01 EST3 Operation Manual
01 EST3 Operation Manual
01 EST3 Operation Manual
DEVELOPED BY
Edwards Systems Technology 6411 Parkland Drive Sarasota, FL 34243 (941) 7394300 Copyright 19962004. All rights reserved. This manual and the products it describes are copyrighted by Edwards Systems Technology, Inc. (EST). You may not reproduce, translate, transcribe, or transmit any part of this manual without express, written permission from EST. This manual contains proprietary information intended for distribution to authorized persons or companies for the sole purpose of conducting business with EST. If you distribute any information contained in this manual to unauthorized persons, you have violated all distributor agreements and we may take legal action.
COPYRIGHT NOTICE
TRADEMARKS CREDITS
Microsoft, Microsoft Mouse, and Windows are all trademarks of Microsoft Corporation. This manual was designed and written by the EST Technical Services - Documentation Department, Sarasota.
DOCUMENT HISTORY Revision 1.0 1.5 2.0 3.0 4.0 5.0 6.0 Date 17JULY96 02APR97 14DEC98 21OCT99 31AUG01 29OCT01 02AUG04 Reason for Change Initial Release Revised: System Addressing; Command Menu Added: Operations Placard Revised: Display examples. Corrected minor typographical errors throughout. Restructured and revised concurrent with 1.5 release. Revised to incorporate security and access control integration. Revised per SDU release 3.1. Revised per SDU release 3.3, 3.4, and 3.5.
Content
About this manual iii The EST3 library iv Important information vi
Chapter 1
Introduction 1.1 Introduction 1.2 Display operation 1.5 Message processing 1.11 Optional features 1.13 Entering logical addresses 1.18 3-LCD and 3-LCDXL operating instructions 2.1 Controls and indicators 2.2 Creating a status report 2.9 Disabling groups 2.10 Enabling groups 2.11 Disabling hardware components 2.12 Enabling hardware components 2.13 Arming security partitions 2.14 Disarming security partitions 2.16 Resetting security partitions 2.17 Bypassing security devices 2.18 Removing bypasses from security devices 2.19 Guard patrol groups 2.20 Check-in groups 2.21 Changing the smoke detector sensitivity level 2.23 Changing event message routing 2.24 Changing the output state of a relay or LED 2.25 Creating reports 2.26 Setting the system time and date 2.29 Changing user access level passwords 2.30 Restarting a panel 2.31 Scheduling holidays 2.32 Clearing the panel history file 2.33 Testing alarm input devices 2.34 Testing security input devices 2.35 Testing Signature devices 2.36 Testing the panel lamps and panel sounder 2.37 3-ASU operating instructions 3.1 Controls and indicators 3.2 Operation the Audio Source Unit 3.4 Optional audio zone controls 3.7 3-FTCU operating instructions 4.1 Controls and indicators 4.2 Operation 4.4
Chapter 2
Chapter 3
Chapter 4
Content
Appendix A
System addresses A.1 Address format A.2 LRM addresses A.4 Control / display module addresses A.8 Device addresses A.10 Operation sequence charts B.1 Index Z.1
Appendix B Z
ii
Content
Organization
The manual contains the following chapters: Chapter 1: Introduction: gives you a general description of system functions and operations. Chapter 2: LCD operating instructions: provides detailed operating instructions for the primary control module, the 3-LCD module. Chapter 3: 3-ASU Audio Source Unit operation: provides detailed operating instructions for the 3-ASU audio source unit. Chapter 4: 3-FTCU operating instructions: provides detailed operating instructions for the 3-FTCU firefighter telephone control unit. Appendix A: System addresses: contains figures that show you how to determine various device addresses. Appendix B: Operation sequence charts: contains tables or charts that show the sequence of events, actions, and displays for the most common panel operations.
iii
Content
Other documents
In addition to documents in the EST3 library, you may find the following documents useful. Signature Series Intelligent Smoke and Heat Detectors Applications Bulletin (P/N 270145): Provides additional applications information on the Signature series smoke and heat detector applications. Signature Series Component Installation Manual (P/N 270497): Contains detailed mounting and wiring information for all Signature series devices.
iv
Content
Speaker Application Guide (P/N 85000-0033): Provides information on the placement and layout of speakers for fire alarm signaling and emergency voice communications. Strobe Applications Guide (P/N 85000-0049): Provides information on the placement and layout of strobes for fire alarm signaling.
Content
Important information
Limitation of liability
This product has been designed to meet the requirements of NFPA Standard 72; Underwriters Laboratories, Inc., Standard 864; and Underwriters Laboratories of Canada, Inc., Standard ULC S527. Installation in accordance with this manual, applicable codes, and the instructions of the Authority Having Jurisdiction is mandatory. EST shall not under any circumstances be liable for any incidental or consequential damages arising from loss of property or other damages or losses owing to the failure of EST products beyond the cost of repair or replacement of any defective products. EST reserves the right to make product improvements and change product specifications at any time. While every precaution has been taken during the preparation of this manual to ensure the accuracy of its contents, EST assumes no responsibility for errors or omissions.
FCC warning
This equipment can generate and radiate radio frequency energy. If this equipment is not installed in accordance with this manual, it may cause interference to radio communications. This equipment has been tested and found to comply within the limits for Class A computing devices pursuant to Subpart B of Part 15 of the FCC Rules. These rules are designed to provide reasonable protection against such interference when this equipment is operated in a commercial environment. Operation of this equipment is likely to cause interference, in which case the user at his own expense, will be required to take whatever measures may be required to correct the interference.
Before installing this equipment, users should ensure that it is permissible to be connected to the facilities of the local telecommunications company. The equipment must also be installed using an acceptable method of connection. The customer should be aware that compliance with the above conditions may not prevent degradation of service in some situations.
vi
Content
Repairs to certified equipment should be made by an authorized Canadian maintenance facility designated by the supplier. Any repairs or alterations made by the user to this equipment, or equipment malfunctions, may give the telecommunications company cause to request the user disconnect the equipment. Users should ensure for their own protection that the electrical ground connections of the power utility, telephone lines, and internal metallic water pipe system, if present, are connected together. This precaution may be particularly important in rural areas.
Caution: Users should not attempt to make such connections
themselves, but should contact the appropriate electric inspection authority, or electrician, as appropriate
Note: The Load Number (LN) assigned to each terminal device denotes the percentage of the total load to be connected to a telephone loop which is used by the device, to prevent overloading. The termination on a loop may consist of any combination of devices subject only to the requirements that the sum of the Load Numbers of all the devices does not exceed 100.
vii
Content
viii
Chapter 1
Introduction
Summary
This chapter provides a general description of system functions and their operation.
Content Introduction 1.2 Password protection 1.2 Feature and function domains 1.4 Display operation 1.5 Normal state 1.5 Off-normal state 1.6 Message details 1.8 Display priorities 1.10 Message processing 1.11 Common event LEDs and queue buttons 1.11 Optional features 1.13 Guard patrol 1.13 Check-in groups 1.14 System timers 1.15 Time controls 1.16 Control/display module buttons 1.16 Entering logical addresses 1.18 Panels 1.18 Local rail modules 1.18 Devices 1.18
1.1
Introduction
Introduction
System operating requirements can be configured based on geographic location and protected premises ownership. In North America, systems can be configured as protected premises (local) systems or as proprietary systems, both in compliance with NFPA 72. In the local mode, there is no requirement to acknowledge each individual event. Each event message can be reviewed using the Previous and Next buttons. System events that automatically restore will automatically be removed from the message queue, without requiring the operator to view a restored message. In the proprietary mode, each event must be individually acknowledged by pressing the respective message acknowledge button. The Previous and Next button functions are not available in the proprietary mode. Operators are required to acknowledge both an event and its restoration to remove it from a message queue.
Note: Alarm and supervisory events do not automatically restore. They remain in their respective message queues until the system is manually reset.
Password protection
Certain front-panel controls and command menu functions are password-protected and have a user access level that is determined by the marketplace setting. The four user access levels are detailed in Table 1-1. Each access level is given a default password that should be changed once the panel is put into service. See Chapter 2: Changing user access level passwords for more information.
Table 1-1: Password privileges Password Level Default No password required Privileges Status Revision level report Output selection Display/printer selection Printer selection Reset function Alarm silence function Drill function
1.2
Introduction
Table 1-1: Password privileges Password Level User access level 1 Privileges All default privileges, plus: Sensitivity reports Guard patrol routes (activate/restore) Check-in groups (activate/restore) All default and User 1 privileges, plus: History reports Devices (enable/disable) Zone groups (enable/disable) Alternate sensitivity (activate) Alternate message route (activate) Primary sensitivity (restore) Primary message route (restore) Change time (program) Change date (program) Security devices (bypass/unbypass) Partitions (arm/disarm) Change password for level 1 All default, User 1 and 2 privileges, plus: AND group (enable/disable) Check-in group (enable/disable) Matrix group (enable/disable) Service group (enable/disable) Guard patrol group (enable/disable) Instruction text (enable/disable) Time control (enable/disable) Switch (enable/disable) LED (enable/disable) Relay (activate/restore) LED (activate/restore) Audio amp (activate/restore) Audio message (activate/restore) Holiday list (program) Change password for level 2 All default, User 1, 2, and 3 privileges, plus: Security functions: NONE Output: Primary printer select Card (LRM)(enable/disable) Restart by panel (program) Restart all panels (program) Clear history (program) Test (start/cancel) Signature Device Test Change password for level 3
1.3
Introduction
A network cabinet may be a part of one or more groups. Multiple control locations are permitted for any group.
Group #3 Group #1 Group #2
6
[3GROUP.CDR]
The configuration of features and functions varies with each installation. Please consult your site-specific documentation to determine if any custom features or functions have been designed into your system.
1.4
Introduction
Display operation
The information presented on the main display depends on the operating condition of the panel: normal state (no events present) or off-normal state (at least one event).
Normal state
Figure 1-1 shows the information presented on the main display when the panel is in a normal operating condition.
Time
11:03:12
01-25-2001
Date
Custom banner
Alarm history
Alarm history
Figure 1-1: Main 3-LCD and 3-LCDXL display screens when panel is in normal state
The top of the screen displays the system time and date. The time is in 24-hour format. The project configuration settings determine the date format.
1.5
Introduction
The middle of the screen displays an optional custom banner message, if programmed into the system. Otherwise, this area is left blank. The bottom of the screen displays the total number of times that the panel has gone into alarm since the last time the alarm history was cleared.
Off-normal state
Figure 1-2 shows the information presented on the main display when the panel is in an off-normal operating condition.
Note: The EN-54 marketplace operates differently. Refer to the EST3 International Installation Supplement Manual.
Number of active points System time Number of disabled points Oldest, highest priority event or last reviewed event in selected event queue Most recent, highest priority event
14:19:32 A0004 D0000 0001 PULL STN ACTIVE PULL, ADMIN BLDG, 1ST FLR WEST 0003 PULL STN ACTIVE PULL, ADMIN BLDG, 1ST FLR NORTH A003 S000 T001 M000 |
Event number
14:19:32 A0004 D0000 0001 PULL STN ACTIVE PULL, ADMIN BLDG, 1ST FLR WEST 0003 PULL STN ACTIVE PULL, ADMIN BLDG, 1ST FLR NORTH A003 S000 T001 M000 |
[3SCRN2.CDR]
Highlight shows which event queue is displayed in the shaded area of the display
1.6
Introduction
Number of disabled points Number of active points System time and date Event number and event type Device message
11:03:12 0001 ZONE Zone 1 40 0001 Zone 0002 Zone ZONE 1 40 PULL 2 40 03/25/2004 ACT:0001 DIS:0000 - SELECTED ALARM -ACTIVE characters location text - ALARM QUEUE -ACTIVE characters location text ACTIVE characters location text
Oldest, highest priority event or last reviewed event in selected event queue
Event queue
Total number of events in the queue Highlight shows which event queue is displayed in the shaded area of the display Alarm event queue
- MOST RECENT ALARM -0002 PULL ACTIVE Zone 2 40 characters location text ALARM SUPERVISORY TROUBLE MONITOR 0001 0000 0000 0000
Figure 1-2: Main 3-LCD and 3-LCDXL display screens when panel is in off-normal state
The top line of the screen displays the system time in 24hour format, the number of active points in the system, and the number of disabled points. The shaded area displays the oldest, highest priority, event received by the panel, or the last reviewed event in the selected event queue, depending on whether the display is in unattended mode (regular off-normal operation) or in attended mode. In either case, the display shows the event number, the event type, and the active device's message.
Note: Pressing any one of the queue select buttons places the display in the attended mode for reviewing or acknowledging events and prevents the shaded area from being updated by an event with a higher priority. The display automatically returns to the unattended mode after the user timeout period has expired.
The area immediately below the shaded area on the 3-LCD always displays the most recent, highest priority event in an event queue. This area on the 3-LCDXL displays the event queue and the area below the event queue displays the most recent, highest priority event in an event queue.
Note: Cabinet configuration option settings determine which events are routed to the main display and placed in an event queue.
1.7
Introduction
The bottom line of the display shows the number of events in each event queue. The highlight around the event counter indicates which event queue is displayed in the shaded area.
Note: The event counter stops at 999. It is possible for an event queue to hold more than 999 events. If an event queue holds more than 999 events, *** is displayed.
Message details
Pressing the Details button displays additional information about the event displayed on the 3-LCD module's display. Different detail information is displayed for each of the following: Device Group Guard patrol Instruction text
Device details
D:0004
If a device activation causes the event, pressing Details displays the active devices logical address in the following format:
P:99 C:99 D:9999
Where: P:99 = panel address C:99 = rail module address D:9999 = device address
Lines below the device address list the off-normal states the device is currently in.
Group details
If a group activation causes the event, pressing Details displays a series of descriptions, one for each device in the group.
1.8
Introduction
DETAILS EVENT MESSAGE P:01 C:02 D:0004 DEVICE MESSAGE LINE 1 DEVICE MESSAGE LINE 2 A003 S000 T000 M000
[3SCRN6.CDR]
Scrolling indicator
Each device panel shows the event message or state of the device, the device address, and the device message (usually the device location) which can be one or two lines long.
Guard patrol details
When a guard patrol route goes active, pressing Details displays information about the station (device) that is in alarm.
DETAILS EVENT MESSAGE P:01 C:02 D:0004 PATROL: 999 STATION: 99 A001 S000 T000 M000
[3SCRN8.CDR]
Event message Device's logical address Patrol or route number Device or station number
The Details panel shows the event or state of the off-normal station, as well as the logical address, patrol or route number, and station number of the device.
Instruction text details
Your system may be programmed to include detailed instructions for certain events. When specific devices go into alarm, the system generates a related monitor event. If you select the monitor event, then press Details, the instruction text is displayed.
DETAILS LOREM IPSUM DOLOR SIT AMET, CONSECTETUER AD IPISCING ELIT, SEDIAM NONEQAM NIBH EUISMOD TINCIDUNT UT LAOREET DOLORE MAGNA ALIQUAM A002 S000 T000 M001
[3SCRN9.CDR]
Instruction text
Scrolling indicator
1.9
Introduction
Normally, systems are designed so that instruction text is sent directly to a printer. While accessible, instruction text is not formatted for the display.
Display priorities
The panel controller places all events into one of five categories: Fire alarms - life safety related events, e.g. smoke detector, sprinkler system waterflow, manual pull station, etc. Security alarms - include burglar and holdup alarms, as generated by security devices Supervisory events - off normal conditions of a related fire protection system, e.g. sprinkler system valve closed. Trouble events - faults within the system Monitor events - changes in the status of an ancillary system
Because events can happen at random, the system prioritizes which event is the most critical and displays its information first. Alarm events have the highest priority and monitor events have the lowest priority. In the U.S. Local and Proprietary market place, security events have a higher priority than monitor events and are stored in the supervisory queue. For all market place settings other than the U.S. (except the Middle East and Asia, which is the same as the U.S.) Local and Proprietary, security events, and monitor events have equal priority and are stored in the monitor queue.
1.10
Introduction
Message processing
When an event occurs, the system categorizes the event as a fire alarm, security alarm, supervisory event, trouble event, or monitor event. Information about the event is added to a corresponding message queue on the 3-LCD(XL) display module. The information available in each queue is displayed using the event queue buttons on the front of the 3-LCD(XL) display. Note that for display purposes, security alarms and supervisory events are both stored in the supervisory queue. A panel can store up to 2,000 event messages.
Flashing LED indicates that an event is in the queue that has not been reviewed or acknowledged LED on steady indicates that all events in the queue have been reviewed or acknowledged LED off indicates that no events are in the queue
Alarm
Supvr
Trouble
Monitor
When an event is received, the respective event queue LED flashes, indicating that the event has not been reviewed or acknowledged. 1. Select the highest priority active queue by pressing the respective queue button. 2. Scroll through all available event messages using Previous/Next buttons. You may use the Previous and Next Message or the queue buttons to scroll through the activation messages at any time after a queue is selected.
1.11
Introduction
1
Flashing LED indicates that an event is in the queue that has not been reviewed or acknowledged LED on steady indicates that all events in the queue have been reviewed or acknowledged LED off indicates that no events are in the queue
Alarm
Supvr
Trouble
Monitor
Alarm
Supvr
Trouble
Monitor
[3LCDU4.CDR]
1.12
Introduction
Optional features
The EST3 system can be configured with many optional features that provide additional capabilities. Your system may include some or all of these options, depending on the needs of your facility. See the site-specific information provided by your system installer to determine which options are installed.
Guard patrol
The guard patrol feature is used to monitor the activities of security guards. Guards are required to walk any one of a number of predetermined routes called tours. During each tour, the guard must activate guard patrol stations that are strategically located along the route. Should a guard activate a station too early, too late, or out of sequence, an active guard patrol message will be displayed on the 3-LCD(XL) display module.
2
ut e s m in
7 to 10 minutes
18
m in
ut e
4
7 to 10 minutes
2
10 to 15 minutes
to
4
14 to 18 minutes
to
18
12
1
Tour #1
5
25 to 30 minutes
1 2
7 to 10 minutes
3 to 5 minutes
12
8 to 10 m ut in es
5 4
Tour #2
7 to 10 m es ut in
10 to 15 minutes
0m inu tes
8 to 10
35 to 4
m es ut in
1 2
3 to 5 minutes
5 4
3 to 5 minutes
Tour #3
es
Tour #4
m in ut
7 to 10 minutes
18
1
Tour #5
12
to
11 to 14 es ut in m
Patrol Group Notes 1 Any station activated early, late, or out of sequence will generate a guard patrol alarm. 2 If a guard patrol alarm is generated, the guard patrol must be restored to clear the alarm.
[PATROL2.CDR]
14 to 18 minutes
1.13
Introduction
Figure 1-3 shows five guard patrol routes consisting of five stations. The system designer has assigned a minimum and maximum time allowance for the guard to go between any two guard stations. If the guard arrives too early, too late or at the wrong station, an active guard patrol event is generated.
Starting a tour
There are three ways to start a guard patrol tour: Activate the first guard patrol station on the route Enable the Guard Patrol group from the 3-LCD(XL) module Press a control/display panel button programmed to turn on the Guard Patrol group
Note: A guard patrol station designated as the first station in one guard patrol route can not be the first station in another route. Ending a tour
A guard patrol tour is automatically ended when all stations on the route have been successfully operated within the allowable time period and in the proper sequence. Should a tour end with an active guard patrol response, the system must be reset to clear the guard patrol response. Press the Details button to reveal the stations reporting in.
Clearing a guard patrol alarm
When a guard patrol alarm is generated, you must restore the guard patrol route to clear the alarm. The steps are detailed later in this manual.
Check-in groups
Check-in groups are used to monitor occupants in nursing care facilities. Occupants must check in during their assigned checkin period to signal that they are well. Failure to check in alerts an attendant that something is wrong. Check-in groups provide two indications when something is wrong. The check-in group sends a Check-In Active message to the 3-LCD(XL) display for each member of the group that fails to check in on time. The check-in group sends an Emergency Active message when the following happens: Any member of the group activates their check-in device any time other than the check-in period Any member of the group activates their check-in device a second time during the check-in period
1.14
Introduction
When a check-in active message is displayed, one or more stations in the check-in group have not been activated during the required time period. The check-in active messages may be viewed in the monitor message queue to determine the location of the event. Contact the late check-in station and determine the problem.
Emergency active message
The emergency active message is displayed when a check-in station is activated outside the check-in period. This is used to signal an emergency condition such as a fall, etc. To determine the location of the check-in station, view the event in the alarm message queue.
Note: Emergency Active messages are placed in the alarm
message queue but the event does not place the panel into alarm.
System timers
The system has a number of optional timers that are required by certain jurisdictions to comply with fire codes. Most of these timer functions do not require operator action, however, understanding the function of these optional timers (if enabled) will improve your understanding of why the system functions as it does.
Alarm silence/reset inhibit timer
The alarm silence/reset inhibit timer is used to guarantee that the notification appliances will sound for the minimum specified period. This timer effectively disables the alarm silence and reset buttons for a predetermined period. While the timers are active, pressing the alarm silence and reset buttons has no effect.
Notes
Your system may be equipped with notification appliances associated with the fire sprinkler system, which can not be silenced. Visual notification appliances can be configured not to turn off when the audible notification appliances are silenced.
The automatic alarm silence timer is used to automatically silence the notification appliances after a preset period, if they have not been silenced using the alarm silence button. Typical timer settings silence the signals from 5 to 30 minutes after operation.
1.15
Introduction
Some systems are designed to permit a short investigation period between the detection of a fire and sending a general alarm to the entire facility. The automatic general alarm timer is used to initiate the general alarm after a predetermined time period, if no action has been taken by the operator to prevent the general alarm from being sent.
Time controls
Time controls provide for the automatic starting and stopping of system events based on time and date. Time controls run in the background and do not require any operator action.
Setting holidays
The system provides for special time controls, referred to as holiday time controls. Holiday time controls supersede the normal time controls on dates that are designated as holidays. The list of dates that are defined as holidays is entered into the system from the 3-LCD(XL) display module.
You may find multiple button modes on a single control/display module. Consult your site-specific documentation for additional information.
Toggle buttons
Toggle buttons are commonly used to control two state operations such as on/off, open/close, speaker select, telephone select, etc. The output of an on button remains on during panel reset, and must be manually turned off when no longer required.
Interlocked buttons
The interlocked mode is commonly used for hands-off auto control of HVAC systems. An interlocked button in the on state can be turned off without activating a second button by
1.16
Introduction
pressing the on button a second time. The output of the on button remains on, during panel reset, and must be manually returned to Auto when no longer required.
Momentary buttons
Momentary buttons are typically to issue brief commands. Example uses for momentary buttons: lamp tests, function reset, and test sequences. The command is issued only while the button is pressed.
1.17
Introduction
Panels
The logical address format for a panel is PP, where PP is the cabinet number (01 to 64). For example, enter 01 for the panel designated as Cabinet 1. (System-wide events that are not related to a particular cabinet use panel number 00.) To determine a cabinet's panel number, use the Command Menus to request a Status report. Choose any type of list. The system displays the cabinet's panel number as the default panel number. Once youve noted the panel number, press the Backspace key to exit from the function.
For example, enter 0102 for the rail module installed in chassis rail 1, slot 4 of Cabinet 1. Enter 0134 for the control/display module connected to the rail module installed in chassis rail 1, slot 4 of Cabinet 1.
Note: The rail-slot number and the slot address are not the same.
Slot addresses vary with the cabinet configuration. Refer to Appendix A: System addresses.
Devices
Devices include the circuits, buttons, or LEDs that exist on the local rail module and all addressable devices connected by the
1.18
Introduction
field wiring. The address format for a device is PPCCDDDD, where: PP is the cabinet number of the panel containing the rail module CC is the address of the rail module responsible for the device DDDD is the address of the individual component or circuit
For example, Enter 01340129 for the first LED on the control/display module connected to the rail module installed in chassis rail 1, slot 4 of Cabinet 1. The CRC Card Reader Controller and KPDISP Keypad Display are devices supported by a 3-SAC module. However, they also act as independent processors, and have their own points and pseudo points. For this reason, their device numbers are further subdivided. You can think of a SAC device as having this address format: PPCCSSDD: SS is the CRC or KPDISP device number, as assigned during LRM configuration. DD is a point or pseudo point within the device.
1.19
Introduction
1.20
Chapter 2
Summary
This chapter provides a functional description of the controls and indicators provided on the 3-LCD and 3-LCDXL display modules.
Content Controls and indicators 2.2 Creating a status report 2.9 Disabling groups 2.10 Enabling groups 2.11 Disabling hardware components 2.12 Enabling hardware components 2.13 Arming security partitions 2.14 Disarming security partitions 2.16 Resetting security partitions 2.17 Bypassing security devices 2.18 Removing bypasses from security devices 2.19 Guard patrol groups 2.20 Starting a guard patrol 2.20 Restoring a guard patrol 2.20 Check-in groups 2.21 Activating a check-in group 2.21 Canceling a check-in sequence 2.21 Restoring a check-in group 2.22 Changing the smoke detector sensitivity level 2.23 Changing event message routing 2.24 Activating event alternate message routing 2.24 Restoring event primary message routing 2.24 Changing the output state of a relay or LED 2.25 Creating reports 2.26 Setting the system time and date 2.29 Changing user access level passwords 2.30 Restarting a panel 2.31 Scheduling holidays 2.32 Clearing the panel history file 2.33 Testing alarm input devices 2.34 Testing security input devices 2.35 Testing Signature devices 2.36 Testing the panel lamps and panel sounder 2.37
2.1
Power
Test
CPU Fail
Disable
Reset
Alarm Silence
Drill
21 20
6 7
19 18
9 10
Alarm
Supvr
Trouble
Monitor
11
Previous
1
17
2 5 8 0
3 6 9
Message Next
4 7
12
Details Command Menus
[3LCD.CDR]
16
15 14
13
2.2
Power Reset
CPU Fail
Disable Drill
21 20
6 7 8 14
Details
13
Command Menus
11
Previous Message Next
19 18
12 9 10
Alarm
Supvr
Trouble
Monitor
16
17
15
2.3
Functional description of 3-LCD and 3-LCDXL controls and indicators (see Figure 2-1) Index 1 2 Control or indicator Power LED Test LED Functional description The Power LED indicates that mains AC is applied to the panel. The Test LED indicates that a part of the system is in test mode. A programmable timer automatically exits the test mode after a period of system inactivity. The CPU Fail LED indicates the CPU module has detected a processor failure. Processor failures must be reset manually. The Gnd Fault LED indicates that the CPU module has detected a ground fault. The Disable LED indicates that a point or zone has been disabled using the Disable command. Pressing the Drill button activates the Drill command function. The Drill LED, when lit, indicates that the Drill command function is active. For U.S. Local and Canadian Local systems, pressing the Panel Silence button turns the CPU buzzer off. The Panel Silence LED, when lit, indicates the panel is in an off-normal condition and the panel has been placed in Panel Silence mode. For U.S. Proprietary and Canadian Proprietary systems, the Panel Silence button is not operational. The panel buzzer only silences after all events have been acknowledged. Note: The CPU buzzer can be configured to resound at a regular interval to remind the operator that the panel has been silenced 8 9 Liquid crystal display screen Trouble Button / LED 168 character, backlit alphanumeric display of system status. Pressing the Trouble button places the contents of the Trouble queue onto the display screen for review. Active trouble events are displayed in the order in which they are received. When a trouble event is highlighted on the display, pressing the Trouble button acknowledges the event and advances the display to the next event. The Trouble LED serves as a common trouble event indicator. The LED, when flashing, indicates that there is an event in the queue that has not been reviewed (local systems) or acknowledged (proprietary systems). When on steady, the LED indicates that all events in the queue have been reviewed or acknowledged.
3 4 5 6
CPU Fail LED Gnd Fault LED Disable LED Drill Button / LED
2.4
Functional description of 3-LCD and 3-LCDXL controls and indicators (see Figure 2-1) Index 10 Control or indicator Monitor Button / LED Functional description Pressing the Monitor button places the contents of the Monitor queue onto the display screen for review. Active monitor events are displayed in the order in which they are received. When a monitor event is highlighted on the display, pressing the Monitor button acknowledges the event and advances the display to the next event. The Monitor LED serves as a common monitor event indicator. The LED, when flashing, indicates that there is an event in the queue that has not been reviewed (local systems) or acknowledged (proprietary systems). When on steady, the LED indicates that all events in the queue have been reviewed or acknowledged. 11 Previous Message Button For U.S. Local and Canadian Local systems, pressing the Previous Message button scrolls the display to show the preceding event in the selected event queue. Reviewing events using the Previous Message button does not acknowledge the event. For U.S. Proprietary and Canadian Proprietary systems, the Previous event button is not operational. Events must be acknowledged in order of their occurrence. Note: Press and hold for auto-scroll. 12 Next Message Button For U.S. Local and Canadian Local systems, pressing the Next Message button scrolls the display to show the following event in the selected event queue. Reviewing events using the Next Message button does not acknowledge the event. For U.S. Proprietary and Canadian Proprietary systems, the Next Message button is not operational. Events must be acknowledged in order of their occurrence. Note: Press and hold for auto-scroll. 13 Command Menus Button Pressing the Command Menus button displays the system command menu to access the following system functions: Status, Enable, Disable, Activate, Restore, Control Output, Reports, Program, and Test Pressing the button a second time returns the user to the current event window.
2.5
Functional description of 3-LCD and 3-LCDXL controls and indicators (see Figure 2-1) Index 14 Control or indicator Details Button Functional description Pressing the Details button displays additional information about the event highlighted on the display screen. For Zone Groups, pressing the Details button displays a list of the active devices in the zone group. For Instruction Text Groups, pressing the Details button displays the entire instruction text. For Maintenance Alerts, pressing the Details button displays a list of the dirty devices. For Common Troubles, pressing the Details button displays a list of the specific troubles for the selected device. For Guard Patrols, pressing the Details button displays the offending station and indicates whether the activation was caused because of an early, late, or out of sequence condition. 15 Enter key Pressing the Enter key selects the highlighted menu option or causes the system to start processing the information shown in the display. Pressing the Delete / Backspace key moves the cursor to the left of the current position and removes the character from the display. The Delete / Backspace key is also used to cancel functions and move the operator back through the menus. Pressing any number key selects the menu item or enters the respective number into the system for use in conjunction with other system functions. Pressing the Alarm button places the contents of the Alarm queue onto the display screen for review. Active alarm events are displayed in the order in which they are received. When an alarm event is highlighted on the display, pressing the Alarm button acknowledges the event and advances the display to the next event. The Alarm LED serves as a common alarm event indicator. The LED, when flashing, indicates that there is an event in the queue that has not been reviewed (local systems) or acknowledged (proprietary systems). When on steady, the LED indicates that all events in the queue have been reviewed or acknowledged.
16
17
Numeric Keypad
18
2.6
Functional description of 3-LCD and 3-LCDXL controls and indicators (see Figure 2-1) Index 19 Control or indicator Supvr Button / LED Functional description Pressing the Supervisory button places the contents of the Supervisory queue onto the display screen for review. Active supervisory events are displayed in the order in which they are received. When a supervisory event is highlighted on the display, pressing the Supervisory button acknowledges the event and advances the display to the next event. The Supervisory LED serves as a common supervisory event indicator. The LED, when flashing, indicates that there is an event in the queue that has not been reviewed (local systems) or acknowledged (proprietary systems). When on steady, the LED indicates that all events in the queue have been reviewed or acknowledged. Note: Security events allow for multiple activations from the same point. It is not uncommon for this to happen. 20 Alarm Silence Button / LED Pressing the Alarm Silence button turns off the EVAC and ALERT channels, and all active audible and visible notification appliance circuits. Pushing the button a second time turns the notification appliance circuits back on. This button may be used to cancel the drill signal. The Alarm silence LED, when lit, indicates that the active notification appliance circuits have been silenced. Note: Project configuration settings affect the operation of the Alarm Silence function 21 Reset Button / LED Pressing the Reset button activates the systems reset sequence to restore the system to normal. The Reset LED flashes quickly during the smoke power-down phase, flashes slowly during the power-up phase, is on steady during the restoral phase, and is off when the system has reset. Notes The Reset button is disabled as long as the alarm silence inhibit timer is running The Reset button does not affect disabled points or manually overridden functions The Reset button may not affect security or access control devices. These points may be included in the supervisory or monitor display queues.
2.7
Functional description of 3-LCD and 3-LCDXL controls and indicators (see Figure 2-1) Index n/a Control or indicator Buzzer Functional description The buzzer on the CPU sounds to alert the operator to offnormal system conditions, such as: Active alarms Active test or disabled zones Active fault conditions Active monitor conditions The buzzer sounds a pattern associated with each event as determined by the market place settings. Alarm: Supervisory: Trouble: Monitor: 3-3-3 pattern 2-2 pattern 15 pulses per minute 3-3-3 pattern
2.8
On the Security Status Menu, you can choose between Partition and Holdup status reports.
To create a status report:
1. Press the Command Menus button, then choose Status. 2. Choose the type of list you want to generate. 3. Enter the target panels 2-digit address (PP). or Choose a partition from the Partition List. 4. Do one of the following: Choose Display if you want to view the list on the 3LCD(XL) module. Choose Print Locally, then select a printer, if you want to send the list to a printer connected to the local panel.
2.9
Disabling groups
A group is an object created during system programming. Groups are required in order to execute certain system functions, but groups bear no physical relationship to the system. For example, smoke detectors can be assigned to the same zone group even though they are not attached to the same wire run. Disabling a group isolates the group from the system just as if it were a hardware component. Disabling a zone group disables each of the devices in the group individually. Disabling other groups only disables the group response. There are several types of group: And group Check-in group Matrix group Service group Guard patrol group Zone group Instruction text group
When you disable a group, the CPU lights the 3-LCD(XL) Disable LED and places a Disabled Active event in the trouble queue.
Note: Before disabling a group, you need to know which devices are included in the group. You should be able to get a list of logical groups and their members from the company that installed the system. To disable a group:
1. Press the Command Menus button, then choose Disable. 2. Choose Group. 3. Choose the group type. 4. Select the group from the list. 5. If prompted, enter a valid user access level password.
2.10
Enabling groups
A group is an object created during system programming. Groups are required in order to execute certain system functions, but groups bear no physical relationship to the system. For example, smoke detectors can be assigned to the same zone group even though they are not attached to the same wire run. Enabling a group establishes the group as part of the system just as if it were a hardware component. When enabled, any changes in state that occurred while the group was disabled are processed. Enabling a zone group enables each of the devices in the group individually. Enabling other groups only enables their group response. There are several types of group: And group Check-in group Matrix group Service group Guard patrol group Zone group Instruction text group
To enable a group:
1. Press the Command Menus button, then choose Enable. 2. Choose Group. 3. Choose the group type. 4. Select the group from the list. 5. If prompted, enter a valid user access level password.
2.11
When you disable a hardware component, the CPU lights the 3LCD(XL) Disable LED and places a Disabled Active event in the trouble queue.
Note: To disable a component you need the components logical address. You can get components logical addresses from an SDU Objects report. To disable a hardware component:
1. Press the Command Menus button, then choose Disable. 2. Do one of the following: Choose Device to disable: input circuits, output circuits, detectors, or modules Choose Card to disable: rail modules or control / display modules Choose Button to disable: control / display module buttons Choose LED to disable: control / display module LEDs
3. Enter the target components logical address. 4. If prompted, enter a valid user access level password.
2.12
To enable a disabled component you need the components logical address. You can get a disabled components logical address from the disabled points list.
Note: All components are enabled at startup, unless programmed otherwise. The 3-LCD(XL) does not indicate a trouble for any points disabled at startup and points disabled at startup are not listed on the disabled points list. To enable a hardware component:
1. Press the Command Menus button, then choose Enable. 2. Do one of the following: Choose Device to enable: input circuits, output circuits, detectors, or modules Choose Card to enable: rail modules or control / display modules Choose Button to enable: control / display module buttons Choose LED to enable: control / display module LEDs
3. Enter the components logical address. 4. If prompted, enter a valid user access level password.
2.13
A security partition is a group of devices intended to secure a physical area. When you arm a partition, you instruct the system to monitor those devices for armed alarm events. Partitions can be armed for two states: Stay and Away. Arming to Stay causes the system to monitor only those devices on the perimeter of the protected area. This leaves you free to move about inside the partition. Arming to Away causes the system to monitor all devices, both perimeter and interior. Before arming the partition, the system checks all the devices in the partition to ensure that theyre in the normal state. Typically, if a device is off-normal it may prevent the partition from being armed. However, you can elect to disable the off-normal device and arm the remaining devices in the partition. When commanded to conditionally arm, the partition may arm directly or may generate an error or warning under the following conditions: The Partition is configured to issue a warning (not error) for non-security objects that are off-normal. If non-security objects are configured to issue an error on Partition arming, then the Partition will always issue an error message and will not arm conditionally when any one single error device is off-normal. When this occurs, the Partition can only be forced into an arm state. The total number of off-normal non-security devices plus the total number of bypassed or disabled regular security devices do not exceed the maximum number of bypassed/disabled devices (as set in the 3-SDU.) When security devices are in a Test condition (see Testing Security Devices), the Partition will arm with no warning even if the number of devices in Test exceed the 3-SDU setting for maximum number of bypassed/disabled devices.
Partitions can be commanded to arm unconditionally (i.e., forced arm) irrespective of the error or warning conditions presented, via the following methods: An SDU Rule activated by a switch on an EST3 panel. An unconditional arm command is issued via FireWorks. This also requires the proper user access level.
Note: Issuing an unconditional forced arm command to a Partition may result in undesirable false security alarm events.
After choosing to arm the partition, the system displays a list of partitions. Scroll through this list and select the partition you wish to arm.
2.14
Note: 3-LCD(XL) security commands are optional. Cabinet configuration settings determine whether security commands appear on the panel menus. To arm a security partition:
1. Press the Command Menus button, then choose Security. 2. Choose Partition. 3. Choose the type of arming you want: Partition Away or Partition Stay. 4. Scroll through the Partition List and choose the partition you want to arm. 5. If prompted, enter a valid user access level password.
2.15
1. Press the Command Menus button, then choose Security. 2. Choose Partition. 3. Choose Partition Disarm. 4. Scroll through the Partition List and choose the partition you want to disarm. 5. If prompted, enter a valid user access level password.
2.16
1. Press the Command Menus button, then choose Security. 2. Choose Partition. 3. Choose Partition Reset. 4. Scroll through the Partition List and choose the partition you want to reset. 5. If prompted, enter a valid user access level password.
2.17
1. Press the Command Menus button, then choose Security. 2. Choose Device. 3. Choose Bypass. 4. Enter the logical address of the device. 5. If prompted, enter a valid user access level password.
2.18
1. Press the Command Menus button, then choose Security. 2. Choose Device. 3. Choose Remove Bypass. 4. Enter the logical address of the device. 5. If prompted, enter a valid user access level password.
2.19
1. Press the Command Menus button, then choose Activate. 2. Choose Guard Patrol Route. 3. Select the guard patrol route from the list. 4. If prompted, enter a valid user access level password.
1. Press the Command Menus button, then choose Restore. 2. Choose Guard Patrol Route. 3. Select the guard patrol route from the list. 4. If prompted, enter a valid user access level password.
2.20
Check-in groups
Check-In groups are used to monitor occupants in nursing care facilities. Occupants must activate their check in device during their assigned check-in period. The 3-LCD(XL) displays a Check-In Active message for any member of a group that fails to check in on time. Activating a check-in device anytime outside the check-in period or a second time within the check-in period sends an Emergency Active message to the 3-LCD(XL) display.
1. Press the Command Menus button, then choose Activate. 2. Choose Check-In Group. 3. Select the group from the list. 4. If prompted, enter a valid user access level password.
1. Press the Command Menus button, then choose Restore. 2. Choose Check-In Group. 3. Select the check-in group from the list. 4. If prompted, enter a valid user access level password.
2.21
member devices must have failed to respond. Otherwise, activating member devices under otherwise normal conditions will trigger an emergency alarm event.
To restore devices that did not respond within the time-out period:
Activate and restore each check-in device that did not respond within the time-out period.
2.22
1. Press the Command Menus button, then choose Activate. 2. Choose Alt. Sensitivity. 3. If prompted, enter a valid user access level password.
To change to primary sensitivity level:
1. Press the Command Menus button, then choose Restore. 2. Choose Primary Sensitivity. 3. If prompted, enter a valid user access level password.
2.23
1. Press the Command Menus button, then choose Activate. 2. Choose Alt Message Route 3. If prompted, enter a valid user access level password.
1. Press the Command Menus button, then choose Restore. 2. Choose Primary Msg Route 3. If prompted, enter a valid user access level password.
2.24
Changing the output state of a relay or LED requires entering a command priority level.
Priority Set Description This priority overrides low, medium, and high priority instructions and forces the device to the desired state. The set priority does not reset the devices priority counters. This priority overrides low, medium, and high priority instructions and forces the device to the desired state. The latch priority does reset the devices priority counters. This priority forces the device to the desired state and adjusts the low priority counter accordingly. This priority forces a device to the desired state and adjusts the medium priority counter accordingly. This priority forces a device to the desired state and adjusts the high priority counter accordingly.
Latch
Low Medium
High
1. Press the Command Menus button, then choose Activate. 2. Choose the device type. 3. Select the desired output state. 4. Select the priority this command has over other commands affecting the same device. 5. Enter the target devices 8-digit logical address (PPCCDDDD). 6. If prompted, enter a valid user access level password.
2.25
Creating reports
The Reports command generates a report that you can view on the 3-LCD(XL) display module or print on the local printer. Three types of report are available: Device Maintenance History Revisions Modcom Compliance
environmental compensation they have used. You can choose to list devices in several ways.
History: a chronological list of events that have occurred on a
panel since the panel was placed into service or since the last time the history was cleared. Two versions of the History report are available: History With Text, and History Without Text. History With Text only includes devices for the targeted panel in the report. History Without Text includes devices for all panels in the report.
Revisions: a list of all the hardware and software components
1. Press the Command Menus button, then choose Report. 2. Choose device maintenance. 3. Do one of the following: Choose Dirty Devices >80% then enter the target panel address (PP). Choose Dirty Devices >20% then enter the target panel address (PP). Choose Single Device then enter the target device address (PPCCDDDD). Choose Devices On A Card to get the compensation level for all the detectors on a single loop then enter the target loops logical address (PPCCL).
4. Send the list to the display or to the printer. If you choose to send the list to the printer, choose Printer 1 if the printer is connected to port 1 or Printer 2 if connected to port 2.
2.26
Note: If the device maintenance report is being run on a Addressable Analog Driver Controller, use the following table to determine sensitivity levels. Addressable Analog Driver Controller device maintenance report sensitivity levels Type Photo Ion Thermal Monitor Control Trouble 400 400 400 600 600 Normal 520 - 1610 600 - 1710 500 - 1900 750 - 1300 750 - 1300 Alarm level 1 1710 1810 N/A N/A N/A Alarm level 2 2050 1960 N/A N/A N/A Alarm level 3 2390 2110 2000 1400 N/A Trouble short N/A N/A N/A 1800 1400
2.27
1. Press the Command Menus button, then choose Report. 2. Choose History. 3. Choose History With Text or History Without Text. 4. Enter the target panels 2-digit address (PP). 5. Send the list to the display or to the printer. If you choose to send the list to the printer, choose Printer 1 if the printer is connected to port 1 or Printer 2 if connected to port 2.
To create a Revisions report:
1. Press the Command Menus button, then choose Report. 2. Choose Revision Levels. 3. Enter the target panels 2-digit address (PP). 4. Send the list to the display or to the printer. If you choose to send the list to the printer, choose Printer 1 if the printer is connected to port 1 or Printer 2 if connected to port 2.
To create a Modcom Compliance report:
1. Press the Command Menus button, then choose Report. 2. Choose Modcom Compliance. 3. Enter the target panels 2-digit address (PP). 4. Send the list to the display or to the printer. If you choose to send the list to the printer, choose Printer 1 if the printer is connected to port 1 or Printer 2 if connected to port 2.
2.28
To set this time 12 midnight 1 a.m. 11:59 a.m. 12 noon 1 p.m. 11:59:30 p.m.
1. Press the Command Menus button, then choose Program. 2. Choose Change Time. 3. Enter the time in 24-hour format (HHMMSS) 4. If prompted, enter a valid user access level password. The system date is set in a month/date/year format (MMDDYYYY), where: MM is the month number, DD is the date, and YYYY is the year. For example, to set the date for January 1, 1999, enter 01011999.
To change the system date reference:
1. Press the Command Menus button, then choose Program. 2. Choose Change Date. 3. Enter the date (MMDDYYYY). 4. If prompted, enter a valid user access level password.
2.29
1. Press the Command Menus button, then choose Program. 2. Choose Edit Password. 3. Select the user access level password you want to change. 4. Enter the new 4-digit password. 5. If prompted, enter a valid user access level password.
2.30
Restarting a panel
Restarting a panel initiates the panels start up processes without first turning off the operating power.
To restart a panel:
1. Press the Command Menus button, then choose Program. 2. Choose Restart. 3. Choose whether to restart a single panel or all panels on the network. If you choose to restart a single panel, then enter the target panels 2-digit address (PP). 4. If prompted, enter a valid user access level password.
2.31
Scheduling holidays
Holidays vary from installation to installation and may change from year to year. By scheduling holidays, a panel can activate a time-controlled event based on whether the day is a scheduled holiday.
Note: Each panel can store up to 255 holidays. To schedule a holiday:
1. Press the Command Menus button, then choose Program. 2. Choose Edit Holiday List. 3. Choose Add Holiday. 4. Enter the holidays month and date (MMDD). 5. If prompted, enter a valid user access level password.
To delete a holiday from the list:
1. Press the Command Menus button, then choose Program. 2. Choose Edit Holiday List. 3. Select Delete Holiday. 4. Select the holiday from the list. 5. If prompted, enter a valid user access level password.
To change a holiday:
1. Press the Command Menus button, then choose Program. 2. Choose Edit Holiday List. 3. Choose Edit Holiday. 4. Select a holiday from the list. 5. Enter the new month and date (MMDD). 6. If prompted, enter a valid user access level password.
2.32
Caution: Clearing the panel history file means that all history
data for the panel is permanently deleted. Entering panel 99 clears history on all panels in the network. This command requires a level 4 password, and is for use by an authorized service technician only.
To clear the alarm history:
1. Press the Command Menus button. 2. Choose Program, then choose Clear History. 3. Enter the panel number. 4. If prompted, enter a valid user access level password.
2.33
Group Active event in the trouble queue. You can press the Details button to verify which service group is in test.
To put a service group into test:
1. Press the Command Menus button, then choose Test. 2. Choose Start Test. 3. Select the service group. 4. If prompted, enter a valid user access level password.
To cancel the test:
1. Press the Command Menus button, then choose Test. 2. Choose Cancel Test. 3. Select the service group that is in test. 4. If prompted, enter a valid user access level password.
Note: A service group will automatically time-out and cancel after approximately 1 hour of inactivity.
2.34
2.35
1. Press the Command Menus button, then choose Test. 2. Choose Signature Device Test. 3. Choose Alarm, etc, Prealarm, etc, or Trouble. 4. Enter the device address and press the enter button. 5. When prompted, enter a valid user access level password.
2.36
1. Press the Command Menus button, then choose Test. 2. Choose Lamp Test.
2.37
2.38
Chapter 3
Summary
This chapter provides a functional description of the controls and indicators provided on the 3-ASU Audio Source Unit. The 3-ASU is the control point for all the audio signals distributed by the system.
Content Controls and indicators 3.2 Operation the Audio Source Unit 3.4 Event signaling 3.4 Basic response tasks 3.5 Paging sequence 3.5 Phone page 3.5 Paging with the remote microphone 3.6 Optional audio zone controls 3.7
3.1
3
Paging
4
Ready to Page
5
All Call
6
All Call Minus Phone Page
7 8
EVAC
9
Alert
[3ASU-OP1.CDR]
3.2
Functional description of 3-ASU controls and indicators (see Figure 3-1) Index 1 2 3 4 5 Control or Indicator Push-To-Talk (PTT) Switch Paging Microphone Page Level Meter Ready to Page LED All Call Switch/LED Functional Description Push the PTT switch and wait for the Ready to Page LED (item 4) to light steadily before making an announcement. Speak into the microphone to make an announcement. Indicates paging volume. When paging, speak at a level that causes the far right LED to only flicker occasionally. Green LED flashes during pre-announcement tone, then is on steady when the system is ready to page. Green LED on indicates the 3-ASU is in the All Call mode. Pressing the All Call switch directs the page to all areas of the facility. To exit the All Call mode, press the switch a second time or press the All Call Minus, EVAC, or Alert switches. Green LED on indicates the 3-ASU is in the All Call Minus mode. Pressing the All Call Minus switch directs the page to the areas of the facility which have not been automatically selected to receive the EVAC or Alert tone/message. To exit the All Call Minus mode, press the switch a second time or press the All Call, EVAC, or Alert switches. Green LED on indicates the 3-ASU is in the Phone Page mode. Pressing the Phone Page switch replaces the paging microphone (item 2) with the firefighters telephone system. Individuals in remote areas of the facility can then issue a page via the firefighters telephone system. All phone paging is under the direct control of the 3-ASU operator. Press the switch a second time to disconnect the Phone Page mode. Green LED on indicates the 3-ASU is in the EVAC mode. Pressing the EVAC switch directs the page to areas of the facility which are automatically receiving the evacuation tone/message. To exit the EVAC mode, press the switch a second time or press the All Call, All Call Minus, or Alert switches. Green LED on indicates the 3-ASU is in the Alert mode. Pressing the Alert switch directs the page to areas of the facility which are automatically receiving the Alert tone/message. To exit the Alert mode, press the switch a second time or press the All Call, All Call Minus, or EVAC switches.
EVAC Switch/LED
Alert Switch/LED
3.3
Event signaling
In large facilities, the people most effected by an emergency should be instructed to evacuate the area immediately, and people not in immediate danger should receive an alert signal. Since most large facilities have a significant number of transient occupants, the most effective signaling is a combination of attention getting tones, followed by instructional messages. The information provided here is general in nature. Each facility is unique. The life safety system in your facility has been designed by fire safety professionals to meet the specific requirements of the fire codes in your location. Please refer to the site-specific instructions provider by the installer to determine the exact operation of your system.
Evacuation (EVAC) Signaling
The evacuation signal notifies facility occupants that they are in immediate danger, and must evacuate the area. Evacuation signals can take the form of bells, horns, tones, and audio messages. Accompanying the audio message is a visual notification appliance, typically a flashing strobe light. The system automatically activates all the evacuation signals in the affected areas of the facility.
Alert Signaling (optional)
The alert signal notifies the occupants of a facility that: an emergency event is in progress; they are not in immediate danger; and they should prepare to evacuate, but not to evacuate at this time. Alert signals are typically tones or audio messages. The system automatically activates the alert signals (if programmed in your system) in the affected areas of the facility.
Page Messages
The most reliable source of information about an emergency event comes from the individual who is in charge of the facility during the emergency. This individual is typically the fire chief or facility manager. The page function permits the individual in charge to make announcements to selected portions of the
3.4
building, advising occupants of what actions to take for safe egress, etc.
Paging sequence
Select the areas to receive the page by pressing the appropriate page function switch(s). The switchs integral LED will be on steady when the system is ready to receive the page. Press the PTT switch on the microphone. The Ready to Page LED will flash while the pre-announcement tone is sounding. Begin the announcement once the Ready to Page LED is on steady. Adjust your voice level so that the far right LED on the volume meter only flickers occasionally. Release the PTT switch when the announcement is finished. The system will turn off the page, and return to its pre-page condition after a short delay.
Note: The local microphone has priority over a telephone page, which has priority over a remote microphone page.
Each installation is customized. Please refer to your site-specific documentation to determine which areas of your facility automatically receives the page, or how to select the areas to receive the page.
Phone page
If your system is equipped with a firefighters telephone circuit, you can connect the telephone circuit to the page function by pressing the Phone Page switch. This permits an individual
3.5
talking on the firefighters telephone system to make announcements over the paging system. Establish the phone connection over the Firefighters Telephone Control Unit. Select the areas to receive the page the same way as if it were to be originated using the microphone. Instruct the individual who is remote paging to begin speaking after the preannouncement tone has finished. Press the Phone Page Switch and begin the phone page. The phone page is under complete control of the 3-ASU/FT, and may be interrupted at any time by pressing the Phone Page switch a second time.
3.6
Pressing a zone select switch on the displays shown in Figure 3-2A and Figure 3-2B adds that zone to any zones selected by the page function switches on the Audio Source Unit. The LED in the upper left corner of each floors control/display module is on when the floor is selected. The LED in the lower left corner on display B is used to annunciate trouble on an amplifier or notification appliance circuit associated with the zone. The control/display module shown in Figure 3-2C is used to manually direct the Evac and Alert signals as well as the page
3.7
message to individual areas of the facility. The LEDs can be programmed to follow any automatic system responses as well as manual audio zone selections. The control/display module shown in Figure 3-2D is used to manually direct the Evac signal and pages to individual areas of the facility. The center switch is inoperative. This configuration is typically used in facilities where the alert signal is automatically sent to all areas not receiving the evacuation signal. The LEDs follow any automatic system responses as well as manual audio zone selections. The Status LED can be programmed to indicate the trouble state of the zone amplifier.
3.8
Chapter 4
Summary
This chapter provides a functional description of the controls and indicators provided on the 3-FTCU Firefighter Telephone Control Unit.
Content Controls and indicators 4.2 Operation 4.4 Normal condition 4.4 Trouble condition 4.4 Answering incoming calls 4.5 Disconnecting calls 4.7 Paging by phone 4.8
4.1
CONNEC T
ACK
0 Calls Pending
5 6
Unit: ok
DISCONNECT R EVIEW CONNECTED
7 8
[3FTCUOP1.CDR]
4.2
Functional description of 3-FTCU controls and indicators (see Figure 4-1) Index 1 Control or Indicator Master Telephone Handset Connect Switch Review Pending Switch ACKnowledge Switch LCD Display Functional Description The master telephone handset permits the operators to communicate with dedicated firefighter telephone stations which are strategically located throughout the facility. The connect switch connects the incoming calls to the master telephone handset. The review pending switch scrolls the list of pending incoming calls. The acknowledge switch silences the call-in buzzer. The LCD display shows the status of the firefighter telephone system. The display is backlit in the alarm mode and when an incoming call is received. The disconnect switch is used to remove the connected phone which is shown in reversed text on the bottom of the display. The review connected switch scrolls the list of connected calls on the bottom of the display. This card is a set of phone operating instructions.
2 3 4 5
6 7 8
4.3
Operation
The operational status of the phone system can be determined by using the 3-FTCU LCD display.
Normal condition
When there is no activity on the system the screen appears as shown in Figure 4-2. The top line indicates that there are no incoming calls pending.
Pending Call Counter
0 Calls Pending
Title Block
Unit: ok
[3FTCUOP3.CDR]
The bottom line indicates the 3-FTCU unit status. OK means that there are no troubles with the phone system.
Trouble condition
When there is a fault on the firefighter telephone system, a fault indication will appear on the bottom of the display, as shown in Figure 4-3. Local faults may appear on the second line of the display. Circuit faults require the use of the 3-LCD(XL) display module to find the specific cause of the problem.
Pending Call Counter Local Trouble Indicator Title Block Phone System Status
Unit: Trouble
[3FTCUOP8.CDR]
4.4
The number of incoming calls is always listed on the top line of the display. The identification of the incoming call appears in reversed text on the second line of the display, as shown in Figure 4-4. Should multiple calls be pending, the reversed text display will slowly sequence through the incoming calls.
Pending Call Counter Pending Call Identification
(multiple pending call are displayed sequentially)
[3FTCUOP4.CDR]
1. Silence the call-in buzzer by pressing the ACK (acknowledge) switch. The buzzer will re-sound each time a new incoming call is received. 2. If multiple calls are shown in the display, stop the call identifier sequencing by pressing the Review Pending switch once. Each additional activation of the Review Pending switch manually steps the display through the list of incoming calls. When the desired call appears on the pending calls identification line, stop stepping through the calls. 3. To answer the selected call, press the Connect switch. The call identifier will move from the pending calls identification line of the display to the connected call list at the bottom of the display, as shown in Figure 4-5. Once connected, you may begin your conversation.
4.5
Pending Call Counter Pending Call Identification Connected Calls Counter Connected Call Identification
[3FTCUOP5.CDR]
Figure 4-5: 3-FTCU Display - One Connected Call and One Pending Call
Notice in Figure 4-5 that the calls connected counter indicates one call connected, the first floor stairwell phone, and the pending call counter decremented to show the one remaining incoming call from the second floor stairwell phone. 4. To add the second floor stairwell phone to the conversation, press the Connect switch again. Because there is only one call pending, there is no need to scroll through incoming calls.
Pending Call Counter Connected Calls Counter
Reversed text indicates the selected connected call
The connected calls counter indicates that two phone circuits are connected, and both calls now appear in the connected calls identification list. The two stairwell phones and the 3- FTCU master handset are connected together in a party line connection, and may communicate with each other. Up to five phone circuits can be connected in a party line connection. A full complement of connected circuits is shown in Figure 4-7.
4.6
Pending Call Counter Connected Calls Counter Connected Calls Identification List
Reversed text indicates the selected connected call
[3FTCUOP9.CDR]
Disconnecting calls
When a calling party is ready to hang up or remove a phone from its jack, the operator should disconnect the call as described below.
To disconnect a call
1. Press the Review Connected switch until the call to be disconnected is displayed in reversed text. In Figure 4-7, the Penthouse phone is selected. 2. Press the Disconnect switch. The call will be removed from the connected calls list and added to the pending calls list as shown in Figure 4-8 below. When the remote phone is hung up or removed from the phone jack, it will be removed from the calls pending list.
1 Calls Pending Penthouse 4 Calls Connected First FL stairwell First FL stairwell
[3FTCUOPA.CDR]
Pending Call Counter Pending Call Identification Connected Calls Counter Connected Calls Identification List
Reversed text indicates the selected connected call
Figure 4-8: 3-FTCU Display, One Pending Call and Four Connected Calls
3. Hanging up the master handset in the 3-FTCU transfers all connected calls to the calls pending list. If the remote phones have not been hung-up within 20 seconds, the call in buzzer will resound.
4.7
Paging by phone
The phone page feature of the 3-ASU audio source unit permits individuals with access to a remote firefighter telephone to make announcements over the emergency voice/alarm communications system, under the supervision of the Audio Source Unit operator. 1. Establish a phone connection with the remote phone which is to issue the page. 2. Set up the areas to receive the page using one of the ASU page area functions and/or manual switch selection of additional audio zones. 3. When ready to begin the paging sequence, the ASU operator should press the Phone Page switch. 4. Begin the announcement. The 3-ASU operator can monitor the page using the master handset.
4.8
Appendix A
System addresses
Summary
This appendix provides a quick reference for interpreting the mapping of system addresses.
Content Address format A.2 LRM addresses A.4 Control / display module addresses A.8 Device addresses A.10
A.1
System addresses
Address format
Tip: To determine a local panel's cabinet number, use the 3-LCD command menu to get the status on all the active points on the panel. When prompted for a panel number, enter 00. The panel returns the startup response point's logical address. The first two numbers of the logical address is the cabinet number.
The system derives the addresses it assigns from the panels cabinet number and the LRMs location within the panel (see Figure A-1). The basic address format is PPCCDDDD, where: PP is the panels cabinet number. The cabinet number is assigned when the installer downloads the CPU database into the panel. CC is the LRMs slot address. The cabinet number and the slot address make up the LRMs logical address. DDDD is the devices point address. The LRMs logical address and devices point address make up the device or circuits logical address. The CRC Card Reader Controller and KPDISP Keypad Display are devices supported by a 3-SAC module. However, they also act as independent processors, and have their own points and pseudo points. For this reason, their device numbers are further subdivided. You can think of a SAC device as having this address format: PPCCSSDD: SS is the CRC or KPDISP device number, as assigned during LRM configuration. DD is a point or pseudo point within the device.
A.2
System addresses
Signature detectors 01020001 - 01020125 Signature modules 01020126 - 01020250
Cabinet #1
0102
01360129
01370001
B +
B -
S H
A +
SIGA1
SIGA1
A SP - MW KR 1
B +
B -
SIGA1
O UTPUT MODULE
SIGA2 B B +
2 SP MW KR
SIGA2 A A + S H
SIGA2 B B +
Slot 1
Slot 2
Slot 3
Slot 4
Slot 5
Slot 6 01360152
Slot 7 01370012
[SYS_ADDR_EX1.CDR]
A.3
System addresses
LRM addresses
Figure A-2, Figure A-3, and Figure A-4 show the logical addresses that the system assigns to LRMs based on the panel configurations.
A.4
System addresses
PP00 PP01 PP02 PP03 PP04 PP05
N C N O C TROUB LE
N O
C N A ALARM
N C
N O
C SU P
N C
TB1
J1
A +
AU DIO AU DIO B IN A OU T + - + -
AU DIO B OU T + -
R X 1
T X 1
R T S 1
C O R M X 1 2
T X 2
R T S 2
C O M 2
PP32 PP07
PP33
PP34
PP35
PP36 PP06
PP37
PP08
PP09
PP10
PP11
PP12
PP13
PP14
PP40
[LRM_ADDR_01.CDR]
PP41
PP42
PP43
PP44
PP45
PP46
A.5
System addresses
PP00 PP01 PP02 PP03 PP04 PP05
N C N O C TROUB LE
N O
C N A ALARM
N C
N O
C SU P
N C
TB1
J1
A +
AU DIO AU DIO B IN A OU T + - + -
AU DIO B OU T +
R X 1
T X 1
R T S 1
C O R M X 1 2
T X 2
R T S 2
C O M 2
PP32 PP06
PP33
PP34 PP07
PP35 PP08
PP36 PP09
PP37 PP10
PP40 PP15
PP41 PP16
PP42 PP17
[LRM_ADDR_02.CDR]
PP43
PP44
PP45
PP46
PP47
PP48
PP49
A.6
System addresses
PP00 PP01 PP02 PP03 PP04 PP05
N C N O C TROUB LE
N O
C N A ALARM
N C
N O
C SU P
N C
TB1
J1
A +
AU DIO AU DIO B IN A OU T + - + -
AU DIO B OU T +
R X 1
T X 1
R T S 1
C O R M X 1 2
T X 2
R T S 2
C O M 2
PP33 PP08
PP34 PP09
PP35 PP10
PP36 PP11
PP37 PP12
PP38 PP13
PP39 PP14
PP40 PP15
PP41 PP16
PP42 PP17
PP43 PP18
PP44 PP19
[LRM_ADDR_03.CDR]
PP45
PP46
PP47
PP48
PP49
PP50
PP51
A.7
System addresses
A.8
System addresses
PPCC0129 PPCC0130 PPCC0131 PPCC0132 PPCC0133 PPCC0134 PPCC0135 PPCC0136 PPCC0137 PPCC0138 PPCC0139 PPCC0140 PPCC0141 PPCC0142 PPCC0143 PPCC0144 PPCC0145 PPCC0146 PPCC0147 PPCC0148 PPCC0149 PPCC0150 PPCC0151 PPCC0152 24 LEDs
PPCC0129 PPCC0130 PPCC0131 PPCC0132 PPCC0133 PPCC0134 PPCC0135 PPCC0136 PPCC0137 PPCC0138 PPCC0139 PPCC0140 PPCC0141 PPCC0142 PPCC0143 PPCC0144 PPCC0145 PPCC0146 6 groups of 3 switches and 3 LEDs
PPCC0001 PPCC0002 PPCC0003 PPCC0004 PPCC0005 PPCC0006 PPCC0007 PPCC0008 PPCC0009 PPCC0010 PPCC0011 PPCC0012 PPCC0013 PPCC0014 PPCC0015 PPCC0016 PPCC0017 PPCC0018
PPCC0129 PPCC0130 PPCC0131 PPCC0132 PPCC0133 PPCC0134 PPCC0135 PPCC0136 PPCC0137 PPCC0138 PPCC0139 PPCC0140 PPCC0141 PPCC0142 PPCC0143 PPCC0144 PPCC0145 PPCC0146 PPCC0147 PPCC0148 PPCC0149 PPCC0150 PPCC0151 PPCC0152 12 switches and 24 LEDs
PPCC0001 PPCC0002 PPCC0003 PPCC0004 PPCC0005 PPCC0006 PPCC0007 PPCC0008 PPCC0009 PPCC0010 PPCC0011 PPCC0012
PPCC0129 PPCC0130 PPCC0131 PPCC0132 PPCC0133 PPCC0134 PPCC0135 PPCC0136 PPCC0137 PPCC0138 PPCC0139 PPCC0140
PPCC0001 PPCC0002 PPCC0003 PPCC0004 PPCC0005 PPCC0006 PPCC0007 PPCC0008 PPCC0009 PPCC0010 PPCC0011 PPCC0012
A.9
System addresses
Device addresses
Figure A-6 shows the device logical addresses that the system assigns to various rail modules.
A.10
System addresses
PPCC0002 PPCC0001
IDC /NAC IDC /NAC 1 2 T B1 IDC 3 IDC 4 NAC IN 1/2
PPCC0001
UN USED UN USED UN USED 24VD C NAC /B + UN USED
PPCC0003 PPCC0004
T B1
JP2 JP1
J4 J3
J1
JP4 JP3
JP1 1 BACK- UP + + S 1 T B2 NAC /A + S NAC /B + IDC /NAC IDC /NAC 5 6 IDC 7 IDC 8 T B2 NAC IN 5/6 JP2
PPCC0005 PPCC0006
PPCC0008 PPCC0007
S
H
SIGA1
SIGA1
SP B B MW KR SIGA1 1
S H
N/C B
B N/C
LOOP1
LOOP1
LOOP1
O UT PUT MO DUL E
O UT PUT MO DULE
A.11
System addresses
A.12
Appendix B
Summary
This appendix summarizes the operation of the system in a series of convenient charts.
Content Table B-1: Fire Alarm Sequence - 3-LCD(XL) Display Response B.2 Table B-2: Fire Alarm Sequence - Common Feature Response B.2 Table B-3: Fire Alarm Sequence - Zone Annunciation B.3 Table B-4: Fire Alarm Sequence - Notification Appliance Circuits (Default Operation) B.3 Table B-5: Fire Alarm Sequence - Off Premise Connection B.3 Table B-6: Trouble Sequence - 3-LCD(XL) Display Response B.4 Table B-7: Trouble Sequence - Common Feature Response B.4 Table B-8: Trouble Sequence - Annunciation B.4 Table B-9: Trouble Sequence - Annunciation B.5
B.1
Table B-1: Fire Alarm Sequence - 3-LCD(XL) Display Response Event 3-LCD(XL) Display Power LED Alarm LED Trouble LED Panel buzzer 3-LCD text display Normal On Off Off Off Title screen 0000 0000 Enabled First Alarm On Flashing Off On Current event & last window 0001 0000 Disabled for silence Inhibit period Subsequent Alarm On Flashing Off On Updates last event window 0002 0000 Enabled after Inhibit period expires Alarm Restore On Flashing Off Off No change event latched until reset 0002 0000 No change Reset On Off Off Off Title screen 0000 0001 Disabled
Alarm counter on 3-LCD display Alarm history counter on 3-LCD display Reset Switch
Table B-2: Fire Alarm Sequence - Common Feature Response Event 3-LCD(XL) Display Alarm Silence Inhibit Timer Alarm Silence LED Alarm Silence Timer Normal Off Off Off First Alarm Timer starts Yellow after silence Timer starts, alarm silenced if timer expires Timer starts, prohibits paging until timer expires Timer starts, total EVAC if timer expires Subsequent Alarm Runs until expired Yellow after silenced Restarts, alarm silenced if timer expires No change Alarm Restore No change No change No change Reset Off Off Off
Off
No change
Off
Off
No change
Off
B.2
Table B-3: Fire Alarm Sequence - Zone Annunciation Event 3-LCD(XL) Display Panel Annunciator Printers History Logger Normal Off Ready Ready First Alarm On red Prints event Logs event Subsequent Alarm On red Prints event Logs event Alarm Restore No change Prints on restoration Logs restoration Reset Off Off Ready
Table B-4: Fire Alarm Sequence - Notification Appliance Circuits (Default Operation) Event 3-LCD(XL) Display General Alarm Audible Notification Circuits General Alarm Visual Notification Circuits Normal Off First Alarm Sounds alarm Subsequent Alarm No change, resounds alarm if silenced Displays alarm indication Alarm Restore No change Reset Off
Off
Off
Table B-5: Fire Alarm Sequence - Off Premise Connection Event 3-LCD(XL) Display Reverse Polarity Alarm Output Normal Off First Alarm Reverses polarity Subsequent Alarm No change Alarm Restore No change Reset Reverses polarity back to normal Off Off
Off Off
On On as programmed
No change On as programmed
No change No change
B.3
Table B-6: Trouble Sequence - 3-LCD(XL) Display Response Event 3-LCD(XL) Display Normal First Trouble Trouble Queue Current Event Window Last Event Window Queue LED Off Off Off Trouble message Trouble message Flashes yellow First Alarm w/Active Trouble Alarm Queue Alarm message Alarm message Flashes red Alarm has priority Alarm has priority Notes
Table B-7: Trouble Sequence - Common Feature Response Event 3-LCD(XL) Display Panel buzzer Panel Silenced LED CPU Trouble Relay CPU Alarm Relay Normal Off Off On Off First Trouble Sounds trouble Off Off Off First Alarm w/Active Trouble Sounds alarm Off Off On Notes Alarm has priority Yellow when local buzzer silenced Relay powered in normal state Remains on until panel reset
Table B-8: Trouble Sequence - Annunciation Event 3-LCD(XL) Display Panel Zone LED Remote Annunciator Alarm Zone LED Normal Off Off First Trouble On yellow On yellow First Alarm w/Active Trouble On red Steady red Alarm has priority if same LED is also used to annunciate trouble Time, date, event message, & device data Time, date, event message, & device data Notes
Printers
Ready
History logger
Ready
B.4
Table B-9: Trouble Sequence - Annunciation Event 3-LCD(XL) Display Off Premise Module (3-OPS) 3 circuit configuration Off Premise Module 1 circuit configuration Auxiliary Control Relays Normal All circuits normal polarity Normal polarity Off First Trouble Trouble circuit reverses polarity, module trouble relay operates Circuit opens, (module trouble relay operates) On as programmed First Alarm w/Active Trouble Alarm and trouble circuits reverse polarity Circuit reverses polarity (trouble relay restores) On as programmed Alarm has priority Notes
B.5
B.6
Index
3
3-ASU controls and indicators 3.2 operating 3.4 3-FTCU controls and indicators 4.2 operation 4.4 3-LCD controls and indicators 2.2 3-LCDXL controls and indicators 2.2 Device Maintenance report creating 2.27 description 2.27 Devices disabling 2.12 enabling 2.13 Dirty head report creating 2.27 Disabled points identifying 2.9 Disabling hardware components 2.12 Disabling logical devices 2.10, 2.11 Disarming security partitions 2.16
A
Active points identifying 2.9 Alarm silence/reset inhibit timer 1.15 Alternate message routing activating 2.24 Alternate sensitivity changing to primary 2.23 And groups disabling 2.10, 2.11 Arming security partitions 2.14 Audio Source Unit paging sequence 3.5 paging with remote microphone 3.6 phone page 3.6 Automatic alarm silence timer 1.15 Automatic general alarm (GA) timer 1.16
E
Emergency active 1.15 Enabling hardware components 2.13
G
Guard patrol 1.13 Guard Patrol groups disabling 2.10, 2.11 Guard patrols activating 2.20 restoring 2.20
H
Hardware components disabling 2.12 enabling 2.13 High priority description 2.25 History report creating 2.27 Holidays 1.16 scheduling 2.33
B
Button operation 1.16 Buttons disabling 2.12 enabling 2.13 Bypassing security devices 2.18
C
Canceling the test 2.35, 2.37 Changing holidays 2.33 Changing the output state of a relay or LED 2.25 Changing the smoke detector sensitivity level 2.23 Changing user access level passwords 2.31 Check-in groups 1.14 Check-In groups disabling 2.10, 2.11 Clearing the panel history file 2.34
I
Identifying active or disabled points 2.9
L
Lamp test 2.38 Latch priority description 2.25 LEDs changing the state of 2.25 disabling 2.12 enabling 2.13 Logical devices disabling 2.10, 2.11 Low priority description 2.25
D
Date entering 2.30 Default passwords 2.31 Deleting holidays 2.33
Z.1
Index M
Matrix groups disabling 2.10, 2.11 Medium priority description 2.25 Modcom Compliance report creating 2.27 description 2.27
S
Scheduling holidays 2.33 Security devices bypassing 2.18 removing bypass 2.19 Security partitions arming 2.14 disarming 2.16 restoring 2.17 Service groups disabling 2.10, 2.11 Set priority description 2.25 Setting the system time and date 2.30 Signature devices, testing 2.37 Smoke detector sensitivity description 2.23 Smoke detector sensitivity level changing 2.23 System timers 1.15
P
Panel sounder test 2.38 Password protection 1.2 Passwords changing 2.31 default 2.31 Primary message routing restoring 2.24 Primary sensitivity changing to alternate 2.23 Putting a service group into test 2.35 Putting a Signature device into test 2.37
T
Testing alarm input devices 2.35 Testing Signature devices 2.37 Testing, lamp 2.38 Testing, LEDs 2.38 Testing, panel sounder 2.38 Time controls 1.16 holidays 1.16 Time Controls disabling 2.10, 2.11 Time of day entering 2.30
R
Rail modules disabling 2.12 enabling 2.13 Relays changing the state of 2.25 Removing bypasses from security devices 2.19 Reports 2.27 Restarting a panel 2.32 Restoring security partitions 2.17 Revisions report creating 2.27 description 2.27
Z
Zone groups disabling 2.10, 2.11
Z.2