FCU-6000 system manual
July 19, 2016 | Author: adavit73 | Category: N/A
Short Description
FCU-6000 fire alarm system manual...
Description
Fire Alarm Control Panel
N-6000 Manual REV :B DATE :2007-08-08
Fire Alarm System Limitations While a fire alarm system may lower insurance rates, it is not a substitute for fire insurance!
An automatic fire alarm system—typically made up of
Detectors that have ionizing-type sensing chambers
smoke detectors, heat detectors, manual pull stations,
tend to detect fast-flaming fires better than smoldering
audible warning devices, and a fire alarm control with
fires. Because fires develop in different ways and are
remote notification capability—can provide early warning of
often unpredictable in their growth, neither type of
a developing fire. Such a system, however, does not assure
detector is necessarily best and a given type of detector
protection against property damage or loss of life resulting
may not provide adequate warning of a fire.
from a fire.
Smoke detectors cannot be expected to provide adequate
While fire alarm systems are designed to provide early
warning of fires caused by arson, children playing with
warning against fire, they do not guarantee warning or
matches (especially in bedrooms), smoking in bed, and
protection against fire. A fire alarm system may not provide
violent explosions (caused by escaping gas,
timely or adequate warning, or simply may not function, for
improper storage of flammable materials, etc.).
a variety of reasons:
Heat detectors do not sense particles of combustion
Smoke detectors may not sense fire where smoke cannot
and alarm only when heat on their sensors increases at
reach the detectors such as in chimneys, in or
a predetermined rate or reaches a predetermined level.
behind walls, on roofs, or on the other side of closed
Rate-of-rise heat detectors may be subject to reduced
doors. Smoke detectors also may not sense a fire on
sensitivity over time. For this reason, the rate-of-rise
another level or floor of a building.
feature of each detector should be tested at least once
Particles of combustion or “smoke” from a developing
per year by a qualified fire protection specialist. Heat
fire may not reach the sensing chambers of smoke
detectors are designed to protect property, not life.
detectors because: • Barriers such as closed or partially closed doors,
Smoke detectors must be installed in
walls, or chimneys may inhibit particle or smoke flow.
the same room as the control panel. If detectors are not so
• Smoke particles may become “cold,” stratify, and not
located, a developing fire may damage the alarm system,
reach the ceiling or upper walls where detectors are
crippling its ability to report a fire.
located.
Audible warning devices such as bells may not alert
• Smoke particles may be blown away from detectors
people if these devices are located on the other side of
by air outlets.
closed or partly open doors or are located on another
• Smoke particles may be drawn into air returns before
floor of a building.
reaching the detector.
A fire alarm system will not operate without any electrical
• The amount of “smoke” present may be insufficient to
power. If AC power fails, the system will operate from
alarm smoke detectors.
standby batteries only for a specified time and only if the
Smoke detectors are designed to alarm at various levels of
batteries have been properly maintained and replaced
smoke density. If such density levels are not created by a
regularly.
developing fire at the location of detectors, the detectors
Equipment used in the system may not be technically
will not go into alarm.
compatible with the control. It is essential to use only
Smoke detectors, even when working properly, have
equipment listed for service with your control panel.
sensing limitations. Detectors that have photoelectronic
Telephone lines needed to transmit alarm signals from
sensing chambers tend to detect smoldering fires better
a premise to a central monitoring station may be out of
than flaming fires, which have little visible smoke.
service or temporarily disabled. For added protection
against telephone line failure, backup radio transmission systems are recommended.
The most common cause of fire alarm malfunction is inadequate maintenance. To keep the entire fire alarm system in excellent working order, ongoing maintenance is required per the manufacturer's recommendations. Environments with large amounts of dust, dirt or high air velocity
require
more
frequent
maintenance.
A
maintenance agreement should be arranged through the local manufacturer's representative. Maintenance should be scheduled or as required by National and/or local fire codes and should be performed by authorized professional fire alarm installers only. Adequate written records of all inspections should be kept.
Installation Precautions Adherence to the following will aid in problem-free installation with long-term reliability: Verify that wire sizes are adequate for all initiating and Several different sources of power can be
indicating device loops. Most devices cannot tolerate more
connected to the fire alarm control panel. Disconnect all
than a 10% I.R. drop from the specified device voltage.
sources of power before servicing. Control unit and
Like all solid state electronic devices, this system may
associated equipment may be damaged by removing
operate erratically or can be damaged when subjected to
and/or inserting cards, modules, or interconnecting cables
lightning-induced transients. Although no system is
while the unit is energized. Do not attempt to install, service,
completely immune from lightning transients and
or operate this unit until this manual is read and
interferences, proper grounding will reduce susceptibility.
understood.
Overhead or outside aerial wiring is not recommended, due to an increased susceptibility to nearby lightning strikes.
System Reaccepting Test after Software
Consult with the Technical Services Department if any
Changes. To ensure proper system operation, this product
problems are anticipated or encountered.
must be tested after any programming operation or change
Disconnect AC power and batteries prior to removing
in site-specific software.
or inserting circuit boards. Failure to do so can damage
All components, circuits, system operations, or software
circuits.
functions known to be affected by a change must be 100%
Remove all electronic assemblies prior to any drilling,
tested. In addition, to ensure that other operations are not
filing, reaming, or punching of the enclosure. When
inadvertently affected, at least 10% of initiating devices that
possible,
are not directly affected by the change, up to a maximum of
make all cable entries from the sides or rear. Before making
50 devices, must also be tested and proper system
modifications, verify that they will not interfere with battery,
operation verified.
transformer, and printed circuit board location.
Table of Content Section 1:About This Manual ................................................................................................................. 6 1.1Notes, Cautions & Warnings......................................................................................................... 6 1.2Font Definition .............................................................................................................................. 6 Section 2:System Overview.................................................................................................................... 7 2.1Introduction ................................................................................................................................... 7 2.2Characteristics of the Product........................................................................................................ 7 Section 3:System Configuration & Installation ...................................................................................... 9 3.1Features Main Performances ......................................................................................................... 9 3.2Electrical Specifications ................................................................................................................ 9 3.3System Configuration.................................................................................................................... 9 3.4System Block Diagram................................................................................................................ 10 3.5Installation & Connection ........................................................................................................... 11 3.5.1Enclosures............................................................................................................................ 11 3.5.2Connection Requirements.................................................................................................... 12 3.5.3Connection of Circuit Board Terminals............................................................................... 12 3.5.3.1CPU Diagram ............................................................................................................... 12 3.5.3.2Power Supply Connection ............................................................................................ 15 3.5.3.3NIC-EC......................................................................................................................... 17 3.5.3.4Loop Control Module Connection................................................................................ 19 3.5.3.5MCU-16B Annunciator Control Module Connection .................................................. 21 3.6Equipment Debugging ............................................................................................................ 23 3.6.1Connection Inspection..................................................................................................... 23 3.6.2Power-on Inspection........................................................................................................ 24 3.6.3External Connection ........................................................................................................ 24 3.6.4Important Points .............................................................................................................. 24 3.6.5Inspection Methods for Addressable Device Connections.............................................. 25 Section 4:Operation .............................................................................................................................. 26 4.1LED Indicators and Keys ............................................................................................................ 26 4.1.1Control Panel Display LED Indicators and Keys ................................................................ 26 4.1.2Annunciator Control Module LED Indicators and Keys ..................................................... 29 4.2Power-on ..................................................................................................................................... 30 4.3System Self-test........................................................................................................................... 30 4.4Event Display .............................................................................................................................. 32 4.4.1Trouble Screen..................................................................................................................... 32 4.4.2Fire Alarm Screen................................................................................................................ 33 4.4.3Supervisory Screen .............................................................................................................. 34 4.4.4Point Disabled Screen.......................................................................................................... 35 4.4.5CBE Screen.......................................................................................................................... 36 4.4.6Pre-alarm Screen.................................................................................................................. 36 4.4.7Horn / strobe Screen ............................................................................................................ 37 4.4.8Feedback Screen .................................................................................................................. 37
Section 5:Programming ........................................................................................................................ 38 5.1Menu ....................................................................................................................................... 38 5.2System Management............................................................................................................... 40 5.2.1System setting ................................................................................................................. 41 5.2.2Password modification .................................................................................................... 42 5.2.3Main Reset....................................................................................................................... 43 5.3Device Configuration.............................................................................................................. 44 5.3.1Loop card......................................................................................................................... 45 5.3.1.1Parameter setting .......................................................................................................... 45 5.3.1.2Auto Programming ....................................................................................................... 47 5.3.1.3Point Programming....................................................................................................... 49 5.3.2Annunciator Control Module .......................................................................................... 50 5.3.2.1Parameter setting .......................................................................................................... 51 5.3.2.2Point Programming....................................................................................................... 51 5.3.3Remote Display ............................................................................................................... 52 5.3.3.1Parameter setting .......................................................................................................... 53 5.3.3.2Label Download ........................................................................................................... 53 5.3.3.3Point Programming....................................................................................................... 54 5.3.4CBE Programming............................................................................................................... 54 5.3.4.1General Zone ................................................................................................................ 55 5.3.4.2Logic Zone ................................................................................................................... 55 5.3.5Device Control..................................................................................................................... 56 5.3.5.1Manual Output.............................................................................................................. 57 5.3.5.2Status Tracking............................................................................................................. 58 5.3.5.3Walk Test ..................................................................................................................... 58 5.3.5.4Loop Drill..................................................................................................................... 60 5.3.5.5Power Supply Management.......................................................................................... 60 5.3.6History Events .......................................................................................................................... 61 Section 6:Miscellaneous ....................................................................................................................... 62 6.1Safety Protection Device ............................................................................................................. 62 6.2Usage and Maintenance............................................................................................................... 62 6.3Common Troubles....................................................................................................................... 62 6.4Transportation & Storage ............................................................................................................ 63 6.5Out-of-box Audit......................................................................................................................... 63 Appendix A........................................................................................................................................... 64
Section 1:About This Manual 1.1Notes, Cautions & Warnings The following graphics appear in this manual to indicate a note, a caution, or warning:
Note: Information that highlights an important part of the preceding or subsequent text or illustration.
Cautions: Information about procedures that could cause programming errors, runtime errors, or equipment damage.
Warnings: Indicates
information about procedures that could cause irreversible damage to the control panel, irreversible loss of programming data or personal injury.
1.2Font Definition Special font styles used in this manual are listed in Table 1-1, Specifications of Manual Characters: Font 【Bold】 Script
Meaning Key on the control panel
Example Press the Silenced】
Name of document
N-6000 User Manual
Table 1-1 Specifications of Manual Characters
key
【 Signals
Section 2:System Overview 2.1Introduction The N-6000 is a new generation intelligent fire alarm control panel recently released by Notifier. This panel satisfies all related requirements defined in GB4717-2005. This control panel combines both alarm and CBE control functions. The N-6000 can also be programmed off-line when using a PC with Notifier Verifire Tools (NVT). The N-6000 fire alarm control panel has many intelligent characteristics; these include but are not limited to drift compensation, sensitivity adjustment and self-optimizing alarm. The N-6000 control panel with CBE (control by event) control can manage both alarm paging and gas extinguishing systems. The N-6000 connected with a CRT display terminal forms a comprehensive and reliable fire alarm control system, perfect for medium to large-scale facilities.
2.2Characteristics of the Product y Large LCD Display This system uses a large 320x240 pixel LCD display. To ensure accurate and timely detection the LCD displays a full Chinese interface (up to 320 Chinese characters), equipment type, location, alarm level, loop number and address number upon alarming. y User Friendly Interface The Menu contains all programming options. Software supports both English and Chinese input, full suggest and user friendly dialogue prompts. A user can conveniently toggle between the alarm information and CBE information screens. y Convenient Programming Options Multilevel pre-alarm and alarm sensitivity enable localizing detector sensitivity for different applications. Have the function of trouble disenable also can choose to disenable any addressing unit in loop bus. Auto programming allows the N-6000 to “learn” what devices are physically connected and automatically load them in the program with default values for all parameters. The functions mentioned above significantly ease system operation while reducing daily maintenance. y Real-time Analogue Display Curve Real-time threshold value variation monitoring is possible for both intelligent analogue detectors and/or compound detectors. y Powerful CBE Equations
y Accurate and Detailed Event Records The system automatically and categorically stores and records the latest fire alarm, trouble or system event. It can display and store up to 8000 historical events. y Automatic Compensation Functions Drift compensation allows the detector to retain its original ability to detect actual smoke, and resist false alarms, even as dirt or dust accumulates. It reduces maintenance requirements by allowing the system to automatically perform periodic sensitivity measurements. Smoothing filters are also provided by software to remove transient noise signals, usually caused by electrical interference. y Printing Settings The system can be networked and prompted to print the latest alarm event using a Chinese printer. y Equipped With 8 Bus Control Modules. Built-in Degraded Mode option. In the event of a CPU failure, the system is capable of general alarm if a fire condition is present. y Off-line Programming and CRT display terminal Connected with PC through the RS-232 interface, Screen of the control panel to realize programming setting on circuit configuration, CBE control relation of the control panel. Also can be connected with NCS through this Screen to carry out centralized management.
Section 3:System Configuration & Installation 3.1Features Main Performances y Supports 1 to 30 Signaling Line Circuits (SLCs). Up to 199 detectors and 99 modules (N.O. manual stations, two-wire smoke, notification or relay) per SLC y Loop connection ports available, expandable up to 15 loop circuit cards y Supports up to 64 remote LCD displays y Supports up to 32 MCU control card y Micro printer port y N-CRT port provided - seamless connection to a third party system y Fire alarm output and trouble output relays y Real-time clock
3.2Electrical Specifications y Voltage range Input voltage: 220 VAC Output voltage:
Two – 24 VDC non-resetable outputs
One – 24 VDC resetable output
Two – 5 VDC outputs
Several dry contacts - power supply trouble relay output
y Maximum output current: 14.6A
3.3System Configuration y Intelligent control panel: N-6000 y Remote display: LCD-100B, LDM-64B y Intelligent detectors:
Intelligent photoelectric smoke detector: ND-751P
Intelligent heat detector: ND-751T
Intelligent laser smoke detector: FSL-751
Intelligent smoke detector: FSB-200S
y Intelligent base:
B601
B501
y Intelligent modules:
Intelligent monitor module: MMX-7
Intelligent monitor/control module: CMX-7
Intelligent control module: CMX-7C
Monitor module for two-wire 24 VDC conventional detectors: MMX-7P
Isolator: ISO-7
Intelligent manual call point: M500K
Intelligent manual call point: M700K
y Micro printer: uPRT-380S y Chinese graphic and text management software: N-NCS, N-VFT
3.4System Block Diagram
Fig. 3-1 System Block Diagram
If there are many addressable units in the loop bus, user should install the shortcut isolator in front of the loop bus. The addressable units are less than 25 units between adjacent two isolators.
3.5Installation & Connection 3.5.1Enclosures Wall-mount designs use a standard NOTIFIER® C-type cabinet. This cabinet is shown in Fig. 3-2 Cabinet Appearance:
Fig. 3-2 Cabinet Appearance
Detailed cabinet dimensions are shown in Fig. 3-3:
Fig. 3-3 C-type Cabinet Dimension Diagram
All NOTIFIER cabinets are fabricated from 16-gauge steel. The cabinet assembly consists of two basic parts: a backbox and a locking door. The backbox has been
engineered to provide ease-of-entry for the installer. Knockouts are positioned at numerous points to aid the installer in bringing a conduit into the enclosure.
3.5.2Connection Requirements y All incoming/outgoing external conduits should use the control panel cabinet’s bottom knockout or opening for terminal connections. y Loop transmission line adopts twisted pair cable, the type and specification are: RVSP-2×1.5mm2 y Loop resistance (refers to loop resistance between the machine and two leads of the farthest addressing unit) should be less than 50 Ω. y Power wiring should use two-color multiple plastic cable, red for male terminal, black for female terminal. The type and specification are: RV-2×2.5mm2
3.5.3Connection of Circuit Board Terminals 3.5.3.1CPU Diagram Control panel includes in a circuit board, it has CPU and extend device interface. You can order the board supports for 8, 16, 30 loops. The connections terminals, jumper and status lights are showed below:
Fig. 3-4 CPU Diagram
Connections terminal illuminate table: Terminal
Illumination
TB1
System Event Relay1,programmable;Default is fire alarm trigger
TB2
System Event Relay12,programmable;Default is trouble trigger
TB3
System Event Relay13,programmable;Default is reset trigger
TB4
24VDCPower
TB5
RS-232 Micro printer port
TB6
RS-232 NIC port
TB7
N-CRT Port(VFT、third party system)
TB8
RPT port
TB9
Loop communication port
TB10
Extended device port(MCU/POM-8C/MPS)
J10
Loudspeaker ,see J15
J13
Power, loop and extended device channel aggregate terminal
J15
Buzzer; user can select J10 or J15 to be system sound component Table 3-1 CPU-6000 Board Terminal Illuminate
Jumper illuminate table: Terminal
Illumination
JP2
System Event Relay 1,output selection ,24Vor trunk node
JP3
System Event Relay 2,output selection ,24Vor trunk node
JP5
System Event Relay 3,output selection ,24Vor trunk node
JP9
ISP program write down jumper, user should cover jumper cap when ISP upgrade program
JP18
Loop RS485 communication match terminal resistance selection jumper
JP19
Loop RS485 communication match terminal capacitance selection jumper
JP21
Extended device RS485 communication match terminal resistance selection jumper
JP22
Extended device RS485 communication match terminal capacitance selection jumper
JP23
RPT RS485 communication match terminal resistance selection jumper
JP24
RPT RS485 communication match terminal capacitance selection jumper Table 3-2 CPU-6000 Board Jumper Illuminate
LED status illuminate table: Terminal
Illumination
LED1
System status normal;Green
LED2
System fire alarm and CBE event;Red
LED3
System trouble event;Yellow
LED4
System supervise event;Blue
LED5
Relay1;relay close is green
LED6
Relay2;relay close is green
LED7
Relay3;relay close is green
LED8
24VDC;Green
LED9
5VDC;Green
LED10
Micro printer channel signal send; signal on is green
LED11
N-CRT protocol channel signal send; signal on is green
LED12
Micro printer channel signal receive; signal on is green
LED13
N-CRT protocol channel signal receive; signal on is green
LED15
RPT channel signal receive; signal on is green
LED17
RPT channel signal send; signal on is green
LED18
Extended device channel signal receive; signal on is green
LED19
Loop channel signal receive; signal on is green
LED20
Extended device channel signal send; signal on is green
LED21
Loop channel signal send; signal on is green Table 3-3 CPU-6000 Status Light Illumination
3.5.3.2Power Supply Connection The N-6000 fire alarm control panel is powered by the MPS-350W power supply module. This power module provides multi-path 24 VDC and 5 VDC outputs. During a power loss the MPS-350W battery will automatically engage and provide power. LED displays indicate the status of multiple functions, including: main power trouble, reserve power trouble, grounding trouble, storage battery charging trouble and power supply relay output trouble. Refer to the MPS-350W user manual for additional information regarding function, connection and/or application of the MPS-350W power supply.
Fig. 3-5 Power Supply Connection Diagram
Connections terminal illuminate table: Terminal
Illumination
TB1
Non-resetable 24VDC terminal
TB2
Non-resetable 24VDC terminal
TB3
Resetable 24VDC terminal
TB4
Non-resetable 24VDC terminal
TB5
Non-resetable 24VDC terminal
TB12
Trouble relay trunk node terminal
TB13
RS-485 serial communication port terminal
TB14
Extended system supervise signal terminal Table 3-4 MPS-350 Terminal Illumination
Jumper illuminate table: Terminal
Illumination
JP1
Program jumper, user can not change
JP2
RS-485 bus terminal match capacitance
JP3
RS-485bus terminal match resistance
JP4/ JP5
Earth trouble function enable, disable Table 3-5 MPS-350 Jumper Illumination
LED status illuminate table: LED
Illumination
LED1
Non-resetable 24VDC fuse melt indication
LED2
Non-resetable 24VDC fuse melt indication
LED3
Resetable 24VDC fuse melt indication
LED13
Non-resetable 5VDC fuse melt indication
LED19
Non-resetable 5VDC fuse melt indication
LED23
Battery cut protect indication
LED24
Battery fuse melt indication
LED25
Power normal indication
LED26
Power trouble indication
LED27
Battery normal indication
LED28
Battery trouble indication
LED29
System running indication
LED30
Earth trouble indication Table 3-6 MPS-350 Status Light Illumination
3.5.3.3NIC-EC When N-6000 connect into N-NET fire alarm network, each control panel must install a NIC-EC card. Connection terminal, jumper and indicative show as below:
Fig. 3-6 NIC-EC Connection Diagram
Connections terminal illuminate table: Terminal
Illumination
TB1
Network port A
TB2
24VDC power port
TB3
NIC-EC and CPU-6000 communication port(RS232)
TB5
Network port A Table 3-7 NIC-EC Terminal Illumination
Jumper illuminate table: Terminal
Illumination
JP6
RS232 mode(leave factory set, not to change)
JP7
Open (leave factory set, not to change)
JP8
Open (leave factory set, not to change)
JP9
RS232 mode(leave factory set, not to change) Table 3-8 NIC-EC Jumper Illumination
LED status illuminate table:
LED1
Green
Port B signal output
Blink when signal output otherwise off
LED2
Green
Port B signal input
Blink when signal input otherwise off
LED23
Green
Port B information status
Status overturn after send or receive a frame information correctly
LED24
Yellow
Port B trouble
LED on when send or receive a frame information wrongly or check out communication error
LED25
Red
Port B circuit trouble
LED on when any trouble occur
LED3
Green
Port A signal output
Blink when signal output otherwise off
LED4
Green
Port A signal input
Blink when signal input otherwise off
LED20
Green
Port A information status
Status overturn after send or receive a frame information correctly
LED21
Yellow
Port A trouble
LED on when send or receive a frame information wrongly or check out communication error
LED22
Red
Port A circuit trouble
LED on when any trouble occur
LED5
Green
System running indication
Blink when running normally
LED6
Yellow
Control panel type indication
LED on when connect to CPU-6000
LED7
Red
Control panel type indication
LED on when connect to N-NCS
LED8
Green
+24V power status light
LED on when +24V power supply normally
LED9
Green
+5V power status light
LED on when +5V power supply normally
LED10
Green
TB3 port signal input
Blink when signal input otherwise off
LED11
Green
J9 signal input indication
Blink when signal input otherwise off
LED12
Green
TB3 port signal output
Blink when signal output otherwise off
LED13
Green
J9 signal output indication
Blink when signal output otherwise off
LED14
Green
Function reserve
—
LED15
Green
Function reserve
—
LED16
Red
Function reserve
—
LED17
Green
TB3 port information
Status overturn after send or receive a frame information
correctly LED18
Yellow
TB3 port trouble
LED on when receive information error
LED19
Red
TB3 port circuit trouble
LED on when receive information error
LED26
Blue
Function reserve
—
Table 3-9 NIC-EC Indicative Light Illumination
DIP switch network address setting table: SW2 1 2 3 4 5 6 7 8
status
Function
ON OFF ON OFF ON OFF ON OFF ON
1~6bits switch ON for 1,OFF for 0 Composing a 6 bits binary number, this number infer network card address. Network card address range is the number between 0~63. Network card address must be same as the connect device’s address.
OFF ON OFF ON
Relay mode
OFF
Bus mode
ON
N-NCS
OFF
CPU-6000
Table 3-10 NIC-EC Address Setting
3.5.3.4Loop Control Module Connection N-6000 support 15 LCM-2 cards, and 30 loops. LCM-2 support style 4 or T-type wiring. TB2 in LCM-2 board connect to CUP-6000 interface, the rest connect each other. LCM-2 can connect with twisted shielded pair cable: signal connect to TB2, power connect to TB3; also can connect each other through J2 and J4.
Fig. 3-7 Loop Control Module Connection Diagram
Connection terminal illuminate table: Terminal
Illumination
TB2
Connect to CPU-6000(RS485),also can connect to LCM card
TB3
24VDC power port
TB4
Loop 1 port(the loop number is SW1’s value)
TB5
Loop 2 port(the loop number is SW1’s value+1)
J2
Interlink port
J4
Interlink port Table 3-11 LCM-2 Card Terminal Illumination
Jumper illuminate table: Terminal
Illumination
JP1
Communication to CPU-6000 port terminal resistance (normal open)
JP2
Communication to CPU-6000 port terminal capacitance (normal open)
JP4
Switch to RS232 mode(leave factory set, not to change)
JP5
Switch to RS232 mode(leave factory set, not to change) Table 3-12 LCM-2 Card Jumper Illumination
LED Status Illuminate table: Terminal
Illumination
LED1
3.3V system power supply indication
LED2
24 V system power supply indication
LED3
5 V system power supply indication
LED4
CPU-6000 communication/LCM card local mode indecation
LED5
Loop 1 running indication
LED6
Loop 1 trouble indication
LED7
Loop 1 fire alarm indication
LED8
Loop 2 running indication
LED9
Loop 2 trouble indication
LED10
Loop 2 fire alarm indication
LED11
Communication to CPU-6000send indication
LED12
Communication to CPU-6000send indication Table 3-13 LCM-2 Card Status Light Illumination
DIP Switch Loop Number Setting table: SW1~8
1~8bits switch ON for 1,OFF for 0 Composing a 8 bits binary number, infer LCM card address. SW1 setting range is the odd number between 1~29 Table 3-14 LCM-2 Loop Number Setting
3.5.3.5MCU-16B Annunciator Control Module Connection N-6000 can connect MCU-16B. Support the manual control to output point of control module, and use LED to show the status of controlled points. MCU-16B includes 16 output indicative light, 16 feedback statuses light, 16 button to manual control, a complex function button, a enable/disable button and a manual/auto status light. Each manual control module can be programmed to any control module. Each feedback statuses light can be programmed to control an input device. Enable/disable button use to enable or disable 16 manual control buttons. MCU-16B connects to N-6000 by RS-485 port, this port can support 32 MCU-16B.
Fig. 3-8 Annunciator Control Module Connection Diagram
Connection terminal illuminate table: Terminal
Illumination
TB1
24VDC power port
TB2
Connect to CPU-6000(RS485)
J1
Interlink port
J3
Interlink port Table 3-15 MCU-16B Terminal Illumination
Jumper illuminate table: Terminal
Illumination
JP1
Open(leave factory set, not to change)
JP2
Communication to CPU-6000 port terminal resistance (normal open)
JP3
Communication to CPU-6000 port terminal capacitance (normal open)
JP4
Switch to RS232 mode(leave factory set, not to change)
JP5
Switch to RS232 mode(leave factory set, not to change)
JP6
Buzzer switch(default shortcut, enable) Table 3-16 MCU-16B Jumper Illumination
LED Status Illuminate table:
Terminal
Illumination
LED1
24 V system power supply indication
LED2
5 V system power supply indication
LED3
3.3 V system power supply indication
LED4
System running indication
LED39
Communication to CPU-6000send indication
LED40
Communication to CPU-6000send indication Table 3-17 MCU-16B Status Light Illumination
DIP Switch Loop Number Setting table: SW2 1 2 3 4 5 6 7 8
status
function
ON OFF ON
1~8bits switch
OFF ON OFF ON OFF
ON for 1,OFF for 0 Composing a 5 bits binary number, this number +1 infer MCU’s address. MCU’s address range is the number between 1~29
ON OFF ON OFF ON OFF ON
NONE NONE NONE
Table 3-18 MCU-16B Network address setting
3.6Equipment Debugging 3.6.1Connection Inspection y Visually inspect the control panel condition y Visually inspect the external connection ports y Open the control panel and visually inspect all connections. Confirm connections are correct, that there are no loose connections, no short circuits, unplugged or
disconnected connectors as well as confirm the power supply does not have any short circuit trouble. y Visually inspect the jumpers in the circuit to confirm there are no duplicate numbers.
3.6.2Power-on Inspection After you have finished the visual inspection, power-on the battery power supply. With the battery started a buzzer should be heard and the LCD should temporarily function normally. Once the control panel enters normal operation status, a buzzer and LED horn/strobe will indicate a troubled status because main power is not connected. Power-down and disconnect the battery power supply then connect and power on the main power supply. Once the control panel enters normal operation status, a buzzer and LED horn/strobe will indicate a troubled status because the battery power supply is not connected. At this time, connect the battery power supply. Soon after the control panel will return to normal operating status. During normal operation, if both the main and battery power supplies are connected the power supply status lamp (on the main panel of the control panel) will maintain normal illumination. When the main power supply fails because of loss of power, poor power connection, an over-voltage or under-voltage of 5V and 24V, or a short circuit with rack earth and communication trouble with the mainframe, the power supply status lamp (on main panel of the control panel) illumination will stop. Then both a buzzer and LED horn/strobe will indicate a troubled status while additional information will be shown on the control panel LCD.
3.6.3External Connection Look for any short-circuits or disconnections to and from the control panel. Once everything has been inspected, connect the control panel. Batch installation -- connecting 10-20 detectors or modules on the loop per time -is highly recommended. After installing the detectors or modules restart the control panel to ensure the newly installed devices are recognized and installed correctly. If the control panel gives a trouble signal recheck the circuit and addressable devices are installed properly. Once the trouble signal has been solved, continue batch installation and power testing. After all the devices have been installed, the simulated trouble, fire alarm and CBE event functions maybe tested. Confirm that the control panel alarms normally, properly links field equipment and accurately prints corresponding alarm information. Continue testing and adjusting until panel maintains normal operating status.
3.6.4Important Points y Avoid touching the circuit board IC chip during installation y Pay attention to polarity during connection and installation
y Before starting the system, check for short circuits, disconnection or reverse polarity y Connectors among leads shall be wielded and inter-line insulation shall be guaranteed.
3.6.5Inspection Methods for Addressable Device Connections To test the function of the multi-meter, connect the loop in reverse polarity (the positive pole connects with the loop negative and the negative pole connects with the loop positive). The multi-meter should indicate a bias value for the diode. Then connect the multi-meter normally (positive pole connects with the loop positive and negative pole connects with the loop negative). The multi-meter should indicate a low resistance value that increases with the charging of the loop capacitor. If after proper polarity connection the multi-meter still indicates a bias value for the diode, there is one or more addressable device(s) connected in reverse polarity.
Section 4:Operation 4.1LED Indicators and Keys 4.1.1Control Panel Display LED Indicators and Keys The N-6000 is an intelligent addressable Fire Alarm Control Panel (FACP) with advanced features ideal for a variety of applications. The CPU-6000 includes a front display/keypad enabling localized control panel viewing and programming. The display/keypad provides an easy-to-use keypad and large LCD (liquid crystal display) that simplifies the programming process. The display is 53 characters wide by 20 lines long and displays all programming screens. These include the events, history, devices as well as other additional information. Fields may be entered or changed and commands may be issued using the display keypad.
Fig. 4-1 Display/Keypad Diagram
•
LED Lamp Status
LED Indicator
Color
Functions
Fire alarm
Red
Illuminates when at least one fire alarm event exists. It will flash if any of these events are unacknowledged.
Pre-alarm
Red
Illuminates when at least one pre-alarm event exists. It will flash if any of these events are unacknowledged.
Trouble Power Self-test
Yellow Illuminates when at least one trouble event exists. It will flash if any of these events are unacknowledged. Green
Indicates current status of the power supply. During normal communication with the power supply, the lamp will flash.
Yellow Indicates the system is in self-test status. The LED will remain lit during the self-test.
CBE
Red
I/O module is functioning properly or there is a feedback signal.
Delay
Red
If the control panel has a delayed control output the LED will remain illuminated throughout the delay period. It will turn off upon termination of the delay period.
Signal Silenced
Yellow Illuminates if NFS-3030 Notification Appliances have been silenced. It flashes if some but not all of the N-6000 NACs have been silenced.
Point Disabled
Yellow Illuminates when at least one device has been disabled. It will flash until all disabled points have been acknowledged.
Supervisory CPU Failure
Red
Illuminates when at least one supervisory event exists. It will flash if any of these events are unacknowledged.
Yellow Illuminates if there is an abnormal hardware or software condition. Contact technical support. The panel is out of service when this LED is illuminated or flashing. Table 4-1 LED Indicator Description
• Operation Keys: 【A-a】: Caps lock key 【Space】: During programming, change the status of the check box to and change back to when finished 【Backspace】 : Backspace key 【Menu】 : Press to enter the menu 【Help】 : Help key 【PREV】 / 【NEXT】: Press to skip to the previous/next control screen
【ESC】 : Escape key 【Enter】: Key to acknowledge input 【TAB】 : Switch key, same as the 【NEXT】 key 【】 : Previous page/next page 【△】 / 【▽】 : Previous event/next event • Fixed Function Keys: 【Acknowledge】: Acknowledge event operation 【Signals Silenced】: 1. Press for less than 1 second: carries out silencing operation on peripheral equipment 2. Press for longer than 1 second: system exercise (please refer to relevant topics under loop card setting) 【Fire alarm/Pre-alarm】: 1. Press for less than 1 second: query fire alarm event 2. Press for longer than 1 second: query pre-alarm event 【Trouble/ Horn / Strobe】: Carry out query operation during trouble event 1. Press for less than 1 second: query trouble event 2. Press for longer than 1 second: query horn/strobe event 【Supervision/Feedback】: Carry out query operation on supervision event 1. Press for less than 1 second: query supervision event 2. Press for longer than 1 second: query feedback event 【CBE/Delay】: 1. Press for less than 1 second: query CBE event information 2. Press for longer than 1 second: query the logic zone in delay status with a logic value of TRUE 【Manual/Automatic】: Control manual/automatic execution link 【Lamp inspection/Self-test】: System lamp inspection/self-test 【Reset】 : Reset system operation
4.1.2Annunciator Control Module LED Indicators and Keys
Fig. 4-2 Bus Control Module Schematic Diagram
The annunciator control module has a total of 32 indicating lamps, 16 keys and 16 feedback signals. • One composite button: Time function key has 3 functions 1、Press for about 1 second: LED lamp below the key will illuminate locking the control key module 2、Press for more than 1 second: LED lamp on the right side of the key will illuminate with manual/automatic allowed 3、Press for more than 4 seconds: horn/strobe self-test • No. 1-16 Start Keys: -Press a key and the corresponding feedback signal a (Lamp 1-16) flash, means corresponding key has been pressed.
which
-When a feedback indicating lamp (Lamp 1-16) flashes, it indicates that an operational signal from CBE equipment has been received and the corresponding CBE equipment will be started.
4.2Power-on Connect 220V AC power, and then turn on the main power supply using the switch inside the cabinet. Power-on Screen is shown in Fig. 4-4:
Fig.4-3 Power-on Screen
4.3System Self-test
Fig. 4-4 System Self-test Screen
After the N-6000 has been turned on, it will self-test both the hardware and software of the system. During the self-test all LED indicating lamps on the left side of the mainframe panel will flash. Once the self-test has finished a buzzer will sound and LEDs will temporarily illuminate after which the panel will return to a
normal operation status. Additionally, the system will show the display screen while the power supply indicating lamp continues to flash. After a self-test, the system will show the following screen:
Fig. 4-5 Normal System Screen
The normal system screen is divided into three bars; these include the event statistics bar, the alarm screen bar and the status bar. The event statistics bar shows fire alarms, trouble alarms, supervision, CBE and point disabled locations. The status bar shows the node number, manual/automatic status, transmission equipment status, main or reserved power supply status, the current date/delay status of the latest logic zone as well as the current time. ①Manual/Automatic Status ——System in manual status ——System in automatic status
②Transmission Equipment Status ——Both delivery and feedback ——Transmission equipment in delivery status ——Transmission equipment in feedback status ——Transmission equipment in normal status without delivery or feedback ——Transmission equipment in Point disabled status ——Transmission equipment in trouble status ③Operation Status of the Main or Reserved Power Supply ——Main power normal ——Low voltage in main power ——Trouble in main power ——Battery normal
——Low voltage in battery ——Battery disconnected Current date/delay status of the latest logic zone, this item can show the current date. When CBE appears, it will also show delay status information of the latest logic zone. For example: , where “ZL0099” means logic zone number 99 and “00001” means that CBE will output after a 1 second delay.
4.4Event Display • Event Order: First: Fire alarm, CBE, feedback Second: Supervision Third: Trouble Fourth: Point Disabled - disabled
4.4.1Trouble Screen
Fig. 4-6 Trouble Screen
When the control panel detects a failing power supply or other trouble, it will execute a series of operations: • A trouble relay will be activated and the control panel will alarm • A system trouble indicating lamp on the control panel display will flash and the LCD will show a trouble screen • Detailed trouble type will show the exact geographic location and occurrence time on the LCD
• A trouble event will be saved to the native Flash ROM and the printer will print a record of the trouble event Press the 【△】 key or the 【▽】 key on the main panel to review the previous or next trouble event and press the【】key to page up or down. Press 【ACK】 key on the main panel to acknowledge, and all trouble events will be shown one by one. Once the alarm has silenced and all trouble events have been acknowledged, the system trouble indicating lamp on the main panel will return to its normal illumination. The most common trouble events include but are not limited to: equipment off-line, grounding the equipment’s positive terminal, grounding the equipment’s negative terminal, the equipment’s positive terminal is disconnected, the equipment’s negative terminal is disconnected, power supply shows low voltage, power supply shows high voltage, unmatched load types, low threshold values, database errors.
4.4.2Fire Alarm Screen
Fig. 4-7 Fire Alarm Screen
When a detector or monitoring module is activated (fire alarm detected), the control panel will execute a series of operations: • A system alarm relay will be activated and the control panel will alarm • A fire alarm indicating lamp on control panel display will flash and the LCD will show a fire alarm screen. • Detailed fire alarm name will show the exact geographic location and occurrence time on the LCD. • Alarm information will be saved to the native Flash and the printer will print a record of the alarm event. Press the 【△】 key or the 【▽】 key on main panel to review the previous or next fire alarm event and press the 【】 key to page up or down. Press the 【OK】 key on main panel to acknowledge, and all fire alarm events will be shown one by one. Once the alarm has silenced and all fire alarm events have been
acknowledged, the system fire alarm indicating lamp on the main panel will return to its normal illumination.
4.4.3Supervisory Screen
Fig. 4-8 Supervision Screen
The monitoring modules produce monitoring style codes. Once a monitoring module has been activated, the control panel will execute a series of operations: • A monitoring relay will be activated and the control panel will alarm • A supervision indicating lamp on the control panel will flash and the display will show the supervision screen • Monitoring information will be saved to the native Flash and the printer will print a record of the supervision event Press the 【△】 key or the 【▽】 key on main panel review the previous or next fire alarm event and press the 【】 key to page up or down. Press the【OK】key on main panel to acknowledge all supervision information has been shown. Once the alarm has silenced and all the supervision events have been acknowledged, the supervision indicating lamp on the main panel will return to its normal illumination.
4.4.4Point Disabled Screen
Fig. 4-9 Point Disabled Screen
When a point disabled location exists in a loop, each disabled point (detector, module, and loop) will be shown one by one (see Fig. 4-10). The control panel will execute a series of operations: • A point disabled indicating lamp on the control panel will flash but the control panel will not alarm • A point disabled indicating lamp will be illuminated • The point disabled information will be saved to the native Flash and the printer will print the current point disabled information Press the 【△】 key or the 【▽】 key on main panel of the control panel to review the previous or next point disabled event and press the 【】 key to page up or down. Press 【OK】 key on main panel of the control panel to acknowledge all Point disabled information has been shown. Once the alarm has silenced and all point disabled events have been acknowledged, the point disabled indicating lamp on the main panel will return to its normal illumination.
4.4.5CBE Screen
Fig. 4-10 CBE Screen
4.4.6Pre-alarm Screen To enter the pre-alarm screen and also query the pre-alarm screen keep pressing the 【Fire alarm/Pre-alarm】composite key on the main panel. The pre-alarm screen is shown below:
Fig. 4-11 Pre-alarm Screen
4.4.7Horn / strobe Screen To enter the horn/strobe screen and also query the horn/strobe screen keep pressing the 【Trouble/Horn/Strobe】 composite key on the main panel. The horn/strobe screen is shown below:
Fig. 4-12 Horn/Strobe Screen
4.4.8Feedback Screen To enter the supervision/feedback screen and also query the supervision/feedback screen keep pressing the【Supervision/Feedback】composite key on the main panel. The supervision/feedback screen is shown below:
Fig. 4-13 Feedback Screen
Section 5:Programming 5.1Menu
System Setting System Management
Modify Password Main Reset Setting LCM
Auto Programming Point Programming
Setting DCU Point Programming Device Configuration Setting MCU Point Programming
Menu
Setting Remote Display
Download Labels Point Programming
General Zone CBE Programming Logic Zone
Manual Output Status Track Device Control
Status Track Walk Test Power Management
History Event
Fig. 5-1 N-6000 Schematic Menu Diagram
When programming the control panel or reviewing history events, press the 【Menu】 key to view the following screen:
Fig. 5-2 User Login Screen
Once a user has entered the correct password, he/she will enter the main menu and view the following screen. In the main menu screen, he/she can update or change the system management, device configuration, CBE programming, device control and history events.
Fig. 5-3 Main Menu Screen
5.2System Management Under “System management” the operator has 3 options; (1) System setting, (2) Modify Password, or (3) Main Reset. The system management screen is shown as follows:
Fig. 5-4 System Management Screen
5.2.1System setting Under “System Setting” the following screen will be shown:
Fig. 5-5 System Setting Screen
Line 1: The node is the control panel’s address within the network while the label is a description of the control panel Line 2: If “ (YES)” is selected for the time server option, then this control panel is the time master within the network and all other panels will synchronous accordingly. Click the button “time & date” to set the time and date of the control panel Line 3: Language—determines the language of the control panel display. At present two languages are currently available: Chinese and English Line 4: Backlight—the duration of time the LED display remains lit. There are four choices available: Normal Open, Normal Close, Off in 30 Seconds and No Display.
Line 5 to Line 7: Relays—there are 3 relays each with 7 operational modes: ① Disabled—the relay is disabled ② Fire alarm output—the relay will close upon fire alarm ③ Trouble output—the relay will close during trouble status ④ CBE—the relay will close during CBE ⑤ Supervision—the relay will close during supervision ⑥ CBE logic output—the relay will only be used in CBE output expression. When the value of located expression is true, the relay will close and re-open in the opposite condition ⑦ Reset output—the relay will close during normal operation or when the system is being reset. Line 8& Line 9: COM—2 serial ports each with 4 operational modes: Degradation CBE: “ (YES)”/ “ (NO).” The default status “ Normal Open. Degradation CBE only works when enabled
(YES)” is
Fire Alarm Verification: “ (YES)”/ “ (NO).” The default status is “ (YES).” This function has a time sensitive fire alarm, ensuring an alarmed status will be accurate. This setting can greatly reduce false alarms and improve system efficiency Failover: “ (YES)”/ “ (NO).” The default status is “ (NO).” Failover is the trouble display switch for the whole control panel. If “ (YES)” is chosen, all trouble signals will be disabled without any display or alarm although a history record is still maintained Main Power Supply: “ (YES)”/ “ (NO).” The default status is “ which installs the main power supply for the control panel
(YES),”
Reserved Power Supply: “ (YES)”/ “ (NO).” The default status is “ which installs the reserved power supply for the control panel
(YES),”
Reset Verification: “ (YES)”/ “ (NO).” The default status is “ (NO).” If “ (YES)” is chosen, a password needs to be entered before resetting. If “ (NO)” is chosen, a password does not need to be entered before resetting
5.2.2Password modification Under “Password modification,” a user can modify his/her password according to their system status (Admin, Engineer, or Guest). The password modification screen is shown below:
Fig. 5-6 Password Modification Screen
The N-6000 has 3 different user levels, each level is password protected. The three levels are (ordered from highest to lowest) Administrator, Engineer and User. Each level has its own password. The Administrator user can modify any password in the system (including the Administrator level). The User can only operate on the 4th setting, “Device Control” and the 5th setting, “History event.” The Engineer can operate all five settings in the menu but will be interrupted (exit programming) when an alarm event occurs. The Administrator can operate all five settings in the menu and will not be interrupted during an alarm event. Factory default passwords are as follows: 333333 for Administrator, 222222 for Engineer and 111111 for User. After the initial login the user will enter the password modification screen. He/she can change the password by entering a new password in the “Enter new password” dialogue box and then re-entering the new password in the “Confirm new password” dialogue box. Once the system has confirmed the two passwords are the same, the user should press 【OK】 to confirm the password change. After the user has pressed 【OK】 the password will be successfully modified, to cancel the previous operation press the 【Cancel】 button. Note: If an incorrect password is entered, the system will show another dialogue box requesting the correct password be entered.
5.2.3Main Reset In the “System Setting” screen choose “Main Reset” to reset the system to all default factory settings.
Fig. 5-7 Main Reset Screen
After the correct Administrator password has been entered, a dialogue box will prompt to verify the “Main Reset” choice. Press “OK” to confirm the reset and restore default factory settings. Press “Cancel” to cancel the operation and exit the screen.
5.3Device Configuration Choose the “Device Configuration” screen to adjust the settings of the loop cards, multi-line control modules, annunciator control modules and repeaters. Screen shown below:
Fig. 5-8 Device Configuration Screen
5.3.1Loop card In the “Device Configuration” screen, choose the “LCM” option to enter the screen shown below in Fig. 4-23:
Fig. 5-9 Loop Card Screen
5.3.1.1Parameter setting In the “LCM” screen, to adjust the settings and program options, choose “Setting,” “Auto Programming,” or “Point programming.” The screen is shown in Fig. 4-24:
Fig. 5-10 Parameter Setting Screen
Line 1: LCM- Loop number. Line 2: Name- Loop Description Line 3: Installation status – these include: Uninstalled, Normal, and Disabled. Line 4: Time Rapid Polling - the number of preferential in-process checks, the default value is 0. This option controls both the point and card level settings. The card level setting determines the preferential times while the point level setting determines whether the point needs the preferential in-process check. The loop card will carry out preferential in-process checks on the load points where “Preferential in-process check” has been activated. Line 5: Style 4 Wiring - “ (YES)”/ “ (NO).” The system default status is “ (YES).” Using style 4 wiring the circuit status can be monitored through the ring circuit line voltage. The system will detect differences between the positive and negative circuits to monitor if a disconnection trouble within the loop occurs. If the wiring connection does not use style 4 configuration, the mainframe will report a disconnection trouble. Line 6: Local Mode - “ (YES)”/ “ (NO).” If “ (YES)” is selected, the local CBE setting will be effective within the loop. Line 7: Silenceable - “ (YES)”/ “ (NO).” This option controls both the point and card level settings. By programming definition the point level setting is the same as the card level setting. When “ (YES)” is chosen and a horn/strobe alarm or alarm bell activates, the user can press 【Signals Silenced】 on main panel of the control panel to silence the alarmed equipment. If “ (NO)” is selected, the user cannot silence the alarmed equipment using the 【Signals Silenced】 button. Line 8: Address Conflict - “ (YES)”/ “ (NO).” If “ (YES)” is selected, during inspection the system will search for device address duplications within a loop. If duplication is found, the panel will show a prompt with further instructions. If “ (NO)” is chosen, the detector will not report duplicate addresses. Line 9: L+ Ground Fault Detect - “ (YES)”/ “ (NO).” When “ (YES)” is selected and a positive end of the loop is grounded, the system will report positive
end grounding trouble. If “ (NO)” is chosen, the system will not report positive end grounding trouble. There are three function keys, “Sync,” “Save,” and “Quit” in the status bar. The “Sync” button allows the operator to download parameter settings (both card level and point level settings). The “Save” button saves the changes that have been selected. The “Quit” button allows the user to quit without saving the changes.
5.3.1.2Auto Programming
Fig. 5-1 Automatic Login Screen
Each loop has 3 status options: Installed, Uninstalled, and Disabled. During normal installation, the programmer may enter the “Auto Programming” screen. When he/she selects a loop number for automatic programming and then presses “OK,” the system will verify each device on the selected loop. Caution: When either a CMX-2 control module or a M500K call point are on a loop using “Auto Programming” the control panel will misidentify the CMX-2 as a CMX-7(C) and misidentify the M500K as an MMX-7. When this happens, the user should enter 4.5.2.1.3 Point Programming screen (device configuration→ LCM→point programming) to modify the device identity by selecting the proper equipment type.
Fig. 5-12 Automatic Programming
Upon completion of auto-programming, the quantity, type, and status of each device on the loop will be automatically shown. This is a convenient time for system operators to inspect, check, and manage the connected field devices. Press the【△】key or the【▽】key to review the address and type of each point installed on the loop. The screen is shown in Fig. 5-13:
Fig. 5-13 Auto Programming
5.3.1.3Point Programming
Fig. 5-14 Point Programming Screen
To set all loop points, select the programming screen. Line 1: Displays the loop number, device address, and installation status. These include: Uninstalled, Normal, and Disabled. Line 2 & Line 3: Displays the selected address point description and additional details. Programmer can individualize entries. Line 4: Displays the alarm type of the selected address point. These include: Fire alarm, Supervision, Feedback or General Output. Line 5 & Line 6: Displays the type and model of the connected equipment. Line 7: Displays the LED mode of the selected equipment. These include: NORMAL BLINK, NORMAL ON and Normal OFF. Line 8: Displays the current loops correlation mode. These include: none, previous point correlation, next point correlation, or both next and previous point correlation. Line 9 & Line 10: Displays the Fire alarm, Pre-alarm, and Trouble level settings. Note: Different detector models will have different corresponding alarm thresholds even when the control panel setting is the same. See Appendix A for details. • Coincident Address Code: “ (YES)”/ “ (NO).” If “ (YES)” is selected, during inspection the system will search for device address duplications within a loop. If duplication is found, the panel will show a prompt with further instructions. If “ (NO)” is chosen the system will not report duplicate addresses. • Walk Test: “ (YES)”/ “ (NO).” If “ (YES)” is selected, pressing the 【Self-test】 key on the mainframe will cause the system to inspect all connected devices within the loop. During inspection all verification lamps will be normally illuminated. If a verification lamp does not illuminate, that device has failed inspection. If “ (NO)” is selected, the condition shall be opposite.
• Local Mode: “ (YES)”/ “ (NO).” The factory default setting is “ (NO).” This option controls both the point and card level settings. By programming definition the point level setting is the same as the card level setting. If the loop card and mainframe have a communication failure all selected modules (degradation mode) will automatically output a fire alarm signal. • Silenceable: “ (YES)”/ “ (NO).” When “ (YES)” is chosen and a horn/strobe alarm or alarm bell activates, the user can press 【Signals Silenced】 on main panel of the control panel to silence the alarmed equipment. If “ (NO)” is selected, the user cannot silence the alarmed equipment using the 【Signals Silenced】 button. • Switch Inhibited: “ (YES)”/ “ (NO).” When “ output point operation is inhibited.
(YES)” is chosen manual
• Resetable: “ (YES)”/ “ (NO).” When “ (YES)” is selected, the equipment will automatically reset all output signals when the system is reset. • Drift Compensation: “ (YES)”/ “ (NO).” When “ (YES)” is selected, the system will restrain individual sensors from automatically performing drift compensation. • Rapid Polling: “ (YES)”/ “ (NO).” When “ (YES)” is selected, the system will increase the frequency of in-process inspection on the loop thus increasing the sensitivity of the equipment. • Alarm Verification: “ (YES)”/ “ (NO).” When “ (YES)” is selected, there will be an adjustable delay in the alarm period after a preliminary alarm has registered, allowing time for the alarm to be verified before sending a general alarm. Should an alarm condition still exist after verification, the panel will then go into alarm. Verification time is adjustable (in second’s intervals) and can be customized by using the edit feature on the right side of the alarm verification label.
5.3.2Annunciator Control Module In the “MCU” screen, a programmer can access the “Setting” and “Point programming” options for an annunciator control module.
Fig. 5-15 Annunciator Control Module Screen
5.3.2.1Parameter setting
Fig. 5-16 Parameter setting Screen
Line 1: MCU—Select the MCU number. Line 2: Description—Describe the selected MCU. Line 3: Set the current MCU status. These include: Uninstalled, Normal and Disabled. Press “Save” to save the current settings. If the user presses “Exit” without saving, the following dialogue box will be prompted. At this time the user can also save the current settings. The user can also exit the current screen to retain previous settings; the current settings will not be saved.
5.3.2.2Point Programming Point Programming of MCU can access to set the relative module address of keys and feedback led.
Fig. 5-17 Point Programming Screen
5.3.3Remote Display In the “Remote Display” screen, a programmer can access the “Setting,” “Download Label” and “Point Programming” option screens. One N-6000 fire alarm control panel can have up to 64 remote displays.
Fig. 5-18 Remote Display Screen
5.3.3.1Parameter setting
Fig. 5-19 Parameter setting Screen
Line 1: Remote display—Displays the remote display number. Line 2: Description—Describes the selected remote display. Line 3: Set the current remote display status. These include: Normal, Disabled and Uninstalled. Press “Save” to save the current settings. If the user presses “Exit” without saving, the following dialogue box will be prompted. At this time the user can also save the current settings. The user can also exit the current screen to retain previous settings; the current settings will not be saved.
5.3.3.2Label Download
Fig. 5-20 Download Label Screen
In the “Download Label” screen a programmer can view detailed information by selecting the desired floor repeater number and pressing “OK.” At this time, the
system will download relative content for each point in the selected repeater floor display. If past events have occurred in the selected equipment points, all previously downloaded contents will also be shown on the remote display. This allows field operators to update equipment settings for optimal device function.
5.3.3.3Point Programming
Fig. 5-21 Point Programming Screen
Line 1: Displays the remote display number, point number and installation status. These include: Uninstalled, Normal, and Disabled. Line 2: Displays the current remote display point description Line 3: Point Mapping—Each remote display can have up to 64 points. Each point must have a specific zone and loop address. After each point has been mapped, during an event (fire alarm, trouble, etc) the mapped equipment’s location and event will be shown on the relative remote display screen. Press “Save” to save the current settings. If the user presses “Exit” without saving, the following dialogue box will be prompted. At this time the user can also save the current settings. The user can also exit the current screen to retain previous settings; the current settings will not be saved.
5.3.4CBE Programming In the “CBE Programming” screen programmers can access both the “General Zone” and “Logic Zone” setting screens.
Fig. 5-22 CBE Programming Screen
5.3.4.1General Zone Within the “General Zone” screen a user can select zones 0-499 to review the relative logic equation of a particular zone. Use the VFT programming software to modify the logic equations as necessary.
Fig. 5-23 General Zone
5.3.4.2Logic Zone Within the “Logic Zone” screen a user can select zones 0-999 to review the relative equation of a particular zone. Use the VFT programming software equation to modify the logic equations as necessary.
Fig. 5-24 Logic Zone
5.3.5Device Control In the “Device Control” screen a user can access the “Point Output,” “Status Tracking,” “Walking Test,” “Loop Exercise” and “Power Supply Management” setting screens.
Fig. 5-25 Device Control Screen
5.3.5.1Manual Output
Fig. 5-26 Manual Output Screen
Within the “Point Output” screen a user can set the loop number, address number, type of equipment, label and the inspection lamp ON/OFF status. Press the 【△】 key or the 【▽】 key to review a points’ status. Line 1: Displays the current loop number, address and status. These include: Uninstalled, Normal and Disabled. Line 2 & Line 3: Displays the current point description and extended description. Line 4: Displays the current point alarm type. These include: Fire Alarm, Supervision, Feedback and General Output. Line 5 & Line 6: Displays the current equipment type and model. Line 7: Displays the selected output module status. If the user chooses “Start” and then presses “OK”, the point in the current loop will be output by the module; if set at “Close”, the point will not be output by the module.
5.3.5.2Status Tracking
Fig. 5-27 Status Tracking Screen
Within the “Status Track” screen a user can set the loop number, address number, address type as well as monitor the point. Line 1: Displays the current loop number, loop address and its status. These include: Uninstalled, Normal and Disabled. Line 2 & Line 3: Displays the current point description and extended description. Line 4: Displays the current point alarm type. These include: Fire Alarm, Supervision, Feedback and General Output. Line 5 & Line 6: Display the current equipment type and model. Line 7: Displays the current point status.
5.3.5.3Walk Test
Fig. 5-28 Walk Test Screen
Within the “Walk Test” screen a user can set the loop number, address number, address type as well as run a walking test on a particular loop. Line 1: Displays the loop number, current address and installation status. These include: Uninstalled, Normal and Disabled. Line 2 & Line 3: Displays the current point description and extended description. Line 4: Displays the current point alarm type. These include: Fire Alarm, Supervision, Feedback and General Output. Line 5 & Line 6: Displays the current equipment type and model. After adjusting the systems settings, pressing the【Lamp inspection/Self-test】key on main panel will cause the control panel to run a self-test on the current loop. During this test, both the self-test indicating lamp and the load verification lamp will be normally illuminated. Press “Review the Result” to view every address in the current walk test, the addresses will be displayed on the right hand side of the walk test interface screen (Fig. 4-50).
Fig. 5-29 Walk Test Address Screen
Press “OK” to control current point set in the loop.
5.3.5.4Loop Drill
Fig. 5-30 Loop Drill Screen
5.3.5.5Power Supply Management
Fig. 5-31 Power Management Screen
N-6000 fire alarm control panel uses the MPS-350W power supply. Within the “Power Management” screen the user can review the current status of each power supply. Line 1: Displays the currently connected power supply type. The MPS-350W is the primary power supply for the N-6000. Line 2: Displays the current status and voltage of the main power supply. Line 3: Displays the current status and voltage of the reserved power supply. Line 4: Press 【Discharge】 to discharge the power supply. Press 【Stop】 to stop discharging. Press 【Exit】 to exit the power supply control screen.
5.3.6History Events Within the “History Events” screen a user can access the systems history records/events. This screen is seen below:
Fig. 5-32 History Event Screen
Line 1: Displays the type of history event. History event types include but are not limited to: fire alarm, trouble, supervision, CBE and Isolation. When “All Events” is selected, detailed information will be provided for each event. If “All Events” is not selected the user must select a particular event to view the additional and detailed information. Line 2: Displays the total number of events that can be reviewed. Line 3: Displays the status of the current event. The operator may obtain detailed information about the current event including location, type, time of occurrence, serial number, as well as additional information from the following text box. Line 4: Press 【Exit】 to exit the history event screen. Pressing the【NEXT】key or the【PREV】key on main panel of the control panel, a user can review the detailed description of the next or previous history event. N-6000 can record and display up to 8000 individual history events.
Section 6:Miscellaneous 6.1Safety Protection Device The N-6000 has been designed with built-in safety devices to protect both the operator and control panel in case of improper use and/or installation. These devices include an anti-misplug terminal which can endure extremely high voltage and current ensuring the safety of both operators as well as the control panel. Additionally the control panel has current limiting protection for the power supply, protection circuits for communication devices, and special grounding terminals provided within the cabinet.
6.2Usage and Maintenance To ensure consistent and reliable operation the following items should be observed and followed: • The control panel must be installed and debugged by qualified technicians • The operator on duty should be familiar with the current building structure as well as understand all possible control panel events and operations • An operator should monitor the control panel status to eliminate various trouble signals and prevent alarm signals when possible • If a power failure exceeds 8 hours, the reserve power supply should be disconnected to avoid damage due to over-discharge • If additional construction is performed in the protected building, shut down the control panel to ensure fire detection capabilities are not compromised • During any status other than operation (transportation, storage, etc), the reserve power supply should be disconnected from the control panel
6.3Common Troubles The N-6000 has advanced features such as self-diagnosis and self-protection; however even with the advanced technology an occasional trouble signal is unavoidable. Table 5-1 has additional information regarding common troubles. Trouble Main power supply trouble
Reserved power supply trouble
Cause analysis
Solution
Poor AC220V connection
Re-connect the power supply
Fuse blowing out due to external short circuit or over-current
Replace the fuse
Poor plug connection
Check connectors
Reserved power supply damaged
Replace supply
reserved
AC220V
power
Trouble
LCD display fails
Keypad fails No sound
Short circuit in loop
Inaccurate clock
Cause analysis
Solution
Fuse blowing out due to external short circuit or over-current
Replace the fuse
Poor connection between LCD and display module card
Check connectors
Failure to regulate the luminance
Regulate the luminance
Backlight improperly
connected
Disconnect and plug the socket in again
Soft panel socket block connected improperly
Disconnect and plug the socket in again
Loudspeaker improperly
Disconnect and plug the socket in again
socket
socket
connected
Short circuit in loop bus
Clear short circuit
Reverse connection of addressing unit
Check connection of the addressing unit
Clock chip M410T socket connected improperly or damaged
Replace clock chip M410T
Table 5-1 Common Troubles For additional trouble not found in Table 5-1 please contact the dealer or manufacturer directly.
6.4Transportation & Storage After a post-factory inspection, the control panel can be stored. During storage the control panel must be stored under normal atmospheric condition, ambient temperature and in a dry room for a maximum of 6-months. During transportation the control panel must be kept right-side up and protected from heavy overhead weight. The control panel can be transported by train, truck, plane or ship. Once the control panel has been opened, the user must use the control panel in accordance with this manual. When used in conjunction with this manual all operation results will meet the performance and functional requirements defined by this manual.
6.5Out-of-box Audit When opening the control panel box for the first time the user should carry out an out-of-box audit to ensure the control panel is complete, untouched and undamaged from transportation. The control panel should include: a CPU, loop card, MCU, POM-8A, MPS-350W, complement keys and connecting wires, etc. Open the control panel door to ensure all internal connections are normal and that there are no loose connections, short circuits and/or disconnected items. Check the power supply status to ensure it is normal and does not have any short circuits, etc.
Appendix A Alarm level cross-reference table for the ND682 photoelectric smoke detector: Alarm level setting
Actual physical threshold range of alarm (Unit: 0.1 OBS%/FT)
LEVEL 1
0 -2.5
LEVEL 2
2.5 – 5
LEVEL 3
5 - 7.5
LEVEL 4
7.5 – 10
LEVEL 5
10 -14
LEVEL 6
14 – 16
LEVEL 7
16 -18
LEVEL 8
18 – 20
LEVEL 9
over 20
LEVEL 10
Over 20
Table 1: Alarm level cross-reference table for the ND682
Alarm level cross-reference table for the ND685 heat detector: Alarm level setting
Actual physical threshold range of alarm (Unit ˚C)
LEVEL 1
30 – 34
LEVEL 2
34 – 37
LEVEL 3
37 – 40
LEVEL 4
40 – 45
LEVEL 5
45 – 50
LEVEL 6
50 – 55
LEVEL 7
55 – 60
LEVEL 8
60 – 65
LEVEL 9
Over 65
LEVEL 10
Over 65
Table 2: Alarm level cross-reference table for the ND685 Alarm level cross-reference table for the FSL-751 detector: Alarm level setting
Actual physical threshold range of
alarm (Unit: 0.01%/ft) LEVEL 1
0–2
LEVEL 2
2–3
LEVEL 3
3 – 10
LEVEL 4
10 – 50
LEVEL 5
50 – 100
LEVEL 6
100 – 150
LEVEL 7
150 – 200
Table 3: Alarm level cross-reference table for FSL-751 The following is the trouble level cross-reference table for drift compensation: Alarm level setting
Physical value of drift compensation (Unit: 0.01%/ft)
LEVEL 1(Warning)
30
LEVEL 2(Warning)
60
LEVEL 3(Trouble)
90
Table 4: Alarm level cross-reference table for FSL-751
Limited Warranty NOTIFIER® warrants its products to be free from defects in materials and
workmanship for eighteen (18) months from the date of manufacture, under normal use and service. Products are date stamped at time of manufacture. The sole and exclusive obligation of NOTIFIER® is to repair or replace, at its option, free of charge for parts and labor, any part which is defective in materials or workmanship under normal use and service. For products not under NOTIFIER® manufacturing datestamp control, the warranty is eighteen (18) months from date of original purchase by NOTIFIER® 's distributor unless the installation instructions or catalog sets forth a shorter period, in which case the shorter period shall apply. This warranty is void if the product is altered, repaired or serviced by anyone other than NOTIFIER® or its authorized distributors or if there is a failure to maintain the products and systems in which they operate in a proper and workable manner. In case of defect, secure a Return Material Authorization form from our customer service department. Return product, transportation prepaid, to NOTIFIER®, 12 Clintonville Road, Northford, Connecticut 06472-1653. This writing constitutes the only warranty made by NOTIFIER® with respect to its products. NOTIFIER® does not represent that its products will prevent any loss by fire or otherwise, or that its products will in all cases provide the protection for which they are installed or intended. Buyer acknowledges that NOTIFIER® is not an insurer and assumes no risk for loss or damages or the cost of any inconvenience, transportation, damage, misuse, abuse, accident or similar incident. NOTIFIER® GIVES NO WARRANTY, EXPRESSED OR IMPLIED, OF
MERCHANTABILITY, FITNESS FOR ANY PARTICULAR PURPOSE, OR OTHERWISE WHICH EXTEND BEYOND THE DESCRIPTION ON THE FACE HEREOF. UNDER NO CIRCUMSTANCES SHALL NOTIFIER® BE LIABLE FOR ANY LOSS OF OR DAMAGE TO PROPERTY, DIRECT, INCIDENTAL OR CONSEQUENTIAL, ARISING OUT OF THE USE OF, OR INABILITY TO USE NOTIFIER® PRODUCTS. FURTHERMORE, NOTIFIER® SHALL NOT BE LIABLE FOR ANY PERSONAL INJURY OR DEATH WHICH MAY ARISE IN THE COURSE OF, OR AS A RESULT OF, PERSONAL, COMMERCIAL OR INDUSTRIAL USE OF ITS PRODUCTS. This warranty replaces all previous warranties and is the only warranty made by NOTIFIER®. No increase or alteration, written or verbal, of the obligation of this warranty is authorized. "NOTIFIER®" is a registered trademark.
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