Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
FIRE ALARM PRODUCT INFO - 21-00047 - Madison Memorial Hospital - BHU Remodel
1823 East Center Street Pocatello, Idaho 83201 (208) 232-4439 Fax (208) 232-1435 FIRE ALARM SUBMITTAL REVIEW Project: MMH – Behavior Health TI Payne Project No.: 2067 Date: 03/23/21 Comments 1. Provide Acceptance Letter from local AHJ approving shop drawings. 2. Ceiling mounted notification device color shall match color of existing ceiling notification devices in the existing Hospital. 3. Contractor submitted on Horn/Strobe notification devices, typically Hospitals utilized Chime/Strobe. Contractor shall field verify and match notification devices utilized in the existing Hospital. Shawn Meador 3/23/21 PROVIDE CHIME / STROBE, BAM JRWA 3/24/21 SIMPLEX 2099 SINGLE ACTION WITH INSTITUTIONAL COVER, KEY OPERATED ONLY BAM, JRWA 3/24/21 Features Individually addressable manual fire alarm stations with: Power and data supplied via IDNet or MAPNET II addressable communications using a single wire pair Operation that complies with ADA requirements Visible LED indicator that flashes during communications and is on steady when the station has been activated The NO GRIP Single Action Station and Retrofit Kit are available with a more easily operated pull lever for applications where anticipated users may find the standard station lever difficult to activate Pull lever that protrudes when alarmed Break-rod supplied (use is optional) Models are available with single or double action (breakglass or push) operation UL listed to Standard 38 Compatible with the following Simplex® control panels: Model Series 4007ES, 4008, 4010, 4010ES, 4100ES, 4100U, 4020, 4100, and 4120 fire alarm control panels equipped with either IDNet or MAPNET II communications Model Series 2120 Communicating Device Transponders (CDTs) equipped with MAPNET II communications Compact construction: Electronics module enclosure minimizes dust infiltration Allows mounting in standard electrical boxes Screw terminals for wiring connections Tamper resistant reset key lock (keyed same as Simplex fire alarm cabinets) Multiple mounting options: Surface or semi-flush with standard boxes or matching Simplex boxes Flush mount adapter kit Adapters are available for retrofitting to commonly available existing boxes Description The Simplex addressable manual station combines the familiar Simplex manual station housing with a compact communication module that is easily installed to satisfy demanding applications. Its integral individual addressable module (IAM) constantly monitors status and communicates changes to the connected control panel via IDNet or MAPNET II communications wiring. * Refer to page 2 for specific model listings. This product has been approved by the California State Fire Marshal (CSFM) pursuant to Section 13144.1 of the California Health and Safety Code. See CSFM Listing 7150-0026:224 for allowable values and/or conditions concerning material presented in this document. Additional listings may be applicable; contact your local Simplex product supplier for the latest status. Listings and approvals under Simplex Time Recorder Co. are the property of Tyco Fire Protection Products. 4099-9004 Single action 4099-9021 NO GRIP Single action 4099-9805 NO GRIP Retrofit kit ALARMFIRE PULL DOWN PUSH ALARMFIRE KEY OPERATED ONLY ALARMFIRE KEY OPERATED ONLY 4099-9005 Breakglass 4099-9006 Push With 2099-9828 Institutional Cover kit Operation Activation of the 4099-9004 single action manual station requires a firm downward pull to activate the alarm switch. Completing the action breaks an internal plastic break-rod (visible below the pull lever, use is optional). The use of a break-rod can be a deterrent to vandalism without interfering with the minimum pull requirements needed for easy activation. The pull lever latches into the alarm position and remains extended out of the housing to provide a visible indication. Single Action NO GRIP Station 4099-9021. For applications such as California Building Code, Title 24, which requires “Controls and operating mechanisms shall be operable with one hand and shall not require tight grasping, pinching or twisting of the wrist” the model 4099-9021 station provides a more easily operated pull lever compared to standard stations. Retrofit of existing stations is available using the 4099-9805 Retrofit kit. Double Action Stations (Breakglass) require the operator to strike the front mounted hammer to break the glass and expose the recessed pull lever. The pull lever then operates as a single action station. Double Action Stations (Push Type) require that a spring loaded interference plate (marked PUSH) be pushed back to access the pull lever of the single action station. Station reset requires the use of a key to reset the manual station lever and deactivate the alarm switch. (If the break- rod is used, it must be replaced.) Station testing is performed by physical activation of the pull lever. Electrical testing can be also performed by unlocking the station housing to activate the alarm switch. Multi-Application Peripherals UL, ULC, CSFM Listed; IDNet or MAPNET II Communicating Devices FM Approved * Addressable Manual Stations S4099-0005 10/2014 2 S4099-0005 10/2014 Addressable Manual Stations, Red Housing with White Letters and White Pull Lever Model Description Housing Pull Lever Listings 4099-9004 Single Action, English FIRE ALARM PULL DOWN UL, ULC, FM, CSFM 4099-9004CB Single Action, Bilingual English and French FEU FIRE TIREZ PULL ULC 4099-9004CF Single Action, French ALARME FEU ABAISSEZ 4099-9004PO Single Action, Portuguese FOGO ALARME PUXE UL, FM 4099-9004SP Single Action, Spanish ALARMA FUEGO JALE 4099-9005 Double Action, Breakglass operation, English FIRE ALARM PULL DOWN UL, ULC, FM, CSFM 4099-9005PO Double Action, Breakglass operation, Portuguese FOGO ALARME PUXE UL, FM 4099-9005SP Double Action, Breakglass operation, Spanish ALARMA FUEGO JALE 4099-9006 Double Action, Push operation, English FIRE ALARM PUSH PULL DOWN UL, ULC, FM, CSFM 4099-9006PO Double Action, Push operation, Portuguese FOGO ALARME EMPURRE PUXE UL, FM 4099-9006SP Double Action, Push operation, Spanish ALARMA FUEGO EMPUJE JALE 4099-9021 Single Action NO GRIP operation, English FIRE ALARM PULL DOWN UL, ULC, FM, CSFM Accessories (refer to pages 3 and 4 for details) Model Description Model Description 2975-9022 Cast aluminum surface mount box, red 2099-9803 Replacement breakglass 2975-9178 Surface mount steel box, red 2099-9804 Replacement break-rod 2099-9813 Semi-flush trim plate for double gang switch box, red 2099-9828 Institutional cover kit for field installation on 4099-9004; Note: Covers LED indicator 2099-9819 Flush mount adapter kit, black 2099-9814 Surface trim plate for Wiremold box V5744-2, red 2099-9820 Flush mount adapter kit, beige 4099-9805 Retrofit Kit for field conversion of a single action station to a NO GRIP station; refer to Installation Instructions 579-1007 for details Power and Communications IDNet or MAPNET II communications, 1 address per station Address Means DIP switch, 8 position Wire Connections Screw terminal for in/out wiring, for 18 to 14 AWG wire (0.82 mm2 to 2.08 mm2) UL Listed Temperature Range 32° to 120° F (0° to 49° C) intended for indoor operation Humidity Range Up to 93% RH at 100° F (38° F) Housing Color Red with white raised lettering Material Housing and pull lever are Lexan polycarbonate or equal Pull Lever Color White with red raised lettering Housing Dimensions 5” H x 3 ¾” W x 1” D (127 mm x 95 mm x 25 mm) Single gang cover plate, 3/4" (19 mm) extension, RACO #773 or equal (supplied by others) Station side view Wall surface Single gang box outline 4" Square box with cover plate Semi-Flush Mount Side View Single Gang Box Mount Single gang box, 2 1/2" deep (64 mm), RACO #500 or equal (supplied by others) Mount flush or with 1/16" (2 mm) maximum extension DO NOT RECESS ALARMFIRE PULL DOWN LED Indicator 4" Square Box Mount 4" (102 mm) square box, 2 1/8" (54 mm) minimum depth, RACO #231 or equal (supplied by others) Addressable Manual Station Semi-Flush Mounting Specifications (refer to Installation Instructions 579-1135 for additional information) Addressable Manual Station Product Selection Preferred Mounting. For surface mounting of these addressable manual stations, the preferred electrical boxes are shown in the illustration to the right. Additional Mounting Reference. Refer to page 4 for Wiremold box mounting compatibility. 3 S4099-0005 10/2014 Application Reference Refer to NFPA 72, the National Fire Alarm and Signaling Code, and all applicable local codes for complete requirements for manual stations. The following summarizes the basic requirements. 1. Stations shall be located in the normal path of exit and distributed in the protected area such that they are unobstructed and readily accessible. 2. Mounting shall be with the operable part not less than 42 in (1.07 m) and not more than 48 in (1.22 m) above floor level. 3. At least one station shall be provided on each floor. Additional stations shall be provided to obtain a travel distance not more than 200 ft (61 m) to the nearest station from any point in the building. 4. When manual station coverage appears limited in any way, additional stations should be installed. 2975-9178 Box 5-3/16" H x 4" W x 2-3/16" D (132 mm x 102 mm x 56 mm) (ordered separately) Knockouts located top and bottom 2975-9022 Cast Box 5" H x 3-7/8" W x 2-3/16" D (127 mm x 98 mm x 56 mm) (ordered separately) Access for 3/4" threaded conduit located top and bottom5" (127 mm) FIR E ALARMFIRE PULL DOWN 4099 Series Addressable Manual Station 1" (25.4 mm) 3-3/4" (95 mm) Station cover hinges open for installation access Simplex 2975-9178 box (shown for reference) Address setting under resealable label (accessible with cover open) Switch wiring (prewired) Field wiring (shown for reference) 1-1/4" (32 mm) 2-5/8" (67 mm) Addressable Manual Stations Surface Mounting Surface Mount Side View with Internal Detail For retrofit and new installations, additional compatible mounting boxes and the required adapter plates are shown in the illustration to the right. TYCO, SIMPLEX, and the product names listed in this material are marks and/or registered marks. Unauthorized use is strictly prohibited. NFPA 72 and National Fire Alarm and Signaling Code are trademarks of the National Fire Protection Association (NFPA). Lexan is a trademark of the General Electric Co. Wiremold is a trademark of the Wiremold Company. 8" (203 mm) 6" (152 mm) 4-3/4" (121 mm) 6-3/4" (171 mm) Front View Flush mount adapter kit 2099-9819, Black 2099-9820, Beige Wall surface 4-11/16" (119 mm) square box, 2-1/8" (54 mm) minimum depth (by others) Side View Box must be recessed into wall 1" to 1-1/8" (25.4 mm to 29 mm) Hole cutout must be a minimum of 6" H by 5" W (152 mm by 127 mm) 2099-9814 Surface trim for Wiremold box 5-1/8" H x 5" W (130 mm x 127 mm) Addressable station Two gang switch box, each 3" H x 2" W x 2-3/4" D (76 mm x 51 mm x 70 mm) (supplied by others) 2099-9813 Semi-flush trim for 2 gang switch box, 6" H x 4-1/2" W (152 mm x 114 mm) Wiremold receptacle box model V5744-2 (supplied by others) Tyco Fire Protection Products • Westminster, MA • 01441-0001 • USA S4099-0005 10/2014 www.simplex-fire.com © 2014 Tyco Fire Protection Products. All rights reserved. All specifications and other information shown were current as of document revision date and are subject to change without notice. Addressable Manual Station, Additional Mounting Information Addressable Manual Station, Flush Mounting Information Features TrueAlarm analog sensing provides: Digital transmission of analog sensor values via IDNet or MAPNET II two-wire communications For use with the following Simplex® products: 4100ES, 4100U, 4010ES, and 4010 Series control panels; and 4008 Series control panels with reduced feature set (refer to data sheet S4008-0001 for details) 4020, 4100, and 4120 Series control panels, Universal Transponders, and 2120 TrueAlarm CDTs equipped for MAPNET II operation Fire alarm control panel provides: Peak value logging allowing accurate analysis of each sensor for individual sensitivity selection Sensitivity monitoring satisfying NFPA 72 sensitivity testing requirements; automatic individual sensor calibration check verifies sensor integrity Automatic environmental compensation, multi-stage alarm operation, and display of sensitivity directly in percent per foot Ability to display and print detailed sensor information in plain English language Photoelectric smoke sensors provide: Seven levels of sensitivity from 0.2% to 3.7% (refer to additional information on page 3) Heat sensors provide: Fixed temperature sensing Rate-of-rise temperature sensing Utility temperature sensing Listed to UL 521 and ULC-S530 General features: Listed to UL 268 and ULC-S529 Louvered smoke sensor design enhances smoke capture by directing flow to chamber; entrance areas are minimally visible when ceiling mounted Designed for EMI compatibility Magnetic test feature is provided Optional accessories include remote LED alarm indicator and output relays Additional base reference: For isolator bases, refer to data sheet S4098-0025 For sounder bases, refer to data sheet S4098-0028 For photo/heat sensors, refer to data sheet S4098-0024 (single address) and S4098-0033 (dual address) * These products have been approved by the California State Fire Marshal (CSFM) pursuant to Section 13144.1 of the California Health and Safety Code. See CSFM Listings 7272-0026:218, 7271-0026:231, 7270-0026:216, and 7300-0026:217 for allowable values and/or conditions concerning material presented in this document. Accepted for use – City of New York Department of Buildings – MEA35-93E. Additional listings may be applicable, contact your local Simplex product supplier for the latest status. Listings and approvals under Simplex Time Recorder Co. are the property of Tyco Fire Protection Products. 4098-9714 TrueAlarm Photoelectric Sensor Mounted in Base Description Digital Communication of Analog Sensing. TrueAlarm analog sensors provide an analog measurement digitally communicated to the host control panel using Simplex addressable communications. At the control panel, the data is analyzed and an average value is determined and stored. An alarm or other abnormal condition is determined by comparing the sensor’s present value against its average value and time. Intelligent Data Evaluation. Monitoring each sensor’s average value provides a continuously shifting reference point. This software filtering process compensates for environmental factors (dust, dirt, etc.) and component aging, providing an accurate reference for evaluating new activity. With this filtering, there is a significant reduction in the probability of false or nuisance alarms caused by shifts in sensitivity, either up or down. Control Panel Selection. Peak activity per sensor is stored to assist in evaluating specific locations. The alarm set point for each TrueAlarm sensor is determined at the host control panel, selectable as more or less sensitive as the individual application requires. Timed/Multi-Stage Selection. Sensor alarm set points can be programmed for timed automatic sensitivity selection (such as more sensitive at night, less sensitive during day). Control panel programming can also provide multi-stage operation per sensor. For example, a 0.2% level may cause a warning to prompt investigation while a 2.5% level may initiate an alarm. Sensor Alarm and Trouble LED Indication. Each sensor base’s LED pulses to indicate communications with the panel. If the control panel determines a sensor is in alarm, or is dirty or has some other type of trouble, the details are annunciated at the control panel and that sensor base’s LED will be turned on steadily. During a system alarm, the control panel will control the LEDs such that an LED indicating a trouble will return to pulsing to help identify the alarmed sensors. TrueAlarm Analog Sensing UL, ULC, CSFM Listed; FM Approved; TrueAlarm Analog Sensors – Photoelectric MEA (NYC) Acceptance* and Heat; Standard Bases and Accessories S4098-0019-16 10/2013 Sensor Base Features Base mounted address selection: Address remains with its programmed location Accessible from front (DIP switch under sensor) General features: Automatic identification provides default sensitivity when substituting sensor types Integral red LED for power-on (pulsing), or alarm or trouble (steady on) Locking anti-tamper design mounts on standard outlet box Magnetically operated functional test Sensor Bases 4098-9792, Standard sensor base 4098-9789, Sensor base with wired connections for: 2098-9808 Remote LED alarm indicator or 4098-9822 relay (unsupervised) 4098-9791, Sensor base with supervised relay driver output (not compatible with 2120 CDT): Relay operation is programmable and can be manually operated from control panel Use with remote mount 2098-9737 relay Also includes wired connections for remote LED alarm indicator or 4098-9822 relay Sensor Base Options 2098-9737, Remote or local mount supervised relay: DPDT contacts for resistive/suppressed loads, power limited rating of 3 A @ 28 VDC; non-power limited rating of 3 A @ 120 VAC (requires external 24 VDC coil power) 4098-9822, LED Annunciation Relay: Activates when base LED is on steady, indicating local alarm or trouble DPDT contacts for resistive/suppressed loads, power limited rating of 2 A @ 28 VDC; non-power limited rating of 1/2 A @ 120 VAC, (requires external 24 VDC coil power) 4098-9832, Adapter plate: Required for surface or semi-flush mounting to 4” square electrical box and for surface mounting to 4” octagonal box Can be used for cosmetic retrofitting to existing 6-3/8” diameter base product 2098-9808, Remote red LED Alarm Indicator: Mounts on single gang box (shown in illustration to right) Description TrueAlarm sensor bases contain integral addressable electronics that constantly monitor the status of the detachable photoelectric or heat sensors. Each sensor’s output is digitized and transmitted to the system fire alarm control panel every four seconds. Since TrueAlarm sensors use the same base, different sensor types can be easily interchanged to meet specific location requirements. This feature also allows intentional sensor substitution during building construction. When conditions are temporarily dusty, instead of covering the smoke sensors (causing them to be disabled), heat sensors may be installed without reprogramming the control panel. Although the control panel will indicate an incorrect sensor type, the heat sensor will operate at a default sensitivity providing heat detection for building protection at that location. Mounting Reference Electrical Box Requirements: (boxes are by others) Without relay: 4" octagonal or 4" square, 1-1/2" deep; single gang, 2" deep With relay : 4" octagonal or 4" square, 1-1/2" deep, with 1-1/2" extension ring TrueAlarm Bases 4098-9789, -9791, & -9792 4-7/8" (124 mm) 15/16" (24 mm) 6-3/8" (162 mm) 1/4" (6.4 mm) 4098-9832 Adapter Plate, required for mounting to surface mounted boxes and 4" square flush box Surface mount reference 4" (102 mm) Square Box 4" (102 mm) Octagonal Box Flush mount reference, mount even with final surface, or with up to 1/4" (6.4 mm) maximum recess 2098-9737 Relay (mounts in base electrical box or remotely) 4098-9822 Relay (mounts in base electrical box) Relay Size: 2-1/2" X 1-1/2" X 1" (3.75 cubic inches) (64 mm X 38 mm X 25.4 mm) NOTE: Review total wire count, wire size, and accessories being wired to determine required box volume. 1-1/2" (38 mm) minimum box depth 2 S4098-0019-16 10/2013 TrueAlarm Sensor Bases and Accessories ALARM TrueAlarm Sensors Features Sealed against rear air flow entry Interchangeable mounting EMI/RFI shielded electronics Heat sensors: Selectable rate compensated, fixed temperature sensing with or without rate-of-rise operation Rated spacing distance between sensors: Fixed Temp. Setting UL & ULC Spacing FM Spacing, Either Fixed Temperature Setting 135° F (57.2° C) 60 ft x 60 ft (18.3 m) 20 ft x 20 ft (6.1 m) for fixed temperature only; RTI = Quick 50 ft x 50 ft (15.2 m) for fixed temperature with either rate-of-rise selection; RTI = Ultra Fast 155° F (68° C) 40 ft x 40 ft (12.2 m) Smoke Sensors: Photoelectric technology sensing 360° smoke entry for optimum response Built-in insect screens 4098-9714 Photoelectric Sensor TrueAlarm photoelectric sensors use a stable, pulsed infrared LED light source and a silicon photodiode receiver to provide consistent and accurate low power smoke sensing. Seven levels of sensitivity are available for each individual sensor, ranging from 0.2% to 3.7% per foot of smoke obscuration. Sensitivities of 0.2%, 0.5%, and 1% are for special applications in clean areas. Standard sensitivities are 1.5%, 2.0%, 2.5%, and 3.7%. Sensitivity is selected and monitored at the fire alarm control panel.* The sensor head design provides 360° smoke entry for optimum response to smoke from any direction. Due to its photoelectric operation, air velocity is not normally a factor, except for impact on area smoke flow. 2-1/8" (54 mm) LED status indicator 4-7/8" (124 mm) 4098-9714 Photoelectric Sensor with Base 4098-9733 Heat Sensor TrueAlarm heat sensors are self-restoring and provide rate compensated, fixed temperature sensing, selectable with or without rate-of-rise temperature sensing. Due to its small thermal mass, the sensor accurately and quickly measures the local temperature for analysis at the fire alarm control panel. Rate-of-rise temperature detection is selectable at the control panel for either 15° F (8.3° C) or 20° F (11.1° C) per minute. Fixed temperature sensing is independent of rate-of-rise sensing and programmable to operate at 135° F (57.2° C) or 155° F (68° C). In a slow developing fire, the temperature may not increase rapidly enough to operate the rate-of-rise feature. However, an alarm will be initiated when the temperature reaches its rated fixed temperature setting. TrueAlarm heat sensors can be programmed as a utility device to monitor for temperature extremes in the range from 32° F to 155° F (0° C to 68° C). This feature can provide freeze warnings or alert to HVAC system problems. Refer to specific panels for availability. 2-3/8" (60 mm) LED status indicator 4-7/8" (124 mm) 4098-9733 Heat Sensor with Base WARNING: In most fires, hazardous levels of smoke and toxic gas can build up before a heat detection device would initiate an alarm. In cases where Life Safety is a factor, the use of smoke detection is highly recommended. Application Reference Sensor locations should be determined only after careful consideration of the physical layout and contents of the area to be protected. Refer to NFPA 72, the National Fire Alarm and Signaling Code. On smooth ceilings, smoke sensor spacing of 30 ft (9.1 m) may be used as a guide.* * For detailed application information including sensitivity selection, refer to Installation Instructions 574-709. 3 S4098-0019-16 10/2013 TrueAlarm Sensor Bases (Refer to Application Manual 574-709 and Installation Instructions 574-707 for additional information) Model Description Compatibility Mounting Requirements 4098-9792 Standard Sensor Base, no options Sensors 4098-9714 and 4098-9733 4” octagonal or 4” square box, 1-1/2” min. depth; or single gang box, 2” min. depth 4098-9789 Sensor Base with connections for Remote LED Alarm Indicator or Unsupervised Relay Sensors 4098-9714 and 4098-9733 4” octagonal or 4” square box Note: Box depth requirements depend on total wire count and wire size, refer to accessories list below for reference. ** NOTE: 4098-9791 is NOT compatible with the 2120 CDT 2098-9808 remote LED alarm indicator or 4098-9822 relay 4098-9791** Sensor Base with connections for Supervised Remote Relay and connections for Remote Alarm Indicator or Unsupervised Relay Sensors 4098-9714 and 4098-9733 2098-9737 remote relay (supervised) 2098-9808 remote alarm indicator or 4098-9822 relay (unsupervised) TrueAlarm Sensors Model Description Compatibility Mounting Requirements 4098-9714 Photoelectric Smoke Sensor Bases 4098-9792, 4098-9789, and 4098-9791 Refer to base requirements 4098-9733 Heat Sensor TrueAlarm Sensor/Base Accessories Model Description Compatibility Mounting Requirements 2098-9737 Supervised Relay, mounts remote or in base electrical box For use with 4098-9791 base Remote Mounting requires 4” octagonal or 4” square box, 1-1/2” minimum depth Base Mounting requires 4” octagonal box, 2-1/8” deep with 1-1/2” extension ring 2098-9808 Remote Red LED Alarm Indicator on single gang stainless steel plate Bases 4098-9789 and 4098-9791 Single gang box, 1-1/2” minimum depth 4098-9822 Relay, tracks base LED status (unsupervised, mounts only in base electrical box) 4” octagonal box, 2-1/8” deep with 1-1/2” extension ring 4098-9832 Adapter Plate Bases 4098-9792, -9789, & -9791 Required for surface or semi-flush mounted 4” square box and for surface mounted 4” octagonal box TYCO, SIMPLEX, and the product names listed in this material are marks and/or registered marks. Unauthorized use is strictly prohibited. NFPA 72 and National Fire Alarm and Signaling Code are trademarks of the National Fire Protection Association (NFPA). Tyco Fire Protection Products • Westminster, MA • 01441-0001 • USA S4098-0019-16 10/2013 www.simplexgrinnell.com © 2013 Tyco Fire Protection Products. All rights reserved. All specifications and other information shown were current as of document revision date and are subject to change without notice. General Operating Specifications Communications and Sensor Supervisory Power MAPNET II or IDNet, auto-select, 24-40 VDC w/data, 400 A typical, 1 address per base Communications Connections Screw terminals for in/out wiring, 18 to 14 AWG (0.82 mm2 to 2.08 mm2) Remote LED Alarm Indicator Current 1 mA typical, no impact to alarm current Remote LED Alarm Indicator and Relay Connections Color coded wire leads, 18 AWG (0.82 mm2 ) UL Listed Temperature Range 32° to 100° F (0° to 38° C) Operating Temperature Range with 4098 -9733 32° to 122° F (0° to 50° C) with 4098-9714 15° to 122° F (-9° to 50° C) Storage Temperature Range 0° to 140° F (-18° to 60° C) Humidity Range 10 to 95% RH Smoke Sensor Ambient Ratings 4098-9714, Photoelectric Sensor Air velocity = 0-4000 ft/min (0-1220 m/min) Housing Color Frost White 4098-9791 Base With Supervised Remote Relay 2098-9737 (see page 2 for contact ratings) Externally Supplied Relay Coil Voltage 18-32 VDC (nominal 24 VDC) Supervisory Current 270 A, from 24 VDC supply Alarm Current with 2098-9737 Relay 28 mA, from 24 VDC supply 4098-9822 Unsupervised Relay, Requirements for Bases 4098-9789 and 4098-9791 (see page 2 for contact ratings) Externally Supplied Relay Coil Voltage 18-32 VDC (nominal 24 VDC) Supervisory Current Supplied from communications Alarm Current 13 mA from separate 24 VDC supply TrueAlarm Analog Sensing Product Selection Chart Specifications Features Convert conventional Notification Appliance Circuits (NACs) into SmartSync circuits or synchronized strobe circuits: • SmartSync Control Modules combine separate horn and strobe NAC inputs into a 2-wire control that can silence horns while maintaining synchronized strobe operation** • Synchronized Flash Modules provide a 2-wire synchronized strobe output that also operates compatible 24 VDC conventional reverse polarity notification appliances** SmartSync Control Module (SCM) provides two-wire control to separately activate horns and strobes: • Operation allows “on-until-silenced” and “on-until-reset” on the same two-wire pair while maintaining supervision continuity • SmartSync horns sound as Temporal or March Time pattern, or continuous, controlled separately from strobes on the same circuit • Strobes on the same circuit operate at a synchronized 1 Hz flash rate • Output is either Class B or Class A Conventional strobe synchronization models: • Encapsulated package with color coded wire leads provides 1 Hz strobe synchronization and maintains supervision continuity • Conventional horns and other DC appliances operate on the same 2-wire circuit • Models are available with Class B or Class A output • Small size allows convenient mounting UL listed to Standard 1971 * These products have been approved by the California State Fire Marshal (CSFM) pursuant to Section 13144.1 of the California Health and Safety Code. See CSFM Listing 7125-0026:198 and 7125-0026:235 for allowable values and/or conditions concerning material presented in this document. It is subject to re-examination, revision, and possible cancellation. Accepted for use – City of New York Department of Buildings – MEA35-93E. Additional listings may be applicable; contact your local Simplex® product supplier for the latest status. Listings and approvals under Simplex Time Recorder Co. are the property of Tyco Safety Products Westminster. ** Simplex two-wire strobe synchronization operation is protected by U.S. patent No. 5,559,492 and SmartSync horn/strobe operation is protected under U.S. Patent No. 6,281,789. Class A OUT+ -3 4 NAC OUT+ -1 2 NAC IN+ -5 6 H O R N I N 1 2 H O R N / S I N C O U T 3 4 S I N C P A S S - T H R U P A I R P A I R 5 6 7 8 H O R N C O D E M / S 4 3 B L A N K 4905-9938 SmartSync Control Module (SCM), Shown Approximately 1/2 Size 4905-9922, Class A Synchronized Flash Module, Shown Approximately 1/2 Size SmartSync Control Module (SCM) Model 4905-9938 SCM (SmartSync Control Module) converts two conventional NAC inputs into a SmartSync two-wire NAC output. One NAC can be programmed to operate as “on-until-silenced” and would be designated as the horn control (non-coded, on continuously during alarm). A second NAC would be programmed to provide “on-until-reset” operation and would be for the visible appliance (strobe) control (also non-coded, on continuously during alarm). Power is supplied by the strobe control NAC. Selectable Horn output and Synchronized Strobes. In addition to operating the strobe and the horn independently, the SCM can be switch selected to operate the horns as temporal coded, march time coded (60 beats/minute), or on continuously. Strobes are activated with 1 Hz synchronized flashes. TrueAlert® Notification Appliances UL, ULC, CSFM Listed; FM Approved; SmartSync™ Control Module and MEA (NYC) Acceptance* Strobe Synchronization Modules S4905-0003-3 8/2009 Additional SCM Features Multi-Sync Mode. Up to eight SCMs can be interconnected to synchronize system notification. Interconnected SCMs are supervised for proper circuit connection. The horn input NAC powers the Multi-Sync function. Isolated NAC Inputs. Both NAC inputs are isolated from each other and can be supplied from different control panels. Class B (Style Y) and Class A (Style Z) output operation are both supported. Earth fault detection is provided by the strobe control NAC during supervision mode. For additional information refer to Installation Instructions 574-719. Synchronized Flash Modules Model 4905-9914 and 4905-9922 add the required control to activate Simplex synchronized strobes for NACs that do not provide that control. Conventional horns or other compatible 24 VDC notification appliances on the same circuit ignore strobe synchronization and operate when the NAC is in alarm. For additional information refer to Installation Instructions 579-232. 2 S4905-0003-3 8/2009 Model Description Package Details 4905-9938 SmartSync Control Module, Class A or Class B output Dimensions: 4” x 4-1/8” x 1-1/4” D (102 mm x 105 mm x 32 mm); mounts in 4” (102 mm) square box 4905-9914 Class B Synchronized Flash Module 4905-9922 Class A Synchronized Flash Module Dimensions: 1-3/8” x 2-7/16” x 13/16” D (35 mm x 62 mm x 20 mm); epoxy encapsulated with 8” (203 mm) in/out 18 AWG (0.82 mm2) wire leads; rated for 2 A NAC; requires 5 mA for power General Specifications Temperature Range 32° to 122° F (0° to 50° C) Humidity Range 10% to 93%, non-condensing at 100° F (38° C) 4905-9938 SmartSync NAC Modules (for use with SmartSync compatible appliances) Input Voltage Range 16 VDC to 33 VDC; with a maximum ripple of 2 V peak-to-peak 2 A maximum; can be wired as Class A or Class B Up to 35 maximum SmartSync appliances with strobes Output Ratings Up to 40 maximum SmartSync horn-only appliances Strobe Control NAC Input Current Output NAC current, plus 30 mA @ 24 VDC for SCM operating power Horn Control NAC Current 4 mA @ 24 VDC Class A Operation Mounting Requirement Mount SCM within 20 ft (6 m) of control panel, use metal conduit 4905-9914 & 4905-9922 Synchronization Modules Input Voltage Range 16 VDC to 33 VDC 2 A maximum output; requires 5 mA for power Up to 35 maximum strobes per synchronized circuit Output Ratings Mount in control panel or separate 4” (51 mm) square electrical box, 1-1/2” (38 mm) minimum depth Specifications Product Selection Appliance Type Model Module Reference* Horn Wall mount; selectable for SmartSync operation 4901-9820 4905-9938 Wall mount; synchronized; also SmartSync compatible 4904-9331 4904-9332 4904-9333 4904-9342 4904-9343 4904-9344 4906-9101 4906-9103 4906-9105 4906-9106 4906-9107 4906-9108 4906-9109 4906-9111 Strobes Ceiling mount; selectable for synchronized flash; also SmartSync compatible 4904-9183 4904-9184 4904-9185 4904-9345 4904-9346 4906-9102 4906-9104 4906-9110 4906-9112 4905-9914 4905-9922 4905-9938 Wall mount; horn and strobe can be wired separately (4-wire); strobes are selectable for synchronized flash 4903-9425 4903-9426 4903-9427 4903-9431 4903-9432 4903-9433 4905-9914 4905-9922 Wall mount; SmartSync operation only (2-wire) 4903-9331 4903-9332 4903-9333 4903-9342 4903-9343 4903-9344 4906-9127 4906-9129 4906-9131 4906-9132 4906-9139 4906-9141 4905-9938 Ceiling mount; SmartSync operation only (2-wire) 4906-9128 4906-9130 4906-9140 4906-9142 A/V Horn/Strobe Rectangular case wall mount; horn and strobe can be wired separately (4-wire); strobes are selectable for synchronized flash 4903-9252 4903-9253 4903-9254 4903-9257 4903-9258 4903-9255 4903-9256 4905-9914 4905-9922 Wall mount; strobes are selectable for synchronized flash 4903-9356 4903-9357 4903-9358 4903-9359 4903-9360 4903-9361 4906-9151 4906-9153 Ceiling mount; strobes are selectable for synchronized flash 4903-9196 4903-9197 4903-9198 4906-9154 S/V Speaker/Strobe Rectangular case wall mount; strobes are selectable for synchronized flash 4903-9148 4903-9149 4903-9150 4903-9150H 4903-9153 4903-9193 4903-9194 4903-9195 4905-9914 4905-9922 * Modules listed are required if control panel NAC or NAC extender does not provide either synchronized strobe output or SmartSync control output as required for proper appliance operation. Control Panels/NAC Source Available Output Additional Module Required/Function Class A or Class B Strobe Synchronization none 4006, 4008, 4010, and 4100U Series Fire Alarm Control Panels; 4009 IDNet™ NAC Extenders Class A or Class B SmartSync operation none 4905-9914 for Class B synchronized strobes 4905-9922 for Class A synchronized strobes Model Series 4003, 4004, 4005, 4100, 4120, 4020, 4001, & 4002 Control Panels; 2190 Series Signal ZAMs; 4009 Series Conventional NAC Extenders Conventional reverse polarity NACs, additional modules are required to control synchronized strobes and/or SmartSync appliances 4905-9938 for SmartSync control Module Reference Module Description 4905-9938 SmartSync Control Module, provides Class A or Class B SmartSync operation 4905-9914 Class B Strobe Synchronization Module 4905-9922 Class A Strobe Synchronization Module 3 S4905-0003-3 8/2009 Compatible Simplex® Appliance Reference NAC Capability Reference Mounting Box (by others): Square box, 4" (102 mm), required depth depends on total conductor requirements Minimum depth = 2-1/8" (54 mm), RACO 232 or equal Extended depth (for maximum conductors), add 1-1/2" (38 mm) extension ring, RACO 201 or equal 4905-9938 SmartSync Control Module (SCM) 4" square cover plate, RACO 752 or equal (by others) Tyco Safety Products Westminster • Westminster, MA • 01441-0001 • USA S4905-0003-3 8/2009 www.tycosafetyproducts-usa-wm.com © 2009 Tyco Safety Products Westminster. All rights reserved. All specifications and other information shown were current as of document revision date and are subject to change without notice. Tyco is a registered trademark of Tyco International Services GmbH and is used under license. Simplex, the Simplex logo, TrueAlert, SmartSync, and IDNet, are trademarks of Tyco International Ltd. and its affiliates and are used under license. SCM Installation Reference Features Visible only (V/O) 24 VDC notification appliances with high output xenon strobe, available for wall or ceiling mount: • Intensity is selectable as 15, 30, 75, or 110 candela with visible selection jumper secured behind strobe housing • Operation is compatible with ADA requirements (refer to important installation information on page 3) • Polarized input allows connection to compatible reverse polarity, supervised notification appliance circuit (NAC) • Regulated circuit design ensures consistent flash output and provides controlled inrush current • Rugged, high impact, flame retardant thermoplastic housings are available in red or white with clear lens • Listed to UL 1971 and ULC S526 Strobes provide synchronized flash for use with: • 4006, 4008, 4010, and 4100U Series fire alarm control panels with NACs selected to provide strobe synchronization or SmartSync two-wire control** • 4009 IDNet™ NAC Extenders • Separate strobe Synchronization Modules that are available for Class B or Class A operation • Separate SmartSync Control Modules (SCMs) that provide Class B or Class A output from conventional NAC inputs Strobe housings provides flexible, easy, and convenient semi-flush or surface wall mounting: • Rear of housing does not extend into box • Wall mount strobes easily mount to single gang, double gang, or 4-inch square outlet box • Ceiling mount strobes mount to single gang boxes Wall mount strobe features: • Wiring terminals are accessible from the front of the housing providing easy access for installation, inspection, and testing • Covers are available separately to convert housing color Optional adapters and wire guards: • Wall mount strobe adapters are available to cover surface mounted electrical boxes and to adapt to Simplex® 2975-9145 boxes • UL listed red wire guards are available for wall or ceiling mount strobes* * Refer to page 2 for guard listing. This product has been approved by the California State Fire Marshal (CSFM) pursuant to Section 13144.1 of the California Health and Safety Code. See CSFM Listing 7125-0026:316 for allowable values and/or conditions concerning material presented in this document. It is subject to re-examination, revision, and possible cancellation. Refer to page 2 for listing status of wire guards. Additional listings may be applicable; contact your local Simplex product supplier for the latest status. Listings and approvals under Simplex Time Recorder Co. are the property of Tyco Safety Products Westminster. Wall Mount Strobes Ceiling Mount Strobes Description Multi-Candela TrueAlert synchronized strobes provide convenient installation to standard electrical boxes. The enclosure designs are both impact and vandal resistant and provide a convenient strobe intensity selection. Since each model can be selected for intensity output, on-site model inventory is minimized and changes encountered during construction can be easily accommodated. Wall mount strobe housings are a one-piece assembly (including lens) that mounts to a single or double gang, or 4” square standard electrical box. The cover can be quickly removed (a tool is required) and covers are available separately for color conversion. Ceiling mount strobes install using standard single gang electrical boxes. Color choice is determined by model number. Strobe Intensity Selection During installation, a selection plug at the back of the housing determines the desired strobe intensity. An attached flag with black letters on a highly visible yellow background allows the selected intensity to be seen at the side of the strobe lens. Strobe Application Reference Proper selection of visible notification is dependent on occupancy, location, local codes, and proper applications of: the National Fire Alarm Code (NFPA 72), ANSI A117.1; the appropriate model building code: BOCA, ICBO, or SBCCI; and the application guidelines of the Americans with Disabilities Act (ADA). ** Simplex multi-candela SmartSync two-wire horn/strobe appliance operation is protected under one or more of the following U.S. Patent Numbers: 5,559,492; 5,622,427; 5,865,527; 5,886,620; 6,281,789; 6,954,137; 7,005,971; and 7,006,003. TrueAlert® Multi-Candela Notification Appliances UL, ULC, CSFM Listed; FM Approved; Visible Notification Appliances with Synchronized Flash; MEA (NYC) Acceptance* Non-Addressable, SmartSync™ Operation Compatible S4906-0001-4 9/2009 Synchronized Strobes Multiple Strobes. When multiple strobes and their reflections can be seen from one location, synchronized flashes reduce the probability of photo-sensitive reactions as well as the annoyance and possible distraction of random flashing. These multi-candela strobes are synchronized over a two-wire circuit when connected to compatible NACs, to compatible Synchronized Flash Modules, or to SmartSync Control Modules. SmartSync Two-Wire Control Some applications desire the audible notification appliances to be capable of being silenced before the alarm condition is reset (on-until-silenced) while the visible notification appliances are kept activated until the alarm condition is reset (on-until-reset). SmartSync operation mode provides this function using a single circuit (two-wire operation). SmartSync Control Sources SmartSync two-wire control is available from: • 4006, 4008, 4100U, and 4010 Fire Alarm Control Panels (refer to individual product data sheets for more information) • 4009 IDNet NAC Extenders (refer to data sheet S4009-0002) • SmartSync Control Module (SCM) Model 4905-9938 (refer to data sheet S4905-0003) Additional SmartSync compatible notification appliances include separate horns and combination horn/strobe notification appliances. 2 S4906-0001-4 9/2009 Multi-Candela Visible Notification Appliances (Strobes) Model Mounting Housing Color “FIRE” Lettering Description 4906-9101 Red White 4906-9103 Wall White Red 4906-9102 Red White 4906-9104 Ceiling White Red Multi-candela strobe with intensity selectable as: 15, 30, 75, or 110 candela; synchronized flash rate; SmartSync two-wire control compatible Wall Mount Strobe Adapters Model Description Dimensions 4905-9937 Red 4905-9940 White Surface Mount Adapter Skirt; use to cover 1-1/2” (38 mm) deep surface mounted boxes 5-3/8” H x 5-1/4” W x 1-5/8” D (136 mm x 133 mm x 41 mm) Total depth with strobe = 4-3/8” (111 mm) 4905-9931 Red Adapter Plate for mounting to Simplex 2975-9145 box (typically for retrofit, may be mounted vertical or horizontal) 8-5/16” x 5-3/4” x 0.060” Thick (211 mm x 146 mm x 1.5 mm) 2975-9145 Red Mounting Box, requires Adapter Plate 4905-9931 7-7/8" x 5-1/8" x 2-3/4" D (200 mm x 130 mm x 70 mm) Ceiling Mount Strobe Adapter Model Description Dimensions 4905-9910 Surface Mount Adapter Plate; zinc plated; required for mounting to handy box; not needed when using 4905-9926 guard 4-7/8” x 3-1/8” x 0.060” D (124 mm x 79 mm x 1.5) Synchronization Modules (refer to data sheet S4905-0003 for additional information) Model Description Dimensions 4905-9914 Class B 4905-9922 Class A Synchronized Flash Module; epoxy encapsulated with in/out 18 AWG (0.82 mm2) wire leads, rated for 2 A NAC, requires 5 mA for power 1-3/8” x 2-7/16” x 13/16” (35 mm x 62 mm x 20 mm) 4905-9938 SmartSync Control Module with Class B or Class A output; mounts in 4” (102 mm) square box 4” x 4-1/8” x 1-1/4” D (102 mm x 105 mm x 32 mm) Replacement Covers and Guards Model Description Dimensions 4905-9992 Red cover with white “FIRE” lettering 4905-9993 White cover with red “FIRE” lettering For Wall mount strobes 5-1/8” H x 5” W x 1-1/2” D (130 mm x 127 mm x 38 mm) 4905-9961* Wall mount 6-1/16” H x 6-1/16” W x 3-1/8” D (154 mm x 154 mm x 79 mm) 4905-9926* Ceiling mount Red wire guard with mounting plate, compatible with semi-flush or surface mounted boxes 6-1/8” x 4-3/8” x 2-7/8” deep (156 mm x 111 mm x 73 mm) * UL listed by Space Age Electronics Inc. Product Selection 3 S4906-0001-4 9/2009 Wall Mount or Ceiling Mount, Common Specifications Rated Voltage Range Regulated 24 VDC; see Note 1 below Flash Rate 1 Hz Synchronized NAC Loading Up to 35 synchronized strobes maximum per NAC Temperature Range 32° to 122° F (0° to 50° C) Humidity Range 10% to 93%, non-condensing at 100° F (38° C) Connections Terminal blocks for 18 AWG to 12 AWG (0.82 mm2 to 3.31 mm2); two wires per terminal for in/out wiring Housing Dimensions (with lens) 5-1/8” H x 5” W x 2-3/4” D (130 mm x 127 mm x 70 mm) 15 cd 30 cd 75 cd 110 cd Maximum RMS Current Rating per Strobe Setting (see Note 2 below) 60 mA 94 mA 186 mA 252 mA 18 VDC 53 mA 84 mA 165 mA 224 mA Wall Mount Reference RMS Currents at other voltages 24 VDC 40 mA 63 mA 124 mA 168 mA Housing Dimensions (with lens) 4-3/4” L x 2-5/16” W x 2-5/8” D (121 mm x 75 mm x 67 mm) 15 cd 30 cd 75 cd 110 cd Maximum RMS Current Rating per Strobe Setting (see Note 2 below) 75 mA 125 mA 233 mA 316 mA 18 VDC 67 mA 111 mA 207 mA 281 mA Ceiling Mount Reference RMS Currents at other voltages 24 VDC 50 mA 83 mA 155 mA 211 mA NOTES: 1. “Regulated 24 VDC” refers to the voltage range of 16 to 33 VDC per UL Standard 1971, Signaling Devices for the Hearing Impaired, changes effective May 1, 2004. This voltage range is the absolute operating range. Operation outside of this range may cause permanent damage to the strobe. Please note that 16 VDC is the lowest operating voltage that is allowed at the last appliance on the NAC under worst case conditions. 2. The maximum RMS current listed is the device nameplate rating. Strobe designs are constant wattage and the maximum RMS current rating occurs at the lowest allowable operating voltage. (RMS is root mean square and refers to the effective value of a varying current waveform.) Removable cover (tool required) Mounting is compatible with single gang, double gang, and 4" (102 mm) square boxes, 1-1/2" (38 mm) deep, by others 2 1 Mounting Holes: 4" square (4) Single gang (2) Double gang (3) Wiring access hole Wiring terminals Transparent housing and lens assembly Strobe intensity viewing slot Intensity selection plug, accessible only from rear of housing; factory setting is 15 cd 110753015 IMPORTANT! WALL MOUNT INSTALLATION HEIGHT REFERENCE a NFPA 72 requires that the entire lens be not less than 80" and not greater than 96" above the finished floor Electrical box outline 80" (2.03 m) minimum Bottom of lens is either even with, or slightly above bottom of compatible boxes Installation Reference, Surface or Semi-Flush Wall Mounting Strobe Specifications Tyco Safety Products Westminster • Westminster, MA • 01441-0001 • USA S4906-0001-4 9/2009 www.tycosafetyproducts-usa-wm.com © 2009 Tyco Safety Products Westminster. All rights reserved. All specifications and other information shown were current as of document revision date and are subject to change without notice. Tyco is a registered trademark of Tyco International Services GmbH and is used under license. Simplex, the Simplex logo, IDNet, TrueAlert, and SmartSync are trademarks of Tyco International Ltd. and its affiliates and are used under license. NFPA 72 and National Fire Alarm Code are registered trademarks of the National Fire Protection Association (NFPA). Surface Mounting Reference with Optional Adapter Skirt and Optional Wire Guard 2975-9145 Box 4905-9931 Adapter Plate 4905-9961 Optional Wire Guard (shown here for reference only, can be used on other mounting options) 4905-9931 Adapter Plate 4" (102 mm) square box profile, 1-1/2" (38 mm) deep Surface mount conduit and box shown for reference Strobe Optional 4905-9961 Wire Guard Optional Surface Mount Adapter Skirt, 1-1/2" deep: 4905-9937, Red; 4905-9940, White (conduit knockouts are provided on all four sides) 11 0 75 30 15 4905-9910 Adapter Plate, required for surface mount with handy box unless using the 4905-9926 wire guard Handy box, 1-1/2" ( 38 mm) deep (RACO 650 or equal) or single gang box, 2-1/2" (64 mm) deep (RACO 519 or equal) supplied by others Also can be attached to boxes mounted to drop ceiling T-bar with clips (ERICO No. 512 or equal) Single gang box (Wiremold V5744S) 2-1/4" (57 mm) deep, supplied by others Ceiling mount strobe Optional 4905-9926 wire guard with mounting plate Strobe intensity viewing slot Intensity selection plug, accessible only from rear of lens housing; factory setting is 15 cd Wall Mount Installation Reference; Adapter Plate, Guard, and Adapter Skirt Ceiling Mount Strobe Installation Reference Features Audible/visible (A/V) notification appliances with efficient electronic horn and high output xenon strobe, available for wall or ceiling mount: • Operation is compatible with ADA requirements (refer to important installation information on page 3) • Rugged, high impact, flame retardant thermoplastic housings are available in red or white with clear lens Operates over a two-wire SmartSync circuit to provide: • Horns that are controlled separately from strobes on the same two-wire circuit • “On-until-silenced” and “on-until-reset” operation on the same two-wire pair • SmartSync horn activation of Temporal pattern, March Time pattern (at 60 BPM), or on continuously • Strobe appliances on the same circuit operating at a synchronized 1 Hz flash rate • Operation requires connection to a compatible SmartSync operation NAC or to SmartSync Control Module (SCM) 4905-9938 Wall mount A/Vs features: • Wiring terminals are accessible from the front of the housing providing easy access for installation, inspection, and testing • Covers are available separately to convert housing color • Optional UL/ULC listed sound damper for locations requiring attenuation of 5 to 6 dBA (stairwells, small rooms, highly reverberant areas, etc.) Optional adapters and wire guards: • Wall mount A/V adapters are available to cover surface mounted electrical boxes and to adapt to Simplex® 2975-9145 boxes • UL listed red wire guards are available for wall or ceiling mount A/Vs* Visible notification appliance (strobe): • 24 VDC xenon strobe; intensity is selectable as 15, 30, 75, or 110 candela with visible selection jumper secured behind strobe housing • Regulated circuit design ensures consistent flash output and provides controlled inrush current • Listed to UL 1971 and ULC S526 Audible notification appliance (horn): • Low current, 24 VDC electronic horn with harmonically rich sound output suitable for either steady or coded operation (Temporal or 60 BPM March Time pattern) • Listed to UL 464 and ULC S525 Wall and Ceiling Mount A/Vs Description Multi-Candela TrueAlert A/Vs with horn and synchronized strobe provide convenient installation to standard electrical boxes. The enclosure designs are both impact and vandal resistant and provide a convenient strobe intensity selection. Since each model can be selected for strobe intensity output, on-site model inventory is minimized and changes encountered during construction can be easily accommodated. Wall mount A/V housings are a one-piece assembly (including lens) that mounts to a single or double gang, or 4” square standard electrical box. The cover can be quickly removed (a tool is required) and covers are available separately for color conversion. Ceiling mount A/Vs install using standard 4” electrical boxes. Color choice is determined by model number. Strobe Intensity Selection During installation, a selection plug at the back of the housing determines the desired strobe intensity. An attached flag with black letters on a highly visible yellow background allows the selected intensity to be seen at the side of the strobe lens. * Refer to page 2 for guard listing. This product has been approved by the California State Fire Marshal (CSFM) pursuant to Section 13144.1 of the California Health and Safety Code. See CSFM Listing 7125-0026:317 for allowable values and/or conditions concerning material presented in this document. It is subject to re-examination, revision, and possible cancellation. Accepted for use – City of New York Department of Buildings – MEA35-93E. Refer to page 2 for listing status of wire guards. Additional listings may be applicable; contact your local Simplex product supplier for the latest status. Listings and approvals under Simplex Time Recorder Co. are the property of Tyco Safety Products Westminster. ** Simplex multi-candela SmartSync two-wire horn/strobe appliance operation is protected under one or more of the following U.S. Patent Numbers: 5,559,492; 5,622,427; 5,865,527; 5,886,620; 6,281,789; 6,954,137; 7,005,971; and 7,006,003. TrueAlert® Multi-Candela Notification Appliances UL, ULC, CSFM Listed; FM Approved; SmartSync™ Operation Audible/Visible Notification MEA (NYC) Acceptance* with Horn and Synchronized Flash, Non-Addressable S4906-0002-5 9/2009 Strobe Application Selection Proper selection of visible notification is dependent on occupancy, location, local codes, and proper applications of: the National Fire Alarm Code (NFPA 72), ANSI A117.1; the appropriate model building code: BOCA, ICBO, or SBCCI; and the application guidelines of the Americans with Disabilities Act (ADA). Synchronized Strobes Multiple Strobes. When multiple strobes and their reflections can be seen from one location, synchronized flashes reduce the probability of photo-sensitive reactions as well as the annoyance and possible distraction of random flashing. The multi-candela strobes of these A/Vs are synchronized by the controlling SmartSync operation NAC. SmartSync Two-Wire Control SmartSync operation mode allows a two-wire circuit to provide the ability to activate both the horn and strobe on the same NAC and then allow the horn to be silenced while the strobe remains flashing. The horn operates as “on-until-silenced” while the strobe operation is “on-until-reset.” SmartSync Control Sources • 4006, 4008, 4100U, and 4010 Fire Alarm Control Panels (refer to individual product data sheets for more information) • 4009 IDNet NAC Extender (refer to data sheet S4009-0002) • SmartSync Control Module (SCM) 4905-9938 (refer to data sheet S4905-0003) Additional SmartSync compatible notification appliances include separate horns and combination horn/strobe notification appliances. 2 S4906-0002-5 9/2009 Multi-Candela A/Vs Model Mounting Housing Color “FIRE” Lettering Description 4906-9127 Red White 4906-9129 Wall White Red 4906-9128 Red White 4906-9130 Ceiling White Red Horn with Multi-Candela Strobe; strobe intensity selectable as: 15, 30, 75, or 110 candela; operates with SmartSync two-wire control Wall Mount A/V Accessories Model Description Dimensions 4905-9937 Red 4905-9940 White Surface Mount Adapter Skirt; use to cover 1-1/2” (38 mm) deep surface mounted boxes 5-3/8” H x 5-1/4” W x 1-5/8” D (136 mm x 133 mm x 41 mm) depth with strobe = 4-3/8” (111 mm) 4905-9931 Red Adapter Plate for mounting to Simplex 2975-9145 box (typically for retrofit, may be mounted vertical or horizontal) 8-5/16” x 5-3/4” x 0.060” Thick (211 mm x 146 mm x 1.5 mm) 2975-9145 Red Mounting Box, requires Adapter Plate 4905-9931 7-7/8" x 5-1/8" x 2-3/4" D (200 mm x 130 mm x 70 mm) 4905-9838 Optional Sound Damper; package of 20; field installed adhesive backed horn output attenuator; reduces output 5 to 6 dBA NOTE: After Sound Damper installation, measure sound level to ensure compliance with applicable code requirements 1-3/4” Diameter (44.5 mm) with 0.31” (8 mm) sound opening SmartSync Control Module Model Description Dimensions 4905-9938 SmartSync Control Module with Class B or Class A output; mounts in 4” (102 mm) square box; refer to data sheet S4905-0003 for details 4” x 4-1/8” x 1-1/4” D (102 mm x 105 mm x 32 mm) Replacement Covers for Wall Mount A/Vs Model Description Dimensions 4905-9994 Red cover with white “FIRE” lettering 4905-9995 White cover with red “FIRE” lettering 5-1/8” H x 5” W x 1-1/2” D (130 mm x 127 mm x 38 mm) Wire Guards and Ceiling Mount A/V Adapter Model Description Dimensions 4905-9961* Wall mount red wire guard with mounting plate, compatible with semi-flush or surface mounted boxes 6-1/16” H x 6-1/16” W x 3-1/8” D (154 mm x 154 mm x 79 mm) 4905-9927* Red Wire Guard for mounting to flush mounted electrical box 8-1/2” x 6-1/8” x 3” (216 mm x 156 mm x 76 mm) 4905-9928* Red Adapter Plate, required to mount guard to surface mounted electrical box 9” x 7” (229 mm x 178 mm) 4905-9915 White 4905-9916 Ceiling Mount Red Surface Mount Adapter Box Extension, use to cover 1-1/2” deep surface mounted boxes 4-3/4" x 6-7/8" x 1-1/2" deep, (121 mm x 175 mm x 38 mm) * UL listed by Space Age Electronics Inc. Product Selection 3 S4906-0002-5 9/2009 Wall Mount or Ceiling Mount, Common Specifications Rated Voltage Range Regulated 24 DC; see Note 1 below Flash Rate and Synchronized NAC Loading 1 Hz; with up to 35 synchronized strobes maximum per NAC Environmental; Temperature and Humidity 32° to 122° F (0° to 50° C); 10% to 93%, non-condensing at 100° F (38° C) Connections Terminal blocks for 18 AWG to 12 AWG (0.82 mm2 to 3.31 mm2) ; two wires per terminal for in/out wiring Horn Output Characteristics 2400 to 3700 Hz sweep, modulated at 120 Hz rate Model Type Wall Mount Ceiling Mount Sound Type (see Note 2) Steady Coded Steady Coded Reverberant Chamber Test, per UL 464 @ 10 ft (~3 m) 86 dBA 82 dBA 87 dBA 83 dBA Horn Output Ratings (see Note 2 for polar dispersion reference) Anechoic Chamber Test, per ULC S525 @ 3 m (~10 ft) 88 dBA 94 dBA 90 dBA 98 dBA Housing Dimensions (with lens) 5-1/8” H x 5” W x 2-3/4” D (130 mm x 127 mm x 70 mm) 15 cd 30 cd 75 cd 110 cd Maximum RMS Current Rating per Strobe Setting (see Note 3 below) 75 mA 116 mA 221 mA 285 mA 18 VDC 67 mA 103 mA 196 mA 253 mA Wall Mount Reference RMS Currents at other voltages 24 VDC 50 mA 77 mA 147 mA 190 mA Housing Dimensions (with lens) 4-3/4 L” x 6-7/8” W x 2-5/8” D (121 mm x 175 mm x 67 mm) 15 cd 30 cd 75 cd 110 cd Maximum RMS Current Rating per Strobe Setting (see Note 3 below) 86 mA 132 mA 250 mA 320 mA 18 VDC 76 mA 117 mA 222 mA 284 mA Ceiling Mount Reference RMS Currents at other voltages 24 VDC 57 mA 88 mA 167 mA 213 mA NOTES: 1. “Regulated 24 DC” refers to the voltage range of 16 to 33 VDC per UL Standard 1971, Signaling Devices for the Hearing Impaired, changes effective May 1, 2004. This voltage range is the absolute operating range. Operation outside of this range may cause permanent damage to the appliance. Please note that 16 VDC is the lowest operating voltage that is allowed at the last appliance on the NAC under worst case conditions. 2. Coded values are typical of the output measured with a Temporal coded or a March Time coded pulse and with a sound level meter reading on a “fast” setting. Polar dispersion per ULC S525 testing = -3 dBA at +/-40° off-axis; -6 dBA at +/- 50° off-axis. 3. Currents are with horn on steady. The maximum RMS current listed is the device nameplate rating. Strobe designs are constant wattage and the maximum RMS current rating occurs at the lowest allowable operating voltage. (RMS is root mean square and refers to the effective value of a varying current waveform.) Removable cover (tool required) Mounting is compatible with single gang, double gang, and 4" (102 mm) square boxes, 1-1/2" (38 mm) deep, by others 2 1 34 Mounting Holes: 4" square (4) Single gang (2) Double gang (3) Wiring access hole Wiring terminals for SmartSync operation Transparent housing and lens assembly Strobe intensity viewing slot Intensity selection plug, accessible only from rear of housing; factory setting is 15 cd 110753015 Optional 4905-9838Sound Damper, field attached to attenuate sound 5 to 6 dBA a NFPA 72 requires that the entire lens be not less than 80" and not greater than 96" above the finished floor Electrical box outline 80" (2.03 m) minimum Bottom of lens is either even with, or slightly above bottom of compatible boxes IMPORTANT! WALL MOUNT INSTALLATION HEIGHT REFERENCE Installation Reference, Surface or Semi-Flush Mounting A/V Specifications Tyco Safety Products Westminster • Westminster, MA • 01441-0001 • USA S4906-0002-5 9/2009 www.tycosafetyproducts-usa-wm.com © 2009 Tyco Safety Products Westminster. All rights reserved. All specifications and other information shown were current as of document revision date and are subject to change without notice. Tyco is a registered trademark of Tyco International Services GmbH and is used under license. Simplex, the Simplex logo, IDNet, TrueAlert, and SmartSync are trademarks of Tyco International Ltd. and its affiliates and are used under license. NFPA 72 and National Fire Alarm Code are trademarks of the National Fire Protection Association (NFPA). Surface Mounting Reference with Optional Adapter Skirt and Optional Wire Guard 2975-9145 Box 4905-9931 Adapter Plate 4905-9961 Optional Wire Guard (shown here for reference only, can be used on other mounting options) 4905-9931 Adapter Plate 4" (102 mm) square box profile, 1-1/2" (38 mm) deep Surface mount conduit and box shown for reference A/V Optional 4905-9961 Wire Guard Optional Surface Mount Adapter Skirt, 1-1/2" deep: 4905-9937, Red; 4905-9940, White (conduit knockouts are provided on all four sides) 11 0 75 30 15 4" (102 mm) square box, 1-1/2" (38 mm) minimum depth Optional 4905-9915/-9916 Adapter, recommended for surface mounted box Wiring terminals are located behind the housing Ceiling reference, surface mounted box Ceiling reference, flush mounted box Strobe intensity viewing slot Intensity selection plug, accessible only from rear of lens housing; factory setting is 15 cd Optional 4905-9928 Adapter Plate, required for surface mounted electrical box Optional 4905-9927 Red Wire Guard Four mounting clamps included, two each side End View Wall Mount Installation Reference; Adapter Plate, Guard, and Adapter Skirt Ceiling Mount A/V and Guard Installation Reference S H E E T : D R A W N B Y : C H E C K E D B Y : J O B # : P R O J E C T # : DESCRIPTIONCADDATEMARK S Y S T E M : CHK I S S U E D A T E : 30" x 42" - Arch E1 Size ISSUE LOG:Revisions shown with # symbol E R I C A R A N E N S O N N I C E T L E V E L I I I # 1 3 5 9 6 3 E X I S T I N G S Y S T E M S E Q U E N C E O F O P E R A T I O N S P R O J E C T D I R E C T O R Y A P P L I C A B L E C O D E S & S T A N D A R D S A B B R E V I A T I O N S L E G E N D GENERAL NOTES LEGENDSDRAWING INDEX D E V I C E T A G L E G E N D S C O P E O F W O R K F I R E A L A R M S Y S T E M B E H A V I O R A L H E A L T H - T I M A D I S O N M E M O R I A L H O S P I T A L · F A : = F A C P ( N O N - N E T W O R K ) · # : = N O D E N U M B E R · T # : = T R A N S P O N D E R N U M B E R · # : T # = N O D E : T R A N S P O N D E R N U M B E R · N # : = N A C E X T E N D E R N U M B E R D E V I C E N U M B E R · D # = D O O R H O L D E R C I R C U I T N U M B E R · F # = F I R E P H O N E C I R C U I T · H # = A U D I B L E ( H O R N ) C I R C U I T N U M B E R · M # = I D N E T L O O P N U M B E R · P # = P O W E R C I R C U I T N U M B E R · S # = S P E A K E R C I R C U I T N U M B E R · V # = V I S U A L C I R C U I T N U M B E R · Z # = Z O N E N U M B E R · ( L # ) = I D N E T I S O L A T E D L O O P N U M B E R B R A N C H / I S O L A T E D L O O P D E S I G N A T O R : C I R C U I T D E S I G N A T O R P A N E L D E S I G N A T O R 1 : T 2 : V 1 2 - 1 ( L 1 ) 1.THESE DRAWINGS DEPICT GENERAL LOCATIONS OF LIFE SAFETY EQUIPMENT & FIELD DEVICES. EXACT ROUTING OF CONDUITS IS TO BEDETERMINED IN THE FIELD BY THE INSTALLING CONTRACTOR TO SUIT CONDITIONS. ALL CHANGES SHALL BE CLEARLY INDICATED ONTHE RECORD DRAWINGS.2.SHOULD ANY CONDITIONS EXIST THAT DIFFER FROM WHAT IS INDICATED ON THESE DRAWINGS WHICH CAUSE MAJOR DEVIATIONS INTHE WORK SHOWN, THE CONTRACTOR SHALL CONTACT JOHNSON CONTROLS IN A TIMELY MANNER SO AS NOT TO IMPAIR THECONSTRUCTION SCHEDULE.3.CONTRACTOR IS RESPONSIBLE FOR MAKING AND OBTAINING APPROVAL FOR ALL NECESSARY ADJUSTMENTS IN CIRCUITING ASREQUIRED TO ACCOMMODATE THE RELOCATION OF EQUIPMENT AND/OR DEVICES WHICH ARE AFFECTED BY ANY AUTHORIZED CHANGE.ALL CHANGES SHALL BE CLEARLY INDICATED ON THE RECORD DRAWINGS.4.A STAMPED SET OF APPROVED FIRE ALARM DRAWINGS SHALL BE AT THE JOB SITE AND SHALL BE USED FOR INSTALLATION.5.THE POWER CIRCUIT TO THE FACP AND TO THE FIRE ALARM POWER SUPPLIES SHALL BE ON A DEDICATED 120V, 20A BRANCH CIRCUITBREAKER, AND SHALL HAVE A RED MARKING, LOCK-ON PROVISION AND SHALL BE IDENTIFIED AS "FIRE ALARM CIRCUIT CONTROL." THELOCATION OF THE CIRCUIT DISCONNECT MEANS (CIRCUIT BREAKER) SHALL BE PERMANENTLY IDENTIFIED AT THE FIRE ALARM CONTROLUNIT.6.UPDATE THE AS-BUILT DRAWING SET DAILY WITH JOB PROGRESS. RETURN THE AS-BUILT DRAWING SET TO JOHNSON CONTROLS NOLATER THAN 7 DAYS AFTER FINAL TEST.7.THE CONTRACTOR WILL MAINTAIN ALL AREAS OF THE BUILDING IN A NEAT AND WORKMANLIKE MANNER.8.DO NOT APPLY POWER EXCEPT IN THE PRESENCE OF A FACTORY TRAINED JOHNSON CONTROLS TECHNICAL REPRESENTATIVE.9.ANY SMOKE DETECTOR HEAD INSTALLED BEFORE THE BUILDING IS CLEANED AND ACCEPTED SHALL BE COVERED TO PROTECT FROMDUST. ANY FALSE ALARMS DUE TO DIRT CONTAMINATED HEADS SHALL BE THE RESPONSIBILITY OF THE FIRE ALARM INSTALLER.10.THE FIRE ALARM INSTALLER WILL MAINTAIN THE FIRE RESISTANCE INTEGRITY OF ALL WALL, CEILING, AND ROOF ASSEMBLIES ANY TIMETHAT WORK IS NOT ACTIVELY BEING PERFORMED.11.INSTALLATION OF DEVICES SHALL BE IN ACCORDANCE WITH MANUFACTURER'S INSTRUCTIONS. POWER LIMITED AND NON-POWERLIMITED FIELD WIRING MUST BE INSTALLED WITHIN THE FACP ENCLOSURE IN ACCORDANCE WITH MANUFACTURER'S INSTRUCTIONS ANDAPPLICABLE ELECTRICAL CODES. REFER TO 'APPLICABLE CODES & STANDARDS' FOR SPECIFIC CODE REFERENCES.12.ALL WIRING SHALL BE INSTALLED ACCORDING TO APPLICABLE ELECTRICAL CODES.13.FIRE ALARM CIRCUITS SHALL BE IDENTIFIED IN ACCORDANCE WITH APPLICABLE ELECTRICAL CODES. MARK ALL FIRE ALARM WIRES INACCORDANCE WITH APPLICABLE ELECTRICAL CODE SECTIONS FOR POWER LIMITED AND NON-POWER LIMITED WIRE.14FIRE ALARM CABLE INSTALLED IN DUCTS, PLENUM, AND OTHER SPACES USED FOR ENVIRONMENTAL AIR SHALL BE TYPE FPLP.15.FIRE ALARM CABLE INSTALLED IN THE VERTICAL RUNS AND PENETRATING MORE THAN ONE FLOOR OR CABLES INSTALLED IN VERTICALRUNS IN SHAFTS SHALL BE TYPE FPLR.16.FIRE ALARM CABLE INSTALLED IN UNDERGROUND CONDUIT OR OTHER WET LOCATIONS SHALL BE UL LISTED FOR WET LOCATIONS.17.FIRE ALARM CIRCUITS EXTENDING BEYOND ONE BUILDING AND RUN OUTDOORS SHALL BE INSTALLED IN ACCORDANCE APPLICABLEELECTRICAL CODES, WHERE APPLICABLE.18.ALL WIRING, INCLUDING SHIELDS MUST BE DRY AND FREE OF SHORTS AND GROUNDS.19.ALL SHIELDED WIRE MUST HAVE SHIELD CONTINUITY AT FULL LENGTH OF THE WIRE.20.ONLY SYSTEM WIRING CAN BE RUN IN THE SAME CONDUIT.21.120VAC IS NOT PERMITTED IN THE SAME CONDUIT WITH LOW VOLTAGE WIRING.22.MAINTAIN MAXIMUM CONDUIT FILL RATIO AS PER APPLICABLE ELECTRICAL CODES REQUIREMENTS.23.EXISTING CONDUITS MAY BE USED BY THE INSTALLATION CONTRACTOR AS DEEMED NECESSARY; HOWEVER, ANY EXISTING CONDUITWILL BE USED ONLY IF CONDUITS MEET CURRENT STANDARDS AND CODES. JOHNSON CONTROLS MAKES NO STATEMENTS WRITTEN ORVERBAL AS TO THE CONDITION OF EXISTING CONDUITS. P H O N E : S a l e s R e p r e s e n t a t i v e P E T E R P E T R O N I P E T E R . P E T R O N I @ J C I . C O M 2 0 8 - 9 1 4 - 2 0 9 9 P H O N E : P r o j e c t M a n a g e r S H A N E L E S T E B E R G S H A N E . L E S T E B E R G @ J C I . C O M 2 0 8 - 9 1 4 - 2 1 1 2 P H O N E : D r a w i n g s P r e p a r e d B y E R I C A A N E N S O N E R I C A . R A E . A N E N S O N @ J C I . C O M P H O N E : D r a w i n g s R e v i e w e d B y K E N N E T H D E I T R I C H K E N N E T H . R E I D . D E I T R I C H @ J C I . C O M 7 0 2 - 4 0 8 - 5 8 9 8 S i t e M A D I S O N M E M O R I A L H O S P I T A L 4 5 0 E . M A I N S T . R E X B U R G , I D 8 3 4 4 0 - 2 0 1 3 J o h n s o n C o n t r o l s D i s t r i c t - 4 4 4 8 7 8 3 W E S T H A C K A M O R E D R I V E B O I S E , I D 8 3 7 0 9 P H O N E : 2 0 8 - 3 7 6 - 2 1 1 1 F A X : 2 0 8 - 3 7 6 - 2 1 9 2 S E R V I C E : 2 0 8 - 3 7 6 - 2 1 1 1 M O D I F Y E X I S T I N G F I R E A L A R M S Y S T E M : P R O V I D I N G N E W D E V I C E S , R E L O C A T E A N D D E M O E X I S T I N G D E V I C E S A S S H O W N O N D R A W I N G S . A L L N E W W I R I N G T O B E C L A S S A . T H E E X I S T I N G F I R E A L A R M S Y S T E M S H A L L N O T B E D I S C O N N E C T E D O R T A K E N O U T O F S E R V I C E W I T H O U T W R I T T E N P E R M I S S I O N F R O M T H E O W N E R . I T I S T H E C O N T R A C T O R ' S R E S P O N S I B I L I T Y T O C O O R D I N A T E W I T H T H E O W N E R T H E T I M I N G O F A N Y E X I S T I N G F I R E A L A R M S Y S T E M D E M O L I T I O N W O R K . O C C U P A N C Y T Y P E ( S ) : S P R I N K L E R P R O T E C T I O N : I - 2 I N S T I T U T I O N A L G R O U P B U I L D I N G I S F U L L Y S P R I N K L E R E D J U R I S D I C T I O N S W I T H I N T H E S T A T E M A Y H A V E A M E N D M E N T S T O T H E S T A T E A D O P T E D C O D E . C H E C K W I T H T H E L O C A L J U R I S D I C T I O N A U T H O R I T Y F O R M O R E D E T A I L S . I n t e r n a t i o n a l F i r e C o d e ( I F C ) , 2 0 1 5 E d i t i o n N a t i o n a l F i r e A l a r m C o d e ( N F P A 7 2 ) , 2 0 1 6 E d i t i o n N a t i o n a l E l e c t r i c C o d e ( N F P A 7 0 ) , 2 0 1 7 E d i t i o n I n t e r n a t i o n a l B u i l d i n g C o d e ( I B C ) , 2 0 1 5 E d i t i o n A N S I / A S M E A 1 7 . 1 2 0 1 0 E l e v a t o r C o d e w i t h S t a t e e x c e p t i o n s FIRE A L A R M S Y M B O L L E G E N D SYMBO L D E S C R I P T I O N B R A N D M O D E L B A C K B O X W I R E T Y P E PANELS 4 1 0 0 E S F I R E A L A R M C O N T R O L P A N E L , 1 2 0 V A C S I M P L E X 4 1 0 0 - 9 1 1 1 S I M P L E X C A B I N E T N / A P O W E R P A T H 8 A M P N A C E X T E N D E R W / C L A S S A E X P A N S I O N M O D U L E W H E E L O C K P S - 8 N / A INITIATIN G D E V I C E S A D D R E S S A B L E P H O T O E L E C T R I C S M O K E S E N S O R W / S T A N D A R D B A S E S I M P L E X 4 0 9 8 - 9 7 1 4 H E A D 4 " O C T , 1 - 1 / 2 " D M 4 0 9 8 - 9 7 9 2 B A S E A D D R E S S A B L E D O U B L E A C T I O N M A N U A L P U S H / P U L L S T A T I O N S I M P L E X 4 0 9 9 - 9 0 0 6 4 " S Q , 2 - 1 / 8 " D W / S I N G L E G A N G C O V E R M A D D R E S S A B L E D U C T S M O K E D E T E C T O R S I M P L E X 4 0 9 8 - 9 7 5 5 M O U N T S T O D U C T W O R K M MODULE S A N D R E L A Y S S Y N C C O N T R O L M O D U L E S I M P L E X 4 9 0 5 - 9 9 3 8 4 " S Q . 2 - 1 / 8 " D V I N D I V I D U A L A D D R E S S A B L E M O D U L E S I M P L E X 4 0 9 0 - 9 0 0 1 S I N G L E G A N G 2 - 1 / 2 " D W / C O V E R M Z NOTIFICA T I O N A P P L I A N C E S C O N V E N T I O N A L M U L T I - C A N D E L A S T R O B E , C E I L I N G M O U N T , W H I T E , C L E A R L E N S , F I R E S I M P L E X 4 9 0 6 - 9 1 0 4 S I N G L E G A N G 2 - 1 / 2 " D V C O N V E N T I O N A L M U L T I - C A N D E L A H O R N / S T R O B E , C E I L I N G M O U N T , W H I T E , C L E A R L E N S , F I R E S I M P L E X 4 9 0 6 - 9 1 3 0 4 " S Q . 1 - 1 / 2 " D V C O N V E N T I O N A L M U L T I - C A N D E L A W E A T H E R P R O O F H O R N / S T R O B E , W A L L M O U N T , R E D , C L E A R L E N S , F I R E W H E E L O C K A S W P - 2 4 7 5 W - F R M F G V C O N V E N T I O N A L M U L T I - C A N D E L A H O R N / S T R O B E , W A L L M O U N T , R E D , C L E A R L E N S , F I R E W H E E L O C K M T - 2 4 M C W - F R 4 " S Q . 2 - 1 / 8 " D - F L U S H V MISCELL A N E O U S D E V I C E S T A M P E R S W I T C H B Y O T H E R S B Y O T H E R S Z R E M O T E T E S T S T A T I O N S I M P L E X 2 0 9 8 - 9 8 0 6 S I N G L E G A N G 2 " D K FACPNAC1SFSA##WP C ##AIM SVS A C C E P T A B L E C A B L E T Y P E S FIRE A L A R M W I R E L E G E N D FPLR FPLP THHN TFFN OUTDOOR ** C.I. CIRCUIT D E S C R I P T I O N C O N S T R U C T I O N G A U G E C I R C U I T P R O P E R T I E S BRUI + CO M M U N I C A T I O N U T P S O L I D 1 8 A W G 5 8 p f / f t . M A X C A P A C I T A N C E , 3 5 . 5 Ω T O T A L L I N E R E S I S T A N C E X X MIDNET U T P S O L I D 1 8 A W G 6 0 µ F M A X T O T A L L I N E C A P A C I T A N C E X X PPOWER 2 C O N D . S O L I D 1 4 A W G X X X X VVISUAL 2 C O N D . S O L I D 1 4 A W G X X CO N D U I T S I Z E M A X C O N D U C T O R A R E A C O N D U I T S I Z E M A X C O N D U C T O R A R E A 1 / 2 " 0 . 1 2 2 S Q . I N C H * 1 - 1 / 4 " 0 . 5 9 8 S Q I N C H * 3 / 4 " 0 . 2 1 3 S Q I N C H * 1 - 1 / 2 " 0 . 8 1 4 S Q I N C H * 1 " 0 . 3 4 6 S Q I N C H * 2 " 1 . 3 4 2 S Q I N C H * * 4 0 % C O N D U I T F I L L P E R N . E . C . S T P = S H I E L D E D T W I S T E D P A I R ITEMS SUCH A S C A P A C I T A N C E B E T W E E N C O N D U C T O R S A N D W I R E G A U G E C A N B E C R U C I A L T O T H E C I R C U I T D E S I G N O F T H I S S Y S T E M INSTALLATION. T H E I N S T A L L I N G C O N T R A C T O R I S R E S P O N S I B L E F O R S E L E C T I N G A N D I N S T A L L I N G C A B L E M A N U F A C T U R E R A N D M O D E L THAT MEETS O R E X C E E D S T H E A B O V E R E Q U I R E M E N T S . R E C O M M E N D E D C A B L E M A N U F A C T U R E R S A N D M O D E L N U M B E R S A R E A V A I L A B L E UPON REQUES T . A C = A B O V E C E I L I N G A F F = A B O V E F I N I S H E D F L O O R A H J = A U T H O R I T Y H A V I N G J U R I S D I C T I O N A L M = A L A R M A N N = A N N U N C I A T O R B M S = B U I L D I N G M A N A G E M E N T S Y S T E M C = C E I L I N G M O U N T E D C D = C A N D E L A R A T I N G D E T = D E T E C T O R D G P = D A T A G A T H E R I N G P A N E L E = E X I S T I N G T O R E M A I N E O L = E N D O F L I N E E P O = E M E R G E N C Y P O W E R O F F E R = E L E V A T O R R E C A L L F A A = F I R E A L A R M A N N U N C I A T O R F A C P = F I R E A L A R M C O N T R O L P A N E L F A T C = F I R E A L A R M T E R M I N A L C A B I N E T F B O = F U R N I S H E D B Y O T H E R S F C C = F I R E C O M M A N D C E N T E R F S D = F I R E S M O K E D A M P E R F T R = F I R E A L A R M T R A N S P O N D E R H = H I G H H U M I D I T Y H T = H E I G H T H V A C = H E A T I N G V E N T I L A T I O N & A I R C O N D I T I O N I N G I M S = I N F O R M A T I O N M A N A G E M E N T S Y S T E M M A X = M A X I M U M M I N = M I N I M U M N / A = N O T A P P L I C A B L E N A C = N O T I F I C A T I O N A P P L I A N C E C I R C U I T N D U = N E T W O R K D I S P L A Y U N I T N E C = N A T I O N A L E L E C T R I C C O D E N F P A = N A T I O N A L F I R E P R O T E C T I O N A S S O C I A T I O N N I C = N O T I N C O N T R A C T N P U = N E T W O R K P R O C E S S I N G U N I T N T S = N O T T O S C A L E P A P = P R E - A C T I O N P A N E L R C = E X I S T I N G T O R E M O V E A N D C O V E R R D = E X I S T I N G D E V I C E T O B E R E L O C A T E D R L = R E L O C A T E D D E V I C E R R = R E M O V E E X I S T I N G & R E P L A C E W I T H N E W S C C = S T A T U S C O M M A N D C E N T E R S L C = S I G N A L I N G L I N E C I R C U I T S M K = S M O K E S U P V = S U P E R V I S O R Y T A C = T R U E A L E R T A D D R E S S A B L E C O N T R O L L E R T O S = T O P O F S H A F T T R B L = T R O U B L E T S = T A M P E R S W I T C H T Y P = T Y P I C A L U O N = U N L E S S O T H E R W I S E N O T E D V C C = V O I C E C O M M A N D C E N T E R V T = V A L V E T A M P E R W = W A T T A G E W / = W I T H W / O = W I T H O U T W F = W A T E R F L O W W G = W I R E G U A R D W P = W E A T H E R P R O O F X P = E X P L O S I O N P R O O F J O H N S O N C O N T R O L S C O N T A C T S LAST PRINTED:LAST SAVED BY:FILE PATH:C:\Users\janense\Desktop\1_OtherDistrictProjects\_BoiseJobs\MadisonMemorial\MMH_BehavioralHealthTI_650046977\Fire\FA-001.dwg3/18/2021 12:29:17 PM JANENSE 4 4 4 : 6 5 0 0 4 6 9 7 7 E . A N E N S O N D N 3 / 1 8 / 2 1 F I R E A L A R M S Y S T E M MADISON MEMORIAL HOSPITAL 450 E. MAIN ST. REXBURG, ID 83440-2013 8783 WEST HACKAMORE DRIVE BOISE, ID 83709 PHONE: 208-376-2111 SERVICE: 208-376-2111 FAX: 208-376-2192 4 4 4 0 4 6 9 7 7 DISTRICT - 444 F A - 0 0 1 C O V E R S H E E T J O H N S O N C O N T R O L S © 2 0 2 1 MADISON MEMORIAL HOSPITAL BEHAVIORAL HEALTH-TI © Johnson Controls 2021. All rights reserved. Reuse, copying, modification or alteration of the drawings and other information contained herein is strictly prohibited.IMPORTANT NOTICE TO USER: This information may not be sold or transferred to any third party, used on other projects or additions to the project for which itwas prepared, or used for completion of this project by any third party. Johnson Controls disclaims all liability for the use or reuse of altered files by the user orany third party and such use will be a user's sole risk. User shall, to the fullest extent permitted by law, defend, indemnify, and hold Johnson Controls harmlessfrom any and all claims for loss, damage or injury arising directly or indirectly from any such unauthorized use.N VICINITY MAP S C O P E O F W O R K Sheet NumberSheet TitleGeneral Information (FA-000 Series)FA-001COVER SHEETFloorplans (FA-100 Series)FA-101DEVICE PLACEMENT PLANRisers & Calculations (FA-200 Series)FA-201RISER DIAGRAM & BATTERY CALCUALTIONSTypical Details (FA-700 Series)FA-701WIRING TYPICALS B B U S I N E S S G R O U P S - 1 S T O R A G E G R O U P SYSTEM OUTPUTS ACTUATE COMMON ALARM SIGNAL INDICATOR ACTUATE AUDIBLE ALARM SIGNAL ACTUATE COMMON SUPERVISORY SIGNAL INDICATOR ACTUATE AUDIBLE SUPERVISORY SIGNAL ACTUATE COMMON TROUBLE SIGNAL INDICATOR ACTUATE AUDIBLE TROUBLE SIGNAL ACTUATE APPROPRIATE LOCATION INDICATOR ACTUATE ALL AUDIBLE EVACUATION SIGNALS ACTUATE ALL VISIBLE EVACUATION SIGNALS UNUSED DISPLAY CHANGE OF STATUS TRANSMIT ALARM SIGNAL TO SUPERVISING STATION TRANSMIT SUPERVISORY SIGNAL TO SUPERVISING STATION TRANSMIT TROUBLE SIGNAL TO SUPERVISING STATION UNLOCK SECURITY DOORS RELEASE ELEVATOR FIRE DOORS MAIN FLOOR ELEVATOR RECALL ALTERNATE FLOOR ELEVATOR RECALL ELEVATOR HAT FLASH ELEVATOR SHUNT TRIP RELEASE MAGNETICALLY HELD SMOKE DOORS FAN SHUTDOWN DAMPER SHUTDOWN REMOTELY DISPLAY ACTIVE STATUS C T R L U N I T A N N U N C I A T I O N N O T I F I C A T I O N F I R E S A F E T Y C O N T R O L S Y S T E M I N P U T S A B C D E F G H I J K L M N O P Q R S T U V W X 1 S M O K E S E N S O R / D E T E C T O R X X X X X X X X X X X X 2 M A N U A L P U L L S T A T I O N X X X X X X X X 3 D U C T S E N S O R / D E T E C T O R - S U P E R V I S O R Y X X X X X X X 4 M A I N F L R . E L E V . L O B B Y S M O K E D E T E C T O R X X X X X X X X X X X X X X 5 E L E V A T O R L O B B Y S M O K E D E T E C T O R S ( E X C . M A I N F L R ) X X X X X X X X X X X X X X 6 E L E V A T O R M E C H . R O O M H E A T D E T E C T O R X X X X X X X X X 7 E L E V A T O R M E C H . R O O M S M O K E D E T E C T O R X X X X X X X X X X X X X X 8 E L E V A T O R S H A F T H E A T D E T E C T O R X X X X X X X X X 9 E L E V A T O R S H A F T S M O K E D E T E C T O R X X X X X X X X X X X X X X 1 0 E L E V A T O R P O W E R M O N I T O R X X X X X X 1 1 W A T E R F L O W S W I T C H X X X X X X X X X X 1 2 T A M P E R S W I T C H X X X X X X 1 3 G E N E R A T O R R U N N I N G X X X X X X 1 4 G E N E R A T O R F A U L T X X X X X X 1 5 F I R E A L A R M A C P O W E R F A I L U R E X X X X X 1 6 F I R E A L A R M S Y S T E M L O W B A T T E R Y X X X X X 1 7 O P E N C I R C U I T O R G R O U N D F A U L T X X X X X 1 8 C L A S S A N O T I F I C A T I O N C I R C U I T ( N A C ) - S H O R T X X X X X T A B L E T A B L E T A B L E T A B L E 2 6 9 7 S u p p r e s s i o n F i r e 2 6 8 0 A O f f i c e 2 6 8 1 R o o m B r e a k 2 6 7 9 W o r k r o o m B i o m e d . T e c h . 2 6 7 3 O f f i c e I . S . 2 6 7 1 O f f i c e I . S . O f f i c e R T 2 6 5 3 E x p a n s i o n P h a r m a c y 2 6 6 6 H a l l w a y 2 6 6 0 C o r r i d o r 2 6 7 0 R o o m D a t a 2 6 6 8 O f f i c e I . S . 2 6 6 7 O f f i c e I . S . 2 6 5 9 W o r k r o o m I . S . I T 0 2 I T R o o m 2 6 5 4 P h a r m a c y 2 6 4 7 C o r r i d o r 2 6 5 6 S t o r a g e 2 6 5 8 O f f i c e 2 6 5 2 P h a r m a c y E x p a n s i o n 2 6 5 7 T o i l e t 2 6 5 5 O f f i c e 2 6 4 9 C o r r i d o r 2 6 6 4 H o l d S o i l e d 2 6 6 2 D r y e r s 2 6 6 1 C l e a n L a u n d r y 2 6 9 9 O f f i c e H o u s e k e e p i n g 2 6 9 6 O f f i c e 2 6 9 5 C o r r i d o r 2 6 9 8 C o r r i d o r 2 7 0 4 M e c h a n i c a l E l e c t r i c a l / 2 7 0 2 S t o r a g e 2 7 0 3 S t o r a g e 2 7 0 0 S t o r a g e 2 7 0 1 S t o r a g e H 0 0 2 E l e v a t o r 2 0 1 R E C E P T I O N S T A I R T E A M R O O M 2 3 6 C O R R I D O R 2 3 9 221 2 2 0 2 1 2 C O R R I D O R D A Y R O O M 2 0 6 T . R . 2 1 9 T . R . 2 6 2 7 2 1 3 T H E R A P Y 2 0 7 S E C L U S I O N 2 0 4 2 3 4 S T O R A G E 232 T.R.231 T.R.2250 Pool Equip.2251 Exam2254 Men's Toilet 2255 Toilet Women's2252Whirlpool2253Whirlpool2256Open Storage2249P.T.Room MeetingStorage 2 2 5 7 O f f i c e P . T . 2 2 6 3 S t o r a g e E d u c a t i o n 2 2 5 8 O 2 F i l l G a s 2 2 4 0 T o i l e t O . T . 2 2 4 1 O . T . E x a m 2 2 5 9 E x a m 2 2 6 0 E x a m 2 2 6 1 E x a m 2 2 4 5 A r e a E q u i p m e n t P . T O p e n 2228 Corridor 2057 Chiller2056BoilerMechanical/SMOKE ZONE 2-5 I T 0 1 M e e t i n g 2 1 0 N U R S E S T A T I O N 2 1 8 T . R . D U A L O C C U P A N T P A T I E N T R O O M 2 1 7 D U A L O C C U P A N T P A T I E N T R O O M D I R E C T O R ' S O F F I C E 2 1 1 G R O U P T H E R A P Y / D I N I N G 2 1 2 C O R R I D O R 2 0 8 O B S E R V A T I O N / S E C U R I T Y V E S T . 2 0 3 V I S I T I N G 2 0 0 E X I S T I N G C O R R I D O R S H A R E D D O C T O R ' S O F F I C E 2 0 2 S E C U R I T Y V E S T I B U L E 2 3 5 M E D I A C E N T E R 2 3 3 D U A L O C C U P A N T P A T I E N T R O O M 230 DUAL OCCUPANTPATIENT ROOM 228 T.R.229 SINGLE OCCUPANTPATIENT ROOM 225 T.R.224 T.R.226 SINGLE OCCUPANTPATIENT ROOM 223 DUAL OCCUPANTPATIENT ROOM 222 SECURITYVESTIBULE227CORRIDOR 2 1 6 C O R R I D O R 2 4 8 E V S 2 4 1 S T A F F T . R . 2 4 0 N U R S E S T A T I O N 2 4 2 2 3 7 N U R S E S W O R K R O O M 2 3 8 M E D S T O R A G E / D I S P E N S A R Y 2 1 5 E X A M EXISTINGSTAIR S A N A C 2 0 : V 1 - 1 N A C 2 0 S 1 : M 1 - 5 S 1 : M 1 - 6 S 1 : M 1 - 1 F A C P F A T C N A C 1 N A C 3 N A C 2 N A C 4 1 5 1 5 3 0 N A C 2 : V 3 - 2 7 5 N A C 2 0 : V 1 - 2 1 5 N A C 2 : V 3 - 1 0 1 5 N A C 2 : V 3 - 1 1 1 5 N A C 2 : V 3 - 9 1 5 N A C 2 : V 3 - 7 1 5 N A C 2 : V 3 - 4 1 5 N A C 2 : V 3 - 6 1 5 N A C 2 : V 3 - 5 1 5 N A C 2 : V 3 - 3 1 5 1 5 1 5 1 5 1 5 A O M 1 : M 1 - 7 E X . P S 1 : M 1 - 8 S 1 : M 1 - 1 6 S 1 : M 1 - 1 7 F A T C 1 5 F A C P S 1 : M 3 - 8 9 1 : M 3 - 9 0 E X . A O M P 1:M3-84 E X . A O M P 1:M3-87 E X . A O M P 1:M3-88 E X . S1:M1-5 S 1:M1-11S1:M1-12 75 N7:V1-715N7:V1-8DH DH15 1 5 S1:M1-4 S1:M1-21:M1-1EX. M , P T O N A C 2 : V 3 V V V V V V V V V V S 1 : M 1 - 1 J B M M M , P M , P M , P 7 5 N A C 2 : V 3 - 1 V T O N A C 2 : V 3 J B V V V T O N A C 2 0 L O C A T E D B Y I T R O O M 110N7:V1-575N7:V1-61:M1-21 10K S2:M1-9 S2:M1-10P10K 2KKRM,PM,P S 2 : M 1 - 1 4 S 2 : M 1 - 1 7 S R 2 : M 1 - 1 6 S R 2 : M 1 - 1 5 R R SR2:M1-13 R R M , P M , P M,PM,PM,PM,P M,P M,P M,P F 1 : M 5 - 8 1 C N A C 3 : V 3 - 6 1 5 C N A C 1 : V 1 - 1 0 1 5 C N A C 1 : V 1 - 8 3 0 C N A C 1 : V 1 - 7 7 5 C N A C 1 : V 1 - 6 3 0 C N A C 1 : V 1 - 4 1 5 C N A C 1 : V 1 - 5 1 5 C N A C 1 : V 1 - 3 1 5 C N A C 3 : V 3 - 2 1 5 C NAC3:V3-315 C N A C 3 : V 3 - 9 3 0 C N A C 3 : V 3 - 8 7 5 C N A C 3 : V 3 - 7 1 5 C NAC3:V3- 5 15 N A C 1 : V 1 - 9 1 5 N A C 1 : V 1 - 1 1 1 5 N A C 3 : V 3 - 4 1 5 N A C 1 : V 1 - 2 3 0 S 1:M5-88 S 1 : M 5 - 8 7 S 1 : M 5 - 8 4 S 1 : M 5 - 8 6 S 1 : M 5 - 8 2 S 1 : M 5 - 8 3 S 1 : M 5 - 8 0 S 1 : M 5 - 7 9 S 1:M5-89 75WP NAC1:V3-2S 1 : M 5 - 9 1 30NAC1:V3-3 75 NAC1:V3-1 F A A M , P M,P M,P M , P M , P M , P M , P M , P M , P M , P M , P V VVV F E E D F R O M N A C 1 : V 3 RETURN TONAC1:V3 V F E E D F R O M N A C 1 : V 1 S A N A C 1 : V 1 - 1 V S A N A C 3 : V 3 - 1 V V F E E D F R O M N A C 3 : V 3 R E T U R N T O N A C 3 : V 3 R E T U R N T O N A C 1 : V 1 V V V V V V V V V V V V V V V V V V V V V V V M , P E X I S T I N G F E E D F R O M 1 : M 5 C K T TIE I N T O E X I S T I N G 1:M5 C K T K S 1 : M 5 - 8 5 A I M 1 : M 5 - 7 7 V S M , P M , P F 1:M5-90 N I C 1 1 2 2 4 5 3 3 2 2 6 6 S H E E T : D R A W N B Y : C H E C K E D B Y : J O B # : P R O J E C T # : DESCRIPTIONCADDATEMARK S Y S T E M : CHK I S S U E D A T E : 30" x 42" - Arch E1 Size ISSUE LOG:Revisions shown with # symbol E R I C A R A N E N S O N N I C E T L E V E L I I I # 1 3 5 9 6 3 0 SCALE: I N F E E T 1/8" = 1'-0"4'8' 1 6 ' NSCALE:1/8" = 1'-0"DEVICE PLACEMENT PLANLAST PRINTED:LAST SAVED BY:FILE PATH:C:\Users\janense\Desktop\1_OtherDistrictProjects\_BoiseJobs\MadisonMemorial\MMH_BehavioralHealthTI_650046977\Fire\FA-101.dwg3/18/2021 12:29:21 PM JANENSE 4 4 4 : 6 5 0 0 4 6 9 7 7 E . A N E N S O N D N 3 / 1 8 / 2 1 F I R E A L A R M S Y S T E M MADISON MEMORIAL HOSPITAL 450 E. MAIN ST. REXBURG, ID 83440-2013 8783 WEST HACKAMORE DRIVE BOISE, ID 83709 PHONE: 208-376-2111 SERVICE: 208-376-2111 FAX: 208-376-2192 4 4 4 0 4 6 9 7 7 DISTRICT - 444 F A - 1 0 1 D E V I C E P L A C E M E N T P L A N J O H N S O N C O N T R O L S © 2 0 2 1 MADISON MEMORIAL HOSPITAL BEHAVIORAL HEALTH-TI © Johnson Controls 2021. All rights reserved. Reuse, copying, modification or alteration of the drawings and other information contained herein is strictly prohibited. F I R E A L A R M S Y M B O L L E G E N D S Y M B O L D E S C R I P T I O N B R A N D M O D E L B A C K B O X W I R E T Y P E P A N E L S 4 1 0 0 E S F I R E A L A R M C O N T R O L P A N E L , 1 2 0 V A C S I M P L E X 4 1 0 0 - 9 1 1 1 S I M P L E X C A B I N E T N / A P O W E R P A T H 8 A M P N A C E X T E N D E R W / C L A S S A E X P A N S I O N M O D U L E W H E E L O C K P S - 8 N / A I N I T I A T I N G D E V I C E S A D D R E S S A B L E P H O T O E L E C T R I C S M O K E S E N S O R W / S T A N D A R D B A S E S I M P L E X 4 0 9 8 - 9 7 1 4 H E A D 4 " O C T , 1 - 1 / 2 " D M 4 0 9 8 - 9 7 9 2 B A S E A D D R E S S A B L E D O U B L E A C T I O N M A N U A L P U S H / P U L L S T A T I O N S I M P L E X 4 0 9 9 - 9 0 0 6 4 " S Q , 2 - 1 / 8 " D W / S I N G L E G A N G C O V E R M A D D R E S S A B L E D U C T S M O K E D E T E C T O R S I M P L E X 4 0 9 8 - 9 7 5 5 M O U N T S T O D U C T W O R K M M O D U L E S A N D R E L A Y S S Y N C C O N T R O L M O D U L E S I M P L E X 4 9 0 5 - 9 9 3 8 4 " S Q . 2 - 1 / 8 " D V I N D I V I D U A L A D D R E S S A B L E M O D U L E S I M P L E X 4 0 9 0 - 9 0 0 1 S I N G L E G A N G 2 - 1 / 2 " D W / C O V E R M Z N O T I F I C A T I O N A P P L I A N C E S C O N V E N T I O N A L M U L T I - C A N D E L A S T R O B E , C E I L I N G M O U N T , W H I T E , C L E A R L E N S , F I R E S I M P L E X 4 9 0 6 - 9 1 0 4 S I N G L E G A N G 2 - 1 / 2 " D V C O N V E N T I O N A L M U L T I - C A N D E L A H O R N / S T R O B E , C E I L I N G M O U N T , W H I T E , C L E A R L E N S , F I R E S I M P L E X 4 9 0 6 - 9 1 3 0 4 " S Q . 1 - 1 / 2 " D V C O N V E N T I O N A L M U L T I - C A N D E L A W E A T H E R P R O O F H O R N / S T R O B E , W A L L M O U N T , R E D , C L E A R L E N S , F I R E W H E E L O C K A S W P - 2 4 7 5 W - F R M F G V C O N V E N T I O N A L M U L T I - C A N D E L A H O R N / S T R O B E , W A L L M O U N T , R E D , C L E A R L E N S , F I R E W H E E L O C K M T - 2 4 M C W - F R 4 " S Q . 2 - 1 / 8 " D - F L U S H V M I S C E L L A N E O U S D E V I C E S T A M P E R S W I T C H B Y O T H E R S B Y O T H E R S Z R E M O T E T E S T S T A T I O N S I M P L E X 2 0 9 8 - 9 8 0 6 S I N G L E G A N G 2 " D K F A C P N A C 1 S F S A # # W P C # # A I M S V S A C C E P T A B L E C A B L E T Y P E S F I R E A L A R M W I R E L E G E N D FPLR FPLP THHN TFFN OUTDOOR ** C.I. C I R C U I T D E S C R I P T I O N C O N S T R U C T I O N G A U G E C I R C U I T P R O P E R T I E S B R U I + C O M M U N I C A T I O N U T P S O L I D 1 8 A W G 5 8 p f / f t . M A X C A P A C I T A N C E , 3 5 . 5 Ω T O T A L L I N E R E S I S T A N C E X X M I D N E T U T P S O L I D 1 8 A W G 6 0 µ F M A X T O T A L L I N E C A P A C I T A N C E X X P P O W E R 2 C O N D . S O L I D 1 4 A W G X X X X V V I S U A L 2 C O N D . S O L I D 1 4 A W G X X C O N D U I T S I Z E M A X C O N D U C T O R A R E A C O N D U I T S I Z E M A X C O N D U C T O R A R E A 1 / 2 " 0 . 1 2 2 S Q . I N C H * 1 - 1 / 4 " 0 . 5 9 8 S Q I N C H * 3 / 4 " 0 . 2 1 3 S Q I N C H * 1 - 1 / 2 " 0 . 8 1 4 S Q I N C H * 1 " 0 . 3 4 6 S Q I N C H * 2 " 1 . 3 4 2 S Q I N C H * * 4 0 % C O N D U I T F I L L P E R N . E . C . S T P = S H I E L D E D T W I S T E D P A I R I T E M S S U C H A S C A P A C I T A N C E B E T W E E N C O N D U C T O R S A N D W I R E G A U G E C A N B E C R U C I A L T O T H E C I R C U I T D E S I G N O F T H I S S Y S T E M I N S T A L L A T I O N . T H E I N S T A L L I N G C O N T R A C T O R I S R E S P O N S I B L E F O R S E L E C T I N G A N D I N S T A L L I N G C A B L E M A N U F A C T U R E R A N D M O D E L T H A T M E E T S O R E X C E E D S T H E A B O V E R E Q U I R E M E N T S . R E C O M M E N D E D C A B L E M A N U F A C T U R E R S A N D M O D E L N U M B E R S A R E A V A I L A B L E U P O N R E Q U E S T . G E N E R A L N O T E S : 1 . A L L C E I L I N G S A R E A S S U M E D T O B E 1 0 ' A . F . F . , S M O O T H C O N S T R U C T I O N U N L E S S N O T E D O T H E R W I S E . 2 . T H E D E V I C E A D D R E S S E S I N D I C A T E D O N T H E S E D R A W I N G S A R E A N A L P H A N U M E R I C D E S C R I P T I O N O F W H I C H C I R C U I T T H E D E V I C E I S L O C A T E D O N . D E V I C E S M A Y B E A S S I G N E D A D I F F E R E N T N U M B E R W I T H I N T H E P A N E L P R O G R A M . C O N S U L T W I T H A J O H N S O N C O N T R O L S T E C H N I C I A N B E F O R E A P P L Y I N G A P H Y S I C A L L A B E L T O A N Y D E V I C E S . 3 . A L L E X I S T I N G C I R C U I T I N G W I T H I N T H E S C O P E O F W O R K A R E A W I L L B E R E M O V E D D U R I N G D E M O A N D N E W W I R I N G W I L L B E I N S T A L L E D F O R C I R C U I T S . 4 . E X I S T I N G E Q U I P M E N T , D E V I C E S A N D W I R I N G A R E R E P R E S E N T E D I N A L I G H T E R C O L O R ( G R A Y ) A N D A R E T O R E M A I N A S - I S U N L E S S O T H E R W I S E N O T E D . 5 . N E W E Q U I P M E N T , D E V I C E S A N D W I R I N G A R E R E P R E S E N T E D I N A B O L D C O L O R ( B L A C K ) A N D A R E T O B E I N S T A L L E D A S D I R E C T E D O N P L A N S K E Y N O T E S : T I E S L C C I R C U I T S I N T O C L O S E S T E X I S T I N G 1 : M 5 D E V I C E . C I R C U I T I N T E G R I T Y T O B E K E P T F O R C I R C U I T I N G . A L S O T I E I N T O E X I S T I N G P O W E R C I R C U I T I N G I F N E C E S S A R Y . E X I S T I N G C I R C U I T I N G R E M O V E D F R O M D E M O . N E W C I R C U I T I N G T O B E H O M E R U N T O / F R O M N A C 1 ( W H E E L O C K P S - 8 ) F O R E X I S T I N G W H E E L O C K N O T I F I C A T I O N D E V I C E S . E X I S T I N G C I R C U I T I N G R E M O V E D F R O M D E M O . N E W C I R C U I T I N G T O B E H O M E R U N T O / F R O M N A C 3 ( W H E E L O C K P S - 8 ) F O R E X I S T I N G W H E E L O C K N O T I F I C A T I O N D E V I C E S . C U R R E N T L O C A T I O N O F N O D E 1 , N A C 1 & N A C 3 P A N E L S . R E L O C A T E E X I S T I N G N U R S E S T A T I O N F A A T O T H I S L O C A T I O N . K E E P E X I S T I N G R U I & P O W E R C I R C U I T S A S - I S . E X I S T I N G D E V I C E T O R E M A I N . W I R E I N T O I D N E T 1 : M 5 C I R C U I T . 1 2 3 4 5 6 S C A L E : K E Y P L A N N T S S C O P E O F W O R K A R E A N Pull station is accessibleto behavioral healthpatients, need to locate inSecurity Vestibule #222 C H I M E / S T R O B E B A M / J R W A 3 / 2 4 / 2 1 S I M P L E X 2 0 9 9 S I N G L E A C T I O N W I T H I N S T I T U T I O N A L C O V E R , K E Y O P E R A T E D O N L Y B A M , J R W A 3 / 2 4 / 2 1 A L L F I R E A L A R M N O T I F I C A T I O N S Y S T E M S S H A L L B E C E I L I N G M O U N T E D B A M , J R W A 3 / 2 4 / 2 1 LEVEL 1 L E V E L 1 I D N e t - 1 : M 5 S 1 : M 5 - 7 9 F 1 : M 5 - 8 1 S 1 : M 5 - 8 0 S 1 : M 5 - 8 2 S 1 : M 5 - 8 3 S 1 : M 5 - 8 4 S 1 : M 5 - 8 5 S 1 : M 5 - 8 7 S 1 : M 5 - 8 8 S 1 : M 5 - 8 9 N A C 1 : V 1 75NAC1:V3-1 75WPNAC1:V3-2 30NAC1:V3-3 N A C 1 : V 2 SANAC1:V1-1NAC1:V1-2 30CNAC1:V1-3 15CNAC1:V1-4 15CNAC1:V1-5 15CNAC1:V1-6 30CNAC1:V1-7 75CNAC1:V1-8 30NAC1:V1-9 15CNAC1:V1-10 15NAC1:V1-11 15 N A C 3 : V 3 SANAC3:V3-1 CNAC3:V3-2 15CNAC3:V3-3 15NAC3:V3-4 15CNAC3:V3-5 15CNAC3:V3-6 15CNAC3:V3-7 15CNAC3:V3-8 75CNAC3:V3-9 30 M 1 S S P 4 1 0 0 E S E X I S T I N G N O D E 1 F A C P 1 2 0 V O L T A C E X I S T I N G 1 : M 5 D E V I C E S E X I S T I N G 1 : M 5 D E V I C E S M M 1 S S P 1 2 0 V O L T A C P S - 8 E X I S T I N G W H E E L O C K P S 1 L O C A T E D I N 1 S T F L O O R M E C H C O R R L O C A T E D I N 1 S T F L O O R M E C H C O R R V V V VVV S 1 : M 5 - 9 1 K S 1 : M 5 - 8 6 A I M 1 : M 5 - 7 7 V S Z 6 . 8 K 1 S S P 1 2 0 V O L T A C P S - 8 E X I S T I N G W H E E L O C K P S 3 L O C A T E D I N 1 S T F L O O R M E C H C O R R F 1 : M 5 - 9 0 S H E E T : D R A W N B Y : C H E C K E D B Y : J O B # : P R O J E C T # : DESCRIPTIONCADDATEMARK S Y S T E M : CHK I S S U E D A T E : 30" x 42" - Arch E1 Size ISSUE LOG:Revisions shown with # symbol E R I C A R A N E N S O N N I C E T L E V E L I I I # 1 3 5 9 6 3 SCALE:RISER DIAGRAMN.T.S.LAST PRINTED:LAST SAVED BY:FILE PATH:C:\Users\janense\Desktop\1_OtherDistrictProjects\_BoiseJobs\MadisonMemorial\MMH_BehavioralHealthTI_650046977\Fire\FA-201.dwg3/18/2021 12:29:22 PM JANENSE 4 4 4 : 6 5 0 0 4 6 9 7 7 E . A N E N S O N D N 3 / 1 8 / 2 1 F I R E A L A R M S Y S T E M MADISON MEMORIAL HOSPITAL 450 E. MAIN ST. REXBURG, ID 83440-2013 8783 WEST HACKAMORE DRIVE BOISE, ID 83709 PHONE: 208-376-2111 SERVICE: 208-376-2111 FAX: 208-376-2192 4 4 4 0 4 6 9 7 7 DISTRICT - 444 F A - 2 0 1 R I S E R D I A G R A M & B A T T E R Y C A L C U A L T I O N S J O H N S O N C O N T R O L S © 2 0 2 1 MADISON MEMORIAL HOSPITAL BEHAVIORAL HEALTH-TI © Johnson Controls 2021. All rights reserved. Reuse, copying, modification or alteration of the drawings and other information contained herein is strictly prohibited. R I S E R N O T E S : 1 . R I S E R I S A D I A G R A M M A T I C A L R E P R E S E N T A T I O N O F T H E S Y S T E M A R C H I T E C T U R E I N B U I L D I N G C R O S S S E C T I O N . I T I S N O T I N T E N D E D T O R E P R E S E N T A C T U A L W I R E R U N S , P A N E L C O N F I G U R A T I O N S O R P E N E T R A T I O N S . R E F E R T O F L O O R P L A N S A N D P A N E L D E T A I L S F O R C I R C U I T R O U T I N G A N D C O N F I G U R A T I O N I N F O R M A T I O N . 2 . A L L W I R I N G S H A L L C O M P L Y W I T H A P P L I C A B L E E L E C T R I C A L C O D E S . R E F E R T O ' A P P L I C A B L E C O D E S & S T A N D A R D S ' O N S H E E T F A - 0 0 1 F O R S P E C I F I C C O D E R E F E R E N C E S . K E Y E D N O T E S : 1 2 0 V A C P R I M A R Y P O W E R S O U R C E S H A L L B E A M E C H A N I C A L L Y P R O T E C T E D B R A N C H C I R C U I T . T H E C I R C U I T D I S C O N N E C T I N G M E A N S S H A L L H A V E A R E D M A R K I N G , A N D B E I D E N T I F I E D A S " F I R E A L A R M C I R C U I T " 1 F I R E A L A R M S Y M B O L L E G E N D S Y M B O L D E S C R I P T I O N B R A N D M O D E L B A C K B O X W I R E T Y P E P A N E L S 4 1 0 0 E S F I R E A L A R M C O N T R O L P A N E L , 1 2 0 V A C S I M P L E X 4 1 0 0 - 9 1 1 1 S I M P L E X C A B I N E T N / A P O W E R P A T H 8 A M P N A C E X T E N D E R W / C L A S S A E X P A N S I O N M O D U L E W H E E L O C K P S - 8 N / A I N I T I A T I N G D E V I C E S A D D R E S S A B L E P H O T O E L E C T R I C S M O K E S E N S O R W / S T A N D A R D B A S E S I M P L E X 4 0 9 8 - 9 7 1 4 H E A D 4 " O C T , 1 - 1 / 2 " D M 4 0 9 8 - 9 7 9 2 B A S E A D D R E S S A B L E D O U B L E A C T I O N M A N U A L P U S H / P U L L S T A T I O N S I M P L E X 4 0 9 9 - 9 0 0 6 4 " S Q , 2 - 1 / 8 " D W / S I N G L E G A N G C O V E R M A D D R E S S A B L E D U C T S M O K E D E T E C T O R S I M P L E X 4 0 9 8 - 9 7 5 5 M O U N T S T O D U C T W O R K M M O D U L E S A N D R E L A Y S S Y N C C O N T R O L M O D U L E S I M P L E X 4 9 0 5 - 9 9 3 8 4 " S Q . 2 - 1 / 8 " D V I N D I V I D U A L A D D R E S S A B L E M O D U L E S I M P L E X 4 0 9 0 - 9 0 0 1 S I N G L E G A N G 2 - 1 / 2 " D W / C O V E R M Z N O T I F I C A T I O N A P P L I A N C E S C O N V E N T I O N A L M U L T I - C A N D E L A S T R O B E , C E I L I N G M O U N T , W H I T E , C L E A R L E N S , F I R E S I M P L E X 4 9 0 6 - 9 1 0 4 S I N G L E G A N G 2 - 1 / 2 " D V C O N V E N T I O N A L M U L T I - C A N D E L A H O R N / S T R O B E , C E I L I N G M O U N T , W H I T E , C L E A R L E N S , F I R E S I M P L E X 4 9 0 6 - 9 1 3 0 4 " S Q . 1 - 1 / 2 " D V C O N V E N T I O N A L M U L T I - C A N D E L A W E A T H E R P R O O F H O R N / S T R O B E , W A L L M O U N T , R E D , C L E A R L E N S , F I R E W H E E L O C K A S W P - 2 4 7 5 W - F R M F G V C O N V E N T I O N A L M U L T I - C A N D E L A H O R N / S T R O B E , W A L L M O U N T , R E D , C L E A R L E N S , F I R E W H E E L O C K M T - 2 4 M C W - F R 4 " S Q . 2 - 1 / 8 " D - F L U S H V M I S C E L L A N E O U S D E V I C E S T A M P E R S W I T C H B Y O T H E R S B Y O T H E R S Z R E M O T E T E S T S T A T I O N S I M P L E X 2 0 9 8 - 9 8 0 6 S I N G L E G A N G 2 " D K F A C P N A C 1 S F S A # # W P C # # A I M S V S A C C E P T A B L E C A B L E T Y P E S F I R E A L A R M W I R E L E G E N D FPLR FPLP THHN TFFN OUTDOOR ** C.I. C I R C U I T D E S C R I P T I O N C O N S T R U C T I O N G A U G E C I R C U I T P R O P E R T I E S B R U I + C O M M U N I C A T I O N U T P S O L I D 1 8 A W G 5 8 p f / f t . M A X C A P A C I T A N C E , 3 5 . 5 Ω T O T A L L I N E R E S I S T A N C E X X M I D N E T U T P S O L I D 1 8 A W G 6 0 µ F M A X T O T A L L I N E C A P A C I T A N C E X X P P O W E R 2 C O N D . S O L I D 1 4 A W G X X X X V V I S U A L 2 C O N D . S O L I D 1 4 A W G X X C O N D U I T S I Z E M A X C O N D U C T O R A R E A C O N D U I T S I Z E M A X C O N D U C T O R A R E A 1 / 2 " 0 . 1 2 2 S Q . I N C H * 1 - 1 / 4 " 0 . 5 9 8 S Q I N C H * 3 / 4 " 0 . 2 1 3 S Q I N C H * 1 - 1 / 2 " 0 . 8 1 4 S Q I N C H * 1 " 0 . 3 4 6 S Q I N C H * 2 " 1 . 3 4 2 S Q I N C H * * 4 0 % C O N D U I T F I L L P E R N . E . C . S T P = S H I E L D E D T W I S T E D P A I R I T E M S S U C H A S C A P A C I T A N C E B E T W E E N C O N D U C T O R S A N D W I R E G A U G E C A N B E C R U C I A L T O T H E C I R C U I T D E S I G N O F T H I S S Y S T E M I N S T A L L A T I O N . T H E I N S T A L L I N G C O N T R A C T O R I S R E S P O N S I B L E F O R S E L E C T I N G A N D I N S T A L L I N G C A B L E M A N U F A C T U R E R A N D M O D E L T H A T M E E T S O R E X C E E D S T H E A B O V E R E Q U I R E M E N T S . R E C O M M E N D E D C A B L E M A N U F A C T U R E R S A N D M O D E L N U M B E R S A R E A V A I L A B L E U P O N R E Q U E S T . M A D I S O N M E M O R I A L H O S P I T A L - N A C 1 1 S T F L R P S - 8 N A C E X T E N D E R S t a n d b y T o t a l A l a r m T o t a l M o d u l e Q t y D e s c r i p t i o n C u r r e n t S t a n d b y C u r r e n t A l a r m P a n e l E q u i p m e n t P S - 8 1 P O W E R P A T H 8 - A M P N A C E X T E N D E R 0 . 1 2 9 0 0 . 1 2 9 0 0 . 1 2 9 0 0 . 1 2 9 0 P S - E X P 1 C L A S S A E X P A N S I O N M O D U L E 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 P a n e l T o t a l s 0 . 1 2 9 0 0 . 1 2 9 0 N o t i f i c a t i o n A p p l i a n c e s S e t t i n g 4 9 0 5 - 9 9 3 8 1 T R U E A L E R T S Y N C C O N T R O L M O D U L E 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 3 4 0 0 . 0 3 4 0 4 9 0 6 - 9 1 0 4 2 V / O M C N O N - A D D R E S S , W H T , C E I L I N G 1 5 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 7 5 0 0 . 1 5 0 0 4 9 0 6 - 9 1 0 4 1 V / O M C N O N - A D D R E S S , W H T , C E I L I N G 3 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 1 2 5 0 0 . 1 2 5 0 4 9 0 6 - 9 1 3 0 4 A / V M C N O N - A D D R E S S , W H T , C E I L I N G 1 5 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 8 6 0 0 . 3 4 4 0 4 9 0 6 - 9 1 3 0 2 A / V M C N O N - A D D R E S S , W H T , C E I L I N G 3 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 1 3 2 0 0 . 2 6 4 0 4 9 0 6 - 9 1 3 0 1 A / V M C N O N - A D D R E S S , W H T , C E I L I N G 7 5 0 . 0 0 0 0 0 . 0 0 0 0 0 . 2 5 0 0 0 . 2 5 0 0 A S W P - 2 4 7 5 W - F R 1 W P H O R N S T R O B E 7 5 C D , 2 4 V D C W A L L , R E D W P 7 5 0 . 0 0 0 0 0 . 0 0 0 0 0 . 1 6 8 0 0 . 1 6 8 0 M T - 2 4 M C W - F R 1 M U L T I T O N E , M C D H O R N / S T R O B E , W A L L , R E D 3 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 9 2 0 0 . 0 9 2 0 M T - 2 4 M C W - F R 1 M U L T I T O N E , M C D H O R N / S T R O B E , W A L L , R E D 7 5 0 . 0 0 0 0 0 . 0 0 0 0 0 . 1 6 5 0 0 . 1 6 5 0 P e r i p h e r a l T o t a l s 0 . 0 0 0 0 1 . 5 9 2 0 A d d e d C u r r e n t f o r E P S C o n v e r s i o n o f 2 4 t o 2 9 V o l t I D N a c D e v i c e s 0 . 0 0 0 0 0 . 0 0 0 0 R U I T o t a l s 0 0 . 0 0 0 0 0 . 0 0 0 0 A d d r e s s T o t a l s 0 A d d r e s s e s 0 . 0 0 0 0 0 . 0 0 0 0 S y s t e m T o t a l s * : S t a n d b y 0 . 1 2 9 0 A l a r m 1 . 7 2 1 0 S t a n d b y S t a n d b y A l a r m A l a r m B a t t e r y S e t # 1 ( C a b i n e t / C h a r g e r # 1 ) C u r r e n t T o t a l C u r r e n t T o t a l S e l e c t A L L P o w e r S u p p l i e s o n t h i s b a t t e r y s e t : P S - 8 0 . 1 2 9 0 1 . 7 2 1 0 S u b T o t a l 0 . 1 2 9 0 1 . 7 2 1 0 T o t a l 0 . 1 2 9 0 1 . 7 2 1 0 S t a n d b y T i m e = 2 4 H r s x 0 . 1 2 9 0 = 3 . 0 9 6 0 S t a n d b y A h A l a r m T i m e = 5 M i n 0 . 0 8 3 3 3 x 1 . 7 2 1 = 0 . 1 4 3 4 A l a r m A h 3 . 2 3 9 4 A d d i t i o n a l S p a r e B a t t e r y C a p a c i t y = 0 % + 0 . 0 0 0 0 3 . 2 3 9 4 B a t t e r y D i s c h a r g e F a c t o r = 2 0 % + 0 . 6 4 7 9 M i n i m u m B a t t e r y R e q u i r e d 2 0 8 1 - 9 2 7 2 6 . 2 A H ( 2 x ) 3 . 8 8 7 3 B a t t e r y S u p p l i e d 2 0 8 1 - 9 2 7 4 1 0 A H ( 2 x ) * S y s t e m T o t a l s r e p r e s e n t t o t a l s y s t e m c u r r e n t r e q u i r e m e n t s . T h o s e c u r r e n t s m a y b e d i s t r i b u t e d b e t w e e n m u l t i p l e b a t t e r y s e t s o r p o w e r s u p p l i e s a s s h o w n a b o v e . M A D I S O N M E M O R I A L H O S P I T A L - N A C 1 1 S T F L R P S - 8 N A C E X T E N D E R V O L T A G E D R O P S P I D 4 9 0 6 - 9 1 3 0 4 9 0 6 - 9 1 3 0 4 9 0 6 - 9 1 3 0 4 9 0 6 - 9 1 0 4 4 9 0 6 - 9 1 0 4 A S W P - 2 4 7 5 W - F R M T - 2 4 M C W - F R M T - 2 4 M C W - F R 4 9 0 5 - 9 9 3 8 S e t t i n g 1 5 c d 3 0 c d 7 5 c d 1 5 c d 3 0 c d W P 7 5 3 0 c d 7 5 c d W I R E R E S I S T A N C E B A S E D O N T A B L E 8 F R O M N A T I O N A L E L E C T R I C A L C O D E ( U N C O A T E D S T R A N D E D C O P P E R W I R E ) @ 7 5 C e l s i u s D e v i c e T y p e M C C E I L A / V M C C E I L A / V M C C E I L A / V M C C E I L V / O M C C E I L V / O A / V M C A / V M C A / V S Y N C S u p v . C u r r e n t 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 A l a r m C u r r e n t 0 . 0 8 6 0 0 . 1 3 2 0 0 . 2 5 0 0 0 . 0 7 5 0 0 . 1 2 5 0 0 . 1 6 8 0 0 . 0 9 2 0 0 . 1 6 5 0 0 . 0 3 4 0 A l a r m C u r r e n t @ 2 3 V o l t s 0 . 0 8 6 0 0 . 1 3 2 0 0 . 2 5 0 0 0 . 0 7 5 0 0 . 1 2 5 0 0 . 1 6 8 0 0 . 0 9 2 0 0 . 1 6 5 0 0 . 0 0 0 0 P o w e r P a n e l P l a n D i s t . ( D ) W i r e W i r e R e s . T o t a l V . D r o p V o l t % V o l t M i n D e v i c e M a x N O T I F I C A T I O N C I R C U I T D E S C R I P T I O N S u p p l y C i r c u i t C k t . F e e t G a u g e / F t . ( R ) A l a r m ( A ) ( A * 2 D * R ) @ E n d D r o p V o l t a g e D i s t a n c e B E H A V I O R A L H E A L T H C K T 1 P S - 8 S I G 1 S I G 3 4 2 5 1 4 g a 0 . 0 0 3 1 1 . 1 6 7 3 . 1 1 5 1 6 . 3 8 5 1 5 . 9 7 % 1 6 v d c 4 7 8 F t . 4 2 1 2 1 1 U N K N O W N E X I S T I N G P S - 8 S I G 2 S I G 4 1 4 g a 0 . 0 0 3 1 0 . 0 0 0 0 . 0 0 0 1 9 . 5 0 0 0 . 0 0 % 1 6 v d c 0 F t . E X I S T I N G W H E E L O C K B H C K T P S - 8 S I G 3 S I G 5 3 7 5 1 4 g a 0 . 0 0 3 1 0 . 4 2 5 1 . 0 0 1 1 8 . 4 9 9 5 . 1 3 % 1 6 v d c 1 3 1 1 F t . 1 1 1 U N K N O W N E X I S T I N G P S - 8 S I G 4 S I G 6 1 4 g a 0 . 0 0 3 1 0 . 0 0 0 0 . 0 0 0 1 9 . 5 0 0 0 . 0 0 % 1 6 v d c 0 F t . N O T E : L U M P S U M M E T H O D W A S U S E D T O C A L C U L A T E A L L O W A B L E V O L T A G E D R O P . T H I S M E T H O D A L L O W S F O R A S M A L L M A R G I N O F S A F E T Y , T A K I N G I N T O C O N S I D E R A T I O N T H A T T H E A C T U A L I N S T A L L E D C I R C U I T R O U T I N G M A Y D I F F E R F R O M W H A T I S S H O W N O N T H E S H O P D R A W I N G S . I F T H E A C T U A L C I R C U I T L E N G T H I S G O I N G T O E X C E E D T H E M A X I M U M A L L O W A B L E C I R C U I T L E N G T H , C O N T A C T Y O U R L O C A L J O H N S O N C O N T R O L S D I S T R I C T O F F I C E . S C A L E : N A C 1 B A T T T E R Y C A L C U L A T I O N S N . T . S . M A D I S O N M E M O R I A L H O S P I T A L - N A C 3 1 S T F L R P S - 8 N A C E X T E N D E R S t a n d b y T o t a l A l a r m T o t a l M o d u l e Q t y D e s c r i p t i o n C u r r e n t S t a n d b y C u r r e n t A l a r m P a n e l E q u i p m e n t P S - 8 1 P O W E R P A T H 8 - A M P N A C E X T E N D E R 0 . 1 2 9 0 0 . 1 2 9 0 0 . 1 2 9 0 0 . 1 2 9 0 P S - E X P 1 C L A S S A E X P A N S I O N M O D U L E 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 P a n e l T o t a l s 0 . 1 2 9 0 0 . 1 2 9 0 N o t i f i c a t i o n A p p l i a n c e s S e t t i n g 4 9 0 5 - 9 9 3 8 1 T R U E A L E R T S Y N C C O N T R O L M O D U L E 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 3 4 0 0 . 0 3 4 0 4 9 0 6 - 9 1 0 4 1 V / O M C N O N - A D D R E S S , W H T , C E I L I N G 1 5 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 7 5 0 0 . 0 7 5 0 4 9 0 6 - 9 1 3 0 5 A / V M C N O N - A D D R E S S , W H T , C E I L I N G 1 5 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 8 6 0 0 . 4 3 0 0 4 9 0 6 - 9 1 3 0 1 A / V M C N O N - A D D R E S S , W H T , C E I L I N G 3 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 1 3 2 0 0 . 1 3 2 0 4 9 0 6 - 9 1 3 0 1 A / V M C N O N - A D D R E S S , W H T , C E I L I N G 7 5 0 . 0 0 0 0 0 . 0 0 0 0 0 . 2 5 0 0 0 . 2 5 0 0 P e r i p h e r a l T o t a l s 0 . 0 0 0 0 0 . 9 2 1 0 A d d e d C u r r e n t f o r E P S C o n v e r s i o n o f 2 4 t o 2 9 V o l t I D N a c D e v i c e s 0 . 0 0 0 0 0 . 0 0 0 0 R U I T o t a l s 0 0 . 0 0 0 0 0 . 0 0 0 0 A d d r e s s T o t a l s 0 A d d r e s s e s 0 . 0 0 0 0 0 . 0 0 0 0 S y s t e m T o t a l s * : S t a n d b y 0 . 1 2 9 0 A l a r m 1 . 0 5 0 0 S t a n d b y S t a n d b y A l a r m A l a r m B a t t e r y S e t # 1 ( C a b i n e t / C h a r g e r # 1 ) C u r r e n t T o t a l C u r r e n t T o t a l S e l e c t A L L P o w e r S u p p l i e s o n t h i s b a t t e r y s e t : P S - 8 0 . 1 2 9 0 1 . 0 5 0 0 S u b T o t a l 0 . 1 2 9 0 1 . 0 5 0 0 T o t a l 0 . 1 2 9 0 1 . 0 5 0 0 S t a n d b y T i m e = 2 4 H r s x 0 . 1 2 9 0 = 3 . 0 9 6 0 S t a n d b y A h A l a r m T i m e = 5 M i n 0 . 0 8 3 3 3 x 1 . 0 5 = 0 . 0 8 7 5 A l a r m A h 3 . 1 8 3 5 A d d i t i o n a l S p a r e B a t t e r y C a p a c i t y = 0 % + 0 . 0 0 0 0 3 . 1 8 3 5 B a t t e r y D i s c h a r g e F a c t o r = 2 0 % + 0 . 6 3 6 7 M i n i m u m B a t t e r y R e q u i r e d 2 0 8 1 - 9 2 7 2 6 . 2 A H ( 2 x ) 3 . 8 2 0 2 B a t t e r y S u p p l i e d 2 0 8 1 - 9 2 7 4 1 0 A H ( 2 x ) * S y s t e m T o t a l s r e p r e s e n t t o t a l s y s t e m c u r r e n t r e q u i r e m e n t s . T h o s e c u r r e n t s m a y b e d i s t r i b u t e d b e t w e e n m u l t i p l e b a t t e r y s e t s o r p o w e r s u p p l i e s a s s h o w n a b o v e . M A D I S O N M E M O R I A L H O S P I T A L - N A C 3 1 S T F L R P S - 8 N A C E X T E N D E R V O L T A G E D R O P S P I D 4 9 0 6 - 9 1 3 0 4 9 0 6 - 9 1 3 0 4 9 0 6 - 9 1 3 0 4 9 0 6 - 9 1 0 4 4 9 0 5 - 9 9 3 8 S e t t i n g 1 5 c d 3 0 c d 7 5 c d 1 5 c d W I R E R E S I S T A N C E B A S E D O N T A B L E 8 F R O M N A T I O N A L E L E C T R I C A L C O D E ( U N C O A T E D S T R A N D E D C O P P E R W I R E ) @ 7 5 C e l s i u s D e v i c e T y p e M C C E I L A / V M C C E I L A / V M C C E I L A / V M C C E I L V / O S Y N C S u p v . C u r r e n t 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 0 . 0 0 0 0 A l a r m C u r r e n t 0 . 0 8 6 0 0 . 1 3 2 0 0 . 2 5 0 0 0 . 0 7 5 0 0 . 0 3 4 0 A l a r m C u r r e n t @ 2 3 V o l t s 0 . 0 8 6 0 0 . 1 3 2 0 0 . 2 5 0 0 0 . 0 7 5 0 0 . 0 0 0 0 P o w e r P a n e l P l a n D i s t . ( D ) W i r e W i r e R e s . T o t a l V . D r o p V o l t % V o l t M i n D e v i c e M a x N O T I F I C A T I O N C I R C U I T D E S C R I P T I O N S u p p l y C i r c u i t C k t . F e e t G a u g e / F t . ( R ) A l a r m ( A ) ( A * 2 D * R ) @ E n d D r o p V o l t a g e D i s t a n c e U N K N O W N E X I S T I N G P S - 8 S I G 1 S I G 3 1 4 g a 0 . 0 0 3 1 0 . 0 0 0 0 . 0 0 0 1 9 . 5 0 0 0 . 0 0 % 1 6 v d c 0 F t . U N K N O W N E X I S T I N G P S - 8 S I G 2 S I G 4 1 4 g a 0 . 0 0 3 1 0 . 0 0 0 0 . 0 0 0 1 9 . 5 0 0 0 . 0 0 % 1 6 v d c 0 F t . B E H A V I O R A L H E A L T H C K T 2 P S - 8 S I G 3 S I G 5 4 0 0 1 4 g a 0 . 0 0 3 1 0 . 9 2 1 2 . 3 1 4 1 7 . 1 8 6 1 1 . 8 6 % 1 6 v d c 6 0 5 F t . 5 1 1 1 1 U N K N O W N E X I S T I N G P S - 8 S I G 4 S I G 6 1 4 g a 0 . 0 0 3 1 0 . 0 0 0 0 . 0 0 0 1 9 . 5 0 0 0 . 0 0 % 1 6 v d c 0 F t . N O T E : L U M P S U M M E T H O D W A S U S E D T O C A L C U L A T E A L L O W A B L E V O L T A G E D R O P . T H I S M E T H O D A L L O W S F O R A S M A L L M A R G I N O F S A F E T Y , T A K I N G I N T O C O N S I D E R A T I O N T H A T T H E A C T U A L I N S T A L L E D C I R C U I T R O U T I N G M A Y D I F F E R F R O M W H A T I S S H O W N O N T H E S H O P D R A W I N G S . I F T H E A C T U A L C I R C U I T L E N G T H I S G O I N G T O E X C E E D T H E M A X I M U M A L L O W A B L E C I R C U I T L E N G T H , C O N T A C T Y O U R L O C A L J O H N S O N C O N T R O L S D I S T R I C T O F F I C E . S C A L E : N A C 3 B A T T T E R Y C A L C U L A T I O N S N . T . S . Madison Memorial Hospital - NODE 1 4100es FACPStandbyTotalAlarmTotalModuleQtyDescriptionCurrentStandbyCurrentAlarmPanel Equipment4100-911114100 CONFIG. DOMESTIC 120V*0.37300.37300.47000.47004100-60141NETWORK IF CARD, WIRED0.04600.04600.04600.04604100-60381DUAL RS-232 IF CARD0.13200.13200.13200.13204100-12912REMOTE UNIT INTERFACE0.08500.17000.08500.17004100-320638 RELAYS - 3 AMP0.01500.04500.19000.57004100-60521EVENT REPORTING DACT0.03000.03000.04000.04004100-31024MAPNET MODULE, UP TO 127 PTS*0.25501.02000.27501.10004100-60051MASTER CONTROLLER POWER SUPPLY0.00000.00000.00000.00004100-320318 RELAYS, 3 AMP CONTACTS0.02500.02500.28000.28004100-31032MAPNET ISOLATOR MODULE*0.05000.10000.05000.10004100-51251REMOTE POWER SUPPLY W/CHARGER - 120VAC0.15000.15000.18500.18504100-50051ZONE MODULE, 8 IDC, CLASS B0.07500.07500.19500.19504100-51012EXPANSION PWR SUPPLY (XPS) - 120VAC 60HZ0.05000.10000.05000.10004100-51161EXPANSION AUDIO SIGNAL CARD0.01800.01800.08000.08004100-06201TRANSPONDER INTERFACE MODULE0.08700.08700.08700.0870Panel Totals2.37103.5550IDNet Addressable Devices (SLC)4099-90067ADDRESSABLE DOUBLE ACTION MANUAL STATION, PUSH*Constant current draw of .8mA standby and 1mA alarm per address used.Devices requiring additional current are accounted for in the sectionlabeled "Miscellaneous Peripheral Devices Requiring Additional SystemPower".4090-90017IDNET SUPERVISED IAM*4098-971442TRUEALARM PHOTO SMOKE SENSOR4098-97332TRUEALARM HEAT SENSOR*4098-97565TRUEALARM DUCT SMOKE SENSOR W/ RELAY OUTPUT*4098-979240TRUEALARM SENSOR BASE*4098-97804TRUEALARM 2 WIRE RELAY SENSOR BASE*Mapnet Addressable Devices (SLC)2190-91722MAPNET SUPERVISED IAM*2099-979519MAPNET SINGLE ACTION PULL STATION*4098-9714133TRUEALARM PHOTO SMOKE SENSOR4098-973312TRUEALARM HEAT SENSOR*4098-9792145TRUEALARM SENSOR BASE*2190-917012MAPNET ISOLATOR MODULE*Miscellaneous Peripheral Devices That Require (Additional) System Power4098-98435ENCAPSULATED RELAY PAM-SD0.00000.00000.01500.07504098-97565TRUEALARM DUCT SMOKE SENSOR W/ RELAY OUTPUT0.00300.01500.01500.07504098-986042-WIRE RELAY FOR USE WITH 4098-9780 SENSOR BASE0.00000.00000.00000.0000Peripheral Totals0.01500.1500Added Current for EPS Conversion of 24 to 29 Volt IDNac Devices0.00000.0000RUI Totals00.00000.0000Address Totals234Addresses0.33750.3509* Device Address current draw included below (See Additional Current Draws):System Totals*:Standby2.7235Alarm4.05591. 2-wire detector alarm current is included in the alarm current of the Initiating Device Circuit.2. Backup Amplifier assumes Main Amplifier alarm current on failure.StandbyStandbyAlarmAlarmBattery Set #1 (Cabinet/Charger #1)CurrentTotalCurrentTotalSelect ALL Power Supplies on this battery set:SPS-12.13603.4200XPS-20.05000.0500XPS-30.05000.0500RPS-40.15000.1850Sub Total2.38603.7050Additional Current Draws:MAPNET/IDNet Device Address Communication Current234x 0.001442= 0.3375x 0.001500= 0.3509Sub Total2.72354.0559Spare addressable point capacity0%0x 0.001442= 0.0000x 0.0015= 0.0000Total2.72354.0559Standby Time =24Hrsx 2.7235= 65.3640Standby AhAlarm Time =5Min0.08333 x 4.0559= 0.3380Alarm Ah65.7020Additional Spare Battery Capacity =0%+0.000065.7020Battery Discharge Factor =20%+13.1404Minimum Battery Required2081-9279 110AH (2x)78.8424Battery Supplied2081-9279 110AH (2x)* System Totals represent total system current requirements. Those currents may be distributed between multiple battery sets or power supplies as shown above.IDNET CHANNEL N1:M5ADDRESSES IN USE: 67 (26.8%) | SPARE ADDRESSES: 183 (73.2%) SWITCH SETTINGSAddressDevice TypePoint TypeLocation Description123456789N1:M5-79PHOTOSMOKENICU SECURITY VESTIBULEN1:5-79XXXXXONN1:M5-80RPHOTOSMOKENICU CORRIDOR 236N1:5-80XXONN1:M5-81ADRPULPULLNICU BY NURSES STATIONN1:5-81XXXONN1:M5-82PHOTOSMOKENICU CORRDOR 212N1:5-82XXXONN1:M5-83PHOTOSMOKENICU DAY ROOM 210N1:5-83XXXXONN1:M5-84PHOTOSMOKENICU CORRIDOR 212N1:5-84XXXONN1:M5-85RPHOTODUCTNICU DINING DUCT DETECTORN1:5-85XXXXONN1:M5-86PHOTOSMOKENICU CORRIDOR 212N1:5-86XXXXONN1:M5-87PHOTOSMOKENICU CORRIDOR 216N1:5-87XXXXXONN1:M5-88PHOTOSMOKENICU CORRIDOR 227N1:5-88XXXONN1:M5-89PHOTOSMOKENICU CORRIDOR 227N1:5-89XXXXONN1:M5-90ADRPULPULLAHU HALL BY BACK EXITN1:5-90XXXXONN1:M5-91PHOTOSMOKENICU CORRIDOR 236N1:5-91XXXXXONN1:M5-92REMOVE FROM PROGRAMN1:5-92XXXXONN1:M5-93REMOVE FROM PROGRAMN1:5-93XXXXXONN1:M5-94REMOVE FROM PROGRAMN1:5-94XXXXXONSCALE:NODE 1 BATTTERY CALCULATIONSN.T.S.DEVICES AFFECTED IN SCOPE OF WO R K A R E A . (EXISTING M5-85 & M5-90 DEVICES THAT ARE TO RE M A I N W I L L K E E P T H E I R E X I S T I N G A D D R E S S E S ) S H E E T : D R A W N B Y : C H E C K E D B Y : J O B # : P R O J E C T # : DESCRIPTIONCADDATEMARK S Y S T E M : CHK I S S U E D A T E : 30" x 42" - Arch E1 Size ISSUE LOG:Revisions shown with # symbol E R I C A R A N E N S O N N I C E T L E V E L I I I # 1 3 5 9 6 3 LAST PRINTED:LAST SAVED BY:FILE PATH:C:\Users\janense\Desktop\1_OtherDistrictProjects\_BoiseJobs\MadisonMemorial\MMH_BehavioralHealthTI_650046977\Fire\FA-701.dwg3/18/2021 12:29:28 PM JANENSE 4 4 4 : 6 5 0 0 4 6 9 7 7 E . A N E N S O N D N 3 / 1 8 / 2 1 F I R E A L A R M S Y S T E M MADISON MEMORIAL HOSPITAL 450 E. MAIN ST. REXBURG, ID 83440-2013 8783 WEST HACKAMORE DRIVE BOISE, ID 83709 PHONE: 208-376-2111 SERVICE: 208-376-2111 FAX: 208-376-2192 4 4 4 0 4 6 9 7 7 DISTRICT - 444 F A - 7 0 1 W I R I N G T Y P I C A L S J O H N S O N C O N T R O L S © 2 0 2 1 MADISON MEMORIAL HOSPITAL BEHAVIORAL HEALTH-TI © Johnson Controls 2021. All rights reserved. Reuse, copying, modification or alteration of the drawings and other information contained herein is strictly prohibited.DEVICE MOUNTING HEIGHT REFERENCEPER NFPA 72 S I D E W A L L C E I L I N G VISUAL APPLIANCE MOUNTING HEIGHT CONSIDERATIONS IN SLEEPING ROOMS1.MIN DISTANCE IN SLEEPING ROOMS IS 24" (610mm) FROM CEILING TO TOPOF LENS FOR 110CD STROBES WITHIN 16' OF THE PILLOW2.177CD STROBES, USED IN SLEEPING ROOMS, CAN BE WITHIN THE 24"(610mm) MINIMUM DISTANCE FROM THE CEILING. THE HIGHER INTENSITY ISTO COMPENSATE FOR A POSSIBLE SMOKE LAYER.AUDIBLE ONLYAUDIBLE/VISUAL& VISUAL ONLYAPPLIANCESSYNCHRONIZE MORETHAN TWO APPLIANCESIN ANY FIELD OF VIEW.NOTE: REFER TO THE PROPER DEVICEINSTALLATION INSTRUCTIONSFOR BACKBOX MOUNTING HEIGHT. N O T E : M E A S U R E M E N T S S H O W N A R E T O T H E C L O S E S T E D G E O F T H E D E T E C T O R . T H E 4 " R E Q U I R E M E N T F O R S M O K E D E T E C T O R S H A S B E E N R E M O V E D F R O M T H E 2 0 1 0 E D I T I O N O F N F P A 7 2 C E I L I N G M O U N T E D S M O K E / H E A T D E T E C T O R A C C E P T E D H E R E H E A T D E T E C T O R S N E V E R H E R E W A L L M O U N T E D S M O K E / H E A T D E T E C T O R 4 " ( 1 0 2 m m ) 4 " ( 1 0 2 m m ) 3' (914mm)MINIMUM A/C SUPPLYOR RETURNDIFFUSERFINISHEDFLOORFIREMAGNETICDOORHOLDERFIREPHONEJACKFOR CEILING HEIGHTS LESS THAN 86"(2180mm), THE VISUAL LENS MOUNTING HEIGHTSHALL BE WITHIN 6" (150mm) OF THE CEILING.96" MAX (ADA, IBC, NFPA)(2440mm MAX)ABOVE FINISHED FLOORTO TOP OF LENS48" MAX (ADA) (1219mm)48" MAX (NFPA, ADA) (1219mm MAX)42" MIN (NFPA) (1067mm MIN)MEASUREMENTS SHOWN ARETO TOP OF PULL HANDLE MANUAL PULLSTATION TO EXIT DOOR5' (MAX.)(1524mm)DOORWIDTHLESS 3"(76mm)5"(127mm)90" MIN (2286mm MIN)ABOVE FINISHED FLOOR(OTHER MOUNTING HEIGHTS SHALL BEPERMITTED BY THE AHJ PROVIDING IT MEETSTHE SOUND LEVEL OUTPUT REQUIRED.)NFPA 72 AUDIBLE APPLIANCE 6" MIN(152.4mm MIN) BELOW FINISHED CEILINGFIRE F I N I S H E D W A L L 1 2 " ( 3 0 5 m m ) M A X I M U M T O T O P O F S E N S O R 80" MIN (ADA, IBC, NFPA)(2032mm MIN)ABOVE FINISHED FLOORTO BOTTOM OF LENS1.MAINTAIN CORRECT POLARITY ON TERMINALCONNECTIONS.2.ALWAYS CUT CONDUCTORS AND SECURE UNDERTERMINALS. NEVER LOOP WIRES UNDERTERMINALS.3.ANY WIRE SPLICES TO BE MADE BY LISTED ANDAHJ APPROVED METHODS.WIRING NOTES1.FOR ADDITIONAL MOUNTING OPTIONS, DOWNLOAD DATA SHEET 4906-0002 FROM HTTP://WWW.SIMPLEX-FIRE.COM2.4905-9928 ADAPTER PLATE REQUIRED WITH OPTIONAL 4905-9927 RED WIRE GUARD STROBECIRCUIT(+)(-)(+)(-)TERMINATION VIEW: DEVICE MOUNTING PLATE INTENSITYSELECTION PLUG,ACCESSIBLE ONLYFROM REAR OFHOUSINGCLASS A WIRING STROBECIRCUIT(RETURN)MOUNTING OPTION "A"MAGNETIC TESTLOCATIONSTROBE INTENSITYSETTING VIEWABLETHROUGH THE LENS ELECTRICAL BOX PROVIDEDBY ELECTRICAL CONTRACTOR.NOTE: DO NOT BRING CONDUITTHROUGH THE REAR OF THEELECTRICAL BOX.110753015 TrueAlert CONVENTIONAL APPLIANCESSIMPLEX 4906 SERIES CEILING MOUNTED AUDIBLE / VISUALMOUNTING OPTIONSOPTION1DESCRIPTIONNOTEA4" (102mm) SQUARE BOX, 1-1/2" (38mm) DEEP, MINIMUMBY OTHERSBSURFACE MOUNT 4" (102mm) SQUARE BOX, 1-1/2" (38mm) DEEP,MINIMUM 4905-9915 (WHITE) OR 4905-9916(RED) ADAPTERRECOMMENDED, ORDERED SEPARATELY0=OFF1=ON241242244245243240247248250251249253254255252246193194196197195209210211212213192208145146148149147161162163164165144160176177178179180181199200202203201215216217218219205206207221222223204220151152154155153167168169170171157158159173174175156172183184185186187188189190191150166182198214224225226227228229230231232233234235236237238239 1286432786842423516ADDRESS SHOWN ABOVE IS 120 1ON1OFF1291301321331319798100101991131141151161179611212881828485834950525351656667686948648013513613913813710310410610710511912012112212314214114310911011112512612710812414087889190895556585957717273747594939561626377787960769254708610211813433343637351245317181920210163239404342417810119232425262746454713141529303112284462238DIP SWITCHES 5 THRU 8 DO NOT USE ADDRESS 0 FOR AN IDNET ADDRESS 9NOTE:THE 4098-9771, -9794, -9795, -9798 SOUNDER BASES HAVE A 9-POSITION DIP SWITCH. THE FIRST EIGHT DIP SWITCHES SET THESOUNDER BASE ADDRESS. DIP SWITCH POSITION 9 IS SET TO OFF OR ON DEPENDING UPON THE SOUNDER BASE POWERSOURCE. WHEN THE SOUNDER BASE IS CONNECTED TO A 24 VDC POWER SOURCE, DIP SWITCH POSITION 9 IS SET TO “OFF”AND THE 24 VDC POWER IS SUPERVISED BY THE SOUNDER BASE. WHEN THE SOUNDER BASE IS POWERED BY THE PANEL’SNOTIFICATION APPLIANCE CIRCUIT (NAC), DIP SWITCH POSITION 9 IS SET TO “ON” AND THE POWER IS SUPERVISED BY THENAC AND NOT THE SOUNDER BASE. THE 4098-9770 AND -9797 BASES HAVE THE SAME LAYOUT, BUT DOESN’T OFFERSOUNDER FUNCTIONALITY. THEY USE AN 8-WAY DIP SWITCH ONLY.SEENOTEDIPSWITCHES1 THRU 4 DIP SWITCH SETTINGS - INITIATINGSIMPLEX IDNet 0 = O F F BAUD64 8 7 16 8 4 5 34 2 1 ON12ADDRESS SHO W N A B O V E I S 5 6 6 32DO NOT USE ADDRESS 0 F O R A R U I A D D R E S S 1 1 4 1 1 3 1 1 7 1 1 6 1 1 5 1 1 2 1 1 9 1 1 8 8 1 8 2 8 4 8 5 8 3 6 6 6 5 6 9 6 8 6 7 8 0 6 4 4 9 5 0 3 3 3 4 5 2 5 3 3 6 3 7 3 5 5 1 1 8 1 7 2 1 2 0 1 9 3 2 1 6 4 8 8 7 8 8 9 1 9 0 8 9 7 2 7 1 7 5 7 4 7 3 9 4 9 3 9 5 7 8 7 7 7 9 9 2 7 6 5 5 5 6 3 9 4 0 5 9 5 8 4 3 4 2 4 1 5 7 2 4 2 3 2 7 2 6 2 5 6 2 6 1 4 6 4 5 6 3 4 7 3 0 2 9 3 1 4 4 2 8 6 0 3 8 2 2 8 6 7 0 5 4 D I P S W I T C H E S 1 T H R U 4 1 0 2 1 0 8 1 1 1 1 1 0 1 0 9 1 0 5 1 0 7 1 0 6 1 0 4 1 0 3 9 6 9 9 1 0 1 1 0 0 9 8 9 7 12453 07811109141315126 OFF 1 = O N DIPSWITCHES5 THRU 8 COMMUNICATIONS D I P S W I T C H S E T T I N G S SIMPLEX RUI (REMOTE UNIT INTERFAC E ) 1 . M A I N T A I N C O R R E C T P O L A R I T Y O N T E R M I N A L C O N N E C T I O N S . 2 . A L W A Y S C U T C O N D U C T O R S A N D S E C U R E U N D E R T E R M I N A L S . N E V E R L O O P W I R E S U N D E R T E R M I N A L S . 3 . A N Y W I R E S P L I C E S T O B E M A D E B Y L I S T E D A N D A H J A P P R O V E D M E T H O D S . W I R I N G N O T E S T O P O F P U L L H A N D L E T O B E M O U N T E D A T 4 2 " - 4 8 " A . F . F . 1 . F O R A D D I T I O N A L M O U N T I N G O P T I O N S , D O W N L O A D D A T A S H E E T 4 0 9 9 - 0 0 0 5 F R O M H T T P : / / W W W . S I M P L E X - F I R E . C O M A L A R M F I R E P U L L D O W N 1 2 3 4 I D N e t S L C ( - ) ( + ) I D N e t S L C ( R E T U R N ) ( - ) ( + ) A D D R E S S A B L E P U L L S T A T I O N S 1 2 3 4 C L A S S A W I R I N G T E R M I N A T I O N V I E W : D E V I C E R E A R P U S H 4 0 9 9 - 9 0 0 5 B R E A K G L A S S 4 0 9 9 - 9 0 0 6 P U S H W I T H 2 0 9 9 - 9 8 2 8 I N S T I T U T I O N A L C O V E R K I T 4 0 9 9 - 9 0 0 4 S I N G L E A C T I O N 4 0 9 9 - 9 0 2 1 N O G R I P S I N G L E A C T I O N 4 0 9 9 - 9 8 0 5 N O G R I P R E T R O F I T K I T M O U N T I N G O P T I O N " B " S I M P L E X 4 0 9 9 S E R I E S M O U N T I N G O P T I O N S O P T I O N 1 D E S C R I P T I O N N O T E A S I N G L E G A N G B O X , 2 - 1 / 2 " ( 6 4 m m ) D E E P B Y O T H E R S B 4 " ( 1 0 2 m m ) S Q U A R E B O X , 2 - 1 / 8 " D E E P ( M I N ) W / S I N G L E G A N G C O V E R P L A T E 3 / 4 " ( 1 9 m m ) E X T E N S I O N B Y O T H E R S C S I M P L E X 2 9 7 5 - 9 0 2 2 - 5 H x 3 - 7 / 8 " W x 2 - 3 / 1 6 " D ( 1 2 7 m m x 9 8 m m x 5 6 m m ) O R D E R E D S E P A R A T E L Y D S I M P L E X 2 9 7 5 - 9 1 7 8 - 5 - 3 / 4 " H x 3 - 7 / 8 " W x 2 - 3 / 1 6 " D ( 1 3 2 m m x 1 0 2 m m x 5 6 m m ) O R D E R E D S E P A R A T E L Y K E Y O P E R A T E D O N L Y 1 . M A I N T A I N C O R R E C T P O L A R I T Y O N T E R M I N A L C O N N E C T I O N S . 2 . A L W A Y S C U T C O N D U C T O R S A N D S E C U R E U N D E R T E R M I N A L S . N E V E R L O O P W I R E S U N D E R T E R M I N A L S . 3 . A N Y W I R E S P L I C E S T O B E M A D E B Y L I S T E D A N D A H J A P P R O V E D M E T H O D S . W I R I N G N O T E S 1 . F O R A D D I T I O N A L M O U N T I N G O P T I O N S , S E E M A N U F A C T U R E R D A T A S H E E T . C L A S S A W I R I N G - 2 W I R E C O N F I G U R A T I O N M O U N T I N G O P T I O N " A " T E R M I N A T I O N V I E W : S P E A K E R M O U N T I N G P L A T E ( + ) ( - ) ( + ) ( - ) ( - ) ( + ) V I S ( - ) ( + ) V I S T O N E X T D E V I C E O R R E T U R N T O F A C P M O U N T I N G O P T I O N " B " C O N V E N T I O N A L N O T I F I C A T I O N A P P L I A N C E S W H E E L O C K M T - 2 4 M C W S E R I E S W A L L M O U N T E D H O R N / S T R O B E ( - ) ( + ) A U D ( - ) ( + ) A U D W H E E L O C K I O B - R ( 2 ) W O O D S C R E W S ( 4 ) # 8 - 1 8 X 1 " S C R E W S ( 4 ) S C R E W C O V E R S M O U N T I N G O P T I O N S O P T I O N 1 D E S C R I P T I O N N O T E A 4 " ( 1 0 2 m m ) S Q U A R E B O X , 2 - 1 / 8 " ( 5 4 m m ) D E E P - F L U S H M O U N T I N G B Y O T H E R S B W H E E L O C K I O B - R S U R F A C E M O U N T B O X 2 M A N U F A C T U R E R E L E C T R I C A L B O X ( 2 ) # 8 - 1 8 X 1 " S C R E W S ( 4 ) S C R E W C O V E R S N A C C I R C U I T 1 . M A I N T A I N C O R R E C T P O L A R I T Y O N T E R M I N A L C O N N E C T I O N S . 2 . A L W A Y S C U T C O N D U C T O R S A N D S E C U R E U N D E R T E R M I N A L S . N E V E R L O O P W I R E S U N D E R T E R M I N A L S . 3 . A N Y W I R E S P L I C E S T O B E M A D E B Y L I S T E D A N D A H J A P P R O V E D M E T H O D S . W I R I N G N O T E S I D N e t S L C ( - ) ( + ) ( - ) ( + ) S T A N D A R D S E N S O R B A S E T E R M I N A T I O N V I E W : D E V I C E R E A R C L A S S A W I R I N G S E N S O R I D N e t S L C ( R E T U R N ) 3 ' ( 9 4 1 m m ) M I N . 4 " ( 1 0 2 m m ) C E I L I N G M O U N T E D S E N S O R H E A T S E N S O R S N E V E R H E R E 1 2 " ( 3 0 5 m m ) M A X I M U M T O T O P O F S E N S O R F I N I S H E D W A L L W A L L M O U N T E D S E N S O R M O U N T I N G O P T I O N " A " S I M P L E X 4 0 9 8 - 9 7 9 2 1 . F O R A D D I T I O N A L M O U N T I N G O P T I O N S , D O W N L O A D D A T A S H E E T 4 0 9 8 - 0 0 1 9 F R O M H T T P : / / W W W . S I M P L E X - F I R E . C O M M O U N T I N G O P T I O N S O P T I O N 1 D E S C R I P T I O N N O T E A S I N G L E G A N G B O X , 2 - 1 / 8 " ( 5 4 m m ) D E E P - F L U S H M O U N T B Y O T H E R S B 4 " ( 1 0 2 m m ) O C T A G O N A L B O X , 1 - 1 / 2 " ( 3 8 m m ) D E E P , M I N I M U M - F L U S H M O U N T B Y O T H E R S C 4 " ( 1 0 2 m m ) S Q U A R E B O X , 1 - 1 / 2 " D E E P ( M I N ) W / S I M P L E X 4 0 9 8 - 9 8 3 2 A D A P T E R K I T B O X B Y O T H E R S , 4 0 9 8 - 9 8 3 2 O R D E R E D S E P A R A T E L Y D 4 " ( 1 0 2 m m ) S Q U A R E B O X , 1 - 1 / 2 " D E E P ( M I N ) W / S I N G L E G A N G C O V E R P L A T E 3 / 4 " ( 1 9 m m ) E X T E N S I O N B Y O T H E R S B A S E E L E C T R I C A L B O X # 6 - 3 2 S C R E W W I T H W A S H E R ( N O T S U P P L I E D ) # 8 - 3 2 x 1 - 1 / 4 " P A N H E A D M A C H I N E S C R E W ( T I G H T E N T O 4 - 6 i n . - l b s . ) M O U N T I N G O P T I O N " B " 1 . M A I N T A I N C O R R E C T P O L A R I T Y O N T E R M I N A L C O N N E C T I O N S . 2 . A L W A Y S C U T C O N D U C T O R S A N D S E C U R E U N D E R T E R M I N A L S . N E V E R L O O P W I R E S U N D E R T E R M I N A L S . 3 . A N Y W I R E S P L I C E S T O B E M A D E B Y L I S T E D A N D A H J A P P R O V E D M E T H O D S . W I R I N G N O T E S 1 . F O R A D D I T I O N A L M O U N T I N G O P T I O N S , D O W N L O A D D A T A S H E E T 4 9 0 6 - 0 0 0 1 F R O M H T T P : / / W W W . S I M P L E X - F I R E . C O M S T R O B E C I R C U I T ( + ) ( - ) ( + ) ( - ) T E R M I N A T I O N V I E W I N T E N S I T Y S E L E C T I O N P L U G , A C C E S S I B L E O N L Y F R O M R E A R O F H O U S I N G C L A S S A W I R I N G S T R O B E C I R C U I T ( R E T U R N ) M O U N T I N G O P T I O N " B " 1 1 0 7 5 3 0 1 5 F E R I M A G N E T I C T E S T L O C A T I O N S T R O B E I N T E N S I T Y S E T T I N G V I E W A B L E T H R O U G H T H E L E N S E L E C T R I C A L B O X P R O V I D E D B Y E L E C T R I C A L C O N T R A C T O R . N O T E : D O N O T B R I N G C O N D U I T T H R O U G H T H E R E A R O F T H E E L E C T R I C A L B O X . T - B A R W I T H C L I P S A N D S C R E W S S U P P L I E D B Y C O N T R A C T O R O P T I O N A L 4 9 0 5 - 9 9 2 6 W I R E G U A R D W I T H M O U N T I N G P L A T E A D A P T E R P L A T E F O R W I R E G U A R D T r u e A l e r t C O N V E N T I O N A L A P P L I A N C E S S I M P L E X 4 9 0 6 S E R I E S C E I L I N G M O U N T E D V I S U A L M O U N T I N G O P T I O N S O P T I O N 1 D E S C R I P T I O N N O T E A S I N G L E G A N G B O X , 2 - 1 / 4 " ( 5 7 m m ) D E E P ( M I N I M U M ) B Y O T H E R S B H A N D Y B O X , 1 - 1 / 2 " ( 3 8 m m ) D E E P , O R S I N G L E G A N G B O X 2 - 1 / 2 " ( 6 4 m m ) D E E P 4 9 0 5 - 9 9 1 0 A D A P T E R P L A T E R E Q U R E D F O R S U R F A C E M O U N T W I T H H A N D Y B O X U N L E S S U S I N G 4 9 0 5 - 9 9 2 6 W I R E G U A R D B - I N B + O U T 1.FOR ADDITIONAL MOUNTING OPTIONS, D O W N L O A D D A T A S H E E T S 4 9 0 5 - 0 0 0 6 F R O M H T T P : / / W W W . S I M P L E X - F I R E . C O M M O U N T I N G O P T I O N " A " 1 . M A I N T A I N C O R R E C T P O L A R I T Y O N T E R M I N A L C O N N E C T I O N S . 2 . A L W A Y S C U T C O N D U C T O R S A N D S E C U R E U N D E R T E R M I N A L S . N E V E R L O O P W I R E S U N D E R T E R M I N A L S . 3 . A N Y W I R E S P L I C E S T O B E M A D E B Y L I S T E D A N D A H J A P P R O V E D M E T H O D S . W I R I N G N O T E S T E R M I N A T I O N V I E W STROBE SYNCHRO N I Z A T I O N M O D U L E SIMPLEX 4905-9938COVER PLATE 4 9 0 5 - 9 9 3 8 S T R O B E S Y N C H R O N I Z A T I O N M O D U L E ELECTRICAL B O X (-)(+)INCOMING 24VDC SIGNAL NACFROM DEDICATED CIRCUIT M O U N T I N G O P T I O N S OPTION 1DESCRIPTION N O T E A4" (102mm) SQUARE BOX, 2-1/8" (54mm) D E E P ( M I N ) W I T H 4 " C O V E R P L A T E S U P P L I E D B Y O T H E R S O P E R A T I N G M O D E SY N C H R O N I Z E D U N S Y N C H R O N I Z E D S T A N D A L O N E N/ A C A U T I O N : D O N O T B R I N G C O N D U I T T H R O U G H T H E R E A R O F T H E E L E C T R I C A L B O X B - O U T A + I N A - I N A + O U T A - O U T B + I N C O N T R O L N A C (-)(+)24VDC AUDIBLE NAC DEVICES(-)(+)OUTGOING 24VDC SIGNALNAC RETURN TO PANEL(-)(+)CLASS A RETURN FROM24VDC AUDIBLE NAC DEVICES(IF USED) I N C O M I N G 2 4 V D C C O N T R O L N A C ( + ) ( - ) O U T G O I N G 2 4 V D C C O N T R O L N A C T O N E X T T C 4 M ( I F U S E D ) O R R E T U R N T O C O N T R O L P A N E L I N C L A S S A A P P L I C A T I O N . ( - ) ( + ) ( + ) ( - ) S W 1 S W 2 0 = O F F 0 = O F F 1 = O N 0 = O F F 1 = O N 1 = O N 0 = O F F 1 = O N