Download - IST Formatted Report - img1.wsimg.com

Area(s) Tested:

Email:1‐306‐531‐5512 [email protected]

Brett Roach

ITC Name(s): ITC Signature(s):

Non‐Combustible

NBC 2015 Occupancy Class EOccupancy Classification(s):

Construction Type:

Strip Mall Sample Project

123 Sample Street

Regina, SK.

Mechanical and Electrical service rooms

Both the building and the life safety systems are new. The fire alarm system is a single‐

Contact Number:

Company:

Address:

stage addressable Notifier NFS‐320C panel. Life saftey integrations include: Fire monitoring,

A wet sprinkler system and combination fire/smoke dampers.

BR Design Ltd.

Regina, Sk S4S 4H5

Plan Introduction:

Integrated Testing Coordinator Information

CAN/ULC‐S1001 Life Safety

Systems Integrated Testing Plan

Number of Storeys Above & Below Grade:

Project Name:

Site Address:

Project Summary

Single storey strip mall

SAMPLE R

EPORT

Project Contacts and Responsibilities

Mechanical Engineer

Electrical Contractor

Mechanical Contractor

Elevator Contractor

Fire Alarm Contractor

Fire Protection Engineer

General Contractor

Role

Owner

Owner's Representative

Architect

Structural Engineer

Name of Respresentative

Sprinkler Contractor

City Building Department

Fire Department

Electrical Authority

Elevator Authority

Electrical Engineer

Contact Information Responsibilities

SAMPLE R

EPORT

Fire Alarm System Overview

System Description: The Fire Alarm system consists of an addressable Notifier NFS‐320C FACP, a single Class A

integrated systems. Which include:

A Fire Monitoring system

A Sprinkler system and,

Combination fire/smoke dampers

initiating loop, four Class B notification circuits and an outdoor rated annunciator. In addition, there are several

The Fire Alarm system has been programmed by an authorized Notifier technician and verified in accordance with

CAN/ULC‐S537‐13.

*For additional information, reference the Fire Alarm verification report supplied by the verifying contractor.*

ITC = Integrated Testing Coordinator

IST = Integrated Systems Testing

Sprinkler System ‐ Comprised of a single wet system

FACP = Fire Alarm Control Panel

the closure relay upon activation of the associated Fire Alarm duct detector.

System Integration & Functional Objectives:

3‐ All Fire Alarm system alarm shall be reported to the Central Station.

4‐ A signal bypass shall report a Fire Alarm system trouble to the Central Station if applicable.

Combination Fire/Smoke Dampers

1‐ Dampers shall close to stop the spread of smoke from one fire zone to another by means of the FACP activating

1‐ All tamper switches shall report a supervisory signal to the Fire Alarm system.

2‐ All waterflow devices shall report an alarm signal to the Fire Alarm system.

S561 Fire Monitoring System

1‐ All Fire Alarm system troubles shall be reported to the Central Station.

2‐ All Fire Alarm system supervisories shall be reported to the Central Station.

SAMPLE R

EPORT

Sprinkler System Overview

System Description: The sprinkler system is a single wet‐system split into two shotgun style risers in order to

separate the building into two zones, East and West. The system consist of a backflow double check valve and

two sets of 2 1/2" butterfly style shutoff valves and paddle type flow switches.

*For additional information, reference the Fire Alarm and Sprinkler verification reports supplied by installing

contractors.*

System Integration & Functional Objectives: Please reference the Sprinkler system matrix for details on each system

connection. The functional objectives will be as follows:

1‐ Confirm that all tamper valves report a supervisory to the Fire Alarm system.

2‐ Confirm that all waterflow switches report a fire alarm to the Fire Alarm system.

SAMPLE R

EPORT

Testing Protocols / Procedures ‐ Fire Alarm/Sprinkler System

Test Type #1 Testing Procedure

#1 Normal/Standby State

1‐ Review flow switch installation.

2‐ Confirm that no fire/off‐normal conditions exist on fire alarm control panel.

Normal/Standby State

Fire/Off‐Normal State#1

1‐ Review tamper valve installation.


#2 Fire/Off‐Normal State

1‐ Operate the valve being tested two full turns or within 10% of closing on a stem type valve.

2‐ Confirm supervisory description matches descrption for activated tamper switch.

3‐ Fully reopen tamper valve and reset fire alarm panel to return system to the normal condition.

#2

1‐ Flow water through inspectors test connection of the sprinkler system assoicated with the flow switch being

tested.

2‐ Record time delay between opening of inspectors test and when the waterflow event is received on the fire

alarm control panel.

3‐ Close inspectors test connection upon activation of fire alarm control panel.

4‐ Confirm alarm description matches descrption for activated flow switch.

5‐ Reset flow switch and fire alarm panel to return system to the normal condition.

SAMPLE R

EPORT

Integration Matrix ‐ Fire Alarm/Sprinkler System ‐ Waterflow Devices

System A System B Integration Type Normal/Standby State Fire/Off‐Normal State

Fire AlarmSprinkler System ‐ East Zone

Waterflow

Fire AlarmSprinkler System ‐ West Zone

Waterflow

Test #1 ‐ Type #1

Waterflow

Condition

1‐ No water flowing through sprinkler

system.

2‐ No waterflow condition on fire alarm

control panel.

1‐ Alarm condition on fire alarm control panel.

Test #2 ‐ Type #1

Waterflow

Condition

1‐ No water flowing through sprinkler

system.

2‐ No waterflow condition on fire alarm

control panel.


SAMPLE R

EPORT

Integration Matrix ‐ Fire Alarm/Sprinkler System ‐ Tamper Switches


Fire AlarmSprinkler System ‐ West Zone

Valve

Test #6 ‐ Type #2

Tamper Valve

Condition

1‐ Valve in the open position.

2‐ No supervisory condition on the fire alarm

control panel.

1‐ Supervisory condition on fire alarm control

panel.

Sprinkler System ‐ Backflow

Valve #1Fire Alarm

Fire Alarm



control panel.


panel.

Test #3 ‐ Type #2

Tamper Valve

Condition



control panel.


panel.

Test #4 ‐ Type #2

Tamper Valve

Condition



control panel.


panel.

Test #5 ‐ Type #2

Tamper Valve

Condition

Sprinkler System ‐ Backflow

Valve #2

Fire AlarmSprinkler System ‐ East Zone

Valve

SAMPLE R

EPORT

Integration Test Check List ‐ Fire Alarm/Sprinkler System

Test # System Integration Notes Initials

Y ‐ Pass or N ‐ Fail

Y ‐ Pass or N ‐ Fail Time Delay:xx


Y ‐ Pass or N ‐ Fail Time Delay:xx









General Testing Notes:

3 Tamper SwitchNormal State:

Fire State:

4 Tamper Switch

Record of Test

1 WaterflowNormal State:

Fire State:

2 WaterflowNormal State:

Fire State:

Normal State:

Fire State:


Fire State:


Fire State:

*Reference Protocols and Procedures for testing instruction and method.

SAMPLE R

EPORT

Fire Monitoring System Overview

System Integration & Functional Objectives: Please reference the Fire Monitoring matrix for details on each system

connection. The functionl objectives will be as follows:

1‐ All Fire Alarm system troubles shall be reported to the Central Station.

2‐ All Fire Alarm system supervisories shall be reported to the Central Station.

3‐ All Fire Alarm system alarm shall be reported to the Central Station.

4‐ A signal bypass shall report a Fire Alarm system trouble to the Central Station if applicable.

System Description: The Fire Monitoring system is a DSC NEO HS2032 control panel. Communication method has

been configured as Passive and consists of an fiberoptic phone line and a LTE cellular communicator.

Installing contractor has provided a copy of the ULC certificate to confirm installation, programming and verification

are in compliance with CAN/ULC‐S561‐13.

*For additional information, reference the Fire Monitoring verification reports supplied by installing contractor.*

SAMPLE R

EPORT

Testing Protocols / Procedures ‐ Fire Alarm/Fire Signal Receiving Centre

Test Type #

#1

#1

Fire/Off‐Normal State

1‐ Activate an supervisory initiating device.

2‐ Confirm device description on fire alarm panel matches location of activated device.

3‐ Confirm supervisory signal was received by central station.

4‐ Reset initiating device and fire alarm panel to return system to the normal condition.


1‐ Review connections to fire alarm control panel.


#2

Testing Procedure

1‐ Review fire signal transmitter unit installation.



1‐ Activate an alarm initiating device.

2‐ Confirm device description on fire alarm panel matches location of activated device.

3‐ Confirm alarm signal was received by central station.

4‐ Reset initiating device and fire alarm panel to return system to the normal condition.


Fire/Off‐Normal State


1‐ Activate central station bypass switch.

2‐ Confirm fire alarm control panel displays a trouble condition while bypass is active.

3‐ Confirm trouble signal was received by central station.

4‐ Disengage the bypass switch to return system to the normal condition.




#2




1‐ Cause a fire alarm control panel system trouble.

2‐ Confirm trouble signal was received by central station.

4‐ Restore trouble to return system to the normal condition.

SAMPLE R

EPORT

Integration Matrix ‐ Fire Alarm/Fire Signal Receiving Centre


1‐ Central station bypass active.

2‐ Trouble condition on fire alarm control panel.

3‐ Trouble signal transmitted to and received by

the central station.

1‐ Central station bypass not active.

2‐ No signal at fire signal receiving centre.Test #4 ‐ Type #4

Connection

Integrity

Fire Signal Receiving CentreFire AlarmTest #3 ‐ Type #3

Trouble

Condition

1‐ No trouble condition on the fire alarm

panel.

2‐ No signal at central station.

1‐ Trouble condition on fire alarm control panel.

2‐ Trouble signal transmitted to and received by



panel.



panel.

2‐ Supervisory signal transmitted to and received

by the central station.

Test #2 ‐ Type #2

Supervisory

Condition


2‐ Alarm signal transmitted to and received by


1‐ No alarm condition on the fire alarm

panel.


Test #1 ‐ Type #1

Alarm

Condition

SAMPLE R

EPORT

Integration Test Check List ‐ Fire Alarm/Fire Monitoring System








Y ‐ Pass or N ‐ FailY ‐ Pass or N ‐ Fail

3 Trouble ConditionNormal State:

Fire State:

4 Connection IntegrityNormal State:

Fire State:



2 Supervisory ConditionNormal State:

Fire State:

Record of Test

1 Alarm ConditionNormal State:

Fire State:

SAMPLE R

EPORT

Combination Fire/Smoke Dampers Overview

System Integration & Functional Objectives: Please reference the Damper matrix for details on each system

connection. The functionl objectives will be as follows:

1‐ Upon activation of the associated duct detector, the fire alarm shall close the damper.

System Description: The building is equipped with a common HRV exhaust system for the center public washrooms and

and service rooms areas. There are three combination fire/smoke dampers to prevent the spread of smoke from

one room to the next. Two of the dampers are in the mechanical room and the other is in the electrical room.

Each damper is equipped with a duct detector and relay module to detect the presesence of smoke and close the

damper.

*For additional information, reference the Fire Alarm verification reports and mechanical drawings as supplied by

the installing contractor.*

SAMPLE R

EPORT

Testing Protocols / Procedures ‐ Combination Fire/Smoke Dampers

Test Type #

1‐ Manually activate the dampers associated duct detector.

2‐ Confirm that the damper closes.

2‐ Confirm device description on fire alarm matches location of activated device.

3‐ Reset fire alarm control panel to return system to the normal condition.

4‐ Confirm damper reopens once the system has been reset.

Fire/Off‐Normal State#1

Testing Procedure


1‐ Review the damper and fire alarm device installations and confirm wiring.


SAMPLE R

EPORT

Integration Matrix ‐ Combination Fire/Smoke Dampers


Fire AlarmCombination Fire/Smoke

Dampers

Test #1 ‐ Type #1

Damper Closure

1‐ Duct detector in the inactive state.

2‐ No alarm condition on fire alarm control

panel.

3‐ Damper in the open position.


2‐ Damper in the closed position.

SAMPLE R

EPORT

Integration Test Check List ‐ Combination Fire/Smoke Dampers


Y ‐ Pass or N ‐ FailY ‐ Pass or N ‐ Fail



Record of Test

1 Damper ClosureNormal State:

Fire State:

SAMPLE R

EPORT

On‐site Integrated Testing Log of Participants and Record of Completion

Test performed on:

Integrated Systems Coordinator

Electrical Authority

Elevator Authority

City Building Department

Fire Department

Fire Alarm Contractor

Sprinkler Contractor

Mechanical Contractor

Elevator Contractor

General Contractor

Electrical Contractor

Mechanical Engineer

Fire Protection Engineer

Structural Engineer

Electrical Engineer

Owner's Representative

Architect

Owner

Role Participants Company Participants Name Participants Signature

SAMPLE R

EPORT

Download - IST Formatted Report - img1.wsimg.com

Top Related