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Specifications Stat. 4� I - FIRE SUPPRESSION SYSTEMS PATENTED 22 - _ • E __ Electrically Operated Units • Features • Significantly more effective than alternative extinguishing agents • Environmentally friendly -Ozone depletion potential (ODP) = 0 - No global warming potential • Ease of installation - no pressure vessels, piping, or expensive installation manpower • Very low maintenance • Provides reliable, cost effective protection for a wide range of fire hazards • Listed for Class A, B, C fires by UL, ULC, CSIRO, ECB, and many others • Favorably reviewed by EPA for SNAP listing • Suitable for enclosed facilities and local applications • Safe for personnel - non - harmful to personnel at design application rates • Safe for valuable equipment -will not harm electronic equipment or magnetic media • Post fire cleanup is minimal - aerosol suspends in air for quick and easy venting after discharge • Compact - up to a 90% reduction in space and weight requirements Applications Due to their fast response time, low fire extinguishing concentration, and environmental safety, Stat- fire suppression systems may be used in critical applications across a wide range of industries. Aerosol generators are currently protecting and are suitable for use in: - Telecommunications facilities - Flammable liquid storage areas - Process control rooms - Turbine and generator enclosures - PABX rooms - Marine engine rooms and machinery spaces - High value mobile equipment - Power plants - Cellular sites and relay towers - Small boats - Data processing facilities - General industrial hazards Operation /Description Upon detection of a fire, Stat- generators can be activated either manually or automatically from a suitable listed releasing device. All auxiliary system components (release panel, detection, remote pull stations, etc.) are listed /approved by UL, ULC, FM, New York City MEA, and California State Fire Marshall. Upon activation, the generators produce an exceptionally effective, ultra -fine, potassium based aerosol. Unlike gaseous systems, Stat -X aerosol generators are very cost effective to install and maintain - as they do not require the pressure vessels, piping or expensive installation costs associated with other extinguishing systems. Space and weight requirements are minimal. On an agent weight basis, Stat- aerosol is ten times more effective than gaseous agent alternatives. The Stat- generator's effectiveness is a function of its patented design, aerosol composition, and ultra -fine particle size. Fire suppression is rapidly achieved through interference between the ultra -fine aerosol particulate and the flame's free radicals - terminating propagation of the fire. Stat- aerosol generators are virtually maintenance free and have a service life of over 10 years. This, coupled to their very low installation cost, makes them an extremely cost effective fire protection solution. Sta a FIRE SUPPRESSION AEROSOL GENERATORS General Specifications: Parameter 30 E 60 E 100 E 250 E 500 E 1000 E 1500 E 2500 E Aerosol Mass (kg), .03 .07 .06 .13 .10 .22 .25 .55 .50 1.10 1.00 2.20 1.50 3.3 2.50 5.50 (Ibs) Ship. Wt. /unit packaging (kg), 0.36 0.8 0.48 1.1 1.44 3.2 2.72 6.0 3.63 8.0 7.05 15.5 8.6 19.0 11.3 25.0 (Ibs) Length (mm), (in) 74 2.9 107 4.2 121 4.8 132 5.2 180 7.1 170 6.7 203 8.0 267 10.5 Diameter (mm), (in) 51 2.0 51 2.0 76 3.0 127 5.0 127 5.0 203 8.0 203 8.0 203 8.0 Discharge Time 8.0 8.5 11.5 12.0 21.0 16.0 23.0 37.0 (sec) Initiation Parallel 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 Current (Amp) Series 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 Pulse Duration 50 50 50 50 50 50 50 50 (millisecond) Max. Supervisory 5 . 005 5. 005 5.. 005 5 5 .005 5.005 5.005 5 5 .005 5.005 Current (Amp) Coverage parameters: Model part Maximum Maximum Area Coverage Maximum Mounting tuber Volume Coverage Height (m (ft (m) (ft) (m) (ft) 30 E 15100 0.45 15.89 1.20 X 1.20 3.95 X 3.95 1.22 4.0 60 E 15110 0.90 31.78 1.70 X 1.70 5.60 X 5.60 2.00 6.6 100 E 15120 1.49 52.71 2.18 X 2.18 7.20 X 7.20 2.50 8.2 250 E 15130 3.73 131.8 3.45 X 3.45 11.3 X 11.3 2.75 9.0 500 E 15140 7.46 263.5 4.88 X 4.88 16.0 X 16.0 _ 3.50 _ 11.5 1000 E 15150 14.9 527.1 4.88 X 4.88 16.0 X 16.0 5.00 16.0 1500 E 15160 22.4 790.6 4.88 X 4.88 16.0 X 16.0 5.00 16.0 2500 E 15170 37.3 1317.7 4.88 X 4.88 16.0 X 16.0 5.00 16.0 For additional information on use of Stat- systems, please contact your local Distributor or Fireaway. Operation /Storage Parameters: Temperature -40 C to +54 C ( -40 F to +130 F) Relative Humidity up to 98% at +35 C ( +95 F) Transportation Classification: ,cEeT�,� G • Classification code: 4.1 Q' • UN Identification #: UN 3178 (J L tEck • Packaging group: PGIII R, \ O • Shipping limitation: - ",-F �TE - o Ground: None o Max. Weight per unit packaging - Cargo Air 100 kgs (2201bs) o Max. Weight per unit packaging - Passenger Air 25 kgs (55lbs) Stat is a registered trademark. Manufactured in the USA and sold worldwide exclusively by Fireaway Inc. under license from Techno -TM LLC 5852 Baker Road. Minnetonka. Minnesota 55345 USA 4Fireaway Tel: 952.935.9745 • Fax: 952.935.9757 www.statx.com Made in the USA ( E Call to discuss your specific requirements with one of our professionals. P POTTER PFC- 441ORC a The Symbol of Protection RELEASING CONTROL PANEL • Multi - Hazard Operation • Four Class B Initiating Circuits • Two Class B Supervisory Circuits ** • Four Class B Output Circuits • Programmable Cross Zoning • Supervised Microprocessor t • 32 Character Alpha- Numeric LCD Display t • Custom Banner Message and Zone Description text - •- - - U • Custom Zone Description Text • On Board Menu Driven Programming Controls • Releasing Circuits Protected From False Activation • Continuous or Timed Discharge • 40 Event History Buffer • Walktest with Automatic Time -out P • Alarm, Trouble Supervisory, and Waterflow relays POTTER, PFC Series • Optional Class A Initiating Zone and output module Releasin Pan' • 34 character LED supplemental display • 19 Standard Programs in Panel Memory • Password Protection for all Programming . • 24 Hour Clock • Suitable for agent or water -based extinguishing • Programmable pre - discharge timers* • One Class B Abort circuit* (Defaults to additional supervisory zone in water based mode.) Dimensions: 18 '/" x 14 V2" x 4 3 /4" • Three Abort modes* UL and ULC Listed, FM Approved, NYMEA Accepted, and * Available in Chemical mode only CSFM Approved ** One zone programmable as abort in chemical mode. General Description The Potter ModelPFC- 44lORCisaflexiblemulti- hazardreleasingcontrol The panel is Ninth Edition UL listed, ULC listed, Factory Mutual, panel that is well suited for a number of applications. The PFC- 4410RC California State Fire Marshal (CSFM)andNew YorkMaterials Equipment is listed for use with pre- action and deluge sprinkler suppression systems Acceptance (MEA) approved. and agent based fire suppression systems. The PFC- 4410RC is housed in a durable steel cabinet with removable The panel utilizes a microprocessor -based system that has 19 Standard door and key lock. The panel is available in either a red or white finish Programs, which covers a majority of installations. The simple to follow and an optional flush mount trim ring is available. The cabinet contains Menu Structure programs the entire system in a matter of minutes. In knockouts on the side, back and top of the cabinet to ease installation. addition to the Standard Programs, the panelallowscustomprogramming In addition, the cabinet will house up to 18 amp -hour batteries that will to accommodate any installation. provide in excess of 90 hours of standby power. Ordering Information Model Number Description Stock Number PFC- 4410RC 4 Zone Releasing Control (White Cabinet) 3006144 PFC- 441ORC 4 Zone Releasing Control (Red Cabinet) 3006142 PFC -TW Bezel for Semi -Flush Mounting (White) 5090157 PFC -TR Bezel for Semi -Flush Mounting (Red) 5090155 BT-40 Battery, 12V 4AH for 24 hour standby (2 Req'd) 5130092 • BT-80 Battery, 12V 8AH for 60 hour standby (2 Req'd) 5130084 BT-120 Battery, 12V 12AH for 90 hour standby (2 Req'd) 5130090 BT I80 Ratio, 12V, I8AH 90 hour standby (2 Req'd __ 5130086 CA2Z 2 Zone Class A Initiating Circuit Module 3006013 CAM Class A Indicating Circuit Module 3005300 ,,ARM- -44 1 4.41y MQ44Ig , -4410RC 3006221 ARM -2 Auxiliary Relay Module 3004725 RA- 4410RC Remote Annunciator 3006400 BB- RA-44R Surface Mount Back Box for RA- 4410RC (Red) 3006401 Potter Electric Signal Co., LLC • St. Louis, MO • Cust Service: 866 - 240 -1870 • Tech Support:866- 956 -1211 • Canada 888 -882 -1833 • www.pottersignal.com PRINTED IN USA MFG #5401250 - REV A PAGE I OF 2 I2/09 P POTTER PFC- 4410RC The Symbol of Protection RELEASING CONTROL PANEL Architects/Engineers Specifications The control panel for the extinguishing agent releasing system shall Waterf low, Linear Heat Detection (up to 10,000 feet per zone), . be a microprocessor based control capable of protecting multiple Manual Release, Low Air Alarm, Supervisory, Tamper, Low Air or hazards in one control panel. It shall be Underwriters Laboratories High Air. Inc. listed under Standard 864 Ninth Edition and Underwriters Optional Class A modules, CA2Z, may be added for Class A Laboratories of Canada for Local Control Units for Releasing Service. operation. The panel shall have a Low Air Zone that creates a The control shall also be approved by Factory Mutual Research supervisory condition and map to an output. UL and ULC Listed, FM Corporation and be compliant with the requirements ofNFPA -72 Approved, NYMEA Accepted, CSFM Approved (Local: A, M, SS service types; DAC and NC signaling type) and me control shall have two fully supervised Class B (Style B) NFPAl2, NFPAI2A, NFPA -13, NFPA -15, NFPA -16, NFPA -17, supervisory circuits. These circuits shall be selectable through the NFPA -17A, NFPA -750, and NFPA -2001. programming sequence to operate in one of the following modes: The control shall be housed in an 18 gauge steel cabinet that has a Supervisory, Tamper, Low Air or High Air. hinged, removable door with a key lock. The finish shall be baked The control shall have one fully supervised class B (style B) Abort enamel and available in red or off -white with contrasting trim and circuit with 3 different operating modes, ULI, IRI, and NYC. logo. An optional matching bezel should be available for semi -flush mounting. The cabinet shall have adequate space to house 18 All The control shall have four fully supervised Class B (Style Y) output standby batteries capable of operating the system for at least 90 hours. circuits. These circuits shall be selectable through the programming sequence to operate as one of the following: Alarm Notification The control shall include a fully supervised integral power Appliance, Supervisory Notification Appliance, Trouble Notification supply/battery charger capable of providing 200mA to the auxiliary Appliance or Releasing. The optional CAM module may be added to power circuit. It shall also be capable of providing 2.5 Amps to all convert the outputs to Class A. releasing and notification appliance circuits combined. All initiating, output and auxiliary power circuits shall be power limited. The panel shall have an RS-485 output and auxiliary power outputs for connection and supervision of up to 4 remote annunciators or an The control shall have a 32 character (16 characters, 2 lines) backlit ARM-44 Relay Module and 3 annunciators. LCD display and a 34 LED supplemental display. All diagnostic and alarm event information shall be viewable in text form on this display. The releasing circuits shall be supervised for short circuit conditions A field programmable custom banner message with the current date and shall be programmable for cross zoning operation when required. and time shall be displayed when no current alarm or diagnostic The discharge timer for these releasing circuits shall be programmable information exists. for times of 7, 8, 9, 10, 20 minutes or continuous. All initiating and output circuits shall be capable of being individually disabled or All operational features of the control panel shall be field enabled. In addition, when in the agent extinguishing mode there shall programmable using menu driven selections on the alpha - numeric be a pre- discharge timer adjustable from 0-60 seconds from an alarm display and on board controls. No special programmer will be zone or 0 -30 seconds from a manual release zone. required and jumpers or switches to configure operational features shall not be permitted. Alarm and trouble indications shall resound The control shall have a test mode that will automatically disable when required. all releasing circuits. The test mode shall operate in such a manner as to automatically reset the initiating circuit and indicating circuits The control panel shall be equipped with 19 programs built into the after detecting each alarm condition initiated by the test. All testing panel memory, 13 for water based extinguishing and 6 for agent shall be recorded in the 40 event history buffer. The test mode will extinguishing. In addition, the panel shall have the ability to add custom automatically terminate after twenty minutes of inactivity. programs. All programming functions shall be password protected. The control shall have four integral relay contacts rated 3 Amps at 30 The control shall have four fully supervised Class B (Style B) VDC for connection to external auxiliary equipment. One relay shall initiating circuits capable of supporting the operation of 25 compatible operate when an alarm condition occurs, another when a trouble signal 2 -wire smoke detectors on each circuit. occurs, the third when a supervisory condition occurs, and the fourth The individual circuits shall be selectable through the programming during a waterflow condition. sequence to operate in one of the following modes: Conventional, UL and ULC Listed, FM Approved, NYMEA Accepted, CSFM Approved. PRINTED IN USA MFG #5401250 - REV A PAGE 2 OF 2 12/09 4 Fireaway LLC To: All Stat Distributors RE: Installation of Stat per UL cross - listing for Potter 4410RC In order to comply with the UL cross - listing for the Potter 441 ORC panel an Ematch Protection Device (part number 3005014) must be connected to each Stat device as protection against high voltage transient signals which may occur such as in the event of a lightning strike. ! ' + PN 3005014 1. Installation - Series YELLOW wire to OUTPUT X+ wiring GREEN wire to OUTPUT X- wiring RED wire to Stat -X Initiator BLACK wire to other side of Stat -X Initiator • A % END LINE 1 DEVICE 1 X X X Installation Bulletin 3/05/10 - Ematch Protective Device 2. Installation - End of Line If the Stat -X unit is the last device on an OUTPUT circuit then: YELLOW wire to OUTPUT X+ wiring GREEN wire to OUTPUT X- wiring RED wire to RED wire of the EOL Resistor & Diode Assy BLACK wire of the EOL Resistor & Diode Assy to Stat -X Initiator BLACK wire to other side of Stat -X Initiator ■ [©J END OF LINE DEVICE X 1 ( J !WARNING For all UL compliant installations, each Stat- device must have its own, properly installed, Ematch Protective Device - PN 3005014 Installation Bulletin 3/05/10 - Ematch Protective Device P POTTER Battery Calculation for PFC- 4410 -RC The Symbol of Protection All Power Shown in Amps Since the current draws listed here can be edited, the user is fully responsible for verifying these calculations. Model Description Enter Total Standby Alarm Current Quantity PFC- 4410 -RC 4 Zone Releasing Panel 1 0.0920 0.2150 Potter 2 Wire Smoke Detectors 0 0.0000 0.0000 # of Outputs as Trouble Bell 0 0.0000 0.0000 RA- 4410 -RC Remote Annunciator 0 0.00 0.0000 ARM-44 Auxiliary Relay Module 1 0.0096 0.1570 ARM -1 4PDT Relay Module 0 0.0000 ARM -2 DPDT Relay Module 0 0.0000 Enter Device Current Draw Below Notification Load Enter Total or Individual Device 3 0.0804 0.0268 Solenoid 2 0.0000 1.0000 0.5000 Auxiliary Power 0.1016 1.4524 Secondary Standby Load 0.1016 Required Hours of Standby I 72 Standby Amp -hours 7.3152 Secondary Alarm Load 1.4524 Required Minutes of Alarm I 15 Alarm Amp -hours 0.3631 7.3152 + 0.3631 Amp -hours = 7.68 Total Amp -hours required 7.6783 x I 1.2 I (safety factor) = 9.21 Minimum Amp -hours required • P POTTER SH -1224 SERIES WALL MOUNT e The Symbol of Protection SELECT- A- STROBE/HORN® • UL and cUL listed • 12 VDC with 15, 35 or 60 cd setting • 24 VDC with 15, 35, 60, 75, 95 or 110 cd settings • f = f • 6 distinct candela settings 1 —1 • Candela selection view window • A • 15/75 ADA compliant on 60cd setting E A li • 33 sound output settings 11 \ V • Horn or chime sound output • Pre -wire back plate ' - • Universal back plate mounting (single gang, double gang, octagon, or 4" square) • Single screw mounting .E. ® • Indoor only • Low current draw The SH -1224 Strobe/Hom Series provides a wide range of candela The voltage input can be either regulated DC or full wave rectified light output options in a single device. The candela settings include a (FWR) 12 volt or 24 volt operation with an operating range from 8 to 12 or 24 volt DC operation for the 15, 35 and 60 (75 on axis) candela 33 V DC. The strobes can be synchronized using a control panel with settings and 24 volt DC operation for the 15, 35, 60, 75, 95 and 110 the Potter (Amseco) sync protocol or a SMD10 -3A sync module. candela settings. The candela setting is displayed through the front The SH -1224 utilizes a universal mounting plate that will mount on a window and is selectable using a drum wheel. single gang, double g gang, octagon and 4" square electrical boxes. The The horn settings include Temporal, Non - Temporal, March lime back plate allows the installer to mount the plate and connect the wire and a Chime sound. The horn also has Low, Mid and High volume connections. The strobe attaches in a hinge fashion from the top and is settings for each pattern and tone. The tones include 2400 Hz, Electro- secured by a single mounting screw. The strobe completely covers the Mechanical, Broadband and Chime. mounting back plate, therefore it can be mounted before other trades work is completed and not affect the final look. Installation �, ��1,; A CAUTION ". " �+ ^� =� A jumper plug is provided to test for correct �� I A wiring in the supervisory mode only. Do not � �� l \ � pass alarm current through the jumper. OPTIONAL NAL % .7 `\ ll'. 4' SQUARE � � � O OUTLET BOX '. .- O f O i` �/ ,, , 110 •�O OO `�� 95n f' ! 75 V in y t+t ! 60 O 35 r 3 Select-A switch Clear 1 Lens • Note: Installation must comply in accordance with applicable standards. • Ordering Information Stock Number Model Number Description Color 4560070 SH -1224R Selectable strobe/horn/chime Red 4560071 SH -1224W Selectable strobe/horn/chime White Potter Electric Signal Co., LLC • St. Louis, MO • Cust Service: 866 - 240 -1870 • Tech Support:866- 956 -1211 • Canada 888 - 882 -1833 • www.pottersignal.com PRINTED IN USA MKT. #8910004 - REV F PAGE 1 OF 4 7/10 SH -1224 SERIES P PO MOUNT e The Symbol of Protection SELECT- A- STROBE/HORN® Dimensions: inches (mm) Light output in precentage when measured from the following ` directions per UL 1971. / \ Wall and ceiling mount horizontal dispersion Ceiling mount vertical dispersion Degrees % Rating 50 55 Horizontal Vertic 0 100 100 • - 5-25 90 90 .. UMW 30 75 90 a _�RI_ 4 0 65 75 46 �° ,� 0 45 75 34 7. Waa mount are vertleel dispersion 45557355 455 22 O Light - 60 40 of 16 35 16 t I 5(1271 Iii"."."*".1111111 70 75 30 13 00 35 30 15 12 85-90 25 12 ..7:_:::-_1 4 t . Floe v _, y !v voltage may be present inside the light assembly even r High hough power is not connected. If access to teh coponent board s required (removal or replacement), the capacitor must be iscarged by touching a wire to both ends of the flashtube. DO NOT attempt to touch or move the assembly until the apacitor has been discharged. Specifications Horn Dipswitch ON Strobe Current Pattern 0 LI [] El El El El Light Max. RMS Operating Current (mA RMS) 1 ON - Non - temporal Output Reg. 12 24 R 24 1 2 3 4 5 6 7 8 Reg. eg. Reg. Reg. 1 OFF - Temporal 15cd 116 152 62 99 Both 2 = OFF 35cd 209 267 102 152 1 and 2 ON = March Time 60/75cd 254 258 131 190 Tone 75cd NA NA 146 208 3 and 4 ON = 2400Hz 95cd NA NA 177 243 3 ON and 4 OFF = Electromechanical 1 I Ocd NA NA 196 268 3 and 4 OFF = Chime Voltage I2/24V 3 OFF and 4 ON = Broadband IJL Designation Regulated 12 DC/FWR Regulated 24 DC/FWR Volume • Operating Voltage Range 8 - I7 .W 16 - 33V 5 and 6 ON = High Flash Rate 60 times/min. 5 ON and 6 OFF = Mid Sync Module (SMD10 -3A) NA I Available 5 and 6 OFF = Low Operating Temperature 7 and 8 ON = Horn/strobe on 2 wires Range Indoor model: 32 °F to 120 °F (0 °C to 49 °C) 7 and 8 OFF = Horn and strobe on 4 wires Note: To determine total current draw, add desired strobe setting and horn selection. Refer to the installation instructions for further information. PRINTED IN USA MKT #8910004 - REV F PAGE 2 OF 4 7/10 P POTTER SH -1224 SERIES WALL MOUNT t• The Symbol of Protection SELECT- A- STROBE/HORM Non- Temporal Horn Current Max. RMS Current dBA Reverberant Ratings per dBA Anechoic Ratings per Pattern Volume (rnA RMS Current) UL464 (dBA @ 10 R) CAN/ULC S525 (dBA @ 10 ft.) • Reg 12 VDC Reg 24 VDC Reg 12 VDC Reg 24 VDC Reg 12 VDC Reg 24 VDC High 119 87 87 87 99 100 • 2400 Hz Mid 44 28 82 82 94 96 Low 30 18 79 80 92 92 High 118 81 86 87 100 100 Electro-Mechanical Mid 43 26 82 84 96 97 Low 27 16 79 80 93 93 High 146 78 86 86 101 102 Broadband Mid 41 26 81 82 96 98 Low 28 16 77 79 94 95 High 27 21 70 70 86 86 Chime Mid 11 8 62 62 79 80 Low 9 7 58 57 75 75 Temporal Horn Current Max. RMS Current dBA Reverberant Ratings per dBA Anechoic Ratings per (mA RMS Current) UL464 (dBA @ 10 ft.) CAN/ULC S525 (dBA @ 10 R) Pattern Volume - Reg 12 VDC Reg 24 VDC Reg 12 VDC Reg 24 VDC Reg 12 VDC Reg 24 VDC High 124 87 82 82 100 100 2400 Hz Mid 46 30 77 79 95 96 Low 30 18 74 75 92 92 High 114 80 83 82 100 101 Electro-Mechanical Mid 42 27 78 80 95 96 Low 28 16 75 76 93 93 High 151 80 82 82 101 102 Broadband Mid 45 26 77 78 97 98 Low 30 16 75 76 94 95 High 29 21 68 70 86 86 Chime Mid 10 9 61 61 79 79 Low 9 8 55 55 75 76 March Time Horn Current Max. RMS Current dBA Reverberant Ratings per dBA Anechoic Ratings per (mA RMS Current) U1464 (dBA @ 10 ft.) CAN/ULC S525 (dBA @ 10 ft.) Pattern Volume Reg 12 VDC Reg 24 VDC Reg 12 VDC Reg 24 VDC Reg 12 VDC Reg 24 VDC ii High 121 92 83 84 99 100 2400 Hz Mid 47 31 79 81 95 96 Low 36 19 76 77 92 92 • High 114 86 83 83 100 100 Electro-Mechanical Mid 42 27 80 81 95 96 Low 30 19 77 77 92 93 High 153 77 83 84 101 102 Broadband Mid 42 28 79 80 97 98 Low 29 16 76 77 94 95 PRINTED IN USA MKT. #8910004 - REV F PAGE 3 OF 4 7/10 P POTFER SH -1224 SERIES WALL MOUNT • The Symbol of Protection SELECT- A- STROBE/HORN Wiring Diagram Wiring Observe Polarity Use both terminals (or Lead) for connection. Break wire run to provide electrical supervision. Horn / Strobe Signal Operate Independently F.A.C.P. F.A.C.P. • SIft_i224wp -- To Next Device • Strobe Signal Horn Signal SH -24 or Circuit Circuit CSH -1224W I - End-of- Line - Resistor + - + - 'DIP SW setting 411 sw7,sw8 =OFF STROBE HORN To Next Device or + + - + - in R R � End -of -Line-Resistor • 1 ��I 111___ Horn / Strobe Wiring Diagram for Audible Strobe Class 93' Circuit SH -1224 with Audible Silence Feature. (SH -1224, SH1224W) SH- 1224WP F.A.C.P. F.A.C.P. ' Sync Module SMD10 -3A SH -2 To Next Device Strobe Signal Horn Signal *DIP SW setting or Circuit Circuit INPUT OUTPUT sw7,sw8 =ON End-of -Line- Resistor 1 - I POWER + + - I ____? 9 r 0 , Horn or Strobe Wiring Diagram for Audible Strobe Class "B' Circuit without Audible Silence Feature. ' Sync Module SMD10 -3A To Next Device F.A.C.P. or Signal Circuit INPUT • End -of- Line - Resistor + _ r — �I� - 1 I OUTPUT • H+ H- + - + - POWER + + - ?goo() L — -- I Refer to the SMD 10-3A Sync Module instruction manual for Class "A" wiring or other application diagrams. DWG# 8910004-1 Engineering Specifications The installer shall provide and install the Potter SH -1224 selectable the Potter sync protocol or the SMD10 -3A sync module. The strobe strobe/hom. The strobe shall have six (6) candela settings. The shall utilize a mounting plate that allows the installer to pre -wire the • candela settings shall be selectable using a drum roller and shall mounting plate. The mounting plate shall be universal and mount on a display the candela setting on the front of the device. The horn shall single gang, double gang, octagon or 4 inch square box. The mounting have 33 selectable settings configurable by dip switches. The sounder plate shall be completely covered by the strobe and shall be secured . shall be capable of ANSI Temporal Code 3, March Time and produce by a single screw. The strobe shall be UL listed to standard 1638, a chime output. The horn shall have three distinct volume levels. General Signaling, and standard 1971, Signaling Devices for the The strobe/hom shall operate at 12 or 24 VDC regulated or full wave Hearing Impaired. In addition, the strobes shall be cUL listed to CAN - rectified. The strobe/horn shall have an operating range between 8 and ULC S526. The horn shall be UL listed to standard 464, Audible 33 VDC. the strobes an by synchronized using a control panel with Signaling Devices. PRINTED IN USA MKT. #8910004 - REV F PAGE 4 OF 4 7/10 FlExiblE Aspirating SmokE DEtEction l it 40. 1114/ 4ft, TEchnology PionEErs in High- sEnsitivity Aspirating SmokE DEtEction SystEms • Providing Solutions Beyond Traditional Smoke and Fire Detection Xtralis manufactures the widest range of certified aspirating smoke detection (ASD) systems in the industry — from an aspirated point -in -a -box (PIAB) detector to the unique 15- channel addressable detector. ICAM by Xtralis detectors excel in area coverage and powerful performance and are suited to a host of applications — stand -alone or networked, smoke and even environmental monitoring — in the most demanding environments. Our state -of -the art detectors, built for flexibility and dependability, are found in power stations, telecommunication sites, mines, IT facilities, LCD fabs, semiconductor clean rooms, prisons, warehouses, cold storage rooms, harsh and hazardous areas, trains, 4 • historic buildings, museums and even in residences. The ICAM range provides powerful diagnostic information and communication with monitoring, programming, graphics and control of all detector+, functions fully accessible from virtually anywhere. a Approved worldwide and manufactured according to . r • the strictest ISO 9000 quality control procedures, the ICAM range includes both aspirating point detectors V . t ill and very high - sensitivity ASD systems. 4 . • . How do the World's FinEst Aspirating Systems Work? The ICAM IFT high- sensitivity ASD is an instrument - quality Photo nephelometer collecting scattered laser light from smoke receiver particles over a full 360 - degree sweep. The resulting sensitivity is 0.001% obscuration/rn (0.0003% obs /ft), which f" is several hundred times more sensitive than conventional Laser beam r smoke detectors. This sensitivity, coupled with advanced processing and filtration, enables ICAM IFT systems to Sampled air be used in the world's most demanding applications and inlet from environments. network of pipes U Detection chamber /filter cartridge: ' i • 360 - degree light guide collector • Hundreds of times more sensitive than conventional smoke detectors ICAM by Xtralis instrument - quality optics are protected by a rugged, removable optical chamber and filter cartridge, enabling field serviceability in the dirtiest of environments. Understanding TIME. The image below shows the evolution of a fire on an overheating printed circuit board in a computer cabinet. The event progresses from releasing small invisible particles into a raging fire over a substantial period of time. The more time you have to react to an event, the less likely significant damage will occur, ensuring business continuity. The additional response time provided by early detection enables minor events to be investigated with minimal business disruption before fire can cause catastrophic loss. invisible smoke visible smoke raging fire IFT IFT ILS IAS Smoke Flame Sensor Extanguishant Alert Alarm Alarm Alarm Sensor Mann Release _ . /11! 1, Smoke density %/m -o i o.00 - Q9 10 -4.0 Typical time to fire >1 H 45 min Allat 10 min WhEn EvEry SEcond Counts When a fire strikes, very early warning high - sensitivity aspirating smoke detection (ASD) is the only solution for protecting personnel and property. The ICAM IFT ASD actively draws air from the protected area through a network of 25 mm (0.98 in) rigid sampling pipes perforated with sampling holes along their length. This pneumatic system is powered by a 2,000 Pa aspirator fan that functions in open, very high - airflow areas, air - conditioned environments and clean rooms. Other aspirating systems typically operate on a tenth of the ICAM IFT's suction, which renders them ineffective in more challenging and difficult applications. • 4 alarms - Alert, Action, ICAM IFT - 1, IFT - and Fire 1, Fire 2 IFT - 6 • Up to 100 m sampling pipe per • Single, four and six areas channel • High - sensitivity laser detection 0.001% to 20% obscuration /m • TCP /IP Ethernet interface • (0.0003% to 6% obs /ft) • Remote monitoring support • Modular, optional relay output units • Optional 4 -20 mA output module • Powerful 2,000 Pa fan • 24 VDC operation (standard) • RS232 and RS485 Modbus ,.• • With or without display • Logs up to 20,000 events • Optional output module • Unique field removable and serviceable optical chamber ICAM IFT - • Serviceable, two -stage particle • Small compact footprint filter • Up to 2,000 m (20,000 sq ft) •External for of protection harsh environments • 0.001% to 20% obscuration /m (0.0003% to 6% obs/ft) • Closed -loop in -line sampling air filters for • IP65 hazardous environments • 24 VDC operation • Absolute calibration of the detection chamber • Microprocessor controlled • Approvals: FM, UL, VdS, CFE, CE -EMC, LVD and CPD, EN54 -20 • moo When Exact Location is Crucial Standard aspirating systems are well known for their early warning capabilities. However, in certain applications, it is critical to precisely locate the source of the incident. Where the location is critical and a visual search is impossible to perform quickly, ICAM's unique addressable aspirating technology provides a powerful solution. The ICAM IFT -15 uses unique microbore technology that can monitor up to 15 individual, • addressable sampling points. Microbore sampling tubes are simple, flexible and unobtrusive to install, providing a very cost - effective solution for aspirating detection with the integrity of a continuous run of sampling tube. ICAM IFT - 15 • 6 mm (0.24 in) flexible aspirating pipe • Rapid scan of inlets with rotary selector valve • High- sensitivity laser detection ��d • 0.001% to 20% obscuration /m (0.0003% to 6.10% obs /ft) • • 15 pipes, 15 areas `,,•' , • 4 alarms - Alert, Action, Fire 1, Fire 2 per pipe ! l , •. . J • Powerful suction rotary vane vacuum pump ____ • Large, clear display panel and optional RDUs • TCP /IP Ethernet interface j � . ., • r • Remote monitoring support •• RS232 and RS485 Modbus III Optional 4 -20 mA output module and relay modules • • 24 VDC operation (standard) v5 u - - :.' , . i 1 1 ' t 4 . • F I II L • f.. i ii . ' . N Extending the Capability of Traditional Smoke Sensors Aspirating point detectors are highly effective where traditional smoke detection often fails. ICAM IAS systems are ideal for applications in harsh, dusty and inaccessible spaces, as well as those critical environments that do not warrant the expense of a • larger aspirating system. They also have been applied as unique 'As solutions in intrinsically safe environments. Key Features ICAM IAS - 1 and IAS - 2 • Single- and dual - channel in • Internal serviceable cartridge one enclosure air filter • Up to 2 x 100 m pipes • Powerful suction 250 Pa fan • IP65 enclosure • 24 VDC operation AS 3 • Adjustable airflow • VdS approved • Sensitive airflow monitoring • Double -knock suppression control Air is sampled from the protected area through one or two inlet pipes and then passed through an internal cartridge air filter to a single- or dual - channel controller. The sensors placed inside can be conventional or analogue smoke detectors, yours or ours (refer to the product guides for more information). Owners of exclusive residences highly value them for their discrete aesthetics and versatility. When the Going Gets Tough When increased sensitivity is added to the equation, the controller can be equipped with one or two laser detectors. Compared to the standard sensitivity of the traditional smoke sensor, 3 -6% obscuration /m (0.9 to 1.8% obs /ft), the laser point detectors have increased sensitivity of up to 0.06% obscuration /m (0.02% obs /ft). REmotE ACCESS and Networking 1 1 • Local and Remote Monitoring PC - ',, E ETHERNET _ .. pi l or,-,. ...., i, i' 1 41w, .........._ ......„..... Internet P f ICAM ASPIRE2 Plan and Design Your Application Response times and sensitivities for individual sampling points can be accurately modelled during the project planning stage with the ICAM ASPIRE2 pipe network design tool. Features i • • Graphical image of pipes with sample area coverage • Simple wizard for user inputs - • Modelling for capillaries and drop pipes - • Support for standard pipe fittings and ICAM accessories, ICAM ECO and Xtralis In -line Filter • Effective smoke sensitivities for all alarm thresholds for each sampling point • Response times for each sampling point Xtralis VSC Experience Powerful Diagnostics Xtralis VSC is a comprehensive on -site diagnostic tool for accessing all the internal settings and logged data within the ICAM IFT product range. Features • Intelligent management of ICAM devices – Configuration – Installation - - Commissioning – Maintenance — — -- • Fast device setup, fault resolution and event diagnostics • Off -line network configuration before the site visit • Comprehensive on -line and multi - language support Xtralis VSM4 Have the System at Your Fingertips Xtralis VSM4 is a powerful and user - friendly monitoring package. Features • Fully integrated floor plans • Status bar clearly displays the highest priority event • Logical tree view • Mouse -over hints • On -line help • Scalable windows • Multiple- monitor support • Text -to- Speech • E -mail notification 1111b,, • Corporate policy prompts Xtralis ProtEcts the ToughEst SitEs Around Unmanned Sites IT Rooms • Fully self- contained • Extremely high sensitivity • Additional environmental • Individual cabinet V � ; _ i • • parameters monitored identification , *•. • Web access • Unaffected by high air speeds � � ` • Warehouses +• • Pipes can be placed within Exclusive Residences, racking Apartments, Hotels, >i 1 r �, • Minimise maintenance costs Shops and Offices _ I t • • Access difficult areas that • Unobtrusive detection INN, normal detection cannot • monitor • Remote Web monitoring ......a` c + � s • i Y. 1 yr.w _ p � � I Utility Providers II ' Correctional Facilities .1 • Large area coverage and Detention Centres 2,000 m (20,000 sq ft) - • Tamper -proof air sampling • Central maintenance facilities — Transport _ Cold Stores Ideally suited to long ,.' _ • compartments) • No heated detector bases • Concealed detection r .,V � f. • V early waming • Automatic air pollution k;,.------. "', �! f • • Unaffected by high airflows compensation _ -Ns'. • Simple installation • Multiple sectors for carriage _ - l'r sets with integral cabs Mines • • Individual protection of high- Significant Religious voltage switchgear cabinets Buildings • HV cabinets bolted and not • Unobtrusive detection .S=tt opened easily • Earliest detection • PLC and control rooms I • Electrical substations - II Wind Turbines i - - " '' Historic Buildings/ • Smoke detection control J " Museums during emergency and " operational braking, i • • Discrete monitoring • Unaffected by arcing, •? . • Rapid response lightning and static electricity • Protection for valuable • Unaffected by air speeds , .,, / .• _ :, . _ , li i• P ` `+ assets within the generator' • 110 • Insensitive to environmental ■ conditions d www.xtralis.com The Americas +1 781 740 2223 Asia +852 2916 8894 Australia and New Zealand +61 3 9936 7000 ' Continental Europe +32 56 24 19 51 UK and the Middle East +44 1442 242 330 IcAm The contents of this document are prowled on an as s' basis No representation or warranty (either express or implied) is made as to the completeness. accuracy or reliability of the contents of this document. The manufacturer reserves the right to change designs or speptications without obligation and without further notice. Except as otherwise provided, all warranties. express or implied. including without limitation any implied warranties of merchantability and illness for a particular purpose are expressly excluded. This document includes registered and unregistered trademarks. All trademarks displayed are the trademarks of their respective owners. by i j xtra I is Your use of this document does not constitute or create a licence or any other right to use the name and/or trademark and /or label. This document is subject to copyright owned by Xtralis AG fXtralis3. You agree not to copy, communicate to the pudic, adapt, distribute, transfer, sell modify or publish any contents of this document without the express prior written consent of Xtralis. Doc. 14854_09 Xtralis ICAM IFT IFT -4 &IFT -6 Features • 4 or 6 pipe addressable air sampling �~ �.+.,...d. • 0.0003% to 6.10% obscuration /ft. (0.001% to 20% obscuration /m) • • 4 Alamis - Alert, Action, Fire 1, Fire 2 • 4 x328 ft. (4x 100 m) or 6 x 328 ft. (6 x 100 m) large bore sampling pipe • Enhanced performance aspirator • Ethernet TCP /IP • Modbus over RS232 and RS485 • 5 relay outputs and expandable The Xtralis ICAM IFT-4 and IFT -6 detectors are multi - channel large bore air - sampling rel • ay Optional module and 4 to 20 mA systems with an alarm sensitivity range from 0.0003% to 6.10% obscuration /ft. analog l el output module (0.001% to 20% obscuration /m). These detectors are classified as a Very Early Warning Smoke Detectors and can reliably detect fire at an early stage, and low to • Area coverage of up to 21,500 ft 2 high concentrations of smoke. As a multi - channel system, the IFT detector is able to (2,000 m divide a protected space into sampling sectors, enabling the localization of a fire for faster incident response. The detectors are configurable for a variety of environments, providing ideal fire Listings /Approvals detection solutions for power stations, telecommunications and IT facilities, clean FM • rooms, warehouses, cold storage, harsh and hazardous areas, historic buildings, museums, prison cells and technical cabinets. • UL • How it works vds • CFE The IFT detector draws a combined air sample from a network of large bore pipes • from all sectors in the protected area, then filters and analyzes the sample in a laser CE EMC, LVD and CPD detection chamber. When smoke particles are detected and the smoke level reaches • EN54 -20 a TRACE alarm threshold, the system will sequentially scan the sectors via the rotary Limits for IFT -4: valve to identify the sector, or sectors, with the smoke condition. Alarm states (Alert, Action, Fire 1 and Fire 2) are shown on the display, when fitted, and communicated to - Class A (20 holes / 0.05% obs /m) a hostrm control panel. - Class B (48 holes / 0.06% obs /m) Product Features - Class C (72 holes / 0.1% obs/m) Limits for IFT - 6: Programming and Configuration o - The four alarm levels are available for each channel and the sensitivity thresholds and Class A (30 holes / 0.05 /o obs /m) delays for each of these alarms can be individually programmed per sector. The IFT - Class B (72 holes / 0.06% obs /m) detectors provide an option with a simple and comprehensive display that includes an - Class C (72 holes / 0.08% obs /m) LED array to show the measured smoke level for the currently selected pipe, and an on -board programmer for local configuration. Classification of any configuration is determined using ASPIRE2. RS232, RS485 and TCP /IP communication interfaces are available to connect to Regional approvalsltstinys and regulatory co pliance vary Xtralis Configuration and Fire System Management software packages- Xtralis VSC between Xtralis ICAM rnalsk. and Xtralis VSM4. RS485 interfaces also allow connections to programming devices and remote displays, and the TCP /IP Ethernet interface can provide access to an email messaging service. 411h. Ni4 "go. I II •P'" /f°■ %r i m..rV ICAM` Xtr % ... c A IFT -4 &IFT -6 Inputs and Outputs Specifications The systems support a range of optional modules, which provide the detector with additional programmable output relay interfaces and 4 to 20 mA analog outputs. Supply Voltage: Nominal 24 VDC Aspiration and Flow Sensing The aspirator is a 2000 Pa high pressure and high volume fan, which provides Supply Current: superior detection times over long pipe lengths and reliable detection in high air flow 500 mA (min) to 1.2 A (max) environments. Airflow in each pipe is monitored by a dual element thermal sensing Aspirator: system, with airflow faults indicated on the display and to monitoring equipment. 2000 Pa Centrifugal air pump Dimensions (WHD): 19.3 in. x 14.0 in. x 7.9 in. (490 mm x 355 mm x 200 mm) Dimensions Operating Conditions: " Ambient: Note: Only the IFT -6 is shown below 32 to 103 °F (0 to 39 °C) azo.ao,°.m°.a oaogto.r. • Tested to: I � � I!1 � 14 to 131 °F ( -10 to 55 °C) ro / i► -1 Sampled Air: -4 to 140 °F ( -20 to 60 °C) 0 o ��it Humidity: ° j 1111 10 to 95 /° RH (non- condensing) / / Sampling Pipe Size: O O F. ■- Outer Diameter: 1 in. (25 mm) Sampling Network: .asap _ Sectors: 4 Fire sectors (IFT -4) 6 Fire sectors (IFT -6) Pipe Length: Ordering Information 4 x 328 ft. (4 x 100 m) for IFT -4 or 6 x 328 ft. (6 x 100 m) for IFT -6 IFT-4 24 VDC with Beacon and TCP /IP IFT-4T Alarm Sensitivity Range: IFT-4 24 VDC with Display and TCP /IP IFT -4DT 0.0003% to 6.10% obs /ft. IFT 24VDC with Beacon and TCP /IP IFT -6T (0.001% to 20% obs /m) IFT-6 24VDC with Display and TCP /IP IFT -6DT Alarm Settings: Alarm levels: Alert, Action, Fire 1 and Fire 2 4 Channel Relay Module' 01-E606-01 Individually programmable for each level 8 Channel Analog Output Module (4 to 20 mA)' 01 -E624 IP Rating: IP30 Filtration: Field exchangeable dual stage filter Flow Monitoring: Twin thermal element per input pipe Relay Outputs: 4 alarm relays. 1 fault relay, 1 Amp changeover Rating 1A@ 30 VDC, NO /NC Communication: RS232, RS485 Modbus Ethernet TCP /IP Notes: * Product UL listed for use from 1. Please contact your nearest Xtralis office for approvals status. 32 °F to 100 °F (0 °C to 38 °C) www.xtralis.com The Americas +1 781 740 2223 Asia +852 2916 8894 Australia and New Zealand +61 3 9936 7000 Europe, Middle East & Africa +44 1442 242 330 The contents of this document are provided on an 'as is' basis. No representation or warranty (enter express or implied) is made as to the x t ra il s - - completeness. accuracy or reliability of the contents of this document. The manufacturer reserves the right to change designs w spedficatrons vathout obligation and without further notice Except as otherwise provided. all warranties. express or implied, including without limitation any implied warranties of merchantability and !Mess fora particular purpose are expressly excluded. '��y This document includes registered and unregistered trademarks. All trademarks displayed are the trademarks of their respective owners. Your use of this document does not constitute or acate a licence or any other right to use the name and/or trademark and/or label. This document is subject to copyright owned by Xtralls AG ('Xtralis ). You agree not to copy, communicate to the public. adapt. distribute. transkr, sell, modify or publish any contents of this document without the express pent written consent of %trabs. Doc. no. 17536 06 Xtralis Modbus API Features • Enables integration of Xtralis IFT and VFT Series detectors' superior early warning smoke detection with existing building 1 0~ 0 • management systems and 0 0 ,:e4)0 — • monitoring devices 0�0� 0 0� o • Status, control and configuration v c, 0 0 message set 010 Benefits • Access rich detector data and control using a popular open protocol interface • Reduced requirement for What is an API? interface hardware 'API' is an abbreviation for Application Programming Interface. An API • Reduced installation and is a file or document that gives programmers the information they need maintenance costs to build interfaces between software applications. • Allows use of existing 3rd -party Development support for the Xtralis Modbus API monitoring network Modbus is a serial communications protocol that has become a de • Allows use of existing 3rd -party facto standard communications protocol in industry, and is now the central monitoring site software most commonly available means of connecting industrial electronic and staff devices. • Realize the full value of your The Xtralis Modbus API allows developers to integrate support for IFT or VFT smoke detector and the Modbus protocol in the Xtralis ICAM IFT and Xtralis VESDA VFT existing infrastructure detectors. This enables direct communication between these detectors Enhanced monitoring and control • and Building Management Systems (BMSs), Fire Alarm Control Panels support (FACPs) and other monitoring devices that support the Modbus protocol. • Maximum integration into Why use the Xtralis Modbus API? existing business processes A number of existing and potential customers install Xtralis fire protection systems to protect high value assets, minimise down -down and ensure business continuity. Some of these customers have invested largely in their existing monitoring systems such as BMSs and FACPs, and hence they need to utilize as much of their existing monitoring infrastructure as possible. Integrating with IFT and VFT detectors using the Modbus API offers a cost - effective solution for installations that require centralised monitoring and control using existing infrastructure that supports the Modbus protocol. 4p> xtralis. The sooner you know Xtralis Modbus API Open Rich Communications What information is provided? Access the following detector data: The Xtralis Modbus API will assist a qualified software engineer to • Firmware version and build number integrate the IFT or VFT detector • Alarm Status into their target application. It • • Current smoke level provides instructions regarding frame and packet format, timing, • Current flow level and protocol syntax. The complete • Detector state message set is described to enable • a programmer to develop the Fault Status and details communications interface. • Smoke Threshold levels Detector Compatibility Control the detector: The documented protocol is • Reset supported in the following detector • Disable builds: • Normalise • IFT -1, IFT IFT - IFT -8 (Builds • Set smoke thresholds 312 and above) • IFT -15 and VFT -15 (Builds 314 and above) Additional Information • IFT - P (Builds 315 and above) It is not possible to use remote displays on a system in which the Modbus protocol has been implemented over the RS-485 bus. The 3rd party equipment shall implement access control. This is because Modbus commands such as Reset, Disable and Set Smoke Thresholds should only be executed by authorized users. Ordering Information How can I get it? To receive the Xtralis Modbus API, please contact your local Xtralis office and ask if you are eligible. You will be required to sign a license agreement to access this information. Your local Xtralis office can provide consultation and development assistance if required. More advanced alternative If you want to maximize the benefits of remote monitoring and control of your Xtralis fire system, our Xtralis VSM4 software package will meet your needs. Ask your local Xtralis representative for more information. • www.xtralis.com The Americas +1 781 740 2223 Asia +852 2297 2438 Australia and New Zealand +61 3 9936 7000 Continental Europe +41 55 285 99 99 UK and the Middle East +44 1442 242 330 , The contents of this document are prowled on en 'as is basis. No representation or warranty (erther express or implied) a made as to the congtetresa, acac tr rttf r* ot Ic ncept V:171 document The manufacturer reserves the ngld to cha des or spas ny ra l i wMOUt waw ac an w MOre thither noose co Except o purpose a r all w arranties, e or Implied inncludx ut r spec an implied warranties of rrorthantability and moos, for a particular purpose are expressly excluded. ■ This document includes registered and unregistered trademarks All trademarks displayed are the trademarks of their rasp five owners The sooner you know Your use of this document does not consteute or create a licence or any other rgm to use Ore name and/or trademark and/or label This document is sub/ed to copyright owned by Xtralis AG ('Xtralis'). You agree not to copy communicate to the public. adapt distnbute transfer . seH, modify or publish any contents of this document without the express poor written consent of Xtralis Doc no 1714700 Part 29441 ASPIRE2 Installation Data Pack fil e: / / /C: /Documents and Settings /All Users /Application Data/Xtralis /Asp... • xtra m=. 114. seep.. tau Installation Data Pack for Sterling Communications Pipe Type Asiapac Date 7/19/11 Installer CCC Calculated By Larry Crawford Units US Altitude 120' Designed with Hole Sizes 0;1/8" Detector : Scanner #1 Flow Calculations found there were problems with this detector. Check below for errors (marked with ! ?) or warnings (marked !). Type VESDA VLS Endcap Usage Create a Balanced Design Application Default Aspirator Speed 3840rpm Temperature 68.0 °F Absolute Pressure 1009.1hPa System Flowrate 109.31 /min Manifold Pressure 92Pa Total Pipe Length 177' Number Of Sample Points 36 Maximum Transport Time 16 Minimum Hole Flow Rate 2.01 /min Inverted Detector No Fire Threshold 0.030 % /ft Balance Data Group name (Aggregate Sensitivity 'Balance Suction pressure (least) Endcap Sensitivity Factor I[Defauf Group] 10.030 % /ft I? 60% 127Pa 10.0 1 of 5 7/19/2011 8:06 PM ASPIRE2 Installation Data Pack file: / / /C:/Documents and Settings /All Users /Application Data/Xtralis/Asp... Pipe:Pipe A Total Pipe Length 69' 6" Ambient Pressure OPa Sector Pressure 92Pa Number Of Sample Points 12 Pipe Flowrate 29.28min Sector Factor 1.0 Section1 • Pipe Diameter 0.750in Distance Relative Direction Hole Capillary Transport Pressure Flow Flow Hole Diameter Capillary Intersection Diameter Length Time % Sensitivity Diameter Pressure S - ft ft In ft sec Pa Yrnin %/ft in in Pa r-I Bend 3 ' 6 "I 3'6"1 i i —I—I -I -1 -I -I -i - r=I Bend 9'6 „ 1 6 BI - - -1 -1.1 - [ 1 Bend( 31'6 "I 22 ^ F.---r---1 -i - I — J I - 5 Hole 52 ' 6 ' I 2 1 ' i— 118" — 8 42 27 Till 1 0 r l— Fir—Hole ( 54' 1 1' 6 "1 ---7 1/8 " 40 2.7 2.4 1.227 F-0.75-61--=1 - 51 Hole 55' 8" 1' 6" I - 1/8” r - -I 9 3 26 4l 1.253 0.750 J) - F1 Bend 56' !1FJ 1 —i —i - r -1 - F Hole F 57'6 "I 1'6 "I -I 1'6"1 -l16 2 .5 2.3 1.302 0.750 11 16 Hole 59 T 1/ ri - i I 25 2.3 1 .328 0. 181 Hole 60'8" 1 '6 "I -1 1!6" - 10 3 24 2.2 1.355 0.7501-1 - 1 7 7 Hole 2 16"! — - 1 /8"r - 7 10 32 2.4 2.2 1.3 0.750 1 — - -- r- B 8 6 "I L I1 ----T F -- 7l— I T - 1 — I M 18 Hole 1 64' 1 6 " I— t/ 8" - 11 23 2.1 1.417 0 .75 0 r - 5i Hole 6 5' 6" 1' 6 "1 - /8 "I— 1 2 29 2.3 2.1 I 1.441 0.7501 - 10 p HI - le 6 1'6 " r 78 "I 13 28 22 2.1I 1.483 0. -I - 11 Hole 68' 6" 1' 6 r —1 1/81 - 141 27 22 2.D 1.484 0.750 1 - 12 I Endcap 1 69' 6" jII - 1/8.11 161 27 2.3 2.1 1.415 0. 750 r - -I— 2 of 5 7/19/2011 8:06 PM ASPIRE2 Installation Data Pack file:///C:/Documents and Settings /All Users /Application Data/Xtralis/Asp... Pipe:Pipe B Total Pipe Length 44' 2" Ambient Pressure OPa Sector Pressure 92Pa Number Of Sample Points 8 Pipe Flowrate 25.71/min Sector Factor 1.0 Section1 . Pipe Diameter 0.750in Distance Relative Direction Hole Capillary ransport Pressure Flow Flow Hole Diameter Capillary Intersection Diameter Length Time % Sensitivity Diameter Pressure 1Y - ft ft in ft sec Pa IM n %/f in in Pa ri Bend! 3'4" 3'4 "I LI -I -f I— -I -I—I - FT- Bend! 9'2' ° 10 "—I—i 31 ' -1 -1 - 1 -----7 - I�'i Bend 31'T' I 2 I ^— l—PI—rr — - - F Hole! 32 2" I 1'I— 1/8" r -1 8I 64 { - IZ I Hole! 33' 8" 1' 6 "! - - 1/8"I -I 6 6 2 3 .3 3.0 0.992 0.750! - - IJ Hole 35'2" 1'6 "T 1, 6" 1 71 60 3.3 3.OI 1.006 0 - - - R4 Hole 3 6' 8" 1' 6 " — 1/8"! - -17 5 9! 3.21 29 1 0 - - - IS Hole I 38' 2' 1' 6 " 1— 118"! - -I 8 57 3.2 2.9I 1.031 0.750 - - I6 I Hole 39'8" 6 "! - - 1/8" - 81 5 6 3.1 2.9 1.042! 0.750i - - ft! Hole! 41' 2' 1'671 - - 1/8"i -i 9i 1 2.9 . 35i 1 -75:9 I - 18 Hole 42' 8" i'6 "! 116" 12 !— 54 3.1 2. i [ � 1.062 0.750 ! - - Iii Endcap! 44'2" 1'8 " !I 0 ! - - 1 — r H - 0 - 3 of 5 7/19/2011 8:06 PM ASPIRE2 Installation Data Pack file: / / /C: /Documents and Settings /All Users /Application Data/Xtralis /Asp... Pipe:Pipe C Total Pipe Length 36' 10" Ambient Pressure OPa Sector Pressure 92Pa Number Of Sample Points 8 Pipe Flowrate 26.61/min . Sector Factor 1 0 Section1 • Pipe Diameter 0.750in Distance Relative Direction Hole Capillary Transport Pressure Flow Flow Hole Diameter Capillary Intersection Diameter Length Time % Sensitivity Diameter Pressure * - ft ft in ft sec Pa Ihnin %/ft in in Pa (- Bend 3 , z , 3 , 2„ L r - Bend 8'10" 5 8 „ g - - - 1 - 1—=1—= - - - - 1- Bend 23'10" 15' R - - - -1 - - - - r1 Hole 24' 10" 1' - 1/8" - 5 68 3.5 3.2 0.946 0.750 - - I2 Hole 26' 4" 1' 6" - 1/8" - 5 66r 0.959 0.750 - - Iii Hole 27'10°1 1' 6" - 1/8" - 6 64 3.4 3.1 0.972 0.750 - - I' Hole 29' 4" 1' 6" - 1/8" - 61 63 3.3 3.0 0.984 0.750 - - 11 Hole 30' 10" 1' 6" - 1 /8" - 7I 61 3.31 3.0 0.996 0.750 - - - Is Hole 32' 4" 1' 6" 1/8" - 7 60 3.3 3. 0 1.006 0.750 - - I ` Hole 33' 10" 1' 6" - 1/8" - 81 59 3.2 3 .0 1.016 0.750 - - r Hole 35' 4" 1' 6" - 1 /8" - 10 58 3.2 2.9 1.024 0.750 - - III Endcap 36'10"1 1'6 "1 - I 0 -1 -I -111 -I 0.7501 -1 - • 4 of 5 7/19/2011 8:06 PM ASPIRE2 Installation Data Pack file: / / /C:/Documents and Settings /All Users /Application Data/Xtralis /Asp... Pipe:Pipe D Total Pipe Length 26' 6" Ambient Pressure OPa Sector Pressure 92Pa Number Of Sample Points 8 Pipe Flowrate 27.91/min r Sector Factor 1.0 Section1 . Pipe Diameter 0.750in Distance Relative Direction Hole Capillary Transport Pressure Flow Flow Hole Diameter Capillary Intersection D iamete r L ength Tame % Se nsitiv ity Di ameter P ressure 1; - ft ft in ft sec Pa Ilmin %/It In in Pa F 1 Bend 3I 9I LI -1 -I -i -[T -E - Fl Bend! 8' 6" 5 6 5 6! B I - - - I 1 - I—1 ! - Bend 13' 8" I J R 1 -7 1 -7 1 - 1 ---- 1 --: 11 -- ! - !1 ! Hols 1 4 ' I ! - 1/ri - 4 75 3.6 1 .-- 1 -- 37 - 3 - .3! 0.903 0.750— - !2 Hole 16' 1' 6' ! 1/ - "r -1■t 73 3.6 3.3 0.915 0.7501 - ii Hole( 17'6" 1'6 "i - 1/8"l —! 4 71 3.5 3.2 0.928 0 .75 0 I• Hole 19' 1'6 "r— 1/ i — I 5r - 8 9 I 3.51 3.2 0.937 0.750 - I6I Hole 20' 6 1 ' 6" r - - 1/r -F - - I 3.5 3i 0.948 00 r - - - Ig Hole1 1 1'8 " - - 1/ 8"i-1 6 ! 66 3.41 3.1 0 F 0. - [ ! Hole 23' 6" 1"1 - - 8"! -1 3.4 3.1 I 0.966 0 r - I8 Hole 2 5' 1' 6" 1 /8" - 9 !— 6 4 3.4 3.1 0.974 0.750 1 — - !s En 26' 6 ! -!I - —I r —l -7 1 ----7 0. r - +1 r i► .! ass,. • 5 of 7/19/2011 8:06 PM ASPIRE2 Bill Of Materials file: / / /C: /Documents and Settings /All Users/Application Data/Xtralis /Asp... �r x e IQ. Bill Of Materials ► Name Sterling Communications Address Contact Installer CCC Date 7/19/11 1 of2 7/19/2011 7:41 PM A SPIRE2 Bill Of Materials file: / / /C: /Documents and Settings /All Users /Application Data/Xtralis /Asp... Detector : Scanner #1 Part Id Description Quantity 1 Sample Pipe Generic Sample Pipe: 0.75 in diameter 179 ft 2 End Cap Generic End Cap: 0.75 in diameter 4 3 E700 -PC Pipe Clip single point fix 90 4 VLS -200 VESDA VLS 1 5 E7OO -SP- Pipe Label 36 DCL -PIPE 6 Bend 90.0 degree Generic Bend: 0.75 in diameter 14 7 E70O -PJ Coupling 32 r xtralis. knew 2of2 7/19/2011 7:41 PM