Building Life Safety Systems Testing - Firetechs
Building Life Safety Systems TestingInsert LogoHereService Company Information(Address, Telephone, & Contact InformationBuilding Name:Date of Service:Last Service Date:Contact Person:Address:Owner/Strata Number:City:Postal Code:Monitoring/Central Station:Work Order Number:Phone:Fax:Phone:Fax:Phone:Fax:This form is intended to provide the owner or fire inspector with an overview of what fire protection systems exist in the building and which systemswere inspected and tested by a qualified technician. The applicable reports indicated below are attached hereto and comprisepages.The attached reports comply with Canadian Inspection Standards upon which they are based.There is fire protection equipment located at the above referenced address that has not been tested in accordance with theNOProvincial Fire Code. YESEstimated Time To Test Building:Actual Time to Test Building:Building Life Safety & Emergency Systems Tech. #InitialMan HoursMan HoursCommentsFire Alarm System Test ReportSmoke Control System Test ReportUnit Emergency Lighting Test ReportSprinkler Systems Test ReportStandpipe Systems Test ReportFire Pump Test ReportBackflow Prevention Device Test ReportEmergency Generator Set Test ReportFixed Extinguishment System Test ReportFire Extinguishers Test ReportThe information on this form (and in the documents attached here-to) attest to the fact that the equipment listed here-in was tested/inspected in conformancewith applicable codes, bylaws, standards, and the manufacturer’s requirements by a qualified technician. The equipment was left in an operational conditionexcept as noted in the spaces marked “Remarks”. A copy should be maintained on the premises in accordance with NFC 2015 Division C Clause 2.2.1.2.Company NameService ManagerDateOwner or Authorized AgentBuilding Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.net – All Rights Reserved.
Building Fire Alarm/EVAC System TestingDate of Service:Insert LogoHereService Company Information(Address, Telephone, & Contact InformationAnnual InspectionSingle StageAddressableManufacturer:Building Name:Direct ConnectionyesnoNumber of Conventional Zones:Two StageInitiating:ConventionalNotification:Voice Paging:Model Number:ULC Serial Number:Owner/Property Manager/Strata:City:Postal Code:NoSummaryWork Order Number:Special Inspection/AuditContact Person:Address:YesLast Service Date:Monitoring/Central Station:Phone:Email:Phone:Email:Phone:Fax:(FOLLOWS CAN/ULC-S536-13 Appendix “C”, FIRE ALARM SYSTEM ANNUAL TEST & INSPECTION REPORT)The fire alarm system is now fully functional without deficiencies.The fire alarm system has deficienciesremarksnoted. These comments start on page.The entire fire alarm system has been tested in accordance with CAN/ULC-S536-13.The fire alarm system has been tested in accordance with CAN/ULC-S537.The system is tagged/labelled as having been tested in accordance with CAN/ULC-S537.The fire alarm system documentation is on site and includes a description of the system.Sequence of operation confirmed and tested.A copy of this report will be given to:(the owner or owner’s representative for the building).YesNATechnician’s Post Test ChecklistReconnect time limit cutouts?Reconnect ancillary functions?Reconnect ancillary functions (off site connections)?Reconnect signal power?Advise fire department that testing is completed?Advise central monitoring facility that testing is completed?Ensure that the fire alarm system is fully functional?Estimated number of End-of-Line Resistors*:Actual number of End-of-Line Resistors tested:* (Determined by the total number of conventional zones noted above.)CertificationThe information on this form (and in the documents attached here-to) attest to the fact that the equipment listed here-in was tested/inspected in conformancewith applicable codes, bylaws, standards, and the manufacturer’s requirements by a qualified technician. The equipment was left in an operational conditionexcept as noted in the spaces marked “Remarks”. A copy should be maintained on the premises in accordance with NFC 2015 Division C Clause 2.2.1.2.Supervising/Primary Technician NameCertification No.DateSignatureAssisting Technician NameCertification No.DateSignatureBuilding Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.netPage of
BUILDING LIFE SAFETY SYSTEMS – FIRE ALARM SYSTEM INSPECTION AND TESTING (CAN/ULC-S536-13)Date:Building Name:Address:City/Town:“Yes” - Tested correctly“No” - Did not test correctly (NO answers are typically detailed in “Comments/Remarks”)“NA” Not applicableDocumentation (Recommended Additional Items Not Mandated by the Standard)YesNoN/AInstructions for resetting the system and silencing alarm signals.Instructions for silencing the trouble signal and action to be taken when the troublesignal sounds.Description of the function of each operating control and indicator on the fire alarmcontrol unit.Description of the area or fire zone protected by each alarm detection circuit (thismay be in the form of a list or plan drawing).Description of alarm signal operation.Description of ancillary equipment controlled by the fire alarm system.Description of elevator homing functions activated by the fire alarm system.Magnetic door holder release activated by fire alarm system?Fire shutter release activated by fire alarm system?Extinguishing system controlled by fire alarm system?Fire Safety Plan documentation on site?Instructions to Occupants/Evacuation Floor Plans are posted.In systems that provide logical control of a smoke control system, documentation ison site and includes a sequence of operation of the smoke control system.Smoke control installed in accordance with Measure:Building diagrams are on site that clearly indicates the type and location of allsmoke control equipment (fans, dampers, etc.).Additional documentation relating to smoke control measures in the building isappended to this report.The Fire Alarm System Verification Appendix “C” Report has been reviewed.remotely installed amplifiers in this FAS.supervised power supplies in this FAS.remote sequential display units in this FAS.There are a total of:remote annunciators in this FAS.remote trouble units in this FAS.stand-by batteries in this FAS.remote booster/power supplies in this FAS.List all locations where remote booster/power supplies, batteries & amplifiers are installed:Design Company:Address:Telephone:Installation Company:Address:Telephone:Verification Company:Address:Telephone:Building Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.netPage of
BUILDING LIFE SAFETY SYSTEMS – FIRE ALARM SYSTEM INSPECTION AND TESTING (CAN/ULC-S536-13)Date:Building Name:Address:City/Town:C2.1 Control Unit or Transponder TestsControl Unit/Transponder Field Location:Control Unit/Transponder Identification:YesNoN/APower ‘on’ visual indicator operates.Common visual trouble signal operates.Common audible trouble signal operates.Trouble signal silence switch operates.Main Power supply failure trouble signal operates.Ground fault tested on positive and negative initiates trouble signal.Alert signal operates.Alarm signal operates.Automatic transfer from alert signal to alarm signal operates.Time:Manual transfer from alert signal to alarm signal.Automatic transfer from alert to alarm signal cancel (acknowledge) operates on aKtwo stage system.Alarm signal silence inhibit function operates.LAlarm signal manual silence operates.MNAlarm signal silence visual indication operatesAlarm signal and visible signal devices, when silenced, automatically reinitiateOupon subsequent alarm.In same zoneIn other zone/circuitPAlarm signal silence automatic cut-out timer.Time:Audible and visual alert signals and alarm signals programmed and operate perQdesign and specification, or documentation as detailed in Appendix E, Descriptionof Fire Alarm System for Inspection and Test Procedures.Input circuit alarm and supervisory operation, including audible and visualRindication operates.SInput circuit supervision fault causes a trouble indication.TOutput circuit alarm indicators operate.UOutput circuit supervision fault causes a trouble indication.VVisual indicator test (lamp test) operates.Coded signal sequences operate not less than the required number of times andWthe correct alarm signal operates thereafter.XCoded signal sequences are not interrupted by subsequent alarms.YAncillary device by-pass results in trouble signal.Input circuit to output circuit operation, including ancillary device circuits for correctprogram operation, as per design and specification, or documentation as detailedZin Appendix E, Description of Fire Alarm System for Inspection and TestProcedures.AAFire alarm reset function operates.BBMain power to emergency power supply transfer operates.Smoke detector alarm verification (status change confirmation) verified. [Refer toCCSubsection 6.7.4.3, Smoke Detector Alarm Verification (Status ChangeConfirmation)].YesNoN/ARecommended Additional Testing (not mandated by the Standard):Alarm, trouble, & supervisory relays function correctly.Control panel bonded to ground.Is an AC disconnecting switch installed?YESNO(ULC CAN4-S524 restricts this, but some AHJs will accept it. A “YES” answer here must be noted in the “Remarks”section of this report.)ABCDEFGHIJBuilding Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.netPage of
BUILDING LIFE SAFETY SYSTEMS – FIRE ALARM SYSTEM INSPECTION AND TESTING (CAN/ULC-S536-13)Date:Building Name:Address:City/Town:No Voice Communication Equipment is installed in this system.(This Section is Not Applicable)C2.2 Voice Communication TestLocation:Identification:Power ‘on’ visual indicator operates.Common visual trouble signal operates.Common audible trouble signal operates.Trouble signal silence switch operates.All-call voice paging, including visual indicator, operates.Output circuits for selective voice paging, including visual indication,Foperates.Output circuits for selective voice paging trouble operation, includingGvisual indication, operates.Microphone, including press to talk switch, operates.HOperation of voice paging does not interfere with initial inhibit time of alertIsignal and alarm signal.All-call voice paging operates (on emergency power supply).JUpon failure of one amplifier, system automatically transfers to backupKamplifier(s).Circuits for emergency telephone call-in operation, including audible andLvisual indication operates.Circuits for emergency telephones for operation, including two-way voiceMcommunication, operate.Circuits for emergency telephone trouble operation, including visualNindication, operate.OEmergency telephone verbal communication operates.PEmergency telephone operable or in-use tone at handset operates.While in standby mode, voice communication busses used for paging,alert signal, alarm signal, and emergency telephone communicationQcircuits, an open circuit fault, or short circuit fault, or operation of anovercurrent protective device provided for the purpose, shall result in aspecific trouble indication specific to the faulty buss.Recommended Additional Testing (not mandated by the Standard):Visual indicator test (lamp test) operates.Main power to emergency power supply transfer operates.Communication control enclosure bonded to ground.Trouble signal on the voice communication system results in common trouble signalon the fire alarm system.Dead-front panel(s) in place & as per manufacturer’s specification.YesNoN/AYesNoN/AABCDEBuilding Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.netPage of
BUILDING LIFE SAFETY SYSTEMS – FIRE ALARM SYSTEM INSPECTION AND TESTING (CAN/ULC-S536-13)Date:Building Name:Address:City/Town:C2.3 Control Unit or Transponder InspectionControl Unit/Transponder Field Location:Control Unit/Transponder Identification:Input circuit designations correctly identified in relation to connected fieldAdevices.Output circuit designations correctly identified in relation to connected fieldBdevices.CCorrect designations for common control functions and indicators.DPlug-in components and modules securely in place.EPlug-in cables securely in place.Record the date, revision and version of firmware:Date:Revision:Version:FRecord the date, revision and version of the program software:Date:Revision:Version:GControl unit/transponder is clean and free of dust and dirt.HFuses in accordance with the manufacturer’s specification.IControl unit/transponder lock is functional.JTermination points for wiring to field devices secure.Recommended Additional Visual Inspection (not mandated by the Standard):Dead-front panel(s) in place & as per manufacturer’s specification.Field wiring entry points for the various circuits and circuit separations are inaccordance with the manufacturer’s installation instructions.Main power supply feed wiring is in accordance with the manufacturer’sspecifications.Each control unit/transponder has been furnished with installation, operating andmaintenance instructions.YesNoN/AYesNoN/ABuilding Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.netPage of
BUILDING LIFE SAFETY SYSTEMS – FIRE ALARM SYSTEM INSPECTION AND TESTING (CAN/ULC-S536-13)Date:Building Name:Address:City/Town:C2.4 Power Supply InspectionPower Supply Field Location:Power Supply Identification:Circuit Disconnect Means Location:Circuit Panel/Breaker Identification:ABFused in accordance with the manufacturer’s marked rating of the system.Adequate to meet the requirements of the system.Where fault isolation in power distribution riser has been provided, tests have been conducted toensure a wire-to-wire short in the field wiring between each pair of control units or transponders,Cin turn, results in annunciation of the fault and continued operation outside of the shorted sectionconfirmed.Recommended Additional Visual Inspection (not mandated by the Standard):Dead-front panel(s) in place & as per manufacturer’s specification.Ancillary devices, which are powered from the control unit or transponder, are recorded.Power for ancillary devices is taken from a source separate from the fire alarm system control unit ortransponder power supply.Power for ancillary devices is taken from the control unit or transponder that is designed to provide suchpower.Power supply cabinet (where applicable) is clean and free of dust and dirt.C2.5 Emergency Power Supply Test And InspectionEmergency Power Supply Field Location:Emergency Power Supply Identification:Battery Type (as installed):Sealed Lead AcidNi-CadLithium-IonBattery Capacity (as installed):AHBuilding Code Alarm Operation:30 minutes60 minutes120 minutesYesNoN/AYesNoN/ANoN/AWet LeadYesCorrect battery type as recommended by the manufacturer.Correct battery rating as determined by battery calculations based on full system load.Battery voltage (main power “on”):VDCBattery voltage – main power “off” – FAS in supervisory condition:VDCDBattery current - main power “off” – FAS in supervisory condition:mABattery voltage – main power “off” – FAS in full load ALARM:VDCEBattery current – main power “off” – FAS in full load ALARM:AFBattery charging current (main power “on”):mAGInspected for physical damage.HTerminals cleaned and lubricated.ITerminals clamped tightly.JCorrect electrolyte level.KSpecific gravity of the electrolyte is within the battery manufacturer’s specifications.LInspected for electrolyte leakage.MAdequately ventilated.NRecord battery manufacturer’s date code or in-service date:ODisconnection causes trouble signal.Indicate type of test performed on a fully charged battery (select one):(i) Required supervisory load for 24 h followed by the required full load operation;(ii) Silent test using load resistor method for full duration test. (Refer to Appendix F1);P(iii) Silent accelerated test. (Refer to Appendix F2);(iv) A battery capacity meter test. (Refer to Appendix F3); or(v) Replace the batteries with a new set having a current date code/capacity/typeQRecord calculated battery capacity (refer to Appendix D3.1-C).AHRRecord the battery terminal voltage after tests are completed.VDCSConfirm battery voltage is not less than 85% of its rated capacity after tests completed.TGenerator provides power to the AC circuit serving the fire alarm system.Trouble condition at the emergency generator results in an audible common trouble signal and aUvisual indication at the required annunciator.Recommended Additional Inspection (not mandated by the Standard):Generator running indication is provided at the required annunciator.Low Fuel Level trouble results in an audible trouble signal and a visual indication at the required annunciator?Generator fueled by:DieselNatural GasOther:Fuel Level:% of full capacityEstimated run time:HoursLow Fuel Level Set-point:% of full capacityGallonsLitresABCBuilding Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.netPage of
BUILDING LIFE SAFETY SYSTEMS – FIRE ALARM SYSTEM INSPECTION AND TESTING (CAN/ULC-S536-13)Date:Building Name:Address:City/Town:No Annunciator and Display & Control Centre is installed in this system.(This Section is Not Applicable)C2.6 ANNUNCIATOR AND DISPLAY AND CONTROL CENTRE TEST AND INSPECTIONAnnunciator Location:Annunciator Identification:YesNoN/APower “on” indicator operates.Individual alarm and supervisory input zone clearly indicated and separately designated.Individual alarm and supervisory input zone designation labels are properly identified.Where active and supporting field devices are utilized, device labels correspond withDactual field location.ECommon trouble signal operates.FVisual indicator test (lamp test) operates.Input wiring from control unit or transponder is supervised and of the correct type andGgauge in accordance with the equipment manufacturer’s installation wiring requirements.HAlarm signal silence visual indicator operates.ISwitches for ancillary functions operate as per design and specification.JAncillary functions visual indicators operates.KManual activation of alarm signal and indication operates.LDisplays are visible in the installed location.MOperates on emergency power.Multi-line sequential display operates as per Appendix C5.9 (Annunciators or SequentialNDisplays), where utilized.Recommended Additional Testing (Not Mandated in the Standard) – FOR OUTDOOR INSTALLATIONSRating of Enclosure:CAT 3CAT 3RCAT 4Other:Interior free of dirt or evidence of moisture (no corrosion)?Is the installed heater compatible with the enclosure?24VDC24VAC120VACIs voltage present at theheaterthermostat terminals?Disconnect means on a separate circuit? Panel and Circuit Number:Heater power supervised by the fire alarm control panel?Low voltage transformer of the correct size and rating as per the manufacturer’s instructions?ABCNo Annunciator or Sequential Display is installed in this system.(This Section is Not Applicable)C2.7 ANNUNCIATORS OR SEQUENTIAL DISPLAYSAnnunciator/Sequential Display Location:Annunciator/Sequential Display Identification:YesNoN/APower “on” indicator operates.Individual alarm and supervisory zone indication operates.Exception: Operation of each individual alarm and supervisory zone indication gives theidentical indication, or lights the identical indicators at the other annunciator(s) andsequential display(s).BSpecify method of confirmation:Minimum of one alarm zone and one supervisory zone tested per annunciator orsequential display to confirm operation.CIndividual alarm and supervisory input zone designation labels are properly identified.Where active and supporting field devices are utilized, device labels correspond withDactual field location.ECommon trouble signal operates.FVisual indicator test (lamp test) operates.Input wiring from control unit or transponder is supervised and of the correct type andGgauge in accordance with the equipment manufacturer’s installation wiring requirements.HAlarm signal silence visual indicator operates.ISwitches for ancillary functions operate as per design and specification.JAncillary functions visual indicators operates.KManual activation of alarm signal and indication operates.LDisplays are visible in the installed location.Recommended Additional Testing (Not Mandated in the Standard) – FOR OUTDOOR INSTALLATIONSRating of Enclosure:CAT 3CAT 3RCAT 4Other:Interior free of dirt or evidence of moisture (no corrosion)?Is the installed heater compatible with the enclosure?24VDC24VAC120VACIs voltage present at theheaterthermostat terminals?Disconnect means on a separate circuit? Panel and Circuit Number:Heater power supervised by the fire alarm control panel?Low voltage transformer of the correct size and rating as per the manufacturer’s instructions?ABuilding Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.netPage of
BUILDING LIFE SAFETY SYSTEMS – FIRE ALARM SYSTEM INSPECTION AND TESTING (CAN/ULC-S536-13)Date:Building Name:Address:City/Town:No Remote Trouble Signal Unit is installed in this system.(This Section is Not Applicable)C2.8 Remote Trouble Signal Unit Test And InspectionRemote trouble signal unit location:Remote trouble signal unit identification:ABCYesInput wiring from control unit or transponder is supervised.Visual trouble signal operates.Audible trouble signal operates.No Printers are installed in this system.NoN/ANoN/A(This Section is Not Applicable)C2.9 Printer TestPrinter Location:Printer Identification:ABCOperates as per design and specification, or in accordance with documentationprovided in Appendix E.Zone of each alarm initiating device is correctly printed.Rated voltage is present.YesBuilding Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.netPage of
BUILDING LIFE SAFETY SYSTEMS – FIRE ALARM SYSTEM INSPECTION AND TESTING (CAN/ULC-S536-13)Date:Building Name:Address:City/Town:No Data Communication Link is part of this system.(This Section is Not Applicable)C2.10 Operation Test for Data Communication LinkControl Unit/Transponder Field Location:Control Unit/Transponder Identification:DCL Identification:ABCConfirm that a trouble signal is received at the control unit or transponder underan open loop fault.Where fault isolation modules are installed in data communication links servingfield devices, wiring shorted on the isolated side, annunciation of the faultconfirmed, and then a device on the source side operated, and activationconfirmed at the control unit or transponder.Where fault isolation in data communication links is provided between controlunits or transponders and between transponders, introduce a short circuit faultand confirm annunciation of the fault and operation outside the shorted sectionbetween each pair of:(i)Control unit to control unit(ii)Control unit to transponder(iii)Transponder to transponderControl Unit/Transponder Field Location:Control Unit/Transponder Identification:DCL Identification:ABCConfirm that a trouble signal is received at the control unit or transponder underan open loop fault.Where fault isolation modules are installed in data communication links servingfield devices, wiring shorted on the isolated side, annunciation of the faultconfirmed, and then a device on the source side operated, and activationconfirmed at the control unit or transponder.Where fault isolation in data communication links is provided between controlunits or transponders and between transponders, introduce a short circuit faultand confirm annunciation of the fault and operation outside the shorted sectionbetween each pair of:(i)Control unit to control unit(ii)Control unit to transponder(iii)Transponder to transponderControl Unit/Transponder Field Location:Control Unit/Transponder Identification:DCL Identification:ABCConfirm that a trouble signal is received at the control unit or transponder underan open loop fault.Where fault isolation modules are installed in data communication links servingfield devices, wiring shorted on the isolated side, annunciation of the faultconfirmed, and then a device on the source side operated, and activationconfirmed at the control unit or transponder.Where fault isolation in data communication links is provided between controlunits or transponders and between transponders, introduce a short circuit faultand confirm annunciation of the fault and operation outside the shorted sectionbetween each pair of:(i)Control unit to control unit(ii)Control unit to transponder(iii)Transponder to transponderYesNoN/AYesNoN/AYesNoN/ABuilding Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.netPage of
BUILDING LIFE SAFETY SYSTEMS – FIRE ALARM SYSTEM INSPECTION AND TESTING (CAN/ULC-S536-13)Date:Building Name:Address:City/Town:No Interconnection to a Fire Signal Receiving Centre has been provided.(This Section is Not Applicable)C2.11 Interconnection to the Fire Signal Receiving CentreCommunicator Location:Circuit Disconnect Means Location:Circuit Panel/Breaker Identification:ABCDEFGHIJThe fire signal receiving centre transmitter is integral to the fire alarm control unit.The fire signal receiving centre transmitter is located remotely from the fire alarmcontrol unit.Tested and confirmed operation of alarm relay.Tested and confirmed operation of trouble relay.Tested and confirmed operation of supervisory relay.Confirm that the alarm transmission to the fire signal receiving centre is received.Confirm that the supervisory transmission to the fire signal receiving centre is received.Confirm that the trouble transmission to the fire signal receiving centre is received.Operation of the fire signal receiving centre transmitter bypass means results in aspecific trouble indication at the fire alarm control unit or transponder and transmits atrouble signal to the fire signal receiving centre.Record the name and telephone number of the fire signal receiving centre.Company:Telephone:Address:Additional Inspection & Testing (not mandated by the Standard):The communicator is installed in accordance with CAN/ULC-S561-13.The fire signal receiving centre is ULC Listed.The fire signal receiving centre ULC certification number is:The communicator is being tested in accordance with CAN/ULC-S561-13.Supporting documentation attesting to this is on site and has been reviewed.The ULC “Central Station Fire Protective Signalling Service” Certificate is valid.The ULC “Central Station Fire Protective Signalling Service” Certificate expires on:The last inspection noted on the Certificate occurred on:The communicator has been reset following completion of testing.The communicator has been placed back into service.The communicator is trouble free.YesNoN/AYesNoN/ABuilding Life Safety Equipment & Systems Inspection & Testing (Version 19.01) – Copyright 2019 www.firetechs.netPage of
BUILDING LIFE SAFETY SYSTEMS – FIRE ALARM SYSTEM INSPECTION AND TESTING (CAN/ULC-S536-13)Date:Building Name:Address:City/Town:CAN/ULC-S536-13 Inspection Items (See Note 21)(ULC CAN4-S536-13 Section 6.7) Field Devices TestingEach device is free of damage, foreign substance & mechanically supported independent of wiring?Each device tested while connected to control unit?Manual Pull stations tested?Two stage pull stations tested and functions confirmed?Heat detectors tested to ULC CAN4-S536-13 6.7.3(CAN/ULC-S536-13 Section 6.7.4) Smoke Detector TestingInspected for cleanliness.Sensitivity tested (results are recorded in the Device Test Record).Tested for Operation (results are recorded in the Device Test Record).Status change confirmation inspected and tested.Air duct smoke detectors tested to CAN/ULC-S536-13 6.7.4.4.Beam type smoke detectors inspected and tested.Flame detectors inspected and tested.Combination (multi-criteria) detectors inspected and tested?Automatic Detectors (other types) inspected and tested for:a) Alarm initiationb) Correct orientation so as to detect the anticipated hazardc) Sensitivity tested (results are recorded in the Device Test Record)All tested devices are compatible with the control panel.Exceptions are identified in the Device Test Record.(CAN/ULC-S536-13 Section 6.7.8.1) Water Flow Detection DevicesTested by appropriate water flow means (time delay is recorded in the Device Test Record).(CAN/ULC-S536-13 Section 6.7.8.2) Supervisory DevicesShut-off valves tested and result inTroubleSupervisory signal at the fire alarm panel.Low Pressure supervisory device inspected and tested.Low water supervisory device inspected and tested.Low temperature supervisory device tested.Each power loss (i. e. fire pump and air compressor) supervisory tested.(CAN/ULC-S536-13 Section 6.7.8.3) Other Fixed Type Extinguishing SystemsConfirm operation of output contacts initiates specified functions at the fire alarm system.Is the fire alarm system performing the fixed type extinguishing system functions?Confirm operation of fixed type extinguishing system functions if previous answer is “YES”.All devices connected to the fire alarm system have been individually tested / itemized.(CAN/ULC-S536-13 Section 6.7.8.4) Supervisory Devices (Other Types)Inspected and tested as per manufacturer’s requirements.(CAN/ULC-S536-13 Section 6.7.9) Signaling AppliancesIndividually inspected and tested for operation, proper installation, tightness, tampering/obstruction.Intelligibility (clarity) of voice messages confirmed.Audibility of alert, alarm and voice messages checked.Visual signal appliances individually inspected and tested.Combination appliances individually inspected and tested.In-suite signal isolator modules are identified, individually inspected, and tested.Smoke Alarms (C
Yes No Summary (FOLLOWS CAN/ULC-S536-13 Appendix "C", FIRE ALARM SYSTEM ANNUAL TEST & INSPECTION REPORT) The fire alarm system is now fully functional without deficiencies. The fire alarm system has deficiencies remarks noted. These comments start on page . The entire fire alarm system has been tested in accordance with CAN/ULC-S536-13. The .
Ceco Building Carlisle Gulf States Mesco Building Metal Sales Inc. Morin Corporation M.B.C.I. Nucor Building Star Building U.S.A. Building Varco Pruden Wedgcore Inc. Building A&S Building System Inland Building Steelox Building Summit Building Stran Buildings Pascoe Building Steelite Buil
EN 571-1, Non-destructive testing - Penetrant testing - Part 1: General principles. EN 10204, Metallic products - Types of inspection documents. prEN ISO 3059, Non-destructive testing - Penetrant testing and magnetic particle testing - Viewing conditions. EN ISO 3452-3, Non-destructive testing - Penetrant testing - Part 3: Reference test blocks.
Assessment, Penetration Testing, Vulnerability Assessment, and Which Option is Ideal to Practice? Types of Penetration Testing: Types of Pen Testing, Black Box Penetration Testing. White Box Penetration Testing, Grey Box Penetration Testing, Areas of Penetration Testing. Penetration Testing Tools, Limitations of Penetration Testing, Conclusion.
HOW A POERFUL E-COMMERCE TESTING STRATEGY 7 HITEPAPER 4.3 Obtaining Strong Non-Functional Testing Parameters Retailers also need to focus on end-user testing and compatibility testing along with other non-functional testing methods. Performance testing, security testing, and multi-load testing are some vital parameters that need to be checked.
BUILDING CODE Structure B1 BUILDING CODE B1 BUILDING CODE Durability B2 BUILDING CODE Access routes D1 BUILDING CODE External moisture E2 BUILDING CODE Hazardous building F2 materials BUILDING CODE Safety from F4 falling Contents 1.0 Scope and Definitions 3 2.0 Guidance and the Building Code 6 3.0 Design Criteria 8 4.0 Materials 32 – Glass 32 .
7.1 Testing machines for quasi-static applications 24 7.2 Dynamic testing machines 26 7.3 System for testing at temperature and high temperatures 28 7.4 Testing machines for multi-axial stress states 29 7.5 Special testing systems and instruments 30 7.6. testXpert III testing software 32 7.7 Measurement and control electronics 34
methods, i.e. liquid penetrant testing, magnetic particle testing, eddy current testing, radiographic testing and ultrasonic testing, and the second and revised is IAEA-TECDOC-628 which includes additional methods of visual testing and leak testing.
Execution-based Testing Generating and Executing Test Cases on the Software Types of Execution-based Testing – Testing to Specifications Black-box Testing – Testing to Code Glass-box (White-box) Testing Black-box Testing
