases with Cerberus Pyrotronics equipment will be considered a misapplication of Cerberus Pyrotronics dedicated line conditioned for 19.2K baud. This allows for maximum of two NIM -1 W /NIM -1 M communication equipment and as such voids all warranties either expressed or implied in regard to loss, damage, liabilities and /or service problems All computer emunment is sunnorted by the vendor's on -site three year warranty MXL communication distances to be extended. bridges can be installed in series (refer to Case Scenario III I #3). Cerberus Division Cerberus Pyrotronics The NIM-1W/ NIM -1 M communicates with other NIM - 8 Fernwood Road 50 East Pearce Street Florham Park, NJ 07932 9/00 Richmond Hill, Ontano 1 W /NIM -1 M and forms a long distance communication 10M L4B, 187 CN Siemens BuildingTechnologies F 593 6 0 SCD-IG T&: (905) 764-8384 September 2000 bridge that can connect together a single MXL or loc Cerberus Division Website: www.cerbpyro corn Printed in U.S.A. FAX: (905) 731 -9182 New Issue CATALOG NUMBER 5 - • The FireFinder Network Command Center, a Global MKB, Electrical Requirements: NIM -1 M Dedicated Communication and /or a global RCC (Remote Command Center) can NIM-1W: serve as the central control /monitoring point.The maxi- Input Voltage: 24VDC, 150mA Media Specifications: mum amount of panel addresses (MXL, MXL-IQ, MXLV *Copper: 18 -26 Awg •Note: Line condition (e.g. noise, signal loss rate), should and NCC) allowed on an MXL network system is 64. NIM-1M (analog modem) : • • Telephone Lines: non - powered; no dial tone be tested. Maximum signal loss tolerance. Is - 25DBM at Interactive programming between MXL panels is sup- Transmit Level: -10Dbm Leased line conditioned for 19.2K baud modem 19.2K baud. ported. Receive Level: -43DBM communication , Maximum Wire Loss: -25DBM Style 4 or Style 7 wiring is supported among the MXL Baud.Rate: 19.2K system(s). The modem transmission line connected to Equipped with 2 wire RJ -11 interface • ' the NIM -1 M is Style 4. Style 7 can be achieved by using and terminal blocks . two sets of NIM -1 W/1 M in both the remote and local Full duplex . panel. 2 wire leased line with auto negotiation I IP2 NIM -1M LED On Definition FCC Part 68 Registered U o . RTS: request to send The NIM -1 M is_equipped with 9 status LEDs, which - FCC Part 15 Compliant NIM - 1M p , a o RI: not used at this time indicates the modem communication status: This is approved for operation over the a 0 CD: connection has been established • Engineer and Architect=Specifications temperature range of 0 ° and 49° C SHIELD' '? N o RXD: receive data. The NIM -1 W shall communicate MXL system information � O @ 0 TXD: transmit data to an on -board modem.The on -board modem identified as Ordering Information �� g o DTR: NIM -1W is ready the NIM -1.M is a daughter board that connects directly �� 1 0 DSR: modem is ready to operate onto the NIM-1W module. The NIM-1W module shall Model Number Description Part Number =I E o CTS: clear to send occupy one full MOM card cage slot. When the NIM -1 M t .o PWR: modem is receiving power modem module is connected to the NIM-1W, Local and Wide Area Network Pt MXL system NIM-1W 500-699103 . Interface Module ,, information shall be transmitted over dedicated telephone twisted pair wires.The NIM -1 M shall transmit MXL Analog modem daughter board *The NIM-1M is designed to be used only with the NIM-1W. NIM-1M . module designed to communicate 500-699104 system(s) information on dedicated telephone wire (18 -26 with the NIM -1W' gauge). This shall provide the capability to extend MXL NIM -1W Installation Instructions 315 -099106 communication distances beyond the present MXL network distance limitation of 5,000 feet (without a REP- NIM -1M Installation Instructions 315-099105 • • 1). In order to achieve the full distance potential, a dedi- NIM -1 R Network Interface Card 500 - 892953 cated line conditioned•for 19.2K baud shall be required. NIM -1R Installation Instructions 315-092953 The NIM-1W and NIM-1M shall form a long distance communication bridge, which is designed to connect together a remote network and /or single MXL system and a local network and/or single MXL system.The NIM -1W/ 1:M shall communicate directly to the panel's NIM -1 R p 1• e s a : 1 ) module. g M W NIM -1W By taking on the functionality of a communication bridge, 0 JP2 the NIM -1 W /NIM -1 M shall be transparent to the overall 4P4 — system configuration and the MXL systems' function as 01 one unified MXL X -NET. No more than two NIM -1 W/1 M — I I shall be installed in a series. SWI D4 Ds P • ...D8 The central point of control /annunciation shall be a �� 7 e 5 4 3 2 1 O O •I I x • 0 Mt BIABLE FireFinder Network Command Center, a Global MKB, and/ or a global RCC (Remote Command Center). The maxi- mum amount of panel addresses that shall be allowed on an MXL network system is 64. Interactive programming between MXL panels shall be supported. Style 4 or Style 7 wiring is supported among the MXL system(s). The modem transmission line connected to the • NIM -1 M shall be Style 4. Style 7 wiring shall be achieved III III with two sets of the NIM -1 W/1 M installed in both the remote and local panels. The NIM -1 M shall include 9 status LEDs, indicating the modem communication status. CERBERUS PYROTRONICS MKB -2 MXL /MXLV Display /Keyboard ENGINEER AND ARCHITECT SPECIFICATIONS • Full Command Keyboard • 80 Character LCD Display • Automatic Backlight • High Resolution Supertwist LCD • Programmable Function Keys • Partial Disable .LED • Power LED o • Alarm, Supervisory, Trouble And Security LED's o J • Audibles Active /Silenced LED with Local Audible O00 DO ® O . ..__ • Menu Driven Operator Commands 000 00 0 _ 1 000 DE n O • User Help Screens _ OS, _ D • Printer Control Keys • Display Control Keys • Tactile Membrane Switches With Audible Feedback • Hinged Panel For Easy Access • (Listed and ULC Listed, CSFM, FM, NYMEA, City of Chicago Approved Description LEDs on the MKB -2 in conjunction with a local audible, indicate active conditions such as Alarm, Supervisory, The MKB -2 is a display /keyboard module for use with the Trouble and Security. The LEDs flash and the audible Cerberus Pyrotronics MXL and MXLV systems. The MKB -2 sounds until events are acknowledged. Additional LEDs is supplied on a hinged frame and mounts on the enclo - indicate Audibles Silenced, Power On and Partial System sure backbox. It provides a complete operator interface Disable. The Partial System Disable LED illuminates including an 80 character backlit supertwist.LCD for whenever an input or output device is disarmed. display of all system information. The MKB -2 also provides a set of keypads used to execute system commands such Display control keys allow the operator to Hold or Advance as Acknowledge, Silence, Reset as well as disarming of the scrolling display and view additional active events. devices for maintenance and generation of system diagnostic reports. Multiple MKB -2s can be used in the system each provid- ing full control of the MXL system. Up to four MKB -2s can From the keypad the operator is able to change the operate in a fully supervised mode, each with independent sensitivity setting of smoke detectors, check device printer driver capability (using a PIM -1). Additional Slave voltages, obtain system power reports, disarm input and MKB -2s can be used operating in an unsupervised mode, output devices and manually toggle remote and local each also capable of supporting a PIM -1 driving unsuper- relays. All commands are menu driven and a Help key vised peripheral devices allows the operator to get further explanation of the command structure. Operator actions are prompted so The hinged panel allows easy access to the rear of the training is kept to a minimum. MKB -2 and the other modules in the rear of the enclosure The MKB-2 also provides a set of 12 programmable backbox. The MKB -2 is covered by a clear lens (MDL -1) as a part of the MDR -2 lockable door. functions keys. The keys can be configured to activate functions such as Drill, Fan Shutdown, Door Release, etc. 3 "n LINK CATALOG NUMBER 5026 3 ae SYSTEM • SERVICES • • When used in MXLV applications, the MKB -2 has The MKB -2 shall provide a set of 12 programmable removeable plates on either side of the keyboard to allow function keys. The keys shall be configurable to activate mounting of the MMM -1 (Microphone Master Module) and functions such as Drill, Fan Shutdown, Door Release, etc. the TMM -1 (Telephone Master Module) The MKB -2 also LEDs on the MKB-2, in conjunction with a local audible has mounting studs available for the ACM -1 in MXLV shall indicate active conditions such as Alarm, Supervisory, applications. Trouble and Security. The LEDs shall flash and the audible This equipment is approved for operation over the tern- sound until events are acknowledged. Additional LEDs perature range of 0 °C to 49 °C. shall indicate Audibles Silenced, Power On and Partial System Disable. The Partial System Disable LED shall Engineer and Architect Specification illuminate whenever an input or output device is disarmed. The display /keyboard module for use with the Cerberus Display control keys shall allow the operator to Hold or Pyrotronics MXL and MXLV systems shall be model MKB- freeze the scrolling display and view additional active 2. The MKB -2 shall be supplied on a hinged frame and events. mount on the enclosure backbox. It shall provide.a corn- Multiple MKB -2s shall be capable of being used in the plete operator interface including an 80 character backlit system each providing full control of the MXL system. Up supertwist LCD for display of all system information. The to four MKB 2s shall be capable of operation in a fully MKB -2 shall also provide a set of keypads used to execute supervised mode, each with independent printer driver system commands such as Acknowledge, Silence, Reset capability (using a PIM -1). Additional slave MKB -2s shall as well as disarming of devices for maintenance and be capable of operation in an unsupervised mode, each generation of system diagnostic reports. capable of supporting a PIM -1 driving unsupervised From the keypad the operator shall be able to change the peripherals. sensitivity setting of smoke detectors, check device voltages, obtain system power reports,. disarm input and The hinged panel shall allow easy access to the rear of the output devices and manually toggle remote and local MKB -2 and the other modules in the rear of the enclosure relays. All commands shall be menu driven with a help key backbox. The MKB -2 shall be covered by a clear lens to allow the operator to get-further explanation of the (MDL -1) in a lockable cabinet door (MDR -2) command structure. Operator actions shall be prompted in order to minimize training. Ordering Information MKB -2 Controls and Indicators Model Description Part Number MKB -2 Display /Keyboard 500 - 892077 1 120000 J MY Ol, 19.0 -- SYSTEM I -- litl'OlansrEMM%t . NORMRI Mounting Diagram Eil 0 ALARM Q POWER a Q SILENC Q PARTIAL MKB-2 SILENCED DISABLE El 0 SUPERVISORY DISPLAY 0 TROUBLE '�T NOED , o AZ( 0 SECURITY - • - , • • � ,. • - - 0 FUNCTION FUNC FUN ; J -- , - -- 0.© 6 1:112 m e , - - -� G • II Go ' - ' I3 9 FORM FEED 0 ENTER - -- G /- /- o EP FIGURE 1 MKB -2 Panel FIGURE 2 Installing the MKB -2 Annunciator /Keypad Cerberus Pyrotronics Cerberus Pyrotronics 8 Fernwood Road 50 East Pearce Street � CERBERUS Florham Park, NJ 07932 5/98 Richmond Hill Ontario PYROTRONIGS Tel (973) 593 -2600 10M L4B. 1B7 CN FAX (973) 593 -6670 CPY -IG Tel (905) 764 -8384 March 1995 Website wwwcerbpyro.com Printed inU S.A FAX' (905) 731 -9t82 Supersedes sheet dated 6/94 SIEMENS Cerberus Division ACM -1 MXLV Audio Control Module • ENGINEER AND ARCHITECT SPECIFICATIONS • Central Controller For Audio System • Local Trouble Audible and LED yt • Local Network Communication Diagnostic LED ' a o, ;,� a� _, , • Supervised Microprocessor �, :` ' ' ` 'S R } Controlled Signal Generator J l ; h y 11 41 f I. I e • Supervised Microphone Pre - amplifier 4 I ®5 _ s . • L. I � a L oar{ • w/ Backup • 1 , I �L � M'(EL� tACM L' � .1j• • Optional Backup Tone Card (BTC -1) •'" `.ta 114 • Listed, ULC Listed, FM, NYMEA, CSFM, City Of Chicago • Description The ACM -1 also includes a microphone preamplifier for use with the MMM -1 microphone master module.The The Cerberus Pyrotronics ACM -1 is an MXLV module Preamplifier uses an automatic gain control circuit to which acts as the audio system master controller for assure distortion free live voice announcements. A MXLV systems. It controls all audio related functions. backup pre - amplifier is supplied with automatic transfer The ACM -1 includes a local audible and on -board amber if the pre -amp fails. When the microphone key switch is LED for indication of ACM troubles.These troubles will pressed, the ACM -1 can send the adjustable length pre - also be indicated on the system display. An on -board announce tone to selected speaker circuits.The ACM -1 amber LED is also supplied for monitoring MXL network also supervises the microphone, its cable and the polling. keyswitch. The ACM -1 has a microprocessor controlled signal The ACM -1 acts as the controller for all VSM -1 switch generator with a complete set of available tones, modules, VFM -1 fan control modules and VLM -1 annun- selectable using MXL system's custom programming ciator modules. It also controls the warden's page software.The tones are fully supervised and a connector functions as routed from theTMM -1 telephone master is provided for the addition of a BTC -1 backup tone module to the paging audio channel. It includes a generator when required.Tones available are: Sonalert' for audible keystroke feedback and firefighter's Slow Whoop call -in signal.The ACM -1 mounts on the rear of the S Hz MKB -2 display /keyboard module in the voice command 900 Hz @ 120 PPM console and occupies one MXL network address.The 900 Hz @ 30 PPM address is set using a DIP switch on the unit itself. One Chime ACM -1 is required in each Voice system. California Code This equipment is approved for operation over the Yeow temperature range of 0 °C to 49 °C. Yelp Wail Hi /Lo 2 KHz Temporal Code 3 System Zone Coded Audibles CATALOG NUMBER 5028 Ordering Information Mounting Diagram BACK OF MKB Model Description Part Number ACM -1 Audio Control Module 500 - 892082 L D / ii / i : Installation Instructions 315- 092083 A NN / / / / �/ ip [ 1 .. / P p / e di �' ACM..1 / / og Connection Diagram P5 to MMB -1, P8 P4 to ANN -1, P1 P7 to MMM -1 or to PSR -1, P5 1 Ribbon Cable 9 Wire Cable Ribbon Cable P/N 555 - 192242 P/N 555 - 192238 P1 toTMM -1, P3 TROUBLE 0 0 TRANSMIT \ • 14 Conductor ( 1P4 Ribbon Cable P/N 555 - 192236 I IP5 P2 1 P2 toTBM -1/2, P3 Ribbon Cable P/N 555- 192201 P3 P6 ACM -1 .9 P3 toTBM-1/2, P2 P6 for BTC -1 / 5 Wire Cable (Optional) P/N 555 - 190220 Wiring the ACM -1 NOTICE: The use of other than Cerberus Pyrotronics detectors and bases with Cerberus Pyrotronics equipment will be considered a misapplication of , Cerberus Pyrotronics equipment and as such voids all warranties either expressed or implied in regard to loss, damage, liabilities and /or service problems. Cerberus Division Cerberus Division 8 Fernwood Road 50 East Pearce Street Siemens. BuildingTechnologies Florham.Park, NJ 07932 9/99 Richmond Hill, Ontario Cerberus Division Tel (973) 593 -2600 10M L4B, 187 CN FAX' (973) 593 -6670 SCD -IG Tel (905) 764 -8384 September 1999 Website www cerbpyro corn Printed in USA FAX (905) 731 -9182 Supersedes sheet dated 1/98 SIEMENS Cerberus Division MMM MXLV Microphone Master Module ENGINEER AND ARCHITECT SPECIFICATIONS • Dynamic Microphone with Push -To -Talk Button • Retractable Coil Cord • Fully Supervised „canon p,OY 10 SUMI • Adjustable Pre - announce Tone "U • Ready -To -Page LED • Local Speaker with Volume Control • Recording Output (on TBM -2) : • ®Listed, ULC Listed, FM, NYMEA, CSFM, City of • Chicago Approved c', • Description Engineer and Architect Specifications The Cerberus Pyrotronics MMM -1 is an MXLV module The emergency voice alarm system shall include a which provides a supervised high quality dynamic micro- microphone for the purpose of making live voice an- phone for the purpose of making live voice announce- nouncements .The microphone master module shall ments.The MMM -1 mounts next to the MKB -2 display/ mount in the front of the command console and provide keyboard in the front of the MXLV command console. It a high quality dynamic microphone with push -to -talk includes a microphone with push -to -talk button and button and retractable coil cord.The microphone, push - retractable coil cord.The microphone, push - to-talk button to -talk button and coil cord shall all be electrically super - and coil cord are fully supervised. vised. The MMM -1 also supplies a ready to page LED which The module shall also include a ready to page LED which indicates that all selected zones are ready to be paged shall indicate that all selected zones are ready to be and that the optional pre- announce tone has expired.The paged and the optional pre- announce tone has expired. • pre- announce one is a steady 900Hz signal which is The pre- announce tone shall be a steady 900Hz tone, adjustable from 0 to 10 seconds duration in 1 second adjustable from 0 to 10 seconds duration in 1 second increments. A local speaker with volume control allows increments. A local speaker with volume control shall the monitoring of the audio channels. allow the monitoring of all audio channels. CATALOG NUMBER 5025 Ordering Information Model Description Part Number MMM -1 Microphone Master 500- 892079 Installation Instructions 315 -092098 Mounting Diagram Connecting the Cable to the ACM -1 MMM -1 vow • 0 • MKB -2 0 i i ' i i "VA MMM -1 i ACM -1 FIGURE 2 FIGURE 1 Mounting the MMM -1 on the MKB -2 Panel • NOTICE:The use of other than Cerberus Pyrotronics detectors and bases with Cerberus Pyrotronics equipment will be considered a misapplication of Cerberus Pyrotronics equipment and as such void all warranties either expressed or implied with regards to loss, damage, liabilities and /or service problems. Cerberus Division Cerberus Division 8 Fernwood Road 50 East Pearce Street Florham Park, NJ 07932 9/99 Richmond Hill, Ontario 5N1 1B7 CN Siemens Building Technologies FeAX(9(9773)3)559933-26660700 SCD-IG Tel 5) 764-8384 September 1999 Cerberus Division Website www cerbpyro.com Printed in U S A FAX. (905) 731 -9182 Supersedes sheet dated 8/97 S E M E N S Cerberus Division ALD-2l gLoop Analo Driver ENGINEER AND ARCHITECT SPECIFICATIONS _...77--..---_,•7,_ ' _ -- a . . ..._ . • girt. _- a -. ,, - • - . ,, -- sr �.•. - .-.- = .- - • •nn„n.. - u -4i. • Dynamic Supervision • Power Limited Per NEC 760 • 2 Intelligent Analog Device Circuits • Programmable Input/Output Module • Remote Smoke Detector Sensitivity, Voltage Read - out/Printout • 60 Intelligent Devices Per Circuit • Device Identification • Remote Smoke Detector Sensitivity • 32 Character Custom Alphanumeric Message Adjustment Per Device • Independent Control of Detector Relays (Up to • Accepts Remote Conventional Zone Modules 60 per Circuit) (CZM -1) • Intelligent Contact Monitoring Devices • Alarm, Trouble, Supervisory, Security and • Supports T-Tap Wiring Status Reporting • Style 4 (Class B) or Style 6 (Class A) Wiring • Supports Audible Bases • Degrade Mode • Short Circuit Isolation with LIM -1 • On -Board Ground Fault Detection • On Board Microprocessor • Listed, ULC Listed, FM, CSFM, NYMEA, • Isolated Power Supply ®and City of Chicago Approved Description other device information can be displayed and printed at The ALD -2I is an MXL Network option module that the control panel. The ALD -21 supports the use of relay supplies two intelligent analog circuits utilizing Cerberus bases and audible bases (independently controllable). Pyrotronics "1" series, "IL" series and FirePrint intelligent To provide analog loop short circuit isolation, the LIM -1 devices. It occupies two addresses on the Network and, isolation module can be used to prevent a single short through the use of a unique communications protocol, from devices connected to the ALD -21 circuits are dynamically interrupting loop device communication. supervised by the MXL Control Panel. Smoke detectors are monitored for sensitivity and notification is given when Each ALD -2I circuit can be wired in either a Style 4 (Class the sensitivity is outside normal parameters. Each of the B) or Style 6 (Class A) configuration. When using the ALD -21 circuits supports the use of up to 60 alarm, Style 4 method, T- Tapping is permitted with no loss of trouble, security, status and supervisory type devices as supervision. well as remote conventional initiating device zone mod- The ALD -21 has an on board microprocessor that provides ules (CZM -1) and intelligent output devices (TRI -B6R, it with the ability to function in a degrade mode and ICP). Sensitivity of any smoke detector can be queried initiate alarm conditions even if the MXL main micropro- and adjusted from the control panel. Sensitivity as well as cessor fails. CATALOG NUMBER 5036 The ALD -21 plugs into one full width option slot in the Compatibility for ALD -21 MOM -2 or MOM-4 card cage. Compatible Installation Devices Instructions This equipment is approved for operation over the tern- CZM-1 P/N 315- 090725 -8 erature range of 0°C and 49 °C. CZM-196 P/N 315- 095355 -2 P 9 FP- 11/FPT -11• P/N 315-095921-4 ' ID- 601 /601H P/N 315-090287-2 ( Engineer and Architect Specifications ID- 6OIa601AH P/N 315-090287-2 Intelligent analog device circuits shall be provided by an ID 6oe►601eH P/N 315-093234-4 Loop Driver Module. This module shall P/N 315-093235-4 ALD -2I Analog P ID-60T -135 P/N 315 - 090288 -2 plug into one full width slot of the MOM -2 or MOM -4 card ILI -1/1H P/N 315 - 095387 -1 cage as a part of the Cerberus Pyrotronics MXL, MXLV or ILI- 1A/1AH P/N 315- 095387 -1 MXL -IQ systems. ILI-1er1BH P/N 315- 093234 -4 P/N 315 - 093235 -4 • ILP- 1 /ILPT -1 P/N 315- 092594 -5 Each ALD -21 shall provide two circuits. Each of these ILP -1(d) P/N 315 - 093234 -4 circuits shall support the use of up to 60 intelligent P/N 315- 093235 -4 devices, as well as remote conventional initiating zone ILP -2•' P/N 315-095028-3 ILT-1 modules. Sensitivity of any smoke detector can be MSI-1W20 P/N 315-093336-1 Y Y MSI - P/N 315-090903-3 queried and adjusted from, as well as displayed at, the MSI - 1081208 P/N 315 - 093329 -3 control panel. Sensitivity change shall be performed TRI- B6/B6R/B6D P/N 315 - 093315 -3 either manually or automatically through the time based TRI -86M P/N 315 - 096242 -1 TRI s/aR P/N 315- 096242 -2 logic. The FP- 11/FPT -11 is only compatible with The ALD -21 shall support the use of relay bases, audible MXL/MXLV Rev. 10.0 or greater firmware and bases, and remote lamps. MXL -IQ Rev. 6.0 or greater firmware. ALD -21 circuits shall be capable of being wired to meet **The ILP -2 is only compatible with MXL/MXLV Rev. 8.0 or greater firmware and MXL -10 Rev. 3.0 the requirements of either NFPA Style 4 or Style 6. or greater firmware. When wired as a Style 4 circuit, it shall support the use of parallel branch circuits (T-Tapping). 5. Both circuits are power limited to NFPA 70, per NEC 760. Each detector, or group of detectors, requires a The ALD -21 shall utilize an on board CPU as well as two -wire circuit of 18 AWG minimum thermoplastic network interface circuitry and ND converters. It shall be fixture wire enclosed in a conduit of 18 AWG limited - capable of operation in a degrade mode in the event of energy shielded cable without conduit, if permitted by MXL main processor failure or loss or network commune- local building codes. cation link. In the degrade mode the ALD -21 circuits shall 6. Total circuit resistance must not exceed 100 ohms. be capable of sensing an alarm condition from its con- Maximum Capacitance: ( ,. nected devices and activating local notification appliance 0.4pF, between loop+ and loop - circuits through a degrade alarm bus. 0.8pF, between loop+ and chassis ALD -21 circuits shall meet the requirements of NEC 760 0.8pF between loop- and chassis for power limiting. 7. T- Tapping is not allowed on Class A loops. Electrical Specifications Wiring Diagram 1. Electrical Ratings MDTTAPPDDIOALLOWED Module Ratings: e T Supervisory 30VDC, 175mA max . •_ EITHER LOOP MAY BE WIRED A9 Alarm 30VDC, 175mA max al- CI CLASS A OR ASSB M M NO END OF LINE DEVICE REQUIRED Initiating circuits are rated: • + - RL DP TmAND Supervisory 30V peak, 66mA max + Alarm 30VDC peak, 66mA max INITIATING I����� (60 devices in alarm) _ - • 2. All wiring must be in accordance with Article 760 of L °"' " "°E"CE NEC and local building codes. NOT USED II ll .... ,____A_______„ 3. Only the devices in the following list may be used. A • ! maximum of 60 devices (excluding CZM -1, CZM- " [q][al][][q][Q][4][4][]® 70 11 ® EI® +) 1 B6,LIM -1 and ICP) in any combination may be con V r woe nected to a single loop.The UL identifiers for compatibil LOOP ity are the same as the model names specified below. • OPERATES IN FILL CONFORMANCE WIN STYLES •• OPERATES IN FULL CONFORMANCE WITH STYLE • 4. No end of line device is required. NOTICE: The use of other than Cerberus Pyrotomcs detectors and bases with Cerberus Pyrotronics control equipment will be considered a misapplication of Cerberus Pyrotronics equipment and as such void all warranties either expressed or Implied with regards to loss, damage. liabilities and/or service problems Cerberus Division Cerberus Division 8 Fernwood Road 50 East Pearce Street Florham Park, NJ 07932 9/00 Richmond Hill, Ontario Siemens Building Technologies Tel (973) 593.2600 10M L4B, 1B7 CN Cerberus Division FAX (973) 593 -6670 SCD -1G Tel (905) 764-8384 February 2000 Website www cerbpyro corn Printed in U.S.A. FAX. (905) 731 -9182 Supersedes sheet dated 7/99 SIEMENS Fire Safety EL -410D Voice Evacuation Alarm System Amplifier Unit ENGINEER AND ARCHITECT SPECIFICATIONS • 100 Watt Output • 25 Volt or 70 Volt Operation - • Power Failure Indicator ' I Alb ^, t POWER FAULT �;�r • Battery Superv -a + BATTERY FAULT • Battery Transfer • "ray • ': • 0 Listed, ULC Listed ; " NYMEA and CSFM • Approved Description Battery Supervision The Siemens Fire Safety EL -410D is the amplifier unit The battery is supervised for "on charge" voltage for the MXLV Voice Evacuation System. The audio condition. Shorts or open battery lines will be signaled output amplifier section is rated at 100 watts, 70.7 by an LED at the amplifier. VRMS or 25 VRMS. The amplifier is designed to automatically switch over to battery operation upon Protection failure of the 120 VAC input. Power and battery trouble LED's are provided. The unit mounts in the MME -3 or The amplifier and the power lines are protected by MLE -6 MXL system enclosures using the MSR -1 Rail fuses and are all supervised. Mounting Kit. The unit also mounts within a standard System 3 "EA" enclosure and occupies eight regular module spaces. Operation Power The Model EL-410D operates from a 120 volt 60 Hz supply with a 24 volt battery standby (or other emer- gency DC source). Loss of the main operating power transfers the system to battery operation and is signaled by an LED on the amplifier. Restoration of main power automatically returns the system to normal condition. CATALOG NUMBER 3393 Technical Data - Power Requirement: 120V 60 Hz, 2.5 Amp. Power Line and Fuse Rating - Battery: 24 Volt Main Supply Circuit Breaker: 2.5 Amp. AGC , Amplifier Battery Drain Amplifier Fuse: 12 Amp: AGC In Supervision: 200 mA AUX Power: 4 Amp. AGC At 100 watt Output: 9.5 Amp. Battery: 15 Amp. AGC Amplifier Output: 25 or 70.7 Volts, 100 Dimensions: 89 in. c ) H x 19 • watt RMS, less than (10. (10.8 c 8 c 3 m) ) cm) W Z i n 1%THD at 1KHz - (10. cm x 4% Frequency Response: 100- 7,000Hz -3dB Mounting: Designed for rail Input Sensitivity: 1 V RMS mounting in a flush or surface wall mounted . enclosure Ordering Information . - . Model Part Shipping Wt. , Number Description Number Lb. Kg. • EL -410D MXLV Amplifier Unit 500 - 694900 28 13 Refer to Installation Instructions P/N 315 - 094916 • • EL -410C • ri 25 27 7 • IL 15 15 20 rim NV dam r`` zz z ) mL'J� rim FROM OMM-I , — 4- 4 TO TERMINAL AMPLIFIER INPUT . + SN1EL0 NEXT TO OCC -1 /� SUPERVISED LOW AMPLIFIER INPUT — \ I , , LEVEL AUDIO SIGNAL I V RMS _!V : AMPLIFIER OUTPUT • AUDIO • SEE NOTE 2 24 OHMS MAX JUMPERS � CONNECT S NNECT A 25V RMS OR TO ASC•U•2 _ - AMPLIFIER OUTPUT— 70 7V RMS SYSTEM 100W MAX • - 7 CONNECT TO SEE NOTE I = TERMINAL ICON N/ THE OCC -I CARD • AC INPUT 120V SEE NOTE 3 , 50/60 Ns. 2A MAX NT' . S CONNECTION TO SYSTEM BATTERIES 24 VDC. 12A MAX MXLV Amplifier Connection Notes: - 1. For information on the riser connections refer to the following appropriate documentation as necessary; MXLV Manual P/N 315 - 092036 OCC -1 Instructions P/N 315 - 090918 ASC -1 Instructions P/N 315- 091263 ASC -2 Instructions P/N 315- 092085 Run the low level audio input lines from OCC -1 in shielded cable and separate conduit from the high level, audio output line of the amplifiers. See OCC -1 Instructions, P/N 315 - 090918. In multiple EL-410Ds are used, connect the EL-410Ds together using terminal 7 and 8. Then connect them to the OCC -1. This supervises the battery and AC fault at the EL -410D. If there is not battery connected, to the EL-410D, this wiring configuration is not necessary. 4. Configure the OCC -1 input with CSG -M for normally low 5/24 VDC input. The EL-410D power /battery supervision is normally low input. Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 2/02 Brampton, Ontario Siemens Building Technologies Tel (973) 593 -2600 5M Canada L6T 5E4 g g FAX: (973) 593 -6670 SFS -IG Tel (905) 799 -9937 February 2002 Fire Safety Website: wwwcerbpyro.com Printed in U.S A. FAX: (905) 799 -9858 Supersedes shootdalod 1,01 SIEMENS Cerberus Division NET - Commun Module ENGINEER AND ARCHITECT SPECIFICATIONS Features i or • Plugs Into PSR -1 �- • Provides Network Communicat -, T- 3 �)LIl41 e •J � with MXL !� i � _ i I8; �..= -42.2 :;75- • RS -485 Network • 19.2K Baud Transmission Rate • Digital Communication 3 2 ,)bh • —` -� 3 _ " - Ft 2O • • Port �� PC Diagnostic I` Z" 111 • NFPA Style 4 E - . , l yr a�s cb I �• • o, • Listed/ULC Listed, CSFM, NYMEA, FM and City of f Chicago Approved Description • The Cerberus Pyrotronics NET-4 is a plug -in type module The NET-4 Communication Module shall meet the used to provide_communication between the Cerberus requirement of the NFPA Style 4. It shall plug into the Pyrotronics MXL and various. other MXL Remote Mod- PSR -1 Network. Supply. ules. It is designed to plug into an edge connector type The NET-4 shall also provide a serial port for connection slot on the PSR -1 Network Supply. The NET-4 provides of a PC. This port shall be used for system diagnostic NFPA Style 4 type communication. This communication is RS -485 operating at 19.2K Baud and is fully digital. purposes. The NET-4 also provides a port for connection of a PC. No special programming shall be required for the NET -4 • This port can be used for system diagnostics. No special card. programming is required for the NET-4 Module. Electrical Information Engineer and Architect Specifications Input voltage 5V, ±5% Communication between the Cerberus Pyrotronics MXL Control Unit and various remote modules shall be Supervisory current 20mA provided by the NET-4 Communication Module. The Alarm current 20mA communication shall be digital and use RS -485 commu- nication operating at 19.2K. Baud. • CATALOG NUMBER 5012 • Ordering Information • Model Description Part Number NET-4 MXL Communication Module 500 - 891181 Reference Installation Instructions P/N 315- 090909 • • • • i NOTICE The use of other than Cerberus Pyrotronics detectors and bases with Cerberus Pyrotronics control equipment will be considered a misapplication of Cerberus Pyrotronics equipment and as such void all warranties either expressed or implied with regards to loss. damage. liabilities and /or service problems Cerberus Division. Cerberus Division 8 Fernwood Road 50 East Pearce Street .Florham Park, NJ 07932 6/00 Richmond Hill, Ontario Siemens Building Technologies Tel 1973) 593 -2600 5M L4B, 1B7 CN FAX 1973) 593 -6670 SCD -IG Tel. (905) 764 -8384 • June 2000 Cerberus Division Webstte: www cerbpyro corn Printed in U.S.A. FAX (905) 731 -9182 Supersedes sheet dated 4/96 • • SIEMENS Cerberus Division • • BB-55, BB-55R and Accessory Enclosures ENGINEER AND ARCHITECT SPECIFICATIONS • BB -55 Enclosure. Holds .60 A.H. Hour or Smaller Battery Sets • DE -1 Enclosure for Document — - -- Storage • Sturdy Welded Construction • T -45 Key and Lock Set Installed G f • Vented for Heat Dissipation CERBERUS wworwon • Available in Black with Cerberus • Pyrotronics Logo • BB -55R is a Red Battery Enclosure • • • ® Listed Description Ordering Information The Cerberus Pyrotronics BB -55 and BB -55R are steel battery enclosures with sufficient capacity and strength to Model Part Number Description house 60 A.H. or smaller battery sets. The BB -55 is a BB -55 500 - 693298 Battery Box BTX - - Black black enclosure with the Cerberus Pyrotronics logo. The BB - 55R is red to meet specific local codes. BB -55R 500 Battery Box BTX - - Red Both boxes have the same dimensions. The width is 24 DE - 500 - 695903 Document Enclosure - Black inches to match the enclosure width of our larger sys- • tems. The enclosures are secured with the same lock set For Dimensions of Cerberus Pyrotronics Battery Sets see • provided on all Cerberus Pyrotronics equipment. Catalog Number 3361. The enclosures are constructed for long life and heat dissipation. A top knockout aligns with the bottom knockout in the MXL enclosure. This product is listed by Underwriters' Laboratories for its intended use. The Cerberus Pyrotronics DE -1 can be used to store and secure documents pertinent to the fire alarm system wherever they may be required.This enclosure matches the fire alarm system enclosure in color, logo and key set. NOTICE: The use of other than Cerberus Pyrotonics detectors and bases with Cerberus Pyrotronics control equipment will be considered a misapplication of Cerberus • • Pyrotronics equipment and as such void all warranties either expressed or implied with regards to loss, damage, liabilities and /or service problems. Cerberus Division Cerberus Division CATALOG NUMBER 3326 8 Fernwood Road 50 East Pearce Street Florham Park, NJ 07932 3/01 Richmond Hill, Ontario Siemens Building Technologies T 1:9(9773V59933-260700 SCD --IG Tel: (9 5) 764 -8384 March 2001 • Cerberus Division Website: www.cerbpyro.com Printed in U.S.A. FAX:19051731 -9182 Supersedes sheet dated 4/00 Dimensions BB -55 and BB -55R • • DE -1 14 24.00 (INSIDE) ►� 1 /2 3/4 KNOCKOUT �— 6.50 —► ).__� 1.75 3.00 Outside 7.00 INSIDE D 100000000000000000000000000000 0000000000000000000000 L J J TOP ( 000000000000000000000000000000 .0.00000000000000000000 12.33 .3 TOP Out 2.25 -t- --1$t- A__ . s 21.25 > 1.37 12 PT. AA 1 -- 4 { A A 1.38 d J LABEL MODEL BB-55 r FOR a nUSEYAMue HR. A BATTERIES 16.10 15.85 7.125 • �f Outside 11.42 ti 11.00 I 8.00 I INSIDE H 00.437 0 — O+ I I I i BACK I I / -O- -40- t TSI 1 1 CERB I I (OUTSIDE) i r V 1 C —110.I 1.00 4111— 10.12 —Po. FRONT BACK ' 12.50 CPU I I 1 p CERB E� R oUS • L III III FRONT Electrical Rating SI E M E N.S Fire Safety ZC1 -8B Electrical Ratings ZC2 -8B, ZC2 -4AB, ZC3 -4AB Electrical Ratings • ' 1 Maximum wire size: 14 AW.G twisted pair* • 1. Maximum wire size: 14 AWG twisted pair* ZC Series 2. Minimum wire,size: 18 AWG twisted pair* 2. Minimum wire size: 18 AWG twisted pair* • 3. Maximum loop resistance Total Resistance for EachZone 3. Maximum loop resistance: Total Resistance for Each Zone p 70 7V RMS: 6.5 ohms max, 25W (0.35A) 70.7V RMS: 6 5 ohms max, 25W (0.35A) MXLV Speaker/ Non -Coded N.A.C. Zone Cards 3.25 ohms max, 50W (0.71A) 3.25 ohms max, 50W (0.71A) 2 28 ohms max, 70W (1.0A) 2 28 ohms max, 70W (1.0A) (ZC1-8B /� p , ZC2-8B, ZC2-4AB, ZC3-4A 163 ohms max, 100W (1.4A) 163 ohms max, 100W (1.4A) 25 2V RMS. 3 ohms max, 37.5W (1.5A) 25.2V RMS. 3 ohms max, 375W (1:5A) Power Limiting Option Modules 2.5 ohms max, 45W (1.8A) 2 5 ohms Max, 45W (1.8A) p 4. Inputs Speaker •25:2 or 70 7V RMS 4. Inputs Speaker 25.2 or 70.7V RMS (PLC-4, PL864-25A, PL864 -70A, PL864-25S) Strobe 24VDC Strobe 24VDC, 3 ohms max (15A) 5. Outputs Supervisory 15VDC, 0 06mA 2.5 ohms max (1.8A) Activated 252V RMS/24VDC, 45W max, 5 Outputs Supervisory 15VDC,0.06mA ENGINEER AND ARCHITECT SPECIFICATIONS 1.8A max Activated 25.2V RMS/24VDC, 45W max, 70.7V RMS, 70W max, 10A max 1.8A Max 6. Fuses 25V 3 15A, 250V (P /N 105- 291200) 70 7V RMS, 70W max, 1.0A max • Fully Supervised Notification Appliance Circuits • 1, 2, or 3 Audio Channel versions 70V 1.6A, 250V (P /N 105291202) 6. Fuses 25V 3.15A, 250V (P /N 105- 291200) 7. End of Line Resistor: 24K, 1/2W, t5% (P /N 140- 820405) 70V 1.6A, 250V (P /N 105291202) • Supports Speaker, Strobe, Non -Coded • Plugs into OM M.-1• or OM M -2 Cardcage 8 Max card Output 25.2V RMS, 1t9A, 300W 7 End of Line Resistor 24K, t/ /W, ±5% (P /N 140 - 820405) Horns, Chimes 70.0V RMS, 4.2A, 300W 8. Max card Output 25.2V RMS, 3 9A, 100W • Optional Power Limiting Modules (U.L. 864) 24VDC, 14 2A 70.0V RMS, 1.4A, 100W . • Style Y or Style Z (Class A or B) •Use shielded wiring on strobe circuits when they are in the same • Use shielded wiring on strobe circuits when they are in the same • 0 Listed, U.L.C. Listed raceway as audio wiring raceway as audio wiring • Fully Mappable and Controllable 2 For separate sources for each of the three inputs, refer to the appropriate wiring diagram • 70V or 25V Audio Signal Capability on Each Card ID I 0 Description The Siemens BuildingTechnologies, Fire Safety Division ZC series cards be used in non -MXLV applications. cards are a series of optional MXLV modules which for use as non -coded NAC circuits. provide various configurations of notification appliance circuits, such as speaker, strobe, non -coded horn, bells This equipment is approved for operation over the or chimes. temperature range of 0 °C to 49 °C. There are versions of the ZC cards that allow the selec- ZC1 -8B -1 Channel Audio (25V or 70) / Strobe tion of single, dual or three channel audio operation, as Zone Card well as StyleY or Style Z zone configuration options. The ZC1 -8B is a plug in speaker or strobe zone card. All of the ZC.cards can support either 25V or 70V audio It plugs, into a slot in either the OMM -1 or OMM -2 signals. 24VDC polarity reversal type circuits can also cardcages. ZC1 -8B contains (8) class B speaker or strobe be used for strobe, horn, chime or bell applications. circuits The (8) zones can be divided into groups of 3,3, The ZC cards zones are individually fused but not and 2 ; where each group can be either strobe or speaker limited. When power limiting is required, the PLC -4 card circuits. Strobe circuits are limited to 1.8 amps @24VDC and appropriate PL864 modules must be provided to each. When used for 25V speaker circuits, each zone is meet U.L. 864 power limiting requirements. rated at 45 Watts maximum. When used for 70V speaker circuits, each zone is rated at 70 Watts maximum. The The ZC cards plug into a slot in either the 0MM -1 or maximum ZC1 -8B card (all zones) wattage 'is 300 watts. OMM -2 cardcages. Each ZC card occupies one of the For applications-that require high speaker loads on a single eleven available sub - module addresses of the MXLV's zone, ZC1 -8B cards are capable of up to (3) 100 Watt, OCC -1 controller module.The zones are completely 70V speaker zones when audio is supplied by (3) sepa- configurableand mappable using MXLs custom program- rate EL-410D amplifiers. For strobe or non -coded horn ming software (CSGM).These outputs are fully super- applications, the ZC1 -8B card (all zones) is rated for a NOTICE: The use of other than Fire Safety detectors and bases with Fire Safety equipment will be considered a misapplication of Fire Safety equipment and as such void all vised and are controllable automatically through MXLs maximum card load of 14 4 amps @24Vdc. warranties either expressed or implied with regards to loss, damage. liabilities and /or service problems control by event logic or manually via the VSM -1 switch modules in the MXLV command console. If power limiting of zones are required, the PLC -4 and the appropriate PL864 (PL864-25A, PL864 -70A, PL864 -25S) 411111 I III current limiting module required. Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 9/02 Brampton, Ontario CATALOG NUMBER 5030 Tel (9731 593 -2600 5M Canada L6T 5E4 Siemens Building Technologies FAX 1973) 593.6670 SFS-IG Tel .19051 799.9937 September2002 Fire Safety Website• www-sbt siemens corn /f is Printed in U.S A. FAX 1905) 799 -9858 Supersedes sheet dated 9/99 I I . 1 . 1 . . t . ■ 5 I t 51111 PLC -4 Power Limiting Card • _ ,..2-, _ _ _•` { The PLC -4 is a plug in audio signal and 24VDC power �r ° - [ t �' 1 1, � �� � w .,� -• � X31 °° • `• - �, limiting option card- It plugs into a slot in either the N " [� I t�I - 1 [ 1 '� � e ie�nci7iv� T-- t` 1r ,- ----�• ' , l •• 1 • • O • 'A31:1 ZIEEti0 -51E Nib j e;� 1 I I "'t . a a � .� '4 .r rrc� Jj�r,1 .. „(,!�_ _lint � � Ii �L `, 1 . • . t t,- • • OMM -1 or the OMM -2 cardcagesThe PLC -4 has four available slots for mounting of the appropriate power I I • . . - , � : ' - _ � -�� I ,� 1. 1 _ i �� •� e � - .' ' .? -3 - :64• n _ � tlisrJr - l l 1 �,� u u u u ) - , limiting circuit modules (PL864 -25A, PL864 -70A, PL864- r.•1 m �{ - . 1 =_ ,�: ` �l r - nn 1 n - - i - - - - 25S) . If power limiting of speaker or strobes zones on an rn - -7 0A ~ . Irr” 1 } _ I � .4T>' L i rri � I1 n _ p g p I _ - , ' _ • ; I � 1 - . in ( LI ro !) - {C:P• :_ a - � V system are required, the PLC -4 card must be used ►e+ e I T C. Ti':' T h, , Li 1 t ) [i .. __ I� t ] k __ - - , J a _ "m -t; - R , = 2 6 ,0 1 , ~ lit • i!f ;j t #1 td hi with the appropriate PL864 modules. i • 9 ( ,.� I t • l , .. 'a � . cif., N �� - - - : 1 ' > - 7 - . 5 j - . / l ' 1 t1it . _ }.T+. ]5 �; [ - . 4 g,:,C i [ .. 5MC r p _1 � _ } t ', UY - 0 ', I \ i N � I [ : .r, 3 y 11[. � ".�.�.� 1 � � ��f1 -' i j 1 4 4 .! • - t ' t t. E -c "- [ �F� " i3 �'� i!t • I� � �r,i� � .. 1 440' . . - 2341c , :. ) , ] pM+ �. �� 1 ma • '• •• •• • • • I'LC - 4 ` ' ZC1 - Module ZC2 -4AB . I ° PL864 -70A ZC2 -8B - 2 Channel Audio (25V or 70V) Zone Card ZC3 -4AB - 3 channel audio (25V or 70V) / Strobe . PL864-25S Zone card , • ' • 24 Volt D.C. Strobe Circuit Auxiliary Power Supply - The ZC2 -8B is a plug in 25V or 70V speaker zone card. It Power Limiting Module plugs into a slot in either the OMM -1 or the OMM -2 The ZC3 -4AB is a plug in speaker or strobe zone card. It I • cardcage. ZC2 -8B contains (8) Class B dual channel plugs into either the OMM -1 or the OMM -2 cardcage.The The PL864 25S mounts on one of the four available slots speaker circuits . When used for 25V speaker circuits, ZC3 -4AB contains (4) class A or class B three channel • • • • on the PLC -4 card. When power limited strobe zones are each zone is rated at 45 Watts maximum. Strobe /non- speaker circuits or Class A or B strobe circuits. Strobe/ , i I required on any versions of the MXLV zone cards (ZC1- coded horn circuits are limited to 1.8 amps @24VDC non -coded horn circuits are limited to 1.8 amps @24VDC 5,5,55.,, „a„ • 8B, ZC2 -8B, ZC2 -4AB, ZC3 -4AB), one PL- 864 -25S is • each.When used for 70V speaker circuits, each zone is each. When used for 25V speaker circuits, each zone is required for each auxiliary power supply.The P6864 -255 rated at 70 Watts maximum.The ZC2 -8B total speaker rated at 45 Watts maximum.When used for 70V speaker PLC -4 power limits auxiliary power supplies to a maximum load load (wattage total for all zones) maximum is 100 Watts. circuits, each zone is rated at 70 Watts maximum.The - of 4 amps @ 24VDC. For applications that require high speaker loads on a single 7C3 -4AB total speaker load (wattage total for all zones) PL864-25A zone, the ZC2 -8B is capable of a single 100 Watt , 70V maximum is 100 Watts. For applications that require high 25 Volt Audio Signal Power Limiting Module audio zone. If power limiting of zones is required, the speaker loads on a single zone, the ZC3 -4AB is capable The PL864 25A mounts on one of the four available slots PLC -4 and the appropriate PL864 (PL864 -25A, PL864 - of a single 100 Watt , 70V audio zone. If power limiting of on the PLC -4 card. volt When power limited 25 speaker 70A, PL864 -25S) current limiting module is required. zones is required, the PLC -4 and the appropriate PL864 zones are required on any versions of the volt zone p -0 "t 'r' (PL864 -25A, PL864 -70A, PL864 -25S) current limiting ,,,,.. ,_ :'n 'A31.1 ZIEE60-SIE • module is required. • card64 s (ZC1 -, requir z ciTr B, p ZC2 -4 AB4 . 10D , ZC3-4ABfier ), one ^eczo�dr - ,, - PL8 25A is 8 Bed er E L am pli I m .. ..-1 1 1. I . .1 _ .. 1 i l l — r1 1 I I . m r PTU — J 1151-1. op— Iln y ( �� 0��; � v ..s._ -- •' a -- .•r -- - — - - 555 __ _ w ` 1 - 1 I I T.S ! y Iar o ik , a _ 4 � ir' 7 ,. i. 1, : X11 1 - 1 F 1 Y1� — Y - •_ _ i � - • • • n3tllEE6it • . „1„ „1„ f. 1 ` A _ PTCS a tt, I 1 - , 7 y o O • m . m tlI . r 1 . 11 o a � I _ 11 1 :t I f I r m I ' T fi , :64-25A I- Itl15 :t t, f, t T PT C : i - _, 1 : , _ ,,; ,..7- — '. � i „ r t� I , - J PTE3 nn PL864 -255 1 , .l I (Sri A.� 'I 1 - vu .�' 1 - - - .. —”. I� ' I . I Ii.[ I r ' • � • N "-- m N I ` _ r ; J �. f i ,; Ordering Information I ZC3- •n0- ��• •. —I PT i _ ZC2 -8B E I • • , 1E M 73 E:. ] I ' ■ ` Model ni >•• -.. ° d Number Description Part Number ZC3 -4AB ZC1 -8B Single Channel Audio /Strobe Zone Card 500 -89395 ZC2 -4AB - 2 Channel audio (25V or 70V) / Strobe PL864 -25A (8 Class B Zones) Zone card ZC2 -8B Dual Channel Audio /Strobe Zone Card 500 -89395 PL864-70A (8 Class B Zones) The ZC2 -4AB is a plug in speaker or strobe zone card. It Audio output Zone Audio 70 Volt Audio Signal Power Limiting Module ZC2-4AB Dual Channel Audio /Strobe Zone Card 500 -89396 plugs into either the OMM -1 or the OMM -2 cardcage.The Module Channel Circuit Style Rating Use (4 Class A or B Zones) ZC2 -4AB contains (4) class A or class B dual channel ZC1-8B 1 8 Y 25V or Speaker and /or The PL864 -70A mounts on one of the four available slots ZC3-4AB Three Channel Audio /Strobe Zone Card 500 -89396 speaker circuits or Class A or B strobe circuits. Strobe/ 70V strobe /horn on the PLC -4 card. When power limited 70 volt speaker (4 Class A or B Zones) non -coded horn circuits are limited to 1.8 amps @24VDC ZC2 -88 2 8 Y 25V or Speaker or zones are required on any versions of the MXLV zone PLC -4 Power Limited Card 500 -89331 each. When used for 25V speaker circuits, each zone is 70V strobe /horn cards (ZC1 -8B, ZC2 -8B, ZC2 -4AB, ZC3 -4AB), one PL864 -25 25V Audio Power Limiting Module 500-89330 rated at 45 Watts maximum.When used for 70V speaker ZC2 -4A8 2 4 Y or Z 25V or Speaker or PL- 864 -70A is required per EL-410D amplifier. PLe64.70 70V Audio Power Limiting Module 500-89330 circuits, each zone is rated at 70 Watts maximum.The 70V strobe /horn ZC2 -4AB total speaker load (wattage total for all zones) ZC3 -4AB 3 4 Y or Z 25V or Speaker or P1864.25 24VDC Strobe Circuit PS Power 500 89376 strobe /horn Limiting Module 7 0V maximum is 100 Watts. For applications that require high 0 0 speaker loads on a single zone, the ZC2 -4AB is capable of a single 100 Watt, 70V audio zone. If power limiting of zones is required, the PLC -4 and the appropriate PL864 . (PL864 -25A, PL864 -70A, PL864 -25S) current limiting module is required. SIEMENS Fire Safety Models: MME -3, MBR -MP MLE -6, MBR -3MP MDL -1 MDB -1 MDG -1, MHD -1 MHD -2 MHD -3 MHD -4 MXL /MXLV Fire Alarm Enclosures and Equipment ENGINEER AND ARCHITECT SPECIFICATIONS I •; o i ci ' MME -3 DOOR • • • MLE -6 DOOR MME -3 MLE -6 ENCLOSURE ENCLOSURE •I Enclosure & Door Package (MME -3) • Enclosure & Door Package (MLE -6) • Standard Size MXL Enclosure • Large Size MXL Enclosure • Removable Module Mounting Plate (MBR -MP) • Removable Module Mounting Plates • Hinged Locking Door with Optional Inserts for (MBR-MP &MBR 3MP) Clear Lens, Grill, Blank Plate • Hinged Dual Lock Door with Optional Inserts for Clear Lens, Grill, Blank Plate • Mounting for (1) MMB or PSR -1 and Up to 3 Cardcages (MOM or OMM) • Mounting for (1) MMB or PSR -1 and Either Up to 6 Cardcages (MOM or OMM) or Up to 3 Cardcages • 0 Listed, ULC Listed, FM Approved and 2 EL-410 Amplifiers (MSR -1 Rail Kits) • ® Listed, FM Approved, ULC Listed CATALOG NUMBER 5056 0 Description shipped to the job site for installation of wiring and The MME -3 and MLE -6 enclosures provide a complete set conduit, while the system hardware (electronics) is of hardware for mounting all MXL and MXLV modules for mounted to the studs on the MBR -MIP, pre - wired, various system size requirements from small to large. programmed and tested prior to delivery and installation at the job site.This allows for quicker, more efficient Included in the enclosure series are backbox and door sets, system start ups with less chance of the sensitive removable mounting plates and clear lenses, louvered electronics being damaged while field wiring and conduit ventilation grill plates, and blank plates for use with the are connected to the system enclosure. enclosure doors. Dead front covers for use alone, with switch and /or annunciator modules and with a strip printer MBR -MP mounting plate bolts to either the MME -3 or are also available. MLE -6 enclosures for easy installation on the job site.The MBR -MP also has handles to allow easy transport and This equipment is approved for operation within the mounting.The MBR -MP contains mounting studs for (1) temperature range of 0 °C to 49 °C. MMB or PSR -1, (1) PIM -1, (1)TBM -1, and up to (3) MOM or OMM cardcages or 2 cardcages and (1)TSP -40 Printer MME -3 (same mounting studs as the MBR -2 enclosures). MXLN Standard Size Enclosure The MBR -MP is ordered and shipped separately from the The MME -3 enclosure set consists of a sheetmetal backbox MME -3 and MLE -6 enclosures. and door with keylock.The MME -3 can be used for either the MXL System, MXLVVoice Command Console, MXLR Transponder, MXLRVVoiceTransponderorAmplifier Equip- - ment (using the MSR -1 Rail Kit).To mount MXUMXLV modules in the MME -3, the MBR -MP removable module mounting plate is required. Using the MBR-MP mounting I :•S'�11 -f plate (1) MMB or (1) PSR -1 and up to 3 expansion cardcages (MOM or OMM) can be mounted in the MME -3 enclosure. When used to mount MXL amplifiers (EL-410), the MBR -MP !.I' is not required, instead up to (3) EL-410 amplifiers may be I , installed in the MME -3 by using (3) MSR -1 rail kits. When '*ik' amplifiers are mounted in any enclosure always install MDG -1 1 ` grills in the door for properventilation... • MME -3 is designed for surface of semi -flush mounting and includes various knockouts for wire and conduit entry.The door in the M ME -3 set has two cutouts for either clear lenses, blank plates or grills depending on the application, MBR -MP w/ MXL Equipment Connected and contains a key lock. MLE -6 MBR -M P MXLN Large Size Enclosure MME -3 and MLE -6 MXL Module Mounting Plate The MLE -6 enclosure set consists of a sheetmetal The MBR -MP MXLN Module Mounting Plate is required backbox and door with two key locks.The MLE -6 can be for use in both MME -3 and MLE -6 enclosures to mount all used for either the MXL system, MXLV Voice Command MXL and MXLV equipment. MBR -MP is not necessary if Console, MXLR Transponder, MXLRVVoiceTransponder the MME -3 and MLE -6 enclosures are to be used only for or Amplifier Equipment (using the MSR -1 rail kit).To mounting of amplifiers (EL -410). mount MXLN modules in the MLE -6, the MBR -MP removable module mounting plate is required with the The MBR -MP is a removable MXLN module mounting MBR -3MP optionally available for use. Using the MBR - plate that allows the enclosure MME -3 or MLE -6 to be MP mounting plate (1) MMB or PSR -1 and up to (3) • a . r it tl.11 1, J ( • 1 4 rr "� L • 0 7, ,1 ITS fi.: . :a: MBR -MP MLE -6 w/ 6 Cardcages expansion cardcages (MOM or OMM) can be mounted in MBR -3MP the MLE -6. If additional cardcages are required, the MBR- MLE -6 Optional Cardcage Mounting Plate 3MP optional cardcage mounting plate can also be The MBR -3MP is an optional MXUMXLV cardcage installed in the MLE -6 below the MBR -MPThe MBR- mounting plate for use exclusively in the MLE -6 enclo- 3MP allows mounting of an additional (3) MOM or OMM sure. When installed in the MLE -6 backbox, the MBR - module expansion cardcages. 3MP adds the option of mounting up to an additional (3) Various combinations of hardware can be installed in the MOM or OMM expansion cardcages. MLE -6. If only amplifiers are to be installed in the M LE-6, no MBR -MP or MBR -3MP plates are required. Instead up to (5) EL-410 amplifiers can be installed by using (5) MSR- ' 1 rail kits.The MLE -6 can also be used to mount up to (3) MXL cardcages and (2) amplifiers. This configuration } � , would be typical of a remote voice transponder cabinet. In this configuration (1) MBR -MP would be used in the upper half of the MLE -6 to mount the MXL modules, while the lower half would use (2) MSR -1 rail kits to mount up to (2) EL-410 amplifiers. 4{ t ( r '�,'� t ' MBR -3MP F} 1 ',I`. ' MDL -1 ( ; i ' Clear Lens The MDL -1 is a clear Plexiglas' lens which fits in either one of the two openings in the MME -3 enclosure door or t= �' in one of the three openings in the MLE -6 enclosure door. One lens is included in the MDL -1 package. -s . MLE -6 w/ MBR -MP & (2) Amplifiers The MLE-6 is designed for surface or semi -flush mounting and includes various knockouts for wire and conduit entry. The door supplied with the MLE-6 set has (3) cutouts for either clear lenses, blank plates or grills, depending on the application.The door afso contains (2) key locks — keyed the same. MDL -1 Various combinations of dead front mounting plates are possible with the MLE -6 enclosure. A typical MXLV installa- MDB -1 tion would have (1) MKB -2 at the top, and (2) MHD -3 dead Sheet Metal Blank Plate front plates in the middle (for (14)VSMNLMNFM modules The MDB -1 is a sheet metal blank plate which fits in per plate) and (1) or (2) MHD -2 lower dead front plates. either one of the two openings in the MME -3 enclosure door or in one of the three openings in the MLE -6 enclosure door. One blank plate is in the MDB -1 package. "jai ,i HEIR III JIFF MDB -1 MLE -6 w/ Door Closed MDG -1 Louvered Ventilation Plate The MDG -1 is a louvered plate that mounts in either one ; . f of the two openings in the MME -3 enclosure door or in one of the three openings in the MLE -6 enclosure door. The MDG -1 is required on MXLV systems to provide ventilation for the enclosures when using either the EL 410 or the ZAC -30 audio amplifiers in that enclosure. One MDG-1 plate is included in the MDG -1 package. ; v "' ` MHD -2 • MHD -3 Middle Dead Front Plate for Mounting Switch /LED /Fan Control Modules ' 'y "► ' The MHD -3 is a hinged sheet metal panel that attaches to the MME -3 or MLE -6 backboxes. It fits in either the "h '► ' ", middle of the upper sections of these enclosures. It has openings for two rows ofVSM -1 Switch Modules,VLM-1 MDG -1 LED Annunciator Modules,VFM-1 Fan Control Modules or VSB -1 Blank Plates. Each row can mount up to (7) MHD -1 modules fora total of (14) modules per MHD -3.The MHD -3 attaches to the backboxes with screw fasteners. Upper or Middle Dead Front Panel It is hinged for easy access to the rear of the modules The MHD -1 is a hinged sheet metal panel which attaches and inside of the enclosure. to either the MME -3 or the MLE -6 enclosure backbox. It fits in either the upper or the middle section of the MME - 3 backbox or the upper or either of the two middle sections of the MLE -6 backbox. It has an opening with a cover plate for theTSP -40 printer when used and attaches to the backboxes with screw fasteners. When in place it covers and protects modules and wiring, providing dead front construction in that area - } i MHD -3 Kos s � � rf;4 1 MHD - Middle Dead Front Plate for the Switch /LED /Fan Control Modules with Pnnter Cutout The MHD-4 is a hinged sheet metal panel that attaches to - the MME -3 or the MLE -6 backboxes. It fits in the middle MHD -1 section of both enclosures. It has two rows for mounting ofVSM -1 Switch Modules, VLM-1 LED Annunciator MHD -2 Modules,VFM -1 Fan Control Modules orVSB-1 Blank Modules. Each row has space to mount (4) modules, for Lower Dead Front Panel a total of (8) modules per MHD -4.The MHD-4 also has a The MHD -2 is a hinged sheet metal panel which attaches cutout to display theTSP -40 InternalThermal Strip Printer. to either the MME -3 or the MLE -6 backboxes. It mounts The MHD-4 mounts to the backboxes with screw fasten - in the lower section on the MME -3 and on the lower two ers. It is hinged for easy access to the rear of the mod - sections of the MLE -6 backbox. It has no openings and ules and inside of the enclosure. When in place, it covers attaches to the enclosures with screw fasteners. When in and protects modules and wiring, providing dead front place, it covers and protects modules and wiring, provid- construction in that area. ing dead front construction in that area. • 777 R . -- ,_ ,'�•.- ` j: • MHD-4 MSR -1 VSB -1 Switch Blank Plate Ordering Information The VSB -1 is a blank plate which covers one opening in Model • either the MHD -3 or MHD-4 dead front panels. It attaches Number Description Part Number to the MHD with screw fasteners. MME -3 MXLN Medium /Standard Enclosure 500-694209 (Backbox and door pkg,) Requires VSB -P MBR -MP to mount MXL/V modules. MBR•MP Removeable module mounting plate 500-694210 Plastic Switch Blank Plate needed for MME -3 and MLE -6 The VSB -P is a plastic blank switch plate.TheVSB-P is a Enclosure. Allows mounting of up to direct replacement for theVSB -1. Six plates are included in 3 cardcages (MOM /OMM) the VSB -P package. MME -3R Red version of MME -3 Enclosure 500- 694892 MME -KIT Kit consisting of (1) MME -3 and (1) 599- 694894 MBR -MP Enclosure and Module Mounting Plate MME -KIT /R Kit consisting of (1) MME-3R and (1) 599-694895 MBR•MP, Red Enclosure and • Module Mounting Plate MLE -6 MXLN large Enclosure (Backbox 500-694530 and door pkg.) Requires MBR -MP to mount MXLN modules. M8R•3MP Cardcage Expander Mounting Plate 500-694532 for use with MLE -6 allows mounting of up to (3) additional cardcages (MOM /OMMI in the MLE -6 for a maximum total of (6) MOM or 0MM cardcages in the MLE -6 • VSB-1 MLE -BR Red version of MLE -6 Enclosure 599- 694893 MLE -KIT Kit consisting of (1) MLE -6, (t) 599-694530 MSR -1 MBR -MP and (I) MBR -3MP Large enclosure and both module Rail Kit mounting plates The MSR -1 is a System 3 type rail kit which fits into MIE-KIT/R Kit consisting of (1) MLE•6, (1) 599-694893 either the MME -3 or the MLE -6 enclosures.The MSR -1 MBR -MP and (1) MBR-3MP Red comes with a U- bracket and a Z- bracket. It allows mod- large enclosure and both module ules such as the EL-410 amplifier, PS -35 Power Supply, mounting plates BC -35 Battery Charger, M01 -7 I/O Interface, MID -16, MDL -1 Clear lens Ill 500 - 692069 MOD -16, PS -5A, SYS3 -MPFO for mounting the D2300CP MOB -1 Sheet Metal Blank (1) 500-692070 fiber optic interface modules or the CCU interface, or any MOO -i Louver Door Plate {1) 500-692213 other System 3 type module required to be mounted in M1-1D•1 Dead Front Panel (1) 500- 092071 the MME -3 or the MLE -6 enclosures. MHO -2 Dead Front Panel (1) 500- 092072 MHD -3 Dead Front Pane111) 500-092073 When used in the MME -3 enclosure (3) MSR -1 Rail Kits MHD -4 Dead Front Panel (1) 500- 092074 can be installed to mount up to three rows for up to (3) VSB -1 Switch Blank (1) 500.092075 EL-410 amplifiers. When used in the MLE -6, up to (5) MSR-1 Rail Kit 500-092078 MSR -1 Rail Kit rows can be installed to allow mounting up to (5) EL-410 amplifiers. When the MLE -6 enclosure is VSB -P Plastic Switch Blank (61 500-648552 used with the MBR -MP mounting plate to install MXL or MXLV equipment, up to (2) MSR -1 Rail Kit rows can also be installed in the MLE -6 for mounting of either (2) EL-410 amplifiers or some complement of System 3 type mount modules. Mounting Diagram 24.1 „s 24.1 t is 6 14" 0 614" O O 3e• 0 O t 0 p L • I N 28.62 520' 39.12 21.25" ` 6375' 21.25' I MME -3 Backbox • MLE -6 Backbox NOTICE: The use of other than Fire Safety detectors and bases with Fire Safety control equipment will be considered a misapplication of Fire Safety equipment and as such void all warranties either expressed or implied with regards to loss, damage, liabilities and /or service problems Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 1/03 Brampton, Ontario Siemens Building Technologies Tel 1973) 593-2600 5M Canada L6T 5E4 9 9 FAX 1973) 593 -6670 SFS-IG Tel. (905) 799 -9937 January 2003 Fire Safety Website wwwsbt siemens com/fis Printed in U S A FAX (9051799 -9858 suamwaos !NMI ddlerl 1iro0 SIEMENS Fire Safety MMB MXL /MXLV Main Control Board - Advanced Life Safety System ENGINEER AND ARCHITECT SPECIFICATIONS • MXL/MXLV System Main Control Microprocessor • Supports 6 amp (MPS -6) or 12 amp (MPS -12) Power Supply • 2 Isolated ALD Circuits - Style 4 (Class B) or Style 6 (Class A) • No shielded wire required on ALD circuits • Supports up to 50 total ALD Circuits • Monitor and Control Up to 60 Analog/Intelligent � Input Devices and 60 Programmable Device' • Relays per ALD Circuit "s ^4,44 e!.1z "E .1, .. ° " t}-l • 2 Style Y (Class B) or Style Z (Class A) Notification Appliance Circuits 4� 7 P 1�S] + • r- rF ' Removable terminal blocks for all field connections 3 4“.z- r� i 91 ��11 .I .1k r Op • M ' l • On -board 16 bit Microprocessor`�,f� • Fully Field Programmable via Laptop Computer i, 4 4 -0 ;1 II� , + • System Firmware uploadable to Flash Memory _ l r ) = I 1 r - � • On -board diagnostic ground fault LEDs I� t l i1 0l aa r • Built -in Style 4 or Style 7 local module network •• RealTime Clock • Supports FirePrintTM, EnviroLINKTM, AccuLINKTM, ChronoLINKTM, CompareTM • ® UL Listed Description The functional operation and control of the MXL is per- The MMB -3 includes a built -in battery charger and transfer formed by the MMB -3 Main Control Board.The MMB -3 circuit.The charger is microprocessor controlled and controls, operates and monitors input device identity, incorporates a brownout circuit that switches the system network communications as well as operator commands to standby batteries during the loss and reduction of the that are entered through the MKB annunciator/keyboard. primary source AC.The MMB -3 will also remove the All operations are supported by either the MPS -6 or the connection to the standby batteries upon AC fail and low MPS -12 power supply, eliminating the need for external battery condition to avoid erratic operation and damage to power supplies. The MMB -3 is a direct replacement of the batteries. Upon command, the system is capable of the MMB -1 and MMB -2, therefore providing total back- displaying the real time, battery voltage, AC voltage and ward compatibility. the charge current and other power data on the MKB The MMB-3 provides 2 ALD (Analog Loop Driver) circuits. that display. It also has a 1 amp, 24VDC output Each ALD loop can be configured as Style 4 (Class B) or that powers the CZM 1 B6 modules. Style 6 (Class A) and can monitor and control up to 60 The MMB -3 is designed with a built -in mounting bracket. Siemens BuildingTechnologies, Inc., Fire Safety Division The MMB -3 mounts directly to the MBR -MP mounting analog input devices and 60 programmable device relays. plate for mounting in either the MME -3 or MME -6 Style 4 or Style 6 ALD circuits are software - program- backbox enclosure. The MMB -3 can also be mounted in mable, eliminating the need forlumpers.The MMB -3 is the MBR -2 or MBR -1 enclosures. MBR -1 requires equipped with 2 programmable and codable StyleY additional mounting brackets. (Class B) or Style Z (Class A) notification appliance circuits. Each circuit can activate up to 1.5 amps of Fire Safety audible and visual notification appliances. CATALOG NUMBER 5079 The on -board 16 bit microprocessor along with nonvolatile The MMB -3 supports local main- remote networking using EPROM and Flash memory allow the system to be Style 4 or Style 7 wiring. This allows a single MXL custom configured to meet a wide range of customer system to be distributed throughout a facility. The M MB- requirements.The MMB -3 provides a port for connection 3 can then support up to 48 additional ALD circuits (50 to a laptop computer allowing for off -line field program- total), and 3000 total addressable input devices and 3000 ming. Complete system configuration can be easily total programmable device relays. No additional module uploaded, downloaded, and edited. Changes can be is required in the enclosure with the MMB -3 to use Style verified using CSG -M custom programming software 7 local network wiring. with integrated CompareTM system software. Program The MMB -3 is approved for operation over the tempera - options include but are not limited to smoke detector ture range of 0 °C and 49 °C. environmental compensation with two maintenance alert levels, history logging, output control by event, check and change time based control, detector sensitivity, alarm Ordering Information verification by device or zone, 32 character custom alphanumeric messages, system operation passwords Model and NAC coding, and application specific detection using Number Description Pert Number FirePrint. System firmware is also resident in Flash MMB -3 MXL Main Control Board w/ MBP-MP plate 500-648860 memory, and can be upgraded by software upload, MMB -3 Installation Instructions 315 - 048860 eliminating the need for upgrade chips. • Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 12/03 Brampton, Ontario Siemens Building 5‘.4 Canada L6T 5E4 g FAX Tel 19(97733))55993-326660700 SFS-IG Tel 1905) 799 -9937 December 2003 Fire Safety Website www sbt siemens com /f is Printed in U S A FAX 1905) 799 -9858 New Issue SIEMENS Fire Safety DMC -1 MXLV Digital Message Card Fire Alarm Panel Accessory ENGINEER AND ARCHITECT SPECIFICATIONS • MXLV Digital Custom Message Player • Software Programmable Custom Messages for: Evacuation, Alert, Emergency Notification, Tornado Warning, SystemTesting and more... • "Live Voice" Custom Message Recording Standard • Up to 250 Unique Custom Messages per DMC -1 • No External Inputs Required to Activate -; s � „r 0 ,� Messages l �' • Spoken WalkTest z: o. 1 A • Spoken Zone Coding w� • Selectable Message Priorities (1 -10) °h"c • Selectable Message Repeat Counts (1 to 15 _ I or continuous) .� �' � r • Many combinations of Tones and Messages �,„„, I� i <<; ' S • A I 1 _ ;. possible (Slow Whoop, 900 Hz, Chime, Temporal Code 3, Wail, Horn) • Individual Device Message Programming • Recording input for external Microphone or Other Audio Source (ie: tape recorder) • Mounts in OMM -1 cardcage • 0 Listed, ULC Listed, CSFM Approved Description The DMC -1 provides the user with the ability to program and Each DMC -1 module can be programmed for up to 250 sound custom spoken voice messages for Evacuation, Alert, different custom messages.The messages are pro - Tornado Warning, SystemTesting and other Emergency and grammed using the MXLV's custom configuration Non - Emergency building notification requirements. software program (CSGM). DMC -1 is an optional MXLV module designed to meet the The custom messages can be "created" from a library of requirements of voice evacuation systems that call for over 130 digitally recorded words, phrases and tones the ability to sound pre- recorded spoken messages.The stored in the memory of every DMC -1 module. A DMC -1 plugs into 1 of the 4 available expansion slots in maximum of 16 words, tones and phrases can be used in the OMM -1 cardcage.The MXLV system can support a any combination to create up to 250 unique messages maximum of (2) DMC -1 modules.The DMC -1 communi- which can be assigned to sound by device, by floor or cates with and is supervised by the MMB -1 / -2. If a failure zone, by building or any group desired. in the DMC -1 should occur, the ACM -1 on -board tone(s) will automatically back up the DMC -1. CATALOG NUMBER 5064 The DMC -1 phrase library contains six different tones that would have a unique zone code assigned to a floor or area can be selected to meet requirements that call for combi- of a building . For example the zone code for the third nations of spoken messages and tones.The available floor of a building might be "4- 3 -2:'On a typical zone tones are Slow Whoop, 900 Hz, Chime,Temporal Code 3, coded system the horns or bells would sound "1111-111 - Wail and Horn. 11" indicating code "4 -3 -2" . For the same code the DMC -1 would say The DMC-1 also contains an additional 30 seconds of "four-three- two "over the system custom recording time which can be used to record speakers . Additionally a word or phrase can be added to messages or phrases not contained in the DMC -1 on sound before and after the zone code to provide more detailed information, ie: "Alarm Report four -three -two:' board phrase library. Additional messages can be re- corded using either an external microphone (DMC -REC) The zone codes are programmed via the CSGM. or by connecting another audio source to the DMC -1 DMC -1 programming allows up to 10 different message external input jack. Custom messages can be recorded priority levels to be assigned, as well as the number of into the DMC -1 while the DMC -1 is installed in an MXLV rounds to repeat a particular message (1 -15 or continu- system or messages can be recorded onto the DMC -1 ous). AVSM switch can optionally be programmed to by connecting an external 12VDC power supply and manually override the DMC -1 operation with the ACM -1 speaker (to play back the messages recorded). When on -board backup tone. custom messages are recorded onto a DMC -1 operating in an MXLV system, the system master microphones This equipment is approved for operation over the (MMM -1) local speaker can be used to play back the temperature range of 0° C to 49 °C. recorded messages to check for message content and clarity. Engineer & Architects Specifications For example if a general evacuation message needs to The Emergency Voice Alarm /Communication system sound in two different languages, the message "May! shall include a digital voice message player, model have your attention please... a fire emergency has DMC -1 that will act as the audio source for all digitally been reported in the building, while this is being pre - recorded voice messages.The DMC -1 shall mount investigated, please leave the building by the nearest in one of the expansion cardcages inside of the MXLV exit. Do not use the elevators. "could be selected enclosure and communicate as an integral module.The directly from the DMC -1 pre - recorded phrase library using DMC -1 shall be addressable and communicate with and the CSGM program. Additionally the same message be fully supervised by the MXLV system. Message could be recorded in another language (Spanish for players that require external devices to be used for example) using the external microphone input. Now when supervision are unacceptable. an alarm occurs this message would sound in English The standard digital voice message player shall be and Spanish alternating between the two and repeating as many times as required or playing continuously until capable of providing up to 250 unique custom pro- the system is silenced and reset. grammed spoken voice messages. Message players that require additional expansion equipment in order to provide This additional recording time can also be broken down additional messages shall are unacceptable. Custom into custom phrases that may be used in multiple message programming shall be software programmable messages. and shall allow the creation of up to 250 unique mes- sages as selected from a library of over 130 digitally Spoken Walk Test recorded tones, words and phrases. Systems which p require factory recording of custom messages are The DMC -1 when used in the MXLV walk test mode, unacceptable. provides spoken voice feedback on all system speakers of the device being tested. When in the walktest mode, Custom messages shall be able to be assigned by as devices are activated, the DMC -1 will sound over all system, by individual device, by floor or zone, by building speakers the address of the device being tested building or any group desired. When two digital message along with the report type (Alarm,Trouble, Supervisory, players are used, it shall be possible to have two unique Security, Status). For example ; while in walktest, if custom messages assigned to each device. Message device 001 -045 is smoke tested, all speakers can auto- activation shall be via an intelligent, supervised data matically sound "TestAlarm- zero- zero-one, zero -four- communication path. All message activation criteria shall five alarm tested successfully" .The spoken walktest be software programmable in the life safety systems feature can also be used for basic device communication native configuration program. Systems that require testing with audible /voice feedback with the device external relay or solid state physical interfaces in order to address. For example if a detector is removed from its select the appropriate message to play shall not be base, while the MXLV is in walk test mode, the system acceptable. Systems employing a serial data interface link speakers will say "trouble" followed by the detector shall,be required to physically install the message player address. in the same enclosure as the fire alarm system. Systems requiring a separate enclosure to mount the message The "Spoken Coding" feature of the DMC -1 is intended player are not acceptable. • for use in applications that call for the zone coded audibles to indicate the floor or zone from which the The system message player shall have ten levels of alarm is being reported. A typical zone coded system priority that can be assigned for messages, the highest For systems that require zone coding, the digital mes- level priority being 1 , the lowest 10. Lower priority sage player shall be capable of sounding a spoken number messages will be automatically overridden if a numeric code over the system speakers indicating the . higher priority message is required to be played. "zone" or area in alarm.The system message player shall The message player shall be capable of sounding initial- be automatically backed up by a tone in the event that a - ing device addresses and the type of event in a "spoken failure of the message player occurs. It shall also be voice" over the system speakers when the MXLV possible a t to manually override the message player and system is walk test mode. revert to a backup tone when required. • 1 t I 11 1 �" \� ii, 1 . \� �I ii ' camps mcni We i /• , P2 Used In the factory only - `� �� El Used to enable/disable recording 1 � . S1 Used to set the Mt-NET addressor the phrase number \\\ ` /,11 O,y� Ill , �. to be recorded 54 Used to start/stop playback iS3 Used to start/stop record ng � /° - 32, swl Used to put the DM c-1 into manual recording mode ` i 099 • sm� InUsed in dicates start/stop of recording or playback OFF position �+c ` i 03 Indicates that the D61C -1 is in manual recording mode � \ ^ ; O Indicates 2 Intes transmission on local M -NET from DMC-1 to MXLV D 1 Arms on steady when 091C-1 cannot communicate with the MXLV on the local M -NET J2 Used to connect a source of audio signal (J2 is for auxiliary input) J / 1 Used to connect a source of audio signal (J1 is for microphone) DMC -1 Module .' Electrical Specifications & Module Parameters: Mounting: DMC -1 mounts in one of the 4 available slots in the OMM -1 cardcage OperatingTemperature: 0° C to 49° C Power Supply: +5VDC (supplied from MXLV via internal cable harnesses) Maximum Current Draw: 50mA @5VDC Maximum # of Messages per DMC-1: 250 Custom Message RecordingTime: 30 Seconds (this is in addition to the pre- recorded messages and phrases contained in the DMC -1 software) Wiring: The only wiring required is internal in the MXLV enclosure from the OMM -1/2 cardcage in which the DMC -1 is mounted to theTBM -2 module - no external wiring required. (This wire shall beTSP 14 AWG -18 AWG) Frequency Range: -3dB @ 100Hz - 4KHz Message Activation method: Via internal MXLV system logic (no external inputs required) Supervision. Internally supervised by the MXLV via communication with the MXLV main processor MMB -1 or MMB -2 Auxiliary Power Supply Input for manual recording on bench only: 12VDC (use any UL listed 12VDC regulated power supply) Nominal audio input signal level at microphone input jack (J1): 10mVRMS (25mVRMS max.) Nominal audio input signal level at auxiliary input jack (J2): 500mVRMS (1.5VRMS max.) Ordering Information Model Number Description Pert Number DMC -1 Digital Message Card 500.893000 OMC -REC Recording Microphone Kit 500- 095928 Refer to Installation Instructions P/N 315 -092692 Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 4/03 Brampton, Ontario Siemens Building Technologies Tel. (973) 593 -2600 5M Canada L6T 5E4 g g FAX: (973) 593 -6670 SCWG Tel (905) 799 -9937 April 2003 Fire Safety Website: www.sbt.siemens com /f is Printed in U.S A. FAX: (905) 799 -9858 Supersedes sneer dared 72/00 Technical Specifications S I E M E N S Current Requirements: Normal 750 Na Alarm 750 pa - Fire Safety Operating Temperature: +32 °F (0 °C) to 100 °F (38 °C) ,. • •. per UL 268/268A • . FP -11 FirePrintTM Detector Humidity: 0 -93% Relative Humidity Non- Condensing Intelligent Fire Detector for MXL, MXL -IQ, and MXLV Control Panels Ordering Information ENGINEER AND ARCHITECT SPECIFICATIONS Part Model - Description Number FP Addressable FirePrint Fire Detector 500 095112 • Most Sophisticated "Detector Intelligence" available today DB -11 Detector Mounting Base for Series 11 500- 094151 • Multi Criteria fire detection for the price of a DB -11E Detector Base (Small) 500- 094151E photoelectric detector AD - 11P Air Duct Housing for Series 11 500 095656 • FirePrintTM' Technology to discriminate between deceptive AD - 11XPR Air Duct Housing w/Relay for Series 11 500- 096062 phenomena and an actual fire Intelligent Detector ADBX - 11 Audible Base . 500 • Easily programmed to match specific hazard profiles from the DB -X11RS Relay Base for Series 11 Intelligent Detectors 500-096125 control pan RU -1 Remote (red) alarm indicator- 4' octagon box mount 500- 390673 • Pre - Alarm reporting based on fire profile selected _ RU -2 Remote (red) alarm indicator- single gang box mount 500-390674 • Remote sensitivity measurement capability LX Base Locking Kd for Series 11 detectors 500- 695350 • ... • - . - ` �' • (replacement labyrinth System logic activation based on any of three inputs from ; r DMK -11 Series 11 Maint Kit Ire p byrinth and bug .500-695338 bug screen) detector (smoke heat or neural network) AD•11 UK Air Duct Housing Cover /Adapter Kit 500-695967 • Field cleanable chamber with replaceable chamber DB -ADPT Base Adapter to DB 3S Base 500-094187 parts avail �_ In Canada Order. • Multi - color detector status LED _ �� FP-11C Addressable FirePrint Fire Detector (ULC) 500- 095112C • Two operation - DB -11C Detector Mounting Base for Series 11 (ULC) 500-095687 • I • • Compatible with Model DPU or FPI -32 field ' ' AD - Air Duct Housin g (ULC) 500 programmer /tester # t :iiv .:" . . • DB - X11RSC Relay Base for Series 11 Intelligent Detectors (ULC) 500- 096125C • Supports EnviroLINK software based automatic v • ADBX - C Audible Base for Series 11 Intelligent Detector (ULC) 500-096181C environmental compensation `", • • Backward compatible with older MXL systems • (Rev. 2 and•above) • Optional fully programmable relay base , audible base, and . - duct housing • H UL Listed, ULC Listed, CSFM, FM, NYMEA A • Approved Introduction The FP -11 Intelligent Fire Detector provides the life need for cumbersome, unreliable mechanical program - safety industry with the most highly evolved detection ming methods and reduces installation and service system available today. The FP -11 utilizes advanced costs by electronically programming and testing the detection technology that allows the detector to detector prior to installation. distinguish nonthreatening deceptive phenomena, such as cigarette smoke, from actual fire hazards, while The FP 11 fire detector is compatible with the MXL optimizing detection for the area in which it is in- family of control panels including the MXL, MXL-IQ, stalled. No other detection system available today and MXLV. offers a higher level of protection or nuisance The FP -11 detector is Underwriters Laboratories and alarm immunity. The FP -11 uses state -of- the -art Underwriters Laboratories of Canada Listed. microprocessor circuitry with error check, detector 1 self- diagnostics and supervision programs. Description The FP 11 intelligent fire detector is compatible with The FP -11 is a plug -in, two-wire, multi- sensor detector • • the Siem Model DPU ens Building or Technol FPI -32 oegield s, Fire Safet /t Dsivi ester with both photoelectric and thermal inputs and is sion, f i program, compatible with the MXL family of control panel which is a compact, portable, menu -driven accessory systems. Each detector consists of a dust resistant, Fire Safety Fire Safety for electronically programming and testing detectors, 8 Fernwood Road 2 Kenview Boulevard easily and reliably. The DPU or FPI -32 eliminates the field cleanable photo chamber, .a solid state Florham Park, NJ 07932 6/03 Brampton, Ontario Siemens Building Technologies Tel A X (9731 593-2600 5 -6 S10M Tel: ( 90 ) 5E4 7 99 -9 937 June 2003 FAX CATALOG NUMBER 6175 A ( 93 -20 0 1OM TeT l: Canada L 799-9937 Fire Safety Website. www sbt siemens:com /fis Printed in U S.A. FAX (905) 799 -9858 swersedessneetdated7N2 non- mechanical thermal sensor, microprocessor based evaluating this information with sophisticated system alarm functions programmed into the system All FP -11 detectors are approved for operation within electronics with a low- profile plastic cover and base. mathematical formulas, or algorithms, comparing this are activated. Each FP -11 detector can operate one the UL specified temperature range of 32 to 100 The FP -11 utilizes state -of- the -art ASIC and surface input to characteristics of both threatening fires and remote alarm indicator, one auxiliary relay, or one degrees F (0 to 38 degrees C). mount technology for maximum reliability. Every FP -11 deceptive phenomena that would "fool" any ordinary audible base. fire detector is shipped with a protective dust cover. detector. This technology was developed over years of ii" research and reviewing the results of over 20 years of Detector sensitivity, calibration, and identification are Application Data The FP -11 fire detector utilizes an infrared light dynamically supervised by the control panel. Detector Installation of the FP -11 series of fire detectors fire test data in one of the world's most advanced fire emitting diode ( IRLED), and light sensing photodiode. sensitivity and pre -alarm levels are a function of the requires a two-wire circuit of 18 AWG (minimum) research centers. The results of this research are the q Under normal conditions, light transmitted by the L ED mathematical models that form the algorithms used in application chosen at the control panel and are thermoplastic fixture wire enclosed in conduit, or 18 is directed away from the photodiode and sca FirePrint. No other fire detector has this level of controlled by the panel. If an alternate, non - FirePrint AWG limited energy, shielded cable without conduit, through the smoke chamber in a controlled- patte intelligence or this amount of research and develop- mode is selected, then the sensitivity can be changed if permitted by local codes. Field wiring should The smoke chamber is designed to manage light from the control panel. ment supporting it's design. conform to local and National Electric Codes and the dissipation and extraneous reflections from dust control panel wiring specifications. particles or other non -smoke airborne contaminants in The microprocessor's software can identify and The DPU or FPI -32 Program/Test accessory is used to program and verify the detector's address. The "T-tapping" such a way as to maintain stable, consistent detector disregard false input caused by radio frequency (RFI) Tta pp' g" is permitted only for Style y 4 (Class B) an selects accessory's technician the program operation. When smoke enters the detector chamber, and electromagnetic (EMI) interference, and validates ry p mode to g ram wiring. light emitted from the IRLED is scattered by the all trouble conditions before annunciating or reporting enter the desired address. The DPU or FPI -32 auto- smoke particles and is received by the, photodiode. to the control panel. The FP -11 detector's microproces matically sets and verifies the address and tests the FP 11 fire detectors can be applied within the maxi - sor uses an integral EEPROM to store the detector's detector. It also allows the user to change the device mum 30 foot center spacing (900 sq. ft. areas) as The FP -11 also utilizes a modern, accurate, shock- ID from that of an FP -11 to an older detector ID such as referenced in NFPA 72. This applications guideline is address and other critical operating parameters which resistant thermistor to sense temperature changes. an ILP -1, ILPT-1, ILP -2, ID -60P or,ID -60PT to allow for based on ideal conditions, specifically, smooth ceiling include the assigned program values for alarm and The "on- board" FirePrint technology allows the easy replacement of older detectors without the need surfaces, minimal air movement, and no physical trouble thresholds. Communications within the detector to gather smoke and thermal data, and to detector itself and between the FP -11 and the control of reprogramming the control panel. obstructions between potential fire sources and the analyze this information in the detector's " anel, or with the FPI -32 field programmer/tester, are detector. Do not mount detectors in close proximity P P 9 The FPI -32 operates on AC power or rechargeable to ventilation or heating and air conditioning outlets. network" By comparing data received with the 9 9 . supervised and safeguarded against disruption by batteries, providing flexibility and convenience in Exposed joints or beamed ceilings may also affect safe common characteristics of fires, or fire fingerprints, reliable, microprocessor based error checking routines. P g y the FP -11 can compare these "Fire Prints" to those of p g programming and testing equipment almost anywhere. spacing limitations for detectors. Should questions P Additionally, the microprocessor supervises all When in the test mode, the DPU or FPI -32 will perform arise regarding ardin detector lacement, observe NFPA deceptive phenomena that cause other detectors to EEPROM memory locations and provides a hi h g . P rY P high a series of diagnostic tests without altering the 72 uidelines. alarm. The advanced FirePrint technology allows the degree of EEPROM failure fault tolerance. address or other stored data, allowing technicians to g FP 11 to accurately determine a true fire hazard from determine if the detector is operating properly. Good fire protection system engineering and common a nonthreatening deceptive phenomena WITHOUT In MXL(V) applications, the FP -11 determines its sense dictate how and when fire detectors are needing to use alarm delaying verification and confir- operating status to be normal, in alarm, or in trouble The FP -11 fire detector may be installed on the same installed and used. Contact your local Siemens mation techniques, which can increase the probability depending on the difference between the alarm • • initiating circuit with IL or ID series detectors (Photo- Building Technologies, Fire Safety Division authorized of losses due to fire. threshold values stored in the detector's memory and electric, thermal, or ionization), MSI series manual sales outlet whenever you need assistance applying the detector's latest analog measurement. The stations, TRI series interfaces, ICP output control FirePrint in unusual applications. Be sure to follow The FP 11 provides the highest level of detector detector then communicates changes in its status to devices, or CZM series of addressable, conventional PP intelligence available today with a detector /control NFPA guidelines ULJULC approved installation the control panel. zone modules. instructions, which are included with every detector, panel link that allows the user to program the detector rY for the specific hazard profile Detectors are optimized In addition, the MXL(V) control panel will sample the All FP -11 detectors can be cleaned in the field, when and local codes as for all fire protection equipment. by selecting one of the following applications: value of the FP -11's analog signal over a period of time required, by simply removing the detector cover and • in order to determine if those values indicate exces- unsnapping the photo chamber. There is also the Dimensions Office /Retail sive buildup in the photo chamber; if so, the MXL(V) option of cleaning the interior of the detector with a • Lobby will indicate that the particular detector requires clean, soft cloth or brush, or replacing the labyrinth and I 6° Diameter Base I • Computer Room maintenance. • Dormitory bug screen included in the detector maintenance kit, • Healthcare The FP -11 is listed as a. self- testing device. The FP -11's model DMK-11. _ • • Parking Garage visible light emitting diode (LED) flashes green every The FP -11 uses the low profile surface mounting base, • Utility/Transformer Room 4 seconds to indicate it is communicating with the model DB -11. This base mounts on a 4 -inch octagon, T,...., _ • Hostile Environment control panel and that it has passed its internal self- square, or a single gang electrical box. The base 2 3° `' • Precious Storage test. Should the detector sense a fault or failure within utilizes screw clamp contacts for electrical connections Overall \ rTh • Air Duct its systems, the LED will flash amber and the detector Height r Y and self- wiping contacts for increased reliability. The • �� �\� Warehouse /Light Manufacturing will transmit that information to the control panel. base can be used with the optional LK -11 detector `• MI I ► M A wick visual ins ection is sufficient to indicate the tt* q p lock kit whi ch contains 50 detector locks and an �-��_ The software does the rest; no guessing on detector condition of the detector at any time. If more detailed installation tool, to prevent unauthorized removal of sensitivities or alarm verification; the control panel information is required, a printed report can be the detector head. The DB -11 base has integral decora- programs the FP -11 detector for the protected area provided from the MXL panel indicating the status tive plugs to cover the outer mounting screw holes. without hassle and without confirmation delays. and settings assigned to each individual detector. Once optimized for the hazards in the protected area, The FP -11 is electrically compatible with existing MXL the FP -11 provides the best detection you can buy. When the FP -11 moves to the alarm mode,. it will flash detector accessories including relays, remote lamps, Should the operator or installer forget to program the amber and transmit that information to the control duct housings, and audible bases. With duct housings, detector, the FP -11 will revert to a default setting that panel. When the MXL(V) confirms the detectors • • a base adapter and new detector housing cover are allows it to operate as a standard photoelectric or condition, the panel will instruct the FP -11 to flash red required (order AD -11 UK upgrade kit). To use existing photothermal detector. and to continue flashing until the system is reset at DB -3S base or audible base, the FP -11 requires a DB- The FP -11's FirePrint technology monitors input from the control panel. At that same time, any user defined ADPT base adapter. both the photo chamber and the thermal sensor, • SIEMENS Fire Safety TRI Series Intelligent Initiating Devices Interface Modules for MXL Fire Detection Panels TRI -S, TRI -D, TRI -R ENGINEER AND ARCHITECT SPECIFICATIONS • Interfaces and Supervises Normally Open Contacts • Integral SPDT Relay .(up to 4 amps) on TRI -R Model • Dual Input on TRI -D Model • Multi -color L.E.D. indicates status (green, amber, red) • Easy front access to programming port and -' wiring terminals GI, • Mounts in 4 inch square 2 deep box, or double + �j gang box • Dynamic Supervision olscIIQ� • Comes with 5x5 inch faceplate o �� E R PE EF Jp INRESS flMING • Two wire operation JMNIs24 Iryg- • Model DPU or FPI -32 Programs and Verifies aae� Ea'd I `- Device's Address and Tests Device's functionality me . F �� ri luta • Electronic Address Programming is Easy �✓ and Dependable • ® UL Listed, ULC Listed - -- -- -\ CFSM, FM, NYMEA Approved Introduction module reports the contact's status to the control The TRI Series Intelligent interface modules are panel. The TRI -S model can only monitor and report the designed to provide the means of interfacing direct status of the contact, while the TRI -R incorporates an shorting devices to the MXL system's ALD loop addressable Form C relay. The TRI -R relay and contact circuit. device input are controlled at the same address. For the MXL system, the relay and input contact can be The TRI Series Intelligent interface modules provide controlled as a separate function. The relay is typically the market's most advanced method of address used where control or shunting of external equipment programming and supervision, combined with sophis- is required. ticated control panel communication. Each TRI Series interface module incorporates a microcomputer chip. The TRI -D is a dual input module and is designed to The TRI Series microcomputer chip technology and its supervise and monitor two sets of dry contacts. This sophisticated bi- directional communication capabilities interface module requires two address settings. The with the control panel, achieve the state of an "Intelli - TRI -D is ideal for monitoring a waterflow switch and its gent Device." respective valve tamper switch. The TRI has a multi -color Light Emitting Diode that Description flashes green when operating normally, amber if unit The TRI Series Intelligent interface modules are avail- able in three models. The TRI -S and TRI -R are designed to monitor a normally open dry contact. The interface CATALOG NUMBER 6179 is in trouble condition, and red to indicate a change of Mounting Data state. The TRI -D flashes twice, once for each address, Addressable interface Model TRI -S, TRI -D, TRI-R the TRI-R red L.E.D. indicates a change of state in mounts directly into a 4 inch square 21/4 deep box the relay. , or a double .gang box (user supplied). A 5 inch square The device's microcomputer chip has the capacity of off-white faceplate is included with each TRI. storing, in memory, identification information as well as important operating status information.' MOUNTING SLOTS FOR 4 INCH Siemens Building Technologies, Fire Safety Division SWITCHBOX innovative technology allows all TRI Series intelligent ' interface modules to be programmed by u'siitg the / ■ . model DPU or FPI -32 Programmer/Tester. The Pro- 0 0 grammer/Tester is a compact, portable, menu driven ------ accessory that makes programming and testing an �j TRI- S / -D / -R interface device faster, easier and more dependable C=-7 10 O MODULE than previous methods. [7 The DPU or FPI -32 eliminates the need for mechanical n MOUNTING Pi ge- addressing mechanisms, such as program jumpers, HOLES FOR , DIP switches or rotary dials, because the Programmer/ SWITCHPLATE la Tester electronically sets the TRI interface's address into the interface's microcomputer chip nonvolatile . 0 memory. Vibration, corrosion and other conditions that deteriorate mechanical addressing mechanisms are no longer a cause for concern. , MOUNTING SLOTS The TRI Series is fitted with screw terminals for FOR DOUBLEGANG connection to an addressable circuit. SWITCHBOX The TRI Series is fully compatible on the same MXL Figure A circuit with all intelligent FP IL and ID -60 Series Mounting the TRI- S / -R / -D detectors, MSI Series addressable manual stations or any other addressable intelligent modules, such as the CZM or ICP. Electrical Ratings All TRI Series intelligent interface modules are Current Draw (Active or Standby): 1.5mA UL listed. TRI-R Environmental operating conditions for all TRI Series Relay R 1 25s R modules are 32 °F ( °C) to 120 °F (49 °C) with a relative Ressi stive: 4A, 15 VAC humidity of not greater than 93% non - condensating. 4A, 30 0 VDC Inductive: 3.5A, 120 VAC (0.6P.F.) Ordering Information 3.0A, 30 VDC (0.6P.F.) 2.0A, 120 VAC (0.4P.F.) Shipping Wt. 2.OA, 120 VAC (0.35PF.) Model Description Lb. Kg. 2.0A, 30 VDC (0.35P..F.) TRI -S Single Input 7 oz. 2 TRI -R Single Input vv/Relay 7 oz. 2 TRI -D Dual Input 7 oz. 2 Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 7/03 Brampton, Ontario Siemens Building Technologies Tel (9731 593 -2600 5M Canada L6T 5E4 g g I8S FAX. (973) 593 -6670 SFS -IG Tel: (905) 799 -9937 July 2003 Fire Safety Website www sbt siemens.com /f is Printed in U S.A. FAX 1905) 799 -9858 Suporsedes shoot dated 1N3 SIEMEN Fire Safety . • TRI-B6M Intelligent Device Interface Module ENGINEER AND ARCHITECT SPECIFICATIONS Intelligent Interface Modules For MXL and IXL Control Panels • Interfaces and Supervises Normally Open (Fire Detection) • or Normally Closed Contacts (Security Detection) • Compact Size Allows Mounting in Single Gang Box Behind Equipment • Operates with MXL ALD Loop or IXL ICon Loop • Microcomputer Chip Technology ,• H iovative Technology Supports ns ' = ' d pi ° • Inr gy pports Comprehensive System and Interface Communication �s� a -�•'' • Dynamic Supervision Pf �'`' Ze • Two Wire Operation • SensorLlNK, model FPI -32 Programs and Verifies Device's Address and Tests Device's Functionality . • Electronic Address Programming is Easier and More Dependable • Listed, ULC Listed, CSFM and NYMEA Approved Introduction The TRI -B6M Intelligent interface module is designed Siemens Fire Safety innovative technology allows all to provide the means of interfacing direct shorting TRI -B6M intelligent interface modules to be pro - devices to the MXL system's ALD loop circuit or the grammed by using the SensorLlNK model FPI -32 IXL system's ICon loop circuit. Programmer/Tester. The FPI -32 Programmer/Tester is a The TRI -B6M Intelligent interface module provides the compact, portable, menu driven accessory that makes market's most advanced method of address program- programming and testing an interface device faster, ming and supervision, combined with sophisticated easier and more dependable than previous methods. control panel communication. Each TRI -B6M interlace The FPI -32 eliminates the need for mechanical address - module incorporates microcomputer chip technology ing mechanisms, such as program jumpers, DIP and its sophisticated bi- directional communication switches or rotary dials, because it electronically sets capabilities with the control panel. the TRI -B6M interface's address into the interface's microcomputer chip non - volatile memory. Vibration, Description corrosion and other conditions that deteriorate mechani- NOTICE: The use of other than Siemens Fire Safety detectors and bases with Siemens Fire Safety equipment will be considered a misapplication of Siemens cal addressing mechanisms are no longer a cause for Fire Safety equipment and as such void all warranties either expressed or implied with regard to loss, damage, liabilities and/or service problems. The TRI -B6M is designed to monitor a normally open or concern. This TRI -B6M is connected to the programmer/ closed dry .contact and reports the contact's status to tester with the programming cable provided with the the control panel. • tester. This cable utilizes two (2) alligator clip connec- 411 The device' microcomputer tors, to attach to theTRl -B6M. (P /N 110 - 694927) • storing, in memory , identification chip has information the as capacity weof ll The TRI-B6 Series has five leads, one for grounding, as important operating status information. which are wired to the system with user supplied Fire Safety Fire Safety wire nuts. 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 12/01 Brampton, Ontario Siemens Building Technologies Tel (973) 593 -2600 10M Canad L6T 5E4 FAX' (973) 593 -6670 SFS -IG Tel (905) 799 -9937 December 2001 CATALOG NUMBER 6170 Fire Safety Website: www.cerbpyro.com Printed in U S.A. FAX: (905) 799 -9858 supersedes sheer dated 6/00 • TheTRI -B6M is fully compatible on the same MXL Ordering Information Installing A Security Point Reminder: Proper installation procedure for TRI Devices M S I circuit with all intelligent essle IL and a I tats Seor any other WARNING: These circuits intended for 24 hour As art of the normal installation practice each TRI MSI Series addressable manual stations or any other Shipping Wt. • P P addressable intelligent modules, such as the CZM or Model Description oz. Kg. alarm monitoring only. device must be functionally tested. This includes ICP. The TRI -B6M is also fully compatible on the IXL TRI B6M Single Input 3.5 testing the supervision through the end of the line .1 (ICon) circuit with all intelligent IL and ID -60 detectors UL 1076, requires a TS1N 1 tamper switch as well as a resistor. The following steps must be followed for each TRI B6M C ULC Model for Canada. 3 5 TSP -40 printer. A COMMUNICATION FAILURE with a TRI device installed: and MSI manual stations. TRI device configured for SECURITY results in a SECU All TRI -B6M intelligent interface modules are UL and RITY ALARM as well as a communication trouble. 1. Open the end of line resistor. ULC listed. Typical Wiring When installing aTRI device in the CSG -M, be sure to 2. Check that the system annunciates the programmed set the device usage to security. When setting the trouble message. Environmental operating conditions, for all TRI -B6M (Refer to Figures 1, 2, 3 or 4Y Refer to the appropriate device address using the FPI -32, select the normally 3, Return the resistor to its proper connection. modules are 32 °F 1°C) to 120 °F (49 °C) with a relative wiring diagram below and wire the addressable inter- • closed alarm causing input. humidity of not greater than 93% non - condensating. face module accordingly. 4. Change the state of the switch to confirm that the • • Note: Recommended wire size: Connect only one switch per TRI input system's programmed response is executed. Engineer & Architect Specifications 18.AWG minimum 5. Return the switch to its normal state. • The addressable interface module shall incorporate a 14 AWG maximum custom microprocessor based integrated circuit that shall provide communication with its compatible Mounting Diagram • control panel. The addressable 'interface module shall be a Siemens • Fire Safety that shall be compatible with a IXL ; or MXL control panel. ,� The TRI -B6M intelligent interface modules. shall provide S the means of interfacing •direct shorting devices to the - o 0 control. panel's addressable circuits. The interface _ ► ii .. module shall report the contact's status to the control` ' ' " t " o panel. _ / _ . 0 -, 4. The TRI Series devices shall be .capable of and listed for Cr NOTE: DO NOT USE . interfacing normally closed security switches to the REAR CONDUIT ENTRY V MXL (per UL 1076). V4I t The addressable interface module shall be UL and ULC ` SINGLE GANG listed. " g SWITCHBOX - The addressable interface module shall be dynamically _ _ . TRI -B6M (USER SUPPLIED) vi and uniquely identifiable by " supervised q y y the control panel. . SINGLE GANG The addressable interface module's address shall be SWITCHPLATE (BLANK) programmed with the use of a portable programming (USER SUPPLIED) accessory. The programming accessory shall be a Siemens Fire Safety FPI -32 Programmer/Tester. The portable programmer shall be menu driven. .Once the desired address is entered the programmer shall set and verify the address. The programming accessory shall also be capable of testing the interface's function- ality. The addressable interface module's address shall be set by electronic means only. No mechanical means such as programming pins, DIP switches or rotary dials shall be required. The TRI -B6M shall be compatible on the same MXL circuit with other intelligent IL and ID -60 Series detec- tors, TRI Series addressable interfaces, MSI Series addressable manual stations or any other MXL address- Ill able intelligent module. The TRI -B6M shall be compat- ible on the same IXL (ICon) circuit as other intelligent IL and ID -60 Series detectors, MSI Series manual stations and TRI Series interfaces. S IEMENS Fire Safety it Duct Housings-Series 11 ENGINEER AND ARCHITECT SPECIFICATIONS • For Series 11 Detectors = c. 1 • Relay Models Available \v, • Self contained Model available with '; • "On - Board" Power Supply r • Alarm LED Visible from Front w • Clear Housing Cover for Quick -- • c c Identification of DetectorType R D — liP , — me,aenww • ® Listed, ULC Listed ._ "__ CSFM, FM, NYMEA Approved - F ' 4p p G 6 Introduction Description The Siemens Fire Safety air duct detector housings are The Siemens Fire Safety air duct housing is uniquely designed to be used with the PE -11 and FP -11 detec- designed to use the photoelectric detector. tors. Designed for installation directly to heating, ventilating and air conditioning duct systems, they Sensitivity of PE -11 detectors can be checked by comply with National Fire Protection Association viewing the LED or an RSAW -11 or RSAC -11 multicolor Standard No. 90A. When equipped with photoelectric remote lamp. A green flash indicates the detector has detectors, these units will signal the presence of passed its self test. Amber indicates a trouble condi- hazardous quantities of products of combustion or tion, and red indicates an alarm state. smoke being carried through the duct system. Air duct FP -11 sensitivity may be viewed from the multi -color detectors are not intended to be substituted for open LED on the detector or preferably may be printed area detection. by command on an optional printer from the MXL Air duct housings can be equipped with optional control panel. relays. These relays are utilized to operate any The detector unit employs a cross - sectional sampling supplementary equipment when smoke or particles principle of operation. Inlet sampling tubes are avail - of combustion are detected. able in four lengths (see table on reverse side). Outlet Note: Most control equipment guarantee only one sampling tubes are one common length. A continuous detector per zone when the detector operated relay cross - sectional sample of air moving through the duct function is critical. The connection of a remote lamp is taken. This averages the effects of laminar flow, and a remote relay per detector is allowed with PXL or stratification or skin effect phenomena occurring in the System an" only, other conventional systems may use duct that could prevent combustion product or smoke either a remote lamp or a relay. (especially in large ducts) from reaching a spot type detector. With the MXL series of control panels, up to 60 detectors per circuit having relays may be used. In addition, the unique design of the sampling chambe The connection of a remote lamp or a remote relay insures uniform sensitivity in air velocities, ranging is allowed for each detector but not both. from a low of 300 feet per minute to as high as 4000 feet per minute. Air duct housings (see Ordering Information) are Underwriters Laboratories,lnc. listed. CATALOG NUMBER 6178 Replaces Catalog Sheet Number 6177 The inlet sampling tube length is determined by the Dimensions width of the air duct being protected. The inlet tube 4 . nearest to but greater than the duct width should be 19cm ` - 10.2 cm used (see table). The inlet tube can then be trimmed at s(4 /(; f"\ the job site to the exact width of the duct. The outlet ' ,i sampling tube for all ducts, irrespective of width, has �� = r171 11, a fixed length of approximately 3 inches (7.5 cm) and is .0� Return Tube supplied with the duct housing. C\ � Gasser Duct Width Sampling Tube Model No. 9' to 1'9' (21 cm to 51 cm) STA -2 VT to 3'3'(51 cm to 97.5 cm) STA -3 •• 3 13 A 0 , ` 0 0, 3'3" to 6'3' (95.5 cm to 187.5 cm) STA -6 .— � — Supply Tube 6'3' to 9'9' (187.5 cm to 292.5 cm) STA -10 Greater than 9'9'12915 cm) Consult Siemens Fire Safety Duct O Electrical Connecaron Hob for ii' When the use of a remote relay is required, order Conduit (Both &des) model AD -11 PR for conventional systems; AD -11 XPR for MXL systems. SamplingTube SelectionTable Maintenance of the detector is easily accomplished by Shipping W the removal of the Series 11 duct housing sampling Model Description Lb. Kg. chamber cover. The detector, which plugs into the AD - 11P Series F d housing with cover for the housing, is easily removed for cleaning by a trained PE-11 and s 5 2.25 AD -11 PR Series 11 air duct housing ng with cover for the technician. PE -11 photoelectric detector and equipped with remote duct 5 2.25 All that is necessary for the installation of the air duct the detector is the cutting of three small holes for the AD -11XPR Series 1 ct r equi with remote for relay g FP-11 detector equipped with remote relay 5 2.25 sampling tube installation (template included) and the SA -11P Series 11 air duct housing with power supply drilling of four holes for mounting the air duct housing. for self- contained unit operation for Pe -11 The unit is then easily mounted in place and connec- photoelectric detector 7 3.15 tion made to the existing wires or terminals if optional AD -11UK Upgrade kit for using PE -11 orFR11 detector accessories are utilized. in a series 3 duct housing 1 .45 STA -2 Sampling Tube, for ducts T to 1'9' 1 .45 When using the PE -11 or FP -11 detector in an AD -31 or STA -3 Sampling Tube, for ducts 1'9' to 3'3' 2 .9 AD -3ILP duct detector housing you must use the STA -6 Sampling Tube, for ducts 31' to 6'3' 4 1.8 AD -11 UK upgrade kit consisting of a detector base STA -10 Sampling Tube, for ducts 6'3' to 9'9'. Sampling adapter and a new duct housing cover. Any Series 3 Tubes greater than 9r9', consult Siemens accessories such as remote lamps on relays will also Fire Safety 6 3.7 have to be updated to PE -11 accessories. The FP -11 is RLC -11 Remote Alarm Lamp, ceiling mounted for PE -11 .5 .22 electrically compatible with Series 3 MXL accessories. RLW -11 Remote Alarm Lamp, wall mounted for PE -11 .5 .22 RSAC -11 RemoteTri -color LED, ceiling mounted for PE -11 .5 .22 RSAW -11 RemoteTri -color LED, wall mounted for PE -11 .5 .22 PE -11 Conventional Photelectric Detector 1 .45 FP-11 Intelligent FirePrintm Detector 1 .45 Model Description Part Number . RLI -1 Remote (red) alarm indicator - 4" octagon box mount 500 - 390673 RLI -2 Remote (red) alarm indicator - single gang box mount 500 - 390674 Note' Minimum hardware required is one Air Duct Housing Assembly, one Sampling Tube and one Detector. NOTICE: The use of other than Siemens Fire Safety detectors and bases with Siemens Fire Safety equipment will be considered a misapplication of Siemens Fire Safety equipment and as such voids all warranties either expressed or implied in regard to loss, damage, liabilities and /or service problems I Fire Safety Fire Safety 8 Fernwood Road 2 Kenview Boulevard Florham Park, NJ 07932 4/02 Brampton, Ontario Siemens Building Technologies Tel (973) 593 -2600 10M Canada L6T 5E4 g g IeS FAX (9731 593 -6670 SFS -IG Tel (905) 799 -9937 April 2002 Fire Safety Website wwwcerbpyro corn Printed in USA FAX (905) 799-9858 Supersedes shoo dated 60 I I Mounting Options and Dimensions Si EM ENS Cerberus Division A • Vibratingand Single Stroke Bells 0 `yl1 o T. J h I O - ,..) *1 ° ° ENGINEER AND ARCHITECT SPECIFICATIONS r N 0 ,011,. 0 o ° I�� • AC or DC Operation I p `® • Vibrating or Single Stroke FSFPW Mounting Plate Units • Sturdy Metal Construction \�— 4 ® \ • High dB Output r / O • Standard 4" Square v fool � 0 1 Mounting i. � • A vailable in 4" 6" and / o it : 1 0" Sizes illel • Noise Cancellation Circuitry FWB -1 / FWB -2 Weatherproof Box (add W for white) • Available in Chime ' 6090V / 6060H Mounting Plates ( r • Listed • ULC Pending 10" Bell � • 0 I • lt t 1 % '` . °� ` l� °° , h am` Introduction Description , i .. 1 �+' I Cerberus PyrotronicsVibrating and Single Stroke bells Cerberus Pyrotronics bells are used in a variety of applica- j provide high quality construction for maximum reliability tions. Used in schools and other buildings, the Cerberus to- ` and customer satisfaction. Cerberus Pyrotronics bells Pyrotronics unique design provides a sound all its own. integral bell /chime design combines the bell mechanism Offered in chime, 4, 6, and 10 inch gong or additional FBG -6/8 and gong /chime into one unit. Four gong sizes and a strobe plate configurations, the signals can be used for Standard Mounting . chime are available to provide distinctive tones and to new installations or existing retrofits. Parallel units are overcome different ambient noise levels. designed with terminals to insure proper supervision as BTF ShippingWeight 4.751b Rated for indoor use 32•F to 120•F On to 49•C), RH IV 85% � well as provide better electrical connections. Parallel BF-F ShippingWeight 1.751b Rated for outdoor use when surface bell mounted to weatherproof box devices also include a blocking network for connection to a BS-F Shipping Weight 2.501b Outdoor rating: -31 °F to 150•F ( -35•C to 66'C). RH @ 98% BE-F ShippingWeight•.3.751b supervised signal circuit. Each unit is provided with noise cancellation circuitry to prevent the transmission of transient spikes, typically generated by DC contact type electromechanical devices. NOTICE: The use of other than Cerberus Pyrotronics notification appliances, detectors and bases with Cerberus Pyrotronics control equipment will be considered a misapplication of Cerberus Pyrotronics equipment and as such void all warranties either expressed or implied with regard to loss, damage, liabilities and/ or service problems. Cerberus Division Cerberus Division III • 8 Fernwood Road 50 East Pearce Street Florham Park, NJ 07932 1/00 Richmond Hill, Ontario 2537 , Siemens Building Technologies F SC M L4 6 4 -8384 January 2000 CATALOG NUMBER Cerberus Division Website wwwcerbpyro corn Printed in U.S.A. FAX (9051 731-9182 Supersedes sheet dated 9/97 1 Cerberus Pyrotronics Bells Mounting Options and Dimensions �� \l Model Part .. 10 , Number Number Action Voltage Current 4" Bell 6" Bell 10" Bell Chime BT -F 500 - 694372 VIB 24 VDC 0.11A 87db - � - BS -F 500 - 694374 VIB 24 VDC 0.11A 84db BF -F 500 - 694375 VIB 24 VDC 0.11A 87db miffa _ C — 10 DIA 6 CH -F 500 - 694376 VIB 24 VDC 0.11A 81db I1 3.3= O e 1 BT -SS 500 - 694387 S.S. 24 VDC 0.36A 78db O 4 1 6 3.38 BS -SS 500 - 694389 S.S. 24 VDC 0.36A 75db 4 \ _..../o \ — ` BF -SS 500 - 694390 S.S. 24 VDC 0.36A 75db i ' �— 3.38 —0.- II 3 1/4 F 33e 3 1/4 4 / 173 DIA. CSK 80• Tn 82' q � 173 D1A. CSK 80' il B 2• CH -SS 500 - 694391 S.S. 24 VDC 0.36A 81db i T O 11/32 DIA - 4 PLACES TO 11/32 DIA. - 4 PLACES BT -LC 500 - 694382 VIB 24 VDC L.C. 0.07A 81db 6 " Bell BS -LC 500 - 694384 VIB 24 VDC L.C. 0.07A 78db 10" Bell BF -LC 500 - 694385 VIB 24 VDC L.C. . 0.07A 75db CH -LC 500 - 694386 VIB 24 VDC L.C. 0.07A 81db • BTAC 500 - 694377 VIB 120 VAC .065 120db BS -AL 500 - 694379 VIB 120 VAC 95db 4 1 .173 DIA, CSK 80' TO 82' 4 .173 DIA CSK B0' TO 82• 3.38 TO 11/32 DIA. - 4 PLACES 3.38 T❑ 11/3? nip - 4 PI ArFs BF -AL 500 - 694380 VIB 120 VA 90db ; , VIB = Vibrating / ' 3.38 4 1/16 S.S. = Single Stroke O 1 0 4' 4 3/4 LC. = Low Current • . • 3.38 0 4 1/16 e • For (Canada) ULC labeled models, add " -C" to the model number. _1 Minimum db calculated from integrated sound power measurements at Underwriter's Laboratories per UL 464. Typical db measure- — � , .; ; _.; ments with conventional sound level meters will be significantly higher in actual installation. o 6 2 7/e I+ — 2 7/8 ■11-- Bell / Chime Strobe and Sync Plates Chime Model No. Mounting Nominal Box Nominal Strobe Current Ratings (mA) 4" Bell Voltage - 15 17 (15/75) 75 110 6.00 US( )-6060V Vertical Strobe 24 VDC 4 in. sq. 80 80 175 245 3/8 S0. Stand alone strobes utilize wire nuts for connection.Terminal strips are available by modifying part number to read -FT (Flush with Terminals) or -ST (Surface with terminals). FS (single gang) models are not available with terminals. 'Surface mount units are rated weatherproof when used with FWB -1 or FWB -2 surface weatherproof box I Note I I represents strobe model, e g , d ro co 7 F Bell / Chime Sync Strobe Plates Model No. Mounting Nominal Box Nominal Strobe Current Ratings (mA) R Voltage I U t E 15 17 (15/75) 75 L ravers ON 4 sACKSOX J21/2 1 " U -S( )-6060V Vertical Sync Strobe 24 VDC 4 in. sq. 144 144 328 ( • ) ( • ) - W STROBE - 2 13/16 Stand alone strobes utilize wire nuts for connection.Terminal strips are available by modifying part number to read -FT (Flush withTerminals) or -Si (Surface with terminals). FS (single gang) models are not available with terminals. ...• • 'Surface mount units are rated weatherproof when used with FWB -1 or FWB -2 surface weatherproof box Note I I represents strobe model, e g , 6090V / 6060H Strobe Plate I 1 LL sx%• r s M EA ADA ,a SYSTEMS Helping People Take Actions"" Description POWERPATH TM POWERPATHTm Series PS- 12/24 -8CP and PS- 12/24 -8MP are power limited 8 amp power supply /chargers used to expand NAC POWER SUPPLIES the supervised power capability of a fire alarm control panel (FACP) for notification appliance circuits (NAC). The PS- 12/24 -8CP provides up to 200 milliamps of continuous auxiliary output that can be used for control functions during alarm (or up to 60 milliamps for 60 hour battery requirements). Series PS- 12/24 -8CP The PS- 12/24 -8MP provides up to 3.5 amps of auxiliary output • Series PS- 12/24 -8MP that is available only during nonalarm condition for such T.11.E.= _ applications as door holder systems. Both models provide regulated and filtered 12 or 24 VDC output to four (4) Class "B° or two (2) Class "A" circuits. Each Class "B" :, circuit has a rating of three (3) amps with a total output of up to eight (8) amps. Each Class "A" circuit is rated at three (3) amps. Two (2) Class "A" or Class "B" inputs from an FACP and two (2) dry contact inputs are provided to trigger the outputs. The units accept either 12 or 24 VDC inputs and provide 12 or 24 VDC outputs. Both units support a full 8 amps of notification power = • • even if the battery is in a degraded mode and only AC power is I ' - "- ` connected. - s. POWERPATHTM" Series PS- 12/24 -8CP and PS -12/24 -8MP are = '.. . compatible with all Wheelock 12 or 24 VDC Life Safety Notification ' Appliances and with their Patented BUILT -IN SYNCHRONIZED MODE feature, they can control and operate all of Wheelock's Synchronized Notification Appliances, including silencing audibles while maintaining strobe activation. (Batteries Not Included) Features Approvals Outputs Cont. • Approvals Include: UL Standard 864, California State Fire • Built -In Wheelock Synchronization Protocol Marshal (CSFM), (New York City (MEA), Factory Mutual • Input and output synchronization (including pass (FM), Chicago (BFP) See Approvals by model in through) Specification and Ordering Information Supervision • Compliant with NFPA 72 • FACP NAC supervision steered to either input #1 or #2 Inputs • Common input and output trouble circuit • Compatible with 12 or 24 VDC FACP Input and output LED indicators • • 115 VAC @ 50/60 Hz or 240 VAC @ 50/60 Hz • AC fail supervision (Form "C" contacts rated @ 1 amp • Two 12 or 24VDC NAC Initiating Circuits from host panel @ 24 VDC or 115 VAC) • Two "Dry" contact input circuits • Battery presence and low battery supervision (Form • Accepts 2 Class "A" or 2 Class "B" NAC circuit inputs "C" contacts rated @ 1 amp @ 24 VDC or 115 VAC) • Additional activation options are: NC contacts or open • Ground fault detection collector of a transistor • 4 latching LED's for NAC trouble annunciation Outputs Power • 8 amperes rated supply current @ 12 or 24 VDC • Not Battery Dependent - Full 8A even if battery is • Filtered and regulated power supply outputs degraded • Class 2 rated power limited outputs • Automatic switch over to standby batteries when AC • Dip switch selectable options fails • Field selectable 12 or 24 VDC outputs • Supports sealed lead acid or gel type batteries • 4 Class "B" or 2 Class "A" or 1 Class "A" and 2 Class • Fused battery protection "B" Notification Appliance Circuits) • Thermal and short circuit protection with auto reset • Each Class "B" output has a maximum rating of three • Supports both 7AH or 12AH batteries in the same (3) amperes cabinet (Cabinet Size: 16" H x 12.25" W x 5" D) • Each Class "A" output has a maximum rating of Auxiliary Power three (3) amperes • Up to 200 mA continuous with PS- 12/24 -8CP • Code 3 (Temporal) option • Up to 3.5 amps nonalarm with PS- 12/24 -8MP • Steady output option Copyright 2004 Wheelock, Inc. All rights reserved. A i Normal Mode (Class B) oUTi -• * TO NEXT APPLIANCE • IN•OUT SYNC WHEELOCK SYdOT1 Q OR EOLR • TEMPORAL (2.2 K OHMS) IN7 INPUT SELECT _ F TO NEXT APPLIANCE A TO NEXT APPLIANCE OUT'. • a OR EOLR OR EOL * RETI _ (2.2K OHMS) C P O W E R PA* TO NEXT APPLIANCE OUT • a OR EOLR (2.2K OHMS) - SW9 TO NEXT APPLIANCE OUT a Q OR EOLR (2.2K OHMS) Normal Mode (Class A) OUT1 -A }} * 0• IN.OUT SYNC OUTt 1N1 0- WHEELOCK SYNC 0` TEMPORAL E=I INPUT SELECT TO NEXT APPLIA VCE F OR EOELRg ET 1 OR RETU R OUT - TO FACP A (CLASS - A•) C POWERPATH OUT P SW9 OUT4 POWERPATH TM Operating Modes (refer to Installation Manual): Normal Mode: Provides constant 12 VDC or 24 VDC output upon initiation by a voltage to input IN1 or IN2 or by a contact opening on DRY1 or DRY2. The unit returns to standby mode when the input is deactivated. Wheelock Sync Mode: Provides signals for synchronization of patented Wheelock audible and strobe notification appliances. Audibles can also be silenced in this mode while the strobes continue to flash. In >Out Sync Mode: Accepts a coded signal or synchronization signal on the input to provide a coded output or synchronized output. This signal may come from a FACP, another POWERPATH or a Wheelock SM or DSM synchronization module. Caution: Do not use strobes on coded output circuits. Temporal Mode: Codes the output voltage in a code -3 temporal pattern to drive audible appliances such as horns, bells or chimes. Caution: Do not use strobes on coded output circuits. • .� Architects and Engineers Specifications The power supplies shall be Wheelock POWERPATHTM' Series PS- 12/24 -8CP or PS- 12/24 -8MP, or equivalent. The units shall be stand alone power supplies intended for powering fire alarm notification appliances via their own Notification Appliance Circuit(s) (NAC). The units shall be UL 864 Listed for power limited operation of their outputs and comply with NFPA 70 (NEC), article 760. The power supplies shall support a full 8A of notification power even if the battery is in a degraded mode and only AC power is connected. The power supplies shall be activated by a standard Notification Appliance Circuit (NAC) from any Fire Alarm Control Panel (FACP) or a "Dry contact" closure. The units shall be 8 ampere, 12 or 24 VDC, regulated and filtered, supervised remote power supply/ chargers. The power supplies shall provide a full 8 amperes of current and shall not be battery dependent. They shall operate over the voltage range of 8 to 33 VDC or FWR. The primary application of the units shall be to expand fire alarm system capabilities for additional NAC circuits to support ADA requirements and to provide auxiliary power to support system accessories or functions. The power supplies shall provide four Class "B ", two Class "A ", or two Class "B" and one Class "A" NAC circuit(s). The PS- 12/24 -8CP units shall also supply up to 200 mA of auxiliary power that is available during both nonalarm and alarm. The PS- 12/24 -8MP units shall also supply auxiliary power of not less than 3.5A at 24 VDC during nonalarm. The power supplies shall be capable of charging batteries of up to 12 ampere hours per NFPA 72 (1999). Input activation options shall be from not less than two NAC circuits or Dry Contact closures. These inputs shall have the capability of being directed to any combination of the four NAC circuit outputs. Each NAC circuit output shall be rated at 3 amperes for Class "B" applications or 3 amperes each for Class "A ". The outputs shall be programmable to generate a steady or Temporal (Code 3) output and or a synchronized strobe or horn output. The power supplies shall provide independent loop supervision for either Class "A" or Class "B" FACP NAC circuits and shall have the capability to "steer" all alarm or trouble conditions to either incoming NAC circuit. The units shall have common output terminals. The power supplies shall be powered from a 120 VAC or 240 VAC source with a current consumption of 5 amperes max. The unit shall incorporate short circuit protection with auto reset. The power supply shall incorporate a built in battery charger for lead acid or gel type batteries with automatic switchover to battery back up in the event of AC power failure. The charger shall incorporate fused protection for the batteries and have the ability to report low battery and /or no battery condition(s). Standby current for battery back up shall be 100 mA max. The cabinet dimensions shall be 16" H x 12.25" W x 5" D. A WARNING: PLEASE READ THESE SPECIFICATIONS AND INSTALLATION INSTRUCTIONS CAREFULLY BEFORE USING, SPECIFYING OR APPLYING THIS PRODUCT. FAILURE TO COMPLY WITH ANY OF THESE INSTRUCTIONS, CAUTIONS AND WARNINGS COULD RESULT IN IMPROPER APPLICATION, INSTALLATION AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE, AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. Specifications and Ordering Information Approvals Model Number Order Code Input Voltage /Current UL MEA CSFM FM PS -12/24 -8CP 3047 120/220 VAC @ 50 /60 Hz 5.0 amps max. X • X • PS -12/24 -8MP 3046 120/220 VAC @ 50/60 Hz; 5.0 amps max. X X X X Output NAC Circuits Output Voltage /Current X= Approved Four (4) Class "B" 12/24 VDC @ 3 amps per Circuit •= Pending Two (2) Class "A" or 12/24 VDC @ 3 amps per Circuit One (1) Class "A° and Two (2) Class "B" 12/24 VDC @ 3 amps per Circuit (Class "A ") 12/24 VDC @ 3 amps per Circuit (Class "B ") Standby Current 0.060 Amps Alarm Current 0.100 Amps Total NAC Current 8 Amps Max Standby Batteries Standby Alarm Output Aux Output Aux Output Time Total Amps /Minutes PS- 12/24 -8MP PS- 12/24 -8CP 24 VDC /12 AH 24 Hours 8 Amps/15 Minutes 200 mA (uses two (2) 12 VDC battenes in series) 60 Hours 8 Amps/15 Minutes 60 mA 3.5A dunng 24 Hours 8 Amps/15 Minutes nonalarm 200 mA 12 VDC /12 AH 60 Hours 8 Amps /15 Minutes 60 mA NOTE: Due to continuous development of our products, specifications and offerings are subject to change without notice in accordance with Wheelock Inc. standard terms and conditions. WE ENCOURAGE AND SUPPORT NICET CERTIFICATION 3 YEAR WARRANTY National Sales Office Made in USA Distributed By: 800 - 631 -2148 Canada 800 - 397 -5777 ipia E -Mail: Info @wheelockinc.com IFFE Member 59000 11/04 273 Branchport Avenue • Long Branch, NJ 07740 • TEL: 732 - 222 -6880 • FAX: 732 - 222 -2588 , Humor Wheelock • • 4fN 1(P4 _ -15iA AREA it' . 4 '_' Helping People Take Action" SERIES ET SPEAKERS & SPEAKER STROBES Description Wheelock's high performance Series ET Speakers and Series ET Speaker Strobes provide high audio output, clear audibility, I j� �j l i;; ; _ dual voltage (25/70 VRMS) capability and field selectable taps ' FIRE • Y:!llis =v from 1/8 to 8 watts. They are designed to meet the critical _ needs of the life safety industry for effective emergency voice communications, tone signaling and visible signaling to alert SERIES ET70 SERIES ET90 the hearing impaired. Speaker Strobe Speaker The low profile design incorporates a speaker mounting plate for faster and easier installation. Each model has a built -in r '"`"j level adjustment feature and an aesthetic two (2) screw grille ( t' ' _ Y5 1 : _ j ' j' cover. ? "t Multi- Candela Indicator The Series ET Speaker Strobe models incorporate Low (bottom of Strobe Lens) Current draw Series RSS Strobes. Features Strobe options for wall mount models include 1575 cd or • Approvals include: UL Standard 1971, UL Standard Wheelock's patented MCW multi - candela strobe with field 1480, New York City (MEA), California State Fire selectable candela settings of 15/30/75/110cd or the high Marshall (CSFM), Factory Mutual (FM), and Chicago intensity MCWH strobe with field selectable 135/185cd. (BFP) See approvals by model in Specifications and Ordering Information Ceiling mount models are available in Wheelock's patented • ADA/NFPA/UFC /ANSI compliant MCC multi - candela ceiling strobe with field selectable • Meets OSHA 29 Part 1910.165 intensities of 15/30/75/95cd or the high intensity MCCH strobe • Wall mount models are available with Field with field selectable 115/177cd. Selectable Candela Settings of 15/30/75/110cd or 135/185cd (Multi - Candela models) or 1575cd (Single The strobe portion of all Series ET Strobes may be Candela model) synchronized when used in conjunction with the Wheelock • Ceiling mount models are available with field SM, DSM sync modules or the Wheelock PS- 12/24 -8CP and selectable candela settings of 15/30/75/95cd or 115/ PS- 12/24 -8MP Power Supplies with patented Sync Protocol. 177cd (multi - candela models) Wheelock's synchronized strobes offer an easy way to comply • Strobes produce 1 flash per second over the with ADA recommendations concerning photosensitive regulated voltage range epilepsy. • 24 VDC with wide UL "Regulated Voltage" using filtered DC or unfiltered VRMS input voltage Series ET70 and ET90 Speaker Strobes are UL Listed for • Synchronize with sync modules or power supplies indoor use under Standard 1971 (Signaling Devices for the with built -in sync protocol Hearing Impaired) and Standard 1480 (SpeakerAppliances), • Field selectable taps for 25 or 70 VRMS operation and use a Xenon flashtube with solid state circuitry enclosed from 1/8 watt to 8 watts in a rugged Lexan® lens to provide maximum reliability for • High efficiency design for maximum output at effective visual signaling. All inputs are supervised and employ minimum wattage across a frequency range of 400 to IN /OUT wiring terminals for fast installation using #12 to #18 4000 HZ AWG wiring. • Fast installation with IN /OUT screw terminals using #12 to #18 AWG wires Color options for Series ET speakers and speaker strobes are red, white, or nickel plated. Copyright 2004 Wheelock Inc. All rights reserved. NOTE: All CAUTIONS and WARNINGS are identified by the symbol A. All warnings are printed In bold capital letters. A WARNING: PLEASE READ THESE SPECIFICATIONS AND ASSOCIATED INSTALLATION INSTRUCTIONS CAREFULLY BEFORE USING, SPECIFYING OR APPLYING THIS PRODUCT. FAILURE TO COMPLY WITH ANY OF THESE INSTRUCTIONS, CAUTIONS OR WARNINGS COULD RESULT IN IMPROPER APPLICATION, INSTALLATION AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE, AND SERIOUS INJURY OR DEATH TO YOU AND /OR OTHERS. General Notes: • Strobes are designed to flash at 1 flash per second minimum over their "Regulated Voltage Range" Note that NFPA -72 specifies a flash rate of 1 to 2 flashes per second and ADA Guidelines specify a flash rate of 1 to 3 flashes per second. • All candela ratings represent minimum effective Strobe intensity based on UL Standard 1971. • Series ET Speaker Strobes and Series ET Speakers are listed under UL Standard 1971 for indoor use with a temperature range of 32 °F to 120 °F (0 °C to 49 °C) and maximum humidity of 85 %. • "Regulated Voltage Range" is the newest terminology used by UL to identify the voltage range. Prior to this change UL used the terminology "Listed Voltage Range ". Table 1: Average RMS Current* ET70/ET90 ET70 Strobe current - Wall Mount ET90 Strobe current - Ceiling Mount Speaker 241575W 24MCW 24MCWH 24MCC 24MCCH Strobes 1575cd 15cd 30cd 75cd 110cd 135cd 185cd 15cd 30cd 75cd 95cd 115cd 177cd 24 vdc 0.060 0.041 0.063 0.109 0.140 0.195 0.270 0.045 0.070 0.119 0.159 0.195 0.270 UL max' 0.090 0.060 0.092 0.165 0.220 0.300 0.420 0.065 0.105 0.189 0.249 0.300 0.420 Table 2: ET70/ET90 UL Reverberant dBA @ 10 Feet" • RMS current ratings are per UL average RMS watts 1/8 1/4 1/2 1 2 4 8 method. UL max current rating is the maximum RMS current within the listed voltage range (16 -33v ET Speaker 78.3 81.5 84.4 87.2 90.1 92.8 94.9 for 24v units). For strobes the UL max current is ET Speaker Strobe 78.3 81.5 84.4 87.2 90.1 92.8 94.9 usually at the minimum listed voltage (16v for 24v units). For audibles the max current is usually at •°dBA ratings are based on UL testing under UL Standard 1480 the maximum listed voltage (33v for 24v units). For unfiltered FWR ratings, see installation instructions. • A WARNING: CONTACT WHEELOCK FOR THE CURRENT "INSTALLATION INSTRUCTIONS" AND "GENERAL INFORMATION" SHEET (P82380) ON THESE PRODUCTS. THESE DOCUMENTS UNDERGO PERIODIC CHANGES. IT IS IMPORTANT THAT YOU HAVE CURRENT INFORMATION ON THESE PRODUCTS. THESE MATERIALS CONTAIN IMPORTANT INFORMATION THAT SHOULD BE READ PRIOR TO SPECIFYING OR INSTALLING THESE PRODUCTS, INCLUDING: • TOTAL CURRENT REQUIRED BYALLAPPUANCES CONNECTED TO SYSTEM SECONDARY POWER SOURCES. • FUSE RATINGS ON NOTIFICATION APPLIANCE CIRCUITS TO HANDLE PEAK CURRENTS FROM ALLAPPLIANCES ON THOSE CIRCUITS. • COMPOSITE FLASH RATE FROM MULTIPLE STROBES WITHIN A PERSON'S FIELD OF VIEW. • ADDING, REPLACING OR CHANGING APPLIANCES OR CHANGING CANDELA SETTINGS WILL AFFECT CURRENT DRAW. RECALCULATE CURRENT DRAW TO INSURE THAT THE TOTAL AVERAGE CURRENT AND TOTAL PEAK REQUIRED BYALL APPLIANCES DO NOT EXCEED THE RATED CAPACITY OF THE POWER SOURCES OR FUSES. • THE VOLTAGE APPLIED TO THESE PRODUCTS MUST BE WITHIN THEIR "REGULATED VOLTAGE RANGE ". • INSTALLATION OF 110 CANDELA STROBE PRODUCTS IN SLEEPING AREAS. • INSTALLATION IN OFFICE AREAS AND OTHER SPECIFICATION AND INSTALLATION ISSUES. • USE STROBES ONLY ON CIRCUITS WITH CONTINUOUSLYAPPUED OPERATING VOLTAGE. DO NOT USE STROBES ON CODED OR INTERRUPTED CIRCUITS IN WHICH THE APPLIED VOLTAGE IS CYCLED ON AND OFF AS THE STROBES MAY NOT FLASH. • FAILURE TO COMPLY WITH THE INSTALLATION INSTRUCTIONS OR GENERAL INFORMATION SHEETS COULD RESULT IN IMPROPER INSTALLATION, APPLICATION, AND /OR OPERATION OF THESE PRODUCTS IN AN EMERGENCY SITUATION, WHICH COULD RESULT IN PROPERTY DAMAGE AND SERIOUS INJURY OR DEATH TO YOU AND/OR OTHERS. • CONDUCTOR SIZE (AWG), LENGTH AND AMPACITY SHOULD BE TAKEN INTO CONSIDERATION PRIOR TO DESIGN AND INSTALLATION OF THESE PRODUCTS, PARTICULARLY IN RETROFIT INSTALLATIONS. Wiring Diagrams# SERIES ET SPEAKER & STROBE OPERATE SERIES ET SPEAKER STROBES SYNCHRONIZED INDEPENDENTLY (NON-SYNC OR SYNC) WITH MULTIPLE DSM MODULES FROM ,F DSM #1 PRECEDwc + TO EOLl Strobe NAC Cu. 0 M NNCE _ APPLUWIE AFGL OR VOICE 011 EOLR F EvAACUATION • 0 E` I DSM #2 PAN e Note: Figure shows F + - — 1 r — — — — + ' s ° rR U., A Strobe NAC Or '.��© © interconnection to FROM — — C strobe through sync M erM. / NCMDDUIE. I DSM #3 ,,� � P module. Speaker Strobe NAC co- `�[© ©a portion requires 2 separate conductors STROBE SPEAKER DSM Interconnecting winng shown Maximum of to FACP. twenty (20) SERIES ET SPEAKER STROBE APPLIANCES SERIES ET SPEAKER STROBE APPLIANCES & RSS SYNCHRONIZED WITH DSM MODULE SINGLE STROBES SYNCHRONIZED WITH PS- 12/24 -8CP and CLASS "A" PS- 12/24 -8MP D S M Ser, ee PS- 12/24 -8MP STROBE • 0 NAC SYNC CIRCUIT - 0 ,/ OUT 42 •OUT1 OUTPUTS ©' til EOIR • •.. IN , i MINUS 1 ET 4 p MINUS • 4-CLASS 1-4 Co / ^, 11 R FACP ©' �� 0) �/ AUDIBLE • OR _. C 2-CLASS MINUS 2 P // 0 • IN 2 ET , STROBE i/ • our 2 ® ®k NAC ©W CIRCUIT Sanas PS- 12/24-8MP RETURN For wiring information on the PS- 12/24 -8CP and PS- 12/24 -8MP Power Supply, please refer to Data Sheet #9000. " For detail using SM or DSM Sync Module refer to Data Sheet S3000 or Installation Instructions P83123 for SM and P83177 for DSM. For wiring information on the power supplies refer to Installation Instructions P84515 for PS- 12/24 -8CP and P84333 for PS -12/24 -8MP. Wheelock products must be used within their published specifications and must be PROPERLY specified, applied, installed, operated, maintained and operationally tested in accordance with their installation instructions at the time of installation and at least twice a year or more often and in accordance with local, state and federal codes, regulations and laws. Specification, application, installation, operation, maintenance and testing must be performed by qualified personnel for proper operation in accordance with all of the latest National Fire Protection Association (NFPA), Underwriters' Laboratories (UL), National Electrical Code (NEC), Occupational Safety and Health Administration (OSHA), local, state, county, province, district, federal and other applicable building and fire standards, guidelines, regulations, laws and codes including, but not limited to, all appendices and amendments and the requirements of the local authority having jurisdiction (AHJ). ARCHITECTS AND ENGINEERS SPECIFICATIONS The speaker appliances shall be Wheelock Series ET Speakers and speaker strobe appliances shall be Wheelock Series ET •. Speaker Strobes or approved equals. The speakers shall be UL Listed under Standard 1480 for Fire Protective Service and speakers equipped with strobes shall be listed under UL Standard 1971 for Signaling Devices for the Hearing- Impaired. In addition, the strobes shall be certified to meet the requirements of FCC Part 15, Class B. All speakers shall be designed for a field selectable input of either 25 or 70 VRMS, with selectable power taps from 1/8 watt to 8 watts. All models shall have listed sound output of up to 93 dB at 10 feet and a listed frequency response of 400 to 4000 Hz. The speaker shall also incorporate a sealed back construction. All inputs shall employ terminals that accept #12 to #18 AWG wire sizes. The strobe portion of the appliance shall produce a flash rate of one (1) flash per second over the Regulated Voltage Range and shall incorporate a Xenon flashtube enclosed in a rugged Lexan® lens. The strobe shall be of low current design. Where, Multi - Candela Speaker Strobes are specified, the strobe intensity shall have field selectable settings and shall be rated per UL Standard 1971 at 15/ 30/75/110cd or 135/185cd for wall mount and 15/30/75/95 cd or 115/177cd for ceiling mount. The selector switch for selecting the candela shall be tamper resistant. The 1575 strobe shall be specified when 15 candela UL Standard 1971 listing with 75 candela on- axis is required (e.g. ADA compliance). When synchronization is required, the strobe portion of the appliance shall be compatible with Wheelock's SM, DSM sync modules or Wheelock's PS- 12/24 -8CP and PS- 12/24 -8MP Power Supplies with built -in Patented Sync Protocol. The strobes shall not drift out of synchronization at any time during operation. If the sync module or Power Supply fails to operate, (i.e., contacts remain closed), the strobe shall revert to a non - synchronized flash rate. The speaker and speaker strobe appliances shall be designed for indoor surface or flush mounting. The speaker and speaker strobe shall incorporate a speaker mounting plate with a grille cover which is secured with two screws for a level, aesthetic finish and shall mount to standard electrical hardware requiring no additional trimplate or adapter. The finish of the Series ET speakers and speaker strobes shall be white, red or nickel plate. All speakers and speaker strobes shall be backward compatible. SPECIFICATIONS AND ORDERING INFORMATION Order Wall Ceiling Non- Strobe Sync w/ Strobe 8 Model 8 Model 8 Model Mounting Agency Approvals Model Code Mount Mount Sync SM, DSM or Candela Color Color Color O PS- 1224 8CP /MP RED White Nickel UL MEA CSFM FM BFP ET70- 24MCW -FR 9020 X - X X 15)30/75/110 X L,O,P,O.U,Y X X X X X ET70- 24MCW -FW 9021 X x X 15/30/75/110 - x L,O,P,O,U,Y X X X X X ET70- 24MCW -FN 3091 X - x x 15/30/75/110 - - X L,O,P,O.U,Y X X X X X ET70- 241575W -FR 7848 X - X X 15 (75 on Axis) X - L,O,P,O.U,Y X X X X X ET70- 241575W -FW 7853 X - X x 15 (75 on Axis) - x - L,O,P,Q.U,Y X X X X X E170- 241575W -FN 3092 X - X X 15 (75 on Axis) - - X L,O,P.O,U.Y X X X X X ET70- 24MCWH -FR 3472 X - x x 135/18 X - L,O,P,O.U,Y X X X X • ' ET70- 24MCWFW 3475 X - X X 135/185 - X - L,O,P,Q,U,Y X X X X H - * ET70- 24MCWH -FN 0061 X - X X 135/185 - X L,O,P,O,U,Y X X X X * ET70WP- 2475 -FR 9077 X - X X 18 X - - M (Outdoor) X X X • • ET90- 24MCC -FW 3164 - X X X 15/30/75/9 - x L,O,U.V,Y X X X X ET90- 24MCC -FR 3163 - X X x 15/30/75/95 X - - L.Q,U,V,Y X X X X * ET90- 24MCC -FN 3186 - X X X 15/30/75/9 - - X L,Q,U,V,Y x x x x * ET90- 24MCCH-FW 3473 - X X X 115/17 x - L,o.u.v.Y X X X X * ET90- 24MCCH -FR 0139 - X X X 115/17 X - L,Q,U,V,Y X X X X * ET90- 24MCCH -FN 0062 - X X X 115/177 - - - - X L,O,U,V.Y X X X X ET70 -R 7840 X X x - - L,O,P,O,U,Y X X X X X ET70 -W 7844 X X - - - - X - L,O,P,Q,U,Y X X X X X ET7O-N 3097 X X - - - - - X L,O,P,Q,U,Y X X X X X El90 -R 7842 x x - x - - L,Q,U,V,Y X X X X X ET90 -W 7846 x x - - - - x L,Q,U,V,Y X X X X X ET9O-N 3098 X X - - - - - x L,O,U,V,Y X X X X X # Models are available in either Red or White. Call Customer Service for Order Code 8 Delivery. *PENDING NOTE: Due to continuous development of our products, specifications and offerings are subject to change without notice in accordance with Wheelock Inc. standard terms and conditions. WE ENCOURAGE AND SUPPORT NICET CERTIFICATION National Sales Office 3 YEAR WARRANTY Distributed By: 800 - 631 - 2148 ASSEBLED IN AMERICA Canada 800 - 397 -5777 resisu E -Mail: Info @wheelockinc.com Mombor . http: / /www.wheelockinc.com 273 Branchport Avenue • Long Branch, NJ 07740 • TEL: 732 - 222 -6880 • FAX: 732 - 222 - 2588 S0310 02/05 +,n G l Cy ! h l", r-J'Z4 �,!...3 •S+�E' t� Fl ! � `' � d ! , -ul ! s.�+ �Ski�i ,,,,,,,„ ,4 "u a �r hOP,IOG _ __— _ , -- L'2.-5-at '� < - � ' , i f, c s ' ;'-x.,-, f r'r' � : ,-.7; "..' r 7ir^V'`i -t �,' 4l fy. ^. E g r k am x y c �a 5Y5T� "'S `: Helping People Take Actions" SERIES SM AND DSM SYNC MODULES Description - , �.; .� - Wheelock's Series SM and DSM Sync Modules are ; <i j utilized with the Series AS /AH, Series NS /NS4 /NH, Series " RSS, Series RSSP, Series SLM and selected strobe , s , �.J0 Y ii, applications with other Wheelock combination appliances. ,'� { `� `' - • When Horn Strobes, the SM and u DSM Sync Modules provide ' " 4 ' 'r`' independent operation of synchronized temporal pattern Series SM or DSM (code 3) horn and synchronized strobe flash, as well as the ability to silence the horn while maintaining the strobe flash. while using only a single pair of wires. The sync modules are available in two versions; the SM -12/24 for control of a Class B NAC circuit; and a dual output version, the DSM -12/24 for control of either a Class A or two (2) Class B NAC circuits. Features Specifications and Ordering Information • Approvals include: UL Standard 1971, ULC, New York Average City California State Fire Marshal (CSFM) and Order Input Current UL Mounting Y ( MEA ) , Ca ars ( ) an Model Code Voltage @ 12 or 24 Max* Options" Chicago (BFP). VDC VDC • Uniquely designed to accept an independent strobe and audible input from the FACP and convert to a SM- 12/24 -R 6369 12 0 017 0 023 W single output that connects to Wheelock's Series AS 24 0 028 0 038 W or Series NS family of audible strobes. DsM- 12/24 -R•" 6374 12 0.020 0.026 W • Series SM and DSM Sync Modules can also be used 24 0.035 0.055 W to synchronize Wheelock's Series RSS, RSSP and SLM Sync Strobes. R = Red • 3 ampere per circuit current handling at 12 or 24 VDC. • RMS current ratings are per UL average RMS method. UL max • Low operating current draw. current rating is the maximum RMS current within the listed voltage • Compatible with all standard fire alarm control panels. range (16 -33v for 24v units) For strobes the UL max current is • Meets the NFPA - requirement for Temporal usually at the minimum listed voltage (16v for 24v units). For audibles Pattern when used with the Series AS /AH and /or the max current is usually at the maximum listed voltage (33v for Series NS /NS4 /NH. 24v units). For unfiltered FWR ratings, see installation instructions. • 3 year warranty. •• Refer to Data sheet # S7000 for Mounting Options. "` The maximum number of interconnected DSM modules is twenty (20). The total distance from the first to the last DSM shall not exceed 1,000 feet of #18 AWG wire. Use only #18 AWG wire. POWERPATHCP AS /AH, NS, HS4 /HS FIRE ALARM POWERPATH NH, RSS, RSSP, CONTROL PANEL OR SM OR DSM E w /STB, ETw /STB, (FACP) OTHER POWER CH w /STB BOOSTERS APPLIANCES SM or DSM Connection Diagram with Power Booster Copyright 2004 Wheelock, Inc All rights reserved j attili f _ ., 1 T ; ifi'V'' UB12350 (12V35Ah) '` NOTE a 1 r — •. 5" 781111 Y Al 3 ' 7t/ 11 �A1�7F1f - te r"` � tr• 'NV1•c1 l.nai T �� tZ V 5 SAr7 .-r c ",-- T., 1 1 . , . +„ ': 7 '1 +-' ` (; Ay" z :. 5� - d ' SS - " -N 7 Y ya i. i7 i „ — x+ ' . e 0-0A...' 16� l'''''''.7"''''''''' % Y " .= ' 4 ,g;:,- - � w -. -��' 0_ 5. ` PHYSIC = AL SPE -� — '-'1'1.:-..M-1 - •, _ - rau.Z3 Nominal Voltage 12V Nominal Capacity (20HR) 35Ah Length 197 + / -lmm(7 76 inches) Width 130 +/- 1mm(5.12 inches) Dimens Height 156 +/- 1mm(6.14 inches) Total Height 180 + / -1mm(7 09 inches) Weight Approx. 11.107 kg (24.441bs) Standard Terminal B1 -M5 bolt & nut Dimensions (mm): +I -mm Standard Terminal mm BI -130- 1 n n - I -- � F ---- T 156180 I 1 4 16 1 46 I L - - - -- -- - -_ —I I 8.75 I 161 i— 196— 1 1 ! I �! 1- 11 ___11 (115 bolt & nut) 11 11 - � r In J II i Q � � UB1235O (12V35Ah) flvi JV '�dr�;* ^.'S PA e��14',�, n;; tF �. i; y� � � � s .. Y'• v�, �, ys `S 3. _ cCPC24� }'fir . �., 'F.�` -c"] i, I 7. S i. _ '{ cx '. TIV "r ,� . ; - ; 4 i ELEC�TRI .:. k-° -�.- � � � z r , y ,. � CAL�$PECIFIGATIONS �° ��-��' _� :� ��"' � :.��z'"a,._�.�s :s:d =':�� s��.aa?..�=a'€�e r5�r_. t ;,,: _ k3x� ......... .:r_ .�z� --'�`� ��s:at'."�`-Jn;�:; }��s•.o, Max. Discharge Current (5 sec.) 18OA 20 hour rate (1.7A) 35 Ah 10 hour rate (3.0A) 30.5 Ah Capacity Cycle 14.4 to 15.0V ( 3OmV / °C) 5 hour rate (5 4A) 21.6 Ah Constant 1 hour (20A) 18 Ah Voltage Charge Internal Resistance Fully charged battery (20°C, Standby 13.5 to 13.8V (- 2OmV / °C) 68 °F) 1Omilliohms Diultarge L'banderistia (25 `C, 77 1) r � I I I 13.D — 1 -- — I 1 �! ;-97:7:11:1—j-71-1N . 12.0 ! I re 11.0 1 1 --- - 1 '1 1 \ [ _1 \ ' I 1`. 71 1..1.13A ' — 0.78A 1 9 .0 �i —\,, ' i ,,'; , 8SA E ! I ', 7 {14 1 8.0 I T _ ;I I I_ 1 ' 0 1 1 10 1 62A 1 34A I 1— 1 1 2 3 5 10 20 30 60 2 3 5 10 20 30 ■ _min__ 1;1 h Discharge Time Discharge Olanderistits (0 t,12 F) i 1 _ —; f 13,D — — �� `'i p 11 11.0 I , �_... -- II Is 10.0 1_ ' I _1, s I j __ i s + I8 5.�.78A A l I 1 f - 9.0 I I 11 I _ I_'\ 12O.4A_1 I I 8.0 1 1 �� T I I 1 1 1 I I I 0 I I 16A 6/4 34AI i I I 11 I _ I.. 1 2 3 5 10 20 30 60 2 3 5 10 20 30 h — —• Discharge Time , , � i , _ .:.-.1.-W-111, UB1270 (12V7Ah) Li NOTE ' ,U1127 SF4!! It . ter, :1211s7 , • _ PH S ' g F F 6A .10 ` .._s .. :. _ _ _ . - . Nominal Voltage 12V Nominal Capacity (20HR) 7 Ah Length 151 +/- 1mm(5.94 inches) Dimensions Width 65 +/- 1mm(2.56 inches) Height 95 +/- 2mm(3.74 inches) Total Height 101 +/- 2mm(3.98 inches) Weight Approx. 2.50 kg (5.501bs) Standard Terminal Fl - Faston Tab No.187 Dimensions (m Standard Terminal mm Fl (Fast Tab No.181) ' ( —_ — — i ; ( �� ^ 475 .- 32 i! fin — fi 35 __1 _ 0.8 - 151 -. -_ .- . - - - - - — - - -- — - - — — 0pdonalTerminal mm 4 65 4� , ---- I r _ F2 (Fut Tab fro.250) • 1 !fi35 I 95 101 _r i L. i 34 - - 1 � . - -.. 796 1 _ r .0.8 U • • L ATTER . UB12550 Specifications r Nominal Voltage 12V - Rated Capacity 55Ah (20 hour rate) r. Tot Height UB1 %550 _ _- . 8.46 in (215 mm) +^ ••� (v ith term teal) = --- Dimensions Height 8.22 in (209 mm) . Length 9.01 in (229 nxm) ...F-:-=-7.- W Idth 5.43 in (138 mm) Weight Aprox. 37.44 lbs Characteristics 20 hr. rate 20 55Ah = I -f I I T Capacity 10 hr. rate 10 51.8Ah yy (:5•c) 5 hr. rate 5 45.5Ah 4 hr. rate 4 44.7Ah • 1 hr. rate 1 31.4Ah -8.22 8. +f8 (209) (215) Internal HI 11 e. pall charged battery 10 milliohms 77°F (25°C) 104° F (40°C) 102% ' ' ± i Capacity affected by 77°F (25 °C) 100% 1 ---.,____L0 32°F (0°C) 85% 9. 01 (229) 5 4.3 (138) ' (20 hour rate ) 5°F (.15°C) 65% Self Capacity after 3 months storage 90% Discharge Capacity after 6 months storage 80% 77°F (25 °C) Capacity after 12 months storage 60% -.^ - - _ - - �- - - - -`_ W site per cell W 4 hoar 25 _ -- ..._...._ -.. ..-- ......._ Ran time Ca) 25A 1 hr. 46 mm. • !_ ------ - Discharge rate C i 4 hours 12.5A Initial charging current less than - O ; Charge Cycle 20.3A. 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