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Report (67) •....• I COSCO 1 ���� S\). -k)1 Fire Protection Fire Protection and Life Safety Specialists • RECEIVED FEB 2 0 2019 OzinFIEGOOPY BUILDING DIVISION Fire Suppression Material Language Line Solutions I.T. Room Tigard, Oregon OFFICE COPY COSCO Fire Protection Inc. Job # 24AD0015 • 2501 SE Columbia Way, Suite 100 Vancouver,WA 98661 Phone:360-883-6383 Fax: 360-883-6390 Toll Free:800-983-6383 � COSCO Fire Protection Fire Protection and Life Safety Specialists Design Manual • COSCO Fire Protection Inc. • 2501 SE Columbia Way, Suite 100 Vancouver,WA 98661 Phone:360-883-6383 Fax: 360-883-6390 Toll Free:800-983-6383 0 Design Manual Fire Suppression System MX 1230 r,I 0 ..e it 411 iff et 4111 / minimax h ID ,..., ® VdS LISTED LISTED APPROVED s 308003 • • Minimax GmbH & Co. KG Industriestra(3e 10/12 23840 Bad Oldesloe Germany Telephone: +49 4531 803 0 Fax: +49 4531 803 248 Internet: http://www.minimax.de Contact: http://www.minimax.de/en/kontakt/ Part number of the German original: 889332 Translation of the original Part no. 889334 / Rev. 05 / Ver. 00 / en-US / ES15-076 / Doc. no. 100003555 / 07-2016 • © Minimax GmbH & Co. KG 2016 Table of contents • Table of contents 1 General 5 1.1 Non UL or FM Approved items 5 1.2 Purpose of the manual 5 1.3 General information 6 1.4 Changes 7 1.5 Copyright 7 1.6 Explanation of symbols 8 2 Characteristics of the system 9 2.1 Personal safety in the protected enclosure9 2.2 Personal safety in the cylinder storage room for the extinguishing agent containers 9 2.3 Decomposition products 10 2.4 Room permeability and hold time 10 2.5 Door fan test 11 2.6 Filling pressure of the extinguishing agent containers 11 • 2.7 Additional extinguishing agent quantity to compensate for the non-usable residual quantities 12 2.8 Additional extinguishing agent quantity for multi zone systems 13 2.9 Nozzle characteristic data 14 2.10 Examples of different nozzle arrange- ments 17 2.11 Operating temperature 22 2.12 Design concentration 23 2.13 Requirements for fire detection elements and the fire suppression detection system 24 2.14 Special requirements imposed on high air movement rooms 25 2.15 Pressure relief device 25 3 Project procedure for fire suppression sys- tems 26 4 Pipelines and pipe routing 27 5 Information required for the design 34 5.1 Required extinguishing agent quantity 34 • 5.2 Extinguishing agent container 37 5.3 Use of different system pressure stages 38 Table of contents 5.4 Release of extinguishing agent containers • 9 9 9 through a "control cylinder" extinguishing agent container or CO2 pilot cylinder 39 5.5 Use of test connections 39 5.6 Quantity regulation for multi zone systems40 5.7 Maximum extinguishing agent concentration at high temperatures 40 5.8 Flooding time 41 5.9 Restrictions due to the calculation method41 5.10 Equivalent lengths 42 5.11 Conversion table for mass units 45 6 Documentation for the owner 46 7 Transfer to the owner of the system 47 8 Glossary 48 9 Index 52 Appendix 54 A Control diagram of a multi zone system 55 • • General • 1 General 1.1 Non UL or FM Approved items Please note, that some of the mentioned parts or sys- tems in this manual are not UL1) listed or not FM2) Approved. These parts or systems are distinguished with a an asterisk combined with "not UL", for those parts or systems not UL listed, example:Component* not UL a an asterisk combined with "not FM", for those parts or systems not FM Approved, example:Component* not FM You will find the distinguished marks either at the head- lines or in the product data sheets. 1) Underwriters Laboratories 2) FM Approvals • 1.2 Purpose of the manual This manual describes the design of MX 1230 fire sup- pression systems. Information on fire detection and the electrical control system is not part of this manual. The prerequisites for working with this manual are in- depth knowledge of the chemically active extinguishing agent, the technical details of MX 1230 fire suppression systems, and in-depth knowledge of the local guide- lines, directives, and standards. The best known and most frequently used international regulations for fire suppression systems with chemical extinguishing agents are the following: • NFPA 2001 e ISO 14520, Part 1 and Part 5 e EN 15004, Part 1 and Part 2 e CEA 4045 This design manual contains neither detailed informa- tion concerning safe and efficient operation of the system, nor detailed information concerning installation and service. An operating manual can be ordered from the manufacturer (q> page 2) with the part number • 889325. In addition an installation and service manual can be ordered from the manufacturer under part number 889327. General Operation of the MX DesignManager software is • described in a separate document (part number 923411). See the respective data sheet in the Appendix for tech- nical data on the individual components and compo- nents (separate document, part number 923413). 1.3 General information Fire suppression systems are engineered to meet the standards of NFPA 2001, ISO 14520, EN 15004, FM Global, UL, CEA 4045, VdS 2381 or other similar organizations, and will also need to comply with the pro- visions of governmental codes, ordinances, and stand- ards where applicable. The system must be designed by qualified design professionals in conjunction with insuring bodies. The user is responsible for the design and configuration of the system, its appropriateness for the use intended and its compliance with all standards, codes and ordinances. The manufacturer or private labeler of the products, described in this manual, does not design systems for specific installations and makes no representation or warranty concerning whether any specific system installation will be sufficient for the intended use or will comply with any standard, code or ordinance. System depictions, calculations, graphs or reports pro- vided by the manufacturer or private labeler of the prod- ucts, described in this manual, are for illustrative pur- poses only, and are not warranted to be representative or descriptive of any specific system, installation or design;-or-of-the performance of or results attainable through same. The manufacturer or private labeler and its representatives disclaim use of the accompanying system depictions, calculations, graphs and reports for any purpose other than illustration; any other applica- tion or usage is solely the responsibility of the user. The Authorized Distributor is responsible for selecting the fire suppression system components used and to ensure that its listing requirements meet requirements of applicable specifications. It is the Authorized Distribu- tors responsibility to ensure compatibility of the compo- nents used with system capability and state and local • code and that the components selected are used in accordance with their listings and applicable manufac- turer's instructions. General • 1.4 Changes The information in this manual is subject to change and update. The illustrations contained in this manual were current at the time of publication. Screen representa- tions and output formats shown at a later time may deviate from these illustrations. 1.5 Copyright Companies, names and dates that are used in the examples listed in this manual are fictitious — if nothing to the contrary is noted. Trademarks may only be used in accordance with rec- ognized trademark practice, to the extent that output material produced with this software in accordance with this manual contains such trademarks and is required for contractual use. This type of trademark use grants no property rights whatsoever relative to the respective • trademark. Before using the trademarks, it must be ensured that the trademark is not protected in favor of a third party n the territory of use. Liability on the part of the manufac- turer for trademark infringements in these countries is excluded. With the exception of the above, this manual gives no property rights inherent in the software. • General • 1.6 Y Explanation of symbols p Safety instructions Safety instructions are marked with symbols in these instructions. The safety instructions are always intro- duced by signal words that express the extent of the danger. A DANGER This combination of symbol and signal word indi- cates a hazardous situation that, if not avoided, will result in death or serious injury. This combination of symbol and signal word indi- cates a hazardous situation that, if not avoided, could result in death or serious injury. A CAUTION This combination of symbol and signal word indi- cates a hazardous situation that, if not avoided, could result in minor or moderate injury. NOTICE This signal word indicates information considered important but not hazard-related such as property damages. Tips and recommendations • This symbol indicates useful tips and recommendations • 1 as well as information for efficient and trouble-free oper- ation. • Characteristics of the system • 2 Characteristics of the system The following specific characteristics must be taken into consideration when planning fire suppression system projects. 2.1 Personal safety in the protected enclosure For the safety of personnel comply with the LOAEL and NOAEL values of the extinguishing agent. s NOAEL = 10 % by volume a LOAEL > 10 % by volume After the NOAEL value has been reached or exceeded measures to protect personnel are required. The type and scope of the required measures are specified by local regulations. 2.2 Personal safety in the cylinder storage room for the extinguishing agent containers Extinguishing agent con- If the extinguishing agent containers are located in the tainers in the protected protected enclosure, special requirements apply for the enclosure safety of personnel Chapter 2.1 "Personal safety in the protected enclosure"on page 9. Extinguishing agent con- Separate cylinder storage rooms for the extinguishing tainers in a separate cylinder agent containers with spatial volume that is less than storage room that of the protected enclosure must be adequately vented. The conditions are specified by local regula- tions. Safety relief lines For multi zone systems a safety valve is installed on the distribution pipe of the area. Route the safety relief line of the safety valve to the outdoors. In addition the safety relief line must be designed in such a manner that when venting out, hazards cannot occur for personnel due to the extinguishing agent flowing out under pressure. • Characteristics of the system 2.3 Decomposition products • For fluoride-based chemically-active extinguishing agents, in addition to fire gasses hydrogen fluoride (HF) can also occur during extinguishment. An aqueous sol- ution of hydrogen fluoride results produces hydrofluoric acid. For class A fires with low fire energy and timely fire detection, as well as sufficient extinguishing agent con- centration, the quantity of hydrogen fluoride that occurs when extinguishing is negligibly low. For class B fires (liquid fires) due to the fast and higher energy release more hydrogen fluoride occurs in the fire event. 2.4 Room permeability and hold time Due to the optimized and economically-implemented quantity of extinguishing agent and the characteristic that the mixture of air and extinguishing agent that is capable of extinguishing is heavier than air, permeability of the enclosure delimitations of the protected enclosure result in losses of extinguishing agent. This can prevent an effective extinguishing concentration or the required hold time from being reached or maintained. Subjective visual assessment of a protected enclosure's leak tight- ness is not precise enough. The door fan test specified in the regulations must be carried out. Alternatives include a test flooding or the use of additional quantities (surface term only VdS 2381). The protected enclosure must also have the following characteristics: s The protected enclosure must have automatic closing devices on doors and windows. w Windows should not open or should only be open- able with special tools. e Enclosure surfaces must be made of non-combus- tible or flame-retardant materials. e Use of a fire-safety seal against fire smoke and fire gases to adjacent areas. • Characteristics of the system • B Enclosure surfaces and seals must be designed for the excess pressure or negative pressure that occurs during discharge. IR The enclosure delimitations (walls, doors, partitions, etc.) must be able to withstand the generated under- and over pressure conditions or be protected against them with under- and overpressure flaps. 2.5 Door fan test The door fan test is used for precise determination of the seal of the enclosure delimitation of a extinguishing zone. For this a fan is mounted in a door of the extin- guishing zone. With the aid of the fan excess pressure and negative pressure is generated in the extinguishing zone. Based on multiple pressure differential and air throughput measurements a leakage surface as well as the theo- retical hold time of the concentration capable of extin- guishing fires can be calculated. In addition any leakage can be localized for sealing measures. A description of the door fan test is provided in the fol- lowing regulations and standards: NFPA 2001 Annex C e ISO 14520-1 Annex E a EN 15004-1 Annex E a VdS 2381 Annex A10 IN CEA 4045 Appendix A10 For proper use of the fire suppression system adequate room permeability is a crucial factor. 2.6 Filling pressure of the extinguishing agent containers The extinguishing agent of the fire suppression system has a low inherent pressure (0.4 bar at 20 °C (5.8 psi at 68 °F)). To displace the extinguishing agent out of the extinguishing agent containers through the pipelines to the nozzles in the extinguishing zone a nitrogen blanket over the extinguishing agent in the container is required. • Characteristics of the system 1 Nitrogen condensed with 25 bar (360 psi) 2 Nitrogen condensed with 50 bar (725 psi) 1 Fig. 1: Nitrogen blanket • The higher the blanketing pressure the higher the effi- ciency of the system. The fire suppression system can be operated with a blanketing pressure of up to 50 bar (725 psi) (maximum system pressure). This offers the following advantages: r With identical pipe diameter the maximum permis- sible pipeline length is greater than it is for compa • - rable 25 bar or 42 bar systems (360 psi or 610 psi systems). The usable filling portion of the extinguishing agent containers (ratio of container volume to filling portion of extinguishing agent) is greater than that of the comparable 25 bar or 42 bar systems (360 psi or 610 psi systems). ■ The required pipeline diameter at identical pipeline length is less than it is for comparable 25 bar or 422barsystems (360 psi or 61_0_psi systems). IA At a higher filling portion of the extinguishing agent containers the containers are smaller than they are for comparable 25 bar or 42 bar systems (360 psi or 610 psi systems). 2.7 Additional extinguishing agent quantity to compensate for the non- usable residual quantities Due to the design of the extinguishing agent containers, which are manufactured without seams, a non-usable residual quantity remains in the container after flooding is concluded. This residual quantity must be taken into account in the project planning through an additional quantity. Characteristics of the system Extinguishing agent container filling quantity = calculated quantity + additional quantity Extin- 22 I 40 I 80 I 100 I 80 I 140 1 180 1 guishing agent container size Nominal 60 lbs 100 lbs 220 lbs 270 lbs 220 lbs 390 lbs 500 lbs filling Manufac- Seam- Seam- Seam- Seamless Seam- Seam- Seamless turing less less less less less process Diameter 229 mm 229 mm 267 mm 316 mm 406 mm 406 mm 406 mm (9 in.) (9 in.) (10.5 in.) (12.44 in.) (16 in.) (16 in.) (16 in.) Additional 0.8 kg 0.8 kg 1.5 kg 2.3 kg 4.6 kg 4.6 kg 4.6 kg quantity (1.76 lb) (1.76 lb) (3.31 lb) (5.07 ib) (10.14 Ib) (10.14 Ib) (10.14 Ib) 111In• the MX DesignManager the additional quantity is Z added automatically to the design quantity. 2.8 Additional extinguishing agent quantity for multi zone systems Extinguishing agent that remains in the pipeline during flooding due to the pipeline design, is not available for extinguishing. For multi zone systems extinguishing agent can remain in the zone distributor pipe at flooding. To compensate, an additional quantity must be taken into account and added to the required quantity. • For calculation of multi zone systems with the aid of 1 MX DesignManager, approval tests have shown that due to compliance with varied limits the quantity remaining in the zone distributor is negligibly small. However, this only applies for use of MX DesignManager and of zone distributors manufac- tured by the manufacturer. The additional quantity LZMB is calculated as follows: LZMB = VFipe * p • Vpipe = total volume of the pipeline, in which the extin- guishing agent remains at flooding p = density of the extinguishing agent Characteristics of the system • Density extinguishing Unit agent 1616 kg/m3 1.616 kg/I 100.88 lb/ft3 0.05838 lb/in3 Example Vp,pe = 0.35 ft3 p = 100.88 lb/ft3 LZMB = 0.35 ft3 * 100.88 lb/ft3 = 35.31 lb 2.9 Nozzle characteristic data A B 1 tt, i Art-1914, Fig. 2: Maximum effective nozzle radius and maximum nozzle coverage area A 360° nozzle B 180 °-nozzle 1 Maximum effective nozzle radius Rmax 2 Maximum nozzle coverage area Amax (squared) • Characteristics of the system • A A B 0 0 . . v6 ©1 2.0._ © 4 2.0._ V El )34 j W 9 8 Fig. 3: Nozzle arrangement A 360° nozzle 5 Maximum distance between a 180°- B 180°-nozzle nozzle and a spray obstacle 1 Maximum effective nozzle radius Rmax 6 Minimum distance between a 180°- 2 Minimum distance between a 360° nozzle and a spray obstacle nozzle and a spray obstacle 7 max. 9.75 m (32 ft) 3 Maximum distance between a 360° 8 max. 9.75 m (32 ft) nozzle and a spray obstacle 9 max. 9.75 m (32 ft) 4 Spray obstacle* * - The maximum height of the spray obstacle should be as high as the enclosure. For a 360° nozzle the following characteristic data applies: Maximum nozzle coverage area Amax: 95 m2 (1024 ft2). t Maximum effective nozzle radius Rmax: 6.9 m (22.6 ft). t Maximum effective nozzle height Hmax, standard: 4.27 m (14 ft). r: Maximum effective nozzle height Hmax, extended*: 5.45 m (17.9 ft). Minimum effective nozzle height Hm;n: 0.3 m (1 ft). Minimum distance between a 360° nozzle and a spray obstacle: 1.22 m (4 ft): The maximum width of the spray obstacle should be 0.98 m (3.2 ft) (Fig. 3/2). Characteristics of the system Maximum distance between a 360° nozzle and a • spray obstacle: 2.44 m (8 ft). The maximum width of the spray obstacle should be 1.95 m (6.4 ft) (Fig. 3/3). e Maximum distance from the ceiling or from the vir- tual protection height: 0.3 m (1 ft). For a 180° nozzle the following characteristic data applies: e Maximum nozzle coverage area Amax: 95 m2 (1024 ft2). e Maximum effective nozzle radius Rmax: 10.9 m (35.8 ft). ▪ Maximum effective nozzle height Hmax, standard: 4.27 m (14 ft). Maximum effective nozzle height Hmax, extended*: 5.45 m (17.9 ft). ▪ Minimum effective nozzle height Hmm: 0.3 m (1 ft). a Minimum distance between a 180°-nozzle and a spray obstacle: 2.44 m (8 ft): The maximum width of the spray obstacle should be • 0.98 m (3.2 ft) (Fig. 3/6). e Maximum distance between a 180°-nozzle and a spray obstacle: 4.88 m (16 ft) The maximum width of the spray obstacle should be 1.95 m (6.4 ft) (Fig. 3/5). le Maximum distance from the ceiling or from the vir- tual protection height: 0.3 m (1 ft). • Maximum distance from the side wall or from the vir- tual enclosure partition: 0.3 m (1 ft). * The extended maximum effective nozzle height has a higher design concentration as the prerequisite ( q> Chapter 2.12 "Design concentration"on page 23) and the temperature range for set up of the extin- guishing agent container is limited (-5 °C to 50 °C (23 °F to 122 °F)). • Characteristics of the system • The followingalwaysapplies: ■ Minimum nozzle pressure: 7.65 bar (111 psi). The minimum nozzle pressure must be maintained to ensure the evaporation of the extinguishing agent on the nozzle as well as the homogeneous distribu- tion of the extinguishing agent in the extinguishing zone. ■ Maximum extinguishing agent quantity on a nozzle: 216 kg (476 lbs). I Spray obstacles: Spray obstacles cover and obstruct the spray area of the nozzle. Only one spray obstacle is permitted on one nozzle. If there are multiple or larger spray obstacles, and if these obstacles are outside of the limits specified in Fig. 3, then additional nozzles are required. • According to the VdS Guideline, the maximum or min- imum distance is determined based on the duration of evaporation (see VdS 2381). • 2.10 Examples of different nozzle arrangements P 9 The following sections present various options for pro- tecting a given enclosure (Fig. 4). The presented options differ in terms of: ▪ Number of nozzles s Nozzle type s Nozzle position. Enclosure to be protected 110 Fig. 4: Enclosure to be protected Characteristics of the system 110 Design with two 360° nozzles (inadequate) 1 Fig. 5: Design with two 360° nozzles (inadequate) The following conditions are fulfilled in the design with two 360° nozzles: ■ Maximum effective nozzle height I Minimum effective nozzle height ■ Maximum coverage area per nozzle ■ Maximum extinguishing agent quantity per nozzle. The following conditions are not fulfilled: I Coverage of the entire enclosure. The effective nozzle radius is too small, meaning that parts of the enclosure to be protected (Fig. 5/1) are not covered. Characteristics of the system Design with four 360 nozzles f re • Fig. 6: Design with four 360° nozzles • Simple and symmetric solution, but expensive and sub- ject to the risk of crossing up with lighting systems and ventilation ducts. Design with three 360° noz- zles i moi Fig. 7: Design with three 360° nozzles The surface is completely covered, but the distribution must be handled with care. Characteristics of the system i n wi h o 180° noules • Des g t tw 2 "back to back" x 1 i 1,1 1 2 k I t 1. 1 Fig. 8: Design with two 180° nozzles, "back to back" 1 180°-nozzle 2 T piece Nozzles on a• virtual wall (central in the enclosure), installed vertcally. Maximum distance between the nozzles: 0.6 m (2 ft). III Design with two 180° noules, 2 1 2 "side by side" 1 \. , i 4 t Fig. 9: Design with two 180° nozzles, "side by side" 1 180°-nozzle 1111 2 T piece Nozzles on a virtual wall (central in the enclosure), installed vertically. Maximum distance of the lowest nozzle to the ceiling: 0.3 m (1 •ft). Characteristics of the system • Design with two 180° nozzles, s, "face to back" r Fig. 10: Design with two 180°nozzles, "face to back" Design with two 180° nozzles, "face to face" i Fig. 11: Design with two 180° nozzles, "face to face" Characteristics of the system • 2.11 Operating temperature MEM. - Ensure that the specified temperature values are maintained. For UL/FM-approved systems the temperatures for the pipe system and the protected enclosure due to the previously executed tests of the calculation pro- gram (MX DesignManager) are limited to values from 15.6 °C (60 °F) to 26.7 °C (80 °F). If the temper- atures are outside of this value range, there is a risk that the calculation will be too imprecise and the mandatory limits will not be observed. There is then a danger of injury because fires may not be extin- guished. The fire suppression system can always be set up for operation in a temperature range from -18 °C to +50 °C (0 °F to 122 °F). However, for use of the extended maximum effective nozzle height of 5.45 m (17.9 ft) a limited temperature range of-5 °C to 50 °C (23 °F to 122 °F) applies for set up of the extinguishing agent containers. However to ensure evaporation of the liquid extin- • guishing agent at activation, the temperature should be at least 0 °C (32 °F)* in the protected enclosure. The maximum temperature for the protected enclosure is 50 °C (122 °F).** * UL/FM: 15.6 °C (60 °F) ** UL/FM: 26.7 °C (80 °F) The additional extinguishing agent quantity is deter- mined by design concentration and design temperature. The design temperature is the lowest temperature that can be expected in the protected enclosure. Due to system characteristics the electrical contact of the contact pressure gauge switches at a temperature of approx. 5°C (41°F) due to the temperature-occa- sioned pressure drop in the extinguishing agent con- tainer. Characteristics of the system • 2.12 Design concentration Maximum effective nozzle The design concentration is determined by the required height, standard extinguishing concentration as well as additional safety quantities. The following applies for the maximum standard effective nozzle height to 4.27 m (14 ft): W Extinguishing concentration class A MEC (NFPA 2001): 3.34% by volume Is Extinguishing concentration class B MEC (n-hep- tane) (NFPA 2001): 4.5% by volume • The design concentrations for class B listed here are 1 based on n-heptane. For other liquid and gaseous com- bustibles, higher values may be required. To determine the required design concentration, the design concen- trations listed in the regulations and the cup-burner values for the respective combustible liquids/gases of the extinguishing agent manufacturer should be sub- jected to a safety margin of at least 30%. Design concentration in accordance with NFPA 2001: s class A fires: 4.2% by volume 1) W class A fires: 4.5% by volume 2) W class B fires (n-heptane): 5.9% by volume 2) W class C fires (energized electrical hazards): 4.5% by volume 2) ')NFPA 2001 (edition 2008) 2)NFPA 2001 (edition 2012 and later) Design concentrations in accordance with ISO 14520-5: W class A fires (surface): 5.3% by volume W class A fires (higher hazard): 5.6% by volume Is class B fires (n-heptane): 5.9% by volume Please note that in the standard guidelines the min- imum concentrations are specified for standard condi- tions. Deviating conditions can require an increase in the minimum concentration. Maximum effective nozzle The design concentration is determined by the required height, extended extinguishing concentration as well as additional safety quantities. The following applies for the maximum extended effective nozzle height to 5.45 m (17.9 ft): Design concentration in accordance with NFPA 2001: W class A fires: 4.5% by volume 1) W class A fires: 4.8% by volume 2) Characteristics of the system class B fires (n-heptane): 6.3% by volume r class C fires (energized electrical hazards): 4.8% by volume 2) 1 NFPA 2001 (edition 2008) 2)NFPA 2001 (edition 2012) Design concentrations in accordance with ISO 14520-5: ▪ class A fires (surface): 5.7% by volume e class A fires (higher hazard): 5.9% by volume ■ class B fires (n-heptane): 6.2% by volume • For use of an extended maximum effective nozzle height of more than 4.27 m (14 ft) a limited temperature range of-5 °C to 50 °C (23 °F to 122 °F) applies for set up of the extinguishing agent containers. 2.13 Requirements for fire detection elements and the fire suppression detection system Fires must be reliably detected, if possible at an extremely early stage of fire emergence. Early fire detection is the basis for the early release of the fire suppression system and thus ensures minimum fire damage. The components of the fire detection and extinguishing control panel must satisfy local regulations and stand- ards. For FM-approved systems, FM-approved fire-detection elements and release devices must be used. In addition fire detection and extinguishing control panels must be used that are compatible with the fire-detection ele- ments and release devices. For UL-approved systems, UL-approved fire-detection elements and release devices must be used. In addition fire detection and extinguishing control panels must be used that are compatible with the fire-detection ele- ments and release devices. For information on compatibility see the separate oper- ating manual of the fire detection and extinguishing con- trol panel. Characteristics of the system 2.14 Special requirements imposed on high air movement rooms Air conditioners generate a high air speed in operation. In the event of fire, this dilutes the fire smoke. This influ- ences the detection characteristics of optical smoke detectors; under certain conditions this can delay acti- vation of the smoke detector. Therefore in high air movement rooms early fire detection systems (e.g. Helios aspiration smoke detectors) should be used. In high air movement rooms with fresh air admixture there is danger that the fire smoke from outside will be suctioned in with the fresh air and the fire detection devices will respond incorrectly. The fresh-air supply should therefore be monitored with smoke detectors and automatically closed if fire smoke occurs. Volumes of air-conditioning or ventilation ducts that are in constant connection with the air volume of the flooding area must be taken into account as a supple- mental volume in the quantity calculation of the extin- guishing agent. • 2.15 Pressure relief device In the extinguishing zone negative pressure occurs briefly when flooding begins. During the flooding process the pressure increases — excess pressure occurs. For the proper function of the fire suppression system and to avoid structural damage in the protected enclosure, negative pressure and excess pressure must be dissipated from the extinguishing zone via a pres- sure relief device. In MX DesignManager the required pressure compen- sation opening is calculated on the basis of the VdS model. In addition, the cross section of an existing pres- sure compensation opening can be entered; as the result you will get an estimate of the negative pressure/ excess pressure that can be expected. For determination of the necessary pressure relief area we recommend the procedure that is described in the FSSA Guide "Estimating Enclosure Pressure and Pres- sure Relief Vent Area for Applications Using Clean Agent Fire Extinguishing Systems". IN Source: www.fssa.net Project procedure for fire suppression systems • 3 Project procedure for fire suppression systems An optimal project procedure for fire suppression sys- tems is presented below: 1 - Check whether all required information that is required from the design phase until transfer to the owner is present 2 - Calculate the protection volumes and estimate the quantity of extinguishing agent 3 - Determine the location of the extinguishing agent containers and container size, and preselect the system pressure stage 4 - Determine the pipeline routing and prepare iso- metric drawings 5 - Calculate the system with the MX DesignManager 6 - Optimize the system with the aid of the calculation results 7 - Have the extinguishing agent container set-up approved by the owner 8 - Order components with the MX DesignManager S parts list 9 - Install the system 10 - Check the system calculation against the actual pipeline routing, which may deviate from the plan- ning 11 - Prepare documentation and transfer it to the owner Pipelines and pipe routing 4 Pipelines and pipe routing 11111011111 - Only use tested pipelines and fittings (ISO and NPT). If non-tested pipelines and fittings are used there is a risk that not enough extinguishing agent will flow out of the fire suppression system. This can cause injuries. Pipelines, fittings, and installation of pipelines and fit- tings must satisfy the local guidelines, directives, and standards. With reference to the NFPA 2001 requirements the fol- lowing operating pressures are specified. Pipelines must be configured for at least these operating pres- sures. Fill factor 1200 kg/m3 (74.9 Ib/ft$) Container pressure Container pressure Minimum design Minimum configu- at 21 °C (70 °F) (compensated) at pressure for the ration pressure for 1110 50 °C (122 °F) nozzle pipe system manifolds at 21 °C (70 °F) upstream of selector valves at 21 °C (70 °F) 25 bar (360psi) 29 bar (421 psi) 25 bar (360psi) 66 bar (958 psi) 42 bar (610 psi) 48 bar (696 psi) 42 bar (610 psi) 66 bar (958 psi) 50 bar (725 psi) 57,5 bar (833 psi) 50 bar (725 psi) 66 bar (958 psi) * The prerequisite is use of the safety valve (part number 888007) in the manifold A CAUTION — Check manifolds for compressive strength and leaks before use. Distribution pipes of selector valves are prefabri- cated and tested components. Manifolds for the extinguishing agent containers of multiple con- tainer systems are manufactured at the construc- tion site or in the plant. The most important rules for r Distribute nozzle arrangement and feed line as bal- • designing pipe systems anced as possible Comply with the branching rules Pipelines and pipe routing Keep the number of elbows to a minimum, these • cause the highest pressure losses of all pipeline components Y Strictly note and comply with the quantity distribution to T pieces, possibly an overfilling of enclosure parts in the extinguishing zone may be necessary NOTICE — Comply with specifications due to system char- acteristics, such as minimum nozzle pressure, flow speed of the extinguishing agent, minimum and maximum outflow times, etc. The pipelines are calculated on the basis of a hydraulic calculation with the MX DesignManager. Retroactive changes to the line routing and the pipe cross sections without a new calculation can cause the fire suppression system to fail. Retroactive changes to the pipe system must be speci- fied in writing and presented to the project manager for evaluation and possibly for a new calculation. A CAUTION — Ensure cleanliness when installing the pipe system. Residues and fouling (cutting oil, greases, sealing compound) can get into the extinguishing zone through the nozzles during the extinguishing process and cause damage. Acceptable quantity distribu- 65-89 % 30-70% 30-70 % tion to T pieces 1 11-35% Fig. 12: Quantity distribution 1 Inlet Due to the T piece split quantity rule (Fig. 12) it may be necessary to flood enclosure parts of the extinguishing zone (e.g. raised floor or intermediate ceiling), for which the extinguishing agent is tapped laterally from the main line (more extinguishing agent than would be mathe- matically required for extinguishing). Pipelines and pipe routing Acceptableposition of T TM p Due to the NovecTM 1230 2-phase flow in the pipeline pieces (liquid and gaseous simultaneously) outlets to nozzles or distributions to T pieces are only permitted via lateral branches (settling section)! Direct connection of T pieces without lateral branches are permitted for stand pipes and down pipes (Fig. 13). <41 Fig. 13:Acceptable position Unacceptable position of T The following branches are not permitted, as in these pieces cases the proportion of gas and the proportion of liquid cannot be distributed uniformly (Fig. 14). 411 t Q :14"k . Fig. 14: Unacceptable position Pipelines and pipe routing Settling sections between T pieces j Fig. 15: Settling sections Settling sections (Fig. 151) are required to obtain a homogenous flow behavior downstream from a distribu- tion. • Pipeline sections must be at least as long as 10x the 1 nominal pipe cross-section. • After a T piece, no settling segments are required 1 directly before the individual nozzles. • i Pipelines and pipe routing • Modular pipe system $ — ----- NNW -N • Fig. 16: Modular pipe system For a modular pipe system (Fig. 16) every extinguishing agent container (or multiple extinguishing agent con- tainers connected via a manifold)within a extinguishing zone, has a separate nozzle pipe system with one or more nozzles. For every extinguishing agent container the pipe system is calculated separately hydraulically. The entire volume of the extinguishing zone is subdi- vided into separate calculations. If a manifold is not used then the check valves can be dispensed with. 111 Pipelines and pipe routing • Balanced psystem e iP (2 or more nozzles on one pipe • system) _____ r .: ----,4110.,- Fig. 17: Balanced pipe system For a balanced pipe system (Fig. 17) the lengths and nominal diameters of the feed lines to the nozzles are identical. This means that all nozzles have the same nominal diameter and the same orifice diameter. Because the flow time of the extinguishing agent, the mass discharge, and the pressures are identical for all III nozzles, the hydraulic calculation for balanced systems is less complex than it is for unbalanced systems. Pipelines and pipe routing • UnbalancedP P i e system (with 2 or more nozzles on .`--------- one pipe system) • I .411111 Fig. 18: Unbalanced pipe system For unbalanced pipe systems, the lengths and nominal diameters of the feed lines to the nozzles are not iden- tical. Nozzle pressures and mass discharges are dif- • ferent. Special care is required if there is retroactive change to a calculated unbalanced pipe system. Information required for the design • 5 Information required for the design Part numbers of the components and additional infor- mation, such as control diagrams, electrical connection data, etc. are provided in the installation and service manual. 5.1 Required extinguishing agent quantity Source: NFPA 2001, Standard on Clean Agent Fire Extinguishing Systems, 2008 Edition, Table A.5.5.1 (a) Temp Spe- Weight Requirements of Hazard Volume, WN (Ib/ft3) - b (t) (°F) cific Design Concentration (% by Volume) - e - c Vapor Volume 4.2 5.3 5.6 5.9 6.0 7.0 8.0 9.0 (s) (ft3/Ib) - d 30 1.05883 0.0414 0.0529 0.0560 0.0592 0.0603 0.0711 0.0821 0.0934 • 40 1.08324 0.0405 0.0517 0.0548 0.0579 0.0589 0.0695 0.0803 0.0913 50 1.10765 0.0396 0.0505 0.0536 0.0566 0.0576 0.0680 0.0785 0.0893 60 1.13206 0.0387 0.0494 0.0524 0.0554 0.0564 0.0665 0.0768 0.0874 70 1.15647 0.0379 0.0484 0.0513 0.0542 0.0552 0.0651 0.0752 0.0855 80 1.18088 0.0371 0.0474 0.0502 0.0531 0.0541 0.0637 0.0736 0.0838 90 1.20529 0.0364 0.0464 0.0492 0.0520 0.0530 0.0624 0.0721 0.0821 100 1.22970 0.0357 0.0455 0.0482 0.0510 0.0519 0.0612 0.0707 0.0804 110 1.25411 0.0350 0.0446 0.0473 0.0500 0.0509 0.0600 0.0693 0.0789 120 1.27852 0.0343 0.0438 0.0464 0.0490 0.0499 0.0589 0.0680 0.0774 130 1.30293 0.0336 0.0430 0.0455 0.0481 0.0490 0.0578 0.0667 0.0759 140 1.32734 0.0330 0.0422 0.0447 0.0472 0.0481 0.0567 0.0655 0.0745 150 1.35175 0.0324 0.0414 0.0439 0.0464 0.0472 0.0557 0.0643 0.0732 160 1.37616 0.0319 0.0407 0.0431 0.0456 0.0464 0.0547 0.0632 0.0719 170 1.40057 0.0313 0.0400 0.0424 0.0448 0.0456 0.0537 0.0621 0.0706 180 1.42498 0.0308 0.0393 0.0416 0.0440 0.0448 0.0528 0.0610 0.0694 • 190 1.44939 0.0302 0.0386 0.0409 0.0433 0.0440 0.0519 0.0600 0.0682 Information required for the design 4110 Temp Spe- Weight Requirements of Hazard Volume, WN (Ib/ft3) - b (t) (°F) cific Design Concentration (% by Volume) - e c Vapor Volume 4.2 5.3 5.6 5.9 6.0 7.0 8.0 9.0 (s) (ft3llb) - d 200 1.47380 0.0297 0.0380 0.0403 0.0425 0.0433 0.0511 0.0590 0.0671 210 1.49821 0.0293 0.0374 0.0396 0.0418 0.0426 0.0502 0.0580 0.0660 220 1.52262 0.0288 0.0368 0.0390 0.0412 0.0419 0.0494 0.0571 0.0650 a - The manufacturer's listing specifies the temperature range for the operation. b - WN [agent weight requirements (Ib/ft3)] = pounds of agent required per cubic foot of protected volume to produce indicated concentration at temperature specified W = V/s * (C/ (100-C) ) c - t [temperature (°F)] = the design temperature in the • hazard area d - s [specific volume (ft3/lb)] of superheated FK-5-1-12 vapor can be approximated by the formula: s = 0 . 9856 + 0 . 0 0 2 4 41*t where t is the tempera- ture in °F e - C [concentration (%)] = volumetric concentration of FK-5-1-12 in air at the temperature indicated Tern- Spe- FK-5-1-12 mass requirements per unit volume of protected space, pera- cific mN (kg/m3) This information refers only to FK-5-1-12, and may not ture T vapor represent any other products containing Dodecafluoromethyl- volume pentan-3-one as a component. S Design concentration (by volume) °C m3/kg 4.2% 5.3 % 5.6 % 5.9 % 6 % 7 % 8 % 9 % 0 0.0664 0.6603 0.8429 0.8934 0.9443 0.9613 1.1336 1.3096 1.4895 5 0.0678 0.6466 0.8255 0.8750 0.9248 0.9418 1.1106 1.2831 1.4593 10 0.0691 0.6345 0.8099 0.8585 0.9074 0.9232 1.0886 1.2576 1.4304 15 0.0705 0.6219 0.7938 0.8414 0.8894 0.9052 1.0674 1.2332 1.4026 20 0.0719 0.6098 0.7784 0.8251 0.8720 0.8879 1.0471 1.2096 1.3758 25 0.0733 0.5981 0.7635 0.8093 0.8554 0.8713 1.0275 1.1870 1.3500 Information required for the design Tern- Spe- FK-5-1-12 mass requirements per unit volume of protected space, pera- cific mN (kg/m3) This information refers only to FK-5-1-12, and may not ture T vapor represent any other products containing Dodecafluoromethyl- volume pentan-3-one as a component. S Design concentration (by volume) °C m3/kg 4.2% 5.3 % 5.6 % 5.9 % 6 % 7 % 8 % 9 % 30 0.0746 0.5877 0.7502 0.7952 0.8405 0.8553 1.0086 1.1652 1.3252 35 0.0760 0.5769 0.7364 0.7806 0.8250 0.8399 0.9904 1.1442 1.3013 40 0.0774 0.5664 0.7231 0.7664 0.8101 0.8250 0.9728 1.1239 1.2783 45 0.0787 0.5571 0.7111 0.7538 0.7967 0.8106 0.9559 1.1043 1.2560 50 0.0801 0.5473 0.6987 0.7406 0.7828 0.7967 0.9395 1.0854 1.2345 55 0.0815 0.5379 0.6867 0.7279 0.7693 0.7833 0.9237 1.0671 1.2137 60 0.0829 0.5288 0.6751 0.7156 0.7563 0.7704 0.9084 1.0495 1.1936 65 0.0842 0.5207 0.6647 0.7045 0.7446 0.7578 0.8936 1.0324 1.1742 70 0.0856 0.5122 0.6538 0.6930 0.7325 0.7457 0.8793 1.0158 1.1554 75 0.0870 0.5039 0.6433 0.6819 0.7207 0.7339 0.8654 0.9998 1.1372411 80 0.0883 0.4965 0.6338 0.6718 0.7101 0.7225 0.8520 0.9843 1.1195 85 0.0897 0.4888 0.6239 0.6613 0.6990 0.7115 0.8390 0.9692 1.1024 90 0.0911 0.4812 0.6143 0.6512 0.6882 0.7008 0.8263 0.9547 1.0858 95 0.0925 0.4740 0.6050 0.6413 0.6778 0.6904 0.8141 0.9405 1.0697 100 0.0938 0.4674 0.5967 0.6324 0.6684 0.6803 0.8022 0.9267 1.0540 • Information required for the design m/ - is the agent mass requirement (in kg/m3); i.e. V mass, m, in kilograms of agent required per m3 of protected volume V to produce the indicated con- centration at the temperature specified V - is the net volume of hazard (in m3); i.e. the enclosed volume minus the fixed structures impervious to extinguishant; m = V/S * (c/ (100-c) ) T - is the temperature (in °C); i.e. the design temper- ature in the hazard area S - is the specific volume (in m3/kg); the specific volume of superheated FK-5-1-12 vapor at a pressure of 1.013 bar may be approximated by s = kl + k2*T where kl = 0 . 0664 and k2 = 0 . 000274 c - is the concentration (in %); i.e. the volumetric concentration of FK-5-1-12 in air at the tempera- ture indicated, and a pressure of 1.013 bar abso- lute 411 5.2 Extinguishing agent container • Detailed information on the extinguishing agent con- tainers is provided in the Appendix (separate document, part number 923413). Extinguishing Valve type 1) Siphon tube nom- Connection to the agent container inal diameter pipe system 2) size (nominal filling) < 80 I (220 lbs) B0482 DN33 32 mm (1.26 inches) DN 40 (1 1/2 inch) < 80 I (220 lbs) B0481 DN49 42 mm (1.65 inches) DN 50 (2 inch) 1) - Type A = standard valve Type B = valve with integrated electrical release device (special applications) 2) - Nominal diameter of the hoses and adapters for the connection on the valve Information required for the design Fill factor for all system pressure stages and container i sizes e Minimum fill factor: 400 kg/m3 (25.0 Ib/ft3) e Maximum fill factor UL/FM/CE: 1200 kg/m3 (74.9 lb/ ft3) 111 Maximum fill factor VdS: 1050 kg/m3 (65.5 lb/ft3) Maximum container size: 180 I (500 lbs) empty volume • The extinguishing agent containers connected together 1 on a manifold must have the same size and the same fill factor. 5.3 Use of different system pressure stages • Only connect extinguishing agent containers with the same system pressure on a distribution pipework. Recommended use of the 25 bar (360 psi) system pres- sure stage: e Systems with one extinguishing agent container, if • for the calculation of a system with a system pres- sure of 42 bar (610 psi) the lowest nozzle pressure is greater than 25 bar (360 psi) IR Conversion from existing 25 bar (360 psi) systems, if these systems cannot be replaced by 42 bar (610 psi) • Small protected enclosures in which the extin- guishing agent container can be set up in the room e Short pipelines from the extinguishing agent con- tainer to the nozzle Recommended use of the 42 bar (610 psi) system pres- sure stage: e Cost-optimized and use-optimized system for standard designs • Information required for the design Recommended use of the 50 bar (725 psi) system pres- sure stage: It Systems with long pipelines for which the hydraulic calculation is not possible with a system pressure of 42 bar (610 psi) e Multi zone systems for which the hydraulic calcula- tion is not possible with a system pressure of 42 bar (610 psi) Chapter 5.4 "Release of extinguishing agent con- tainers through a "control cylinder"extinguishing agent container or CO2 pilot cylinder"on page 39 5.4 Release of extinguishing agent containers through a "control cylinder" extinguishing agent container or CO2 pilot cylinder Operating pressure "con- Maximum length of the Maximum number of the trol cylinder" extin- control line (pipe or hose pneumatic release devices guishing agent container with nominal diameter 4 for the slave extinguishing at 21 °C (70 °F) mm (5/32 inches)) agent containers 25 bar (360 psi) 4 m (13.12 ft) 1 control cylinder + 4 slaves 42 bar (610psi) 6 m (19.69 ft) 1 control cylinder + 6 slaves 50 bar (725 psi) 8 m (23.25 ft) 1 control cylinder + 8 slaves Maximum length of the Maximum number of the control line (pipe or hose pneumatic release devices with nominal diameter 4 for the slave extinguishing mm (5/32 inches)) agent containers CO2 pilot cylinder 30 m (98.4 ft) 30 5.5 Use of test connections For implementation of pneumatically-activated compo- nents the use of a test connection is recommended. Depending on the regulations and standards and local directives these test connections may also be pre- scribed. • e Extinguishing agent containers with pneumatic release devices It Pneumatically-activated pressure relief devices Information required for the design If necessary pneumatically-activated neumaticall -activated limit switches or pressure switches that can no longer be activated manually for function verification rPneumatically activated door closing devices Z. Via the test connection the function of the pneumati- cally-activated components is tested with pressure from an external test agent container. If a test connection is not available a connection to the test agent container must be established. Each test connection must have an automatic non-return valve to ensure the impermea- bility of the pilot line in normal operation. 5.6 Quantity regulation for multi zone systems The number of extinguishing agent containers that must be released can be controlled with shuttle non-return valves in the pilot lines of the pneumatic release devices of the extinguishing agent containers . 5.7 Maximum extinguishing agent concentration at high temperatures At a high temperature in the extinguishing zone, in the event of flooding the extinguishing agent concentration would be correspondingly higher. The maximum pos- sible extinguishing concentration must be determined based on the maximum temperature that can be expected in the extinguishing zone. Personnel protec- tion measures must be designed in accordance with the local requirements relative to this extinguishing agent concentration. + (w * �) ) C - �nceration [%] W - Extinguishing agent quantity used [kg (Ib)] V - Volume, extinguishing zone [m3 (ft3)] T - Maximum temperature in the extinguishing zone [°C (°F)] S - Specific vapor volume [m3/kg (ft3/Ib)] for this temperature Chapter 5.1 "Required extinguishing agent quantity"on page 34 Information required for the design • 5.8 Flooding time Within the flooding time, the quantity of extinguishing agent specified for achieving the design concentration will be flooded into the extinguishing zone. e Minimum flooding time: 7 s w Maximum flooding time: 10 s • The size of the pressure relief device is also determined by the flooding time. At a shorter flooding time, a higher mass flow or volume flow is required, and thus a greater pressure compensating area is required than is required for a longer flooding time. The specifications of the maximum flooding time required in the local regulations and standards (e.g. NFPA 2001) must be complied with. Likewise the min- imum quantity of extinguishing agent to be brought in during flooding time must be complied with. 5.9 Restrictions due to the calculation method Restriction of the extinguishing agent quantity in the • pipeline: t A maximum of 87% of the total extinguishing agent quantity should be in the pipeline. Minimum and maximum fluid speeds: e Minimum empty pipe speed of the fluid: 1.25 m/s (4.1 ft/s) Maximum empty pipe speed of the fluid: 10 m/s (32.81 ft/s) Restrictions for the minimum and maximum opening cross section of the orifice bore relative to the con- nected pipe cross-section: e Minimum: 0.071 e Maximum: 0.356 • In the data sheet of the nozzles (separate document, part number 923413), in some cases larger bores or smaller bores are specified for technical reasons. The method for calculating the nozzle opening cross section and for selecting a nozzle, as well as the nozzle • flow data satisfy the specifications in VdS 2381. Information required for the design III Restrictions of the flow time deviation of the extin- guishing agent: r The flow time deviation of the extinguishing agent depends on the maximum volume deviation per nozzle. The maximum volume deviation is the volume differential per nozzle that occurs from the calculation of the discharge differential. The max- imum discharge differential of the respective value is 10%. Restriction of the maximum height differential between container valve and nozzle (only for UL): r The maximum height differential between container valve and nozzle is restricted to 16.4 m (53.8 ft). In addition, for multi zone systems the following also applies: r Maximum number of selector valves: 15 units r Maximum ratio of the dead volume in the manifold to the total volume of the manifold: 0.545 r Maximum number of unopened selector valve branches that the extinguishing agent flows by: 14 III units 5.10 Equivalent lengths Tee splits, Side-T DIN Nominal diameter of the inlet IN -- - ;- OUT DouT1 Nominal diameter of the first outlet DouT2 Nominal diameter of the second outlet Lo Equivalent len to h of the first outlet LOUT2 Equivalent length of the second outlet OUT 2 Fig. 19: Tee splits, Side-T DIN DOUT1 DOUT2 DIN DOUT1 DOUT2 LOUT1 LOUT2 LOUT1 LOUT2 [in.] [in.] [in.] [mm] [mm] [mm] [ft] [ft] [m] [m] 1/2 1/2 1/2 15 15 15 0.98 3.41 0.30 1.04 3/4 3/4 3/4 20 20 20 1.41 4.49 0.43 1.37 1 1 1 25 25 25 1.80 5.71 0.55 1.74 • 1 1/4 1 1/4 1 1/4 32 32 32 2.30 7.51 0.70 2.29 Information required for the design III DIN DOUT1 DOUT2 DIN DOUT1 DOUT2 i-oUT1 LOUT2 LOUT1 LOUT2 [in.] [in.] [in.] [mm] [mm] [mm] [ft] [ft] [m] [m] 1 1/2 1 1/2 1 1/2 40 40 40 2.69 8.69 0.82 2.65 2 2 2 50 50 50 3.48 11.19 1.06 3.41 2 1/2 2 1/2 2 1/2 65 65 65 4.10 13.39 1.25 4.08 3 3 3 80 80 80 5.09 16.60 1.55 5.06 3/4 3/4 1/2 20 20 15 1.41 3.41 0.43 1.04 1 1 1/2 25 25 15 1.80 3.41 0.55 1.04 1 1 3/4 25 25 20 1.80 4.49 0.55 1.37 1 1/4 1 3/4 32 25 20 1.80 4.49 0.55 1.37 1 1/4 1 1/4 1/2 32 32 15 2.30 3.41 0.70 1.04 1 1/4 1 1/4 3/4 32 32 20 2.30 4.49 0.70 1.37 1 1/4 1 1/4 1 32 32 25 2.30 5.71 0.70 1.74 1 1/2 1 1/2 1/2 40 40 15 2.69 3.41 0.82 1.04 • 1 1/2 1 1/2 3/4 40 40 20 2.69 4.49 0.82 1.37 2 2 1/2 50 50 15 3.48 3.41 1.06 1.04 2 2 3/4 50 50 20 3.48 4.49 1.06 1.37 2 2 1 50 50 25 3.48 5.71 1.06 1.74 2 2 1 1/4 50 50 32 3.48 7.51 1.06 2.29 2 2 1 1/2 50 50 40 3.48 8.69 1.06 2.65 Tee splits, Bull-T DIN Nominal diameter of the inlet OUT 1 - C� OUT 2 DoUT1 Nominal diameter of the first outlet DOUT2 Nominal diameter of the second outlet LouT1 Equivalent length of the first outlet 4 LouT2 Equivalent length of the second outlet IN Fig. 20: Tee splits, Bull-T • Information required for the design Ill DIN DOUT1 DOUT2 DIN DOUT1 DOUT2 LOUT1 LOUT2 LOUT1 LOUT2 [in.] [in.] [in.] [mm] [mm] [mm] [ft] [ft] [m] [m] 1/2 1/2 1/2 15 15 15 3.41 3.41 1.04 1.04 3/4 3/4 3/4 20 20 20 4.49 4.49 1.37 1.37 1 1 1 25 25 25 5.71 5.71 1.74 1.74 1 1/4 1 1/4 1 1/4 32 32 32 7.51 7.51 2.29 2.29 1 1/2 1 1/2 1 1/2 40 40 40 8.69 8.69 2.65 2.65 2 2 2 50 50 50 11.19 11.19 3.41 3.41 2 1/2 2 1/2 2 1/2 65 65 65 13.39 13.39 4.08 4.08 3 3 3 80 80 80 16.60 16.60 5.06 5.06 4 4 4 100 100 100 21.78 21.78 6.64 6.64 Table 1: Curves Inch DN Equivalent length Equivalent length 411 3/8 10 1.31 0.40 1/2 15 1.67 0.51 3/4 20 2.20 0.67 1 25 2.79 0.85 1 1/4 32 3.61 1.10 1 1/2 40 4.27 1.30 2 50 5.58 1.70 2 1/2 65 _ 6.56 -. 2.00 3 80 8.20 2.50 4 100 10.70 3.26 Table 2: Valves including hoses and check valves DN Equivalent Equivalent length [ft] length [m] 32 27.13 8.27 49 35.63 10.86 • Information required for the design • Table 3: Valves including hoses (excluding check valves) DN Equivalent Equivalent length [ft] length [m] 32 24.41 7.44 49 32.05 9.77 Siphon tubes Siphon tube losses are included into the cylinder assemble friction loss and therefore do not need to be calculated. Adapters and connection Adapters and connection pieces are not relevant for the pieces hydraulic model. 5.11 Conversion table for mass units US unit ' ` European SI unit 1 in. 25.4 mm 1 gal 3.785 I 1 ft3 0.028317 m3 1 lb 0.4536 kg 1 lb/ft3 16.0185 kg/m 3 1 psi 6895 Pa 1 psi 0.0689 bar (1 bar = 105 Pa) • Documentation for the owner • 6 Documentation for the owner Usually the documentation of a fire suppression system consists of the following documents: • Operating manual • Hydraulic calculation W Isometric drawings of the pipeline (with lengths, diameters, and nozzle information) W Blow-out certification and leak test (and possibly pressure test) W Report book e Documentation for extinguishing control panel e. Certificates The required scope of documentation is specified in the regulations and standards (e.g. NFPA 2001). • Transfer to the owner of the system • 7 Transfer to the owner of the system When transferring the ready-to-operate system the owner, or the person who the owner has appointed to be responsible for the system, must be instructed in the following points: IN Mode of operation and characteristics of the system In Possible dangers It Function and operation the system e Obligations of the owner (e.g. regular inspections, keeping the report book) II Required maintenance tasks or maintenance inter- vals The owner, or the person who the owner has appointed to be responsible for the system, must confirm the transfer of the ready-to-operate system on a transfer protocol and confirm the instruction. Glossary • 8 Glossary Additional quantity Quantity of extinguishing agent that needs to be kept available in addition to the required quantity used in consideration of the allowable leakage quantities and other tolerances. Approved Approved by an Authority Having Jurisdiction (ADJ) / competent authority. Blocking device Mechanical device used to prevent the extin- guishing agent from flowing into the extinguishing zone, e. g. during maintenance, inspections, and repairs inside the extinguishing zone. Check valves The check valve allows the extinguishing agent to flow only in the designated direction of flow (towards the extinguishing zone). It is installed in the inlets of the manifold (multi-container system) and prevents extinguishing agent originating from other extinguishing agent cylinders to exit the manifold into the open when the system is acti- vated or extinguishing agent cylinders have been removed. Design concentration Concentration of the extinguishing agent that • includes a safety factor and must be taken into consideration when the system is designed. Door fan test The door fan test (often also referred to as blower door test) is a check testing the integrity of an enclosure in connection with the installation of a gaseous fire suppression system or active fire pre- vention systems. For the purposes of this test, a fan installed in a door is used to generate an over- pressure/underpressure in the enclosure which will then be compared to theoretical set values. This makes it possible to determine the size of the leakage area in this enclosure. A door fan test is often the more affordable alternative to test flooding. Extinguishing concentra- Minimum concentration of the extinguishing agent tion necessary to put out a specific incendiary under specified test conditions (without consideration of design and safety factors). Extinguishing zone Total of all areas that will be flooded with extin- guishing agent simultaneously in the event of fire. Fill factor Mass of the extinguishing agent per volume unit of the extinguishing agent cylinder. Glossary • Fillingpressure Pressure used to su er ressurize the extin- guishing p p t guishing agent container with nitrogen at the filling temperature in order to reach the system pres- sure. Flooding Outflow of the extinguishing agent into the extin- guishing zone. Flooding time Period during which the required quantity of extin- guishing agent flows out. Hold time Period during which a concentration of the extin- guishing agent is present inside the extinguishing zone which is higher than the specified minimum concentration. Manifold Manifolds connect several extinguishing agent cyl- inders with one another and merge them into a single unit. Each manifold is fitted with a check valve. Minimum nozzle pressure Allowable and tested mean pressure on the dis- charge nozzles at which the fire suppression system still operates within the specified limits. • Nozzle pipe system Part of the pipe system of a fire suppression system that begins at the outlet of the manifold and the outlet of the selector valves for single- zone systems and multi-zone systems, respec- tively. Operating pressure Pressure inside a container at the maximum per- mitted operating temperature. Pilot cylinder Compressed gas cylinder, the contents of which is used for control purposes. Pressure relief device Preventing damage to the containment compo- nents caused by excessive overpressures (required for extinguishing gases as they must be introduced at high concentrations and rates) requires a mechanical pressure relief device which will limit the increase or drop of pressure inside the extinguishing zone to a specified value. Protected enclosure Total of all extinguishing zones connected to a fire suppression system. Quantity used Mass or volume of the extinguishing agent that is required to reach the design concentration intended for the protected enclosure. Glossary ior manual activation of the fire su • Release Automatic suppres- sion system for the purpose of flooding the extin- guishing zone by opening the container valves and — if present — the selector valves. Release device Device integrated into the container valve or screwed on to the container valve. It opens the cylinder valve to allow the extinguishing agent to flow out. There are the following different types of release devices: Manual release device: It can/may only be fitted on top of the "Master" extinguishing agent con- tainer and, if applicable, also on top of an elec- trical release device already mounted on the con- tainer. Electrical release device: It is used to electrically release the container. The electrical release device receives its triggering signal from the fire extinguishing detection system. Pneumatic release device: It is used to pneumat- ically release additional containers in multi-con- tainer systems. It is screwed onto the extin- guishing agent container instead of the electric release device and connected to a pneumatic pilot line that is located at the side release outlet of the electrically activated "master" extinguishing agent container. Pneumatic/manual release device: The pneu- matic/manual release device also makes it pos- sible to release a container manually on location. Safety device malfunction 3 Safeguard against slow gas leaks pressure Selector valve A valve installed in the main supply line which will, when activated, release the extinguishing agent into the respective zone to be flooded. Single-zone system Single zone systems are equipped with one extin- guishing agent supply that is intended for one extinguishing zone (4 multi zone system). Spray obstacle An object present in the immediate spray zone of the discharge nozzle which obstructs the even dis- tribution of the extinguishing agent. System pressure Pressure for which the fire suppression system has been designed and tested. Glossary Time delaydevice Automatic device used to delaythe onset of the flooding by a preset time (pre-discharge timer) after the fire suppression system has been acti- vated. Pneumatic: A mechanically adjustable period (of usually 30 s) is counted down in a pneumatically actuated timing element before the extinguishing agent is released. Mechanical: An adjustable period (of usually 30 s) is counted down in a mechanically actuated timing element before the extinguishing agent is released. Electrical: A delay time is counted down in an electronic component of the fire suppression detection system before the fire suppression system is activated. • Index • 9 Index A Extinguishing agent quantity 34 Additional extinguishing agent quantity F 12, 13 Filling pressure 11 Additional quantity 12, 13 Fire detection elements 24 Air conditioning system 25 Fire suppression detection system 24 Air-conditioned rooms 25 Flooding time 41 B FM Approvals 5 Brand names 7 H C Hold time 10 Changes 7 Hydrofluoric acid 10 Concentration 23, 40 Hydrogen fluoride 10 Container M Filling pressure 11 Manuals 46 Control diagram 55 Mass units 45 • Conversion table 45 Multi zone systems Copyright 7 Quantity regulation 40 D N Decomposition products 10 Nozzle characteristic data 15 Design Restrictions 41 0 Design concentration 23 Operating temperature 22 Documentation 46 P Door fan test 11 Permeability 10 E Pipe system 27 Enclosure permeability 10 Balanced 32 Equivalent lengths 42 Modular 31 Extinguishing agent concentration . . 23, 40 Unbalanced 33 Extinguishing agent container 37 Pipelines 27 Extinguishing agent containers Pressure relief device 25 Filling pressure 11 Pressure stages 38 III in the cylinder storage room 9 Procedure 26 in the protected enclosure 9 Progression the project 26 Index Projection o 26 Protected enclosure 9 Purpose 5 Q Quantity regulation 40 R Residual quantity 12 Restrictions 41 S Safety relief line 9 Settling sections 30 Spray obstacles 15 Symbols in the manual 8 System pressure stages 38 System transfer 47 T T pieces 27 Position 29 Quantity distribution 28 Settling sections 30 Temperature 22 Test connection 39 Trademarks 7 Transfer 47 U Underwriters Laboratories 5 Unit conversion 45 V Valves 37 Appendix • Appendix • • Control diagram of a multi zone system i A Control diagram of a multi zone system Legend BMZ Fire detection control panel EST Control device, electrical [02.11, 02.12 only single-zone system] EV Electric time delay device Selector valve BV [07.12, 07.13] BV Pneumatic release device I Reserve 4.0 to 30.0 kg (8.8 to 66.1 Ib) CO2 [04.71, 04.72] Shuttle non-return valve [04.41] Weighing device [01.21] High pressure container valve [01.12] PAE-EM Release device EM [03.21] Hose DN4 [01.41, 01.45] (alternatively) • Hose [01.43] (alternatively) Manifold DN15 VT-15 High pressure container valve [03.11] and VT-15 release device EM [03.21] Manifold [04.14] Extinguishing agent container MX 1230 [01.91] Electric release device MX 1230 [03.23] or integrated in the valve Contact pressure gauge [01.59] Hose DN50/40 [01.49] Container valve B0481/0482 [01.99] ELM Hose [04.81, 04.82] EL = Electrical release M = Master Extinguishing agent container MX 1230 [01.91] B _ Electric release device with mechanical blocking device MX 1230 [03.24] Contact pressure gauge [01.59] Hose DN50/40 [01.49] Container valve B0481/0482 [01.99] EL B M Hose [04.81, 04.82] EL B = Electrical release with blocking M = Master Control diagram of a multi zone system • Extinguishing agent container MX 1230 [01.91] Pneumatic release device MX 1230 [04.31] Contact pressure gauge [01.59] Hose DN50/40 [01.49] Container valve B0481/0482 [01.99] PN s Hose [04.81, 04.82] PN = Pneumatic release S = Slave O Electric fire detection element (not part of this system approval) BK Nozzle [07.29] Du Shuttle non-return valve [04.41] Pneumatic means of alarm [06.31] AP Monitored electric means of alarm 24V-DC [05.11, 05.12, 05.13, AE 05.14, 05.17] 211. Non monitored electric means of alarm 230V-AC [05.11] • AE optional Non monitored electric means of alarm 24V-DC [05.12, 05.13, 05.14, 05.15, 05.16, 05.17] Safety device malfunction pressure SFD [04.61] SFD U Manual release, electrical [02.23, 02.25] HAE Disable device MX [04.13] B-MX PV-3 Pneumatic time delay device PV-3-C [04.12] C 4)‹ Pressure reducer [04.21] DM Push button selector valve [04.63] (air bleed device) DKBV Check valve MX-CR [01.39] CR 1111 PA— Test connection [04.51] Control diagram of a multi zone system . E'4 Safety relief valve Only for extinguishing agent manifold [07.31] Only for pilot pipe [07.32] Pressure gauge [04.52] Fig. 21 shows a control diagram of a multi zone system with ▪ electro-pneumatic release ■ mechanical blocking ✓ electrical time delay device • secure electrical alarm DN15 distributor Control diagram of a multi zone system 410 BMZ 230V- 1' EST EV s_ o aaao 7010 1 as PA r----L--- ---� hl [t�!!�] .- Ial)1 ———i , - - L., kv, ® 1 , @--,-,1 L ____, I I -15 } I I I I I Pk-EM I I I I I i I I I 76 BJ -L I B-10 B-MX 9 6-41X D D 19 1 i i D D IK2 IQ i i i 0 Iii ni I- Y J 4- -1 Ili K loi +--{F 4--4 rL_r 1 -4 � ------1 LB1 ♦W2 •♦W3 I A U34 r J ,,,,,,,,v,",,,,, ,,,,,,,,,,),,,,,,,A1 2Fl. 5Fl. 6Fl. 6Fl. 1 L. .1, .....1R._J J U BV1 r r3 r4 gQ@,> „,-----------) I I _ ____,_ _ .__ a _____ ___ —s o o a F o ©_ -�- a --a_a_____�- I c_-_ 14JN L 1 l r __14 RIS RIS RiS RIS PNS RIS Fig. 21: Control diagram of a multi zone system IP Control diagram of a multi zone system 1 Total length of all pilot pipes (6x1) of 4 Only in case of verification of the activa- each extinguishing zone: maximum tion 30 m (98 ft) 5 Extinguishing zone 1 2 Relief into the atmosphere or into the Fl. Extinguishing agent container largest extinguishing zone LB Extinguishing zone 3 Further extinguishing zones • • COSCO Fire Protection Fire Protection and Life Safety Specialists • Suppression • COSCO Fire Protection Inc. 2501 SE Columbia Way, Suite 100 Vancouver,WA 98661 Phone:360-883-6383 Fax: 360-883-6390 Toll Free:800-983-6383 m i n i m nx MX-1230 FIRE SUPPRESSION SYSTEM Page 1 (14.4) . FIRE PRODUCTS Caution Labels Two caution labels are available for indicating the presence of a Minimax MX-1230 suppression system. Each caution label is made of aluminum. Label must be located in areas visible to the personnel located within or near the protected areas. Technical Data Material Aluminum Thickness0.039 in. CAUTION ! Finish Red i THIS SPACE IS PROTECTED BY MX 1230 FRE Weight 0.26 lb. A SYSTEM,IF THE SYSTEM DISCHARGES AS A RESULT OF Dimensions 9 in. x 8 in. FIRE,CAUTION MUST BE TAKEN iTM` TO AVOID EXPOSURE TO (Nov e c 1 PRODUCTS OF COMBUSTION. Listings/Approvals °°NOT ENTER WITHONAPPROVED E 1.230 f I BREATHINGUNTILOR AREAIS PROPERLY UL Listed EX-5248 VENTILATED. SYSTEM ULC Listed EX-5248 A CTURER MOW UUSSA LLC 4030 E.QUENTDN DR,SUTTE 112 FM ApprovedFile No. 3035914 MESA AZ 85215 Shipping Assembly EN 16908 Part No. Description 16988 CAUTION! This area is protected by a MX-1230 Fire Suppression system CAUTION ! THIS AREA IS PROTECTED BY A MX 1230 FIRE 16988-S Spanish Version EXTINGUISHING SYSTEM. WHEN FIRE ALARM SOUNDS, OR UPON GAS DISCHARGE, TM EVACUATE HAZARD AREA C N ove c IMMEDIATELY AND DO liQI RE-ENTER UNTIL AREA IS 1230 THOROUGHLY VENTILATED, 16989 CAUTION! Do NOT re-enter until area is thoroughly ventilated SYSTB4 MANUFACTURER MINIMAX USA LLC 16989-S Spanish Version 4030 E.MMEESSA,AZ 115215 SUITE 132 S234 A WARNING:Cancer and Reproductive Harm- Ilk FN 140137 www.P65Wamings.ca.gov 1111 Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com minimax MX-1230 FIRE SUPPRESSION SYSTEM Page 2 (14.4) FIRE PRODUCTS • Agent Tanks (Pressurized at 360 psi (25 bar)) The agent tank assemblies are manufactured in accordance with DOT/TC and includes the finished tank, shipping cap, valve assembly, and siphon tube and Pressure Gauge/Low Pressure Switch. A nameplate is adhered to the finished tank displaying the agent weight and gross weight of the complete charged assembly. Tanks are superpressurized with dry nitrogen at 360 psi (25 bar) at 70 °F (21 °C). When ordering charged tank assemblies, the quantity of agent must be ordered with tank part number hyphen agent quantity in lbs. i.e. 88 9109 — 100, quantity is in 1 lb. increments. Nominal Shipping Min. Max. Empty Volume Part No. "A" "B" Dia. Fill Fill Weight (Ib) (lb) (Ib) 60 lb 91 4147 40.8 in. 23.2 in. 10 in. 20 lb 58 lb 88 lb 140 lb 88 9109 65.4 in. 47.8 in. 10 in. 46 lb 137 lb 108 lb 280 lb 88 9111 61.4 in. 40.9 in. 16 in. 94 Ib 280 lb 190 lb 390 lb 88 9113 74.5 in. 54.0 in. 16 in. 130 Ib 388 lb 229 Ib 500 lb 91 0510 86.0 in. 65.5 in. 16 in. 159 lb 476 lb 313 lb With Liquid Level Indicator • 280 lb 91 4151 61.4 in. 40.9 in. 16 in. 94 lb 280 lb 210 lb 390 lb 91 4152 74.5 in. 54.0 in. 16 in. 130 lb 388 lb 251 lb 500 lb 91 4153 86.0 in 65.5 in 16 in. 159 lb 476 lb 286 lb Technical Data r Tank Material......Steel H Tank Finish Red Nameplate PVC foil self adhesive 16111-M Valve- Brass -_, Listings/Approvals A UL Listed EX-5248 ULC Listed EX-5248 . FM ApprovedFile No. 3035914 B ai Shipping Assembly See chart above WARNING:Cancer and Reproductive Harm- • www.P65Wamings.cagov Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com MX-1230 FIRE SUPPRESSION SYSTEM minimax Page 3 (14.4) • FIRE PRODUCTS Agent Tanks (Pressurized at 725 psi (50 bar)) The agent tank assemblies are manufactured in accordance with DOT and include the finished tank, shipping cap, valve assembly, and siphon tube and pressure gauge/low pressure switch. A nameplate is adhered to the finished tank displaying the agent weight and gross weight of the complete charged assembly. Tanks are superpressurized with dry nitrogen at 725 psi (50 bar) at 70 °F (21 °C). When ordering charged tank assemblies, the quantity of agent must be ordered with tank part number hyphen agent quantity in lbs. i.e. 88 8591 — 100, quantity is in 1 lb. increments. Nominal Shipping Min. Max. Empty Volume Part No. "A" "B" Dia. Fill (Ib) Fill (Ib) Weight (Ib) 220 lb 88 8591 58.5 in. 34.9 in. 16.0 in. 71 lb 211 lb 218 lb 390 lb 88 8593 80.2 in. 53.8 in. 16.0 in. 124 lb 370 lb 289 lb 500 lb 88 8595 88.0 in. 67.5 in. 16.0 in. 159 lb 476 lb 395 lb Technical Data Tank Material Steel 1 , Tank Finish Red Nameplate PVC foil self adhesive Valve Brass f Listings/Approvals I� — UL Listed EX-5248 ULC Listed EX-5248 FM ApprovedFile No. 3035914 A Shipping Assembly See chart above B ° a A WARNING:Cancer and Reproductive Harm- (• www.P65Warnings.cagov 4 • T ,� Ph: 480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com minimax MX-1230 FIRE SUPPRESSION SYSTEM Page 4 (14.5) FIRE PRODUCTS • Mounting Bracket The mounting bracket is required to properly and safely secure the agent tank assemblies to a rigid vertical mounting surface. Brackets are available for 360 psi (25 bar) and 725 psi (50 bar) agent tanks. Each size tank requires only one bracket. Size Tank Used On Shipping Assembly Radius Weight Part No. (R) "B" 60 lb 360 psi 19368W/B 5.3 in. 4.72 in. 3.2 lb 140 lb....360 psi 280 lb....360 psi 390 Ib....360/725 psi 88 7639 8.1 in. 7.87 in. 4.6 lb 220 lb....725 psi 500 lb....725 psi Technical Data Material Steel • Finish Matt-finish or powder-coated, graphite black Listings/Approvals UL Listed EX-5248 -# 4- }2.36" ULC Listed EX-5248 FM ApprovedFile No. 3035914 Shipping Assembly See chart above i ri A\WARNING:Cancer P65andWReprod arnings.uc cativegov Harm- www. 1 ` g ;' 4111 I / I ' Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com minimax inimax MX-1230 FIRE SUPPRESSION SYSTEM Page 5 (15.1) • FIRE PRODUCTS Nozzles The Minimax MX-1230 Fire Suppression System offers several sizes of both 180° and 360°agent discharge nozzles. All nozzles are manufactured in brass and are available with NPT threads. A wide range of drilled orifice sizes are available to meet any discharge rate requirement. Orifice plates are drilled per MX DesignManager calculations. 180° Nozzle Size Shipping Assy Orifice Diameter "A" "B" SW Part No. Min Max. (Across Flats) 1/2 in. NPT 88 9061 0.169 in 0.378 in. 2.2 in. 0.9 in. 1.2 in. 1 in. NPT 88 9062 0.268 in 0.689 in. 3.8 in. 2.0 in. 2.0 in. 1 1/2 in. NPT 88 9063 0.406 in 1.181 in. 3.8 in. 3.4 in. 3.4 in. 2 in. NPT 88 9064 0.512 in 1 575 in. 3.8 in. 3.4 in. 3.4 in. 360° Nozzle Size Shipping Assy Orifice Diameter "A" "B" SW Part No. Min Max. (Across Flats) %/2 in. NPT 88 9069 0.169 in 0.378 in. 2.2 in. 0.9 in. 1.2 in. • 1in. NPT 88 9070 0.268 in 0.689 in. 3.8 in. 2.0 in. 2.0 in. 1 1/2 in. NPT 88 8071 0.406 in 1.181 in. 3.8 in. 3.4 in. 3.4 in. 2 in. NPT 88 9073 0.512 in 1.575 in. 3.8 in. 3.4 in. 3.4 in. Technical Data Material Brass Installation height 14' and 17'9" with adjusted design concentration Finish Brass Max Nozzle Area Coverage 1,024 ft Listings/Approvals �- B UL Listed EX-5248 0 0 0 0 O 0 ULC Listed EX-5248 A I O � ( A 0 0 0 0 FM ApprovedFile No. 3035914 Shipping Assembly 11 See chart above 180° Nozzle - Radius 35.77 ft 360° Nozzle — Radius 22.6 ft Ordering Information Order nozzle part no. —orifice code (i.e. 88 9061-0.512) SI n WARNING:Cancer and Reproductive Harm- www.P65Warnings.ca.gov Ph:480-553-5670 I Fax:269-818-1608 I www.minimaxfp.com minimax MX-1230 FIRE SUPPRESSION SYSTEM Page 6 (14.4) FIRE PRODUCTS • Tank Valves 2 1/2 in.-12UN (Replacement) Tank valves are available for field replacement. All replacement valve have been 100% factory tested, fully assembled with all required internal components. Contact pressure gauge is not included with replacement valve. Valves can be electrically, pneumatically, and manually actuated using the proper actuators. Replacement valves are available for 360 psi (25 bar) and 725 psi (50 bar) systems. Technical Data Valve body Brass Bursting discNickel Spring Steel 0-rings/SealNBR Weight 9.7 lb. Outlet thread2 '/2"-12 UN Outlet 2" with 17563 Swivel Adaptor Outlet 2" with 912076 90° Discharge Hose Listings/Approvals 1111 Use with part 17563 or 912076 UL Listed EX-5248 ULC Listed EX-5248 FM Approved File No. 3035914 Shipping Assembly Part No. Description 88 7966 360 psi (25 bar) valve 88 7664 725 psi (50 bar) valve WARNING:Cancer and Reproductive Harm- ( \ www.P65Warnings.ca.gov Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com minrmAX MX-1230 FIRE SUPPRESSION SYSTEM Page 7 (14.4) • FIRE PRODUCTS Tank Valves 1 7/8 in.-12UN (Replacement) Tank valves are available for field replacement. All replacement valve have been 100% factory tested, fully assembled with all required internal components. Contact pressure gauge is not included with replacement valve. Valves can be electrically, pneumatically, and manually actuated using the proper actuators. Replacement valves are available for 360 psi (25 bar) and 725 psi (50 bar) systems. Technical Data Valve body Brass Bursting discNickel Spring Steel 0-rings/Seal NBR Weight 19.6 lb. Outlet 1 7/8-12 UN Listings/Approvals Use with part 17562 or 912075 UL Listed EX-5248 ULC Listed EX-5248 FM ApprovedFile No. 3035914 Shipping Assembly 4 .e Part No. Description 88 7964 360 ) bar(25 sivalve p A WARNING:Cancer and Reproductive Harm- www.P65Warnings.ca.gov Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com I fl U RX MX-1230 FIRE SUPPRESSION SYSTEM Page 8 (14.4) FIRE PRODUCTS Pneumatic Release The pneumatic release can be use to actuate the agent tank valves. The release operates from pilot line pressure received from the control tank. When pressurized, the release pin is forced into the down position which then causes the agent tank valve to open. The release is spring loaded, therefore will reset itself when the pilot line pressure is relieved. Technical Data Body Brass Spring Stainless Steel Listings/Approvals 1.77" UL Listed EX-5248 ULC Listed EX-5248 SW41 FM ApprovedFile No. 3035914 Shipping Assembly0- Part No. Description / • 88 7669 Pneumatic release 1.97" A WARNING:Cancer and Reproductive Harm- www.P65 Wa rn i ngs.ca.gov • Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com m i n i m nx MX-1230 FIRE SUPPRESSION SYSTEM Page 9 (14.4) • FIRE PRODUCTS Manual Release The manual release assembly contains a hand lever which can be used to manually actuate the tank valve. When the ring pin is pulled from the lever, the lever can be pushed down, moving the internal pin down, which will cause the tank valve to actuate. The release is not spring loaded, therefore it must be reset manually after actuation. Manual reset requires pushing the pin up, back into the body of the release. Technical Data Body Brass Handle Stainless Steel 1111nli Spring Stainless Steel im? Listings/Approvals 2.1 3" UL Listed EX-5248 ULC Listed EX-5248 FM ApprovedFile No. 3035914 Shipping Assembly H 1.97'—." Part No. Description 88 7668 Manual release 3.03" A WARNING:Cancer and Reproductive Harm- www.P65Warnings.ca.gov �± : i Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com minimax inimnx MX-1230 FIRE SUPPRESSION SYSTEM Page 10 (14.4) FIRE PRODUCTS • Manual/Pneumatic Release The manual/pneumatic release can be used to actuate the agent tank valves. The pneumatic portion of the release operates from pilot line pressure received from the control tank. When pressurized, the release pin is forced into the down position which then causes the agent tank valve to open. The manual portion of the release contains a hand lever which can be used to manually actuate the tank valve. When the ring pin is pulled from the lever, the lever can be pushed down, moving the internal pin down, which will cause the tank valve to actuate. The release is not spring loaded, therefore it must be reset manually after actuation. Manual reset requires pushing the pin up, into the body of the release. Technical Data Body Brass Spring Stainless Steel Listings/Approvals UL Listed EX-5248 ULC Listed EX-5248 FM ApprovedFile No. 3035914 Shipping Assembly Part No. Description 88 7670 Manual/pneumatic release / C 5 4" /� WARNING:Cancer and Reproductive Harm- J L / www.P65Wamings.ca.gov 41 Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com m n m Ax MX-1230 FIRE SUPPRESSION SYSTEM Page 11 (14.4) FIRE PRODUCIS Electric Release The 24V electric release can be used to electrically actuate the agent tank valve. An electric signal is required from the detection panel. This signal operates an internal solenoid which actuates the release mechanism. The release mechanism then opens tank valve. Only one electric release is required on multiple tank system. The remaining tank valves are opened by agent pressure through the pilot line. Technical Data Nominal Voltage 24VDC Nominal Current 0.5 A IP Code P65 Max. Permitted Test Current...20 mA Electrical Inlet 1/2 in. NPT Weight 5.5 lb Listings/Approvals UL Listed EX-5248 2,56° ULC Listed EX-5248 FM ApprovedFile No. 3035914 �— V I Shipping Assembly Part No. Description111 88 9323 Release without diode I 17096 Electric release screw reset tool I ' 5.51" I • Note: Polarity must be observed when wiring the release to control panel. The release will not operate if installed with reverse polarity. Note: To reset the electric release, the reset tool Must be threaded into the base of the release until it stops. Remove the reset tool and visually inspect the pin inside the release. If the red marking on the pin is not visual, the release has been correctly reset. /� WARNING:Cancer and Reproductive Harm- ( www.P65Warnings.ca.gov Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com m r n i m Ax MX-1230 FIRE SUPPRESSION SYSTEM Page 12 (14.4) FIRE PRODUCTS • Check Valve The agent piping network for multiple tank (manifold) systems requires a check valve at each tank outlet. The check valve is required to prevent the loss of agent during a system discharge if, for some reason, a tank has been removed or disconnected from the piping network. The valve is installed between the agent tank valve and the piping manifold. Technical Data Body galvanized steel Internal componentsstainless steel Spring stainless steel Seal NBR Listings/Approvals -■• 2.5" UL Listed EX-5248 2.5"Center Line of ULC Listed EX-5248 Check valve to Face FM Approved File No. 3035914 Shipping Assembly ll Part No. Description t 912071 2" Check Valve 2"I Threads T /� WARNING:Cancer and Reproductive Harm- / l www.P65Warnings.ca.gov 3.875'Center line of Check valve to Face Thread depth from lace 1.125typ .1e-2"Threads Ph: 480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com minnow MX-1230 FIRE SUPPRESSION SYSTEM Page 13 (14.4) FIRE PROD1fCT5 0 Pilot Hose The pilot hose is required for pneumatic actuation of multiply tanks. The pressure from the control tank, upon actuation, is routed through the pilot hose to actuate the remaining tanks in the system. The hose requires the use of an adaptor for attaching to agent tank valves. Technical Data ID 0.157 in. MaterialRubber FittingsStainless Steel Min. bend radius....3.5 in. Listings/Approvals UL Listed EX-5248 ULC Listed EX-5248 FM ApprovedFile No. 3035914 Shipping Assembly 0Z I — 11111111 .`'..IIII x �* Part No. Description N 88 7834 Hose (23.6 in. long) (A) T 88 7835 Hose (39.4 in. long) (A) kil 88 7836 Hose (59.1 in. long) (A) 1.08" `~ 88 7644 Pilot Hose Adaptor A\WARNING:Cancer and Reproductive Harm- /,•\ www.P65Wamings.ca.gov SW14 SW14 wrench size wrench size I + - -3ss.!It4I4 !F 'IIIC_ H A I'l III Ph:480-553-5670 I Fax:269-818-1608 I www.minimaxfp.com m i n m Ax MX-1230 FIRE SUPPRESSION SYSTEM FIRE PRODUCTS Page 14 (14.4) • Discharge Hose The agent discharge hose is required to connect the tank valve to the piping network, manifold or check valve. The hose allows for a secure connection between the agent tank(s) and the piping network. Two lengths of hoses are available. Style Part No. Length (A) Length (B) SW1 SW2 Weight-lb 90° Bend 912075 17.7 in. 4.75 in. 2.4 in. 2.0 in. 3.1 lb 90° Bend 912076 20.5 in. 6 in. 2.8 in. 2.6 in. 6.0 lb Technical Data Material Rubber �B Fittings Stainless Steel 1 ( I Listinqs/Approvals UL Listed EX-5248 W 2 • ULC Listed EX-5248 L FM Approved....File No. 3035914 -T A Shipping Assembly See above 912075 1 1/2" NPT Discharge Hose 912076 2" NPT Discharge Hose •WARNING:Cancer and Reproductive Harm- S W 1 www.P65Warnings.ca.gov 111 Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com minimax MX-1230 FIRE SUPPRESSION SYSTEM Page 15 (15.1) • FIRE PRODUCTS Contact Pressure Gauge/Low Pressure Switch The contact pressure gauge/low pressure switch is installed in the agent tank valve. The gauge is available in either normally open (NO) or normally closed (NC) contacts. The contacts are activated by the decrease in tank pressure during a system discharge or loss of tank pressure due to a leak. Switches are available for either 360 psi (25 bar) or 725 psi (50) tanks. Technical Data Material Aluminum Switching Voltage4.5 — 24 VDCNAC • Switching Current 5 — 100mA Contact Load Max. 3W, dry contact Switch Point 360 psi Gauge....324 psi sa Switch Point 725 psi Gauge....653 psi Listings/Approvals UL Listed EX-5248 ULC Listed EX-5248 FM Approved File No. 3035914 Shipping Assembly Part No. Description 88 9300 360 psi (25 bar) Gauge (NO at switching point; NC under pressure) 88 9303 360 psi (25 bar) Gauge (NC at switching point; NO under pressure) 88 9302 725 psi (50 bar) Gauge (NO at switching point; NC under pressure) 88 9305 725 psi (50 bar) Gauge (NC at switching point; NO under pressure) 88 8023 0-Ring (spare part) 88 8024 0-Ring Support Ring (spare part) A WARNING:Cancer and Reproductive Harm- www.P65Warnings.ca.gov Ph:480-553-5670 I Fax:269-818-1608 I www.minimaxfp.com m i n i m nx MX-1230 FIRE SUPPRESSION SYSTEM Page 16 (14.4) FIRE PRODUCTS • Pressure Gauge The pressure gauge is installed in the agent tank valve. Gauges are available for either 360 psi (25 bar) or 725 psi (50) tanks. Technical Data Material Aluminum Listings/Approvals UL Listed EX-5248 ULC Listed EX-5248 FM ApprovedFile No. 3035914 ksj Shipping Assembly Part No. Description ` 91 2097 360 psi (25 bar) Gauge 91 2099 725 psi (50 bar) Gauge • 88 8023 0-Ring (spare part) 88 8024 0-Ring Support Ring (spare part) 1 WARNING:Cancer and Reproductive Harm- www.P65 Warn i ngs.ca.gov Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com m i n u et ax MX-1230 FIRE SUPPRESSION SYSTEM Page 17 (14.4) • FIRE PRODUCTS Pilot HoseNalve Adaptor The adaptor is required to connect pilot hose to tank valves, pneumatic/manual releases, and pneumatic releases. Technical Data Material Brass Listings/Approvals UL Listed EX-5248 _ ULC Listed EX-5248 a _ 111111111h X FM ApprovedFile No. 3035914 \ I IIII z Shipping Assembly Part No. Description 1.08" 88 7644 Pilot Hose Adaptor M12x1.5 — G1/8 1111 WARNING:Cancer and Reproductive Harm- ( 1 Harm- www.P65Warnings.ca.gov • Ph:480-553-5670 I Fax:269-818-1608 I www.minimaxfp.com m r n i m A x MX-1230 FIRE SUPPRESSION SYSTEM Page 18 (14.4) FIRE PRODUCTS • Safety Malfunction Device The safety malfunction device is designed to release small amounts of leakage pressure in pneumatic pilot lines. The device closes automatically on higher pressure. The device must be installed in the vertical position. Available as an assembly. Technical Data Material Brass Gasket ..NBR Weight 0.33 lb. Listings/Approvals UL Listed EX-5248 ULC Listed EX-5248 FM ApprovedFile No. 3035914 Shipping Assembly Part No. Description 16010 Pressure Malfunction Safety Assembly • • 0 © 0 Pressure relief (individual parts) Item 1 Safety device malfunction pressure SFD DN4, order no. 88 5869 Item 2 Union GZRO6L/06SCF, order no. 91 0650 Item 3 Union ISO8434-1-SWOEC-L6, order no. 88 9145 Item 4 Adapter M12x1.5 — G1/8, order no. 88 7644 /� WARNING:Cancer and Reproductive Harm- / www.P65Warnings.ca.gov (for release device pneumatic or pneumatic/manual) Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com m i n i m gx MX-1230 FIRE SUPPRESSION SYSTEM Page 19 (14.4) • FIRE PRODUCTS Swivel Adaptor (Tank to Pipe) The swivel adaptor is used to connect the agent tank valve outlet with the NPT piping network. Two sizes are available, 1 1/2 in. and 2 in. outlet size. Technical Data Material Galvanized Steel Weight 1 1/2 in. size 2.2 lb 2 in. size 2.9 lb Listings/Approvals UL Listed EX-5248 ULC Listed EX-5248 FM ApprovedFile No. 3035914 Shipping Assembly Part No. Description 17562 1 7/8"-12 UN. Valve Connection (G2) to 1 1/Z" NPT Pipe Connection (G1) A=3" 17563 2"-12 UN. Valve Connection (G2) to 2" NPT Pipe Connection (G1) A=3 1/2" A1.1 G1 11111.HR} G2 11111 1 • 4\WARNING:Cancer aWaReipnroact.igoH arm- Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com MX-1230 FIRE SUPPRESSION SYSTEM minmmnx Page 20 (14.4) FIRE PRODUCTS • Pneumatic Limit/Pressure Switch The pneumatic operated limit/pressure switch can be mounted in the agent distribution piping. Upon system discharge, the agent pressure in the piping network will actuate the switch, causing the internal electrical contacts to either open or close. This action can be used to signal alarms, turn on warning lights, cause door closures to operate, etc. Technical Data Material Alloy Die-cast Metal IP Rating IP65 Nominal Isolation Voltage....500V Permanent Current....16A Nominal Operation Current....6A, 400 VAC • Weight 3.3 lb. Listings/Approvals UL Listed EX-5248 ULC Listed EX-5248 r•�� FM ApprovedFile No. 3035914 - — '' • Shipping Assembly Part No. Description 826758D Pneumatic Discharge Pressure Switch Kit Replacement Parts 826758 Pneumatic Discharge Pressure Switch 300057 Adapter M20 x 3/4" NPT 17553 Adapter G1/4 x M12 x 1.5 17552 Adapter 1/4" NPT x M12 x 1 887835 39" Hose (1,000mm) 72 4420 US 432y-M20-2352 Replacement Limit Switch (2 Contact) /\ WARNING:Cancer and Reproductive Harm- / www.P65Wamings.ca.gov S Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com m 'ri i m nx MX-1230 FIRE SUPPRESSION SYSTEM 1 Page 21 (14.4) 1 • FIRE PRODUCTS Abort Switch The abort switch is designed to be wired to the abort terminals of a listed releasing panel. The switch consists of a stainless steel faceplate and a modular switch assembly. It is designed to mount on a standard double gang electrical enclosure. The switch is designed for indoor use only. Technical Data Material Stainless steel faceplate Dimensions4 1/2 in. W x 4 'A in. H x 2 in. Deep Contact Rating....One N.O. momentary contact rated at 2.5 amps @ 24 VDC (5 mA minimum) Listings/Approvals UL Listed ., ULC Listed FM Approved Shipping Assembly g IIIPart No. Description 17120 Abort Switch Assembly 1 WARNING:Cancer and Reproductive Harm- • www.P65Warnings.ca.gov \ irNJ1iECdRFROM 0 *,, 31\RFI zi[naa PANEL ,,,;4 , Q____.„ , % y CI) DWG 111136.1 • Ph:480-553-5670 I Fax:269-818-1608 I www.minimaxfp.com MX-1230 FIRE SUPPRESSION SYSTEM min'mnx Page 22 (14.4) FIRE PRODUCTS • Releasing Circuit Disable Switch (RCDS-1) The Release Circuit Disable Switch (RCDS-1) consists of a stainless steel faceplate, green LED, amber LED, and switch assembly. It is designed to mount on a standard single gang electrical enclosure. The switch is designed for indoor use only. . The connection for the supervisory circuit has 4 wires: 2 yellow and 2 gray. The 2 yellow wires are for connection to the supervisory circuit. The 2 gray wires are for connection to additional supervisory devices or the EOLR for the supervisory zone. Technical Data Application Material Stainless steel faceplate The RCDS-1 complies with NFPA 72: Dimensions2 3/4 in. W x 4 '/2 in. H x 2 in. Deep - Specifying a physical switch to disconnect Contact Rating....1 AMP @ 40 VDC the release circuit in place of a software Power Requirements....24 VDC, 10 mA controlled disconnect. Temperature Range -22 °F to 140 °F - Creating a supervisory condition on the (-30 °C to 60 °C) associated release panel. Listings/Approvals Installation 111) UL Listed 1. Connect the red and black leads to the 24 ULC Listed VDC auxiliary power terminals on the panel. Be certain to observe polarity. 2. Connect the yellow wires to the supervisory Shippinq Assembly zone on the panel. Part No. Description 24 VDC SLFERV1SORY- RELE ASING ZONE CIRCUIT 17121 Releasing Circuit - - - - - Disable Switch Assy e e GG -e e Operation O RED O The green LED indicates the RCDS LEDs ELLELLO Q YELL is in the normal condition and the YELLOW release circuit is enabled. The amber 0 BLUE LED indicates that the release circuit KEYa SlSITCI: BLUE BLACK RED is disabled. ° EOL RAY DIODE ASSYRELE A.SLNG /� WARNING:Cancer and Reproductive Harm- DWG,214- RAY SOLENOID \ www.P65Warnings.ca.gov • Ph: 480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com minimax ' iriimax „ MX-1230 FIRE SUPPRESSION SYSTEM Page 23 (14.4) 110 FIRE PRODUCTS Main/Reserve Switch The Main/Reserve Switch is a key switch which enables the user to switch to the connected reserve system after the main system has been discharged. This allows for continuous hazard protection. Two LED's indicate "MAIN” and "RESERVE". When the key is inserted and turned towards the "RESERVE", the red LED illuminates and the green LED indicating "MAIN" turns off. The key can only be removed in the "MAIN" position. The switch is also available with the key removable in both the "MAIN" and the "RESERVE" positions. Technical Data Switch Rating10A 250VAC, 15A 125-250VAC DC 15A up to 30 VDC . •'.',. ' LED Rating 10mA each. Total current draw 20mA , 6- Mounting Two gang plate MAIN/RESERVE SWITCH -t,-..--',47w • Listings/Approval MAIN RESERVE UL Listing.....EX-5248 (611 . ULC Listing...EX-5248 FM Approval..File No. 3035914 • • � ` iht Shipping Assembly Part No. Description 17504 Main/Reserve Switch 3-POLE WIRING DIAGRAM 4-POLE WIRING DIAGRAM MAIN MAIN BLACK •24 VDC �+ SNC N�NC -24 VDC G � BLACK + �•NC (4 el•NC I— 1— ~ ►- •+ c B•C B•C •+ ccj•C V•C O RED U U 13}-1111++ 24 VDC •NO U*NO v•NO RED R� + •NO S NO RESERVE + 24 VDC RESERVE Illo / . WARNING:Cancer and Reproductive Harm- ( www.P65Wamings.ca.gov Ph:480-553-5670 I Fax:269-818-1608 I www.minimaxfp.com m r n i m Ax MX-1230 FIRE SUPPRESSION SYSTEM Page 24 (17.0) FIRE PRODUCTS • Solenoid Monitoring Switch (SMS) The Solenoid Monitoring Switch (SMS) is mounted on the cylinder valve. When the system solenoid is mounted to the valve the SMS will supervise the connection. When the system solenoid is removed the contact will close. This action can be used to signal the disposition to the alarm control panel. The SMS complies with NFPA 2001. Technical Data Contact Rating 1 AMP @ 24 VDC Temp. Range -22°F to 176°F (-30°C to 80°C) IP Rating IP67 Listings/Approvals UL Listed EX5248 r` ULC Listed EX5248 ` FM Approved File No. 3035914 Shipping Assembly :1 Part No. Description 922291D Solenoid Monitor Switch 1 '/2" 922290D Solenoid Monitor Switch 2" A WARNING:Cancer and Reproductive Harm- www P65Warnings ca gov arm-www.P65Warnings.ca.gov 1111.41, Wiring with end of line device _ _ _ _ _ _ _ _ _ . _ _ _ - _ 1 Control panel 0 0 0 SW/BK 21 22 2 Junction box 0 0 3 End of line device RT/RD ° 7 ° m switch _ T 0 0 4.1 Make contact; if release device or 1 - — va1ve1ver are demounted an electric pp contact is closed SW/BK 4.2 Break contact(not used) RT/RD • Ph:480-553-5670 I Fax: 269-818-1608 I www.minimaxfp.com :••••••: � COSCO Fire Protection Fire Protection and Life Safety Specialists • Fire Ala • COSCO Fire Protection Inc. • 2501 SE Columbia Way, Suite 100 Vancouver,WA 98661 Phone:360-883-6383 Fax: 360-883-6390 Toll Free: 800-983-6383 DF-60238:C1 •A2-350 MRP-2002(E) Fur•uTe°ALarmS Agent Release Control Panel by Honeywell Conventional General • The MRP-2002 is a six-zone FACP for single and dual hazard agent releasing applications. The MRP-2002 provides reliable fire detection, signaling and protection for commercial, indus- trial and institutional buildings requiring agent-based releasing. The MRP-2002 is compatible with System Sensor's i3 detec- tors which are conventional smoke detectors that can transmit a maintenance trouble signal to the FACP indicating the need for cleaning and a supervisory `freeze' signal when the ambi- ent temperature falls below the detector rating of approxi- mately 45°F (7.22°C). In addition, the control panel is compatible with conventional input devices such as two-wire smoke detectors, four-wire smoke detectors, pull stations, waterflow devices, tamper switches and other normally-open contact devices. Refer to the Fire•Lite Device Compatibility Document for a complete listing of compatible devices. Four outputs are programmable as NACs (Notification Appli- ance Circuits) or releasing circuits. Three programmable Form-C relays (factory programmed for Alarm, Trouble and ,:, Supervisory) and 24 VDC special application resettable and 5 non-resettable power outputs are also included on the main circuit board.The MRP-2002 supervises all wiring,AC voltage, battery charger and battery level. —Gentex Activation of a compatible smoke detector or any normally- —Faraday open fire alarm initiating device will activate audible and visual —Amseco • signaling devices, illuminate an indicator, display alarm infor- mation on the panel's LCD, sound the piezo sounder at the Three programmable Form-C relays. FACP, activate the FACP alarm relay and operate an optional •• 7.0 amps total 24 VDC output current. module used to notify a remote station or initiate an auxiliary • Resettable and non-resettable output power. control function. • Built-in Programmer. The MRP-2002E offers the same features as the MRP-2002 • ANN-BUS connector for communication with optional but allows connection to 220/240 VAC. Unless otherwise spec- ified,the information in this data sheet applies to both the 110/ —ANN-80 Remote LCD Annunciator 120 VAC and 220/240 VAC versions of the panels. —ANN-I/O LED Driver Features -ANN-S/PG Printer Module • Listed to UL Standard 864, 9th edition. —ANN RLY Relay Module • FM Approved. —ANN-LED Annunciator Module • Designed for agent releasing standards NFPA 12, 12A, 80 character LCD display(backlit). • 12B, and 2001. • Real-time clock/calendar with daylight savings time control. • Meets International Building Code (IBC) seismic require- • History log with 256 event storage. ments. • Piezo sounder for alarm,trouble and supervisory. • Disable/Enable control per input zone and output zone. • 24 volt operation. • Extensive transient protection. • Low AC voltage sense. • Dual hazard operation. • Outputs Programmable for: • Adjustable pre-discharge, discharge and waterflow delay —Releasing Circuits or NAGS timers. • NACs programmable for: • Cross-zone(double-interlock)capability. —Silence Inhibit • Six programmable Style B(Class B) IDCs (Initiating Device —Auto-Silence Circuit). —Strobe Synchronization • System Sensor i3 series detector compatible. —Selective Silence(horn strobe mute) • Four programmable Style Y(Class B)output circuits-(spe _Temporal or Steady Signal cial application power). • • Strobe synchronization: —Silenceable or Non-silenceable —System Sensor —Release Stage Sounder —Wheelock • Automatic battery charger with charger supervision. DF-60238:C1•6/14/2011—Page 1 of 4 • Optional Dress Panel DP-51050(red). Initiating Device Circuits-TB4 and TB6 • Optional Trim Ring TR-CE(red)for semi-flush mounting the • Alarm Zones 1 -5 on TB4. cabinet. • Alarm Zone 6 on TB6. • Optional CAC-5X Class A Converter Module for Outputs • Supervised and power-limited circuitry. • and IDCs. • Optional 4XTMF Municipal Box Transmitter Module. Style B(Class B)wiring with Style D(Class A)option. • Digital Alarm Communicators (411, 411UD, • Normal Operating Voltage: Nominal 20 VDC. • 411UDAC). • Alarm Current: 15 mA minimum. • Optional ANN-SEC card for a secondary ANN-BUS. • Short Circuit Current:40 mA max. • Maximum Loop Resistance: 100 Ohms. PROGRAMMING AND SOFTWARE: • End-of-Line Resistor:4.7K Ohms, 1/2 watt(PN 71252). • Custom English labels(per point)may be manually entered • Standby Current:4 mA. or selected from an internal library file. Refer to the Fire•Lite Device Compatibility Document for listed • Programmable Abort operation. compatible devices. • Three programmable Form-C relay outputs. Notification Appliance and Releasing Circuit(s)-TB5 and • Pre-programmed and custom application templates. TB7 • Continuous fire protection during online programming at the • Four Output Circuits. front panel. Program Check automatically catches common errors not • Style Y (Class B) or Style Z (Class A) with optional con- • verter module. linked to any zone or input point. • Special Application power. USER INTERFACE: • Supervised and power-limited circuitry. • Integral 80-character LCD display with backlighting. • Normal Operating Voltage: Nominal 24 VDC. • Real-time clock/calendar with automatic daylight savings • Maximum Signaling Current:7.0 amps(3.0 amps maximum adjustments. per NAC). • ANN-Bus for connection to remote annunciators. • End-of-Line Resistor:4.7K Ohms, 1/2 watt(PN 71252). • Audible or silent walk test capabilities. • Max.Wiring Voltage Drop: 2 VDC. • Piezo sounder for alarm,trouble,and supervisory. Refer to the Fire•Lite Device Compatibility Document for com- patible listed devices. Controls and Indicators Form-C Relays-Programmable-TB8 LED INDICATORS • Relay 1 (factory default programmed as Alarm Relay) • FIRE ALARM(red). • Relay 2 (factory default programmed as fail-safe Trouble • SUPERVISORY(yellow). Relay) • TROUBLE(yellow). • Relay 3(factory default programmed as Supervisory Relay) • AC POWER(green). • Relay Contact Ratings: • ALARM SILENCED(yellow). —2 amps @ 30 VDC(resistive) • DISCHARGED(red). —0.5 amps @ 30 VAC(resistive) • PRE-DISCHARGE(red indicator). Auxiliary Trouble Input—J6 • ABORT(yellow indicator). The Auxiliary Trouble Input is an open collector circuit which can be used to monitor external devices for trouble conditions. CONTROL BUTTONS It can be connected to the trouble bus of a peripheral, such as • ACKNOWLEDGE. a power supply, which is compatible with open collector cir- • ALARM SILENCE. suits. • SYSTEM RESET(lamp test). Special Application Resettable Power-TB9 • DRILL. • Operating Voltage: Nominal-24-VDC. AC Power—TB1 • Maximum Available Current: 500 mA - appropriate for powering 4-wire smoke detectors(see note). • MRP-2002: 120 VAC,60 Hz,3.66 amps. • Power limited Circuitry. • MRP-2002E:240 VAC, 50 Hz,2.085 amps. 2 Refer to the Fire•Lite Device Compatibility Document for corn- • Wire size: minimum#14 AWG (2.0 mm )with 600V insula- patible listed devices. tion. • Supervised, nonpower limited. NOTE:Total current for resettable power,nonresettable power and Output Circuits must not exceed 7.0 amps. Battery(sealed lead acid only)—J12: Special Application Resettable or Nonresettable Power - • Maximum Charging Circuit - Normal Flat Charge: 27.6 TB9 VDC © 1.4 amp.Supervised, nonpower-limited. • Operating Voltage: Nominal 24 VDC. • Maximum Charger Capacity: 26 Amp Hour battery (two • Maximum Available Current: 500 mA(see note 1). 18 Amp Hour batteries can be housed in the FACP cabinet. Larger batteries require separate battery box such as the • Power-limited Circuitry. BB-26 or BB-55). • Jumper selectable by JP31 for resettable or nonresettable • Minimum Battery Size:7 Amp Hour. power. Refer to the Fire•Lite Device Compatibility Document for com- patible listed devices. Page 2 of 4—DF-60238:C1 •6/14/2011 Product Line Information MRP-2002: Six-zone, 24 volt Agent Release Control Panel (includes backbox, power supply, technical manual, and a frame & post operating instruction sheet) for single and dual hazard agent releasing applications. MRP-2002E: Same as above but allows connection to 220/ 240 VAC. CAC-5X: Class A Converter Module can be used to convert the Style B (Class B) Initiating Device Circuits to Style D (Class A) and Style Y (Class B) Output Circuits to Style Z (Class A). NOTE: Two Class A Converter modules are required to convert all four Output Circuits and six Initiating Device Circuits. 4XTMF: Transmitter Module provides a supervised output for local energy municipal box transmitter and alarm and trouble reverse polarity. It includes a disable switch and disable trouble LED. ANN-80(-W): LCD Annunciator is a remote LCD annunciator that mimics the information displayed on the FACP LCD dis- play. Recommended wire type is un-shielded. (Basic model is red;order-W version for white;see DF-52417.) ANN-LED: Annunciator Module provides three LEDs for each zone: Alarm, Trouble and Supervisory. Ships with red enclo- sure(see DF-60241.) ANN-RLED: Provides alarm (red) indicators for up to 30 input zones or addressable points. (See DF-60241). ANN-RLY (16911): Relay Module, which can be mounted inside the cabinet, provides 10 programmable Form-C relays. (See DF-52431). ANN-S/PG:Serial/Parallel Printer Gateway module provides a connection for a serial or parallel printer. (See DF-52429). • ANN-I/O: LED Driver Module provides connections to a user supplied graphic annunciator. (See DF-52430). ANN-SEC: Optional card for a secondary ANN-BUS. See 53944. DP-51050: Dress panel (red) is available as an option. The dress panel restricts access to the system wiring while allow- ing access to the membrane switch panel. TR-CE: Trim-ring (red) is available as an option. The trim-ring allows semi-flushing mounting of the cabinet. BB-26: Battery box, holds up to two 26 Amp Hour batteries and CHG-75. BB-55: Battery box, houses two 55 Amp Hour batteries. SEISKIT COMMENC: Seismic mounting kit; required for seis- mic-certified installations. BAT Series Batteries: Refer to DF-52397. PRN-6F: UL-listed compatible event printer. Dot-matrix, trac- tor-fed paper, 120 VAC. PRT-PK-CABLE: Programming cable. Used to update the FACP's flash firmware. (Also requires an RS485 to RS232 converter). DF-60238:C1•6/14/2011—Page 3 of 4 SYSTEM SPECIFICATIONS System Capacity ture ranges and humidity. Therefore, it is recommended that this system and its peripherals be installed in an environment • Annunciators 8 with a normal room temperature of 15—27°C/60—80°F. Electrical Specifications NFPA Standards • MRP-2002(FLPS-7 Power Supply): 120 VAC, 60 Hz, 3.66 The MRP-2002(E) complies with the following NFPA 72 Fire amps Alarm Systems requirements: • MRP-2002E (FLPS-7 Power Supply): 240 VAC, 50 Hz, 2.085 amps —NFPA 12 CO2 Extinguishing Systems (High Pressure Only) • Wire size: minimum 14 AWG (2.0 mm2)with 600 V insula- —NFPA 12A Halon 1301 Extinguishing Systems tion,supervised, nonpower-limited —NFPA 12B Halon 1211 Extinguishing Systems Cabinet Specifications -NFPA 72 National Fire Alarm Code for Local Fire Alarm Systems and Remote Station Fire Alarm Systems Door: 19.26" (48.92 cm.) high x 16.82" (42.73 cm.) wide x (requires an optional Remote Station Output Module) 0.72" (1.82 cm.) deep. Backbox: 19.00" (48.26 cm.) high x —NFPA 2001 Clean Agent Fire Extinguishing Systems 16.65" (42.29 cm.) wide x 5.25" (13.34 cm.) deep. Trim Ring (TR-CE):22.00"(55.88 cm.)high x 19.65" (49.91 cm.)wide. Agency Listings and Approvals Shipping Specifications The listings and approvals below apply to the basic MRP- Dimensions: 2002(E) control panels. In some cases, certain modules may not be listed by certain approval agencies, or listing may be in —Height 20.00" (50.80cm) process.Consult factory for latest listing status. —Width 22.50" (57.15cm) • UL: S624 —Depth 8.50"(21.59cm) • FM approved Temperature and Humidity Ranges • MEACSF333-07-E 5:0216 • MEA:333-07-E This system meets NFPA requirements for operation at 0 — • Seismic Listing:Reference certificiate of compliance 49°C/32 — 120°F and at a relative humidity 93% ± 2% RH VMA-45894-01 by the VMC Group (noncondensing) at 32°C ± 2°C (90°F ± 3°F). However, the NOTE:For ULC-listed model,see DF-60443. • useful life of the system's standby batteries and the electronic components may be adversely affected by extreme tempera- FireLite® Alarms® and System Sensor® are registered trademarks of Honeywell International Inc. ©2011 by Honeywell International Inc.All rights reserved.Unauthorized use ISO ' 01 This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. C E R T f=1 E O We cannot cover all specific applications or anticipate all requirements. ME= IAMIUSIMM All specifications are subject to change without notice. QUALITY SYSTEMS Made in the U.S.A. For more information,contact Fire•Lite Alarms.Phone:(800)627-3473,FAX:(877)699-4105. www.firelite.com Page 4 of 4—DF-60238:C1 •6/14/2011 • ! 5ENSOR ® ,11111F t .:or 1 R Indoor Selectable it - Output Horns, Strobes, and ,, f x. . Horn Strobes for ',.:-s-, g Wall A lications E pp it SpectrAlert Advance audible visible notification products SPECTRi 1ert are rich with features guaranteed to cut installation times (L. o v Aa ,u c IQ and maximize profits. Features The SpectrAlert Advance series offers the most versatile and • Plug-in design with minimal intrusion into the back box easy-to-use line of horns,strobes,and horn strobes in the industry. • With white and red plastic housings,wall and ceiling mounting • Tamper-resistant construction options,and plain and FIRE-printed devices,SpectrAlert Advance • Automatic selection of 12-or 24-volt operation at can meet virtually any application requirement. 15 and 15/75 candela • Field selectable candela settings on wall units: 15, 15/75, Like the entire SpectrAlert Advance product line,wall-mount horns, 30,75,95, 110, 115, 135, 150, 177,and 185 strobes,and horn strobes include a variety of features that increase their application versatility while simplifying installation.All devices • Horn rated at 88+dBA at 16 volts feature plug-in designs with minimal intrusion into the back box, • Rotary switch for horn tone and three volume selections making installations fast and foolproof while virtually eliminating • Universal mounting plate for wall units costly and time-consuming ground faults. • Mounting plate shorting spring checks wiring continuity before To further simplify installation and protect devices from construction device installation damage,SpectrAlert Advance utilizes a universal mounting plate • Electrically Compatible with legacy SpectrAlert devices with an onboard shorting spring,so installers can test wiring • Compatible with MDL3 sync module continuity before the device is installed. • Listed for ceiling or wall mounting Installers can also easily adapt devices to a suit a wide range of application requirements using field-selectable candela settings, automatic selection of 12-or 24-volt operation,and a rotary switch for horn tones with three volume selections. Agency Listings SIGNALING itiiii • (20 ® MEA 7125- 3: (ndoosres LISTED APPROVED approved 7125-1651653:188(106 ihorn sr rotbesob,) S4011(chimes,horn strobes,horns) 3023572 MEA452-05-E chime strobes) S5512(strobes) 7135-1653:189(horns,chimes) SpectrAlert Advance Specifications Architect/Engineer Specifications General SpectrAlert Advance horns,strobes,and horn strobes shall mount to a standard 4 x 4 x 11/2-inch back box,4-inch octagon back box,or double-gang back box.Two-wire products shall also mount to a single-gang 2 x 4 x 17/8-inch back box.A universal mounting plate shall be used for mounting ceiling and wall products.The notification appliance circuit wiring shall terminate at the universal mounting plate. Also,SpectrAlert Advance products,when used with the Sync•Circuif°Module accessory,shall be powered from a non-coded notification appliance circuit output and shall operate on a nominal 12 or 24 volts.When used with the Sync•Circuit Module, 12-volt-rated notification appliance circuit outputs shall operate between 8.5 and 17.5 volts;24-volt-rated notification appliance circuit outputs shall operate between 16.5 and 33 volts.Indoor SpectrAlert Advance products shall operate between 32 and 120 degrees Fahrenheit from a regulated DC or full- wave rectified unfiltered power supply.Strobes and horn strobes shall have field-selectable candela settings including 15, 15/75,30,75,95, 110, 115, 135, 150,177,and 185. Strobe The strobe shall be a System Sensor SpectrAlert Advance Model listed to UL 1971 and shall be approved for fire protective service. The strobe shall be wired as a primary-signaling notification appliance and comply with the Americans with Disabilities Act requirements for visible signaling appliances,flashing at 1 Hz over the strobe's entire operating voltage range.The strobe light shall consist of a xenon flash tube and associated lens/reflector system. Horn Strobe Combination The horn strobe shall be a System Sensor SpectrAlert Advance Model listed to UL 1971 and UL 464 and shall be approved for fire protective service.The horn strobe shall be wired as a primary-signaling notification appliance and comply with the Americans with Disabilities Act requirements for visible signaling appliances,flashing at 1 Hz over the strobe's entire operating voltage range.The strobe light shall consist of a xenon flash tube and associated lens/reflector system.The horn shall have three audibility options and an option to switch between a temporal three pattern and a non-temporal(continuous)pattern.These options are set by a multiple position switch.On four-wire products,the strobe shall be powered independently of the sounder.The horn on horn strobe models shall operate on a coded or non-coded power supply. Synchronization Module The module shall be a System Sensor Sync•Circuit model MDL3 listed to UL 464 and shall be approved for fire protective service.The module shall synchronize SpectrAlert strobes at 1 Hz and horns at temporal three.Also,while operating the strobes,the module shall silence the horns on horn strobe models over a single pair of wires.The module shall mount to a 411/16 x 411/16 x 21/8-inch back box.The module shall also control two Style Y(class B)circuits or one Style Z(class A)circuit.The module shall synchronize multiple zones.Daisy chaining two or more . synchronization modules together will synchronize all the zones they control.The module shall not operate on a coded power supply. Physical/Electrical Specifications Standard Operating Temperature 32°F to 120°F(0°C to 49°C) Humidity Range 10 to 93%non-condensing Strobe Flash Rate 1 flash per second Nominal Voltage Regulated 12 DC/FWR or regulated 24 DC/FWR' Operating Voltage Range2 8 to 17.5 V(12 V nominal)or 16 to 33 V(24 V nominal) Operating Voltage Range MDL3 Sync Module 8.5 to 17.5 V(12 V nominal)or 16.5 to 33 V(24 V nominal) Input Terminal Wire Gauge 12 to 18 AWG Wail-Mount Dimensions(including lens) 5.6"L x 4.7"W x 2.5"D(142 mm L x 119 mm W x 64 mm D) Horn Dimensions 5.6"L x 4.7"W x 1.3"D(142 mm L x 119 mm W x 33 mm D) Wall-Mount Trim Ring Dimensions(sold as a 5 pack)(TR-HS) 5 7-1 x 4 R"W x 0 35"D(145 mm l x 129 mm W x gmm D) Notes: 1.Full Wave Rectified(FWR)voltage is a non-regulated,time-varying power source that is used on some power supply and panel outputs. 2.P,S,PC,and SC products will operate at 12 V nominal only for 15 and 15/75 cd. UL Current Draw Data UL Max.Strobe Current Draw(mA RMS) UL Max.Horn Current Draw(mA RMS) . Candela 8-1DC7.5 Volts FWR 16-3DC 3 Volts 8-17.5 Volts 16-33 Volts FWR Sound Pattern dB DC FWR DC FWR Standard 15 123 128 66 71 Temporal High 57 55 69 75 Candela 15/75 142 148 77 81 Temporal Medium 44 49 58 69 Range 30 NA NA 94 96 Temporal Low 38 44 44 48 75 NA NA 158 153 Non-temporal High 57 56 69 75 95 NA NA 181 176 Non-temporal Medium 42 50 60 69 110 NA NA 202 195 Non-temporal Low 41 44 50 50 115 NA NA 210 205 Coded High 57 55 69 75 High 135 NA NA 228 207 Coded Medium 44 51 56 69 Candela 150 NA NA 246 220 Coded Low 40 46 52 50 Range 177 NA NA 281 251 185 NA NA 286 258 UL Max.Current Draw(mA RMS),2-Wire Horn Strobe,Standard Candela Range(15-115 cd) 8-17.5 Volts 16-33 Volts DC Input 15 15!75 15 15/75 30 75 95 110 115 Temporal High 137 147 79 90 107 176 194 212 218 Temporal Medium 132 144 69 80 97 157 182 201 210 Temporal Low 132 143 66 77 93 154 179 198 207 Non-Temporal High 141 152 91 100 116 176 201 221 229 Non-Temporal Medium 133 145 75 85 102 163 187 207 216 Non-Temporal Low 131 144 68 79 96 156 182 201 210 FWR Input Temporal High 136 155 88 97 112 168 190 210 218 Temporal Medium 129 152 78 88 103 160 184 202 206 • Temporal Low 129 151 76 86 101 160 184 194 201 Non-Temporal High 142 161 103 112 126 181 203 221 229 Non Temporal Medium 134 155 85 95 110 166 189 208 216 Non-Temporal Low 132 154 80 90 105 161 184 202 211 UL Max.Current Draw(mA RMS).2-Wire Horn Strobe,High Candela Range(135-185 cd) 16-33 Volts 16-33 Volts DC Input 135 150 177 185 FWR Input 135 150 177 185 Temporal High 245 259 290 297 Temporal High 215 231 258 265 Temporal Medium 235 253 288 297 Temporal Medium 209 224 250 258 Temporal Low 232 251 282 292 Temporal Low 207 221 248 256 Non-Temporal High 255 270 303 309 Non-Temporal High 233 248 275 281 Non-Temporal Medium 242 259 293 299 Non-Temporal Medium 219 232 262 267 Non-Temporal Low 238 254 291 295 Non-Temporal Low 214 229 256 262 Horn Tones and Sound Output Data Horn and Horn Strobe Output(dBA) 8-17.5 16-33 24-Volt Nominal Switch Volts Volts Reverberant Anechoic Position Sound Pattern dB DC FWR DC FWR DC FWR DC FWR 1 Temporal High 78 78 84 84 88 88 99 98 2 Temporal Medium 75 75 80 80 86 86 96 96 3 Temporal Low 71 71 76 76 83 80 94 89 4 Non-Temporal High 82 82 88 88 93 92 100 100 5 Non-Temporal Medium 78 78 85 85 90 90 98 98 6 Non-Temporal Low 73 74 81 81 88 84 96 92 . 71 Coded High 82 82 88 88 93 92 101 101 81 Coded Medium 78 78 85 85 90 90 97 98 91 Coded Low 74 75 81 81 88 85 96 92 tsettings 7,8,and 9 are not available on 2-wire horn strobes. SpectrAlert Advance Dimensions r IIII 4.7" 2.5'=--..C=1=101.11 •PANT 1.00 NW ® ,. 5.6" 11 / 11111.---/mi.— Ili Wall-mount horn strobes SpectrAlert Advance Ordering InformationIII Model Description Model Description Wall Horn Strobes Wall Strobes(cont.) P2R 2-Wire Horn Strobe,Standard cd,Red SRH Strobe,High cd,Red P2R-P 2-Wire Horn Strobe,Standard cd,Red,Plain SRH-P Strobe,High cd,Red,Plain P2R-SP 2-Wire Horn Strobe,Standard cd,Red,"FUEGO" SRH-SP Strobe,High cd,Red,"FUEGO" P2RH 2-Wire Horn Strobe,High cd,Red SW Strobe,Standard cd,White P2RH-P 2-Wire Horn Strobe,High cd,Red,Plain SW-P Strobe,Standard cd,White,Plain P2W 2-Wire Horn Strobe,Standard cd,White SWH Strobe,High cd,White P2W-P 2-Wire Horn Strobe,Standard cd,White,Plain SWH-P Strobe,High cd,White,Plain P2WH 2-Wire Horn Strobe,High cd,White Horns P2WH-P 2-Wire Horn Strobe,High cd,White,Plain HR Horn,Red — -4-Wire Horn Strebe,Standard-cdRed HW- Horn,White P4R-P 4-Wire Horn Strobe,Standard cd,Red,Plain Accessories P4RH 4-Wire Horn Strobe,High cd,Red TR-HS Trim Ring,Wall,Red P4W 4-Wire Horn Strobe,Standard cd,White SBBR Indoor Surface Mount Back Box,Red Wall Strobes SBBW Indoor Surface Mount Back Box,White SR Strobe,Standard cd,Red SR-P Strobe,Standard cd,Red,Plain SR-SP Strobe,Standard cd,Red,"FUEGO" Notes: All-P models have a plain housing(no"FIRE"marking on cover) All-SP models have"FUEGO"marking on cover "Standard cd"refers to strobes that include 15,15/75,30,75,95,110,and 115 candela settings. "High cd"refers to strobes that include 135,150,177,and 185 candela settings. T" SYSTEM 3825 Ohio Avenue•St.Charles, IL 60174 02014 System Sensor. • �� SENSOR Phone:800-SENSOR2•Fax:630-377-6495 Product specifications subject to change without notice.Visit systemsensoccom for current product information,including the latest version of this data sheet. wvvw.systemsensor.com AVDS10201.1/14 *•, ----- SYSTEM• 1 SENSOR® ' Photoelectric :i. Iti Smoke Detectors 5 s� System Sensor i3f'series smoke detectors represent Ill significant advancement in conventional detection. 3 The i3 family is founded on three principles:installation TM ease,intelligence,and instant inspection. Features Installation ease.The i3 line redefines installation ease with its •Plug in detector line,mounting base included plug-in design.This allows an installer to pre-wire bases(included • with heads).The large wire entry port and in-line terminals provide •Large wire entry port ample room for neatly routing the wiring inside the base.The base •In-line terminals with SEMS screws accommodates a variety of back box mounting methods as well as •Mounts to octagonal and single gang back boxes,4-square back direct mounting with drywall anchors.To complete the installation,i3 boxes,or direct to ceiling heads plug into the base with a simple Stop-Drop'N Lock'action. •Stop-Drop'N Lock attachment to base Intelligence.i3 detectors offer a number of intelligent features •Removable detector cover and chamber to simplify testing and maintenance.Drift compensation and •Builtin remote maintenance signaling smoothing algorithms are standard with the i3 line to minimize nuisance alarms.2-wire i3 detectors can generate a remote LED- •Drift compensation and smoothing algorithms indicated maintenance signal when connected to the 2W-MOD2 •Simplified sensitivity measurement loop test/maintenance module or a panel equipped with the i3 •Wide-angle,dual color LED indication protocol.The SENS-RDR,a wireless device,displays the sensitivityof i3 detectors in terms of percent-per-foot obscuration. •Loop testing via EZ Walk feature •Built-in test switch Instant inspection.The i3 series provides wide-angle red and green LED indicators for instant inspection of the detector's condition:normal standby,out-of-sensitivity,alarm,or freeze trouble. When connected to the 2W-MOD2 loop test/maintenance module or a panel with the i3 protocol,the EZ Walk loop test feature is available on 2-wire i3 detectors.This feature verifies the initiating loop wiring by providing LED status indication at each detector. Agency Listings • C411 41:* 1 MEA MSFM eii)uS LISTED APPROVED 1� approved approved „R• 5911 3011446 7272-1653:152 290-01-E 2093 3180932 (j)Smoke Detector Specifications Architectural/Engineering Specifications Smoke detector shall be a System Sensor i3 Series model number listed to Underwriters Laboratories UL 268 for Fire Protection Signaling Systems.The detector shall be a photoelectric type(Model 2W-B,4W-B)or a combination photoelectric/thermal(Model 2WT-B,4WT-B)with thermal sensor rated at 135°F • (57.2°C).The detector shall include a mounting base for mounting to 31/2-inch and 4-inch octagonal,single-gang,and 4-inch square back boxes with a plaster ring,or direct mount to the ceiling using drywall anchors.Wiring connections shall be made by means of SEMS screws.The detector shall allow pre-wiring of the base and the head shall be a plug-in type.The detector shall have a nominal sensitivity of 2.5 percent-per-foot nominal as measured in the UL smoke box.The detector shall be capable of automatically adjusting its sensitivity by means of drift compensation and smoothing algorithms.The detector shall provide dual- color LED indication that blinks to indicate power up,normal standby,out of sensitivity,alarm,and freeze trouble(Model 2WT-B,4WT-B)conditions.When used in conjunction with the 2W-MOD2 module,2-wire models shall include a maintenance signal to indicate the need for maintenance at the alarm control panel and shall provide a loop testing capability to verify the circuit without testing each detector individually. Electrical Specifications Operating Voltage Nominal: 12/24 V non-polarized Minimum: 8.5V Maximum:35 V Maximum Ripple Voltage 30%peak to peak of applied voltage Standby Current 2-wire:50 pA maximum average;4-wire:50 pA maximum average Maximum Alarm Current 2-wire:130 mA limited by control panel;4-wire:20 mA @12 V,23 mA @ 24 V Peak Standby Current 2-wire:100 NA;4-wire:n/a Alarm Contact Ratings 2-wire:n/a;4-wire:0.5 A @ 30 V AC/DC Physical Specifications Dimensions(including base) 5.3 inches(127 mm)diameter;2.0 inches(51 mm)height Weight 6.3 oz(178 g) Operating Temperature Range 2W-B and 4W-B:32°F to 120°F(0°C to 49°C);2WT-B and 4WT-B:32°F to 100°F(0°C to 37.8°C) Operating Humidity Range 0 to 95%RH non-condensing Thermal Sensor 135°F(57.2°C)fixed Freeze Trouble 2WT-B and 4WT-B only:41°F(5°C) Sensitivity 2.5%/ft nominal Input Terminals 14 to 22 AWG Mounting 31/cinch octagonal back box • 4-inch octagonal back box Single-gang back box 4-inch square back box with a plaster ring Direct mount to ceiling LED Modes Power-Up Sequence for LED Indication LED Mode Green LED Red LED Condition Duration Power up Blink every 10 seconds Blink every 10 seconds Initial LED status indication 80 seconds Normal(standby) Blink every 5 seconds off Out of sensitivity off Blink every 5 seconds Freeze trouble off Blink every 10 seconds Alarm off Solid Ordering Information Model Thermal Wiring Alarm Current 2W-B No 2-wire 130 mA max.limited by control panel 2WT-B Yes 2-wire 130 mA max.limited by control panel 4W-B No 4-wire 20 mA @ 12 V,23 mA @ 24 V 4WT-B Yes 4-wire 20mA@12V,23mA@24V Accessories 2W-MOD2 2-wire loop test/maintenance module RT Removal/replacement tool SENS-RDR Sensitivity reader A77-AB2 Retrofit adapter bracket,6.6 inch(16.76 cm)diameter *--Th SYSTEM02009 System Sensor • 3825 Ohio Avenue•St.Charles,IL 60174 Productspecficationssub;ecttochangewithoutnotice.visitsystemsensorcomfor SENSOR' Phone:800-SENSOR2•Fax:630-377-6495 current product information,including the West version ofthis data sheet A05-0318-007.6/09.#2169 DF-52353:a•F-250 BG-1 2LR and BG-12LRA FIre.uTeAlaarms Dual-Action Agent Release Stations • by Honeywell Releasing Panels General The BG-12LR and BG-12LRA are Agent Release Stations designed for use with Fire-lite Fire Alarm Control Panels with AGENT releasing capabilities and RP Series Releasing Systems. RELEASE Features • Non-coded,dual-action operation. • Made with durable polycarbonate. I• Optional surface backbox. PUSH IN PULL DOWN BG-12LRA INCLUDES: • Abort switch. • Power-on indication. • Released indication. • Manual release(dual-action). BG-12LR INCLUDES: ® �� Ftre•ure•At+erms • Dual-action release only. Applications Dual Action BG-12LR The BG-12LRA and BG-12LR are ideal for areas such as clean rooms and computer rooms where a chemical agent is used to extinguish a fire. SYSTEM SYSTEM . Product Line Information NORMAL ACTIVATED BG-12LRA: Agent release station with abort switch, Release LED,Normal LED. 0 � 0 BG-12LR: Dual-action agent release station. SBA-10: Surface backbox for BG-12LRA, metal. Dimensions TO ABORT - HOLD IN 4.5"(11.43 cm)W x 8.188"(20.8 cm) L x 1.375"(3.49 cm) D. SB-10: Surface backbox for BG-12LR, metal. Dimensions 4.125"(10.48 cm)W x 5.5"(13.97 cm)Lx 1.375"(3.49 cm)D. AGENT SB-I/O:Surface backbox for BG-12LR,plastic. BG12TR:Optional trim ring for semi-flush mounting. RELEASE Agency Listings and Approvals (SACT/VATEO+) In some cases, certain modules may not be listed by certain approval agencies, or listing may be in progress. Consult fac- tory for latest listing status. UUULC Listed:S711 PUSH I N +PULL DOWNj MEA Listed:67-20-E FM Approved CSFM:7150-0075:184 • Flre•LI'rEYAt.arrrlS;, �' • G • I I Dual Action BG-12LRA(shown activated) DF-52353:a•08/4/10—Page 1 of 2 Wiring A (+) N.C. 24 VDC System N.O. B Normal LED °4.51 System (Green) Release Relay Operated LED (Red) 10K 1/4W 10K C 1/4W (—) N.O. Abort Switch To 4 `O -• 0 Abort 10K,1/4W Circuit E Resistors fir' (+) 2 To Manual 1 Release (—) I Ir Circuit 4 10K,1/4W Resistors Mount End-of-Line Resistor on the last unit. Mount 4.7K ELR on the last unit when abort switch and manual release switch are connected to control panel circuits.Mount 47K resis- tor on last unit when abort switch and manual release switch are connected to monitor module or control module.Refer to control panel manual for the listed ELR.Refer to the product installation documentation for connection to the control panel BC A • D (9 E D E OO 2 ".3 4 111.9 0 0 Fire•Lite®Alarms is a registered trademark of Honeywell International Inc. Bayblend®is a registered trademark of Bayer Corp. 02010 by Honeywell International Inc.All rights reserved.Unauthorized use BG-12LRA(Rear view)Agent Release Pull Station of this document is strictly prohibited. 'SO 9001 This document is not intended to be used for installation purposes. : :� We try to keep our product information up-to-date and accurate. • • .� E rt r i F I E o We cannot cover all specific applications or anticipate all requirements. Hili i MAI1MilMMIM All specifications are subject to change without notice. IIAt1TY SYSTEMS Made in the U.S.A. For more information,contact Fire•Lite Alarms.Phone:(800)627-3473,FAX:(877)699-4105. www.firelite.com Page 2 of 2—DF-52353:a•08/4/10