advertisement
Fire Alarm Control Panel
AFP-3030
Installation Manual
Australia Edition
Document DOC-01-031 Rev: H
2020-07-14 ECN: AUECN-282
2
Installation Precautions
Adherence to the following will aid in problem-free installation with long-term reliability:
WARNING - Several different sources of power can be connected to the fire alarm control panel.
Disconnect all sources of power before servicing. Control unit and associated equipment may be damaged by removing and/or inserting cards, modules, or interconnecting cables while the unit is energized. Do not attempt to install, service, or operate this unit until manuals are read and understood.
Verify that wire sizes are adequate
for all initiating and indicating device loops. Most devices cannot tolerate more than a 10% voltage drop from the specified device voltage.
Like all solid state electronic devices,
this system may operate erratically or can be damaged when subjected to lightning induced transients. Although no system is completely immune from lightning transients and interference, proper grounding will reduce susceptibility. Overhead or outside aerial wiring is not recommended, due to an increased susceptibility to nearby lightning strikes. Consult with the Technical Services Department if any problems are anticipated or encountered.
Disconnect AC power and batteries
prior to removing or inserting circuit boards. Failure to do so can damage circuits.
Remove all electronic assemblies
prior to any drilling, filing, reaming, or punching of the enclosure. When possible, make all cable entries from the sides or rear. Before making modifications, verify that they will not interfere with battery, transformer, or printed circuit board location.
Do not tighten screw terminals
. Over-tightening may damage threads, resulting in reduced terminal contact pressure and difficulty with screw terminal removal.
This system contains static-sensitive components.
Always ground yourself with a proper wrist strap before handling any circuits so that static charges are removed from the body. Use static suppressive packaging to protect electronic assemblies removed from the unit.
Follow the instructions
in the installation, operating, and programming manuals. These instructions must be followed to avoid damage to the control panel and associated equipment. FACP operation and reliability depend upon proper installation.
The equipment must be correctly programmed and installed to suit the specific application.
Please ensure correct operational parameters are set prior to commissioning. If further details on programming options are required, please consult the programming manual or contact our helpful technical support personnel.
EMC Warning:
This is a Class A product. In a domestic environment, this product may cause radio interference in which case the user may be required to take adequate measures.
Electromagnetic Interface (EMI) tests are performed in accordance with Class A requirements of AS/NZS CISPR 22:2009
Documentation Feedback
Your feedback helps us keep our documentation up-to-date and accurate. If you have any comments or suggestions about our online Help or printed manuals, you can email us.
Please include the following information:
• Product name and version number (if applicable)
• Printed manual or online Help
• Topic Title (for online Help)
• Page number (for printed manual)
• Brief description of content you think should be improved or corrected
• Your suggestion for how to correct/improve documentation
Send email messages to:
[email protected]
Please note this email address is for documentation feedback only. If you have any technical issues, please contact Technical
Services.
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Table of Contents
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 3
Table of Contents
4
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Section 1: About This Manual
1.1 Agency Approvals
•
AS 7240.2-2004
Fire Detection and Alarm Systems
Part 2: Control and Indicating Systems
(ISO 7240.2:2003, MOD)
The AFP-3030 supports the following optional functions of AS7240.2:
– Output to fire alarm devices, to clause 7.8
– Control of fire alarm devices, to clause 7.9
– Output to fire protection equipment, Output Type B to clause 7.10
– Delays to outputs, to clause 7.11
– Dependency on more than one fire signal, Type A Dependency to clause 7.12
– Supervisory signal condition, to clause 8
– Fault signals from points, to clause 9.3
– Output to fault warning routing equipment, to clause 9.9
– Disabled condition, to clause 10
– Disablement of addressable points, to clause 10.5as well as these ancillary functions not required by AS7240.2:
– Any output may be programmed (at Access Level 3) to only respond to signals from one of the following: from any zone (Z000 to Z999), or from any logic zone (ZL1 to ZL1000), or from any release zone (ZR0 to ZR9), or from any special zone, or from any fault zone (ZT1 to ZT100)
– The ability to disable any input or output, not just those required by AS7240.2
– The PSI PCB has a terminal labelled ‘General Fault Input’, which is normally a closed circuit. Interrupting this circuit results in a “PSI EXT FLT MONITOR” fault warning.
– Outputs to automatic fire protection equipment (smoke control) may be configured so that they can be reset following an alarm by either: the ‘RESET’ control, or the ‘SMOKE CONTROL Reset’ control
– The fire panel retains a history of the last 4000 events.
– The ability to test the alarm devices by pressing the ‘Alarm Devices Test’ control.
•
AS 7240.4-2004
Fire Detection and Alarm Systems
Part 4: Power Supply Equipment
(ISO 7240.4:2003, MOD)
The AFP-3030 supports the following optional functions of AS7240.4:
– Battery function check, to clause 5.5
•
AS 4428.3-2010
Fire Detection, Warning, Control, and Intercom Systems - Control and Indicating Equipment
Part 3: Fire Brigade Panel
•
AS 1670.1-2004
Fire Detection Installations
Part 1: Fire Detection and Alarm Systems
1.2 Related Documents
The table below provides a list of documents referenced in this manual, as well as documents for selected other compatible devices.
Off-line Programming Utility
VeriFire Tools Programming Utilities
Fire Alarm Control Panel (FACP) and Main Power Supply Installation
AFP-3030 Installation, Programming, and Operations Manuals
NPS (Notifier Power Supply) Installation Sheet
Battery Connection Installation Kit
Networking
Noti • Fire • Net Version 5.0 & Higher Manual
High-Speed Notifier Network Manual
Document Number
Available for download: www.notifier.com.au
Document Number
DOC-01-031
DOC-01-032
DOC-01-033
DOC-03-057
DOC-03-046
Document Number
51584
54013
Table 1.1 Related Documents (1 of 2)
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 5
About This Manual
HS-NCM Installation Document
System Components
ARE Interface Board Installation Sheet
Zone Mimic Manual
ACM-8RA Installation Sheet
Intrinsically Safe Barrier Manual
Annunciator Name Plate Installation Sheet
Extinguishing Agent release Module Manual
DA Series BOWS Manual
DVC Digital Voice Command Manual
DVC-RPU Manual
DAA2 and DAX Amplifiers Manual
DAL Devices Reference Document
Mass Notification Systems Configuration, Programming and Operations Manual
Annunciator Control System Manual
LCD2-80 Manual
LDM Series Lamp Driver Annunciator Manual
SCS Smoke Control Manual (Smoke and HVAC Control Station) Manual
SCS-8A/SCE-8A Installation Sheet
First Command Manual
XP10-M Ten Input Monitor Module Installation Document
XP6-C Supervised Control Module Installation Document
XP6-MA Six Zone Interface Module Installation Document
XP6-R Six Relay Control Module Installation Document
FSA-8000 FAAST Intelligent Aspiration Sensing Technology Document
SLC-IM Manual
Table 1.1 Related Documents (2 of 2)
NOTE:
Where used in this manual, the term CPU refers to the main circuit board for the fire alarm control panel’s central
processing unit (see Section 2.3 “System Components” for a more detailed list of part numbers.)
1.3 Cautions and Warnings
This manual contains cautions and warnings to alert the reader as follows:
!
CAUTION: SUMMARY IN BOLD
INFORMATION ABOUT PROCEDURES THAT COULD CAUSE PROGRAMMING ERRORS,
RUNTIME ERRORS, OR EQUIPMENT DAMAGE.
!
WARNING: SUMMARY IN BOLD
INDICATES INFORMATION ABOUT PROCEDURES THAT COULD CAUSE IRREVERSIBLE
DAMAGE TO THE CONTROL PANEL, IRREVERSIBLE LOSS OF PROGRAMMING DATA OR
PERSONAL INJURY.
Cautions and Warnings
54014
Document Number
DOC-03-062
DOC-01-028
DOC-03-052
DOC-01-029
DOC-03-060
DOC-01-005
DOC-01-004
52411
50107425-001
53265
52410
LS10063-000NF-E
15842
53242
15885
15712
LS10126-000AU-E
(DOC-03-086)
LS1001-001NF-E
I56-1803
I56-1805
I56-1806
I56-1804
I56-3903
LS10026-000NF-E
6
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Section 2: System Overview
2.1 System Description
2.1.1 Standard Features
• Connections to easily mount from one to ten Signalling Line Circuit (SLC) loops
• Network operation
• Uses Notifier’s VIEW® early warning fire detection and the FlashScan® or CLIP families of detectors and modules
• Alarm, Fault, and Supervisory relays
• Support for 32 annunciator addresses with either 64 or 96 points each (depending on the capability of the annunciator)
• Supports Open (Style 4) and Closed (Style 6/7) SLC loops
• Logic Equations
• Multi-line display
• Ability to activate local sounder or relay bases in alarm or pre-alarm
• Supervisory duct and smoke detectors
• Supports Intelligent Sensing algorithms
• EIA-485 connections for wiring ACS annunciators (including LDM custom graphic annunciators), TM-4 transmitter
• EIA-232 connection for printer
• Autoprogram feature for faster programming of new devices
• Easy connection to VeriFire® Tools programming utility
• The basic system power supply charges sealed lead-acid batteries ranging in capacity from 11 to 85 amp hours, and provides up to
5 amps of power for use by the CPU.
• Easy connection to auxiliary power supplies and battery chargers for custom design of very large systems.
• Ground fault detection
• Mass Notification System compatible
1
2.1.2 Options
Refer to Section 2.3 “System Components” for descriptions of the various optional modules.
• Rubberized keypad with a standard “QWERTY” keyboard layout, a 640-character LCD display, indicator LEDs, and switches.
• Separately ordered Loop Control Modules and Loop Expander Modules provide up to ten SLC loops.
• Optional equipment includes: ACS devices, ACM-8RA remote relay module to provide additional relay points, and audio/voice components.
2.1.3 System Limitations
System expansion must take into consideration the following:
1.
The physical limitations of the cabinet configuration.
2.
The electrical limitations of the system power supply.
3.
The capacity of the secondary power source (standby batteries).
2.2 Specifications
2.2.1 Supply Rating
Supply Rating Parameter
Input Fuse Rating
Input Voltage Rating
Output Ratings
Output Current
Output Ratings (Charger)
Charger Voltage
Details
M205 Fuse - 250V, 8.0A
NPS-5CHS: 100-240 V AC, 50-60 Hz, 0.8-2.5 A
NPS-11CHS: 100-240 V AC, 50-60 Hz, 1.5-5.0 A
Details
NPS-5CHS: 5.6 A @ 27.3 V DC
NPS-11CHS: 11.7 A @ 27.3 V DC
Details
27.3 V DC
2.2.2 Environmental Specifications
Environmental Specifications
Parameters
Environmental Limits
IP Rating
Details
0°C to 49°C dry heat
40°C @ 93% relative humidity
CAB650, CAB900: IP30
18U, 28U, 40U: IP52
1. Control Active LED is not supported.
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 7
System Overview
System Components
2.3 System Components
Central Processing Unit (CPU) with Power Supply
The central processing unit for the AFP-3030 is a combination of the CPU and on board power supply (NPS-5CHS or NPS-11CHS). The power supply provides +24 V DC power and a battery charger for the basic system. Auxiliary power supplies and/or battery chargers are available to customize large systems.
Keypad/Display
The keypad with built in LCD display serves as a primary display for the AFP-3030.
Enclosures
10 for additional information.
SLC Loops: LCM-320, LEM-320
To provide one SLC loop, connect one LCM-320 to the panel. Connect an LEM-320 to the LCM-320 to provide a second loop. Up to five pairs of modules can be installed on the panel to provide a maximum of ten SLC loops.
Network Connection
Connect a wire or fibre version of the NCM or the HS-NCM to provide a connection to the Noti•Fire•Net (network version 5.0 or higher) or High-Speed Noti•Fire•Net.
Annunciators
The AFP-3030 supports ACM-24AT/ACM-48A (and their expanders) with either 64 or 96 points at an address, as well as
devices.)
NOTE:
Annunciators for the AFP-1010, AM-2020, and AFP-2800 operate on a different baud rate and are not compatible with the AFP-3030.
Audio System
Voice evacuation applications are documented in the Audio System manuals:
DVC Digital Voice Command Manual,
DAA2 and DAX Amplifiers Manual, DS-DB Digital Series Board Manual, DVC-RPU Manual
and the
AA-series Audio Amplifiers Manual.
Mass Notification System
The AFP-3030 supports Mass Notification applications. Installation, programming and operation information for Mass Notification systems are documented in the
Mass Notification Manual
. Refer to the AFP-3030 programming and operation manuals for additional information.
NOTE:
The AFP-3030 does not support Control Active LED.
2.3.1 Replacement Kits
The system components that are available as replacement kits for the AFP-3030 are listed in Table 2.1.
Model Number
ASY-02-034
ASY-02-033
ASY-02-056
FG-50-011
ASY-01-035
FG-65-012
Description
NPS-5CHS 5.6 A Power Supply Replacement Kit
NPS-11CHS 11.7 A Power Supply Replacement Kit
CPU2-3030AU CPU Replacement Kit for Australian AFP-3030
DISP-3030AU Keypad Replacement Kit for Australian AFP-3030
Battery connection pack
3 V BR2335 23mm Lithium Battery
Table 2.1 Available Kits
2.4 Product Diagram
The control panel electronics are contained on one printed circuit board assembly that holds the central processing unit and power supply interface, collectively known as the CPU.
8
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Product Diagram
System Overview
“Installation” for more details.
B-Type USB Connection
ACS (power-limited, supervised)
LCD2-80: RDP pins
LCD2-80: TOut pins
Printer (isolated)
Alarm Relay*
Supervisory Relay*
Fault Relay*
Mini USB
Connection
Alarm Relay*
CTX/CRX
CRT-2 or Keltron printer supervision
(TB5 CTX, REF No connection)
NUP Connection for
HS-NCM network communications
4K7 EOL
Resistors
24 V Power from PSU
NAC Connection
NAC Connection
Field ACM Communications Connection
Field Power Connection
Field Power Connection
Internal 24 V DC Connection
24 V DC Power from PSU for Door Holders
Panel MCP
Connection
General Fault Input
CPU Keypad
Interface
Local ACM Out
LCM Interface
Brigade Interface
(A.R.E. Connection)
Battery Power
Interface
Lithium battery for backup of on-board memory (See
* For software versions prior to V23.12: Relay may energise at power up and should not be used for Alarm Signalling Equipment. Alternative connections are available via the Brigade Interface (A.R.E. Connection). See the
A.R.E. Interface Board Installation Sheet
for connection details.
Figure 2.1 CPU Connections
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 9
System Overview
The keyboard/display assembly is shown in Figure 2.3.
System Cabinets
Figure 2.2 AFP-3030 installed in a CAB650
Fire LED
Operating LED
Silence/Resound Alarm
Button
Alarm Scroll Button
Reset Button
Disable Button
System Fault LED
Fault Scroll Button and LED
Supervisory Scroll Button and
LED
Disable Scroll Button and LED
Other Scroll Button and LED
Pre Alarm LED
Alarm Routing LEDs
Alarm Routing Activated
LED
Silence Buzzer Button
Alarm Devices LEDs
Alarm Devices Test &
Disable Buttons & LEDs
Smoke Control Reset &
Disable Buttons & LEDs
Delays On/Off Button and LED
QWERTY Keyboard
Program, Status and Navigation
Figure 2.3 AFP-3030 Keypad
2.4.1 Main Power Supply
The NPS-5CHS or NPS-11CHS power supply provides a total of 5.6 A or 11.7 A to the CPU and has a built-in charger. During normal operation, the NPS can recharge batteries ranging in capacity from 7 to 85 amp-hours.
See Section 3.7, “Connecting Power Sources and Outputs”, on page 18 for basic power information.
2.5 System Cabinets
The CPU and modules are installed in a CAB650, CAB900 or U-Series backbox, holding up to four rows of equipment plus batteries (up to two 85AH batteries). Backboxes can be ordered with windowed or solid doors. The doors of the 28U and 40U can be mounted on the left or the right side of the cabinet. A trim ring option is available for semi-flush mounting.
to the
CAB650
,
CAB900
, or
U-Series
documentation for dimensions and door mounting specifications.
10
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Compatible Equipment
System Overview
2.6 Compatible Equipment
Compatible Notifier and System Sensor equipment that connects directly to the CPU is listed below. These are the most common devices at time of publishing; the most complete list of compatible intelligent SLC loop devices is provided in the
SLC Wiring Manual
; for conventional non-addressable equipment see the
Device Compatibility Document
. Other control panels and their equipment can also be connected in a network, via Noti•Fire•Net version 5.0 or High-Speed Noti•Fire•Net; refer to the
Noti•Fire•Net Version 5.0 Installation
Manual
or the
High-Speed Noti•Fire•Net Installation Manual
for details. Some products are documented in a separate manual; see
Section 1.2 “Related Documents”.
ACM-24AT
ACM-48A
ACM-8RA
AEM-24AT
AEM-48A
ARM
LCD2-80
LDM-32
LDM-E32
LDM-R32
SCE-8A
SCS-8A
SCS-8LA
Annunciators
Annunciator (Control)
Annunciator (Control)
8-way Relay Output Annunciator
Annunciator (expander)
Annunciator (expander)
Agent Release Module Kit
LCD Annunciator Kit
Lamp Driver Kit
Lamp Driver Expander Kit
Lamp Driver Relay Kit
Smoke Control Annunciator
(Expander)
Smoke Control Annunciator
(Control)
Smoke Control Annunciator
(Control)
HS-NCM-MF
HS-NCM-MFSF
Network Control Modules
Network Control Module - Multimode optical fibre
Network Control Module - Multimode/ Single-mode optical fibre
HS-NCM-SF
HS-NCM-W
HS-NCM-WMF
HS-NCM-WSF
Network Control Module - Singlemode optical fibre
Network Control Module - Wire
Network Control Module -
Wire/Multi-mode optical fibre
Network Control Module - Wire/
Single-mode optical fibre
NCA-2AU
NCM-F
NCM-W
RPT-W
RPT-F
RPT-WF
BACNET-GW-3
DVC
MODBUS-GW
Network Control Annunciator
Network Control Module - Fibre
Network Control Module - Wire
NFN Wire-to-Wire Repeater
NFN MMOF-to-MMOF repeater
NFN Wire-to-MMOF repeater
Gateways
BACnet Gateway
Digital Voice Command
Modbus Gateway
NFN-GW-AU-EM-3
OnyxWorks
VESDA-HLI-GW
AIBS32
B501BI
NFN gateway (Embedded)
OnyxWorks Workstation with and without PC gateway
VESDA-Net gateway
Detector/Sounder Base
Intelligent Base Sounder with integrated isolator
Addressable Detector Base with isolator
B524IEFT
NFX-BF-IVR
NFX-BS-IV
NFXI-BS-IV
(Replaces B501)
Short Circuit Isolator Base
Addressable Strobe Base (NFX
Series)
Addressable Sounder Base (NFX
Series)
Addressable Sounder Base (NFX
Series)
NFX-BSF-IVR
NFX-WF-RR
NFX-WSF-RR
NFX-WS-R
NFX-WS-W
FS-WSO
FS-WSS
FS-WST
FS-BSO
FS-BSS
AAM
Addressable Sounder/Strobe Base
(NFX Series)
Addressable Strobe (NFX Series)
Addressable Sounder/Strobe (NFX
Series)
Addressable Sounder (NFX Series)
Addressable Sounder (NFX Series)
Wall Mount Sounder - Off White
Wall Mount Sounder and Strobe -
Red
Wall Mount Strobe - Red
Detector Base Sounder - Off White
Detector Base Sounder - Off White and Strobe - Red
Field Modules (FlashScan)
Addressable Alarm
Acknowledgement Module (HUSH)
Single Intelligent Control Module FCM-1
FDM-1
FDMR-1
FMM-1
FMM4-20
FRM-1
FZM-1
ISO-X
SLC-IM
XP-10M
XP-6C
XP-6MA
XP-6R
ZCM
M700X
FAPT-751AUS
FAPT-851AUS
FSB-200
FSB-200S
Dual Switch Input Module
Dual Input/Output Module
Single Switch Input Module
4-20mA Intelligent Interface Module
Single Intelligent Relay Output
Module
Single Conventional Zone Interface
Module
Loop (SLC) Isolator Module
Signalling Line Circuit-Integration
Module
10-way Switch Input Module
6-way Control output (NAC) Module
6-way Conventional Zone Interface
Module
6-way Relay Output Module
ZCM Conventional Zone
Conversion Module
Isolator Module in 200 series
Detectors (FlashScan)
Intelligent Photo-Heat (Acclimate)
Intelligent Photo-Thermal multisensor (Acclimate)
Beam Detector
Beam Detector with built-in test facility
FSD-751P
FSI-751AUS
FSL-751
FSP-751AUS
FSP-851AUS,
FSP-951AUS
FST-751AUS
Innovair DSU
Intelligent Ion
View™ High Sensitivity Laser
Sensor
Photoelectric Smoke Detector
Intelligent Photo Sensor
Temperature Sensor
Intelligent Fixed Temp. Detector
FST-851AUS, FST-
951AUS
FST-851RAUS, FST-
951RAUS
Intelligent Thermal Sensor
Intelligent Thermal Sensor (rate of rise)
FST-851HAUS,
FST-951HAUS
(rate of rise)
Intelligent Flash Scan High Heat
(Addressable)
DNRAUS
Photoelectric Smoke Sensors
FPTI-951AUS Multi-Criteria Photoelectric,
Thermal and Infrared Sensor
Duct Detector Housing for
Intelligent Detector
DNRW Weatherproof Duct Housing for
Intelligent Detector
FDX-751BAUS
FDX-751RBAUS
FDX-851AUS
FDX-851RAUS
IDX-751AE
Detectors (CLIP)
Intelligent Thermal Sensor
Intelligent Thermal Sensor
Intelligent Thermal Sensor
Intelligent Thermal Sensor
Intrinsically Safe Addressable
Photoelectric Detector
Intelligent Photo Sensor SDX-851AUS
Intelligent VESDA-E Detectors
VEP-A00-1P-NTF VESDA-E VEP 1-pipe with LEDs,
Plastic Enc.
VEP-A00-P-NTF
VEP-A10-P-NTF
VESDA-E VEP 4-pipe with LEDs,
Plastic Enc.
VESDA-E VEP with 3.5”Disp,
Plastic Enc.
VEU-A00-NTF
VEU-A10-NTF
VESDA-E VEU with LED display
VESDA-E VEU with 3.5" Display
Smoke Detector with LED Display
FSM-500K
NFX-MCP-GLASS
WCP-5A
Smoke Detector with 3.5”
Manual Call Point
Indoor Manual Call Point
Intelligent Manual Call Point (SS
India)
Outdoor Manual Call Point
Addressable loop powered Audio Visual Alarm devices
(CLIP)
VAD-PC-I02 NTF CLIP Pure White Strobe, white flash, clear lens, with Isolator
WSS-PC-I02
DSS-PC-I02
NTF CLIP Pure White
Sound/Strobe, red flash, clear lens, with isolator
NTF CLIP Pure White
Sound/Strobe, red flash, clear lens, with isolator and base.
FWSGAUS
FWD-200PAUS
FWD-
200ACCLIMATEAUS
Wireless Equipment
SWIFT FlashScan Wireless
Gateway
Wireless FlashScan Photo Detector
Wireless FlashScan Acclimate
Detector
FWH-200FIX135AUS Wireless FlashScan Fixed Heat
Detector
FW-MMAUS Wireless FlashScan Monitor
Module
W-USBAUS USB Adapter
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 11
Section 3: Installation
3.1 Preparing for Installation
Choose a location for the fire alarm system that is clean, dry, and vibration-free with moderate temperature. The area should be readily accessible with sufficient room to easily install and maintain it. There should be sufficient space for cabinet door(s) to open completely.
Carefully unpack the system and inspect for shipping damage. Count the number of conductors needed for all devices and find the appropriate knockouts.
Before installing the fire alarm system, read the following:
• Review the installation precautions at the front of this manual.
•
• All wiring must comply with the National and Local codes for fire alarm systems.
• Do not draw wiring into the bottom 25 cm of the cabinet except when using a separate battery cabinet; this space is for internal battery installation.
•
Review installation instructions in Section 3.2 “Installation Checklist”.
!
WARNING: RISK OF IRREPARABLE EQUIPMENT DAMAGE
MAKE SURE TO INSTALL SYSTEM COMPONENTS IN THE SEQUENCE LISTED BELOW. FAILURE TO DO
SO CAN DAMAGE THE CONTROL PANEL AND OTHER SYSTEM COMPONENTS.
!
WARNING: RISK OF IRREPARABLE EQUIPMENT DAMAGE
WEAR A STATIC DISCHARGE STRAP ON WRIST TO PREVENT EQUIPMENT DAMAGE.
3.2 Installation Checklist
ment part numbers.
1.
2.
3.
Task
Mount the cabinet backbox to the wall.
Wire relays
Attach & wire other system components
Audio/Voice equipment
Refer to:
Appendix B, “Cabinet and Mounting Information”
Section 3.6 “Form-C Relays on the CPU”
4.
5.
6.
Annunciators and other ACS devices
Printer or other output device(s)
Network devices
Wire the Signalling Line Circuits (Notification
Appliance Circuits and Initiating Device Circuits)
Calculate the proper battery rating.
Install main power supply & batteries in separate enclosure. Run cable to main & optional power supplies, DC power outputs, relays, etc.
DVC Digital Voice Command Manual, DAA Digital Audio Amplifiers Manual,
DVC-RPU Manual
Installation document for the specific device (such as
ACS Manual, ACM-
8RA Install Sheet
, etc.)
Section 3.8 “Installing Printers”
Noti•Fire•Net Version 5.0 & Higher Manual/High-Speed Noti•Fire•Net
Manual,
and/or Installation document for specific device(s)
Section 3.9 “Wiring a Signalling Line Circuit (SLC)” and the SLC Wiring
Manual
Main Power Supply Manual
Section 3.7 “Connecting Power Sources and Outputs”
!
11.
12.
13.
7.
8.
9.
10.
Do not activate power at this time. Do NOT connect batteries.
Main power supply.
Auxiliary power supply and/or external battery charger
NPS Installation Sheet
Check that all mounting holes are secured to insure a proper Earth Ground connection.
Connect wire shielding to Earth Ground.
Remove insulator from lithium battery on CPU
Section 3.2.1 “Memory-Backup Battery”
Apply AC power to the control panel by placing the external circuit breaker to the ON position.
Do NOT connect batteries until AC power is checked (see next step).
Check AC power.
Section 3.7.4 “Checking AC Power”
Program the control panel.
Programming Manual.
Table 3.1 Installation Checklist
12
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Attaching Option Boards
Installation
3.2.1 Memory-Backup Battery
The lithium battery on the CPU provides backup of the CPU’s on-board memory during power loss. The CPU ships with an insulator to prevent the battery from discharging. To preserve the battery, the insulating tube should be left in place as long as possible before applying AC power.
If the insulator is
not
removed before applying AC power, the control panel will show a fault situation.
This battery’s shelf-life should exceed 10 years, but if for some reason it fails, the control panel will show a fault when powered up. To replace the lithium battery:
1.
Make a full backup of all system settings to prevent loss of all programming data.
2.
Disconnect all power sources.
3.
Lift clip gently using a hardware tool or screwdriver, and remove battery from under clip (use fingers, as screwdriver could damage components) before inserting new battery.
!
Lift clip gently while removing battery
Dotted line indicates location of insulator
CAUTION: BATTERY REPLACEMENT
THE BATTERY USED IN THIS DEVICE MAY PRESENT A RISK OF FIRE OR CHEMICAL BURN IF
MISTREATED.
DO NOT RECHARGE, DISASSEMBLE, HEAT ABOVE 100°C, OR INCINERATE.
A REPLACEMENT 3 V BR2335 LITHIUM BATTERY CAN BE ORDERED FROM NOTIFIER BY QUOTING
THE PART NUMBER FG-65-012. USE OF ANY OTHER BATTERY MAY PRESENT A RISK OF FIRE OR
EXPLOSION.
4.
Follow system power-up procedures.
5.
Dispose of used battery promptly. Keep away from children. Do not disassemble and do not dispose of in fire.
3.3 Attaching Option Boards
If installing option boards into a CAB650, CAB900, or U-Series backbox, mount & connect those boards at this time. This section contains general instructions for mounting an option board; see the documentation that shipped with your board for any product-specific instructions.
To mount option boards against the CHS-3L or CHS-4L backplate, attach stand-offs to the chassis studs.
Slide tabs at bottom of option boards into the matching slot.
Figure 3.1 Mounting Option Boards in CHS-3L and CHS-4L
four option boards can be mounted in the CHS-4L; additional modules can be mounted in other chassis.
Mounting procedures: Chassis mount
1.
Install two 3/4 inch (19.05 mm) stand-offs onto the chassis as shown in Figure 3.1.
2.
Place the first option board over the stand-offs so that holes line up.
3.
If no more option boards will be mounted in that position, securely fasten all stand-offs with screws (provided with module). If mounting a second option board, attach another layer of stand-offs and repeat steps 2-3.
Note:
Set the switches on an option board before mounting another layer in front of it.
4.
Section 3.5.3 “Installing a Multi-layer Module into the Chassis”.
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 13
Installation
Connecting the Network Communications Module
5.
For the top (second) layer of option boards, slide the tab at the bottom of the board into the slots on the chassis, and lay the board back onto the top of the chassis so that the studs line up with mounting holes on the option board. Securely fasten all stand-offs with screws provided with module.
NOTE:
Mounting two pairs of loop-control and -expander modules in one chassis position may cause intermittent electrical interference. If this occurs, move one pair to a separate chassis position.
Mounting procedures: Door mount
If mounting the option board in the door behind a blank dress plate, see Figure 3.2. This dress plate is suitable for option boards, which do not need to be visible or accessible when the door is closed.
Mount option board onto stand-offs
(included) to the blank plate
Mount single-space blank plate onto the door.
Fasten option board to the plate with four screws (included).
Figure 3.2 Door-Mounting Option Boards with a Single-space Blank Plate
3.4 Connecting the Network Communications Module
If networking two or more control panels (or network control annunciators), each one requires a Network Communications Module; a wire version and a fibre version are available. The wire and fibre versions on the NCM or HS-NCM can be installed on the CPU and power supply assembly. The preferred position is on top of the CPU assembly, as shown in Figure 3.3.
1.
Mount the NCM or HS-NCM in the selected position. (See Figure 3.3)
2.
Connect J1 on the CPU to J3 on the NCM or J6 on the HS-NCM using the network cable provided (P/N 75556). Do not connect two
NCMs via NUP ports (aka NUP to NUP).
3.
When installing an NCM:
Connect Channel A and/or Channel B as described in the
NCM Installation Document
.
When installing a HS-NCM:
Connect Channel A to Channel B as described in the
HS-NCM Installation Document
.
CPU
Assembly
NCM or
HS-NCM
14
Fasten the
NCM/HS-NCM to the CPU Assembly using the screws and standoffs included with your network card.
NUP Port connections:
Connect NUP cable from
NCM/HS-
NCM to J1 on the fire panel
Figure 3.3 Mounting an NCM/HS-NCM to the CPU Assembly
NOTE:
See the
Noti•Fire•Net Version 5.0 & Higher Manual
and the
NCM Installation Document
or the
High-Speed
Noti•Fire•Net Manual
for system configuration information.
NOTE:
Over-bending fibre-optic cable can damage it. Do not exceed a 8 cm minimum bend radius.
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Connecting the Loop Control and Expander Modules
Installation
NOTE:
NCM hardware is not compatible with HS-NCM hardware and should not be mixed on the same network.
3.5 Connecting the Loop Control and Expander Modules
3.5.1 Mounting Instructions
Mount loop control and expander modules within the cabinet with the CPU. Typical mounting positions are in the row immediately below the fire panel. Follow the basic chassis-mounting instructions given for option boards. Loop-expander modules are mounted first;
Loop-control modules are mounted on top of those. Alternately, loop-control and loop-expander modules can be attached to each other and mounted as a pair to the chassis. See Figure 3.5 for connection instructions, connector locations and stand-off lengths.
If using loop control and expander modules in CHS-4L see Figure 3.6.
NOTE:
Mounting two pairs of loop control and expander modules in one chassis position may cause intermittent electrical interference. If this occurs, move one pair to a separate chassis position.
After all loop-control and loop-expander modules are mounted in the cabinet, connect the SLC loops to TB1 on each loop-control and loop-expander module as shown in Figure 3.8. Daisy-chain the loop-control modules as shown in Figure 3.7. The ribbon-cable connection runs from header J7 on the CPU to header J1 (“Data in”) on the first loop-control module, from J3 (“Data out”) on that unit to J1 on the next unit in the chain, and likewise for up to five loop-control modules. Each module should be assigned a unique SLC loop number
(see below); loop number does not need to match the module’s location in this daisy-chain.
FlashScan devices can operate in either FlashScan or, for retrofit applications, CLIP mode. Each LCM-320 or LEM-320 running a Flash-
Scan SLC can support up to 159 detectors and 159 modules. CLIP loops are limited to 99 detectors and 99 modules. These and other
SLC Wiring Manual
for wiring requirements and specific details.
!
CAUTION: DO NOT EXCEED 99 ADDRESSES FOR CLIP
DO NOT PROGRAM MORE THAN 99 ADDRESSES ON A CLIP-MODE SLC LOOP, BECAUSE THIS WILL
SLOW THE SYSTEM DOWN AND COMPROMISE THE RESPONSE TIME OF THE PANEL TO DISPLAY
OFF-NORMAL EVENTS.
3.5.2 Setting SLC Loop Number
Assign a unique SLC loop number to the loop control module by setting SW1 on the module to 1, 3, 5, 7, or 9. The loop expander module which is mounted behind this loop control module will be assigned the next-higher even number. For example, if the LCM-320 is set to loop number 5, the LEM-320 mounted to it will be set to loop number 6.
3.5.3 Installing a Multi-layer Module into the Chassis
Follow the instructions illustrated in Figures 3.4 through 3.7 to install a pair of loop control/expander modules.
1.
Angle the module into the chassis so that the upper end of the rear board (or boards) fits into the top slot.
2.
Bring the module back down so that the lower board edges slip into the bottom slots.
3.
Secure the module to the chassis with the two module screws. Tighten securely.
4.
Connect the ribbon cable to the module.
TB1 SLC Loop
Connection
TB1 SLC
Loop
Connection
Stand-off locations
JP2 See note.
J3 Data Out to next LCM-320
JP1 See note.
J1 Data In from control panel or from previous LCM-320
Ground Fault LEDs:
D32 Loop Expander
Module Ground Fault
D28 Loop Control Module
Ground Fault
J2 LEM-320 Connection
LCM-320
Connection
SW1 Set to assign a unique
SLC loop number
LCM-320 LEM-320
NOTE:
Do not cut any jumpers on the LCM-320 or LEM-320.
Figure 3.4 LCM-320 and LEM-320 Diagram
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 15
Installation
Connecting the Loop Control and Expander Modules
!
WARNING: RISK
EQUIPMENT
DAMAGE.
USE SPECIFIED
STAND-OFF
MOUNTING
LOCATIONS ONLY.
SEE FIGURES 3.4
AND 3.5. DO NOT
USE CORNER
HOLES FOR
INSTALLATION
PURPOSES.
Loop
Control
Module
Loop
Expander
Module
Loop
Control
Module
J2
Loop
Expander
Module
J1
Stand-off locations
B+
SLC
BA- TB
J1
The long-pin end plugs directly into the back of the Loop Control
Module board.
The short-pin end plugs directly into the top of the
Loop Expander
Module
plug.
J1
J2 on LCM-320
“LEM-320 Data”
!
CAUTION:
IF THE STACKER-CONNECTOR IS
INSTALLED UPSIDE-DOWN, THE SHORT-
PIN END OF THE PLUG CAN FAIL TO MAKE
A SECURE CONNECTION WHEN PLUGGED
THROUGH THE LOOP CONTROL MODULE.
J2
Loop Expander Module mounted behind Loop Control Module
Figure 3.5 Connecting Loop Control Modules with Loop Expander Modules
NOTE:
Depending on system components, clearance may be tight. Do not force modules! Move the assembly around gently until you find the angle where components and mounting studs pass each other without scraping together.
Angle tab on loop control module into slot on CHS-4L
Use a slimline screwdriver (3/32”) to fasten down LEM-320 through the hole in the LCM-320 board.
For mounting in CHS-3L, see Figure 3.1
Figure 3.6 Inserting Pair of Loop Control and Expander Modules into CHS-4L
16
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Form-C Relays on the CPU
The red stripe on the ribbon cable is indicated by the dark line
J22 on PSU
Installation
NOTE:
The red stripe on the ribbon cable indicates position 1. Position 1 of the ribbon cable should line up with position 1 on J7 of the CPU and J1 and
J3 of the LCM-320.
!
WARNING:
INSTALL THE RIBBON CABLE
AS SHOWN. DO NOT FORCE
OR MODIFY THE CABLE TO
FIT ANY OTHER WAY.
EQUIPMENT DAMAGE CAN
RESULT FROM INCORRECT
ALIGNMENT.
3030LCMchainrv2.wmf
J1 on LCM-320
“Data in”
J3 on LCM-320
“Data out”
LCM-320 (in front) LEM-320 (in back)
Figure 3.8 SLC Loop Connections on Loop-Control and Loop-Expander Modules
3.6 Form-C Relays on the CPU
The panel provides a set of Form-C relays. These are rated for 1 A at 30 V DC (resistive):
• Alarm - TB4
• Fault - TB3
• Supervisory - TB2
• Alarm - TB1
Figure 3.9 Form-C Relay Connections
NOTE:
Form-C Relays may energize at power up and should not be used for Alarm Signalling Equipment. See the
A.R.E.
Interface Board Installation Sheet
for alternate connections for this purpose.
This is only applicable to software versions prior to V23.12. This operation was changed in V23.12 to not toggle the relays on start-up.
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 17
Installation
Connecting Power Sources and Outputs
3.7 Connecting Power Sources and Outputs
!
WARNING: REMOVE POWER WHILE CONNECTING COMPONENTS TO THE SYSTEM
REMOVE ALL POWER SOURCES TO EQUIPMENT WHILE CONNECTING ELECTRICAL COMPONENTS. LEAVE
THE EXTERNAL, MAIN POWER BREAKER OFF UNTIL INSTALLATION OF THE ENTIRE SYSTEM IS COMPLETE.
!
WARNING: CHECK FOR SECONDARY POWER SOURCES
SEVERAL SOURCES OF POWER CAN BE CONNECTED TO THE CONTROL PANEL. BEFORE SERVICING THE
CONTROL PANEL, DISCONNECT ALL SOURCES OF INPUT POWER
INCLUDING THE BATTERY
. WHILE
ENERGISED, THE CONTROL PANEL AND ASSOCIATED EQUIPMENT CAN BE DAMAGED BY REMOVING AND/OR
INSERTING CARDS, MODULES, OR INTERCONNECTING CABLES.
3.7.1 Overview
Complete all mounting procedures and check all wiring before applying power. Electrical connections include the following:
•
Primary power source.
+24 V DC, delivered through the NPS main power supply. For cabinet placement information see
Appendix B.6 “Laying Out Equipment in Cabinet and Chassis” and the
NPS Installation Sheet
.
•
Secondary power source.
+24 V DC from batteries, installed in the control panel (or in an optional battery cabinet). Secondary
(battery) power is required to support the system during loss of primary power.
•
External power sources.
+24 V DC auxiliary power supplies.
•
Accessory power for peripheral devices.
The NPS provides +24 V DC power to devices within the same enclosure as the CPU. If those devices have outputs, the outputs must be power-limited. Power rating is limited by the NPS primary power source, which is
+24 V DC and 5.6 Amps (NPS-5CHS) or 11.7 Amps (NPS-11CHS) max.
NOTE:
The CPU ships with an insulator to prevents its lithium battery from discharging. To preserve the battery, this insulator should be left in place as long as possible before applying AC power. Some installers may find it convenient to remove the insulator before mounting all equipment.
NOTE:
If using multiple power supplies with one set of batteries, refer to main power supply documentation for connection requirements.
3.7.2 Connecting 240 V Mains Supply
!
WARNING: CHECK POWER SUPPLY TERMINATION POINTS BEFORE APPLYING POWER
240 V MAINS SUPPLY TERMINATION POINTS WILL DIFFER DEPENDING ON THE CABINET SIZE IN USE. VERIFY
CABINET SIZING AND MAINS TERMINATION POINT BEFORE APPLYING POWER.
NOTE:
The AFP-3030 (Main PS Node) should have the 240V mains supply termination and NCA-2 /Secondary CPU should always be powered by AFP-3030 PSI to monitor power supply / battery fault on the NCA-2 PSI CARD.
CAB650/CAB900
When installing a panel housed in a CAB650 or CAB900 cabinet, terminate the 240 V mains supply directly to the fused terminal block on the NPS-5CHS or NPS-11CHS power supply assembly.
AC SUPPLY
NEUTRAL
LIVE
EARTH
18
Figure 3.10 Fused terminal block on the NPS-xCHS power supply
U-series (18U, 28U, 40U)
An AFP-3030 panel in a U-series cabinet is fitted with a 240 V cable assembly terminated to the fused terminal block on the NPS-5CHS or NPS-11CHS.
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Connecting Power Sources and Outputs
Installation
Terminate 240 V mains supply to the double GPO inside the cabinet, and use this GPO to provide power to the NPS-5CHS or NPS-
11CHS via the pre-terminated cable assembly.
FUSED
TERMINAL
BLOCK
240 V CABLE
ASSEMBLY
GPO
External mains terminates here in
U-series cabinets
Figure 3.11 GPO in U-series cabinets
3.7.3 Connecting Local and Remotely Powered Devices
NCA-2 from a locally powered device.
To NPS
Power
Supply
Red
Red
Black
Black
To
Battery
Black
Red
Figure 3.12 Connecting a Locally Powered CPU to Power
NOTE:
The AFP-3030 (Main PS Node) should have the 240V mains supply termination and NCA-2 /Secondary CPU should always be powered by AFP-3030 PSI to monitor power supply / battery fault on the NCA-2 PSI CARD.
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 19
Installation
Connecting Power Sources and Outputs
AFP-3030
(Locally Powered)
Remote NCA-2
Red (+)
Black (-)
Red (+)
Black (-)
Figure 3.13 Connecting a Remotely Powered NCA-2 to the Main CPU
20
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Connecting Power Sources and Outputs
Installation
Main CPU
(Locally Powered)
NCA-2
Red (+)
Black (-)
Red (+)
Black (-)
Figure 3.14 Connecting NCA-2 to the Main CPU within the same cabinet
NOTE:
The NCA-2 must be programmed with the Main PS Node number of the CPU from which it is drawing power. This node number must be separate from its own node number. Refer to the ‘SUPERVISION’ section of the AFP-3030 Programming Manual for more information.
3.7.4 Checking AC Power
Power up the fire panel by switching on the PSU switch. The device will be on when the PSU switch is illuminated (red).
PSU Switch
Figure 3.15 Location of the PSU Switch
Table 3.2 contains a checklist for checking the system with AC power applied to the main power supply:
!
CAUTION: CONFIRM BATTERIES ARE NOT CONNECTED
WHILE CHECKING AC POWER, MAKE SURE BATTERIES ARE NOT CONNECTED.
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 21
Installation
Installing Printers
Component
CPU/PSU
Main power supply
Each auxiliary power supply
Status
The green Operating indicator will come on when power is coming from the main power supply.
The green Operating indicator will come on when AC is supplied.
Refer to the panel’s LCD display for any auxiliary power supply issues.
Table 3.2 AC Power Checklist
3.7.5 Auxiliary Power Supply Connections
If an optional auxiliary power supply is installed in the cabinet, connect it at this time. Follow the connection procedures specified by your auxiliary power supply.
3.8 Installing Printers
This section contains information on connecting a printer to the CPU and for setting the printer options. The basic steps are as follows:
1.
Make custom cable & connect it from printer to EIA-232 terminal on the CPU.
2.
Connect printer’s power supply.
3.
Configure printer settings as described in printer documentation.
Overview: PRN Printer
The PRN provides a printed record (80 columns on standard 9" x 11" tractor-feed paper) of all system events (alarm, trouble) and status changes within the system. The control panel can be configured to time-stamp the printout with the current time-of-day and date for each event. The printer can be located up to 15 metres from the control panel. Installation and configuration instructions follow.
3.8.1 Printer Installation Sequence
1.
Fabricate a custom cable to connect a printer to the system. Length of the cable will vary with each installation, but should not exceed a maximum length of 15 metres. Printer must be installed in the same room as panel. Using overall foil/braided-shield twisted-pair cable, properly connect one end to the DB-25 Connector (provided) using the wiring specifications shown in
Figure 3.16.
NOTE:
Alternative wiring specifications are also shown in Figure 3.16 for a printer with a 9-pin connector. Refer to printer manual for detailed connection information.
2.
Tighten clamp on connector to secure cable. Connect the four open leads of the custom cable to the TB5 terminal block on the CPU as shown in Figure 3.16.
DB-9 connector for alternative printers
DB-25 connector on
PRN Series Printer
Note:
Outputs are power-limited but are not supervised.
TB5 on Control Panel
Figure 3.16 Printer Connections
3.
If installing a PRN series printer, plug it into your AC power source.
Note:
PRN printers require a 240 V AC, 50 Hz primary power source. If required for the fire alarm system configuration (for example, a Proprietary Fire Alarm System), a remote printer requires a secondary power source (battery backup). Because a secondary power source is not provided, use a separate Uninterruptible
Power Supply (UPS).
4.
Plug the DB-25 connector end of the custom cable into the EIA-232 port of your printer. Tighten securely.
5.
Configure the printer as described in Section 3.8.2 “Configuring the Printer”.
3.8.2 Configuring the Printer
Refer to the documentation supplied with the printer for configuration instructions.
22
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Wiring a Signalling Line Circuit (SLC)
PRN Printer Settings
Set the printer options (under the menu area) according to the settings listed in Table 3.3.
Option
L/R Adjust
Font
CPI
LPI
Skip
ESC Character
Emulate
Bidirectional Copy
I/O
Interface
Buffer
Serial
Baud
Format
Protocol *
CG-TAB
Character Set
Country
Select Zero
Auto-CR
Auto-LF
Option
Menu Lock
Language
Setting
0
HS Draft
10 CPI
6 LPI
0.0
ESC
FX-850
ON
Serial
40K
9600
8 Bit, None, 1 Stop
ENQ/STX
Graphic
Standard
E-USA ASCII
ON
OFF
OFF
Setting
ON
English
Paper
Single
Option
Form Adjust
Trac 1
Form Adjust
Trac 2
Form Adjust
Auto Sheet Feeder
Form Adjust
Auto Tear
F-Eject
Form Length
Trac 1
Lines
Standard
Trac 2
Lines
Standard
Barcode
Barmode
12/72
12/72
12/72
12/72
OFF
OFF
66
10.5”
Setting
66
10.5”
Off
Unsecured
*Protocol: When printing in graphics mode, set I/O
Serial Protocol to “Robust XON/OFF”.
Installation
Table 3.3 PRN Setup Options
3.9 Wiring a Signalling Line Circuit (SLC)
3.9.1 SLC Overview
Communication between the CPU and intelligent and addressable initiating, monitor, and control devices takes place through a Signalling Line Circuit (SLC). This manual provides requirements and performance details specific to this control panel; for installation information and general information, refer to the
SLC Wiring Manual.
3.9.2 SLC Capacity
The AFP-3030 supports up to five pairs of LCM-320 and LEM-320 modules, providing from one to ten SLC loops. Loop capacity depends on operating mode:
• Flash Scan: 01-159 intelligent detectors, 01-159 monitor and control modules
• CLIP: 01-99 intelligent detectors, 01-99 monitor and control modules
FlashScan devices can operate in either FlashScan or CLIP mode. Older models of CLIP devices only support addresses up to address
99. CLIP loops are limited to 99 detectors and 99 modules.
NOTE:
Response times for CLIP loops may vary. CLIP loops must be tested to assure that actuation of notification appliances occurs within 10 seconds after activation of an initiating device.
The following configuration guidelines may be used to improve the response times of CLIP loops:
1.
All manual pull stations must be assigned addresses from 1-20.
2.
Loops must be programmed for Rapid Poll (refer to the programming manual for specific instructions).
3.
Modules on a fully loaded loop must adhere to a ratio of two monitor modules to one control module.
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 23
Installation
Connecting a FAAST Intelligent Aspiration Detector
3.9.3 SLC Installation
the unique SLC loop number assigned to a module does not need to match the module’s location in the cabinet. For details on designing, installing and configuring SLC loops, see the
SLC Wiring Manual
.
B+ A+ B- A-
TB1
SLC Loop Connections on Loop Control Modules
Channel
B
Channel
A
B+ A+ B- A-
TB1
SLC Loop #2 Connections on Loop Expander Module
Channel B (output loop)
Channel A (loop return)
B+ A+ B- A-
Open Wiring (Style 4)
SLC Loops
SLC loop connections are the same for Loop
Expander and
Control Modules
B+ A+ B- A-
Closed Wiring (Style 6/7)
SLC Loops
Use the isolation modules where
T-Tapping is required
Figure 3.17 SLC Loop Connections and Wiring
3.10 Connecting a FAAST Intelligent Aspiration Detector
The FAAST Intelligent Aspiration detector may be used to provide early warning fire protection using aspiration sensing technology.
FAAST Wiring:
Figure 3.18 shows the wiring for the FAAST detector to the AFP-
3030.
For additional installation information for the FAAST detector, refer the
FSA-8000 FAAST Installation and Maintenance Instruction
document (I56-3903) and the
SLC Wiring Manual
(51253).
SLC
Connection
To Next SLC Device -
From FACP or Previous Device -
To Next SLC Device +
From FACP or Previous Device +
24V External
Power
From Power Supply or Previous Device +
To Next Device -
From Power Supply or Previous Device -
Figure 3.18 FSA-8000A Connection to the FACP
3.11 Connecting a PC for Programming
A PC running the VeriFire® Tools programming utility can upload and download the operating program of the control panel when attached to J15 USB Connection, J1 Network/Service Connection (NUP) or to the second Network/Service connection on an attached wire or fibre version of the NCM or HS-NCM. Refer to the VeriFire® Tools CD for instructions.
24
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Section 4: Testing the System
4.1 Operational Checks
Between formal periodic testing and servicing intervals, the following operation checks should be performed monthly.
• Check that the green OPERATING LED lights.
• Check that all status LEDs are off.
• Press and hold the LAMP TEST key. Verify that all LEDs and all LCD display segments work.
• Before proceeding: a) notify the fire department and the central alarm receiving station if transmitting alarm conditions; b) notify facility personnel of the test so that alarm sounding devices are disregarded during the test period; and c) when necessary, disable activation of alarm notification appliances and speakers to prevent their sounding.
• Activate an Initiating Device Circuit using an alarm initiating device or an addressable initiating device on the SLC and check that all programmed active notification appliances function. Reset the alarm initiating device, the control panel, and any other associated equipment. In voice alarm applications, confirm that the proper tone(s) and/or messages sound during alarm conditions. Select the paging function and confirm that the message can be heard in the affected fire zones. Repeat the above step with each Initiating
Device Circuit and each addressable device.
NOTE:
SLC Resistance Values:
The total DC resistance of the SLC pair cannot exceed 50 ohms.
For instructions on how to measure the total DC resistance of a populated SLC pair, refer to the “Measuring Loop Resistance” section of the
SLC Wiring Manual
(P/N 51253).
The minimum DC resistance between conductors of an unpopulated SLC pair cannot be less than 1 K ohms.
Measure DC resistance on an unpopulated loop as shown in Figure 4.1 on page 25.
• Zero Ohms to ground will cause a ground fault.
• On systems equipped with a firefighter’s telephone circuit, make a call from a telephone circuit and confirm a ring indication.
Answer the call and confirm communication with the incoming caller. End the call and repeat for each telephone circuit in the system.
• Remove AC power, activate an Initiating Device Circuit through an alarm initiating device or an addressable initiating device on the SLC, and check that programmed active notification appliances sound, and alarm indicators illuminate. Measure the battery voltage with notification appliances active. Replace any battery with a terminal voltage less than 21.6 V DC and reapply AC Power.
NOTE:
The battery test requires fully charged batteries. If batteries are new or discharged due to a recent power outage, allow the batteries to charge for 24 hours before testing.
• Return all circuits to their pretest condition.
• Check that all status LEDs are off and the green POWER LED is on.
• Notify fire, central station and/or building personnel when you finish testing the system.
Step 1. Disconnect the SLC channel B (Out) and SLC channel A (Return) at the control panel.
Step 2. Measure and record the resistance at SLC Out.
Step 3. Measure and record the resistance at SLC Return.
STEP 2
The minimum resistance is the lesser of two and three.
STEP 3
SLC Out
SLC Out
SLC Return
SLC Return
Figure 4.1 Measuring DC Resistance on an Unpopulated SLC Loop
4.2 Battery Checks and Maintenance
!
CAUTION:
THE MAXIMUM CURRENT RATING OF THE BATTERIES IS 11.6A. THE BATTERY CONNECTION IS FUSED. IF THE
FUSE NEEDS TO BE REPLACED, IT MUST BE REPLACED WITH A 20A BLADE FUSE.
Maintenance-free sealed lead-acid batteries used in the system do not require the addition of water or electrolyte. These batteries are charged and maintained in a fully charged state by the main power supply's float charger during normal system operation. A discharged battery typically reaches the float voltage of 27.3 V DC within 24 hours.
Follow the manufacturer recommendations for battery replacement intervals. Minimal replacement battery capacity appears on the control panel marking label. Immediately replace a leaking or damaged battery. You can get replacement batteries from the manufacturer.
!
WARNING: BATTERIES CONTAIN SULFURIC ACID,
WHICH CAN CAUSE SEVERE BURNS TO THE SKIN AND EYES AND DAMAGE TO FABRICS.
• If a battery leaks and contact is made with the Sulfuric Acid, immediately flush skin and/or eyes with water for at least 15 minutes.
Water and household baking soda provides a good neutralizing solution for Sulfuric Acid.
continued…
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 25
Testing the System
Battery Checks and Maintenance
• If Sulfuric Acid gets into eyes, seek immediate medical attention.
• Ensure proper handling of the battery to prevent short circuits.
• Take care to avoid accidental shorting of the leads from uninsulated work benches, tools, bracelets, rings, and coins.
!
CAUTION:
SHORTING THE BATTERY LEADS CAN DAMAGE THE BATTERY, EQUIPMENT, AND COULD CAUSE
INJURY TO PERSONNEL.
!
CAUTION:
RISK OF EXPLOSION IF BATTERY IS REPLACED WITH INCORRECT TYPE.
DISPOSE OF BATTERY ACCORDING TO MANUFACTURER’S INSTRUCTIONS.
4.2.1 PSI Status
Pressing the PSI STATUS button will display the status of the local power supply. This information includes the supply voltage, battery voltage, PSI output voltage, which supply source the panel is running from (PSI or battery), whether a battery test is in progress and whether or not the battery test and charger have been disabled.
P S I S T A T U S
P S U V O L T A G E : 2 7 . 3 V
B A T T E R Y V O L T A G E : 2 4 . 2 V
P S I C O N T R O L S T A T U S :
P A N E L R U N N I N G F R O M P S I S U P P L Y
S T A R T B A T T E R Y T E S T
Figure 4.2 PSI Status Screen
B A C K
26
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Appendix A: Electrical Specifications
A.1 Operating Power
DC Power
The control panel requires connection to NPS-5CHS or NPS-11CHS, which is a 27.3 V DC regulated, power-limited power supply, that can supply 0.1 amps continuous for the CPU without the display (0.3 amps for CPU with the display).
A.2 SLC Loops
Listed below are specifications for a Signalling Line Circuit loop. Refer to the
SLC Wiring Manual
for more detailed specifications and specific device listings:
Item
Voltage
Maximum length
Maximum current
Maximum resistance
Value
24 V DC nominal, 27.6 V DC maximum
The maximum wiring distance of an SLC using 12 AWG (3.25 mm
2
) twisted-pair wire is 3810 m.
Note:
Refer to Appendix A.5 “Wire Requirements” for limitations.
130 mA: LCM-320
100 mA: LEM-320
400 mA max*: Single SLC loop; for battery calculations use 200 mA
*Max short circuit; circuit will shut down until short circuit condition is corrected.
Table A.1
A.3 Notification Appliance Circuits
The power supply provides Notification Appliance Circuits. The maximum current rating for each NAC output is 1.0 A. Refer to the
Device Compatibility Document
for compatible devices and notification appliances.
A.4 Networks
Network Card
NCM-W
NCM-F
HS-NCM
Communication Parameters
Supports twisted-pair wire medium, data is regenerated at each node. 312.5K baud transmission rate.
Supports fibre-optic medium (62.5/125 or 50/125 micrometres – multimode). Single mode available. 312.5K baud transmission rate. Data is regenerated at each node.
High-speed data communications (12 Mb wire, 100 Mb MF/SF fibre). Multi-mode fibre optic
(MF), single-mode fibre optic (SF), wire (W), or a combination of W/MF/SF communications path.
Table A.2
A.5 Wire Requirements
Each type of circuit within the Fire Alarm Control System requires use of a specific wire type to ensure proper circuit operation. The wire gauge of a particular circuit depends on the length of that circuit and the current traveling through it. Use the table below to determine the specific wiring requirements for each circuit.
Use twisted-pair shielded wire for any non-SLC-loop wiring entering or exiting the cabinet that is not enclosed in conduit. Use twistedpair unshielded wiring for SLC-loop wiring.
NOTE:
If running an SLC in conduit with Notification Appliance Circuits, you can reduce problems by exclusively using electronic sounders (such as the MA/SS-24 Series) instead of more electronically noisy notification appliances (such as electromechanical bells or horns).
Circuit Type
SLC
(power limited)
Circuit Function
Connects to intelligent and addressable modules.
or or
Wire Requirements
Twisted-unshielded pair, 12 to 18 AWG
(3.25 to 0.75mm
2
). 50 ohms, maximum per length of Closed (Style 6 & 7) loops.
50 ohms per branch maximum for Open
(Style 4) loops.
Twisted-shielded pair.
NOTE:
• Shields must be isolated from ground.
• Shields should be broken at each device.
Untwisted, unshielded wire, in conduit or outside of conduit.
3,810 m
2,896 m
Distance
(feet/meters)
1,829 m
1,128 m
1524 m
1,128 m
1524 m
1,128 m
NOTE:
Maximum total capacitance for
all
SLC wiring (both between conductors and from any conductor to ground) should not exceed 0.5 microfarads
Table A.3 Wire Requirements (1 of 2)
Typical Wire Type
12 AWG (3.31 mm
14 AWG (2.08 mm
16 AWG (1.31 mm
18 AWG (0.82 mm
2
)
2
)
2
)
2
)
12 to 16 AWG (3.31 mm
2
to 1.31 mm
2
)
18 AWG (0.82 mm
2
)
12 to 16 AWG (3.31 mm
2
to 1.31 mm
2
)
18 AWG (0.82 mm
2
)
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 27
Electrical Specifications
Power Supply Calculations
Circuit Type Circuit Function
EIA-485 ACS
Connection
(power limited)
EIA-485 RDP
Connection
(power limited)
EIA-232
(power limited)
IDC
Initiating Device
Circuit
NAC
Notification
Appliance Circuit
Connects to ACS devices such as annunciators and
UDACT/UDACT-2
Connects to RDP devices
Connects to Printers or PC.
FMM-1, FMM-101
(power limited)
FCM-1 (power limited)
Wire Requirements
Twisted-shielded pair with a characteristic impedance of 120 ohms. 18 AWG
(0.75mm
2
) minimum.
Distance
(feet/meters)
1829 m (max)
Twisted-shielded pair with a characteristic impedance of 120 ohms. 18 AWG
(0.75mm
2
) minimum.
Twisted-shielded pair. 18 AWG (0.75mm
2
) minimum.
12-18 AWG
Maximum circuit resistance is 20 ohms.
1219 m (max)
15.24 m without modem
Releasing
Module
FCM-1-REL
Typical Wire Type
16 AWG (1.31mm
2
16 AWG (1.31 mm
16 AWG (1.31
12 to 18 AWG mm
(3.31 to 0.82 mm
2
)
12-18 AWG. MPS-24A: At alarm current level, no more than a 1.2 V drop at the end of the circuit, or sized to provide the minimum rated operating voltage of the appliances used.
12-18 AWG. 5 ohms maximum per circuit for class A or B, or sized to provide the minimum rated operating voltage of the appliances used.
To meet 1.2 V drop, or sized to provide the minimum rated operating voltage of the appliances used.
To meet 5 ohms maximum circuit resistance, or sized to provide the minimum rated operating voltage of the appliances used.
12 to 18 AWG
(3.31 to 0.82 mm
2
)
12 to 18 AWG
(3.31 to 0.82 mm
2
)
2
2
)
)
)
24 VDC Power
Runs (powerlimited)
To TM-4 Transmitter,
Annunciator and
FCM-1 modules
12-18 AWG. Size wire so that no more than 1.2 V drop across wire run from supply source to end of any branch.
To meet 1.2 volt drop
Table A.3 Wire Requirements (2 of 2)
Relay Output circuits are “Common” 30 V DC, 2 A (see Section 3.6 “Form-C Relays on the CPU”).
12 to 18 AWG
(3.31 to 0.82 mm
2
)
A.6 Power Supply Calculations
Calculations must be done to determine standby and alarm DC current loads. Ampere-hour requirements must be calculated as well to determine battery size.
The NPS power supply provides filtered 24 V DC (nominal) power that may be used for operating external devices. The power for operating external devices is limited. Use Table A.4 to determine if external loading is within the capabilities of the power supply.
A.6.1 Calculating the System Current Draws
The NPS must be able to power all devices in the panel in either the alarm condition or quiescent condition. The NPS must also be able to provide enough current to charge the batteries when the panel is in the quiescent condition. Use column 1 in Table A.4 to calculate the
Quiescent Load on the power supply. Use column 2 in Table A.4 to calculate the additional current needed during the fire alarm condition.
A.6.2 How to Use the Calculating Tables
In the following section:
The term “secondary” refers to the system’s backup batteries
The term “primary” is reserved for the NPS’s primary source of power, 240 V AC 50 Hz
The term “standby” refers to the output current required when no fire alarm is present.
The term “alarm” refers to the output current required when a fire alarm is present.
The Primary Quiescent Current and Fire Alarm Current columns are DC current calculations. Use these calculations to confirm that the
NPS can provide enough current to support the system during Primary Quiescent and Fire Alarm conditions.
Quantities
List the number of devices powered by the MAIN 24 V Main Output on the NPS and any auxiliary 24 V Outputs. Use these quantities to calculate total current draw of each set of devices in calculation columns 1, 2, and 3.
Calculation Column 1 (Primary, Quiescent Current in amps)
Add the contents of Column 1 to get the current drawn from the NPS during a quiescent condition, with AC power applied.
Calculation Column 2 (Primary, Fire Alarm Current in amps)
Column 2 lets the system designer determine the current load that the
NPS must support during a fire alarm.
Typically, a system should contain capacity to activate all output circuits and relays, and support fire alarms on no less than 10% of Initiating Device Circuits.
If the system provides power for Notification Appliance Circuits, refer to the Device Compatibility Document for 24 V DC notification appliances.
NOTE:
A current calculation tool can also be found in the Download Centre on the Notifier website: http://www.notifier.com.au/
28
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Power Supply Calculations
Electrical Specifications
A.6.3 Calculation for Main Supply Current
Quantitie s
AFP-3030/NCA-2 with display
AFP-3030/NCA-2 without display
LCM-320 (refer to Doc. 51330,52544)
LEM-320 (refer to Doc. 51330,52544)
SLC Loop
*
NCM-W, NCM-F
HS-NCM-W/MF/MFSF/WMF/WSF
DVC components (Refer to DVC manual)
DVC-RPU components (Refer to DVC-RPU manual)
DA-30/DA-60/DA-120 (Refer to DOC-01-
004)
FSD-751RPL (Duct Detector)
FSA-8000/FSA-20000 (FAAST Detector)
ACM-24AT
ACM-48A
AEM-24AT
AEM-48A
Maximum number of LEDs illuminated on these annunciators during quiescent conditions:
SCS-8A (refer to Doc. 15712)
LCD2-80
ACM-8RA
LDM (refer to Doc. 15885)
ACM-ZM
AEM-ZM8
ARM (Refer to DOC-01-005)
ARE Interface
FZM-1, MMX-2
Four-Wire Smoke Detectors
Compatible Devices not listed above
†
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
Calculation Column 1
Primary, Quiescent
Current (amps) x [0.205]= x [0.140]= x [0.130]= x [0.100]= x [0.200]= x [0.110]= x [0.400]= x [ ]= x [ ]= x [ ]= x [ ]= x [0.025]= x [0.465]= x [0.016]= x [0.016]= x [0.002]= x [0.002]= x [0.0054]= x [ ]= x [0.100]= x [ 0.020]= x [ ]= x [0.020]= x [0.005]= x [ ]= x [0.020]= x [0.0094]= x [ ]= x [ ]= x [ ]= x [ ]=
Calculation Column
2
Primary, Fire Alarm
Current (amps) x [0.225]= x [0.150]= x [0.130]= x [0.100]= x [0.200]= x [0.110]= x [0.400]= x [ ]= x [ ]= x [ ]= x [ ]= x [0.087]= x [0.493]= x [0.070]= x [0.070]= x [0.056]= x [0.056]= x [ ]= x [0.100]= x [0.035]= x [ ]= x [0.025]= x [0.025]= x [ ]= x [0.035]= x [0.090]= x [ ]= x [ ]= x [ ]= x [ ]=
Battery
Sum each column for totals
[ ]
Quiescent: x [AH
‡
] x
[0.1]=
Primary,
Quiescent: alarm:
Primary, alarm:
Table A.4 System Draw Current Calculations
* Value represents an SLC’s maximum current draw. Refer to device datasheets for individual current draws. Total device current cannot exceed 200 mA.
† Refer to manual and/or Device Compatibility Document.
‡ Value represents battery size in amp hours. Refer to
Appendix A.7, “Calculating the Battery Requirements”, on page 30
to determine battery size.
A.6.4 Calculating the Maximum Secondary Power Quiescent Current Draw
Use the table below to determine the maximum current requirements of the secondary power source during quiescent conditions. The result obtained is the amount of current that the batteries must be able to supply to the fire alarm system. Use the result in Table A.5 to determine the size of the batteries needed for the fire alarm system.
Results taken from the table below assume that, while in a quiescent condition, batteries must feed the NPS (and any additional supplies) with the maximum rated power each supply can provide.
Device Quantity
Alarm Current
(in amps)
Alarm Current, from Table A.4, col 3
Additional Load [ ] X
=
=
Sum Column for Secondary Quiescent Load =
Total Current/Type
Table A.5 Maximum Secondary Power Quiescent Current Draw
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 29
Electrical Specifications
Calculating the Battery Requirements
A.6.5 Calculating the Maximum Secondary Power Fire Alarm Current Draw
Use the table below to determine the maximum current requirements of the secondary power source during fire alarm conditions. The result obtained is the amount of current that the batteries must be able to supply to the fire alarm system. Use the result in Table A.6 to determine the size of the batteries needed for the fire alarm system.
Results taken from the table below assume that, while in a fire alarm condition, batteries must feed the NPS (and any additional supplies) with the maximum rated power each supply can provide.
Device Quantity
Alarm Current
(in amps)
Alarm Current, from Table A.4, col 2
Additional Load [ ] X
=
=
Sum Column for Secondary Fire Alarm Load =
Total Current/Type
Table A.6 Maximum Secondary Power Fire Alarm Current Draw
A.7 Calculating the Battery Requirements
A.7.1 Battery Power Equations
To calculate the battery size in accordance with AS 1670.0-2004, use the formula below:
C
20
= 1.25 [(I
Q
x T
Q
) + F
C
(I
A
x T
A
)]
Where:
C
20
I
Q
T
Q
F
C
I
A
T
A
1.25
=
=
=
=
=
=
= battery capacity in Ah at 20 h discharge rate total quiescent current quiescent standby power source time (normally 24 h) capacity de-rating factor total current in alarm state alarm load standby power source time (normally 0.5 h) compensation factor for expected battery deterioration
Where the load may vary, the worse case average over required period shall be used.
A.7.2 Recommended Standby Battery Sizes
When selecting and installing batteries, ensure that there is enough available current to charge the batteries while in quiescent mode. A list of available batteries and the minimum charging current required is shown in Table A.7, “Recommended Battery Specifications”.
NOTE:
Connect only sealed lead acid batteries.
Battery Description
Olympic, 12 AH 12 V Battery -
BATT/12 (CJ12-12)
Olympic, 18 AH 12 V Battery -
BATT/18 (CJ12-18)
Olympic, 26 AH 12 V Battery -
BATT/26 (CJ12-26)
Olympic, 33 AH 12 V Battery -
BATT/33 (CJ12-33)
Olympic 40 AH 12 V Battery -
BATT/40 (CJ12-40)
Olympic 85 AH 12 V Battery -
BATT/85 (CJ12-85)
Voltage
12
Capacity (Ah)
Minimum
Charging Current (A)
12 0.44
12
12
12
12
12
18
26
33
40
85
0.66
0.95
1.21
1.46
3.11
Table A.7 Recommended Battery Specifications
2
2
2
2
2
2
Quantity
30
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Appendix B: Cabinet and Mounting Information
B.1 CAB650 Mounting Details
450.0
192.0
170.0
10 x D50.0
Lasercut Knockout
5 on top, 5 on bottom
4 x D25.0
Lasercut Knockout
2 on top, 2 on bottom
4 x D10.0
Mounting Holes
4 x D5.0
Laser cut
Knockout
0.0
35.0
265.0
140.0
260.0
380.0
410.0
405.0
370.0
140.0
2 x D25.0
Laser cut
Knockout
610.0
212.0
4 x D50.0
Laser cut
Knockout
NOTE:
All dimensions in Millimetres
Figure B.1 CAB650 Mounting Details and Dimensions
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 31
Cabinet and Mounting Information
B.2 CAB900 Mounting Details
CAB900 Mounting Details
192
10 x D50.0
Laser cut knockouts
5 on top, 5 on bottom
4 x D25.0
Laser cut knockouts
2 on top, 2 on bottom
4 x D5.0
Laser cut
Knockouts
0.0
35.0
140.0
260.0
380.0
450.0
410.0
405.0
370.0
140.0
265.0
4 x D50
Laser cut
Knockouts
4 x D10
Mounting holes
4 x D25
Laser cut
Knockouts
515.0
860.0
212
NOTE:
All dimensions in Millimetres
Figure B.2 CAB900 Mounting Details and Dimensions
32
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
CAB 18U Cabinet Mounting Dimensions
B.3 CAB 18U Cabinet Mounting Dimensions
Cabinet and Mounting Information
35.0
105.0
286.0
16 x 50.0
Lasercut Knockout
8 on top, 8 on bottom
70.0
380.0
540.0
610.0
550.0
380.0
343.0
70.0
4 x 10.0
306.0
8 x 50.0
Laser cut
Knockout
NOTE:
All dimensions in Millimetres
Figure B.3 CAB 18U Mounting Details and Dimensions
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
767.0
271.9
817.0
887.0
2 x 25.0
Laser cut
Knockout
33
Cabinet and Mounting Information
B.4 CAB 28U Cabinet Mounting Dimensions
16 x 50.0
Lasercut Knockout
8 on top, 8 on bottom
CAB 28U Cabinet Mounting Dimensions
70.0
380.0
540.0
610.0
550.0
380.0
343.0
70.0
35.0
115.0
376.0
2 x 25.0
Laser cut
Knockout
175.1
1210.0
1260.0
1330.0
34
4 x 10.0
Mounting
Holes
8 x 50.0
Laser cut
Knockout
NOTE:
All dimensions in Millimetres
Figure B.4 CAB 28U Cabinet Mounting Details and Dimensions
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
CAB 40U Cabinet Mounting Dimensions
B.5 CAB 40U Cabinet Mounting Dimensions
Cabinet and Mounting Information
376.0
16 x 50.0
Lasercut Knockout
8 on top, 8 on bottom
8 x 50.0
Laser cut
Knockout
70.0
380.0
540.0
610.0
550.0
380.0
343.0
70.0
35.0
105.0
4 x 10.0
2 x 25.0
Laser cut
Knockout
1745.0
707.5
1795.0
1865.0
NOTE:
All dimensions in Millimetres
Figure B.5 CAB 40U Cabinet Mounting Details and Dimensions
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 35
Cabinet and Mounting Information
Laying Out Equipment in Cabinet and Chassis
B.6 Laying Out Equipment in Cabinet and Chassis
The AFP-3030 allows for flexible system design. It mounts in a CAB650 or CAB900 backbox using the CHS-3L or in a U-Series backbox using the CHS-4L. Follow these guidelines when deciding where to locate equipment in the backbox. The number of layers that can be mounted in each position of the chassis depends on the module size.
!
CAUTION:
IT IS CRITICAL THAT ALL MOUNTING HOLES OF THE FIRE ALARM CONTROL PANEL ARE SECURED
WITH A SCREW OR STAND-OFF TO INSURE CONTINUITY OF EARTH GROUND.
CHS-3L
The CPU and power supply assembly mount in the top row of the
CAB650 or CAB900 cabinet. The AFP-3030 keypad is door mounted in front of the CPU and power supply assembly. The CHS-
3L Chassis is mounted below the CPU and power supply assembly.
In the CAB900, a second CHS-3L Chassis can be installed below the first for additional equipment.
Three positions on chassis
CHS-3L
1
2
3
CHS-4L
The CPU and power supply assembly mount in the top row of the
U-Series cabinet. The AFP-3030 keypad is door mounted in front of the CPU and power supply assembly. The CHS-4L Chassis is mounted below the CPU and power supply assembly.
In the 28U and 40U cabinets, additional CHS-4L Chassis can be installed below the first for additional equipment.
Four positions on chassis
CHS-3L
Figure B.6 Chassis CHS-3L
1
2
3
4
Figure B.7 Chassis CHS-4L
B.7 Installing Replacement Equipment
B.7.1 Installing a replacement keypad
The keypad enables the user to operate and program the fire panel.
CAUTION: POWER DOWN THE FIRE PANEL BEFORE FITTING THE KEYPAD.
!
1.
Open the cabinet inner door and unplug the ribbon cable connecting the keypad to the CPU board.
2.
From the cabinet inner door, remove: a. The flanged nuts from the inner door studs.
36
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Installing Replacement Equipment
b. The keypad from the studs as per Figure B.8.
The AFP-3030 keypad
Cabinet and Mounting Information
Door studs
Cabinet inner door
Flanged nuts
Ribbon cable connecting the keypad to the fire panel CPU.
Figure B.8 Removing the fire panel keypad
3.
Replace keypad on door studs.
4.
Replace the Flanged nuts, fastening the keypad to the door.
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 37
Notes
38
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
Index
I
Numerics
2020-06-26 E159443 - ADD "with isolator"
A
Alarm Relays
BMP-1
C
D
Doors
Dress Panels
DS-DB
DVC-RPU
H
HS-NCM-W/F
Installation
L
see
B
Backboxes
Checklist
Preparation
Relays
E
Electrical Connections
Mounting
CPU
Drawing
Installation Steps
Battery
Battery Calculations
Battery Checks
Memory-Backup Battery
Cabinets,
also see
Backboxes
Chassis
CHS-3L
Circuit Board,
also see
CPU
Control Panel Circuit Board,
also see
CPU
Electrical Specifications
Indicating Device Circuits,
also see
NACs
SLC Loop Modules
M
Main Power Supply
Maintenance
Manual Pull Station
Memory-Backup Battery
Insulator
N
NACs
Specifications
NCM-W/F
Mounting
Networking
Notification Appliance Circuits,
also see
NACs
O
Operating Power
Operational Checks
Output Relays,
also see
Form-C Relays
Specifications
P
PC Connection
Power
AC Power Checklist
Auxiliary Power
Installation Steps
Locally Powered Devices
Main Power Supply
Power Supply Calculations
PSU Switch
Remote Device Powered By Local Device
Specifications
Terminating mains supply
Printers
Installation
PRN Printer Settings
R
Related Documentation
S
Signalling Line Circuit,
also see
SLC
SLC Loop Modules
SLC Loop Number
also see
SLC Wiring Manual
Specifications
Specifications
Environmental Specifications
Supply Ratings
Supervisory Relays,
also see
Relays
Supplemental Documentation
System
Features
Limitations
Options
System Description
System Current Draws
T
Testing
Trouble Relays,
also see
Relays
U
Upload/Download Software
V
VeriFire® Tools
W
Wiring,
also see
SLC
Wire Requirements
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14 39
Index
40
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
AFP-3030 Installation Manual —
P/N DOC-01-031:H 2020-07-14
New South Wales
(Head Office)
9 Columbia Way
Baulkham Hills NSW
2153 ph +61 (0)2 9894-1444 www.notifier.com.au
New Zealand
56 Cawley St Potts Street
AUCKLAND, NZ
1051 ph +64 (0)9 623-5275 www.notifier.co.nz
advertisement
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Related manuals
advertisement