The URL can be used to link to this page

Home My WebLink AboutA18-0051_Approved Documents_1536676379.pdf75 South Frontage Road West, Vail, CO 81657 Office: 970.479.2139 Inspections: inspections@vailgov.com Fire - Construction Permit A18-0051 Issued: 09/11/2018 TOWN OF VAIL Property Information Address: 1345 WESTHAVEN CIR (210312106011) ( 210312106011 ) Unit #: Parcel Number: 210312106011 Legal Description: Subdivision: GLEN LYON SUBDIVISION Lot: 50 R200705601 DEC 03-05-07 Contacts Contact Type: Applicant Full Name: John Harty Address: 5 Murray Road A2 Edwards, CO 81632 Phone: 9709261896 Contact Type: Property Owner Full Name: TRABOLD, FRANK & COLLEEN Address: Phone: None Contractor Contractor Type: Fire Protection Company: Invision Communications LLC State License #: 134502 Phone: 970-926-1896 Project Information Project Name: Trabold Residence 2018 Project Description: Install a new fire alarm system in an existing house. We will use the existing wires to install a CO/Smoke combo system. The existing panel and keypad will be used. All other devices will be new. Fees Paid Account #: 001-0000.31111.00 - Fire Scope Letter Fee Fee Amount:$216.00 Total Paid:$216.00 Conditions Issued By: Town of Vail Fire and Emergency Services Department NOTICE: By issuance of this Permit the applicant agrees to comply to all Titles of the Town of Vail Code and all applicable State and Federal law. Failure to do so will void this Permit and the applicant shall forfeit all applicable fees. PERMIT FEE RECEIPT Case # A18-0051 Date Printed: 08/23/2018 TOWN OF VAIL - FEES RECEIPT Permit Summary Case Number: A18-0051 Status: Created Permit Number: Date Started: 08/15/2018 Permit Type: Fire - Construction Permit Subcases Fire Alarm Lot Number: 50 Property: 1345 WESTHAVEN CIR (210312106011) (210312106011) Contacts Contact Type: Applicant Company Name: InVision Communications Full Name: John Harty Address: 5 Murray Road A2 Edwards, CO 81632 Email: johnh@invisionvail.com Contact Type: Property Owner Full Name: TRABOLD, FRANK & COLLEEN Address: Permit Fees Fee Information Account Amount Fire Scope Letter Fee 001-0000.31111.00 $216.00 Payment Information Date Paid Payment Type Amount Fire Scope Letter Fee 08/23/2018 Credit Card $216.00 Paid By: - Notes: MC - John Harty FEE TOTAL $216.00 AMOUNT PAID $216.00 BALANCE DUE $0.00 08/23/2018 - 2:29:10 PM - Generated by: dcouch75 South Frontage Road West, Vail, Colorado 81657 1 / 1 Before Installing This detector must be installed in compliance with the control panel installation manual and meet the requirements of NFPA 72, and/or the local authority having jurisdiction. Read this manual carefully before using the detec- tor. This manual should be left with the owner/user of this equipment. General Description The 5600 series mechanical heat detector is in- tended for use in property protection applications, or for non-life-safety installations where smoke de- tection is not practical or appropriate. WARNING For life-safety installations, smoke detectors must be used, in lieu of, or in addition to mechanical heat detectors. The 5600 series consists of both single- and dual- circuit heat detectors featuring fixed temperature thermal sensors or combination fixed temperature/ rate-of-rise sensors, with temperature ratings of 135ºF (57ºC) or 194ºF (90ºC). D500-46-00 1 I56-2175-003R INSTALLATION AND MAINTENANCE INSTRUCTIONS 3825 Ohio Avenue, St. Charles, Illinois 60174 1-800-SENSOR2, FAX: 630-377-6495 www.systemsensor.com 5600 Series Mechanical Heat Detector Single Circuit: 5601P, 5602, 5603, 5604 Dual Circuit: 5621, 5622, 5623, 5624 Markings on the exterior of the detector indicate the specific activation method and temperature rating. All models are identified as either 135ºF/57ºC or 194ºF/ 90ºC. Models equipped with combination fixed tem- perature/rate-of-rise sensors are marked FX/ROR. Fixed temperature only models are marked FX. Non-Resettable Fixed Temperature Sensor The fixed temperature element reacts to heat by re- sponding to a specific temperature setting (135ºF or 194ºF). The detection method is based on the spring action of a metal contact, held to the metal chamber by a fusible alloy. When the temperature reaches the alloy’s melting point, the metal contact will depress the diaphragm, causing the electrical contact to close the circuit. The circular external heat collector is released from the detector to visu- ally indicate that the detector has been activated. NOTE: 5600 series Fixed Temperature models (5603, 5604, 5623, and 5624) are non-resettable, and can- not be tested. Specifications: Operating Voltage/Contact Ratings (Resistive): 6 – 125 VAC / 3A 6 – 28 VDC / 1A 125 VDC / 0.3A 250 VDC / 0.1A Maximum Installation Temperature: Models 5601P, 5603, 5621, and 5623: 100°F (38°C) Models 5602, 5604, 5622, and 5624: 150°F (65.6°C) Alarm Temperature: Models 5601P, 5603, 5621, and 5623: 135°F (57°C) Models 5602, 5604, 5622, and 5624: 194°F (90°C) Rate-of-Rise Threshold: 15°F (8.3°C) per minute (models 5601P, 5602, 5621, and 5622 only) Operating Humidity Range: 5 to 95% RH non-condensing Input Terminals: 14 – 22 AWG Back Box Mounting: 31⁄2˝ octagonal 4˝ octagonal Single gang 4˝ square with a square to round plaster ring Dimensions with mounting bracket: Diameter: 4.57 inches (11.6cm) Height: 1.69 inches (4.3cm) Weight: 6 oz. (170 grams) CAUTION To prevent the activation of the fixed temperature element, the shipping and storage temperature must not exceed 122°F (50°C).I56-2175-003R Self-Restoring Rate-of-Rise (ROR) Sensor The rate-of-rise element responds to a rapid rise of temperature, approximately 15ºF (8.3ºC) per min- ute. As the temperature rises, the air within the sealed chamber expands. Should the chamber air expand faster than it can escape through the cali- brated vent, the diaphragm is depressed, and the electrical contact closes the circuit. NOTE: Only the ROR element of 5600 series com- bination fixed temperature/ROR models (5601P, 5602, 5621, and 5622) are self-restoring, and may be tested using a hair dryer or heat gun. When testing the ROR element, to prevent the activation of the fixed temperature element, the heat source must not exceed the fixed temperature rating of the detector. Mounting Bracket All 5600 series detectors are equipped with a mount- ing bracket that includes mounting slots to accom- modate single-gang, 31⁄2˝ octagonal, and 4˝ octagonal electrical boxes, as well as 4˝ square boxes equipped with a plaster ring (Figure 1). The mounting bracket is reversible to accommodate flush-mount and sur- face–mount installations (Figure 2). Wiring Installation Guidelines All wiring must be installed in compliance with the National Electrical Code, applicable state and local codes, and any special requirements of the local Authority Having Jurisdiction. Proper wire gauges should be used. The conductors used to connect heat detectors to the alarm control panel and ac- cessory devices should be color-coded to reduce the D500-46-00 2 I56-2175-003R Heat Detector Type RTI Classification Fixed 135°F RTI: SPECIAL RoR and Fixed 135°F RTI: ULTRA FAST and SPECIAL (Respectively) Fixed 194°F RTI: SPECIAL RoR and Fixed 194°F RTI: ULTRA FAST and SPECIAL (Respectively) FM Classification RTI ratings are for installations which must comply with FM 3210. Table 1. 5600 Series Mechanical Heat Detectors Model No. Circuit Temperature Rating Thermal Sensor UL Maximum Spacing (10-foot ceiling) 5601P Single 135ºF (57ºC) Fixed Temperature/Rate of Rise 50-feet x 50-feet 5602 Single 194ºF (90ºC) Fixed Temperature/Rate of Rise 50-feet x 50-feet 5603 Single 135ºF (57ºC) Fixed Temperature 25-feet x 25-feet 5604 Single 194ºF (90ºC) Fixed Temperature 25-feet x 25-feet 5621 Dual 135ºF (57ºC) Fixed Temperature/Rate of Rise 50-feet x 50-feet 5622 Dual 194ºF (90ºC) Fixed Temperature/Rate of Rise 50-feet x 50-feet 5623 Dual 135ºF (57ºC) Fixed Temperature 25-feet x 25-feet 5624 Dual 194ºF (90ºC) Fixed Temperature 25-feet x 25-feet NOTE: Refer to NFPA72 guidelines for spacing reductions when ceiling heights exceed 10 feet. A= 31®2¯ Octagonal box B= 4¯ Octagonal box C= Single gang box and 4¯ square with plaster ring D= Directly to Wall/Ceiling Figure 1. Bracket Mounting Locations: S0113-00 S0114-00 S0115-00 Surface–mount Flush–mount Figure 2. Reversible Mounting Bracket: D500-46-00 3 I56-2175-003R likelihood of wiring errors. Improper connections can prevent a system from responding properly in the event of a fire. The non-polarized screw terminals on the back of the detector will accept 14–22 AWG wire. For best system performance, all wiring should be installed in separate grounded conduit; do not mix fire alarm system wiring in the same conduit as any other electrical wiring. Twisted pair may be used to pro- vide additional protection against extraneous elec- trical interference. Wire connections are made by stripping approxi- mately 1⁄4˝ of the insulation from the end of the feed wire, inserting it into the proper base terminal, and tightening the screw to secure the wire in place. + EOL OR Control Panel Auxiliary Device Auxiliary Device Auxiliary Device Auxiliary Device Auxiliary Device Control Panel + OR EOL Figure 3. Wiring Diagram – Single Circuit Models: Figure 4. Wiring Diagram – Dual Circuit Models: Installation Remove power from the alarm control unit or initi- ating device circuits before installing detectors. 1. Detach the detector from the mounting bracket by rotating the detector 1⁄4 turn counter-clockwise. 2. Orient the mounting bracket properly for either a flush- or surface-mount installation (Figure 2). 3. Select the pair of mounting holes suitable for the junction box, (Figure 1) and secure the bracket to the box. 4. Connect the wires to the detector per Figure 3 or Figure 4, as applicable. 5. Place the detector onto the mounting bracket by rotating clockwise. The detector will lock into place with a “click”. 6. After all detectors have been installed, apply power to the alarm control unit. 7. Test each detector as described in Testing. 8. Reset all the detectors at the alarm control unit. 9. Notify the proper authorities that the system is in operation. S0239-00 S0240-00 D500-46-00 4 I56-2175-003R ©2009 System Sensor Please refer to insert for the Limitations of Fire Alarm Systems System Sensor warrants its enclosed product to be free from defects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for the enclosed product. No agent, representative, dealer, or employee of the Company has the authority to increase or alter the obligations or limitations of this Warranty. The Company’s obligation of this Warranty shall be limited to the replacement of any part of the product which is found to be defec- tive in materials or workmanship under normal use and service during the three year period commencing with the date of manufacture. After phoning System Sensor’s toll free number 800-SENSOR2 (736-7672) for a Return Authorization number, send defective units postage prepaid to: System Sensor, Returns FCC Statement This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in ac- cordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: – Reorient or relocate the receiving antenna. – Increase the separation between the equipment and receiver. – Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. – Consult the dealer or an experienced radio/TV technician for help. Department, RA #__________, 3825 Ohio Avenue, St. Charles, IL 60174. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to replace units which are found to be defective because of damage, unrea- sonable use, modifications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequential or incidental damages for breach of this or any other Warranty, ex- pressed or implied whatsoever, even if the loss or dam- age is caused by the Company’s negligence or fault. Some states do not allow the exclusion or limitation of incidental or consequential damages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. Three-Year Limited Warranty Testing/Maintenance The rate-of-rise mechanism may be subject to re- duced sensitivity over time. Annual testing of the rate-of-rise operation is therefore recommended. Before testing, notify the proper authorities that maintenance is being performed and the system will be temporarily out of service. Disable the zone or system undergoing maintenance to prevent any un- wanted alarms. Only the ROR element of 5600 series combination fixed temperature/ROR models (5601P, 5602, 5621, and 5622) are self-restoring, and may be tested us- ing a hair dryer or heat gun. WARNING When testing the ROR element, to prevent the ac- tivation of the fixed temperature element, the heat source must not exceed the fixed temperature rating of the detector. WARNING 5600 series fixed temperature models (5603, 5604, 5623, and 5624) are non-resettable, and cannot be tested. CAUTION When using the RRS-MOD with model 2WTA-B, do not mix the 2WTA-B with other model smoke de- tectors and dry contact closure devices, including mechanical heat detectors, manual pull stations and waterflow switches. Such mixing can cause a direct short on the auxiliary power terminals, damaging the control panel’s internal circuitry and/or damage devices connected to the initiating device circuit. K3590-ADV2 4/04 Rev. A ADEMCO 6150 & 6160 REMOTE KEYPADS INSTALLATION AND SETUP GUIDE Keypad Features ADEMCO 6150 Fixed-Word ADEMCO 6160 2-Line Alpha Backlit Display YES (see note) YES (see note) Dedicated Function Keys YES YES Built-in Sounder Piezo Speaker Note: Permanent display backlighting is an option on some controls (see the control's instructions for details). GENERAL INFORMATION WIRING AND INSTALLATION The ADEMCO 6150 and ADEMCO 6160 are addressable Remote Keypads designed for use with ADEMCO control panels. Addresses are set via the keypad keys. The keys on the keypads are continuously backlit for convenience. KEYPAD DISPLAYS AND LEDS The keypads have the following display features: Model Fixed Word Display 2-line Alpha Display 2-digit Zone Identifier Custom Zone Descriptors 6150 X X 6160 X X The following table shows the LEDs and their functions: LED Function Red Lights when the system is armed in any mode Green Lights when the system is "ready" to be armed. SPECIAL FUNCTION KEYS The keypads also feature function keys. These keys may be programmed for panic alarms or other special functions such as macros. See the control's instructions for details. The keypads can be surface mounted directly to a drywall, or to a single- or double-gang electrical box. 1. Remove the case back by pushing down two "snaps." See diagram below. 2. Route wiring from the control panel through the opening in the case back. 3. Mount the case back to a wall or electrical box. 4. Wire directly from the keypad’s terminal block to the terminal block on the control board as follows: Wiring Table (All Keypads) Keypad Control Panel Wire Color G Data In Green – – Aux Pwr (GND) Black + + Aux. Pwr Red Y Data Out Yellow See the control panel’s Installation and Setup Guide for more complete details. 5. Reattach the keypad to its case back. RETAINING SNAPS NOTE: TO REMOVE CASE BACK PUSH IN THE TWO MOUNTING SNAPS LOCATED ALONG THE BOTTOM OF THE KEYPAD AND LIFT UP.6150-006-V0ARMED READYFunction keys must be held down for at least 2 seconds to activate an alarm, key pairs activate immediately. Function Keys A or [1] and [✱] B or [✱] and [#] C or [3] and [#] D ÊK3590-ADV2K K3590-ADV2 4/04 Rev. A SETTING THE KEYPAD ADDRESS FUNCTION KEY LABELS The keypad can either be set for an address of 00-30, or to the non-addressable mode (31). The keypad's default address is 31. To change the keypad's address, do the following: 1. Enter address mode: Power up the keypad. Within 60 seconds of power-up, press and hold down the [1] and [3] keys at the same time for 3 seconds. (If unable to enter address mode, power up and try again.) The current keypad address will be displayed, and the cursor will be under the "tens" digit. If 10 seconds have passed with no key entry, the keypad automatically exits address mode. You must power down, power up and start address mode again. NOTE: The keypad will not enter address mode if the panel to which it is connected is in programming mode. 2. Set the current address to "00": Press [0] to clear the current "tens" digit. The cursor will move to the "ones" digit position. Press [0] to clear the current "ones" digit. The cursor will move back to the "tens" digit position. 3. Enter the keypad's address: Enter the proper "tens" digit of the keypad's address. The cursor will move to the "ones" digit position. Enter the proper "ones" digit of the keypad's address. Note that address "31" sets the keypad to non-addressable mode. 4. Exit address mode: Press [✱] to save the displayed address and exit address mode. VIEWING THE KEYPAD ADDRESS Press and hold down the [1] and [3] keys at the same time for about 3 seconds. The current address is displayed. No key entry is allowed. Press any key to exit or wait 10 seconds to exit viewing mode. A set of adhesive-backed labels with some typical function symbols (i.e., fire, police, personal emergency, etc.) is provided. These labels can be placed on or next to the keys to identify each key's function for the end user (as determined by the control panel's capability and programming; see the control's instructions). SPECIFICATIONS Physical: 6150: 4-7/8"H x 6-1/4"W x 1"D 6160: 5-5/16"H x 7-3/8"W x 1-3/16"D Displays: 6150: Fixed-Word LCD (backlit). 6160: 2 x 16 alpha-numeric supertwist LCD, backlit. Sounder: 6150: Piezo-electric (fire alarm is loud, pulsing single tone; (all Keypads) burglary alarm is loud, continuous, dual tone). 6160: Speaker. Voltage: 12VDC Current: 6150: 70mA (ARMED LED lit, LCD backlight and sounder on), reduces to 40mA when panel is operating in standby mode (backlight off). 6160: 150mA (ARMED LED lit, LCD backlight and sounder on), reduces to 40mA when panel is operating in standby mode (backlight off). REFER TO INSTALLATION INSTRUCTIONS FOR THE CONTROL PANEL WITH WHICH THIS DEVICE IS USED FOR WARRANTY INFORMATION AND LIMITATIONS OF THE ENTIRE ALARM SYSTEM. 165 Eileen Way, Syosset, New York 11791 Copyright© 2004 Honeywell International Inc. www.honeywell.com/security Project: Trabold Residence Renovations Address: 1345 Westhaven Drive, Vail CO 81657 Fire alarm contractor: InVision Communications AC POWER CIRCUIT INFORMATION 120 VAC, 20 Amps dedicated circuit. Circuit number and breaker locations will be determent during the process of install. Daniel Dimitrov NICET Fire Alarms Level III Cert.# 119879 Digitally signed by Daniel Dimitrov DN: cn=Daniel Dimitrov, o=Dimant Technologies LLC, ou, email=dimitrov.dimant@gmail.c om, c=US Date: 2018.08.12 21:47:48 -06'00' ADEMCO 4204 Relay Module Installation Instructions GENERAL INFORMATION The ADEMCO 4204 Relay Module provides from one to four dry, form-C (SPDT) relay outputs to compatible control/communicators. It connects to the controls keypad wiring terminals. The 4204 can be mounted inside the controls cabinet or mounted remotely depending on the application. Refer to the UL notes below for certain restrictions. If mounted remotely, the 4204 has a built-in tamper switch that allows it to detect and report the removal of its cover to the control. Second, communication to the 4204 is supervised so that it cannot be disconnected from the keypad wiring without detection by the control. If the wiring is cut, a tamper or alarm signal will result, to indicate that this device (and possibly other devices connected to the keypad wiring) has become inoperative. INSTALLATION For UL Installations: When used with controls that do not support cover tamper or supervise communications wiring to the 4204, mount the 4204 inside the controls cabinet. When used with controls that support cover tamper and supervise communications wiring to the 4204, mount the 4204 may either be mounted inside the controls cabinet or mounted remotely. When mounted inside the controls cabinet, some controls allow the 4204 to be mounted horizontally as follows: insert the self-tapping screws (provided) in two adjacent raised tabs on the back of the cabinet. Leave the heads projecting 1/8. Hang the 4204 on the screw heads via two of the slotted holes on the back of its housing. The 4204s cover need not, in this case, be tamper-protected. Set DIP switch 1 to ON if the cover is not used (see table). See the controls instructions for additional information. When the 4204 is mounted remotely, it can be mounted horizontally or vertically and the built-in tamper switch can be used. Wires can exit from the side or via the breakout on the back of its housing. The DIP switch must be set with its position 1 OFF and when the installation is completed, the units tamper-protected cover must be replaced. NOTE: For EN50131-3 compliance a tie-wrap must be secured around the case of a remotely mounted 4204. Apply tie-wrap around the case to the right of the large zone wire opening (4-inch case width). This is in opposition of the tamper switch and magnet. NOTE: CE installations require maximum cable length of 30 meters. Affix the connections label that accompanies the 4204 to the inside of the 4204s cover (if the cover is used) or to the inside of the controls cover. CONNECTIONS AND SETTINGS Select and set an address for the 4204, using its DIP switch as shown in the DIP switch table. Each 4204 must be assigned a unique address so the control can identify and communicate with the 4204. The address to set is determined by the particular control to be used. See the controls installation instructions. As shipped, the DIP switch is set for address 0. UL For UL fire installations, no more than one wire per terminal may be connected. Use only 14-22AWG wire. NOTE: All power-limited wiring must be separated from non-power limited wiring by ¼. Make connections to the 4204s four relays via 12- position terminal block TB2. Refer to the controls installation instructions for specific information on how to program the activation options for the relays. Make connections to the controls keypad wiring points via 4-position terminal block TB1, the 4-pin plug, or both (wire color connections are the same). See the diagram on the other side of this page. SPECIFICATIONS Physical: 6-7/16 W x 4-1/4 H x 1-1/4 D (163mm x 108mm x 32mm) Electrical: Input Voltage: 12VDC nominal (10-14VDC, from controls remote keypad connection points) Input Current: 15mA standby + 40mA per active relay Contact Rating: 2A max. at 28VDC/AC (resistive loads) WARRANTY For the latest warranty information, please go to: http://www.honeywell.com/security/hsc/resources/wa UL For dry, indoor use only. Do not install in air-handling spaces. For UL Commercial Burglary installations, the 4204 must be tamper protected or mounted in a tamper- protected cabinet. In Commercial Fire applications, the module cannot be mounted in the control units cabinet, but must be mounted in an external UL864-listed cabinet. ÊN8909V4 N8909V4 10/12 Rev. B 4204-01-V1 4204 ADDRESS SETTINGS("" means "OFF") DETERMINE 4204'S ADDRESS: CONTROL'S INSTRUCTIONS SPECIFY ADDRESS TO USE. "0" ADDRESS SETTING SHOWN (AS SHIPPED). SWITCH NUMBER 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 2 ON ON ON ON ON ON ON ON 3 ON ON ON ON ON ON ON ON 4 ON ON ON ON ON ON ON ON 5 ON ON ON ON ON ON ON ON 1 2 3 4 5 ÞDIP SWITCH SETTINGS OFF ON DIP SWITCH (WHITE AREAS DENOTE SWITCH HANDLES) POSITIONS 2-6: POSITION 1: ENABLES/DISABLES COVER TAMPER. ON = TAMPER DISABLED, OFF = TAMPER ENABLED. SHOWN DISABLED AS SHIPPED. 6 ON ON ON ON ON ON ON ON 6 716 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON ON POSITION 7: NO FUNCTION TB21211 10 9 8 7 6 5 4 3 2 1 () GROUND (+) 12VDC YEL BLK GRN RED 13 14 15 16 DIP SWITCH FOR SETTING DEVICE ADDRESS AND ENABLING/DISABLING TAMPER COVER TAMPER (REED) SWITCH TB1 4204 4-PIN TOUCHPAD PLUG 3 2 RELAY 1 4 TYPICAL (SHOWN "OFF") C NC NO C NC NO C 4204-02-V2 NC NO C NC NO EITHER OR BOTH CAN BE USED DATA IN FROM CONTROL DATA OUT TO CONTROL RELAY RELAY RELAY 4204 CONNECTIONS 1 2 3 4 5 6 7Must be connected to apower-limited source. If switching powerthrough a relay, thepower must be from apower-limited source. Relays are programmablebut outputs are notsupervised. Supervised REFER TO THE INSTALLATION INSTRUCTIONS FOR THE CONTROL WITH WHICH THIS DEVICE IS USED FOR DETAILS REGARDING THE LIMITATIONS OFTHE ENTIRE ALARM SYSTEM. FEDERAL COMMUNICATIONS COMMISSION STATEMENTS The user shall not make any changes or modifications to the equipment unless authorized by the Installation Instructions or User's Manual. Unauthorized changes or modifications could void the user's authority to operate the equipment. CLASS B DIGITAL DEVICE STATEMENT This equipment has been tested to FCC requirements and has been found acceptable for use. The FCC requires the following statement for your information: This equipment generates and uses radio frequency energy and if not installed and used properly, that is, in strict accordance with the manufacturer's instructions, may cause interference to radio and television reception. It has been type tested and found to comply with the limits for a Class B computing device in accordance with the specifications in Part 15 of FCC Rules, which are designed to provide reasonable protection against such interference in a residential installation. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: If using an indoor antenna, have a quality outdoor antenna installed. Reorient the receiving antenna until interference is reduced or eliminated. Move the radio or television receiver away from the receiver/control. Move the antenna leads away from any wire runs to the receiver/control. Plug the receiver/control into a different outlet so that it and the radio or television receiver are on different branch circuits. Consult the dealer or an experienced radio/TV technician for help. INDUSTRY CANADA CLASS B STATEMENT This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numérique de la classe B est conforme à la norme NMB-003 du Canada. FCC / IC STATEMENT This device complies with Part 15 of the FCC Rules, and RSS210 of Industry Canada. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) This device must accept any interference received, including interference that may cause undesired operation. Cet appareil est conforme à la partie 15 des règles de la FCC & de RSS 210 des Industries Canada. Son fonctionnement est soumis aux conditions suivantes: (1) Cet appareil ne doit pas causer dinterférences nuisibles. (2) Cet appareil doit accepter toute interférence reçue y compris les interférences causant une réception indésirable. 2 Corporate Center Drive, Suite 100 P.O. Box 9040, Melville, NY 11747 Copyright® 2008 Honeywell International Inc. www.honeywell.com/security AL175ULX - 1 - Overview: The AL175ULX is a power-limited power supply/charger that will convert 115VAC / 60Hz input into two individually PTC protected auto-resettable 12VDC or 24VDC outputs (see specifications). It is intended for use in applications requiring UL Listing for Access Control System Units (UL 294) and applications requiring an interface with the Fire Alarm Control Panels. Specifications: Power Supply Output Specifications: Output VDC Switch Position Max. Stand-by Load DC Max. Alarm Load DC Battery (optional) 12VDC SW1 OFF 1.75A 1.75A 12VDC 24VDC SW1 ON 1.75A 1.75A 24VDC Stand-by Specifications: Output 4 hr. of Stand-by and 5 Minutes of Alarm 12VDC / 7 AH Battery Stand-by = 1.25A Alarm = 1.25A24VDC / 7 AH Battery Installation Instructions: Wiring methods shall be in accordance with the National Electrical Code/NFPA 70/NFPA 72/ANSI, and with all local codes and authorities having jurisdiction. Product is intended for indoor use only. See Terminal Identification Chart on Pg. 3 for a description of each terminal function. 1. Mount unit in the desired location. Mark and predrill holes in the wall to line up with the top two keyholes in the enclosure. Install two upper fasteners and screws in the wall with the screw heads protruding. Place the enclosure’s upper keyholes over the two upper screws; level and secure. Mark the position of the lower two holes. Remove the enclosure. Drill the lower holes and install two fasteners. Place the enclosure’s upper keyholes over the two upper screws. Install the two lower screws and make sure to tighten all screws (Enclosure Dimensions, pg. 3). Secure enclosure to earth ground. 2. Connect AC power to the black and white flying leads of the transformer. Secure green wire lead to earth ground. Use 18 AWG or larger for all power connections (Battery, DC output). Use 22 AWG to 18 AWG for power- limited circuits (trigger inputs, dry outputs). Keep power-limited wiring separate from non power-limited wiring (115VAC / 60Hz Input, Battery Wires). Minimum 0.25” spacing must be provided. CAUTION: Do not touch exposed metal parts. Shut branch circuit power before installing or servicing equipment. There are no user serviceable parts inside. Refer installation and servicing to qualified service personnel. 3. Set the AL175ULX to the desired DC output voltage by setting switch SW1 to the appropriate position (refer to Power Supply Output Specification Table). 4. Measure output voltage before connecting devices. This helps avoiding potential damage. Agency Listings: • UL Listed for Access Control Systems (UL294). CUL Listed - CSA Standard C22.2 No.205-M1983, Signal Equipment. • MEA - NYC Dept. of Buildings Approved. • CSFM - California State Fire Marshal Approved. • Conforms to NFPA 101 life safety codes. Input: • Input 115VAC / 60 Hz, 0.6A. Output: • Selectable 12VDC or 24VDC power-limited outputs. • Class 2 Rated power-limited outputs. • 1.75A continuous supply current @ 12VDC or 24VDC. • Filtered and electronically regulated output. • Short circuit and thermal overload protection. Battery Backup: • Maximum charge current: 400mA. • Automatic switch over to stand-by battery when AC fails. Supervision: • AC fail supervision (form “C” contacts). • Dry trigger output (form “C” contacts). Fire Alarm Interface: • Dry trigger input. Visual Indicators: • AC input and DC output LED indicators. Added Features: • Includes power supply, transformer, and enclosure. Enclosure Dimensions: 13.5” x 13” x 3.25” (342.9mm x 330.2mm x 82.55mm). AL175ULX Access Control Power Supply/Charger - 2 - AL175ULX 5. Connect one (1) 12VDC battery to the terminals marked [+ BAT -- ] (Fig. 1, pg. 2) for 12VDC operation. Use two (2) 12VDC batteries connected in series for 24VDC operation (Battery leads included). Note: For Access Control applications batteries are optional. When batteries are not used, a loss of AC will result in the loss of output voltage. When the use of stand-by batteries is desired, they must be lead acid or gel type. Use two (2) 12VDC batteries connected in series for 24VDC operation. 6. Connect appropriate signaling notification devices to AC Fail supervisory relay outputs. Note: To meet UL requirements, AC Supervisory outputs must be connected to the zone of Alarm Control Panel or to visual AC trouble indicator. 7. For Access Control Device & Fire Alarm Interface connections refer to desired Application Diagrams (pg. 4) and Terminal Identification Chart (pg. 3). Maintenance: Unit should be tested at least once a year for the proper operation as follows: Output Voltage Test: Under normal load conditions, the DC output voltage should be checked for proper voltage level (refer to Power Supply Output Specifications Chart). Battery Test: Under normal load conditions check that the battery is fully charged, check specified voltage both at battery terminal and at the board terminals marked [- BAT +] to ensure that there is no break in the battery connection wires. Note: Maximum charging current under discharges is 0.40A. Note: Expected battery life is 5 years; however, it is recommended changing batteries in 4 years or less if needed. LED Diagnostics: Red (DC) Green (AC) Power Supply Status ON ON Normal function. ON OFF Loss of AC. Battery backup is powering output. OFF ON No DC output. OFF OFF Loss of AC. Discharged or missing stand-by battery. No DC output. Fig. 1 Door Green Lead Battery connection (non power-limited) Wire Strap (from Enclosure to Door)SW1VR1+ BAT --ACACLOCK + STRIKE + COM -AUX +FACPAUX - NCNOCTRG1TRG2 SW1 ON - 24V OFF - 12VNC C NO AC FAIL Constant output (not affectedby trigger) Switched DC output(trigger control) Black Lead White LeadACDCXFMR EarthGround 115VAC Input60 Hz,0.6 amp Optional Rechargeable Stand-by Battery Optional Rechargeable Stand-by Battery CAUTION: Optional rechargeable stand-by batteries must match the power supply outputvoltage setting. Keep power-limited wiring separate from non power-limited. Use minimum 0.25" spacing. CAUTION: De-energize unit prior to servicing. For continued protection against fire hazard replace fuses with the same type and rating. Do not expose to rain or moisture. AL175ULX - 3 - Terminal Identification: Terminal Legend Function/Description TRG1 and TRG2 These input terminals are designed to connect to the normally closed outputs of an access control or fire alarm relay. These terminals control [LOCK+], and [STRIKE+], as well as AL175ULX output relay contacts [NC, NO, C] LOCK+This terminal provides DC output voltage when [TRG1] and [TRG2] are shorted together and are typically used to power Mag Locks. STRIKE+This terminal provides DC output voltage when [TRG1] and [TRG2] are unshorted and are typically used to power Electric Strikes. NC, NO, C Isolated dry Form “C” contacts. Shorting [TRG1] and [TRG2] together causes these contacts to switch. They are typically used for controlling multiple AL175ULXs with fire alarm tie-in (Fig. 5 and Fig. 6, pg. 4) AUX + Continuous positive (+) DC power output voltage. It is not affected by TRG1, TRG2 operation. COM - Common negative (-) output (ground). FACP Spare wiring terminal used for fire alarm tie-in application (Fig. 4, pg. 4). + BAT -- Stand-by battery connections. AC FAIL NC, C, NO Indicates loss of AC e.g connect audible device or alarm panel relay normally energized When AC power is present. Contact rating 1A @ 28VDC. Enclosure Dimensions: 13.5” x 13” x 3.25” (342.9mm x 330.2mm x 82.55mm) 1.40” (36mm) 1.40”(36mm) 4.85” (123mm) 4.85” (123mm) 1.40”(36mm) 1.40”(36mm) 5.10”(130mm)5.10”(130mm) 13.0”(330mm) 5.10”(130mm) 6.5625”(167mm) 1.20”(31mm) 1.20” (31mm) 1.20”(31mm) 3.25”(83mm) 3.25”(83mm) 3.25”(83mm) 3.25”(83mm) 1.0”(25mm) 1.0”(25mm)10.5”(267mm)1.0”(25mm) 1.0”(25mm) 0.75” (19mm) 0.75”(19mm) 0.9375”(24mm) 0.9375”(24mm) 11.0”(279mm) 12.5”(318mm) - 4 - AL175ULX NO RESET SWITCH FACP MAG LOCK ACCESS CONTROL DEVICE LOCK + STRIKE + TRG2 TRG1 C NO NC COM -- Fig. 5 Latching fire alarm tie-in with manual reset: Fig. 3 Typical dual mag lock installation with fire alarm tie-in using trigger controlled outputs: FACP MAG LOCK MAG LOCK ACCESS CONTROL DEVICE LOCK + STRIKE + TRG2 TRG1 COM -- C NO NC TRG1 TRG2 Fig. 6 Multiple AL175ULX power supply connections: Fig. 2 Typical single mag lock or door strike installation with fire alarm tie-in using trigger controlled output: FACP MAG LOCK DOORSTRIKE PROX/CARD READER ACCESS CONTROL DEVICE LOCK + STRIKE + TRG2 TRG1 AUX + AUX -- COM -- Typical Application Diagrams: FACP MAG LOCK ACCESS CONTROL DEVICE AUX + FACP + AUX -- Fig. 4 Typical mag lock with fire alarm tie-in using aux output installation: Altronix is not responsible for any typographical errors. Product specifications are subject to change without notice. 140 58th Street, Brooklyn, New York 11220 USA | phone: 718-567-8181 | fax: 718-567-9056 web site: www.altronix.com | e-mail: info@altronix.com | Lifetime Warranty | Made in U.S.A. IIAL175ULX Rev. 121307 C02P MEMBER Current Draw in Standby State Current Draw in Alarm State Total Current Draw in Standby State Total Current Draw in Alarm State Amps Amps Amps Amps Ademco Vista 128BP ADE-V21IP 1 0.171 0.871 0.171 0.871 Ademco 6160 annunciator ADE-6160 2 0.110 0.150 0.220 0.300 Ademco 4204 - 4 relay card ADE-4204 1 0.015 0.055 0.015 0.055 System Sensor polarity reversal module SYS-COSMOD4W 3 0.052 0.078 0.156 0.234 System Sensor power supervision module SYS-EOLR1 3 0.014 0.014 0.042 0.042 System Sensor 4 wire smoke alarm SYS-4WTAB 7 0.00005 0.0035 0.00035 0.025 System Sensor carbon monoxide detector SYS-CO1224 3 0.020 0.040 0.06000 0.120 System Sensor smoke/CO detector SYS-COSMO4W 4 0.000 0.040 0.000 0.160 System Sensor mini horn SYS-MHW 1 0.000 0.022 0.000 0.022 System Current Draw in Standby State 0.665 Amps System Current Draw in Alarm State 1.829 Amps Address: 1345 Westhaven Drive, Vail, CO 81657 24 Hours Calculated Draw in Standby State 15.949 Amp-Hours Alarm Contractor: InVision Communications 15 minutes Calculated Draw in Alarm State 0.457 Amp-Hours Total Calculated Battery Load 16.406 Amp-Hours 15% Battery Wear Factor 2.461 Amp-Hours Total Battery Amperage Load Required 18.867 Amp-Hours Daniel Dimitrov Projected Battery Backup NICET Fire Alarms Level III Cert.#1198793x12VDC 7AH BATTERY CALCULATIONS SHEET Project: Trebold Renovation Device Type Part Number Quantity Digitally signed by Daniel DimitrovDN: cn=Daniel Dimitrov, o=Dimant Technologies LLC, ou,email=dimitrov.dimant@gmail.com, c=USDate: 2018.08.12 22:24:32 -06'00' Primary Power Supply 16.5 VAC Trans- former 120 VAC 20A dedicated circuit Project: Trebold Residence Renovations Secondary Power Supply 2x12V12AH Lead-Acid Batteries Address: 1345 Westhaven Drive, Vail, CO 81657 Notification Appliance Circuit 1 Fire Alarm Contractor: InVision Communications IDC#1 Fire Sprinkler Flow IDC#2 Sprinkler Valve Tamper #1 IDC#3 Sprinkler Valve Tamper #2 IDC#4 Lower floor fire alarm IDC#5 Lower floor CO alarm IDC#6 Main floor fire alarm IDC #7 Main floor CO alarm IDC #8 Upper floor fire alarm IDC#9 Upper floor CO alarm IDC#10 Main floor garage entry CO Detector IDC#11 MainFloor Kitchen CO Detector Daniel Dimitrov NICET Level III Cert #118978FIRE ALARM CONTROL PANELIDC#12 Main floor gathering room CO detector P P P 3.9 kΩ EOLR 3.9 kΩ EOLR WF 2 kΩ EOLR 2 kΩ EOLR 2 kΩ EOLR CO CO 2 kΩ EOLR 2 kΩ EOLR 1350F 3.9 kΩ EOLRP P P PCO COSMOD COSMOD COSMOD PCO PCOPCO CO 2 kΩ EOLR P Digitally signed by Daniel Dimitrov DN: cn=Daniel Dimitrov, o=Dimant Technologies LLC, ou, email=dimitrov.dimant@gmail.com , c=US Date: 2018.08.12 22:20:25 -06'00' Project: Trabold Residence Renovations Address: 1345 Westhaven Drive, Vail CO 81657 Fire alarm contractor: InVision Communications DEVICE MODEL LIST 1. Fire Alarm Control Panel – Honeywell, Ademco model Vista 21 IP 2. Annunciator – Honeywell, Ademco model 6160 3. Power Supply – Altronix, model AL175ULX 4. Smoke Detector – System Sensor model 4WTA-B 5. CO detector – System Sensor model 1224T 6. Smoke/CO combo detector – System sensor model COSMO4W 7. Heat Detector – System Sensor 5600 series, model #5603 8. Polarity Reversal Module – System Sensor model COSMOD4W 9. Power Supervision Module – System Sensor model EOLR-1 10. Mini Horn – System Sensor, model MHW Daniel Dimitrov NICET Fire Alarms Level III Cert.# 119879 Digitally signed by Daniel Dimitrov DN: cn=Daniel Dimitrov, o=Dimant Technologies LLC, ou, email=dimitrov.dimant@gmail.co m, c=US Date: 2018.08.12 21:49:38 -06'00' Project: Trebold Residence Renovations Address: 1345 Westhaven Drive, Vail CO 81657 Fire alarm contractor: InVision Communications DEVICE NUMBER LIST 1. Fire Alarm Control Panel – 1 2. Annunciator – 1 3. Smoke Detector – 7 4. Smoke/CO combo Detector – 4 5. Heat Detector – 1 6. Carbon Monoxide Detector – 3 7. Polarity Reversal Module – 3 8. Power Supervision Module – 3 9. Mini Horn – 1 Daniel Dimitrov NICET Fire Alarms Level III Cert.# 119879 Digitally signed by Daniel Dimitrov DN: cn=Daniel Dimitrov,o=Dimant Technologies LLC, ou,email=dimitrov.dimant@gmail.com, c=US Date: 2018.08.12 21:53:24 -06'00' NOTICE: This manual should be left with the owner/user of this equipment. GENERAL DESCRIPTION Model EOLR-1 is an epoxy encapsulated single pull single throw (SPST) normally open relay that is activated by 9 to 40 VDC. This relay can be used as an end of line device in fire alarm systems, e.g., to supervise power supplies. MOUNTING For ease of installation, the EOLR-1 relay may be mounted in a variety of ways. It can be attached to equipment or inside an enclosure using the mounting screw or double sided tape. WIRING NOTE: All wiring must conform to applicable local codes, ordinances, and regulations. The EOLR-1 connections are shown on the label on the side of the relay. Using the enclosed wire nuts, secure the electrical connections appropriate to the application. WIRE DEFINITIONS RED POWER INPUT (+) BLACK POWER INPUT (–) VIOLET RELAY - COMMON VIOLET RELAY - NORMALLY OPEN EOLR-1 End of Line Supervision Relay 3825 Ohio Avenue, St. Charles, Illinois 60174 1-800-SENSOR2, FAX: 630-377-6495 www.systemsensor.com Specifications Operating Voltage: 9 to 40 VDC ( 9 to 35 Vrms for unfiltered full wave rectified supplies ) Operating Current: 20 mA max. Operating Temperature Range: –22ºF to 140ºF (–30ºC to 60ºC) Storage Temperature Range: –40ºF to 185ºF (–40ºC to 85ºC) Humidity: 10 to 93% RH non-condensing Wire Length: 8″ min. (203 mm) Dimensions: 0.91″H x 1.65″W x 1.22″D (23 mm H x 42 mm W x 31 mm D) Accessories: Four wire nuts One piece of double sided tape One 11/4″ screw Contact Ratings: 120 VAC 0.5 A max. (resistive load) 30 VDC 3A max. (resistive load) 1 I56-2185-004 ©2016 System Sensor. 06-10 C0188-01 INSTALLATION INSTRUCTIONS RED BLACK (+) (–) VIOLET System Sensor warrants its enclosed relay to be free from defects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for this relay. No agent, representative, dealer, or employee of the Company has the authority to increase or alter the obligations or limitations of this Warranty. The Company’s obligation of this Warranty shall be limited to the repair or replacement of any part of the relay which is found to be defective in materials or workmanship under normal use and service during the three year period commencing with the date of manufacture. After phoning System Sensor’s toll free number 800-SENSOR2 (736-7672) for a Return Authorization number, send defective units postage prepaid to: Honeywell, 12220 Rojas Drive, Suite 700, El Paso TX 79936, USA. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to repair or replace units which are found to be defective because of damage, unreasonable use, modifications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequen- tial or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company’s negligence or fault. Some states do not allow the exclusion or limitation of incidental or consequential dam- ages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state.I56-2185-004THREE-YEAR LIMITED WARRANTY Project: Trebold Residence Renovations Address: 1345 Westhaven Drive, Vail CO 81657 Fire alarm contractor: InVision Communications KNOX BOX LOCATION Main floor, NE corner of garage bay #1. Daniel Dimitrov NICET Fire Alarms Level III Cert.# 119879 Digitally signed by Daniel Dimitrov DN: cn=Daniel Dimitrov,o=Dimant Technologies LLC, ou, email=dimitrov.dimant@gmail.c om, c=US Date: 2018.08.12 21:58:10 -06'00' Project: Trebold Residence Renovations Address: 1345 Westhaven Drive, Vail CO 81657 Fire alarm contractor: InVision Communications MNITORING INFORMATION 1. Monitoring method – Internet Protocol Alarm Communicator Transmitter. 2. Monitoring Agency – Central Security Communications Inc., 1117 8th Avenue, Greely CO 80631, tel. 1-800-441-3662 Daniel Dimitrov NICET Fire Alarms Level III Cert.# 119879 Digitally signed by Daniel Dimitrov DN: cn=Daniel Dimitrov, o=Dimant Technologies LLC, ou, email=dimitrov.dimant@gmail.com, c=US Date: 2018.08.12 21:59:16 -06'00' Project: Trebold Residence Renovations Address: 1345 Westhaven Drive, Vail CO 81657 Fire alarm contractor: InVision Communications FIRE ALARM PANEL LOCATION Lower floor mechanical room Daniel Dimitrov NICET Fire Alarms Level III Cert.# 119879 Digitally signed by Daniel Dimitrov DN: cn=Daniel Dimitrov, o=Dimant Technologies LLC, ou,email=dimitrov.dimant@gmail.c om, c=US Date: 2018.08.12 22:00:59 -06'00' Project: Trebold Residence Renovations Address: 1345 Westhaven Drive, Vail CO 81657 Fire alarm contractor: InVision Communications SCOPE OF WORK LETTER 1. Pre-wire and install in accordance with NFPA 72, NFPA 720 and town of Vail Fire Department amendments: 1.1. Honeywell Ademco Vista 21IP combination (fire-burglary-environmental) alarm system; 1.2. 7x System Sensor 4WTA-B polarity sensitive photo-electric smoke detectors with built-in notification appliance; 1.3. 1x System Sensor 5603 – 135oF fixed temperature heat detector; 1.4. 4x System Sensor COSMO4W smoke/carbon monoxide combo detectors; 1.5. 1x Honeywell Ademco 6160 Alarm annunciators; 1.6. 3x System Sensor – 1224T – carbon monoxide detectors; 1.7. 1x Fire sprinkler flow sensor; 1.8. 2x Fire sprinkler system valve tamper switches; 1.9. 1x System Sensor mini horn. 2. Mapping: 2.1. Activate smoke and smoke/CO combo detectors’ notification appliances in temporal 3 tandem sounding during any fire alarm; 2.2. Activate smoke and smoke/CO combo detectors’ notification appliances in temporal 4 tandem sounding during any CO alarm; 2.3. Designate (define and report distinguished signals) automatic fire detection by floor; 2.4. Designate (define and report distinguished signals) CO detection by floor. Daniel Dimitrov NICET Fire Alarms Level III Cert.#119879 Digitally signed by Daniel Dimitrov DN: cn=DanielDimitrov, o=Dimant Technologies LLC,ou,email=dimitrov.dimant@gmail.com , c=US Date: 2018.08.12 22:03:48 -06'00' 3825 Ohio Avenue, St. Charles, Illinois 60174 1-800-SENSOR2, FAX: 630-377-6495 www.systemsensor.com INSTALLATION AND MAINTENANCE INSTRUCTIONS Photoelectric Smoke Detector 2-Wire: 2WTR-B (Form C Relay), 2WTA-B (Sounder) 4-Wire: 4WTR-B (Form C Relay), 4WTA-B (Sounder) 4WTAR-B (Form C Relay, Sounder), 4WITAR-B (Isolated Thermal, Form C Relay, Sounder) Series BEFORE INSTALLING Please read thoroughly System Sensor’s Applications Guide for System Smoke Detectors (SPAG91), which provides detailed information on detector spacing, placement, zoning, wiring, and special applications. This is available online from System Sensor’s web site: www.systemsensor.com. NOTICE: This manual shall be left with the owner/user of this equipment. IMPORTANT: This detector must be tested and maintained regularly follow- ing National Fire Protection Association (NFPA) 72 National Fire Alarm Code requirements. At a minimum, cleaning should be performed annually. GENERAL DESCRIPTION Models 2WTR-B and 2WTA-B are 2-wire photoelectric smoke detectors; models 4WTR-B, 4WTA-B, 4WTAR-B, and 4WITAR-B are 4-wire photoelectric smoke detectors. All models incorporate a state-of-the-art optical sensing chamber and an advanced microprocessor. The microprocessor allows the detector to automatically adjust its sensitivity back to the factory setting when it becomes more sensitive due to contaminants settling in its chamber. In order for this feature to work properly, the chamber must never be opened while power is applied to the smoke detector. This includes cleaning, maintenance or screen replacement. All models also feature a restorable, built-in, fixed temperature (135°F) thermal detector and are also capable of sensing a freeze condition if the temperature is below 41°F. Models 2WTA-B, 4WTA-B, 4WTAR-B, and 4WITAR-B contain a piezoelectric horn which generates the ANSI S3.41 temporal pattern in an alarm condition. All detectors on a zone will sound when the power supply to them is reversed. The RRS-MOD can be used for the power supply reversal function. The RRS- MOD also enables all the detectors’ sounders on a zone to be synchronized and allows the zone to be silenced from the panel by entering the alarm si- lence key at the keypad. The detector that initiated the alarm condition will have its red LED and Form C relays (if applicable) latched until reset by panel. The model 4WITAR-B photoelectronic smoke sensor is isolated from the fixed- temperature heat sensor, providing a self-resetting, local audible smoke alarm that does not alarm at the panel. Only the fixed-temperature heat sensor will cause the 4WITAR-B to initiate an alarm at the panel and the relay to change its state. NOTE: In order for all i3 sounder detectors on a loop to sound when the panel alarms, the supply voltage polarity must be reversed. A reversing relay, System Sensor model number RRS-MOD, must be used. The RRS-MOD is designed to allow all i3 Series detectors in the same loop to sound when one of the detectors goes into alarm. In addition, the RRS-MOD will synchronize all of the i3 Series sounder smoke detectors on the loop. Some panels may require the use of programmable outputs. Refer to System Sensor literature for further information on the RRS-MOD. All i3 Series detectors are designed to provide open area protection. Two-wire models must be used with compatible UL Listed panels only. ELECTRICAL SPECIFICATIONS 2-wire 4-wire System Voltage –Nominal: 12/24 12/24 V (Non-polarized for 2WTR-B and 4WTR-B) Min.: 8.5 10 V Max.: 35 35 V Max. Ripple Voltage: 30 30 % peak to peak of applied voltage Avg. Standby Current: 50 50 µA average Peak Standby Current: 100 — µA Max. Alarm Current 4WTA-B, 4WTR-B: — 35 mA 4WTAR-B, 4WITAR-B: — 50 mA 2WTR-B: 130 — mA panel must limit current 2WTA-B: 130* Alarm Contact Ratings: — 0.5 A @ 30 V AC/DC Form C Contact Ratings: 2 2 A @ 30 V AC/DC Audible Signal (temp-3 tone): 85 85 dBA min. in alarm or supply polarity reversed (Sounder units only) Remote Annunciator Output: 7 — mA maximum EOL Relay: — 12/24 EOLR-1 Reset Time (min): 0.3 0.3 seconds Max. Start-up Capacitance: 0.1 — µF Max. Initial Start-up Time: 45 15 seconds AlarmVerification** Start-up Time: 15 15 seconds * Direct Power (Non-reverse Polarity): 130 mA limited by panel. Reverse Polarity Power: 30 mA for the 2WTA-B in alarm; 12 mA for all other 2WTA-B units on the loop. Add 25 mA for the RRS-MOD reversing relay alarm current. ** Assumes the panel’s alarm verification reset time is 10 seconds or less. Should the alarm verification reset exceed 10 seconds, use the maximum initial start-up time. PHYSICAL SPECIFICATIONS Heat Sensor: 135°F (57.2°C) Freeze Trouble: 41°F (5°C) Operating Temperature Range: 32 to 100°F (0 to 37.8°C) Operating Humidity Range: 0 to 95% RH non-condensing Storage Temperature Range: –4 to 158°F (–20 to 70°C) Diameter (including base): 5.3 inches Height (including base): 2.0 inches Weight: 7.1 oz.I56-2170-010 1 I56-2170-010 02-20 When used with an “i3 Ready” control panel or the i3 Series 2W-MOD2 mod- ule (refer to installation manual), the 2WTR-B and 2WTA-B are capable of generating a “maintenance needed” signal. The 2W-MOD2 can indicate a need for cleaning, replacement, or a freeze trouble at the control panel or module. WARNING The 2W-MOD2 has replaced the previous model number 2W-MOD. To ensure proper remote maintenance signaling capabilities, do not use the 2W-MOD with i3 model numbers 2WTR-B and 2WTA-B. Installation of the 2WTR-B, 2WTA-B, 4WTR-B, 4WTA-B, 4WTAR-B, and 4WITAR-B detectors is simplified by the use of a mounting base that may be pre-wired to the system, allowing the detector to be easily installed or re- moved. The mounting base installation is further simplified by the incorpora- tion of features compatible with drywall fasteners. Two LEDs on the detector provide a local visual indication of the detector’s status: TABLE 1: DETECTOR LED MODES Green LED Red LED Power-up Blink 10 sec Blink 10 sec Normal (standby) Blink 5 sec — Out of sensitivity — Blink 5 sec Freeze Trouble — Blink 10 sec Alarm — Solid During an initial power-up delay, the red and green LEDs will blink synchro- nously once every ten seconds. It will take approximately 80 seconds for the detector to finish the power-up cycle (see Table 2). TABLE 2: POWER-UP SEQUENCE FOR LED STATUS INDICATION* Condition Duration Initial LED Status Indication 80 seconds Initial LED Status Indication (if excessive electrical noise is present) 4 minutes *Refer to Electrical Specifications for start-up time in conjunction with panel alarm verification. NOTE: If, during power-up, the detector determines there is excessive electri- cal noise in the system such as those caused by improper grounding of the system or the conduit, both LEDs will blink for up to 4 minutes before display- ing detector status (see Table 2). After power-up has completed and the detector is functioning normally within its listed sensitivity range, the green LED blinks once every five seconds. If the detector is in need of maintenance because its sensitivity has shifted outside the listed limits, the red LED blinks once every five seconds. When the detec- tor is in the alarm mode, the red LED latches on. The LED indication must not be used in lieu of the tests specified under Testing. In a freeze trouble condi- tion, the red LED will blink once every 10 seconds (refer to Table 1). To measure the detector’s sensitivity, the i3 Series Model SENS-RDR Infrared Sensitivity Reader tool (see Figure 4) should be used. Refer to instructions manual D100-98-00 for the proper use of the SENS-RDR. Models 2WTR-B and 2WTA-B also include an output that allows an optional Model RA400Z/RA100Z Remote Annunciator to be connected. MOUNTING General spacing guidelines are 30˝×30˝, with each detector covering 900 ft2 under maximum conditions. Consult NFPA 72, the local Authority Having Jurisdiction (AHJ), and/or ap- plicable codes for specific information regarding the spacing and placement of smoke detectors. Each i3 Series detector is supplied with a mounting base that can be ceiling- or wall-mounted: 1. To a single gang box, or 2. To a 31⁄2-inch or 4-inch octagonal box, or 3. To a 4-inch square box with a plaster ring, or 4. Direct mount or to ceiling using drywall fasteners. FIGURE 1: MOUNTING OF DETECTOR S0121-00 The i3 Series heads and bases are keyed so that all heads will only fit into their respective bases. One model 4-wire relay base will accept the 4WTR-B, 4WTAR-B and 4WITAR-B detector heads and no others. The 2WTR-B, 2WTA-B and 4WTA-B will only fit into their respective mounting bases and no others. The heads and bases are clearly identified as either 2-wire or 4-wire. When mounting the i3 Series, ensure that the head is mounted to the correct base, and the test switch is aligned with the tamper release tab. TAMPER-RESISTANT FEATURE The i3 Series detectors include a tamper-resistant feature that prevents re- moval from the mounting base without the use of a tool. To engage the tam- per-resistant feature, cut the small plastic tab located on the mounting base (Figure 2), and then install the detector. To remove the detector from the base once it has been made tamper resistant, use a small screwdriver to depress the square tamper release tab, located on the skirt of the mounting base, and turn the detector counterclockwise. INSTALLATION GUIDELINES The i3 Series detectors represent an advancement over the previous sounder and Form C relay models and are designed to be used with the 2W-MOD2 and RRS-MOD only. Do not mix detector models on a zone. FIGURE 2: TAMPER-RESISTANT FEATURE SNAP OFF TAB FORTAMPER LOCK TAMPER RELEASE TAB DIRECT MOUNT HOLES S0109-00 WIRING INSTALLATION GUIDELINES All wiring must be installed in compliance with the NFPA 70, National Electri- cal Code, applicable state and local codes, and any special requirements of the local Authority Having Jurisdiction. Proper wire gauges should be used. The conductors used to connect smoke detectors to the alarm control panel and accessory devices should be color- coded to reduce the likelihood of wiring errors. Improper connections can prevent a system from responding properly in the event of a fire. The screw terminals in the mounting base will accept 14–22 gauge wire. For best system performance, all wiring should be installed in separate grounded conduit; do not mix fire alarm system wiring in the same conduit as any other electrical wiring. Twisted pair may be used to provide additional protection against extraneous electrical interference. Wire connections are made by stripping approximately 1⁄4-inch of insulation from the end of the feed wire, inserting it into the proper base terminal, and tightening the screw to secure the wire in place. Do not put wires more than 2 gauge apart under the same clamping plate. TWO-WIRE COMPATIBILITY System Sensor two-wire smoke detectors are marked with a compatibility identifier located on the label on the back of the product. For two-wire mod- els 2WTR-B and 2WTA-B, connect detectors only to compatible alarm control panels as identified by System Sensor’s two-wire compatibility chart, available at www.systemsensor.com. NOTE: Models 2WTR-B and 2WTA-B are not to be installed on initiating cir- cuits containing other makes/models of smoke detectors. NOTE: Style D initiating circuits require the use of a 2W-MOD2 for models 2WTR-B and 2WTA-B. 2 I56-2170-010 02-20 WIRING DIAGRAMS FIGURE 3A: WIRING DIAGRAM, 2WTR-B AND 2WTA-B 2-WIRE ZONE 2-WIRE CONTROL PANEL + (5) RA (4) RA + (3) IN/OUT (2) + OUT (1) + IN RA400Z EOL RESISTOR OPTIONAL RELEASING DEVICE (6) NC (7) C (8) NO NOT INCLUDED ON 2WTA-B MODEL S0122-00 NOTE: FOR ALL COMPATIBLE ADEMCO PANELS, DO NOT EXCEED 30 OHMS LINE IMPEDANCE. NOTE: ONLY ONE 2WTR-B DETECTOR PER ZONE CAN BE USED. NOTE: Only one 2WTA-B detector shall be installed on a zone, unless the panel switches the zone to a reverse polarity, non-current limited power sup- ply. For panels that do not provide this feature, a reversing relay, System Sen- sor model RRS-MOD, may be used. When utilized with the 2WTA-B, it allows for more than one detector to be utilized on a loop. Some panels may require the use of programmable outputs. Refer to System Sensor literature for further information on the RRS-MOD. The 2WTA-B detector shall not be mixed with other 2-wire detectors on the same zone. CAUTION Any 2-wire i3 smoke detector (2W-B, 2WT-B, 2WTA-B, or 2WTR-B) wired in the Style D initiating device circuit (IDC) configuration requires the use of a 2W-MOD2 module. This is because fire alarm control panels vary by manufacturer on the implementation of Style D circuits. Therefore, the only way to insure proper operation of 2-wire i3 smoke detectors (2W-B, 2WT-B, 2WTA-B, or 2WTR-B) on Style D IDC’s is to use a 2W-MOD2 module. Refer to the 2W-MOD2 installation manual, document D500-46-00, for Style D wiring diagrams. The 2W-MOD2 installation manual may be downloaded from the System Sensor web site at www.systemsensor.com. FIGURE 3B: WIRING DIAGRAM, 4WTR-B, 4WTA-B, 4WTAR-B, AND 4WITAR-B AUX OR SMOKE POWER IDC 4-WIRE CONTROL PANEL + + (5) A(4) A(3) IN/OUT(2) + OUT(1) + INEOL RELAY (EOLR-1) EOLRESISTOR (5) A(4) A(3) IN/OUT(2) + OUT(1) + INNOT INCLUDED ON 4WTA-B MODEL NOT INCLUDED ON 4WTA-B MODEL OPTIONAL RELEASING DEVICE (6) NC(7) C(8) NOOPTIONAL RELEASING DEVICE (6) NC(7) C(8) NOS0123-01 INSTALLATION WARNING Remove power from alarm control unit or initiating device circuits before in- stalling detectors. NOTE: To install units so that corresponding LEDs are lined up, refer to the “Green LED” indicator on the base. 1. Wire the mounting base screw terminals per Figure 3a or Figure 3b, as applicable. 2. Place detector on the base and rotate clockwise. The detector will drop into the base and lock into place with a “click”. 3. After all detectors have been installed, apply power to the alarm control unit. 4. Test each detector as described in Testing. 5. Reset all the detectors at the alarm control unit. 6. Notify the proper authorities that the system is in operation. CAUTION Dust covers are an effective way to limit the entry of dust into the smoke detector sensing chamber during construction. However, they may not com- pletely prevent airborne dust particles from entering the detector. Therefore, System Sensor recommends the removal of detectors before beginning con- struction or other dust producing activity. When returning the system to ser- vice, be sure to remove the dust covers from any detectors that were left in place during construction. CAUTION Smoke detectors are not to be used with detector guards unless the combina- tion has been evaluated and found suitable for that purpose. CAUTION When using the RRS-MOD with model 2WTA-B, do not mix the 2WTA-B with other model smoke detectors and dry contact closure devices, including me- chanical heat detectors, manual pull stations and waterflow switches. Such mixing can cause a direct short on the auxiliary power terminals, damaging the control panel’s internal circuitry and/or damage devices connected to the initiating device circuit. TESTING Detectors must be tested after installation and following maintenance. NOTE: Before testing, notify the proper authorities that maintenance is being performed and the system will be temporarily out of service. Disable the zone or system undergoing maintenance to prevent any unwanted alarms. Ensure proper wiring and power is applied. After power up, allow 80 seconds for the detector to stabilize before testing. Test i3 Series detectors as follows: A. TEST SWITCH 1. An opening for the recessed test switch is located on the detector hous- ing (See Figure 4). 2. Insert a small screwdriver or allen wrench (0.18˝ max.) into the test switch opening; push and hold. 3. If the detector is within the listed sensitivity limits, the detector’s red LED should light within one second. FIGURE 4: RECESSED TEST SWITCH OPENING AND SENS-RDR POSITION POSITION SENS-RDR AT AN ANGLE ONTHE OVAL AREA OR AT THE CHAMBER OPENING BY THE WORD PAINT PUSH RECESSED SWITCH WITH A0.18® MAX.DIAMETER TOOL RECESSEDTEST SWITCH LED S0110-00 B. SMOKE ENTRY TEST Canned aerosol simulated smoke (canned smoke agent) may be used for smoke entry testing of the smoke detector. Tested and approved aerosol smoke products are: MANUFACTURER MODEL Home Safeguard Industries 25S, 30S SDi CHEK02 and CHEK06 SDi SOLOA4 SDi SMOKESABRE-01 When used properly, the canned smoke agent will cause the smoke detector to go into alarm. Refer to the manufacturer’s published instructions for proper use of the canned smoke agent. 3 I56-2170-010 02-20 System Sensor warrants its enclosed product to be free from defects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for the enclosed product. No agent, representative, dealer, or employee of the Company has the authority to in- crease or alter the obligations or limitations of this Warranty. The Company’s obligation of this Warranty shall be limited to the replacement of any part of the product which is found to be defective in materials or workmanship under normal use and service during the three year period commencing with the date of manufacture. After phoning System Sensor’s toll free number 800-SENSOR2 (736-7672) for a Return Authorization number, send defective units postage prepaid to: Honeywell, 12220 Rojas Drive, Suite 700, El Paso TX 79936, USA. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to replace units which are found to be defective because of damage, unreasonable use, modifications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequen- tial or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company’s negligence or fault. Some states do not allow the exclusion or limitation of incidental or consequential dam- ages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. THREE-YEAR LIMITED WARRANTY Please refer to insert for the Limitations of Fire Alarm Systems FCC STATEMENT This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installa- tion. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: – Reorient or relocate the receiving antenna. – Increase the separation between the equipment and receiver. – Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. – Consult the dealer or an experienced radio/TV technician for help. CAUTION Canned aerosol simulated smoke (canned smoke agent) formulas will vary by manufacturer. Misuse or overuse of these products may have long term ad- verse effects on the smoke detector. Consult the canned smoke agent manufac- turer’s published instructions for any further warnings or caution statements. C. DIRECT HEAT METHOD Using a 1000-1500 watt hair dryer, direct the heat toward either of the thermis- tors. Hold the heat source about 12 inches from the detector to avoid damage to the plastic. NOTE: For the above tests, the detector will reset only after the power source has been momentarily interrupted. It is not necessary to reset the model 4WITAR-B, when smoke is used to initiate the alarm. When testing the 4WITAR-B model, pressing the test switch will result in a non-latching local alarm that does not alarm at the control panel. Once the test button is released, the unit will return to its standby condition. Only the fixed-temperature heat sensor will cause the 4WITAR-B to initiate an alarm at the panel. If a detector fails any of the above test methods, its wiring should be checked and it should be cleaned as outlined in the Maintenance section. If the detec- tor still fails, it should be replaced. Notify the proper authorities when the system is back in service. LOOP VERIFICATION (MODELS 2WTR-B AND 2WTA-B ONLY) Loop verification is provided by the EZ Walk loop test feature. This feature is for use with i3 Series compatible control panels or the i3 Series 2W-MOD2 module only. The EZ Walk loop test verifies the initiating loop wiring and provides visual status indication at each detector. Refer to System Sensor lit- erature for further information on the 2W-MOD2. WARNING The 2W-MOD2 has replaced the previous model number 2W-MOD. To ensure proper EZ Walk Test capabilities, do not use the 2W-MOD with i3 model num- bers 2WTR-B and 2WTA-B. TABLE 3: EZ WALK TEST DETECTOR MODES Green LED Red LED Proper Operation Double blink 5 sec — Out of Sensitivity — Double Blink 5 sec Freeze Condition — Double Blink 10 sec NOTE: The EZ Walk loop test must not be used instead of alarm testing. MAINTENANCE NOTE: Before performing maintenance on the detector, notify the proper au- thorities that maintenance is being performed and the system will be tem- porarily out of service. Disable the zone or system undergoing maintenance to prevent any unwanted alarms. Power must be removed from the detector before performing maintenance of any kind. 1. Remove the detector cover by turning counterclockwise. (See Figure 5.) 2. Vacuum the cover or use canned air to remove any dust or debris. 3. Remove the top half of the screen/sensing chamber by lifting straight up. (See Figure 5.) 4. Vacuum or use canned air to remove any dust or particles that are pres- ent on both chamber halves. 5. Replace the top half of the screen/sensing chamber by aligning the arrow on the screen/sensing chamber with the arrow on the housing. Press down firmly until the screen/sensing chamber is fully seated. 6. Replace the detector cover by placing it over the screen/sensing chamber and turning it clockwise until it snaps into place. 7. Reinstall the detector and test. (See the Testing section.) 8. Notify the proper authorities when the system is back in service. FIGURE 5: REMOVING SCREEN/SENSING CHAMBER REMOVABLE DETECTOR COVER SCREEN/SENSING CHAMBER (TOP HALF) DETECTOR HOUSING S0111-00 i3 is a trademark of and System Sensor® and Honeywell® are registered trademarks of Honeywell International, Inc. 4 I56-2170-010 ©2017 System Sensor. 02-20 CO1224T/CO1224TR Carbon Monoxide Detector INSTALLATION AND MAINTENANCE INSTRUCTIONS 3825 Ohio Avenue, St. Charles, Illinois 60174 1-800-SENSOR2, FAX: 630-377-6583 www.systemsensor.com SPECIFICATIONS Electrical Specifications System Voltage Nominal: 12/24 VDC Min: 10 VDC Max: 33 VDC Avg. Standby Current: 20 mA Max Alarm Current: 40 mA (75 mA test) Alarm Contact Ratings: 30 VDC @ 0.5 A Trouble Contact Ratings: 30 VDC @ 0.5 A Audible Signal (temp 4 tone): 85 dBA min. in alarm (at 10ft) Max. Start-up Capacitance: 20 uF Physical Specifications Operating Temperature Range: 0° to 40°C (32° to 104°F) Operating Humidity Range: 22 – 90% %RH Diameter: 6.0˝ Height: 1.25˝ Weight: 7 oz Wire Gauge Acceptance: 14-22 AWG NOTICE: This manual shall be left with the owner/user of this equipment. This product is intended for use in ordinary indoor locations. GENERAL DESCRIPTION • Listed to standard 2075 • Round shape allows for mounting in aesthetically demanding areas • Six-wire, system monitored • Optional CO detector replacement plate for previously installed detectors • Local sounder • Low current draw • Alarm relay, Form C • Trouble relay, Form A • Dual LED’s • Test/Hush button • SEMS wiring terminals • Mount to single gang electrical box or surface mount to wall or ceiling • Optional drywall anchors included TABLE 1. DETECTOR OPERATION MODES: OPERATION MODE GREEN LED RED LED SOUNDER Normal (standby) Blink 1 per minute OFF OFF Alarm OFF Temp 4*pattern Temp 4* pattern Alarm Test OFF Temp 4 pattern Temp 4 pattern RealTest® Mode Blink 1 per second OFF Temp 4 pattern (after CO is sprayed) End of Life OFF OFF OFF CO Trouble OFF Blink 1 per minute OFF Power Loss/ Cell Fault OFF OFF OFF Alarm Test: Will send alarm signal to panel. Hush feature/Alarm Silence: If required, the audible alarm can be silenced for 5 minutes by pushing the button marked “Test/Hush”. The red alarm light will continue to flash in temp-4 pattern. If carbon monoxide is still present after the 5 minute hush period, the audible alarm will sound. The hush facility will not operate at levels above 350 ppm (parts per million) carbon monoxide. RealTest® Alarm Silence: Alarm will automatically silence after about 20 sec- onds of alarm from spraying canned CO into the detector. Alarm Reset: Alarm automatically resets after CO has cleared from the sensor. Trouble feature: When the sensor supervision is in a trouble condition (e.g. such as a sensor that has been tampered with, or the cell itself has prema- turely dried out due to environmental conditions, etc.), the detector will send a trouble signal to the panel. The detector must then be replaced. The green LED turns off and the red LED blinks every minute when the detector is in trouble. End of Life Timer feature: When the detector has reached the end of its life, the trouble contact will open. This indicates that the CO sensor inside the detector has passed the end of its life and must be replaced. This detector’s lifespan is approximately ten years from the date of manufacture. The green LED turns off when the detector is in trouble. Periodically check the “Replace by” sticker located under the detector cover. The detector must be replaced by this date. Refer to Detector Replacement on page 3. Per UL 2075, it is mandatory that a trouble signal be sent to the panel upon CO cell trouble or cell end of life. Refer to Figure 4 for wiring of the trouble relay.I56-3111-012LIVING ROOM BEDROOM BEDROOM BEDROOM KITCHEN TO BR CLOSED DOOR BASEMENT GARAGE CARBON MONOXIDE/SMOKE ALARM LOCATION FOR MULTI-LEVEL RESIDENCE S0295-01 FIGURE 1. ALARM LOCATION DIAGRAM: 1 I56-3111-012 10-28 INSTALLATION GUIDELINES Ceiling: Detector should be at least 12 inches from any wall. Wall: Detector should be at least as high as a light switch, and at least six inches from the ceiling. • Do not install in any environment that does not comply with the detec- tor’s environmental specifications • Install in accordance with NFPA 720–the Standard for the Installation of Carbon Monoxide (CO) Detection and Warning Equipment • As of 2009, NFPA 720 defines standards for both commercial and resi- dential installations of CO detectors. If the installation can be interpreted as a commercial application, consult the section of NFPA 720 that out- lines commercial applications. • For example, Chapter 5.5.5.3.1 states that carbon monoxide detectors shall be installed in accordance with manufacturers published instruc- tions in the following locations: (1) On the ceiling in the same room as permanently installed fuel burn- ing appliances (2) Centrally located on every habitable level and in every HVAC zone of the building • If the installation can be interpreted as residential, consult the section of NFPA 720 that outlines residential applications. • For example, chapter 9.4.1.1 states that carbon monoxide alarms or detectors shall be installed as follows: (1) Outside each separate dwelling unit sleeping area in the immediate vicinity of the bedrooms (2) On every level of a dwelling unit, including basements (3) Other locations where required by applicable laws, codes or standards MOUNTING The CO1224T/CO1224TR can be ceiling-mounted or wall-mounted: 1. To a single gang box. 2. Direct mount to ceiling or to wall using drywall fasteners. INSTALLATION WIRING INSTALLATION GUIDELINES All wiring must be installed in compliance with the NFPA 70, National Electrical Code, applicable state and local codes, and any special requirements of the local Authority Having Jurisdiction (AHJ). Proper wire gauges should be used. The conductors used to connect carbon monoxide detectors to the alarm control panel and accessory devices should be color-coded to reduce the likelihood of wiring errors. Improper connections can prevent a system from responding properly in the event of a CO. The screw terminals in the mounting base will accept 14-22 gauge wire. Wire connections are made by stripping approximately 1⁄4˝ of insulation from the end of the feed wire, inserting it into the proper base terminal, and tightening the screw to secure the wire in place. Do not put wires more than 2 gauge apart under the same clamping plate. WARNING: This product does not have a local audible trouble signal, and may fail without supervision if trouble loop remains unconnected. WARNING: Gas detectors on a zone that is bypassed may not signal a trouble condition. Do not bypass zones used for gas detectors. Wiring diagrams located on page 4, Figure 4. WARNING Remove power from alarm control unit or initiating device circuits before in- stalling detectors. 1. Using a small, flat head screw driver, push in the small tab located on the underside of the detector. Once the snap is loosened, lift the bottom end of the cover up and unhinge the top to remove the cover. 2. Wire the detector base screw terminals per Figure 5. 3. Screw the base of the detector onto a single gang electrical box, or to the surface of the wall or ceiling. Use the hardware included in the packaging. 4. If mounting with the System Sensor replacement plate model CO-PLATE*: * Hold replacement plate over desired mounting area. * Use hook feature to hold CO1224T onto the replacement plate. * Mount detector and plate together using hardware provided with the CO1224T. 5. Hinge the top portion of the cover onto the base; with the cover at a 45 degree angle, fit the hinges into the slots of the base. 6. Push the unhinged bottom portion of the cover down until it snaps into place. 7. After all detectors have been installed, apply power to the alarm control unit. 8. Test each detector as described in Testing. 9. Notify the proper authorities that the system is in operation. CAUTION Airborne dust particles can enter the detector. System Sensor recommends the installation of detectors after construction or any other dust producing activ- ity. Carbon monoxide detectors are not to be used with detector guards unless the combination has been evaluated and found suitable for that purpose. TESTING Detector must be tested after installation. NOTE: Before testing, notify the proper authorities to avoid any nuisance alarms. Ensure proper wiring and power is applied. After power up, allow 80 seconds for the detector to stabilize before testing. Test the CO1224T/CO1224TR detector as follows: 1. A test button is located on the detector housing (See Figure 4). 2. Use the tip of your finger to press and hold the test button for 1-4 seconds. 3. If the sounder beeps twice in the Temporal 4 tone and the LED’s light up, the detector is operational. 4. The detector now enters Realtest speed up test mode indicated by a quickly blinking green LED. See Functional Gas Test section for instruc- tions on testing with canned CO. If a detector fails the above test method, its wiring should be checked. If the detector still fails after rewiring, it should be replaced. S0320-00 FIGURE 2. MOUNTING OF DETECTOR: CO1224T CO1224TR S0296-01 2 I56-3111-012 10-28 FUNCTIONAL GAS TEST NOTE: Check with local codes and the AHJ to determine whether or not a functional gas test is necessary for an installation. Solo C6 brand canned CO testing agent may be used to verify the detec- tor’s ability to sense CO by utilizing the RealTest® feature of the CO1224T/ CO1224TR as follows: 1. Press the test button as described in Testing above. 2. Once the alarm has entered the speed-up test mode, indicated by a quickly flashing green LED, spray a small mount of CO agent within 1/4" of the alarm’s gas entry ports (see Figure 3). The unit will go into alarm if gas entry is successful. 3. The detector will automatically exit the speed-up test mode 20-60 sec- onds after entering speed-up test mode. Testing the detector will activate the alarm relay and send a signal to the panel. CAUTION: This carbon monoxide detector is designed for indoor use only. Do not expose to rain or moisture. Do not knock or drop the detector. Do not open or tamper with the detector as this could cause malfunction. The detector will not protect against the risk of carbon monoxide poisoning if not properly wired. The detector will only indicate the presence of carbon monoxide gas at the sensor. Carbon monoxide gas may be present in other areas. This carbon monoxide detector is NOT: • Designed to detect smoke, fire or any gas other than carbon monoxide • To be seen as a substitute for the proper servicing of fuel-burning appli- ances or the sweeping of chimneys. • To be used on an intermittent basis, or as a portable alarm for the spill- age of combustion products from fuel-burning appliances or chimneys. • To be used in airplanes or any other aeronautical vehicle. Carbon monoxide gas is a highly poisonous gas which is released when fuels are burnt. It is invisible, has no smell and is therefore impossible to detect with the human senses. Under normal conditions in a room where fuel burning appliances are well maintained and correctly ventilated, the amount of carbon monoxide released into the room by appliances should not be dangerous. Symptoms of carbon monoxide poisoning: Carbon monoxide bonds to the hemoglobin in the blood and reduces the amount of oxygen being circulated in the body. The following symptoms are examples taken from NFPA 720. They represent approximate values for healthy adults: Concentration (ppm CO) Symptoms 200 Mild headache after 2-3 hours of exposure 400 Headache and nausea after 1-2 hours of exposure 800 headache, nausea, and dizziness after 45 minutes of exposure; collapse and unconsciousness after 2 hours of exposure Many causes of reported carbon monoxide poisoning indicate that while vic- tims are aware that they are not well, they become so disoriented that they are unable to save themselves by either exiting the building or calling for as- sistance. Young children and pets may be the first to be affected. Per UL standard 2075, the CO1224T/CO1224TR has been tested to the sensi- tivity limits defined in UL standard 2034. Alarm thresholds are as follows: Parts Per Million Detector response time, min. 30 ±3ppm No alarm within 30 days 70 ±5ppm 60-240 150 ±5ppm 10-50 400 ±10ppm 4-15 What to do if the carbon monoxide detector goes into alarm: Immediately move to a spot where fresh air is available, preferably outdoors. Find a phone in an area where the air is safe and call your security service provider. Tell your provider the detector alarm status, and that you require professional assistance in ridding your home of the carbon monoxide. IMPORTANT: This detector should be tested and maintained regularly follow- ing National Fire Protection Association (NFPA) 720 requirements. MAINTENANCE Occasionally clean the outside casing with a cloth. Ensure that the holes on the front of the alarm are not blocked with dirt and dust. Do not paint, and do not use cleaning agents, bleach, or polish on the detector. DETECTOR REPLACEMENT This detector is manufactured with a long-life carbon monoxide sensor. Over time the sensor will lose sensitivity, and will need to be replaced with a new System Sensor carbon monoxide detector. This detector’s lifespan is approxi- mately ten years from the date of manufacture. Periodically check the detector’s replacement date. Remove the detector cover and refer to the sticker placed on the inside of the detector. The sticker will indicate the date that the detector shall be replaced. This detector is also equipped with a feature that will open the trouble relay once it has reached the end of its useful life. If this occurs, it is time to replace the detector. NOTE: Before replacing the detector, notify the proper authorities that main- tenance is being performed and the system will be temporarily out of service. Disable the zone or system undergoing maintenance to prevent any unwanted alarms. Dispose of detector in accordance with any local regulations. GAS ENTRY PORTS TEST/HUSH BUTTON S0321-00 FIGURE 4. TEST BUTTON LOCATION AND OPERATION: C01224TR C01224T S0298-00 GAS ENTRY PORTS TEST/HUSH BUTTON 3 I56-3111-012 10-28 System Sensor warrants its enclosed product to be free from defects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for the enclosed product. No agent, representative, dealer, or employee of the Company has the authority to in- crease or alter the obligations or limitations of this Warranty. The Company’s obligation of this Warranty shall be limited to the replacement of any part of the product which is found to be defective in materials or workmanship under normal use and service during the three year period commencing with the date of manufacture. After phoning System Sensor’s toll free number 800-SENSOR2 (736-7672) for a Return Authorization number, send defective units postage prepaid to: Honeywell, 12220 Rojas Drive, Suite 700, El Paso TX 79936, USA. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to replace units which are found to be defective because of damage, unreasonable use, modifications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequen- tial or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company’s negligence or fault. Some states do not allow the exclusion or limitation of incidental or consequential dam- ages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. THREE-YEAR LIMITED WARRANTY FCC STATEMENT This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installa- tion. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: – Reorient or relocate the receiving antenna. – Increase the separation between the equipment and receiver. – Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. – Consult the dealer or an experienced radio/TV technician for help. Please refer to insert for the limitations of Carbon Monoxide Detectors S0313-01 FIGURE 5. WIRING DIAGRAM: S0322-01 POSITIVE NEGATIVE TROUBLE TROUBLE NORMALLY CLOSED NORMALLY OPEN COMMON }POWER OUTER CIRCLE IS FOR CO1224TR ONLY }TROUBLE RELAY ALARM RELAY Input powered (12 or 24 VDC) from UL Listed Fire/Burg Control Panel (Class 2). NON-RESETTABLE PWR CO ZONE UL LISTED PANEL + ® ALARM INITIATION CONTACTS EOL RESISTOR SPECIFIED BY PANEL MANUFACTURER C NO T T + ® CLOSED WITH POWER APPLIED AND NO FAULT DETECTED SINGLE UNIT, SINGLE ZONE, 4 CONDUCTOR CABLE CO1224TR ROUND CO DETECTOR NON-RESETTABLE PWR CO ZONE UL LISTED PANEL + ® SUPERVISORY TROUBLE CONTACTS ALARM INITIATION CONTACTS ALARM INITIATION CONTACTS FIRST CO1224DETECTOR IN LOOP CO1224TR ROUND CO DETECTOR LAST CO1224 DETECTOR IN LOOP EOL RESISTOR SPECIFIED BY PANEL MANUFACTURER C NO C T T T T + ® + ® CLOSED WITH POWER APPLIED AND NO FAULT DETECTED MULTIPLE UNIT, SINGLE ZONE, 6 CONDUCTOR CABLE NO S0314-01 CAUTION It should be noted the installation, operation, testing and maintenance of the CO1224T/CO1224TR is different than System Sensor conventional 4-wire smoke detectors, such as the i3 Series. Below are specific installation require- ments for the CO1224T/CO1224TR: • Connect to a non-resettable power supply • Connect to a non-fire zone: Per NFPA 720 section 9.6.7.2 the CO1224T/ CO1224TR shall not be connected to a zone that signals a fire condition • Per NFPA 720 section 9.6.7, do not connect the CO1224T/CO1224TR on a zone with other fire or intrusion initiating devices - i.e. do not connect on the same zone as smoke detectors • Wiring of the trouble relay is mandatory: Per UL Standard 2075 section 17.1.1 a detector shall send a trouble signal to the control panel upon an open circuit, a ground fault, sensor removal or sensor end of life • If wiring one CO1224T/CO1224TR per zone: Use 4 conductors • If wiring multiple CO1224T/CO1224TR detectors per zone: Use 4 con- ductors from panel to first CO1224T/CO1224TR, then use 6 conductors from the second CO1224T/CO1224TR to other detectors on the zone System Sensor® is a registered trademark of Honeywell International, Inc. 4 I56-3111-012 ©2016 System Sensor. 10-28 i4 Series Combination Carbon Monoxide(CO)/Photoelectric Smoke Detector COSMO-2W (2-wire) and COSMO-4W (4-wire) INSTALLATION AND MAINTENANCE INSTRUCTIONS 3825 Ohio Avenue, St. Charles, Illinois 60174 1-800-SENSOR2, FAX: 630-377-6583 www.systemsensor.com Notice: This manual shall be left with the owner/user of this equipment. BEFORE INSTALLATION Please read this manual thoroughly along with manual I56-3871 for the i4 series interface module and the Application Guides for System Sensor Smoke (SPAG91) and CO Detectors (COAG103), which provide detailed infor- mation on detector spacing, placement, zoning, wiring, and special applica- tions. These manuals are available online at www.systemsensor.com. IMPORTANT: This detector must be tested and maintained regularly following NFPA 72/NFPA 720 requirements. At a minimum, cleaning and testing should be performed annually. GENERAL DESCRIPTION The i4 series is a plug-in, system-connected, combination carbon monoxide/ smoke detector. It is available in either a 2-wire or 4-wire configuration. The i4 series detectors must be used with the corresponding i4 series Interface Mod- ule to connect to the panel. The i4 interface module is also compatible with i3 series smoke detector model 2WTA-B or 4WTA-B. FEATURES Smoke Features • Photoelectric smoke sensor • Drift compensation and noise rejection algorithms • Red smoke LED indicator • Smoke test switch CO Features • Field replaceable, electrochemical CO sensor • RealTest® functional test capable • Blue CO LED indicator • Sensor end-of-life notification Audible Annunciation • Local integral sounder • Polarity reversal Installation and Maintenance • Stop-Drop-N-Lock plug-in base • SEMS wiring terminals • COSMO-2W designed for 2-wire i4 Zone type • COSMO-4W designed for 4-wire i4 Zone type • SENS-RDR sensitivity reader compatible with extended range • Removable cover for cleaning • Replaceable screen Other Features • Green supervisory LED • Listed to UL standards 268 and 2075 VISIBLE ANNUNCIATON The i4 series detector has three visible LED’s; Green, Red and Blue. The green LED is a supervisory LED; it blinks during power on, reset, and during normal operation. It is extinguished during smoke maintenance, CO trouble, smoke SPECIFICATIONS COSMO-2W COSMO-4W Electrical Specifications Physical Spcecificaitons System Voltage: 12/24 volts DC 12/24 volts DC Operating Temperature Range: 0 - 50° C (32 - 122° F) Min: 8.5 volts 8.5 volts Operating Humidity Range: 20-95% RH Max: 35 volts 35 volts Storage Temperature Range: -10 - 70° C (14 - 158° F) Max Startup Current: 200uA 200uA Diameter: 5.5 inches Max Standby Current: 50uA 50uA Height: 2.5 inches Max Alarm Current: 50mA 40mA Weight: 9.2 oz; 261 g Max Reverse Polarity Current: 20mA 20mA Wire Gauge Acceptance: Min: 22 AWG Max: 14 AWG Audible Signal (Supplemental*): 85dBA 85dBA 2-Wire Compatibility Zone Identifier: A Max Start-up Capacitance: .10uF .10uF *NFPA requires a UL listed sounder on the NAC circuit I56-3747-004alarm and CO alarm events. The red LED signals smoke events; it blinks dur- ing smoke maintenance events and lights constantly during smoke alarm events. The blue LED signals CO events; it blinks blue during CO trouble or CO end-of-life; it blinks rapidly during RealTest®; and lights constant during CO alarm. TABLE 1: OPERATION MODES OPERATION MODEGREEN LED RED LED BLUE LED SOUNDER Normal (standby) Blink 5 Sec. OFF OFF OFF Alarm Smoke OFF ON OFF Temp 3 Alarm CO OFF OFF ON Temp 4 Alarm Smoke & CO OFF ON ON Temp 3 RealTest® Mode OFF OFF Blink 1 Sec. OFF (After CO is Sprayed) OFF OFF ON Temp 4 Trouble feature: When the sensor (supervision) is in a trouble condition (such as a detector that is dirty), the detector will send a trouble signal to the module then to the FACP. Depending on the issue, the detector must then be serviced or replaced. CO sensor end-of-life timer feature: When the CO sensor has passed end-of- life, a trouble signal will be sent to the module then to the FACP. This indicates that the CO sensor inside the detector must be replaced. If unresolved for 30 days, the detector will chirp intermittently. The typical life of the CO sensor is ten years from the date of manufacture; it is recommended to periodically check the “Replace by” sticker located on the replaceable CO cell. INSTALLATION GUIDELINES Ceiling: Detector should be at least 12 inches from any wall. Wall: Detector should be no closer than 6 inches from ceiling. • Do not install outdoors or in any environment that does not comply with the detector’s environmental specifications • Install in accordance with NFPA 72 and 720 standards. NFPA 72 and 720 define standards for both commercial and residential installation of smoke and CO detectors. State and local laws involving CO detection should also be considered. • If the installation can be interpreted as residential, consult the section of NFPA 720 that outlines residential applications. Chapter 9.4.1.1, for example, states that carbon monoxide alarms or detectors shall be in- stalled as follows: • Outside each separate dwelling unit sleeping area in the immediate vicinity of the bedroom • On every level of a dwelling unit, including basements • Consult NFPA 72, the local Authority Having Jurisdiction (AHJ), and/ or applicable codes for specific information regarding the spacing and placement of smoke detectors. • Do not install detectors in the following areas: • In or near areas where particles of combustion are normally present such as kitchens, in garages, near furnaces, hot water heaters, or gas space heaters. 1 I56-3747-004 04-25 • In very cold or very hot areas. • In wet or excessively humid areas, or next to bathrooms with showers. • In dusty, dirty, or insect-infested areas. • Near fresh air inlets or returns or excessively drafty areas. Air con- ditioners, heaters, fans, and fresh air intakes and returns can drive smoke away from the detector. Note: This unit is UL listed as containing a supplemental sounder and should not be used as a primary sounder for evacuation. FIGURE 1: ALARM LOCATION DIAGRAM FOR RESIDENTIAL APPLICATION LIVINGROOM BEDROOM BEDROOM BEDROOM KITCHEN TO BR CLOSEDDOOR BASEMENT GARAGE CARBON MONOXIDE/SMOKE ALARM LOCATION FOR MULTI-LEVEL RESIDENCE MOUNTING The i4 detector can be ceiling mounted or wall mounted: 1. To a single gang box, 2 in. by 4 in. box, 3½ in. or 4 in. octagonal or 3½ in. or 4 in. round ceiling 2. Direct mount to ceiling or to wall using drywall fasteners FIGURE 2: MOUNTING OF DETECTOR WIRING INSTALLATION GUIDELINES All wiring must be installed in compliance with the NFPA 70 standards, Na- tional Electrical Code, applicable state and local codes. The screw terminals in the mounting base will accept 14-22 gauge wire. Wire connections are made by stripping approximately 3/8" to ½" of insulation from S0295-01 S0326-00 the end of the feed wire, inserting it into the proper base terminal, and tight- ening the screw to secure the wire in place. Do not put wires more than 2 gauge apart under the same clamping plate. WARNING Remove power from alarm control unit or initiating device circuits before installing detectors. 1. Remove detector from packaging and separate the base from the detector head. 2. Wire the detector base screw terminals. 3. Screw the base of the detector onto an electrical box, or to the surface of the wall or ceiling using the hardware included in the packaging. 4. Attach the detector head to the base by applying light pressure and rotat- ing clockwise. The detector will lock in place when properly aligned. 5. After all detectors have been installed, apply power to the alarm control unit. Refer to Table 3 for time to LED stabilization. Once stabilized, the green LED will blink once every 5 seconds. 6. Test each detector as described in the Testing section. 7. Notify the proper authority that the system is in operation. CAUTION NFPA 72 recommends the installation of detectors only after completing construction or any other dust producing activity TABLE 2: LED INDICATION DURING POWER UP SEQUENCE Green LED Red LED Blue LED No Power OFF OFF OFF Power on Reset Blink 5 Sec. Blink 5 Sec. Blink 5 Sec. TABLE 3: POWER UP TIME TO FIRST ALARM / LED STABILIZATION Power Up Time 45 Seconds Power up time after 10 second reset 15 Seconds LED Indication time Typical: 45 seconds Maximum: 55 seconds Status LED indication stabilization time Typical: 55 seconds Maximum: 268 seconds TESTING The detector must be tested after installation. The detector has two discrete test switches, one for smoke testing and one for CO testing. The detector may also be functionally tested using canned smoke and canned CO. NOTE: Before testing, notify the proper authorities to avoid any nuisance alarms. Ensure the proper wiring and power is applied to the detector. After power up, allow approximately 5 minutes for the detector to stabilize before testing. COSMO-2W 3.9k RESISTOR (supplied with module) LOOP STYLE D / CLASS A WIRING SMOKE AUXPOWER (resettable) SMOKE ZONE CO ZONE MAINT. ZONE SMOKE TRIGGER OUT PanelEOLResistors COSMOD2W ALL CIRCUITS ARE SUPERVISED (EXCEPT TRIGGERS) AND MUST BE POWER LIMITED PanelEOLResistor CO TRIGGER OUT BELL OR S0329-02 FIGURE 3: COSMO-2W WIRING DIAGRAM 2 I56-3747-004 04-25 3. If the detector is within the listed sensitivity limits, the sounder will alarm temporal 3 and the red alarm LED will light up. SMOKE SENSITIVITY READING To measure the detector’s smoke sensitivity, the Infrared Sensitivity Reader model #SENS-RDR should be used. 1. Point the SENS-RDR directly to the center of the detector at a distance of 1 to 10 feet. A broomstick can be attached to the SENS-RDR for extended reach. 2. The sensitivity will be displayed on the SENS-RDR. The SENS-RDR will also display “replace” if a detector is found faulty. SMOKE ENTRY TEST 1. With the detector in standby mode, spray UL listed compatible, canned smoke into the detector. 2. When the detector senses the presence of the smoke, the sounder will alarm temporal 3 and the red alarm LED will illuminate. Note: On some panels, resetting a smoke alarm may require additional steps at the keypad to clear the trouble conditions on CO and smoke mainte- nance zones due to power loss to the module. LOOP VERIFICATION (MODEL #COSMO-2W ONLY) Loop verification is provided by the EZ Walk loop test feature. This feature is for use with compatible control panels and System Sensor 2-wire detectors (i4 Series model COSMO-2W and i3 Series model 2WTA-B) installed with the COS- MOD2W interface module only. The EZ Walk loop test verifies the initiating loop wiring and provides visual status indication at each detector: 1. Ensure proper wiring and power is applied. Wait approximately 6 min- utes after power-up before performing the EZ Walk test. 2. Place COSMOD2W interface module into EZ Walk test mode by depress- ing the recessed test button on the COSMOD2W Interface Module. 3. Observe the LED’s at each detector. NOTE: The EZ Walk loop test should not be used in lieu of functional testing (alarm, trouble and other functional tests) of the system. CO TEST SWITCH 1. A recessed CO test switch is located on the detector housing and iden- tified by text that says “TEST” next to it and “CARBON MONOXIDE” above it. (See Figure 5) 2. With the detector in standby mode, use a small screwdriver to press and re- lease the CO test switch. Pressing the switch one time will enter into RealTest® Mode (see instructions below), pressing two times will enter test mode. 3. If the test is successful, the blue LED will light up. The detector and mod- ule will automatically reset within 60 seconds. If the detector fails either of the above test methods the CO cell or the detector should be replaced. COSMO-4W 3.9k RESISTOR (supplied with module) SMOKE POWER (resettable) SMOKE ZONE CO ZONE PanelEOLResistors COSMOD4W EOLRELAY #EOLR-1 ALL CIRCUITS ARE SUPERVISED (EXCEPT TRIGGERS) AND MUST BE POWER LIMITED CO TRIGGER OUT SMOKE TRIGGER OUT BELL OR S0330-00 FIGURE 4: COSMO-4W WIRING DIAGRAM FIGURE 5: TEST BUTTON LOCATION AND OPERATION GAS ENTRY PORTS TEST BUTTONCARBON MONOXIDE TEST BUTTON SMOKE TABLE 4: LED INDICATION & SOUNDER DURING TEST AND MAINTENANCE GREEN LED RED LED BLUE LED SOUNDER Smoke Maintenance OFF Blink 5 Sec. OFF OFF CO Trouble/ End-of-Life OFF OFF Blink 5 Sec.Intermittent chirp after 30 days Simultaneous Smoke Maintenance & CO Trouble/EOL OFF Blink 5 Sec. Blink 5 Sec. OFF EZ Walk Test® – Normal Double Blink 5 Sec.OFF OFF OFF EZ Walk® – Smoke Maintenance OFF Double Blink 5 Sec.OFF OFF EZ Walk® – CO Trouble/End-of-Life OFF OFF Double Blink 5 sec.OFF EZ Walk® – Smoke Maintenance & CO Trouble/End-of-Life OFF Double Blink 5 sec. Double Blink 5 sec.OFF *NOTE: EZ Walk applies to COSMO-2W 2-wire model only. SMOKE TEST SWITCH 1. A recessed smoke test switch is located on the detector housing and identified by text that says "TEST" next to it and “SMOKE” above it. It is the switch closest to the red LED. (See Figure 5) 2. With the detector in standby mode, use a small screwdriver to press and release the smoke test switch. S0327-00 3 I56-3747-004 04-25 FUNCTIONAL GAS TEST Solo C6 brand canned CO may be used to verify the detector’s ability to sense CO by utilizing the RealTest® feature as follows: 1. Press and release the test switch once as described in Testing above. The blue LED will start blinking rapidly indicating it is RealTest® mode. If the detector will not go into RealTest® mode, the CO sensor may be in fault or at end-of-life. 2. While the blue LED is blinking, spray a small amount of canned CO di- rectly into the CO gas entry ports from ¼” away. (See Figure 5) 3. The detector will go into alarm if the gas entry was successful and the cell is functioning properly. 4. The CO test will automatically clear when the CO clears or in 30 seconds if no CO was introduced. NOTE: Testing the detector will activate the alarm and send a signal to the panel. Carbon monoxide gas may be present in other areas. This detector is NOT: • A substitute for the proper servicing of fuel-burning appliances or the sweeping of chimneys. • To be used on an intermittent basis, or as a portable alarm for the spill- age of combustion products from fuel-burning appliances or chimneys. Carbon monoxide gas is a highly poisonous gas which is released when fuels are burnt. It is invisible, has no smell and is therefore impossible to detect with the human senses. Under normal conditions in a room where fuel burning ap- pliances are well maintained and correctly ventilated, the amount of carbon monoxide released into the room by appliances should not be dangerous. SYMPTOMS OF CARBON MONOXIDE POISONING Carbon monoxide bonds to the hemoglobin in the blood and reduces the amount of oxygen being circulated in the body. The following symptoms are examples taken from NFPA 720; they represent approximate values for healthy adults. Concentration (ppm CO) Symptoms 200 Mild Headache after 2-3 hours of exposure 400 Headache and nausea after 1-2 hours of exposure 800 Headache, nausea, and dizziness after 45 minutes of expo- sure; collapse and unconsciousness after 2 hours of exposure Many cases of reported carbon monoxide poisoning indicate that while vic- tims are aware that they do not feel well, they become so disoriented that they are unable to save themselves by either exiting the building or calling for as- sistance. Also young children and pets may be the first to be affected. CO ALARM ACTIVATION Per UL standard 2075, the i4 series detector has been tested to the sensitivity limits defined in UL standard 2034. TABLE 6: CO ALARM THRESHOLDS Parts per Million (ppm) Detector Response Time (Min.) 30+-3ppm No alarm within 30 days 70+-5ppm 60-240 150+-5ppm 10-50 400+-10ppm 4-15 What to do if the carbon monoxide detector goes into alarm: Immediately move to a spot where fresh air is available, preferably outdoors. Find a phone in an area where the air is safe and call your security service provider. Tell your provider the detector alarm status, and that you require professional assistance in ridding your home of the carbon monoxide. MAINTENANCE NOTE: Before performing any maintenance on the detector, notify the proper authorities that maintenance is being performed and the system will be tem- porarily out of service. Disable the zone or system undergoing maintenance to prevent any unwanted alarms. Power must be removed from the detector before performing maintenance of any kind. CLEANING 1. Remove the detector head by turning counterclockwise. 2. Clean the outside casing with a cloth. Ensure that the holes on the front of the alarm are not blocked with dirt and dust. Canned air can be used to remove any dust or debris. 3. Remove the white cover of the screen/sensing chamber located in the center of the detector head by turning counterclockwise. 4. Remove the black screen/sensing chamber by pulling up on it. 5. Use canned air to remove any dust or particles that are present on both the chamber cover/screen and chamber itself. 6. Replace the top half of the screen/sending chamber by aligning the two arrows on the chamber cover with the notches in the detector head. Press down until the screen/sensing chamber is fully seated. 7. Replace the white cover by placing it over the screen/sensing chamber and turning it clockwise until it snaps into place 8. Reattach the detector head to the base by applying light pressure and rotating clockwise. The detector will lock in place when properly aligned. 9. Test the detector to insure it is fully functional. (See Testing section) 10. Notify the proper authorities when the system is back in service. FIGURE 6: REMOVING/REPLACING SCREEN/SENSING CHAMBER Do not paint, and do not use cleaning agents, bleach or polish the detector. LIMITED LIFE OF CO SENSOR This detector is manufactured with a long-life carbon monoxide sensor. Over time the sensor will lose sensitivity, and will need to be replaced. A replace- ment CO sensor, model #CO-REPL, is available. The life span of the CO sensor is approximately ten years from the date of manufacture. Periodically check the detector’s replacement date. Remove the detector head and refer to the sticker placed on the replaceable CO cell.. The sticker will indicate the date the CO cell should be replaced. Reminder: This detector is also equipped with a feature that will signal the panel once the CO sensor has passed the end of its’ useful life. If this occurs, it is time to replace the CO sensor. REPLACEMENT OF CO SENSOR 1. Remove the detector head by turning counterclockwise. 2. Locate the CO sensor on the back side of the detector head. (Refer to Figure 7) 3. Depress the 2 tabs on the CO sensor and pull it out. 4. Insert replacement CO sensor model CO-REPL. 5. Reattach the detector head to the base by applying light pressure and rotating clockwise. The detector will lock in place when properly aligned. 6. Test the detector to insure it is fully functional. (See Testing section) 7. Notify the proper authorities when the system is back in service. NOTE: Before replacing the sensor or detector, notify the proper authorities that maintenance is being performed and the system will be temporar- ily out of service. Disable the zone or system undergoing maintenance to prevent any unwanted alarms. Follow the proper testing protocol as outlined in the Testing section to make sure the device is functioning properly. Dispose of detector in accordance with any local regulations. FIGURE 7: CO SENSOR REPLACEMENT REPLACEABLE CO CELL S0333-00 4 I56-3747-004 ©2017 System Sensor. 04-25 i4™ is a trademark of, and System Sensor®, RealTest®, and Honeywell® are registered trademarks of Honeywell International, Inc. i4 Series Interface Module COSMOD2W and COSMOD4W *For use with COSMO-2W and COSMO-4W detectors INSTALLATION AND MAINTENANCE INSTRUCTIONS 3825 Ohio Avenue, St. Charles, Illinois 60174 1-800-SENSOR2, FAX: 630-377-6583 www.systemsensor.com SPECIFICATIONS Electrical Specifications Power Supply Voltage: Resettable power; 2-Wire: Min. 8.5 Volts DC (Power limited); Max. 35 Volts DC (Power limited); 4-Wire: Min. 10 Volts DC (Power limited); Max. 35Volts DC (Power limited) Device Power-up Time: 200 milliseconds Standby Current: 2-Wire: 61mA (max.), 45mA (12V In), 26mA (24V In); 4-Wire: 52mA (max.), 37mA (12V In), 22mA (24V In) (Does not include current draw from attached detectors or EOL relay) Alarm Current: 2-Wire: 181mA (max.), 121mA (12V In), 64mA (24V In); 4-Wire: 78mA (max.), 57mA (12V In), 34mA (24V In) (Does not include reverse polarity current draw from attached detectors) Alarm Contact Rating: 100 mA @ 36 Volts DC, resistive, 25 ohms Maintenance Contact Rating: 100 mA @ 36 Volts DC, resistive, 25 ohms Max. IDC Loop Wiring Resistance: 2-Wire: 50 Ohms; 4-Wire: 300 Ohms Trigger Inputs: Min. On Voltage: 1.5V; Max. On Voltage=Vin Aux Power Out: Same Voltage as Input Power (Unregulated, limited to 250mA) Min. Reset Time: 300 milliseconds Initial Communication Cycle: 6 minutes EZ Walk Test Availability: 6 minutes after power up or panel reset Physical Specifications Operating Temperature Range: 0 - 50° C (32 - 122° F) Operating Humidity Range: 5 - 95% RH Storage Temperature Range: -20 - 70° C (-4 - 158° F) Height: 6.04 inches Width: 6.04 inches Depth: 1.16 inches Shipping Weight: 0.6 lbs Wire Gauge Acceptance: Min: 22 AWG; Max: 14 AWG 2-wire Compatibility Requirements Min. Loop Voltage: 12.9 Volts DC Max. Loop Voltage: 14.5 Volts DC Max. Loop Resistance: 50 Ohms Max. Loop Ripple: 240 mVpp Max. Loading Capacitance: 0.01 mF Max. Alarm Current: 46 mA Max. Reset Voltage: 0.30 Volts DC Alarm Delay: n/a Min. Alarm Reset Time: 0.3 seconds Max. Normal Load Current: 2.4 mA Zone Type: Standard EOL Device: 3.9k Ohms (+-5%) Loop Style: B and D Compatibility Zone Identifier: A Detector Zone Identifier: A Max. Detectors Per Zone: (12) 2-wire i4 series model #COSMO-2W and/or i3 series model #2WTA-B detectors I56-3871-004BEFORE INSTALLATION This information is included as a quick reference installation guide. Refer to the control panel installation manual for detailed system information. If the module will be installed in an existing operational system, inform the operator and local authority that the system will be temporarily out of service. Discon- nect power to the control panel before installing the module. Notice: This manual should be left with the owner/user of this equipment. This product is intended for use in ordinary indoor locations. GENERAL DESCRIPTION The i4 series module is designed to interface between compatible i4 series combination CO/smoke detectors (Model COSMO-2W and COSMO-4W) and compatible security/fire panels. It can also be used to retrofit compatible i4 series detectors into an existing loop of i3 smoke detector models 2WTA-B or 4WTA-B, without adding wires. The module interprets signals and translates them into a separate smoke zone and a separate CO zone, each with alarm and trouble signals. The module will interconnect the detectors connected to it and alarm them in either Temporal 3 or Temporal 4 pattern. Optional trig- gers are provided to initiate multiple modules to sound. (an additional RSS- MOD is not required) Local status indication is provided by 4 LED’s and a 3 position DIP switch enables user configuration. The i4 COSMOD2W, 2-wire interface module, offers additional functionality including: • Ability to query for a “need for maintenance” condition from 2-wire i4 series model COSMO-2W and i3 series model 2WTA-B smoke detectors • One relay is available to indicate a multitude of maintenance conditions at the control panel • All conditions are displayed at the module and at the detector • EZ Walk test mode allows the installer to easily verify that all detectors on a loop are operational • Allows 2-wire smoke detectors to be used on any compatible 4-wire control panel and provides Style D / Class A wiring on the detector loop FEATURES • Compatible with System Sensor i4 series combination CO/smoke detectors and System Sensor i3 Series smoke detectors models 2WTA-B or 4WTA-B. 1 I56-3871-004 06-10 • Allows up to 12 compatible devices including the i4 series combination CO/smoke detector to be integrated with a panel • Activates sounders of all detectors on loop in either Temporal 3 or Temporal 4 pattern VISIBLE ANNUNCIATON The i4 series interface module has four visible LED’s: The green LED is a su- pervisory LED; it blinks during power on, reset, and during normal operation. The yellow LED is used to indicate a loop wiring fault and will blink when it is in EZ Walk test mode. The red LED signals smoke events; it blinks during smoke maintenance events and lights constantly during smoke alarm events. The blue LED signals CO events; it blinks during CO trouble or CO end-of-life, and lights constantly during CO alarm. FIGURE 1: MODULE FRONT VIEW Green LED Yellow LED Red LED Blue LED EZ Walk Test Switch(2-wire only) S0331-00 TABLE 1: OPERATION MODES OPERATION MODE GREEN LED YELLOW LED RED LED BLUE LED Normal (standby) Blink 1 Sec. OFF OFF OFF No power/ Non-operational OFF OFF OFF OFF Loop wiring fault Blink 1 Sec. ON OFF OFF EZ Walk Test Mode (2-wire only)Blink 1 Sec. Blink 5 Sec. OFF OFF Alarm Smoke Blink 1 Sec. OFF ON OFF Alarm CO Blink 1 Sec. OFF OFF ON Alarm Smoke & CO Blink 1 Sec. OFF ON ON Maintenance (2-wire only)Blink 1 Sec. OFF Blink 5 Sec. OFF Freeze Trouble (2-wire only)Blink 1 Sec. OFF Blink 10 Sec. OFF CO Trouble Blink 1 Sec. OFF OFF Blink 5 Sec. NORMAL (STANDBY) The module is powered and detectors on the loop are operating normally. NO POWER/NON-OPERATIONAL Power is not applied to the module or communication between the module and the detectors on the loop is unsuccessful. LOOP WIRING FAULT If an open circuit occurs on the loop, the module will indicate the condition by illuminating the yellow LED. 2-wire units will then power the Style-D/Class A terminals. When the wiring issue on the loop has been resolved, the module will turn the yellow LED off. EZ WALK TEST MODE This indicates the module and detectors are in EZ Walk Test Mode. See “EZ Walk Test” section for instructions on how to initiate and perform the EZ Walk test. ALARM SMOKE/ALARM CO/ALARM SMOKE & CO A smoke alarm will be indicated by the red LED. A CO alarm will be indicated by the blue LED. A smoke alarm is not self-restoring. Once a smoke alarm has been signaled, the red LED will illuminate until the module is reset by removal of power. Note: On some panels, resetting a smoke alarm may require additional steps at the keypad to clear the trouble conditions on CO and smoke mainte- nance zones due to power loss to the module. A CO alarm is self-clearing. Once a CO alarm has been signaled, the blue LED will illuminate. Once the initiating device ceases to signal the CO event, the blue LED will turn off. If a CO alarm is signaled, and not cleared, prior to a smoke alarm condition, the module will keep both the blue and red LED’s illuminated. If a smoke alarm is signaled first, the module will not be able to receive notification of a CO alarm condition and will not be able to report it to the panel. MAINTENANCE This condition means one or more detectors on the loop have a smoke main- tenance issue. See “Smoke Maintenance Inquiry” section for further details. FREEZE TROUBLE This condition means one or more detectors on the loop are measuring the ambient temperature is near the freezing point. See “Freeze Trouble Inquiry” section for further details. CO TROUBLE The module can be notified of a detector with a CO trouble condition. All CO trouble conditions will be reported on the CO zone and displayed with a blink- ing blue LED. The module is not able to determine the number of detectors that have a CO trouble condition or which trouble condition exists. INSTALLATION MOUNTING The module can be mounted to a 4-11/16 inch back box or inside a listed, dedi- cated enclosure. When mounting inside an enclosure with pre-stamped holes, it may be easier to align the bottom screw hole first. It is not necessary to use the module cover when mounting inside an enclosure. FIGURE 2: MOUNTING HOLE FOR MOUNTINGTO VISTA ENCLOSURE (No. 6x3/4 Type AB) SLOTS FOR MOUNTINGTO 4-11/16 JUNCTION BOXSLOT FOR MOUNTINGTO VISTA ENCLOSURE (No. 6x5/16Type AB or Type F) S0332-00 WIRING GUIDELINES All wiring must be installed in compliance with the NFPA 70 standards, Na- tional Electrical Code, applicable state and local codes, and any special re- quirements at the local Authority Having Jurisdiction (AHJ). The screw terminals in the mounting base will accept 14-22 gauge wire. Wire connections are made by stripping approximately ¼” of insulation from the end of the feed wire, inserting it into the proper base terminal, and tightening the screw to secure the wire in place. Do not put wires more than 2 gauge apart under the same clamping plate. Note: The module must be installed in the same room and within 20 feet of the panel and enclosed within conduit or equivalently protected against me- chanical injury. WARNING Remove power from alarm control unit or initiating device circuits before in- stalling detectors. WIRING DIAGRAMS Install module wiring in accordance with appropriate wiring diagrams. (Figure 3 and Figure 4) The module relays have a maximum ON resistance of 25 ohms. This resis- tance plus the wiring resistance to the panel must be less than the maximum zone wiring resistance stated in the panel manual. 2 I56-3871-004 06-10 POWER IN + IDC + IDC POWER IN CO ALARM CONTACT CO TRIGGER SMOKE ALARM CONTACT MAINTENANCE TROUBLE RELAY CONTACT (COSMOD2W ONLY) SMOKE ZONE EOL RESISTOR (VALUE DEFINED BY PANEL) CO ZONE EOL RESISTOR (VALUE DEFINED BY PANEL) STYLE D/CLASS A + (4-WIRE DETECTOR POWER +) STYLE D/CLASS A (4-WIRE DETECTOR POWER ) SMOKE TRIGGER / BELL IN COSMO-2W 3.9k RESISTOR(supplied with module) LOOP STYLE D / CLASS A WIRING SMOKE AUXPOWER (resettable) SMOKE ZONE CO ZONE MAINT. ZONE SMOKE TRIGGER OUT PanelEOLResistors COSMOD2W ALL CIRCUITS ARE SUPERVISED (EXCEPT TRIGGERS) AND MUST BE POWER LIMITED PanelEOLResistor CO TRIGGER OUT BELL OR COSMO-4W 3.9k RESISTOR (supplied with module) SMOKE POWER (resettable) SMOKE ZONE CO ZONE PanelEOLResistors COSMOD4W EOL RELAY #EOLR-1 ALL CIRCUITS ARE SUPERVISED (EXCEPT TRIGGERS) AND MUST BE POWER LIMITED CO TRIGGER OUT SMOKE TRIGGER OUT BELL OR S0329-00 S0330-00 S0334-02 FIGURE 3: COSMOD2W WIRING DIAGRAM FIGURE 4: COSMOD4W WIRING DIAGRAM FIGURE 5: MODULE TERMINALS Note: See Table 2 for dip switch configurations 3 I56-3871-004 06-10 INPUT TRIGGERS/SOUNDER ACTIVATION Many panels can be programmed with triggers which are auxiliary relays that activate upon an alarm condition. Two inputs are used to signal the module to activate device sounders. The first is configurable by DIP switch to one of two modes; bell in or smoke trigger. When in the bell mode, the module will follow a valid coded signal from a Bell Out/NAC circuit consisting of high to low, then low to high for less than 1.9 seconds each. In smoke trigger mode, while the input is held high, the module will synchronize the detectors in a Temporal 3 pattern. The second input is for a CO trigger ; the CO trigger input allows a single mod- ule to have CO silence/hush capability and allows multiple module installa- tions to have all sounders activated in Temporal 4 in the event of a CO alarm. While the CO trigger is held high, with a positive voltage input, the module will synchronize the detectors in a Temporal 4 pattern. After 30 minutes in Temporal 4 alarm, the time period between the Temporal 4 pulse will change from 5 seconds to 60 seconds. Note: CO trigger may only be used with UL 864 panels that have been evalu- ated to confirm CO services: A) The control unit shall be capable of distinctively indicating the activation of a CO detector as a carbon monoxide alarm signal B) The visible annunciation of an activated carbon monoxide detector at the control unit shall not be canceled when the carbon monoxide audible alarm signal is de- activated, For installations other than residential applications, the interconnected control unit must produce the T4 alarm pattern via separate NAC(s). TABLE 2: DIP SWITCH CONFIGURATIONS DIP SWITCH # 1 DIP SWITCH # 2 DIP SWITCH # 3 ON (DEFAULT) Bell In Smoke Maint on Smoke Trouble and Form-B Maint Relay (COSMOD2W only) Unused OFF Smoke Trigger Smoke Maint on Form-B Smoke main- tenance Relay only (COSMOD2W only) Unused POWER UP AND COMMUNICATIONS COMMUNICATIONS CHECK (2-WIRE ONLY) Upon power up, the module will send a request for communication check. All compatible detectors on the loop that understand the communication protocol will respond. If all detectors respond correctly, the green LED will blink once every 1 second. If the module does not get a response, it will turn off the green LED and continue to try every 2 minutes until a response is received. SMOKE MAINTENANCE INQUIRY The module sends a smoke maintenance inquiry to the detectors every 24 hours. (Compatible 2-wire detectors only) If a response indicating a mainte- nance problem is received, the red LED on the module will blink once every 5 seconds and a smoke maintenance condition will be indicated to the panel. It is likely that the detector needs to be cleaned or replaced, refer to the detector instruction manual for maintenance instructions. FREEZE TROUBLE INQUIRY The module sends a freeze trouble inquiry to the detectors every four hours. (Compatible i3 Series 2-wire smoke detectors only) If a response indicating a freeze problem is received, the red LED on the module will blink once every 10 seconds and a smoke maintenance condition will be indicated to the panel. TESTING Modules must be tested after installation and following periodic maintenance. Testing should be performed at least once per year. NOTE: Before testing, notify the proper authorities that the system will be tempo- rarily out of service. Disable the zone or system to prevent any unwanted alarms. EZ WALK TEST The communication loop between the 2-wire modules and detectors can be manually tested by putting the module and detectors into EZ Walk test mode. This feature is for use with System Sensor detectors (i4 series model COSMO-2W and i3 series model 2WTA-B) installed with the model COSMOD2W module. The EZ Walk loop test verifies the initiating loop wiring and provides visual status indication at each detector: 1. Ensure proper wiring and power is applied. Wait approximately 6 min- utes from power-up before performing the EZ Walk test. The green LED on the module must be blinking indicating the module is in ready/ standby mode to start the EZ Walk mode. 2. Locate the EZ Walk recessed test switch located behind the module cover (See Figure 1). Depress the test switch with a small screwdriver. The yel- low LED will blink showing that the module and detectors are in EZ Walk mode for 5 minutes. 3. Observe the LEDs at each detector to make sure the green LED is double blinking every 5 seconds as listed in Table 3. 4. At the end of the five minute period, the module will terminate EZ Walk and the yellow LED will stop blinking. The EZ Walk test period can be extended by pressing the test switch multiple times. Each press will add 5 minutes of additional time. If a module or detector fails the test, its wiring should be checked. If the module still fails, it should be replaced. Notify the proper authorities when all testing has been completed. NOTE: The EZ Walk loop test should not be used in lieu of functional testing (alarm, trouble and other functional tests) of the system. TABLE 3: EZ WALK TEST DETECTOR MODES DETECTOR GREEN LED DETECTOR RED LED PROPER OPERATION Double Blink 5 Seconds OFF OUT OF SENSITIVIY OFF Double Blink 5 Seconds FREEZE CONDITION OFF Double Blink 10 Seconds System Sensor warrants its enclosed product to be free from defects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for the enclosed product. No agent, representative, dealer, or employee of the Company has the authority to in- crease or alter the obligations or limitations of this Warranty. The Company’s obligation of this Warranty shall be limited to the replacement of any part of the product which is found to be defective in materials or workmanship under normal use and service during the three year period commencing with the date of manufacture. After phoning System Sensor’s toll free number 800-SENSOR2 (736-7672) for a Return Authorization number, send defective units postage prepaid to: Honeywell, 12220 Rojas Drive, Suite 700, El Paso TX 79936, USA. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to replace units which are found to be defective because of damage, unreasonable use, modifications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequen- tial or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company’s negligence or fault. Some states do not allow the exclusion or limitation of incidental or consequential dam- ages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. THREE-YEAR LIMITED WARRANTY FCC STATEMENT This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installa- tion. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: – Reorient or relocate the receiving antenna. – Increase the separation between the equipment and receiver. – Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. – Consult the dealer or an experienced radio/TV technician for help. 4 I56-3871-004 ©2016 System Sensor. 06-10 1 I56-2958-002R 06-10 INSTALLATION AND MAINTENANCE INSTRUCTIONS MHR and MHW Mini-Horns 3825 Ohio Avenue, St. Charles, Illinois 60174 800/736-7672, FAX: 630/377-6495 www.systemsensor.com SPECIFICATIONS General Specifications Standard Operating Temperature: 32°F to 120°F (0°C to 49°C) Humidity Range: 10 to 93% non-condensing Nominal Voltage: Regulated 12DC/FWR or regulated 24DC/FWR Operating Voltage Range: 8-33 Operating Voltage with MDL3: 8.5-33 Sounder Frequency: 3kHz (nominal) Mechanical Specifications Input terminal wire gauge: 12 to 18 AWG Horn dimensions: 4.6˝L×2.9˝W×.45˝D (117 mm L×74 mm W×11.5 mm D) GENERAL DESCRIPTION The SpectrAlert Advance MH Series mini-horns are available in red or white. They feature 12 or 24 volt operation, high and low volume settings, and tem- poral or continuous tones. These small footprint horns can be mounted to single gang back boxes for aesthetically sensitive applications. If required, the MDL3 module can be used to provide synchronization. NOTICE: This manual shall be left with the owner/user of this equipment. FIRE ALARM SYSTEM CONSIDERATIONS The National Fire Alarm Code, NFPA 72, requires that all horns, used for building evacuation installed after July 1, 1996, produce temporal coded sig- nals. Signals other than those used for evacuation purposes do not have to produce the temporal coded signal. POWER SUPPLY CONSIDERATIONS Panels typically supply DC filtered voltage or FWR (full wave rectified) volt- age. The system design engineer must calculate the number of units used on a loop based on the type of panel supply. Be certain the sum of all the device currents does not exceed the current capability of the panel. Calculations are based on using the device current found in the subsequent charts and must be compatible with the current specified for the panel or power supply used. Loop Design and Wiring The system designer must make sure that the total current drawn by the de- vices on the loop does not exceed the current capability of the panel supply, and that the last device on the circuit is operated within its rated voltage. The current draw information for making these calculations can be found in the tables within this manual. For convenience and accuracy, use the volt- age drop calculator on the System Sensor website (www.systemsensor.com) or CD-ROM. When calculating the voltage available to the last device, it is necessary to consider the voltage drop due to the resistance of the wire. The thicker the wire, the smaller the voltage drop. Wire resistance tables can be obtained from electrical handbooks. Note that if Class A wiring is installed, the wire length may be up to twice as long as it would be for circuits that are not fault tolerant. WIRING FIGURE 1. NON-SYNCHRONIZED DEVICES; ANY COMBINATION OF MODELS POWERED BY A 2-WIRE CIRCUIT Horn (+) () (+) () E OL (+) () (+) () Horn/strobe Strobe Only Two Wire System Any Mix of Models Wired for Tandem Operation FIGURE 2. SYNCHRONIZED DEVICES; ANY COMBINATION OF MODELS POWERED BY A 2-WIRE CIRCUIT Horn Synchronization Module (+) () (+) () E OL (+) () (+) () Horn/strobe Strobe Only Two Wire SystemAny Mix of Models Wired for Tandem OperationMDL3 A0111-01 NOTE: For further information on synchronization see MDL3, panel, or power supply installation manual. NOTE: For 24 volt applications, the total number of horns on a single NAC must not exceed 85 with a maximum loop resistance of 120 ohms. For 12 volt applications, the total number of horns must not exceed 85 with a maximum loop resistance of 120 ohms.I56-2958-002R 2 I56-2958-002R ©2016 System Sensor. 06-10 SOUNDER SELECTION Sounder setting selection is accomplished by using the rotary switch on the back (see Figure 3). The sound measurements for the various settings are shown in Table 1A. The current draw for the various settings is shown in Table 1B. TABLE 1A. SOUNDER OUTPUT (dBA) REVERBERANT SWITCH SETTINGPATTERNOUTPUT LEVEL 8 VDC 8 VFWR 12 VDC 12 VFWR 16-33 VDC 16-33 VFWR 1 TEMPORAL HIGH 68 67 71 70 78 76 2 TEMPORALLOW 66 65 69 68 76 75 3 NON- TEMPORALHIGH 72 71 75 74 80 79 4 NON- TEMPORALLOW 70 69 73 72 78 77 TABLE 1B. SOUNDER CURRENT DRAW (mA RMS) SWITCH POSITION SOUND PATTERN VOLUME 8-17.5 VOLTS 16-33 VOLTS DC FWR DC FWR 1 TEMPORAL HIGH 12 10 17 15 2 TEMPORAL LOW 10 9 14 13 3 NON- TEMPORAL HIGH 22 17 29 25 4 NON- TEMPORAL LOW 17 13 21 19 The horn will not work without power. The horn gets its power from the fire/security panel monitoring the alarm system. If power is cut off for any reason, the horn will not provide the desired audio or visual warning. The horn may not be heard. The loudness of the horn meets (or exceeds) current Underwriters Laboratories’ standards. However, the horn may not alert a sound sleeper or one who has recently used drugs or has been drinking alcoholic beverages. The horn may not be heard if it is placed on a different floor from the person in hazard or if placed too far away to be heard over the ambient noise such as traffic, air conditioners, machinery or music appliances that may prevent alert persons from hearing the alarm. The horn may not be heard by persons who are hearing impaired. THE LIMITATIONS OF HORNS WARNING THREE-YEAR LIMITED WARRANTY System Sensor warrants its enclosed product to be free from defects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for this product. No agent, representative, dealer, or employee of the Company has the authority to increase or alter the obligations or limitations of this Warranty. The Company’s obligation of this Warranty shall be limited to the replacement of any part of the product which is found to be defective in materials or workmanship under normal use and service during the three year period commencing with the date of manufacture. After phoning System Sensor’s toll free number 800-SENSOR2 (736-7672) for a Return Authorization number, send defective units postage prepaid to: Honeywell, 12220 Rojas Drive, Suite 700, El Paso TX 79936, USA. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to replace units which are found to be defective because of damage, unreasonable use, modifications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequen- tial or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company’s negligence or fault. Some states do not allow the exclusion or limitation of incidental or consequential dam- ages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. FCC STATEMENT SpectrAlert Strobes and Horn/Strobes have been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equip- ment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. Please refer to insert for the Limitations of Fire Alarm Systems MOUNTING 1. The MH Mini-Horn is intended for mounting to a standard 2½˝ deep which allows sufficient clearance for conduit entrance. 2. The MH Mini-Horn is compatible with DC line supervision. The horn is polarized and has terminals marked with polarity. Apply positive supply voltage to the (+) terminal and negative to the (–) terminal. (See Figure 3) 3. Mount the horn to the electrical outlet box using the two mounting screws supplied. NOTE: SHOWN WITH CONTROL PANEL IN ALARM. PANEL POLARITY REVERSED IN SUPERVISORY CONDITION. TO EOL OR NEXT DEVICE FROM CONTROL PANEL OR PREVIOUS DEVICE FIGURE 3. A0358-00 3825 Ohio Avenue, St. Charles, Illinois 60174 1-800-SENSOR2, FAX: 630-377-6495 www.systemsensor.com INSTALLATION AND MAINTENANCE INSTRUCTIONS Photoelectric Smoke Detector 2-Wire: 2WTR-B (Form C Relay), 2WTA-B (Sounder) 4-Wire: 4WTR-B (Form C Relay), 4WTA-B (Sounder) 4WTAR-B (Form C Relay, Sounder), 4WITAR-B (Isolated Thermal, Form C Relay, Sounder) Series BEFORE INSTALLING Please read thoroughly System Sensor’s Applications Guide for System Smoke Detectors (SPAG91), which provides detailed information on detector spacing, placement, zoning, wiring, and special applications. This is available online from System Sensor’s web site: www.systemsensor.com. NOTICE: This manual shall be left with the owner/user of this equipment. IMPORTANT: This detector must be tested and maintained regularly follow- ing National Fire Protection Association (NFPA) 72 National Fire Alarm Code requirements. At a minimum, cleaning should be performed annually. GENERAL DESCRIPTION Models 2WTR-B and 2WTA-B are 2-wire photoelectric smoke detectors; models 4WTR-B, 4WTA-B, 4WTAR-B, and 4WITAR-B are 4-wire photoelectric smoke detectors. All models incorporate a state-of-the-art optical sensing chamber and an advanced microprocessor. The microprocessor allows the detector to automatically adjust its sensitivity back to the factory setting when it becomes more sensitive due to contaminants settling in its chamber. In order for this feature to work properly, the chamber must never be opened while power is applied to the smoke detector. This includes cleaning, maintenance or screen replacement. All models also feature a restorable, built-in, fixed temperature (135°F) thermal detector and are also capable of sensing a freeze condition if the temperature is below 41°F. Models 2WTA-B, 4WTA-B, 4WTAR-B, and 4WITAR-B contain a piezoelectric horn which generates the ANSI S3.41 temporal pattern in an alarm condition. All detectors on a zone will sound when the power supply to them is reversed. The RRS-MOD can be used for the power supply reversal function. The RRS- MOD also enables all the detectors’ sounders on a zone to be synchronized and allows the zone to be silenced from the panel by entering the alarm si- lence key at the keypad. The detector that initiated the alarm condition will have its red LED and Form C relays (if applicable) latched until reset by panel. The model 4WITAR-B photoelectronic smoke sensor is isolated from the fixed- temperature heat sensor, providing a self-resetting, local audible smoke alarm that does not alarm at the panel. Only the fixed-temperature heat sensor will cause the 4WITAR-B to initiate an alarm at the panel and the relay to change its state. NOTE: In order for all i3 sounder detectors on a loop to sound when the panel alarms, the supply voltage polarity must be reversed. A reversing relay, System Sensor model number RRS-MOD, must be used. The RRS-MOD is designed to allow all i3 Series detectors in the same loop to sound when one of the detectors goes into alarm. In addition, the RRS-MOD will synchronize all of the i3 Series sounder smoke detectors on the loop. Some panels may require the use of programmable outputs. Refer to System Sensor literature for further information on the RRS-MOD. All i3 Series detectors are designed to provide open area protection. Two-wire models must be used with compatible UL Listed panels only. ELECTRICAL SPECIFICATIONS 2-wire 4-wire System Voltage –Nominal: 12/24 12/24 V (Non-polarized for 2WTR-B and 4WTR-B) Min.: 8.5 10 V Max.: 35 35 V Max. Ripple Voltage: 30 30 % peak to peak of applied voltage Avg. Standby Current: 50 50 µA average Peak Standby Current: 100 — µA Max. Alarm Current 4WTA-B, 4WTR-B: — 35 mA 4WTAR-B, 4WITAR-B: — 50 mA 2WTR-B: 130 — mA panel must limit current 2WTA-B: 130* Alarm Contact Ratings: — 0.5 A @ 30 V AC/DC Form C Contact Ratings: 2 2 A @ 30 V AC/DC Audible Signal (temp-3 tone): 85 85 dBA min. in alarm or supply polarity reversed (Sounder units only) Remote Annunciator Output: 7 — mA maximum EOL Relay: — 12/24 EOLR-1 Reset Time (min): 0.3 0.3 seconds Max. Start-up Capacitance: 0.1 — µF Max. Initial Start-up Time: 45 15 seconds AlarmVerification** Start-up Time: 15 15 seconds *Direct Power (Non-reverse Polarity): 130 mA limited by panel. Reverse Polarity Power: 30 mA for the 2WTA-B in alarm; 12 mA for all other 2WTA-B units on the loop. Add 25 mA for the RRS-MOD reversing relay alarm current. **Assumes the panel’s alarm verification reset time is 10 seconds or less. Should the alarm verification reset exceed 10 seconds, use the maximum initial start-up time. PHYSICAL SPECIFICATIONS Heat Sensor: 135°F (57.2°C) Freeze Trouble: 41°F (5°C) Operating Temperature Range: 32 to 100°F (0 to 37.8°C) Operating Humidity Range: 0 to 95% RH non-condensing Storage Temperature Range: –4 to 158°F (–20 to 70°C) Diameter (including base): 5.3 inches Height (including base): 2.0 inches Weight: 7.1 oz.I56-2170-010 1 I56-2170-010 02-20 When used with an “i3 Ready” control panel or the i3 Series 2W-MOD2 mod- ule (refer to installation manual), the 2WTR-B and 2WTA-B are capable of generating a “maintenance needed” signal. The 2W-MOD2 can indicate a need for cleaning, replacement, or a freeze trouble at the control panel or module. WARNING The 2W-MOD2 has replaced the previous model number 2W-MOD. To ensure proper remote maintenance signaling capabilities, do not use the 2W-MOD with i3 model numbers 2WTR-B and 2WTA-B. Installation of the 2WTR-B, 2WTA-B, 4WTR-B, 4WTA-B, 4WTAR-B, and 4WITAR-B detectors is simplified by the use of a mounting base that may be pre-wired to the system, allowing the detector to be easily installed or re- moved. The mounting base installation is further simplified by the incorpora- tion of features compatible with drywall fasteners. Two LEDs on the detector provide a local visual indication of the detector’s status: TABLE 1: DETECTOR LED MODES Green LED Red LED Power-up Blink 10 sec Blink 10 sec Normal (standby) Blink 5 sec — Out of sensitivity — Blink 5 sec Freeze Trouble — Blink 10 sec Alarm — Solid During an initial power-up delay, the red and green LEDs will blink synchro- nously once every ten seconds. It will take approximately 80 seconds for the detector to finish the power-up cycle (see Table 2). TABLE 2: POWER-UP SEQUENCE FOR LED STATUS INDICATION* Condition Duration Initial LED Status Indication 80 seconds Initial LED Status Indication (if excessive electrical noise is present) 4 minutes *Refer to Electrical Specifications for start-up time in conjunction with panel alarm verification. NOTE: If, during power-up, the detector determines there is excessive electri- cal noise in the system such as those caused by improper grounding of the system or the conduit, both LEDs will blink for up to 4 minutes before display- ing detector status (see Table 2). After power-up has completed and the detector is functioning normally within its listed sensitivity range, the green LED blinks once every five seconds. If the detector is in need of maintenance because its sensitivity has shifted outside the listed limits, the red LED blinks once every five seconds. When the detec- tor is in the alarm mode, the red LED latches on. The LED indication must not be used in lieu of the tests specified under Testing. In a freeze trouble condi- tion, the red LED will blink once every 10 seconds (refer to Table 1). To measure the detector’s sensitivity, the i3 Series Model SENS-RDR Infrared Sensitivity Reader tool (see Figure 4) should be used. Refer to instructions manual D100-98-00 for the proper use of the SENS-RDR. Models 2WTR-B and 2WTA-B also include an output that allows an optional Model RA400Z/RA100Z Remote Annunciator to be connected. MOUNTING General spacing guidelines are 30˝×30˝, with each detector covering 900 ft2 under maximum conditions. Consult NFPA 72, the local Authority Having Jurisdiction (AHJ), and/or ap- plicable codes for specific information regarding the spacing and placement of smoke detectors. Each i3 Series detector is supplied with a mounting base that can be ceiling- or wall-mounted: 1. To a single gang box, or 2. To a 31⁄2-inch or 4-inch octagonal box, or 3. To a 4-inch square box with a plaster ring, or 4. Direct mount or to ceiling using drywall fasteners. FIGURE 1: MOUNTING OF DETECTOR S0121-00 The i3 Series heads and bases are keyed so that all heads will only fit into their respective bases. One model 4-wire relay base will accept the 4WTR-B, 4WTAR-B and 4WITAR-B detector heads and no others. The 2WTR-B, 2WTA-B and 4WTA-B will only fit into their respective mounting bases and no others. The heads and bases are clearly identified as either 2-wire or 4-wire. When mounting the i3 Series, ensure that the head is mounted to the correct base, and the test switch is aligned with the tamper release tab. TAMPER-RESISTANT FEATURE The i3 Series detectors include a tamper-resistant feature that prevents re- moval from the mounting base without the use of a tool. To engage the tam- per-resistant feature, cut the small plastic tab located on the mounting base (Figure 2), and then install the detector. To remove the detector from the base once it has been made tamper resistant, use a small screwdriver to depress the square tamper release tab, located on the skirt of the mounting base, and turn the detector counterclockwise. INSTALLATION GUIDELINES The i3 Series detectors represent an advancement over the previous sounder and Form C relay models and are designed to be used with the 2W-MOD2 and RRS-MOD only. Do not mix detector models on a zone. FIGURE 2: TAMPER-RESISTANT FEATURE SNAP OFF TAB FORTAMPER LOCK TAMPER RELEASE TAB DIRECT MOUNT HOLES S0109-00 WIRING INSTALLATION GUIDELINES All wiring must be installed in compliance with the NFPA 70, National Electri- cal Code, applicable state and local codes, and any special requirements of the local Authority Having Jurisdiction. Proper wire gauges should be used. The conductors used to connect smoke detectors to the alarm control panel and accessory devices should be color- coded to reduce the likelihood of wiring errors. Improper connections can prevent a system from responding properly in the event of a fire. The screw terminals in the mounting base will accept 14–22 gauge wire. For best system performance, all wiring should be installed in separate grounded conduit; do not mix fire alarm system wiring in the same conduit as any other electrical wiring. Twisted pair may be used to provide additional protection against extraneous electrical interference. Wire connections are made by stripping approximately 1⁄4-inch of insulation from the end of the feed wire, inserting it into the proper base terminal, and tightening the screw to secure the wire in place. Do not put wires more than 2 gauge apart under the same clamping plate. TWO-WIRE COMPATIBILITY System Sensor two-wire smoke detectors are marked with a compatibility identifier located on the label on the back of the product. For two-wire mod- els 2WTR-B and 2WTA-B, connect detectors only to compatible alarm control panels as identified by System Sensor’s two-wire compatibility chart, available at www.systemsensor.com. NOTE: Models 2WTR-B and 2WTA-B are not to be installed on initiating cir- cuits containing other makes/models of smoke detectors. NOTE: Style D initiating circuits require the use of a 2W-MOD2 for models 2WTR-B and 2WTA-B. 2 I56-2170-010 02-20 WIRING DIAGRAMS FIGURE 3A: WIRING DIAGRAM, 2WTR-B AND 2WTA-B 2-WIRE ZONE 2-WIRE CONTROL PANEL + (5) RA (4) RA + (3) IN/OUT (2) + OUT (1) + IN RA400Z EOL RESISTOR OPTIONAL RELEASING DEVICE (6) NC (7) C (8) NO NOT INCLUDED ON 2WTA-B MODEL S0122-00 NOTE: FOR ALL COMPATIBLE ADEMCO PANELS, DO NOT EXCEED 30 OHMS LINE IMPEDANCE. NOTE: ONLY ONE 2WTR-B DETECTOR PER ZONE CAN BE USED. NOTE: Only one 2WTA-B detector shall be installed on a zone, unless the panel switches the zone to a reverse polarity, non-current limited power sup- ply. For panels that do not provide this feature, a reversing relay, System Sen- sor model RRS-MOD, may be used. When utilized with the 2WTA-B, it allows for more than one detector to be utilized on a loop. Some panels may require the use of programmable outputs. Refer to System Sensor literature for further information on the RRS-MOD. The 2WTA-B detector shall not be mixed with other 2-wire detectors on the same zone. CAUTION Any 2-wire i3 smoke detector (2W-B, 2WT-B, 2WTA-B, or 2WTR-B) wired in the Style D initiating device circuit (IDC) configuration requires the use of a 2W-MOD2 module. This is because fire alarm control panels vary by manufacturer on the implementation of Style D circuits. Therefore, the only way to insure proper operation of 2-wire i3 smoke detectors (2W-B, 2WT-B, 2WTA-B, or 2WTR-B) on Style D IDC’s is to use a 2W-MOD2 module. Refer to the 2W-MOD2 installation manual, document D500-46-00, for Style D wiring diagrams. The 2W-MOD2 installation manual may be downloaded from the System Sensor web site at www.systemsensor.com. FIGURE 3B: WIRING DIAGRAM, 4WTR-B, 4WTA-B, 4WTAR-B, AND 4WITAR-B AUX OR SMOKE POWER IDC 4-WIRE CONTROL PANEL + + (5) A(4) A(3) IN/OUT(2) + OUT(1) + INEOL RELAY (EOLR-1) EOLRESISTOR (5) A(4) A(3) IN/OUT(2) + OUT(1) + INNOT INCLUDED ON 4WTA-B MODEL NOT INCLUDED ON 4WTA-B MODEL OPTIONAL RELEASING DEVICE (6) NC(7) C(8) NOOPTIONAL RELEASING DEVICE (6) NC(7) C(8) NOS0123-01 INSTALLATION WARNING Remove power from alarm control unit or initiating device circuits before in- stalling detectors. NOTE: To install units so that corresponding LEDs are lined up, refer to the “Green LED” indicator on the base. 1. Wire the mounting base screw terminals per Figure 3a or Figure 3b, as applicable. 2. Place detector on the base and rotate clockwise. The detector will drop into the base and lock into place with a “click”. 3. After all detectors have been installed, apply power to the alarm control unit. 4. Test each detector as described in Testing. 5. Reset all the detectors at the alarm control unit. 6. Notify the proper authorities that the system is in operation. CAUTION Dust covers are an effective way to limit the entry of dust into the smoke detector sensing chamber during construction. However, they may not com- pletely prevent airborne dust particles from entering the detector. Therefore, System Sensor recommends the removal of detectors before beginning con- struction or other dust producing activity. When returning the system to ser- vice, be sure to remove the dust covers from any detectors that were left in place during construction. CAUTION Smoke detectors are not to be used with detector guards unless the combina- tion has been evaluated and found suitable for that purpose. CAUTION When using the RRS-MOD with model 2WTA-B, do not mix the 2WTA-B with other model smoke detectors and dry contact closure devices, including me- chanical heat detectors, manual pull stations and waterflow switches. Such mixing can cause a direct short on the auxiliary power terminals, damaging the control panel’s internal circuitry and/or damage devices connected to the initiating device circuit. TESTING Detectors must be tested after installation and following maintenance. NOTE: Before testing, notify the proper authorities that maintenance is being performed and the system will be temporarily out of service. Disable the zone or system undergoing maintenance to prevent any unwanted alarms. Ensure proper wiring and power is applied. After power up, allow 80 seconds for the detector to stabilize before testing. Test i3 Series detectors as follows: A. TEST SWITCH 1. An opening for the recessed test switch is located on the detector hous- ing (See Figure 4). 2. Insert a small screwdriver or allen wrench (0.18˝ max.) into the test switch opening; push and hold. 3. If the detector is within the listed sensitivity limits, the detector’s red LED should light within one second. FIGURE 4: RECESSED TEST SWITCH OPENING AND SENS-RDR POSITION POSITION SENS-RDR AT AN ANGLE ONTHE OVAL AREA OR AT THE CHAMBER OPENING BY THE WORD PAINT PUSH RECESSED SWITCH WITH A0.18® MAX.DIAMETER TOOL RECESSEDTEST SWITCH LED S0110-00 B. SMOKE ENTRY TEST Canned aerosol simulated smoke (canned smoke agent) may be used for smoke entry testing of the smoke detector. Tested and approved aerosol smoke products are: MANUFACTURER MODEL Home Safeguard Industries 25S, 30S SDi CHEK02 and CHEK06 SDi SOLOA4 SDi SMOKESABRE-01 When used properly, the canned smoke agent will cause the smoke detector to go into alarm. Refer to the manufacturer’s published instructions for proper use of the canned smoke agent. 3 I56-2170-010 02-20 System Sensor warrants its enclosed product to be free from defects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for the enclosed product. No agent, representative, dealer, or employee of the Company has the authority to in- crease or alter the obligations or limitations of this Warranty. The Company’s obligation of this Warranty shall be limited to the replacement of any part of the product which is found to be defective in materials or workmanship under normal use and service during the three year period commencing with the date of manufacture. After phoning System Sensor’s toll free number 800-SENSOR2 (736-7672) for a Return Authorization number, send defective units postage prepaid to: Honeywell, 12220 Rojas Drive, Suite 700, El Paso TX 79936, USA. Please include a note describing the malfunction and suspected cause of failure. The Company shall not be obligated to replace units which are found to be defective because of damage, unreasonable use, modifications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequen- tial or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company’s negligence or fault. Some states do not allow the exclusion or limitation of incidental or consequential dam- ages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. THREE-YEAR LIMITED WARRANTY Please refer to insert for the Limitations of Fire Alarm Systems FCC STATEMENT This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installa- tion. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: – Reorient or relocate the receiving antenna. – Increase the separation between the equipment and receiver. – Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. – Consult the dealer or an experienced radio/TV technician for help. CAUTION Canned aerosol simulated smoke (canned smoke agent) formulas will vary by manufacturer. Misuse or overuse of these products may have long term ad- verse effects on the smoke detector. Consult the canned smoke agent manufac- turer’s published instructions for any further warnings or caution statements. C. DIRECT HEAT METHOD Using a 1000-1500 watt hair dryer, direct the heat toward either of the thermis- tors. Hold the heat source about 12 inches from the detector to avoid damage to the plastic. NOTE: For the above tests, the detector will reset only after the power source has been momentarily interrupted. It is not necessary to reset the model 4WITAR-B, when smoke is used to initiate the alarm. When testing the 4WITAR-B model, pressing the test switch will result in a non-latching local alarm that does not alarm at the control panel. Once the test button is released, the unit will return to its standby condition. Only the fixed-temperature heat sensor will cause the 4WITAR-B to initiate an alarm at the panel. If a detector fails any of the above test methods, its wiring should be checked and it should be cleaned as outlined in the Maintenance section. If the detec- tor still fails, it should be replaced. Notify the proper authorities when the system is back in service. LOOP VERIFICATION (MODELS 2WTR-B AND 2WTA-B ONLY) Loop verification is provided by the EZ Walk loop test feature. This feature is for use with i3 Series compatible control panels or the i3 Series 2W-MOD2 module only. The EZ Walk loop test verifies the initiating loop wiring and provides visual status indication at each detector. Refer to System Sensor lit- erature for further information on the 2W-MOD2. WARNING The 2W-MOD2 has replaced the previous model number 2W-MOD. To ensure proper EZ Walk Test capabilities, do not use the 2W-MOD with i3 model num- bers 2WTR-B and 2WTA-B. TABLE 3: EZ WALK TEST DETECTOR MODES Green LED Red LED Proper Operation Double blink 5 sec — Out of Sensitivity — Double Blink 5 sec Freeze Condition — Double Blink 10 sec NOTE: The EZ Walk loop test must not be used instead of alarm testing. MAINTENANCE NOTE: Before performing maintenance on the detector, notify the proper au- thorities that maintenance is being performed and the system will be tem- porarily out of service. Disable the zone or system undergoing maintenance to prevent any unwanted alarms. Power must be removed from the detector before performing maintenance of any kind. 1. Remove the detector cover by turning counterclockwise. (See Figure 5.) 2. Vacuum the cover or use canned air to remove any dust or debris. 3. Remove the top half of the screen/sensing chamber by lifting straight up. (See Figure 5.) 4. Vacuum or use canned air to remove any dust or particles that are pres- ent on both chamber halves. 5. Replace the top half of the screen/sensing chamber by aligning the arrow on the screen/sensing chamber with the arrow on the housing. Press down firmly until the screen/sensing chamber is fully seated. 6. Replace the detector cover by placing it over the screen/sensing chamber and turning it clockwise until it snaps into place. 7. Reinstall the detector and test. (See the Testing section.) 8. Notify the proper authorities when the system is back in service. FIGURE 5: REMOVING SCREEN/SENSING CHAMBER REMOVABLE DETECTOR COVER SCREEN/SENSINGCHAMBER (TOP HALF) DETECTOR HOUSING S0111-00 i3 is a trademark of and System Sensor® and Honeywell® are registered trademarks of Honeywell International, Inc. 4 I56-2170-010 ©2017 System Sensor. 02-20 Project: Trebold Residence Renovations Address: 1345 Westhaven Drive, Vail CO 81657 Fire alarm contractor: InVision Communications WIRE TYPE INFORMATION Sprinkler flow – 18/4 FPLR Valve tampers – 18/4 FPLR Fire/CO loops per floor – 18/4 FPLR Kitchen CO detector – 22/4 CMR Garage entry CO detector – 22/4 CMR BUS – Annunciator – 18/4 FPLR NAC – 22/4 CMR Daniel Dimitrov NICET Fire Alarms Level III Cert.# 119879 Digitally signed by DanielDimitrov DN: cn=Daniel Dimitrov,o=Dimant Technologies LLC, ou, email=dimitrov.dimant@gmail.c om, c=US Date: 2018.08.12 22:05:35 -06'00' Project: Trebold Residence Renovations Address: 1345 Sunburst Drive, Vail CO 81657 Fire alarm contractor: InVision Communications ZONES INFORMATION Zone 1 – Fire Sprinkler flow Zone 2 – Valve tamper supervisory Zone 3 – Valve tamper supervisory Zone 4 – Lower floor fire alarm Zone 5 – Lower floor carbon monoxide alarm Zone 6 – Main floor fire alarm Zone 7 – Main floor carbon monoxide alarm Zone 8 – Upper floor fire alarm Zone 9 – Upper floor carbon monoxide alarm Zone 10 – Main floor garage entry carbon monoxide alarm Zone 11 – Main floor kitchen carbon monoxide alarm Zone 12 – Main floor gathering room carbon monoxide alarm Daniel Dimitrov NICET Fire Alarms Level III Cert.# 119879 Digitally signed by Daniel Dimitrov DN: cn=Daniel Dimitrov, o=Dimant Technologies LLC, ou, email=dimitrov.dimant@gmail.com, c=US Date: 2018.08.12 22:07:29 -06'00'