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680-014-09 Mx-4000 Install - Fire & Security Solutions Ltd

1. The Mx 4800 is equipped with four open collector type outputs two per chassis that can sink up to 10mA each from their respective AUX Power Output These are fully programmable and can be used to control external relays O C1 DRIVE AUX 24V AUX 24V O C2 DRIVE The connections of the base card are shown in the diagram opposite No external back emf diodes are required O C1 DRIVE The Mx 4200 amp Mx 4400 are equipped with two O C2 DRIVE open collector and six digital programmable outputs via a 10 pin connector see opposite OUTPUTS Up to 16 outputs are available on the Mx 4800 ees e OUTPUT 5 An optional 8 way relay card is available to connect to this connector OUTPUT 6 outpuT7 OUTPUT 8 AUX 24v GND 0V 2 7 7 Auxiliary Supply Output The Mx 4100 Mx 4200 amp Mx 4400 Base Card Connections are equipped with an auxiliary 24V DC 500mA power supply output AUX 24V The Mx 4800 is equipped with two WY BATS such outputs one per chassis V BAT a g These can be used for powering NY AUX GND ancillary equipment and must only Q AUX 24V be used for powering localised internal equipment FS2 BAT _ FSI Supply AAA A Mx 4100 Mx 4200 4400 4800
2. SSM Clock 2 J Alarm 59 Mode 5 Pre Alarm 40 Delay 5s Min Value 8 SAM In the above example the panel is using special sensitivity mode 2 and time clock number 2 Enter 0 in the SSM Clock field to cancel Special Sensitivity Mode A number must be entered in the SSM Clock field to select the appropriate SSM number and time clock To view the time clock settings highlight the SSM Clock field and press the button For example Time Clock 2 ON gt OFF OKRE 00 00 00 00 06 30 00 00 00 00 00 00 00 00 The panel supports two independent times for each day of the week during which the SSM mode will be switched on i e during which the Special Sensitivity Mode settings are active In the above example the SSM will be active between 19 00 on Monday and 06 30 on Tuesday Press the M V gt buttons to select the appropriate time field and use the number buttons to enter the required times Press the Esc button to return to the previous menu display Page 34 of 62 Every type of device the device type is shown in the top right hand corner supports unique SSM settings for each SSM Clock number In the previous example the Special Sensitivity Mode settings have been defined for a Multi Sensor that is using SSM Clock number 2 If other Multi sensors on the same panel also require the same settings then you only need to set them to SSM Clock 2 If instead another Multi
3. Carefully remove the chassis from the rear enclosure and place in a safe place to prevent accidental damage Do not lift the chassis by holding onto any of the printed circuit cards Hold the chassis by the metal plate only Page 13 of 62 2 3 3 Mounting the Enclosure Firstly remove the required knockouts for the installation wiring There are sufficient knockouts on the top of the enclosure for all installation wiring In addition there are knockouts at the top of the back wall if required for rear entry cabling The diagram opposite shows the positions of the four holes Use all four positions to ensure the panel is held securely to the wall Drill the required holes in the supporting wall using a drill bit diameter 7 0 mm and plug with a suitable 40mm long expansion plug Affix the panel to the wall with M5 screws length 40mm or No 10 screws length 1742 Ensure that there is sufficient space to allow the door to be opened when the panel is mounted 2 3 4 Remounting the Chassis Finally use a brush to remove any dust or swarf from inside the enclosure 450 1 o o 0 ona O BD O Qo ie Anchor Points x9 Enclosure Size and Fixing Point Dimensions Carefully replace the chassis and locate onto the upper two screws Replace the bottom two screws and tighten all four screws to hold the chassis securely to the back box Reconnect the chassis earth cable to the spade termi
4. ae T food PS T So gS e Rear Enclosure m m DOO DOO GWe DEE 0 Lee AC Mains Input Battery Leads 2 1 2 Mx 4200 amp Mx 4400 AC Mains Input Chassis Assembly Rear Enclosure Page 10 of 62 2 1 3 Mx 4400 LE Bus bars for cable earth connections Chassis Assembly Loops 1 4 Viewing Window for Loops 1 4 Battery Shelf Loops 1 4 Additional Battery Shelf Door 2 1 4 Mx 4800 Rear Enclosure Earth Lead to Cover Bus bars for cable earth connections Chassis Assembly Loops 1 4 Viewing Window for Loops 1 4 Viewing Window for Loops 5 8 Chassis Assembly Loops 5 8 Battery Shelf Loops 1 4 Battery Shelf Loops 5 8 Door Rear Enclosure Earth Lead to Cover Page 11 of 62 2 2 Installing the Mx 4100 Enclosure The panel can weigh in excess of 15kg when the batteries are installed Use the appropriate fixing hardware to secure the panel to the wall Observe recommended lifting practices to guard against spinal injury 2 2 1 R
5. condition will be generated whenever this input is active Create Alarm 3 An Alarm 3 condition will be generated whenever this input is active Key Lock Enables Inhibits front panel controls Disable Mute Reset etc No Action is assigned to the input Control Signal Allows control of Outputs without displaying Fault or Fire or sounding buzzer Acknowledge Activation of the input acknowledges a Stage 1 Investigation Delay and invokes the Stage 2 Timer LED Test Activation invokes a test of the panel LED Indicators 3 Fire Alarm Conditions are latched By default all other conditions are non latching The action for smoke and certain other detectors is always fire and cannot be changed LED Test can only be configured using the PC Tool Page 32 of 62 3 3 2 7 Sensitivity This parameter shows if the device sensitivity is set to its DEFAULT or CUSTOM settings For example Loop 1 Devices lt More gt Address Sensitivity 001 0 002 0 DEFAULT 003 0 CUSTOM 004 0 EFAULT Press the button to change the sensitivity assigned to an input device When selected a new screen displays the sensitivity settings assigned For example with an Apollo Discovery ENSITIVITY ADJUST MODE ION SMOKE Alarm 3 Pre Alarm 5s Min Value SAM SSM Press the M V gt buttons to highlight the required menu option and then press t
6. Panel View the operational state voltage amp current loading of the panel I O Network View Network Diagnostics PASSWORDS Configure the Level 2 and Level 3 passwords PANEL Change the default zone assignments and output groups for all panel I O PC LINK Enable the PC Link for transfer of configuration data to and from the panel SETUP Configure General Operating Parameters Page 30 of 62 3 3 1 Loops For Multi loop panels only On selecting the LOOPS option the display will prompt for the loop to be viewed programmed E g for the Mx 4400 Select Loop 2 Loop 3 Loop 4 Loop v v x x The list of loops available will be adjusted automatically to show only those loops that have a loop driver card installed In the above example loop drivers are installed in positions 1 and 2 Press the 4x buttons to scroll through the list of loops available and then press the button to select the loop required The display will then show a list of programming options as follows Note On selecting the LOOPS option on the Mx 4100 this display will be shown directly Loop Te IEW EDIT AUTO LEARN CALIBRATE DRIVER 3 3 2 Loops View Edit The VIEW EDIT option shows a list of the devices connected to the loop learnt by the panel For example Loop 1 More gt Address State Type Value 001 0 Normal CALL POINT 16 002 0 Normal MULTI SENSOR 28 003 0 Normal IO
7. The C LE has provision to signal the fault condition to a remote receiving station such as the service centre office Requires installation of a routing interface card Refer to Sections 2 6 2 2 7 11 3 3 8 3 3 9 and 3 3 15 8 for further information Disablement of Points The C LE has provision for enabling and disabling signals from points Refer to the User Manual for further information Test Condition The C I E has provision for testing the installation on a per zone basis Refer to the User Manual for further information Standardised Input Output interface Standardised I O interfaces are supported over the Ad Net Network 1 6 Installation Approvals 1 6 1 Fire System Installations The panel must be installed and configured for operation in accordance with these instructions and the applicable code of practice or national standard regulations for fire systems installation for example BS5839 1 2002 appropriate to the country and location of the installation 1 6 2 Wiring Regulations The panel and system must be installed in accordance with these instructions and the applicable wiring codes and regulations for example BS7671 appropriate to the country and location of the installation Page 9 of 62 2 Installation 2 1 Identification of Parts The following diagrams show the major parts of the panels 2 1 1 Mx 4100 Chassis Assembly Earth Lead to as Cover
8. d Record in the logbook any defects or remedial actions that must be undertaken and arrange for these to be carried out as soon as possible 4 1 4 Annual Actions The service maintenance contractor should perform the following checks and actions a Perform the checks as recommended above in the daily monthly and quarterly schedules b Perform a complete Walk Test of the system to check that each call point and detector is operating to its manufacturers specification c Visually inspect all cable fittings Check that the equipment is undamaged and that the conditions of installation have not changed such that they fall outside of the equipment specifications d Inspect and test all batteries and replace as required refer to Section 4 2 for recommended replacement schedule e Record in the logbook any defects or remedial actions that must be undertaken and arrange for these to be carried out as soon as possible Page 47 of 62 4 2 Replacement of Components In general all of the components parts used in the construction of the panel have been selected for long life and reliability However certain components may require to be changed on a regular service basis The details of these are as follows 4 2 1 Batteries For battery installation see section 2 7 2 ay Respect the Environment lA 9 Batteries must be disposed of responsibly and in accordance with any local aw regulations 4 2 1 1 Standby Batterie
9. Loop 1 Devices lt More gt Address Additional Info gt 001 0 Damsxere EEP 1 002 0 XP95 003 0 Disco 004 0 Disco Refer to Apollo s literature for an explanation of the extended memory locations and for further information on the expected values 5 5 4 Loop Isolators Apollo recommends a maximum of 20 detector devices or equivalent loading between isolators Note that some devices particularly modules are specified as representing the equivalent of two or more detector loads For further information refer to the Apollo Document on Isolators number PP2090 and individual Apollo device data sheets Page 58 of 62 5 6 Appendix 6 Hochiki ESP Information At power up the panel allows a couple of minutes for Hochiki ESP detectors to stabilise Any detectors that the panel knows to be present will then be calibrated The panel displays can be used normally during this time but the fire detection response will be slower until all the calibration phases are complete If devices are inspected during this period they may show their state as Reset panel has reset the device at power up resetting from a fire etc Calibrating checking ESP Zero Point and Fire Points Initialising loading detection thresholds sounder volumes etc Calibration can be manually initiated any time at access level 3 forcing all the devices on the selected loop to be calibrated Transferring
10. OUT Ensure that the devices are correctly installed with regard to their positive and negative terminal oe S m a polarity especially Loop Isolator Modules 2 Q Q Q Connect the return wires to the Loop IN and terminals on the base card Base Card Terminations Typical The diagram opposite shows the typical arrangement of the loop connections on the base cards Refer to Section 2 5 for details on installing additional loop drivers on the multi loop panels When screened cable is used it is vital to connect the screen drain wire to the chassis earth at the cable gland input earth stud in the panel Always ensure that all segments of the cable loop have continuity of the screen and take care to ensure that the screen is not exposed to any other 6 earth point e g metalwork cable trays junction boxes etc The Loop Driver Circuit on the Base card is Isolators equipped with in built isolators to take care of short circuit conditions on the wiring between the panel and the first device on the loop Do not fit loop isolators at the panel outputs The diagram opposite shows a typical loop arrangement Maximum recommended cable loop length is 1500 to 2000 Metres Refer to Appendix 2 Typical Loop Arrangement Recommended Fire Rated Cables for further information on cable types to be used Take care that the voltage drop
11. Page 25 of 62 2 7 8 Switch Inputs Key switch inputs can be used for changing access level performing class change etc by changing the Action of these inputs An optional 8 way input board is also available for this connector Up to 16 key switch inputs can be accommodated on the Mx 4800 Refer to separate Technical Data sheets for examples 2 7 9 RS232 Interface The Mx 4100 is equipped with a non isolated RS232 I F Circuit at the bottom left hand side of the base card The Mx 4200 amp Mx 4400 are equipped with an isolated RS232 I F Circuit at the bottom of the base card The Mx 4800 has two RS232 interfaces available one per chassis The terminal block connections are shown opposite TX Transmit Data from the panel RX Receive Data into the panel GND Ground Reference 2 7 10 Isolated Bus Interface The isolated bus interface is used to connect local peripheral equipment located internal to the panel or located within 10m of the panel The terminal block on the Mx 4200 Mx 4400 base card is shown opposite Connect the cable from A to A and from B to B Equipment is connected via a daisy chain External connections should be made using fire cable or run in rigid conduit between enclosures Page 26 of 62 z zZ Ll onong one e ez2e2e2282 228 Or OU ey eres oOo oO DISPLAY PCB Q Z xXx Omer RS232 COO Base Card Conn
12. temperature is required before the panel will enter the fire alarm condition Page 33 of 62 The alarm level cannot be set outside the safe operating limits defined for the particular device Apollo Discovery devices always use a value of 55 3 3 2 7 5 Alarm Hochiki The Alarm Level of the Analogue value returned by the detector at which the panel will enter a fire condition is set to Hochiki Alarm thresholds expressed as a value This is normally 3 for Multi sensor amp Optical devices Refer to Hochiki Data Sheets for further information 3 3 2 7 6 Pre Alarm The Pre Alarm Level is the level of the analogue value returned by the detector at which the panel will enter a pre alarm condition 3 3 2 7 7 Minimum Value If the detector analogue output falls below the minimum value programmed the panel will enter a fault warning condition This parameter is normally left at a value of 8 for Apollo detectors and 0 for Hochiki 3 3 2 7 8 Special Sensitivity Mode SSM Clock In addition to the SENSITIVITY ADJUST MODE a device can also run in a SPECIAL SENSITIVITY MODE SSM under time clock control The Mx4100 supports 3 independent 7 day time clocks The Mx4200 supports 10 independent 7 day time clocks The Mx4400 supports 10 independent 7 day time clocks With the SAM SSM Option highlighted press the Y button to view the Special Sensitivity Mode settings For example SPECIAL SENSITIVITY MODE MULTI SENSOR
13. 1SO9001 Mx 4000 Series Table of Contents 1 INTRODUCTION 6 1 1 Standards 6 1 2 Cautions and Warnings 6 1 3 Description 6 1 4 EN54 Functions 7 1 5 EN54 Optional Features with Requirements 8 1 6 Installation Approvals 9 1 6 1 Fire System Installations 9 1 6 2 Wiring Regulations 9 INSTALLATION 10 2 1 Identification of Parts 10 2 1 1 Mx 4100 10 2 1 2 Mx 4200 amp Mx 4400 10 2 1 3 Mx 4400 LE 11 2 1 4 Mx 4800 11 2 2 Installing the Mx 4100 Enclosure 12 2 2 1 Removing and Replacing the Enclosure Cover of the Mx 4100 12 2 2 2 Removing the Chassis 12 2 2 3 Mounting the Enclosure 12 2 2 4 Remounting the Chassis 12 2 2 5 Recommended Cable Routing Arrangement 13 2 3 Installing the Mx 4200 amp 4400 Enclosures 13 2 3 1 Opening the Enclosure Cover 13 2 3 2 Removing the Chassis 13 2 3 3 Mounting the Enclosure 14 2 3 4 Remounting the Chassis 14 2 3 5 Recommended Cable Routing Arrangement 14 2 4 Installing the Mx 4400 LE and Mx 4800 Enclosures 15 2 4 1 Opening the Enclosure Cover 15 2 4 2 Removing the Chassis 15 2 4 3 Mounting the Enclosure 15 2 4 4 Remounting the Chassis 16 2 4 5 Recommended Cable Routing Arrangement 16 2 5 Loop Driver Installation 17 2 5 1 Fitting the cards in the Mx4200 Mx 4400 amp Mx 4800 17 2 5 2 Removing a Loop Dr
14. A x Total l A x Total Mx 4100 0 115 1 0 0 115 0 225 1 0 0 225 Sensor Loop Current 1 25 1 25 Mxp 003 AdNeT Network Card 0 020 1 0 0 020 10 Mxp 009 AdNeT PLUS Network Card 0 062 1 0 0 062 10 Mxp 024 LED Indicator 20 Zone 0 003 1 0 0 012 1 0 Auxiliary Supply Output 1 0 1 0 Sounder Output A 1 0 Sounder Output B 1 0 Total XQuiescent Load zAlarm Load x 24 hr x 48 hr x 72 hr carry forward Total Load Quiescent Alarm x 1 25 Battery De rating factor Abr Ahr Use the detector manufacturers technical information to calculate the load on the loop for both the quiescent condition and fire alarm condition for all loop devices By default a maximum of 5 detector call point LED indicators will be turned on in a fire alarm condition This number can be changed via the PC Programming Tool The calculated loop loading must be multiplied by a factor of 1 25 to calculate the actual current draw from the batteries This i is to take into account voltage conversion and conversion efficiency in generating the supply for the loop 1 Refer to separate data sheets for the additional modules that can be powered from the panel AUX Output to determine the AUX loading currents For example the modules can include Modem Sounder Splitter Routing Interface etc The sum of all these additional currents should be entered in these fields 12 The alarm load
15. Contact the manufacturer or supplier for clarification and guidance Only Trained service personnel should undertake the Installation Programming and Maintenance of this equipment This product has been designed to comply with the requirements of the Low Voltage Safety and the EMC Directives Failure to follow the installation instructions may compromise its adherence to these standards This equipment is constructed with static sensitive components Observe anti static precautions at all times when handling printed circuit boards Wear an anti static earth strap connected to panel enclosure earth point Before installing or removing any printed circuit boards remove all sources of power mains and battery 1 3 Description This manual covers the installation programming and commissioning of the Mx 4100 Mx 4200 Mx 4400 and Mx 4800 Fire Alarm Control Panels Refer to the User Manual Document No 680 015 for details of how to operate the panel The Mx 4100 is a Single Loop Analogue Addressable Fire Alarm Control Panel The Mx 4200 is a Multiple Loop Analogue Addressable Fire Alarm Control Panel with provision for up to two loops The Mx 4400 is a Multiple Loop Analogue Addressable Fire Alarm Control Panel with provision for up to four loops The Mx 4800 is a Multiple Loop Analogue Addressable Fire Alarm Control Panel with provision for up to eight loops All models are designed for use with the Apollo Discovery
16. Explorer XP95 and Series 90 and Hochiki ESP fire detection devices Install the panel detection loops sounder circuits etc in accordance with the instructions in Section 2 and then program the operation in accordance with the instructions detailed in Section 3 Page 6 of 62 1 4 EN54 Functions This Fire Alarm Control Panel is compliant with the requirements of EN54 parts 2 and 4 1997 In addition to the basic requirements the following optional functions are provided and these comply with the requirements of EN54 C I E Optional Functions EN54 2 Clause Indication Outputs to Fire Alarm Devices Outputs Outputs to Fire Routing Equipment 7 9 Controls Investigation Delays to Outputs 7 11 Co incidence Detection 7 12 Alarm Counter 7 13 Fault Signals from Points 8 3 Output to Fault Routing Equipment 8 9 Disablement of Points 9 5 Test Condition 10 Standardised I O 11 P S E Functions EN54 4 Clause Operation from a main power supply Operation from a standby battery 5 2 Monitor and Charge the Standby Battery 5 3 Recognise and Notify Supply Faults 5 4 This Fire Alarm Control Panel also supports additional functions that are not covered by ENS4 These are as follows Refer to Additional Function Paragraphs Auxiliary Power Supply Output Zast Auxiliary Relay Outputs 22 Programmable Cause Effect on Outputs Phased Evacuation 5 4 Printer Option User Manual Page
17. Sensor requires a different setting use a different SSM Clock number 3 3 2 8 O P Group The Output Group assigned to the Sounder or Relay Devices determines the manner in which the outputs will operate when a fire alarm or other programmed condition occurs For example Loop 1 Devices lt More gt Address O P Group 020 0 021 0 199 022 0 199 023 0 199 Use the number buttons to change the value of the O P Group setting By default all Loop Output devices are assigned to Output Group 199 For detailed information and guidance on the programming and use of Output Groups refer to Section 5 4 3 3 2 9 Additional Info This parameter shows additional information if available for this device For example the following display shows the Apollo detector series types Loop 1 Devices lt More gt Address Additional Info 001 0 002 0 XP95 003 0 Disco 004 0 Disco For further information on this option refer to Appendix 5 Apollo Information and Appendix 6 Hochiki ESP Information 3 3 2 10 Detector Testing Individual detectors can be tested to check the chamber response and illuminate the detector LED While the address field is highlighted press the 4x buttons to scroll through the list of devices to the desired detector or key in the address and then press the button A menu will appear to confirm that you want Test This Detector Press the button to confirm or press the Esc button to
18. be defined as Styles in the panel For example The first Style is that the sounders should turn on immediately a fire is recognised in Zone 22 or in Zone 23 or in Zone 24 The panel contains a default Style Style 00 for this method of operation The second Style is that the sounders should stay silent for 30 seconds and then start pulsing After 2 minutes of pulsing they should then turn on This is a little more complex but is easy to program In the following description a new Style Style 2 will be defined for this purpose It is quite likely that Style 2 will be used extensively in the cause and effect programming for the rest of the building For example a fire on Floor 8 may also require the sounders on Floors 7 and 8 to operate in this manner Page 55 of 62 5 4 4 Output Group Programming To achieve the above cause and effect requirements the three different Output Groups would be programmed and indicated on the panel as in the following display examples Output Group 6 Sounders on Floor 6 Output Group 6 3 9 Mem used STYLE 02 ZONE GROUP CAUSE STYLE Delay gt MODE Wait MODE Wait MODE 22 6 ANY FIRE 02 30s Pulse 120s On 23 6 ANY FIRE 02 30s Pulse 120s On 24 6 ANY FIRE 02 30s Pulse 120s On More gt Output Group 7 Sounders on Floor 7 Output Group 7 3 9 Mem used STYLE 00 ZONE GROUP CAUSE STY
19. cancel Once selected commands are sent to the detector to turn on the detector LED and put the chamber into test The Test LED lights up and the panel display returns to the list of devices After a few seconds the analogue signal will be seen to rise If the detector is then left in the test condition the Detector State will change to a Fire Test status The test is cancelled as soon as the display is scrolled up or down or when the View Devices option is exited Page 35 of 62 3 3 3 Loops Auto Learn 3 3 3 1 Normal Procedure Initial learn The panel can automatically learn the presence or absence of devices at all addresses connected to the loop When the Auto Learn option is selected the panel starts searching each address on the loop to locate and find all of the devices connected A display is shown to indicate the progress of this procedure For example Auto Learn Loop 1 HOCHIKI Address 15 Devices found 3 When all addresses have been searched the panel displays a summary screen showing the quantity of devices found for each type of device For example Auto Learn Loop 1 HOCHIKI Address 127 Devices found 4 OPT ION MUL TMP MCP SCC I O ZMU OTH O ul J I I O 0 0 0 This summary provides a quick check to ensure that the panel has found all of the devices that should be connected to the loop Press the Esc button to return to the main Loops Menu 3 3 3 2 Procedure if
20. cards it does not matter which positions are LOOPS used Ensure that the detector loop wiring is made to the terminal block positions appropriate to the NB The Mx 4200 only has positions 1 amp 2 loop driver cards actually installed available Close the chassis display plate and then close up the enclosure 2 5 2 Removing a Loop Driver Card To remove a loop driver remove all power and follow the procedure above but Take a firm hold of the lever located on top of the loop driver card Gradually and carefully pull the loop driver vertically away from the base card and guide it out of the slots in the machined end blocks Page 17 of 62 2 6 Local Peripheral Installation The Mx 4200 Mx 4400 and Mx 4800 panels provide provision for installation of local peripheral cards to provide additional functions The peripherals are connected via an isolated bus interface 2 6 1 Peripheral Bus Interface Adaptor To use the local peripheral bus Interface 33 s H 7 1E 3 requires the installation of an Adaptor Card mee iss Ae HH i 3 0 s E Mxp 031 ee e i bi r ales T p Refer to the diagram opposite for location J TE s i 5 A pia O Secure the board in place to prevent problems H a PET due to vibration using the clamping plate to ic gi k 3 hold the card securely to the lower loop driver Hiii aE eE i block Clamp use to hold Loop i i A tab on the adaptor card fits into a
21. date can be entered into the panel memory When this date is reached the panel will enter a fault condition to alert the site operator that a service visit is overdue To change the due date press the Y button when the option is highlighted The display prompts for entry of the next service date For example 24 04 02 Use the 4 buttons to select between the time and date Use the number buttons to enter the required time or date As soon as a new service date is entered the panel will cancel any Service Due Fault condition 3 3 15 5 Trace Logging Mode The Trace Logging Option determines what type of information and to what level is stored in the Event Log There are three options STANDARD the normal operating mode logging fire alarm fault and warning conditions as they occur STANDARD an extended version of the standard operating mode where the removal of fault and warning conditions are also logged DIAGNOSTIC a full diagnostic trace of all conditions with greater depth to aid diagnosis of fault conditions To change the option press the Y button To erase the event log press the gt button to view the additional command option as follows Page 44 of 62 up E LOGGING MODE ipe Event Log ECTOR BLINKING PANY LCD LOGO RAM ID Press the button and the display will show that the event log is being erased by display the message WORKING After the e
22. the Panel finds Devices Missing When the panel cannot communicate with a device previously programmed into the panel the Auto Learn process is suspended and the display shows a pop up window with options For example KEEP THIS DEVICE ETE THIS DEVICE EEP ALL MISSING ETE ALL MISSING F Address 002 DE E MISSING If the missing device is kept or all missing devices are kept the panel remembers the programming for these devices The panel will report a fault condition until such time as the missing devices are reconnected If the missing device is deleted or all missing devices are deleted the panel clears all previous programming for these devices This includes any sensitivity threshold changes text assignments zone assignment action etc Press the AY buttons to highlight the required menu option and then press the button to confirm The pop up window will disappear and the panel will continue with the auto learn process If a single device is deleted and another missing device is subsequently registered the display will once again show the pop up window to keep or delete this device Page 36 of 62 3 3 3 3 Procedure if the Panel finds Devices Added When the panel finds a device not previously learnt and programmed in the panel the Auto Learn process is suspended and the display shows a pop up window with options For example REJECT NEW DEVICE ACCEPT
23. when prompted for the Level 3 password As soon as access has been regained to the Level 3 Programming Functions select the Passwords Menu Option and check change the Level 3 password Refer to Section 3 3 12 for further information Page 50 of 62 5 2 Appendix 2 Recommended Fire Rated Cables The following table provides a list of suitable fire rated cables with standard 30 minute and enhanced 120 minute classification Refer to Document No 680 088 for an up to date list Cable T Core Sizes mm 5839 1 Rated Net able e E v v v v AEI Firetec Multicore Ref F1C AEI Firetec Armoured Ref F1C v Calflex Calflam CWZ Cavicel SpA Firecel SR 114H Cavicel SpA Firecel SR 114E Draka Firetuf OHLS FTZ Draka Firetuf PLUS Huber amp Suhner Radox FRBS M1x2 A Bele ST RL S Irish Driver Harris Co Ltd Kilflam 2000 v Irish Driver Harris Co Ltd Kilflam 3000 v Pirelli FP200 Flex v Pirelli FP200 Gold v v v Pirelli FP PLUS v v v v Tratos Cavi SpA FIRE safe TW950 v v y v Tyco Thermal Controls Mineral Insulated Twin Twisted PYRO E CCM2T v v v v Tyco Thermal Controls Pyrotenax Served Mineral Insulated Cable light v v y v and heavy duty Tyco Thermal Control Pyro S v v v v Wrexham Mineral Insulated Cable light and heavy duty v v v v 5 2 1 Detector Loop Lengths With the above cables loops can be up to 2Km in length However care must be taken when desig
24. 00 2 2 2 2 Page 42 of 62 To change a password use the 4 buttons to highlight the required password and then enter the new password using the number buttons When the password is correct press the Y button to confirm Level 3 Passwords Care should be taken when changing the Level 3 password If this new number is lost it is not possible to enter commission mode functions Refer to 5 1 for further information The factory default level 3 password is 7654 3 3 13 Panel The Panel Menu Option shows a list of the internal panel circuits and provides a means to change their default configuration settings Only use this menu if changes are to be made to the default settings for the panel s internal circuits Use the VIEW PANEL Menu Option to view the state and operating condition of each circuit The display shows for example Address State Type gt 001 0 Normal VOLTAGE 001 1 Normal VOLTAGE 002 0 Normal CURRENT 002 1 Normal CURRENT Use the 4 buttons to scroll through the circuits Use the buttons to view additional information The zone and Output Group Assignments can be modified if required For further information on the View Panel Options and the information that is presented refer to the User Manual Document No 680 015 3 3 14 PC Config The PC Link Option enables the connection of the PC Configuration Tool for retrieving configuration data from the panel and programming conf
25. 3 3 Procedure if the Panel finds Devices Added 37 3 3 3 4 Procedure if the Panel finds Devices Changed 37 3 3 4 Loop Calibrate 37 3 3 5 Loop Driver 38 3 3 6 Zones 38 3 3 7 Exit 38 3 3 8 Outputs 38 3 3 8 1 Default Output Settings 39 3 3 8 2 Cause 39 3 3 8 3 Style 40 3 3 8 4 Copying Output Settings to Multiple Zones 41 3 3 9 Investigation Delays 41 3 3 9 1 Overriding Delays at Level 1 42 3 3 10 Time and Date 42 3 3 11 View Options 42 3 3 12 Passwords 42 3 3 13 Panel 43 3 3 14 PC Config 43 3 3 15 Setup 43 3 3 15 1 Network 44 3 3 15 2 Panel Zone 44 3 3 15 3 Service Number 44 3 3 15 4 Service Due Date 44 3 3 15 5 Trace Logging Mode 44 3 3 15 6 Detector Blinking 45 3 3 15 7 Earth Fault Notification 45 3 3 15 8 Routing Interface 45 3 3 15 9 Program ID 46 3 3 15 10 Config Data 46 SERVICE AND MAINTENANCE 47 4 1 Maintenance Schedule 47 4 1 1 Daily Actions 47 4 1 2 Monthly Actions 47 4 1 3 Quarterly Actions 47 4 1 4 Annual Actions 47 4 2 Replacement of Components 48 4 2 1 Batteries 48 4 2 1 1 Standby Batteries 48 4 2 1 2 Lithium Battery 4 2 2 Liquid Crystal Display 5 APPENDICES 5 1 Appendix 1 Forgotten Level 3 Password 5 2 Appendix 2 Recommended Fire Rated Cables 5 2 1 Detector Loop Lengths 9 2 2 Sounder Circuit Lengths 9 2 3 Fire Fault Routing Circuit Lengths 5 2 4 Network Cables 5 3 Appendix 3 Battery Standby Calculation Chart 5 3 1 Mx 4100 5 3 2 Mx 4200
26. 7 of 62 1 5 EN54 Optional Features with Requirements In addition to the mandatory requirements of EN54 Part 2 the Control and Indicating Equipment C I E supports the following optional features with requirements Page 8 of 62 Outputs to Fire Alarm Devices The C I E has provision for connection to Fire Alarm Devices It is possible to Silence and Resound the alarms at Level 2 Refer to the User Manual for further information Refer to Sections 3 3 8 and 3 3 9 for information on output programming Outputs to Fire Routing Equipment The C LE has provision to signal the fire condition to a remote receiving station such as the fire brigade office Requires installation of a routing interface card Refer to Sections 2 6 2 2 7 11 3 3 8 3 3 9 and 3 3 15 8 for further information Delays to Outputs The C I E has provision for Output and Investigation Delays Refer to Sections 3 3 8 amp 3 3 9 for further information Coincidence Detection The C I E has provision for Coincidence Detection Refer to Section 3 3 8 for further information Alarm Counter The C I E has provision record the number of times that the fire alarm condition is entered Refer to the User Manual for further information Fault Signals from Points The C LE is able to receive and process fault signals from points These are indicated on a per zone basis Refer to the User Manual for further information Outputs to Fault Routing Equipment
27. ALL NEW DEVICE REJECT ALL EW DEVICE Address 002 NEW If the new device is accepted or all new devices are accepted the panel will configure the memory to register these devices All data will be configured to initial settings for sensitivity threshold changes text assignments zone assignment action etc for these devices If the new device is rejected or all new devices are rejected the panel clears all programming for these devices and will not attempt to communicate with the devices at these addresses Press the 4 buttons to highlight the required menu option and then press the button to confirm The pop up window will disappear and the panel will continue with the auto learn process If a single device is accepted rejected and another new device is subsequently registered the display will once again show the pop up window to accept or reject this device 3 3 3 4 Procedure if the Panel finds Devices Changed When the panel finds a new type of device installed at an address previously learnt and programmed in the panel the Auto Learn process is suspended and the display shows a pop up window with options For example ACCEPT NEW DEVICE KEEP OLD DEVICE ACCEPT ALL NEW DEVICE REJECT ALL NEW DEVICE Address 002 TYPE This situation could arise for example if a heat detector has been installed in plac
28. Cable Resistance Rcasze is the sum of the cable resistance in both cores x cable length Cable Resistance Rcasie for 1 0mm is 0 036Q metre Cable Resistance Rcasie for 1 5mm is 0 0240 metre Cable Resistance Rcaste for 2 5mm is 0 015Q metre Insulation Resistance Core Core and Core 22M QO Screen 5 2 3 Fire Fault Routing Circuit Lengths The voltage drop on each transmission circuit should be calculated to ensure that the minimum voltage at the end of the circuit exceeds the minimum required by the relay coil at the minimum circuit output voltage Typically relays will energise at 75 of their nominal drive voltage i e 18V for a 24V coil The voltage at the end of the circuit is given by Minimum Coil Voltage Voutqminy lon X Reape Minimum Output Voltage Voutiminy iS Vauxminy 0 8V 19 7V Maximum On Current lon is 35mA Cable Resistance Rcaste is as above Insulation Resistance Core Core and Core 22M QO Screen 5 2 4 Network Cables For a list of recommended cables refer to the AdNeT document 680 027 Page 52 of 62 5 3 Appendix 3 Battery Standby Calculation Chart Use the following charts and associated notes to calculate the size of the batteries required to ensure operation of the installation in the event of AC Mains power failure 5 3 1 Mx 4100 Quiescent Load Fire Alarm Load Equipment I
29. LE Delay gt MODE Wait MODE Wait MODE 22 7 ANY FIRE 00 On 23 7 ANY FIRE 00 On 24 7 ANY FIRE 00 On More gt Output Group 8 Sounders on Floor 8 Output Group 8 3 9 Mem used STYLE 02 ZONE GROUP CAUSE STYLE Delay gt MODE Wait MODE Wait MODE 22 8 ANY FIRE 02 30s Pulse 120s On 23 8 ANY FIRE 02 30s Pulse 120s On 24 8 ANY FIRE 02 30s Pulse 120s On More gt Page 56 of 62 5 5 Appendix 5 Apollo Information Special Discovery specific features are available from the Additional Info field of the Loop View Edit display It is then possible to view the internal Drift perform a rapid compensation or access any of the internal Discovery EEPROM memory locations Press the Y button and a pop up window is shown presenting a list of options For example Loop 1 Devices lt More gt VIEW DRIFT RAPID COMPENSATION VIEW EEPROM Press the AY buttons to highlight the required menu option and then press the button to confirm 5 5 1 View Drift The display then shows the Discovery devices that the panel is reading For example select the View Drift option and the display shows Loop 1 Devices lt More gt Address Additional Info gt 001 0 DERPONE CETOET OR 002 0 XP95 003 0 Disco Reading 004 0 Disco Reading When the reading is complete the display shows the drift within the device For example Loop 1 Devices lt More gt Address Additional Info gt 001 0 DRiK
30. Load Quiescent Alarm x 1 25 Battery De rating factor This chart is applicable to each chassis in the Mx 4800 panel 13 Use the detector manufacturers technical information to calculate the load on the loop for both the quiescent condition and fire alarm condition for all loop devices By default a maximum of 5 detector call point LED indicators will be turned on in a fire alarm condition This number can be changed via the PC Programming Tool 4 The calculated loop loading must be multiplied by a factor of 1 25 to calculate the actual current draw from the batteries This is to take into account voltage conversion and conversion efficiency in generating the supply for the loop Not available on Mx 4200 Refer to separate data sheets for the additional modules can be powered from the panel AUX Output to determine the AUX loading currents For example the modules can include 8 Way Output 8 way Input Modem Sounder Splitter Shop Interface etc The sum of all these additional currents should be entered in these fields 17 The alarm load should be doubled to allow for changes in battery efficiency for loads in excess of the recommended C 20 discharge rate The total load calculated should be multiplied by a de rating factor of 1 25 to allow for changes in battery efficiency over time The above calculation is in accordance with the recommendations in BS5839 1 2002 Page 54 of 62 5 4 Appendix 4 Cause and Effect Pr
31. Mx 4000 Series Installation and Commissioning of MX 4100 MX 4200 MX 4400 Mx 4400 LE amp Mx 4800 Fire Alarm Control Panels w Q lt Y z Q w E we QO Document Number 680 014 Revision 09 O Eh ELECTRONICS LIMITED item Specification Details Mx4200 Mx4200 D Mx4400 Mx4400 D Steel IP30 475 x 450 x 125 475 x 450 x 190 D 10 5Kg 12Kg D Enclosure Dimensions H x W x D mm Weight excluding batteries Temperature Humidity Cable Entries 20mm knockouts Mains Supply Battery Capacity Charging Current Power Supply Number of Fire Zones Number of Loops Devices per Loop Loop Current Protocols Sounder Outputs Relay Outputs Open Collector Outputs Digital Outputs Auxiliary Supply Output Event Log Mx400 Mx4100 L Steel IP30 320 x 345 x 88 320 x 345 x 125 L 5Kg 6Kg L 0 C to 45 C 95 Max 7x top and 7x top rear 14x top 7x top rear L 230V 10 15 50 60Hz AC 0 4A max 24V 4Ah Internal min 24V 7Ah Internal max Mx 4100 24V 12Ah Internal max Mx 4100 L 0 4A Temperature Compensated On board 24V DC 2A High Efficiency Switched Mode 100 max 250 when networked 1 O to 45 C 95 Max 18x top 9x top rear and 2x bottom 36x top 9x top rear D 220 240V 10 15 47 63 Hz AC 1 A max 24V 4Ah Internal min 24V 17Ah Internal max Mx4200 24V 38Ah Internal m
32. Mx 4400 Mx 4800 5 4 Appendix 4 Cause and Effect Programming Example 5 4 1 Introduction 5 4 2 Output Groups 5 4 3 Styles 5 4 4 Output Group Programming 5 5 Appendix 5 Apollo Information 5 5 1 View Drift 5 5 2 Rapid Compensation 5 5 3 View EEPROM 5 5 4 Loop Isolators 5 6 Appendix 6 Hochiki ESP Information 5 6 1 Unprocessed Analogue information 5 6 2 CHQ BS CHQ WS Sounders 5 7 Appendix 7 Mx4000 Series Loop Output Drive Capability 5 7 1 Hochiki 5 7 2 Apollo 5 8 Appendix 8 Other Useful Documents 5 9 Appendix 9 Mx 4800 Network Design Principles 5 9 1 Mandatory Functions 5 9 2 Network Wiring Page 5 of 62 1 Introduction 1 1 Standards The Mx 4100 Mx 4200 Mx 4400 Mx4400 LE and Mx 4800 Fire Alarm Control Panels conform to the following standards BS EN54 2 1998 Control and Indicating Equipment BS EN54 4 1998 Power Supply Equipment BS EN60950 2000 Safety of information technology equipment BS EN50130 4 1996 Product Family Standard Electromagnetic Compatibility Directive 89 336 EEC and the amending directive 92 23 EEC Low Voltage Directive 73 23 EEC 1 2 Cautions and Warnings the product and to the Specifications Chart in this document Please read this manual carefully If you are unclear on any point DO NOT BEFORE INSTALLATION Refer To the Ratings shown on the label inside proceed
33. N SMOKE 23 004 0 Normal HEAT 21 The first device on the loop is shown at the top of the list and is highlighted Press the AW buttons to scroll through the list of devices Press the buttons to view additional information The display highlights a particular parameter To change the value of this parameter if not view only press the Y button and appropriate options will be shown on the display 3 3 2 1 State This parameter shows the current operational status of the device For example this can show Normal Fire Alarm Device Missing etc This parameter cannot be changed 3 3 2 2 Type This parameter shows the type of device learnt by the panel For example this can show Call Point Multi Sensor ION Smoke Heat etc This parameter cannot be changed Page 31 of 62 3 3 2 3 Value This parameter shows the analogue value returned by the device The number displayed will vary according to the type of device fitted An H High and L Low is shown for logic inputs This parameter cannot be changed 3 3 2 4 Zone This parameter shows the Zone to which this device has been assigned Use the number keys to change the zone assigned to the device 3 3 2 5 Device Text This parameter shows the 26 character location text assigned to this device For guidance on how to change the text refer to Section 3 1 4 3 3 2 6 Action This parameter shows the action that will be performed when this device indicates an act
34. Routing Interface Peripheral Card and non monitored routing interface using the on board fire and fault relays To change the setting press the Y button With each press the option cycles between X Monitored and Non Monitored When a routing option is selected Function LED1 Red is used to indicate that the Fire Routing Output is activated and Function LED2 Yellow is used to indicate that the Fire Routing Output is disabled If the monitored option is selected Function LED3 Yellow is used to indicate a fault in the transmission path of the fire routing connection Function LEDS will also illuminate if there is a fault on the routing interface or if the routing interface card is not present If a routing option is selected these function LED indicators are reserved for these indications and are not available for other programmable indication use By default the fire routing output panel internal addresses 11 1 unmonitored amp 16 0 monitored and the fault routing output panel internal addresses 11 0 unmonitored amp 17 0 monitored are assigned to Output Groups 199 amp 200 respectively These can be assigned to alternative output groups using the Panel menu option if required Page 45 of 62 By default the fire routing output will be activated if there is fire in any zone The output is configured not to turn on in the event of a fire test even if the output group rule contains this option By default the fault routing o
35. all ij 515 Drill the required holes in the supporting wall using a drill bit diameter 10 0 mm and plug with a suitable 50mm minimum long metal expansion plug Affix the panel to the wall with M6 screws length 50mm minimum L 950 370 Ensure that there is sufficient space to allow H the door to be opened when the panel is mounted Finally use a brush to remove any dust or swarf from inside the enclosure Enclosure Size and Fixing Point Dimensions Page 15 of 62 2 4 4 Remounting the Chassis Carefully replace the chassis and locate onto the upper two screws Replace the bottom two screws and tighten all four screws to hold the chassis securely to the back box Reconnect the chassis earth cable to the spade terminal in the rear of the enclosure 6 2 4 5 Recommended Cable Routing Arrangement It is recommended that the routing arrangement shown in the diagram in opposite be employed es font i c Use rear knockout fae knockout rows fo FAT ai TOWS for lower Segregate the low voltage wiring upper chassis aT chasma cables Loop Circuit Sounder Circuits abiss RS485 and AUX Supply from the AC Mains Wiring Segregate any wiring connected to Field the relay contacts Installation Wiring Eyelets are provided in the rear of the back box to enable the cables to be securely fastened using tie wraps Battery Wiring So
36. at full load is within the detector rating refer to the detector manufacturers data sheet for minimum values To maintain signal line wiring supervision break the wiring run at each loop device Page 23 of 62 2 7 4 Sounder Circuits The Mx 4100 amp Mx4200 are equipped with two supervised sounder circuits These are denoted i cpti See Se as Circuits A and B naonana Z ZZZ The Mx 4400 is equipped with four supervised OTO OEN sounder circuits These are denoted as Circuits A B C and D The Mx 4800 is equipped with two sets of four oe a a sounder circuits eight in total 2 Q Each Sounder output is rated at a maximum of 1 Ampere Base Card Connections Typical The terminal connections on the base card are shown in the diagram opposite The sounder outputs are monitored supervised for open and short circuit conditions using reverse polarity signals Sounder must be equipped with an in built blocking diode that prevents the sounder from taking power when the output is in the supervising condition An End of Line Resistor EOLR of value OR 10 0009 Watt must be fitted to the last sounder bell Refer to Appendix 2 Recommended Fire Rated Cables for further information on cable types to be used Typical Sounder Arrangement gland input earth stud in the panel Always ensure that all segments of the cable loop have contin
37. attery sizes greater than 12AH it will be necessary to remove the spade terminals fixed to the battery leads and replace these with connection fixings suitable for the installed batteries Each battery shelf can hold batteries up to 38Ah Replacement Fuses FS1 T6 3A 250V Anti Surge on each chassis Page 22 of 62 EO 17Ah to 17Ah to 38Ah 38Ah Battery Shelf I7Ah to 17Ah to Loops 1 4 aon as Battery Shelf Loops 5 8 2 7 3 Detector Loop Installation Maximum of 32 Sensors Call Points in a Zone between Isolators The Detection Loop Circuit should be installed as a continuous loop with isolator modules such that a short circuit condition does not remove more than one zone or 32 input devices Refer to Section 5 5 4 for details on the use of Apollo Isolators Not more than 512 fire detectors and or manual call points and their associated mandatory functions shall be affected as a result of a system fault in the C LE The panel or each chassis in the Mx 4800 should be installed with not more than 512 fire input devices See Appendix 9 for further details on Mx 4800 and network installations Form the loop starting at the Loop Out and terminals on the base card Route the wires around the loop connecting all devices in accordance with the manufacturers data sheet supplied with each unit IN IN OUT
38. ax Mx4200 D 2 4A Temperature Compensated Separate 24V DC 4A Off Line Switched Mode 200 max across 2 loops 1000 when networked 1to2 Apollo 126 detector call points per loop max Hochiki 127 detector call points per loop max 500mA max Apollo S90 XP95 Discovery Explorer amp Hochiki ESP 2 x 1A Programmable 2 x1A 30VAC DC max 10mA 5V min Programmable 2 x Programmable 10mA 30V DC max 24V DC 500mA 500mA max per Loop 2 x 1A Programmable 2 x 1A 30V AC DC max 10mA 5V min Programmable 2 x Programmable 10mMA 30V DC max 6 x Programmable 24V DC 500mA 1000 Event amp Diagnostic 500 Fire Steel IP30 475 x 450 x 125 475 x 450 x 190 D 10 5Kg 12Kg D 0 C to 45 C 95 Max 18x top 9x top rear and 2x bottom 36x top 9x top rear D 220 240V 10 15 47 63 Hz AC 1 A max 24V 4Ah Internal min 24V 17Ah Internal max Mx 4400 24V 38Ah Internal max Mx 4400 D 24A Temperature Compensated Separate 24V DC 5A Off Line Switched Mode 200 max across 4 loops 1000 when Networked 1to4 500mA max per Loop 4x 1A Programmable 2 x 1A 30V AC DC max 10mA 5V min Programmable 2 x Programmable 10mA 30V DC max 6 x Programmable 24V DC 500mA Mx 4400 LE Steel IP30 950 x 450 x 190 20Kg 0 C to 45 C 95 Max 36x top 9x top rear and 2x bottom 220 240V 10 15 47 63 Hz AC 1 A max 24V 4Ah In
39. ble AC Mains terminations Mx 4200 amp Mx 4400 The fuses are rated as follows T 1 0A H 250V for Mx 4100 T 3 15A H 250V for Mx 4200 Mx 4400 amp Mx 4800 Replace with correct rating and specification only The Mx 4800 employs two terminal blocks for the AC Mains connections one on each chassis assembly as per the Mx 4400 Connect the Control Panel to the mains supply via a readily accessible disconnect device Isolation Switch and suitable earth fault protection incorporated in the building installation wiring The Mains cable should be 0 75mm cable rated at 250V and fused via a 5A anti surge fuse Page 19 of 62 2 7 1 1 Cable Gland The cable gland and any cord clamp bushing s used in routing the Mains cable through the 20mm knockout must have a minimum flame retardant rating of 94HB e Suggested glands and bushings are Type Manufacturer Gland IP65 Brass M20 EExd Eexe Lappcable Gland IP68 Nylon 66 M20 Black UL94V2 Multicomp Bushing Nylon 66 M20 Black UL94V2 Multipcomp 2 7 2 Battery Installation The panel requires two 12V Base Card Terminations batteries for standby operation The battery leads are connected onto the base card via a two part plug and socket as shown in the diagram opposite AIKAA Refer to the Specifications for minimum and maximum battery sizes all
40. cter wait for 1 second and the character will be entered and the cursor will move to the next character in the text description Pressing another button will immediately enter the previous character and move the cursor on to the next character Use the buttons to move backwards or forwards along the line When the text description is as required press the Y button to confirm the change If the text has been entered incorrectly press the Esc button to cancel all changes and return to the previous display The following table shows the numbers characters and symbols assigned to each button on the keypad 1 A EE E 1 i 7 7 7 9 Alternatively press the AY buttons to scroll through a list of characters When the required character is shown press the gt button to move on to the next character The list of characters available and the order of presentation is as follows 4 2 A B 3 D E 4 G H 5 J K 6 M N 7 P Q 8 T U 9 Ww x 0 0 TTF PPT Blank amp 0123456789 lt gt ABCDEFGHIJKLMNOPQRSTUVWXYZ _ Page 29 of 62 3 1 5 Numeric data entry Numbers are entered by moving to the required field and then typing in the required number followed by the button If the number is entered incorrectly press the Esc button to restore the previous number 3 2 Recommended Programming Procedure Step 1 SET UP Def
41. d likewise when they are silenced Allocate unique Output Groups to CHQ BS WS devices with no other device types using that group Page 59 of 62 5 7 Appendix 7 Mx4000 Series Loop Output Drive Capability The following information is applicable per loop All loops can be loaded to the maximum 500mA per loop Provision has been made to allow for a typical loading of detectors and inputs 30mA 5 7 1 Hochiki Volume Number of Loop Powered Sounder Bases 98db 29 or 95db 42 or 94db 47 or 93db 58 or 90db 72 or 88db 104 or 85db 127 5 7 2 Apollo Volume Number of Loop Powered Sounders 100db 104 Loop Powered Sounders or 92db 57 Sounder Bases or 85db 126 Sounder Bases loop take more than 30mA in quiescent or alarm then calculate the actual current load in alarm using the current consumption figures quoted in the device data sheets and ensure that this does not exceed the maximum output for the loop The number of devices shown is representative for specific loop arrangements If there is a mixture of sounder types or sounder volumes on the installation or if the other devices on the Refer to Section 5 2 1 and to Apollo and Hochiki Loop Calculators for further information on calculating loop loading cable cross sectional area and loop distance Page 60 of 62 5 8 Appendix 8 Other Useful Docume
42. e any programmed delays and immediately activate the sounder circuits should be provided at Level 1 It is possible to override the delay using the panel controls see the user manual for details This can also be achieved from an input device such as a manual call point that is programmed to turn on all outputs immediately 3 3 10 Time and Date This function allows the time and date in the panel to be changed On entry to the function the display shows the current time and date with confirmation of the day of the week on the bottom line For example E 15 04 02 MON 15 APR 2002 To change the settings use the 8 buttons to highlight the required option Directly enter the new time or date using the number buttons As soon as a number button is pressed the display will clear the current setting and show the new value as it is entered For example E DATE 1 15 04 02 MON 15 APR 2002 3 3 11 View Options The View Menu Options are identical to those available during Level 2 operation For further information on the View Options and the information that is presented refer to the User Manual Document No 680 015 3 3 12 Passwords The panel provides up to 10 User Level 2 passwords and 2 Level 3 passwords All of the passwords can be changed On entry to the function the display shows a list of the passwords For example Password Access level User ID 2 9988 13344 10000 100
43. e of an optical smoke detector If the new device type is accepted or all new device types are accepted the panel will configure the memory to register these devices All data will be configured to initial settings for sensitivity threshold changes text assignments zone assignment action etc for these devices If the new device type is rejected or all new device types are rejected the panel remembers the programming for the original devices The panel will report a fault condition until such time as the correct device types are reconnected Press the 4 buttons to highlight the required menu option and then press the button to confirm The pop up window will disappear and the panel will continue with the auto learn process If a single device is accepted rejected and another new device type is subsequently registered the display will once again show the pop up window to accept or reject this device 3 3 4 Loop Calibrate Calibrates Hochiki devices Note this can take up to several minutes if many detectors amp sounder bases are installed Page 37 of 62 3 3 5 Loop Driver Displays loop output and input voltages and loop loading A diagnostic display with automatic scanning of the loop to find devices with minimum and maximum communication pulse heights is available for loop drivers manufactured after October 2002 3 3 6 Zones The Commission Zones option lists all the Zones in use by the panel and allo
44. e risk of multiple failures causing overall or partial loss of the network functions BS5839 1 2002 Sections 24 2 and 26 2 provide a useful guide Use fire resisting eof Networked ge FIT Sixth cables be eee e ca a ea i L iia ara a an i aaaea a ria aaria a i iaa ia eiie a a aaa 4 i Standard fire resisting cable Configure the i aon network as a loop B oOo iN Networked CIE CIE i Ss Employ diverse e TE routing of incoming m and outgoing ge a a oe ca Etre od iT Detector Loop Wiring circuits except in the i immediate vicinity of imore F i the sub panel Do eee F iy 1 T There is no loss of my fete eee a 4 eG communication to H y any sub panel in the p nemoreaae feg gt Ground i i fj floor event of a single EES E a ee Diverse routing of network cable open or short circuit on the loop Page 62 of 62
45. ections typical JJOO To internal To external equipment equipment Base Card Connections typical 2 7 11 Routing Interface The Routing Interface is used to output monitored signals to Fire Routing Equipment and Fault Routing Equipment Each function comprises of an output circuit Each output is monitored for open circuit and short circuit wiring conditions in both the activated and quiescent states and can be connected to a remote relay coil with a resistance of 1KQ to 5KQ A suppression diode must be connected across the coil observe connection polarities The Fault Output is normally energised during the quiescent condition it will de energise on any fault or on total loss of power For further information refer to Document 680 081 Not Currently Used Power Data or DOOD IDDO0 DODOO0 0000 Y pjt Pje y y FIRE 1FIRE 2 FAULT Routing Interface Typical Arrangement Refer to Appendix 2 Recommended Fire Rated Cables for further information on cable types to be used for these transmission paths Page 27 of 62 3 Programming 3 1 Introduction These instructions cover the configuration and programming of the panels Note On the Mx 4800 each chassis assembly must be individually programmed 3 1 1 Access Levels The panel operation is protected from inadvertent and erroneous misuse by mea
46. emoving and Replacing the Enclosure Cover of the Mx 4100 The enclosure cover is fixed in place with two tamper resistant hexagon key screws These require the use of a 2 5mm Allen Key The enclosure cover must be connected to earth When replacing the cover always ensure that the earth lead spade terminal is securely seated onto the blade terminal in the back box 2 2 2 Removing the Chassis It is recommended that the chassis be removed before fitting the panel to the wall To remove the chassis Disconnect the earth cable connecting the chassis to the spade terminal on the rear enclosure Remove the two screws holding the chassis to the back box Keep these items in a safe place for later re use Unplug the 3 way connector feeding the power supply to the Base Card Carefully remove the chassis from the rear enclosure and place in a safe place to prevent accidental damage Do not lift the chassis by holding onto any of the printed circuit cards Hold the chassis by the metal plate only 2 2 3 Mounting the Enclosure Firstly remove the required knockouts for the installation wiring There are sufficient knockouts on the top of the enclosure for all installation wiring In addition there are knockouts at the top of the back wall if required for rear entry cabling The enclosure is provided with four fixing points 340 The diagram opposite shows the positions of the ER e 2 y four holes Use all four positions
47. ently selected zone to the zone number entered will be programmed with the same information as the currently selected zone 3 3 9 Investigation Delays In addition to the Cause and Effect programming described above the panels also support an Investigation Delay Mode which allows time for a building supervisor to investigate fire signals before turning outputs on This mode can only be configured from the PC software There are two parts to this delay The first stage is set relatively short If the building supervisor does not acknowledge the fire signal within the first stage the delayed outputs will turn on The second stage gives a longer period to investigate the fire signal This delay can be cancelled at any time by pressing the EVACUATE button or any nominated input devices by default all call points cancel this mode Each input and output device can be individually programmed to use the investigation delay from the PC configuration software together with the times appropriate to each stage of the delay The user manual gives details of how the building occupier can turn the investigation delay feature on or off Page 41 of 62 Delays to Outputs It must be possible to override the operation of any delays at Level 1 Refer to Section 3 3 9 1 for information on overriding delays For compliance the maximum total delay permitted is 10 minutes 3 3 9 1 Overriding Delays at Level 1 A facility to overrid
48. etting using number entry 3 3 8 3 2 Mode The mode field defines the method of operation of the output when it is first activated This can be ON or PULSE Press the button to step on to the delay field and change the setting using the Y button Note Pulse settings are by default 1 second ON 1 second OFF Other pulse options can be specified on the PC Tool such as 2s ON 3s OFF these can be assigned to on board outputs only 3 3 8 3 3 Wait The wait field is the time from first activation of the output to the next operational condition mode of the output For example the output could initially be delayed for 20 seconds and turn on ina pulsing mode After a wait of a further 30 seconds it can be programmed to turn on differently such as ON The wait time can be set in intervals of 1 second up to a maximum of 250 seconds Press the button to step on to the wait field and change the setting using number entry 3 3 8 4 Copying Output Settings to Multiple Zones To save time in the entry of similar Output Group Settings for each zone it is possible to copy information programmed for a particular zone to subsequent zones Press the button to highlight the required zone number and then press the V button The display shows a pop up window prompting for the number of the zone to which to copy the information Use the number entry to select the required zone number The Output Group programming for all of the zones from the curr
49. fete Drift 002 0 XP95 003 0 Disco Drift 004 0 Disco Drift Refer to Apollo s literature for an explanation of the drift mechanism and for further information on the expected values 5 5 2 Rapid Compensation Apollo has incorporated a rapid compensation facility into the Discovery devices If a device is changed during service it can be quickly adjusted to the present ambient conditions Highlight the required Disco family device select RAPID COMPENSATION and then press the lt button to confirm The panel will now instruct this device to perform a rapid compensation This will take approximately 30 seconds This operation must only be performed with the detector in clean air No other operation should be performed on this device during this rapid compensation period Page 57 of 62 5 5 3 View EEPROM The panel can read any of the extended memory locations within the Discovery devices Highlight any Disco family device select VIEW EEPROM and then press the button to confirm The display will prompt for entry of the required extended memory address For example Loop 1 Devices lt More gt Address Additional Info EEPROM ADDRESS Enter the required address using the number buttons and then press the Y button to confirm The panel will now read the extended memory locations for all Discovery devices on the loop When complete the display will present the information as follows
50. geable When the battery is replaced re enter the current date and time using the menu functions to update the values in the real time clock chip Expected Shelf Life gt 10 years Replacement Schedule 10 years for panels in continuous service 10 years for spares i e when the panel board is not powered Replace if the battery voltage falls below 2 6 volts Manufacturer Part Number CR2032 4 2 2 Liquid Crystal Display Expected Life gt 10 years Replacement Schedule When the display becomes difficult to read The display contrast will gradually fade with time Manufacturer Part Number Replace the complete display keyboard assembly Spare part number MXS 004 Page 49 of 62 5 Appendices 5 1 Appendix 1 Forgotten Level 3 Password Should the Level 3 password be forgotten contact Customer Support to obtain a temporary permit number to regain access to the panel programming functions Customer Support will require a decryption key displayed by the panel To obtain this number attempt to gain access to the Level 3 Programming Functions entering 1 when prompted for the password As soon as the Password Invalid message is shown press the 0 button and the display will show a decryption key Make a note of the first part of this number For example Level 2 Menu Please Enter Your Password 214728378 Customer Support will provide a temporary permit number that you can enter
51. he button to select it Use the number buttons to enter the required value Alternatively press the Esc button to cancel the changes The alarm thresholds and delay times can be unique for every device if required Always ensure that the values chosen are suitable for the particular installation and that reliable fire coverage is maintained at all times 3 3 2 7 1 Mode Apollo This is applicable to Discovery devices only The panel fully supports the sensitivity modes within the Discovery devices Refer to the Apollo technical documentation for a detailed description and recommended use of these bands Different sensitivity modes can be chosen for both day and night periods This field can be set in the range 1 5 3 3 2 7 2 Mode Hochiki This is applicable to Multi sensor devices only e Mode 0 Default Combined optical amp heat detectors e Mode 1 Optical mode only e Mode 2 Heat mode only 3 3 2 7 3 Delay The value in this field defines the delay from detecting an alarm to entering the alarm condition The delay time can be changed in 1 second increments 3 3 2 7 4 Alarm Apollo The Alarm Level is the level of the analogue value returned by the detector at which the panel will enter a Fire Alarm Condition The default value is 55 Setting the value higher will mean that more smoke higher temperature is required before the panel will enter the alarm condition Setting the value lower will mean that less smoke
52. he ranges of sounders and output devices Also details limitations 680 059 Apollo Ancillary Base Sounders Application Note Explains how to configure the panel for operation with detector LED driven base sounders Also details limitations 680 082 Mx 4000 Door Replacement Application Note Explains how to change the door cover on the Mx 4000 Series panels 680 085 Software Upgrades Application Note Explains how to upgrade the software in the Graphics Display Card and Fault Tolerant Network Card Refer to 680 030 for general panel software flash programming information and guidance 680 088 Cables for Fire Systems Application Note Gives further information on the cables than can be used with the Mx 4000 Series 680 089 Zone Indications Application Note Explains the options optional modules to provide zone based indication in accordance with the requirements in BS5839 1 2002 680 110 Apollo S90 Series Application Note Details the devices supported and provide tips on working with these devices Page 61 of 62 5 9 Appendix 9 Mx 4800 Network Design Principles This section gives recommendations on the design of the installation to cover specific EN54 2 requirements and typical national codes of practice EN54 2 1997 Clause 13 7 Not more than 512 fire detectors and or manual call points and their associated mandatory functions shall be affected as a result of a system fault in the C I E 5 9 1 Mandatory Functions Fo
53. iguration data from a file on the PC For further information refer to the Manual supplied with the PC Configuration Tool 3 3 15 Setup The Setup Options Menu enables the configuration of panel generic operating parameters When the option is selected the display shows a list of the available parameters For example Setup HIS NETWOR e ANEL ZONE 100 ERVICE NUMBE 01234 567890 T NEXT NETWOR F 0 P S Use the MY buttons to scroll through the list of options The following will then be shown Page 43 of 62 E DUE DATE Bree OGGING MODE STANDARD More gt ETECTOR BLINKING NONE PANY LCD LOGO wv 3 3 15 1 Network This Network node is set to 0 for a standard non networked panel For panels in a networked application please refer to the Network document reference 680 027 3 3 15 2 Panel Zone By default all the panel inputs are assigned to the Panel Zone Alternatively the PC configuration program allows individual inputs to have different zones if required 3 3 15 3 Service Number The Service Number is the telephone number that is shown on the status display whenever a fault condition occurs To change the number press the Y button when the option is highlighted The number is entered using the text entry facility refer to Section 3 1 4 for guidance on how to enter text 3 3 15 4 Service Due Date The next service over due
54. in a menu option to return to the previous menu The display can be forced back into status mode by pressing the Esc button when at the top level commissioning menu or by waiting 60s Page 28 of 62 3 1 4 Changing Text Descriptions Various parameters can have a text description defined These include loop devices zones etc The zone and device text descriptions will be shown on the display in the Fire Alarm Fault and Warning Conditions etc to provide a quick and clear indication of the source of the problem To change the text description first highlight the text description within the appropriate programming option and then press the Y button The display then changes to show the text entry dialogue screen For example gt GESTAURANT lt KEY IN THE REQUIRED TEXT The method of entering the characters is similar to the method employed on mobile telephones The number buttons provide both their appropriate number and several letters of the alphabet An example of the keypad is shown opposite For example Button 2 allows entry of the number 2 and letters A B and C When a button is pressed the number is first shown on the display at the current cursor position If the button is pressed again within second the first character replaces the number A further press displays the second available character and so on After pressing the button to obtain the required chara
55. ine General Set up Information Phone Numbers etc Step 2 PASSWORDS Define Level 2 and Level 3 Passwords as required Step 3 AUTO LEARN Let the panel learn the devices on the loop s Step 4 VIEW DEVICES Enter Zone Numbers Location text and Change Group Assignments if required Step 5 OUTPUTS Program Output Groups as required Step 6 ZONES Enter Zone Texts as required 3 3 Level 3 Menu Functions The following table gives a list of the Level 3 Menu Functions the sub functions available within each main function and a brief description for each function Main Menu Comments Option View Edit View test and configure the loop devices Auto Learn Learn the Devices Present on the Loop Calibrate Calibrates devices on the loop ZONES Configure the Zones EXIT Cancel Level 3 Access and return to Level 2 Menu Options OUTPUTS Configure the Operating Characteristics of the Output Circuits TIME DATE Change the Date and Time Settings VIEW Fires View Zones and Inputs that are reporting a fire alarm condition Faults View Zones and Inputs that are reporting a fault condition Alarms View Zones and Inputs that are reporting an alarm condition during test Disabled View Zones Inputs and Outputs that are disabled Inputs View the current state of Zones and Inputs Outputs View the current operational condition of all output circuits Log View the Event Log
56. ing Note this is different to an Investigation Delay which is detailed in section 3 3 9 This section describes the settings and options in detail for each parameter Refer to Appendix 4 Cause and Effect Programming Example for a description of how to program a typical requirement More complex Cause and Effect programming may be undertaken using the PC Configuration tool When the OUTPUTS Option is selected the display shows the cause and effect programming for Output Group 1 For example Page 38 of 62 tput Group 1 E GROUP CAUSE ANY FIRI ii 1 1 E ANY FIRI ANY FIRI ANY FIRI Fl Gl Fl FI Be UNBE To simplify the cause amp effect programming one or more outputs that will respond in the same way when the same set of input events occurs can be grouped together This association of outputs is called an Output Group The panel can support up to 200 of these Output Groups To select a different Output Group highlight any group number and then enter the number of the output group required using the number buttons The display always shows the Output Group is shown in the top left corner Press the 48 buttons to scroll through the list of zones Press the buttons to select the fields for a particular zone Press the button to select a particular field option to change its setting 3 3 8 1 Default Output Settings On initial installation or after clearing the configuration memor
57. ive alarm condition For example Loop Address Action 001 0 FIRE 002 0 FIR 003 0 FIR 004 0 FIR lt More gt tivity O P 1 Devices SIGNAI SIGNAI SIGNAI SIGNAI Cl Gl Fl FI Press the Y button to change the action assigned to this input device A pop up window is then shown on the display from which an action can be selected Select New Action FIRE SIGNAL PRE ALARM FAULT SIGNAL Press the 8 buttons to scroll through the list of Actions and then press the button to confirm the change The display reverts to the device list showing the new action assigned to this device Alternatively press the Esc button to cancel the changes and return to the device list display The following Actions are available Additional actions are available on a PC Action Description o Fire Signal A Fire Alarm Condition will be generated whenever the input is active Pre Alarm A Pre Alarm Condition will be generated whenever the input is active Fault Signal A Fault Condition will be generated whenever the input is active Security A Security Alert Condition will be generated whenever the input is active Record A Record Entry will be stored in the Log whenever the input is active This will be hidden from the panel status display Create Alarm 1 An Alarm 1 condition will be generated whenever this input is active Create Alarm 2 An Alarm 2
58. iver Card 17 2 6 Local Peripheral Installation 18 2 6 1 Peripheral Bus Interface Adaptor 18 2 6 2 Routing Interface Card 18 2 7 Wiring Installation 19 2 7 1 AC Mains Wiring 19 2 7 1 1 Cable Gland 20 2 7 2 Battery Installation 20 2 7 2 1 Mx 4100 21 2 7 2 2 Mx 4200 amp Mx 4400 21 2 7 2 3 Mx 4400 LE amp Mx 4800 22 2 7 3 Detector Loop Installation 23 2 7 4 Sounder Circuits 24 2 7 5 Relay Circuits 24 2 7 6 Open Collector Outputs 25 2 7 7 Auxiliary Supply Output 25 2 7 8 Switch Inputs 26 2 7 9 RS232 Interface 26 2 7 10 Isolated Bus Interface 26 2 7 11 Routing Interface 27 Page 3 of 62 Page 4 of 62 PROGRAMMING 28 3 1 Introduction 28 3 1 1 Access Levels 28 3 1 2 Memory Lock 28 3 1 3 Navigating through menus 28 3 1 4 Changing Text Descriptions 29 3 1 5 Numeric data entry 30 3 2 Recommended Programming Procedure 30 3 3 Level 3 Menu Functions 30 3 3 1 Loops 31 3 3 2 Loops View Edit 31 3 3 2 1 State 31 3 3 2 2 Type 31 3 3 2 3 Value 32 3 3 2 4 Zone 32 3 3 2 5 Device Text 32 3 3 2 6 Action 32 3 3 2 7 Sensitivity 33 3 3 2 8 O P Group 35 3 3 2 9 Additional Info 35 3 3 2 10 Detector Testing 35 3 3 3 Loops Auto Learn 36 3 3 3 1 Normal Procedure Initial learn 36 3 3 3 2 Procedure if the Panel finds Devices Missing 36 3 3
59. nal in the rear of the enclosure 2 3 5 Recommended Cable Routing Arrangement It is recommended that the routing arrangement shown in the diagram opposite be employed Segregate the low voltage wiring Loop Circuit Sounder Circuits RS485 and AUX Supply from the AC Mains Wiring and any wiring connected to the relay contacts Eyelets are provided in the rear of the back box to enable the cables to be securely fastened using tie wraps Sounders and AUX wiring should be routed behind the chassis assembly and tie wrapped to the back box Cable screens shields should be connected to the back box using the threaded studs provided near the knockout holes Multi way Bus bars are available separately for mounting on the threaded studs Refer to Appendix 2 Recommended Fire Rated Cables for further information on cable types to be used Page 14 of 62 Refer to specific sections on how to install AC Mains input and loop sounder relay and AUX outputs circuits Relays AC ao L Sounders AUX Ad NeT LOOPS Network oe es XY RAU G N AUA internal arrangement showing recommended routing of cables 2 4 Installing the Mx 4400 LE and Mx 4800 Enclosures The panel can weigh in excess of 80kg when the batteries are installed Use the appropriate fixing hardware necessary to secure the panel to the wall Observe recommended lifting practices to guard against spinal injury 2 4 1 Ope
60. new device information from a PC to the panel will also cause the effected devices to be re calibrated Periodic re calibration can be performed at levels 1 amp 2 under control of one of the 7 day time clocks The time clock settings are configured from PC program 5 6 1 Unprocessed Analogue information For most purposes the Value field in the View Edit menu gives the easiest to read and the most useful information from a detector as it is scaled and displayed in standard engineering units It is however possible to see the unprocessed analogue signal AN by moving to the Additional Info field Loop 1 Devices lt More gt Address Additional Info 001 0 AN 002 0 AN 003 0 AN 004 0 AN Press the button to cycle through and display the stored Calibration Zero point ZP and the Calibration Fire point FP 5 6 2 CHQ BS CHQ WS Sounders Unlike standard sounders these loop driven sounders can be programmed to give out many different tones and be individually programmed to adjust the sound output When programmed from the panel they will default to turn on at 85dB Use one of the many tones available from the PC instead of the standard Pulse option if any special ringing is required The panel utilises the group features of the CHQ BS WS so that when a command is sent to turn one device on all other CHQ BS WS devices within the same group will turn on at virtually the same time from the same command an
61. ning the Enclosure Cover The Mx 4400 LE and Mx 4800 are provided with two key lock assemblies for securing the hinged door to the back box Insert and turn both keys to open the enclosure 2 4 2 Removing the Chassis It is recommended that the chassis T Fy assemblies be removed before fitting the al O panel to the wall To remove the chassis a 1xing Refer to the diagram opposite Screws il Disconnect the earth cable connecting the chassis to the spade terminal on the rear enclosure Remove the bottom two screws holding the chassis to the back box Keep these items in a safe place for later re use p TRC ALARH CONIROL PANEL Loosen the top two screws holding the chassis to the back box via the keyhole slots The chassis assembly can now be removed Earth Connection Carefully remove the chassis from the rear enclosure and place in a safe place to prevent accidental damage 2 4 3 Mounting the Enclosure Firstly remove the required knockouts for the as ay 450 installation wiring There are sufficient n q 4 380 R knockouts on the top of the enclosure for all Ea N installation wiring In addition there are 35 knockouts at the top of the back wall if required for rear entry cabling O VUUUUVUUUT gy The diagram opposite shows the positions of the six holes Use all six positions to ensure the panel is held securely to the w
62. ning the system to take into account the maximum loop loading The voltage drop load current x cable resistance over the cable always needs to be taken into account to ensure the devices receive an adequate supply voltage The following table gives recommendations for a loop It may be possible to extend the lengths where the devices are distributed evenly refer to the Apollo Hochiki data sheets and Loop Calculators for further information on calculating loop loading cable cross sectional area and loop distance Maximum Circuit Circuit Max Circuit Loop Cable Distance M Impedance Loading Impedance On Sea 2 Maximum Capacitance 100mA 55 00 1500 2000 2000 Core Core Maximum Capacitance Core Screen 200mA 27 50 1130 1860 Insulation Resistance Core Core and Core 300mA 18 30 500 750 1200 Screen NB Maximum Circuit Impedence is the sum of the resistance of both cable conductors 400mA 13 70 00 50 920 40 Page 51 of 62 5 2 2 Sounder Circuit Lengths The voltage drop on each alarm circuit should be calculated to ensure that the minimum voltage at the end of the circuit exceeds the minimum required by each sounding device at the minimum alarm circuit output voltage The voltage at the end of the circuit is given by Minimum Alarm Voltage Voutiminy lararm X Rcaste Minimum Output Voltage Voutiminy iS Veatainy 0 5V 20 5V Alarm Current laLarm is the sum of the loads presented by the sounding devices in alarm
63. ns of three access levels These levels are as follows Level 1 Untrained user Level 2 Authorised User Level 3 Commissioning Service and Maintenance This document covers the Level 3 functions For details on the operation and use of the panel at Levels 1 amp 2 refer to User Manual 680 015 A level 3 password is required to enter the commissioning menus For details of Passwords refer to Section 3 3 12 Level 3 Passwords If this number is lost it is not possible to enter commission mode functions Refer to 5 1 for further formation 3 1 2 Memory Lock The configuration memory is protected against MEM inadvertent change by means of a memory lock OPEN OT poson Before making any configuration data changes CLOSE move the jumper strap to the OPEN position After all changes have been made move the Lock jumper strap back to the CLOSE position to O Em protect the memory against inadvertent change CLOSE y Refer to the diagram opposite for information on the jumper settings Typical View Mx 4100 3 1 3 Navigating through menus The display will revert to status mode after 60s Press the Menu button to restore the display Commission Menu 1 LOOPS ZONES OUTPUTS TIME DATE When a menu is displayed use the f W gt buttons to highlight the required menu option and then press the button to select it Press the Esc button from with
64. nts The following reference and application documents may be useful in the design configuration and installation of the system The latest versions are available from the Advanced Electronics Ltd web site www advel co uk or in hard copy format from Sales Document Title Type Description Number 680 021 Configuration Tool Software Level 3 Tool Explains how to configure the panel using the PC NET 003 PC Software NOTE On line help is provided within the PC Software 680 023 Logo Software Level 4 Tool Explains how to create and update the logo in the panel using the PC NET 007 PC software 680 025 Key Switch Access Control Application Note Explains how to configure the panel for use of a key switch for level 2 access 680 027 Ad NeT Network Product Data Explains how to install and configure the Ad NeT and Ad NeT PluS networks 680 030 Flash Programming Level 4 Tool Explains how to update the panel firmware with new software revisions 680 034 External Printer Output Application Note Explains how to configure the panel and connect a serial RS232 printer 680 039 Class Change Programming Application Note Provides examples of how to implement a class change function using different inputs 680 042 Gated Time Clock Application Note Explains how to use an input to enable disable a Programming time click function 680 058 Hochiki Sounders and Outputs Application Note Explains how to configure the panel for operation with t
65. ogramming Example 5 4 1 Introduction By default all sounders and output devices will turn on immediately as soon as a fire is detected anywhere in the system For example Cause Effect Any Fire Anywhere gt ALL Output Devices will Turn ON Quite often an installation will require a more complex Cause and Effect solution Consider a multiple story building where phased evacuation is required when a fire occurs on a particular floor For example Cause Effect Any Fire on Floor 7 gt Sounders on Floor 6 will DELAY for 30 seconds then start From Zones 22 23 or 24 PULSING After 2 minutes turn ON Sounders on Floor 7 will Turn ON gt Sounders on Floor 8 will DELAY for 30 seconds then start PULSING After 2 minutes turn ON 5 4 2 Output Groups There may be several sounders on each floor These can be grouped together using the Output Groups so that a single group number can easily reference all sounders on a particular floor in the panel For example Sounders Output Group Assign All Sounders of Floor 6 gt Output Group 6 Assign All Sounders of Floor 7 gt Output Group 7 Assign All Sounders of Floor 8 gt Output Group 8 Refer to Section 3 3 2 8 for how to assign the output group to a loop output device Refer to Section 3 3 8 1 for how to assign the output group to an internal panel circuit 5 4 3 Styles In the example there are two ways in which the sounders should ring These two operational characteristics can
66. ources of power before ggg mo jog Be We 8 U2 dii oss YY pa A fe ace Wo installing or removing printed circuit BESEEE B S oo 8259 7 6 ofi7 o Ol J boards VARG Be 2S 2 TONIT 51 zl ARI p Best AOOOOOSMH OM c3 BARRE Ne 3 4 19 i o FEF ARS VARA VARVAR Hooooaooall 5 E a pre Observe anti static precautions at all times when handling printed circuit boards Open the enclosure and then open the display plate it is hinged on the right hand side and there is a magnetic catch strip on the left hand side to gain access to the Base Card A section of the Base Card identifying the locations for each loop driver is shown in the 7 pictu i opposite Component side of TE H 5 2 5 g To install a loop driver remove the retaining strap Loop Driver Card e gg qe 2s then gently guide the loop driver printed circuit cade eels al eects e card into the guide slots of the machined end cece SSI ee EE ey el SEIS a3 blocks and then push into place onto the e l gs l THOE EE connector on the Base Card a ae ap F Ensure that the pins of the connectors are i iF TE Bes correctly aligned The loop driver should be 5 TE 3 inserted with the component side of the board H Ct B i placed on the left hand side Replace the retaining e ik u strap Machined End enan Block 1 2 3 4 The Base Card can accept up to four loop driver
67. owed Place the batteries in the bottom of the enclosure and connect the Red lead to the positive terminal of battery 1 and the Black lead to the negative terminal of battery 2 Connect the negative of battery 1 to the positive of battery 2 using the supplied link cable Ensure that the battery terminals do not short out against any part of the enclosure circuit board or chassis plate 1 j Ee x 4343 BAT BAT AUX i AUX IJI FS2 BAT FS1 Supply Mx 4100 Mx 4200 Mx4400 amp Mx4800 Link Cable BLACK W1 2 Do not make the final battery connections until the installation wiring is completed and the Always connect the AC Mains input before connecting the battery system is to be powered up J New batteries require top charging before installation Refer to Section 4 2 1 1 for a list of recommended batteries Page 20 of 62 2 7 2 1 Mx 4100 The diagram opposite shows the recommended location and orientation for the 7AH batteries within the panel For battery sizes greater than 7AH the batteries must be installed in a separate enclosure suitable for fire protection use with wiring connected to the panel through rigid conduit Replacement Fuses FS1 T5A 125V Anti Surge FS2 T5A 125V Anti Surge 2 7 2 2 Mx 4200 amp Mx 4400 The diagrams opposite show the recommended location and o
68. ple Mx 4400 Only This Output is used for routing if the non monitored routing option is selected 7 This Output is available on the optional Routing Interface Peripheral Card Page 39 of 62 tput Group 1 3 9 Mem used CAUSE STYLE Delay gt MODE Wait ANY FIRE On ANY FIRE On ANY FIRE On ANY FIRE 5 On Press the button to change the setting and a pop up window will appear showing the options available For example E D K FIRE LARM PRE ALARM LT I P DISABLE EST CONTROL Press the buttons to highlight the required menu option and then press the Y to change its setting An input action type is enabled when a J is shown beneath the option It is permitted to select multiple input types in which case a combination of input events will result in an output action If there is a combination of input events the CAUSE display above shows this extended programming by adding a to the text For example Zone 2 above shows that the basic event is ANY FIRE other criteria Press the Esc button to return to the previous display The definition for each cause is as follows Cause Definition Fire Any single fire Double Knock D K Coincidence of 2 or more fire detectors or a single manual call point in the same zone Alarm Activation of an input device programmed with an Alarm action Pre Alarm A device in a pre ala
69. pply 4 1 1 Daily Actions The site operator user should perform the following checks and actions a The panel indicates normal operation If any faults exist these should be recorded in a logbook b Any recorded faults have received attention and have been signed off 4 1 2 Monthly Actions The site operator user should perform the following checks and actions a Any stand by generators should be started and fuel levels checked b Operate at least one call point or detector from different zones each month and check that the panel enters a fire alarm condition and that the appropriate programmed alarm or warning devices are sounded operated Where permissible this should include any links to the fire brigade or remote centre c Check that all outstanding faults have been recorded and have received attention 4 1 3 Quarterly Actions The service maintenance contractor should perform the following checks and actions a Check that all entries in the logbook have been addressed check the event log in the panel and take the necessary remedial actions b Visually inspect the panel for any moisture ingress or other deterioration check all battery connections and test check the alarm fault and other functions of the panel operation c Ascertain if any building or structural alterations have been carried out that would affect the placement location of call points or detectors If so perform a visual inspection
70. r full compliance with the requirements in EN54 2 the configuration and operation of all mandatory outputs shall comply with the guidelines below Sounder Devices EN54 2 1997 Clause 7 8 Care should be taken with the cause and effect programming to ensure that any sounder sounder output is configured such that its fire response operation will only be affected if there is a system fault on the chassis panel to which it is directly connected Consideration should also be given to the applicable code of practice or national standard regulations for fire systems installation for example BS5839 1 2002 for installation and operation of sounder devices Fire amp Fault Routing EN54 2 1997 Clauses 7 9 amp 8 9 Mx 4800 If provided then separate fire and fault routing interfaces should be provided on each chassis These should be individually configured to report fire and fault conditions from their respective chassis panel Network If provided then at least two fire and fault routing interfaces should be provided These should be programmed to report all fire and all fault conditions 5 9 2 Network Wiring Where the installation design and codes of practice deem the network connections to be a Critical Signal Path then consideration should be given to the use of the Ad NeT PluS Fault Tolerant Network For further information see document 680 027 In addition the routing and type of cables employed is important to limit th
71. red using cable with insulation suitable for the application To minimise the effects of EMC interference all data wiring circuits should be wired with a twisted pair of conductors with a cross sectional area suitable for the loading conditions In areas where cabling may come into contact with high frequency interference such as portable radio transceivers etc the data wiring cable should be of a twisted pair construction within an overall screen Care should be taken to correctly terminate this screen refer to the appropriate sections of this manual for further information for each circuit type NB Minimum Maximum cable size for all external connections is limited to 0 5mm 2 5mm 22 14AWG 2 7 1 AC Mains Wiring Route the high voltage mains AC wiring into the enclosure at the upper left corner only Keep the AC wiring away from the circuit boards and all other wiring Panel Wiring Yellow f ae The panels must be connected to O neurrat N the supply earth through the power Must be cable l o earthed AC Mains terminations Mx 4100 Panel Wiring The mains input connector is shown in the diagram opposite Note the positions of the earth neutral and live terminal connections These are clearly marked on the label next to the connector The connector block contains an integral fuse holder Brown Secure the mains input wiring by tie wrap as close to the terminal block as possi
72. rientation for the 12AH and 17AH batteries within the panel For battery sizes greater than 17AH use the Mx 4400 D for batteries up to 38AH and use the Mx 4400 LE large enclosure variant for up to 48AH For battery sizes greater than 12AH it will be necessary to remove the spade terminals fixed to the battery leads and replace these with connection fixings suitable for the installed batteries Replacement Fuse FS1 T6 3A 250V Anti Surge Page 21 of 62 2 7 2 3 Mx 4400 LE amp Mx 4800 The diagrams opposite show the recommended location and orientation for the batteries within the panel for 17Ah 25Ah and 38Ah batteries The diagram shows the arrangement for the Mx 4800 The Mx 4400 LE is only equipped with the upper chassis Batteries up to 38Ah should be placed on the upper battery shelf Batteries up to 48Ah can be supported these should be formed by the parallel connection of 24Ah batteries located on both battery shelves Note A separate power supply chassis can be fitted in the lower chassis position to provide power and mounting positions for peripheral options Batteries for this can be located at the bottom of the enclosure For b
73. rm condition Fault Any device entering a fault condition Input Disabled Whenever an input device is disabled Test A Walk Test fire in the zone Control A control input in this zone will cause activation Coincidence Detection The operation of the Coincidence Detection Double Knock feature is on a per zone basis 3 3 8 3 Style The way in which an output turns on in response to a particular input event can be programmed For example an output may turn on immediately it may turn on after a delay or it may pulse for a set time and then turn on This method of operation is called a Style A style may have up to three different methods of operation For example Delay Mode Wait Mode Wait Mode Style 00 is fixed to turn on immediately an input event occurs Style 01 is fixed to pulse immediately an input event occurs Styles 02 to 20 are programmable 02 to 10 on Mx 4100 Page 40 of 62 Press the button to step on to the style field Change the setting using number entry to select the required output style If the style is already programmed elsewhere the relevant style parameters are automatically entered into the appropriate fields 3 3 8 3 1 Delay The delay field is the time from qualification of the input event to something happening at the output The delay time can be set in intervals of 1 second up to a maximum of 250 seconds Press the button to step on to the delay field and change the s
74. s Expected Life 3 5 years at an ambient temperature of 20 C Replacement Schedule As above However note that the expected battery life is shortened by increase in ambient temperature The life reduces by 50 for every 10 C rise above ambient Refer to battery manufacturer for further information Manufacturer Part Numbers YUASA POWERSONIC 4AH NP4 12 5AH PS 1250 F1 7AH NP7 12 TAH PS 1270 12AH NP12 12 12AH PS 12100 F1 17AH NP18 12 18AH PS 12180 NB 24AH NP24 12B 26AH PS 12260 NB 38AH NP24 38 38AH PS 12400 NB Batteries connected in parallel 48AH 2x NP24 12B 48AH 2x PS 1260 NB For optimum performance and charge retention Yuasa recommend that batteries are top charged prior to installation For batteries up to 6 months old from date of manufacture charge at 2 4V per cell i e 14 4V per battery for 20 hours prior to installing the batteries It is not recommended to use batteries that are more than 6 months old from their date of manufacture on a new installation It is quite normal for lead acid batteries to vent hydrogen when being charged The panel is adequately ventilated to dissipate this hydrogen DO NOT seal the enclosure or install in a sealed enclosure or oe cavity 3 NOTE Rated as 24AH batteries Page 48 of 62 4 2 1 2 Lithium Battery WARNING A lithium battery is used for the real time clock Replace only with the same type or authorised equivalent This battery is not rechar
75. should be doubled to allow for changes in battery efficiency for loads in excess of the recommended C 20 discharge rate The total load calculated should be multiplied by a de rating factor of 1 25 to allow for changes in battery efficiency over time The above calculation is in accordance with the recommendations in BS5839 1 2002 Page 53 of 62 5 3 2 Mx 4200 Mx 4400 Mx 4800 Quiescent Load Fire Alarm Load Equipment l A x Total I A x Total Mx 4400 Mx4200 Chassis 0 083 1 0 0 083 0 178 10 0 178 Loop Driver 0 042 1 0 0 042 1 0 13 Loop 1 14 Sensor Loop Current 1 25 1 25 Loop Driver 0 042 1 0 0 042 1 0 Loop 2 Sensor Loop Current 1 25 1 25 Loop Driver is 0 042 1 0 0 042 1 0 Loop 3 Sensor Loop Current 1 25 1 25 Loop Driver i 0 042 1 0 0 042 1 0 z Loop 4 Sensor Loop Current 1 25 1 25 Mxp 003 AdNeT Network Card 0 020 1 0 0 020 1 0 Mxp 009 AdNeT PLUS Network Card 0 062 1 0 0 062 1 0 Mxp 025 LED Indicator 20 Zone 0 003 1 0 0 012 1 0 Mxp 013 050 100 LED Indicator 0 003 1 0 0 027 1 0 Mxp 012 Internal Printer 0 020 1 0 0 025 1 0 E Auxiliary Supply Output 1 0 1 0 Sounder Output A 1 0 Sounder Output B 1 0 Sounder Output C 1 0 Sounder Output D 1 0 Total XQuiescent Load Alarm Load x 48 hr x 72 hr Total
76. slot in the iterace Adaptor in piace mm clamp Peripheral Interface Adaptor Card Mounting Position for the Interface Adaptor 2 6 2 Routing Interface Card Outputs to Routing Equipment Clauses 7 9 and 8 9 The Routing Interface Card Mxp 032 provides monitored outputs for connection to Fire Routing Equipment Item E and Fault Routing Equipment Item J in accordance with EN54 2 The card is fitted to the chassis using 4x M3 screws Refer to the diagram TB4 Routing Interface opposite Cables are provided for connection of a local 24V DC O Base Card su pply and M3 Fixing Communications communications Screws connections Connect the DC O Supply from the DC SUPPLY AUX output to Sami the connections on TB4 Mounting Position for the Routing Interface Card observing polarities TB3 Connect the communications cable between TB3 on the Base Card and TB4 so that A is connected to A and B to B For further information refer to Document 680 081 Page 18 of 62 2 7 Wiring Installation All electrical wiring installation work should be carried out in accordance with the code of practice or applicable national standards appropriate to the country of installation To maintain electrical integrity of the SELV wiring on the input output loop and communications lines all SELV wiring should be segregated from the LV mains wiring and be wi
77. ternal min 24V 48Ah Internal max 2x 24Ah in parallel 24A Temperature Compensated Separate 24V DC 5A Off Line Switched Mode 200 max across 4 loops 1000 when Networked 1to4 500mA max per Loop 4 x 1A Programmable 2 x 1A 30V AC DC max 10mA 5V min Programmable 2 x Programmable 10mA 30V DC max 6 x Programmable 24V DC 500mA Mx4800 Steel IP30 950 x 450 x 190 23Kg 0 C to 45 C 95 Max 36 x top 9 x top rear and 2 x bottom 220 240V 10 15 47 63 Hz AC 2 A max 2x 24V 4Ah Internal min 2x 24V 38Ah Internal max 2x24A Temperature Compensated 2x Separate 24V DC 5A Off Line Switched Mode 400 max across 8 loops 1000 when Networked 2to8 500mA max per Loop 8 x 1A Programmable 4x 1A 30V AC DC max 10mA 5V min Programmable 4 x Programmable 10mA 30V DC max 12 x Programmable 2 x 24V DC 500mA As our policy is one of constant product improvement the right is therefore reserved to modify product specifications without prior notice 1 Total output current from panel not to exceed 2Amps Aux supply tracks a maximum of 0 5V below battery terminal voltage when no mains supply is available Moorland House Nelson Park Cramlington BS Northumberland NE23 1WE Tel 44 0 1670 707 111 Fax 44 0 1670 707 222 www Advel co uk Email Sales Advel co uk 1SO9001 BFP gt A British Fire Protection Systems Association LiF
78. to ensure the 1 5 panel is held securely to the wall OO Ow OO Tr i o l i Drill the required holes in the supporting wall using Barth E a drill bit diameter 7 0 mm and plug with a suitable 7 Ostuds x2 i 40mm long expansion plug Affix the panel to the a a ae Ge a wall with M5 screws length 40mm or No 10 eee screws length 114 e Ye SENE Ensure that there is sufficient space to allow the m Cable Tie cover to be removed replaced when the panel is Anchor Points x6 mounted Finally use a brush to remove any dust or swarf from inside the enclosure Ht Enclosure Size and Fixing Point Dimensions 2 2 4 Remounting the Chassis Carefully replace the chassis and fix into place using the two screws Reconnect the chassis earth cable to the spade terminal in the rear of the enclosure and then reconnect the supply lead from the transformer to the Base Card Page 12 of 62 2 2 5 Recommended Cable Routing Arrangement It is recommended that the routing __ Relay Sounder Loop Tie Wrap AC Mains Outputs Outputs Circuit Positions arrangement shown in the diagram opposite be employed Segregate the low voltage wiring Loop Circuit Sounder Circuits and AUX Supply from the AC Mains Wiring Segregate any wiring connected to the relay contacts Eyelets are provided in the rear of the back box to enable the cables to be securely fastened
79. uity of the screen and take care to ensure that the screen is not exposed to any other earth point e g metalwork cable trays junction boxes etc When screened cable is used it is vital to connect the screen to the chassis earth at the cable 2 7 5 Relay Circuits Fault Output Relay 1 is arranged for failsafe operation as standard The panels are equipped with two relay outputs These are normally programmed to activate on RELAY 2 RELAY 1 Fault and Fire Alarm conditions respectively Each output is unsupervised with volt free changeover contacts rated at 30V AC DC 1 Ampere The Mx 4800 is equipped with two sets of relay A gt DDD DDI outputs four in total Q Q Q B B Optional relay cards are available if additional relays are required Base card arrangement typical Page 24 of 62 The Relay outputs can be used instead of the Routing Interface Card to provide non monitored fire and fault routing outputs to appropriate routing equipment In this case the panel will not indicate transmission path failures to the routing equipment this feature must be incorporated into the routing equipment itself Not fully EN54 2 compliant 2 7 6 Open Collector Outputs The Mx 4100 Mx 4200 amp Mx 4400 are equipped with two open collector type outputs that can sink III up to 10mA each from the AUX Power Output
80. unders and AUX wiring should be L routed behind the chassis assembly ie and tie wrapped to the back box ae in upper attery shelf Ensure that the hole is protected Cable screens shields should be connected to the back box using Bus P by a grommet Bars provided near the knockout holes i Refer to Appendix 2 e i Recommended Fire Rated Cables for further information on cable types to be used Refer to specific sections on how to install AC Mains input and loop sounder relay and AUX outputs Internal arrangement showing recommended routing of circuits cables Page 16 of 62 2 5 Loop Driver Installation The Mx 4100 has one in built loop driver for connection of detectors call points and other signalling devices 2 5 1 Fitting the cards in the Mx4200 Mx 4400 amp Mx 4800 To extend the number of detector loops or to replace an existing loop driver card follow the procedure described below wa FT 3 3 lt lt 2 UU O ar Ek oOo m a fe n EEP DCC z nia ning An example of the loop driver is shown opposite co asthe 1 This is provided with a plastic grip handle on the Ee To i Pao mee E POTRE6O P55 D7 RiT Riz w 1 7 top edge to ease removal of the card from the 22 f Fee Se ma maREz e jim TRIOTR4 TR TRO k cate ea ea S Base Card TE at alee P50 o g g m 5 E D ine y 3a a B z 52 i ari J Isolate ALL s
81. using tie wraps Refer to Appendix 2 Recommended Fire Rated Cables for further information on cable types to be used Refer to specific sections on how to install AC Mains input and loop sounder relay rane Internal arrangement showing recommended routing of and AUX outputs circuits cables 2 3 Installing the Mx 4200 amp 4400 Enclosures The panel can weigh in excess of 20kg when the batteries are installed Use the appropriate fixing hardware necessary to secure the panel to the wall Observe S recommended lifting practices to guard against spinal injury 2 3 1 Opening the Enclosure Cover The Mx 4200 amp Mx 4400 are provided with a key lock assembly for securing the hinged door to the back box Insert and turn the key to open the enclosure 2 3 2 Removing the Chassis It is recommended that the chassis be removed before fitting the panel to the wall To remove the chassis Refer to the diagram opposite Fixing Disconnect the earth cable connecting Screws the chassis to the spade terminal on the rear enclosure Remove the bottom two screws holding the chassis to the back box Keep these items in a safe place for later re use TRC ALARH CONIPOL PANEL h NE Carta nY ARANY Lore F Paw tra Loosen the top two screws holding the mawr Se chassis to the back box via the keyhole slots The chassis assembly can now be removed Earth Connection
82. utput will be turned off if there is a fault in any zone 3 3 15 9 Program ID The display shows the part number and version of the software installed in the panel Press the gt button to see the program checksum 8 digits 3 3 15 10 Config Data The Config Data option shows the loop protocol selected and the checksum for the configuration data A note of this number can be taken and then checked on the next service visit to see if any changes have been made to the configuration data In addition there is an option to erase the Config Data To view the Config Data Checksum press the gt button The display then shows Setup CONFIG DATA ES lne To change the protocol press the Y button A pop up window is shown with the following options Use the buttons to select the required options and press the Y button to confirm the selection Selecting CHANGE LOOP PROTOCOL will toggle to the alternative loop protocol available i e Apollo Hochiki configuration memory Perform an Auto Learn or use the PC Config Tool to re define the devices e connected to the loop Changing between protocols will automatically erase all loop devices from the Page 46 of 62 4 Service and Maintenance 4 1 Maintenance Schedule This equipment should be maintained in accordance with the regulations and codes appropriate to the country and location of installation The following is recommended if no other regulations a
83. vent log is erased the display reverts to the Set up Options screen 3 3 15 6 Detector Blinking The Detector Blinking option determines whether the LED indicators on the devices will blink whenever the panel polls the device To change the operation press the Y button The display presents a list of options For example INDIVIDUAL ALL NONE Use the 4 buttons to scroll through the list of options and press the button to confirm the selection The device LED indicators will not blink if NONE is chosen or will blink if ALL is chosen Note that only certain devices such as Apollo Discovery support this feature If a device such as a Discovery device is changed it may be necessary to select and reconfirm the blinking command so that the new device will blink its LED The INDIVIDUAL option should be chosen when it is required that only certain devices should blink their LED The devices that shall blink their LED can only be programmed using the PC Configuration Tool 3 3 15 7 Earth Fault Notification This parameter determines whether an Earth Fault is shown on the display during normal operation To change the setting press the Y button The status changes from to X and vice versa 3 3 15 8 Routing Interface This parameter determines whether the panel supports a fire and or fault routing interface It is possible to select between no routing interfaces monitored routing interfaces requires installation of the
84. ws the zone text description to be changed Commission Zones zone Location 0001 BASEMENT WEST 0002 RECEPTION 0015 EAST WING 0018 TOWER BLOC To change the location text assigned to the Zone press the Y button when the Zone Location Text is highlighted Refer to Section 3 1 4 for guidance on how to change text descriptions To select a different zone use either the scroll up down keys or just type in the number of the required zone followed by the Y button Note that only zones in use are displayed 3 3 7 Exit To exit the Commission Mode and return the panel to normal operation ie level 2 select the Exit option The display will prompt for confirmation of the level 3 password For example Commission Menu 1 Please Enter Your Password Next Menu If the password is incorrect this will be indicated or if the password is not entered within 5 seconds the display will revert to the Commission Level Menu and level 2 will not be entered After commissioning the panel must always be returned to level 2 or level 1 to give normal fire coverage 3 3 8 Outputs The Cause and Effect programming is a schedule of actions that will turn on one or more outputs dependant on a set of input events The Outputs Option provides the means to create simple or complex cause and effect programming within the panel Delays can be introduced to allow a phased evacuation of a build
85. y all outputs are assigned to specific Output Groups and will turn on immediately a single fire alarm occurs in any zone any fault condition for the fault relay The default assignments are as follows Output Device Output Group Cause and Effect On board Sounder A 1 Any fire in any zone no delay On board Sounder B 2 Any fire in any zone no delay On board Sounder C 3 Any fire in any zone no delay On board Sounder D 4 Any fire in any zone no delay On board Relay 1 200 Any fault in any zone no delay On board Relay 2 199 Any fire in any zone no delay On board Open Collectors 199 Any fire in any zone no delay Fault Routing Output 200 Any fault in any zone no delay Fire Routing Output 199 Any fire in any zone no delay Fire Protection Output 199 Any fire in any zone no delay All Loop Output Devices 199 Any fire in any zone no delay 3 3 8 2 Cause Each Output Group can be programmed to respond in a unique way to events from each individual zone An input event may be a fire alarm condition or it may be a fault disablement or other condition A combination of criteria may also be applied to each zone The Cause field determines what type of input event or a combination of input events will generate an output response for the selected input zone To inspect or change the Cause press the gt button to highlight the cause option For exam

680-014-09 Mx-4000 Install - Fire & Security Solutions Ltd

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680-014-09 Mx-4000 Install - Fire &amp; Security Solutions Ltd

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680-014-09 Mx-4000 Install - Fire & Security Solutions Ltd