6100 Programming - Protec Fire Detection
Contents
1. Cause and effect sequences are setup by relevant programming of the 6100 matrix To enter the matrix editor follow Edit gt Matrix editor A window will open showing a matrix of input groups down the left hand side of the window and output groups along the top of the window 11 1 Setting up the Output Group Activation Tone How an output group activates from an input group trigger is dictated by the letter placed in the relevant cell Figure 10 0 shows example matrix settings for input groups 1 2 and 3 Placing the cursor over a cell and clicking causes the cell choice to scroll through C continuous O off P pulsing and W warble Activation of output groups always follows the C W P O order of precedence So for example if an output group was activated as W by input group 2 then input group 1 triggered which is set to C the output group would switch from warble to continuous operation 11 2 Setting up the Output Group Activation Tone when FBP mode is enabled How an output group activates from an input group trigger is dictated by the letter placed in the relevant cell Figure 10 0 shows example matrix settings for input groups 1 2 and 3 Placing the cursor over a cell and clicking causes the cell choice to scroll through C evacuate tone O off P alert tone Note that W must NOT be selected Activation of output groups always follows the C W P O order of precedence So for example if2. set to 1 Global Coincidence A single activation from an input group will trigger matrix processing associated with that input group further activations from devices in input groups 2 to 12 will trigger matrix processing associated with input group 28 Figure 11 2 Illustration of 2 coincidence groups Number of groups 12 11 109 8 7 16 5 4 3 21 Off Device input group 1 28 28 28 28 28 28 28 28 28 28 j 26 2 OFS 2 2 Vez 27 2 27 27 2 27 MM 2e 3 26 26 26 26 26 26 26 26 26 26 28 4 25 25 25 25 25 25 25 25 25 28 5 24 24 24 24 24 24 24 24 28 6 23 23 23 23 23 23 23 28 7 22 22 22 22 22 22 28 8 21 21 21 21 21 28 Q 20 20 20 20 28 10 19 19 19 28 11 18 18 28 12 17 26 N93 531 79 Issue 5 NH Page 22 of 33 Protec Fire Detection plc 2015 di Prot n 12 0 Entering Device Zone and Panel Text The 6100 can store 20 characters of text per loop address 20 characters of text per zone and two lines of 20 characters for the panel text To enter or edit text use the Edit gt Text editor option The text editor window is displayed showing device zone and panel text Figure 12 0 illustrates the window showing text for address 1 zone 1 and the panel text 2 lines To edit text double click on the relevant text cell the program will load a text editor box shown in Figure 12 1 Type the required text into this box and then click on the in the top right corner of the text editor box The text i
3. 2 1 000000 00 0 0 1 None None 2 4249F OHCTB 0 0 1 Office Office 3 000000 00 0 0 1 None None 4 000000 00 0 0 1 None None 5 000000 00 0 0 1 None None 6 000000 00 0 0 1 None None 7 000000 00 0 0 1 None None N93 531 79 Issue 5 NH Page 15 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection pic 9 3 Creating a Site File by Logging and Mapping Devices Directly on the 6100 The alternate method for creating a site file is to log and map loop devices on the 6100 then upload the site file into the commissioning software Any loop device parameters or panel options may then be edited as required and the file downloaded into the 6100 10 0 Programming Loop Device Data Loop device data programming is done in the Edit gt Device editor window 10 1 Allocating a Zone Number to a Loop Input Device Loop input devices must be allocated a zone number in the range 1 to 32 The zone number required will depend on where the device is physically located on site Usually as fit drawings are available detailing this information Click on the zone field of the relevant loop address and enter the zone number 10 2 Allocating an Input Group to a Loop Input Device Loop input devices must be allocated an input group number in the range 1 to 31 The input group number required will depend on how the system designer wishes the system to respond when the input group is activated linked by programming in the cause and effect matr
4. coincidence is enabled As well as processing the matrix associated with its own input group further activations from any input group in the range 2 to 12 will also trigger input group 28 Input Group Specific Coincidence If the Number of Groups is chosen to be between 2 and 12 that range of input groups are programmed as coincidence As well as activating programming associated with the input group two or more activations from the same input group will trigger a coincidence group as detailed in figure 11 2 Examples Number of Groups set to 2 A single activation from input group 1 will trigger matrix processing associated with input group 1 further activations from devices in input group 1 will trigger matrix processing associated with input group 28 A single activation from input group 2 will trigger matrix processing associated with input group 2 further activations from devices in input group 2 will trigger matrix processing associated with input group 27 Number of Groups set to 7 A single activation from input group 3 will trigger matrix processing associated with input group 3 further activations from devices in input group 3 will trigger matrix processing associated with input group 26 A single activation from input group 7 will trigger matrix processing associated with input group 7 further activations from devices in input group 7 will trigger matrix processing associated with input group 22 Number of Groups
5. d 13 3 Programming the Fire Link Activation Delay In some situations it is advantageous to introduce a delay from when the 6100 detects a fire until the fire link output is activated The activation of the fire link output can be delayed by up to 10 minutes in 5 second steps A If silence is pressed during a fire link delay the fire link output will still activate when the delay expires To setup a delay click in the Fire link delay box and enter the delay in minutes and seconds Close the box and save the delay by clicking on OK in the lower left of the box See Figure 13 1 Figure 13 1 Entry of Fire link delay time Fire Link Delay m ss 0 00 No delay 13 4 Programming the Fire Link Search Time The purpose of the fire link search time is to give authorised personnel in an occupied building time to search for the cause of a fire and establish if it is a false alarm prior to the fire link being activated Unoccupied buildings will activate the fire link after the fire link delay time The fire link search delay time is added to the standard fire link delay time to a maximum of 10 minutes when the 6100 Mute Buzzer button is pressed during a fire condition When this feature is used the standard fire link delay time is usually set to be no longer than 2 minutes this gives sufficient time to allow investigation into the cause of the activation before the fire link is activated If the cause of the fire is genu
6. ka n a kn 6 3 0 INTRODUCTION i scsccnccsesccttc teat ne vaania aaeain niarainn aranana naa ka n kk ko ko ke kanon ka kaa n aaa k ka kann anin 8 4 0 INFORMATION REQUIRED PRIOR TO COMMISSIONING 0 20rraeerraearatasasrasasasaspanananosnnoananannnnanannnan 9 4 1 Site Specific Information Required to Commission the 6100 Lirevilrreeerreeerrsearorasoonsasoosoanon 9 5 0 ITEMS REQUIRED TO COMMISSION THE 6100 USING A PO 0 00rrreeerrararrtasarrasanosasasnanannnnanannnan 9 5 1 PC Laptop Requirements c cccccececeeceeeneeeeneeeeneeeeeeeeeeaeeseaaeeseaeeeeaeeesaeeseaeesseaeeseaeeseeeeeseeeeeeeeess 9 5 2 Software and Hardware Requirements ccccccccccececeeeeeeeeeeeeeeeeeseeeeeeeaeeseeeeeseaeeseaeeseeaeeseeeseeeeens 9 6 0 LOADING THE 6100 COMMISSIONING SOFTWARE ONTO A PO 2 000 2aavrrresrrrasarrssasanasannanannnnn 10 7 0 CONNECTING AND DISCONNECTING THE 6100 FROM THE PO ccsseeeeseeeeseeeeeseeenseeeeeneeens 10 7 1 Connecting the PC to the 6100 is eee ceececeeeceeeee tence eeeneeceaeeeeaeeeseaeeseaeeesaaeeseaeesseeeeseaeesseeetsaeeeeaees 11 7 2 Disconnecting the PC from the 6100 cccceeseeseseeeeeeeeeeeeeeeeeeseaeeeeaeeesaeeseaeeesaeeeseaeeseeeeseeeseaees 11 8 0 OVERVIEW OF 6100 COMMISSIONING SOFTWARE ENVIRONMENT cccseccssetesseeesseeeeeseeees 12 8 1 TAS TIS MOU dices os dwe ky ran pitye lk do l tk on kn l n ik kk n an ot k a w a era en pam ka 13 8 2 The Edit MENU eee lidi
7. loop re initialisation sequence will be instigated The reboot process may take up to 1 minute during which time the 6100 may not respond to fires or faults N93 531 79 Issue 5 NH Page 11 of 33 Protec Fire Detection plc 2015 di Prot n 8 0 Overview of 6100 Commissioning Software Environment The 6100 commissioning environment consists of a main screen with several menu options located at the top left corner Selecting a menu option brings it to the main screen Information entered in a menu option is retained when swapping between menus To open the commissioning software double click on the 6100 icon usually present on the PC s desktop The main screen will open as illustrated in figure 8 0 Figure 8 0 Main screen and sub options File Edit View Panel Help N93 531 79 Issue 5 NH Page 12 of 33 Protec Fire Detection plc 2015 of Protec Protec Fire Detection pic Mi 8 1 The file menu This menu contains the following choices New This option creates a default site file where all aspects of the programming are restored to their default settings This must be done before creating a new site file or before scanning data in from device bar codes Load This option loads a previously saved site file The user must navigate to the file and open it All site files have the psf file extension Import Text Text previously exported from the Protec Excel text editor can be imported into the site file using
8. multiple uses It can be enabled as Remote Alarm or enabled to control Day Night sensitivity switching Remote Alarm Input Remote Alarm Input operates 3 option selected Day Night selection option selected Fesa when Remote Alan Input on PCB le activated Disabled Disabled Disabled no effect Disabled Enabled Operates as Day Night Input Activation of input selects Night mode otherwise Day mode is used Enabled Disabled Operates as Remote Alarm Input Activation of input generates a Remote Alarm trigger Note that if Remote Alarm operation is enabled input group 31 is used and cannot be re used for loop devices 13 12 Programming Class Change Operation To enable Class Change operation the Class Change Input option should be selected Input group 30 is used for class change programming and cannot be re used for loop devices If Class Change is not enabled operation of the Class Change input on the 6100 PCB will have no effect 13 13 Programming Loop Beacon and VAD Operation The 6100 supports synchronised loop controlled beacons or Visual Alarm Devices VADs the operation of them can be programmed using the Beacon section as shown in Figure 13 4 A The beacon flash synchronisation Z oat rate can be set to either 1 second Beacon or 2 seconds The default is 2 seconds and must only be set to 1 second for systems that do not incorporate EN54 23 VADS 2 Seconds 7 Flash rate Adopt s
9. 0 15 1 Uploading a Site File from the 6100 Site files must be uploaded from the 6100 in order to edit them save them for backup purposes or to view the historic events Using the Panel gt get settings from panel window retrieve the site file from the 6100 This process should take around 5 seconds after which the site file will be loaded into the 6100 commissioning environment To save the file to the PC use File gt Save as and give the site file a name 15 2 Downloading a Site File to the 6100 Site files must be downloaded to the 6100 in order to transfer new configuration data or updated text into a panel Using the Panel gt send settings to panel window transfer the site file to the 6100 This process should take around 10 seconds after which the site file will be loaded into the 6100 Removing the USB lead from the 6100 will cause it to reset and adopt any new settings just downloaded 15 3 Updating the 6100 Operating System The 6100 operating system can be reprogrammed from the 6100 commissioning software Using the Panel gt Update panel firmware option navigate to the new operating system file always has a hex extension and accept it The update process takes about 30 seconds and the 6100 will reboot when the USB lead is removed Important When the 6100 site file or operating system has been updated it is vital the system is fully tested to ensure it is working as intended N93 531 79 Issue 5 NH Page 29 o
10. 00 Automatic Device Automatic devices are smoke heat or carbon monoxide detectors or a combination of these which automatically activate the 6100 when the sensed level exceeds a pre determined set point Manual Device This device type requires manual intervention in order to activate it and cannot automatically activate the 6100 The most common example of this is a Manual Call Point The 6100 processes this device class differently to an automatic device Any programmed delays are usually overridden when the activation signal from a manual device is received Dongle A piece of hardware used on managed systems which is connected to the PC USB port Commissioning software connection is restricted to 6100 panels containing a matching code to the Dongle therefore limiting panel access to engineers with relevant dongles VAD An acronym for Visual Alarm Device which is a high intensity beacon designed to comply with EN54 23 FBP An acronym for Fire Brigade Panel which is typically used for Australian markets When the panel is set to this mode via the Windows PC software the 6100 then expects a FBP interface to be fitted N93 531 79 Issue 5 NH Page 7 of 33 Protec Fire Detection plc 2015 of Protec Protec Fire Detection plc Me 3 0 Introduction The Protec 6100 Fire Alarm Control Panel has been designed and manufactured in the United Kingdom The 6100 complies fully with current standards dictating fire alarm system desig
11. 10 minutes in 5 second steps Setting the time to 0 disables the feature The following options are available for the pulsing sounder to timeout tone Off Continuous Pulsing and Warble 13 9 Programming the System Pulsing Alarm Times The timings for pulsing outputs are fully synchronised by the 6100 The pulse on and off times are defaulted to 1 second but may be adjusted between 0 5 and 127 seconds in 0 5 second steps See Figure 13 2 Figure 13 2 Pulsing alarm setup options Pulsing alarms Timeout time Pulse on time Setup of system pulsing times Pulse off time Continuous Timeout tone Setup of pulsing alarm timeout options N93 531 79 Issue 5 NH Page 26 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection pic Mi 13 10 Programming Day and Night Times The 6100 can switch automatic detector sensitivities a Day and Night sensitivity can be setup for each automatic loop device The times are setup in the Day Night mode option as illustrated in figure 13 3 Both times are entered in 24 Hour format The Night time is when the 6100 switches to running Night sensitivity for automatic loop devices and the Day time is when the 6100 switches back to running Day sensitivity Setting both times to 0 00 means the 6100 runs Day sensitivity all the time Figure 13 3 Day Night mode Night time Day time 13 11 Programming Remote Alarm Operation The Remote Alarm input on the 6100 PCB has
12. 2015 Li Prot n Figure 11 0 Input Output Matrix Editor OPGI OPG2 OPG3 OPG4 OPGS5 OPG6 OPG7 OPGS OPG9 OPG10 OPG11 OPG12 OPG13 OPGI Output delay T1 1 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 Output delay 12 5 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 0 00 Alarm type Alarm Alarm Alarm Alarm Alarm Alarm Alarm Alarm Alarm Alarm Alarm Alarm Alarm Alarm vec AE So So gn pe por ee ee ee a ee ee ee IPG2 11 4 Programming the Output Group Type Outputs groups may be of type alarm or control Alarm output groups usually control devices such as sounders and beacons Control output groups can be used to signal to output interfaces CCOs for example Alarm and Control output group activation differences are shown in table 11 0 Table 11 0 Alarm Output Group Control Output Group Input Group Activation Activates as per matrix Activates as per matrix Sound Alarms Activation Activates as per matrix Does not activate Silence Alarms Silences Does not silence Walk Test Activates as per matrix Does not activate Reset Resets Resets turns off 11 5 Sound Alarms Remote Alarm and Class Change Programming The upper input groups are reserved for the Sound Alarms Remote Alarm and Class change programming Sound Alarms has a dedicated line on the matrix whereas Class Change and Remote Alarm occupy input groups 30 and 31 respectively o
13. 54 of the 6000 MIMIC will illuminate upon activation of address 25 The mimic LED is cleared on a 6100 reset 10 10 Programming Repeat Group Data In addition to the standard indicating LED all Protec automatic detectors have the ability to control a separate repeat LED consult the datasheet for the specific product for connection details Each loop address on the 6100 can be allocated a Repeat Group in the range 1 to 32 The Repeat Group number is related to an 6100 output group activation output groups range from 1 to 32 If an output group matching the Repeat Group for an address is active i e not OFF then the repeat LED on the loop address will illuminate For example if loop address 54 has an Repeat Group of 12 then if output group 12 is active not OFF then the 6100 will illuminate the repeat LED on loop device address 54 Fire activations of a loop device will always illuminate the repeat LED irrespective of the Repeat A Group setting for that address Any output group delays are ignored for Repeat Group processing N93 531 79 Issue 5 NH Page 18 of 33 Protec Fire Detection plc 2015 di Prot n 10 11 Programming the coverage volume of a Visual Alarm Device VAD type If VAD devices are present on the system the commissioning software permits the coverage volume for each device to be configured Are coverage volume of each device must adhere to the requirements of the system design The coverage op
14. ING HISTORIC EVENT LOGS 0 cceccsseceseseeeeeeeeeeeneeeneeensneeeneeeenseeeeseasaeeaeeseesnseeseeaeeeneeeensees 29 15 0 UPLOADING AND DOWNLOADING SITE FILES TO THE 6100 cccsecesseeeeeseeesseeeesneeeeseeeneee 29 15 1 Uploading a Site File from the 6100 cceccceceeeeeeeeeeeeeeeeeeeseeeeseaeeeeaaeeseaeeseeeeseaeeseeeeseaeeseaees 29 15 2 Downloading a Site File to the 6100 ceceecceceseeeeneeeeeeeeeeneeeceneeseaeeseeaeeseaeeseeeeseaeeseeeeseeeseaees 29 15 3 Updating the 6100 Operating SyStem ccceccccecceeceeeeseneeseeeeeeeaeeseaeeeeaeeeseaeeeeeeeeseaeeseneeeseeeseaees 29 16 0 THE HELP MENU Dee ee eee aera 30 16 1 Generating an Emergency Code ECOUE cc ccceseeeeeeeeceneeeeeeeeeeeeeseaeeeseaeeseaeeeseeeeseeeeseeeeneas 30 16 2 Checking For Updates to the Commissioning Software ccccccccsseessssseeeesssseeeesseseeeesssaeees 30 16 3 Downloading Online DOCUMENTATION ceeecececeeeeeeeeeaeeeeeeeceaeeseaeeeeeaeeseaeeseaeeeseaeeseeeessaeeseaees 30 N93 531 79 Issue 5 NH Page 4 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection plc 1 0 Important Notes PLEASE READ CAREFULLY e The 6100 fire alarm control panel and its associated connections must be installed commissioned and maintained by a suitably skilled and competent person e itis assumed that the person commissioning the system is aware of fire alarm equipment terminology and terms of reference e T
15. ai Bat 6100 SINGLE LOOP DIGITAL ADDRESSABLE FIRE ALARM CONTROL PANEL PC PROGRAMMING MANUAL Power N d System Fault Alarms Disabled b J Alarm Fault Pre alarm PSU Fault Fire Link Disabled 5 4 Aux Supply Fault Fire Link Operated Q Q Repeat Fault e100 Outputs Delayed O O Fire Link Fault ENSI 284 1 Protec Fire Detection plc Protec House Churchill Way Nelson Lancashire BB9 6RT ENGLAND 7 44 0 1282 717171 g www protec co uk BA sales protec co uk of Protec Protec Fire Detection pic vi Document Revision Details Issue Modification Detail Author Date 1 Document Creation NH 20 06 2012 2 Refer to ECN3414 NH 10 10 2013 Addition of T1 T2 output group delays 3 Addition of Cancel all delays in night mode NH 17 03 2014 Refer to ECN3477 VAD description added to section 2 0 Figure 13 0 updated Figure 13 4 updated i Section 13 13 updated NH 22 06 2014 Section 10 11 added Section 15 updated Addition of FBP setup information section 5 11 0 expanded section 13 19 and 13 20 NH 14 07 2015 added N93 531 79 Issue 5 NH Page 2 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection plc Table of Contents 1 0 IMPORTANT NOTES PLEASE READ CAREFULLY cccccecccsseeesseeeeeeeeeeseeenseeeeseeeenseeensneeenseeensnees 5 2 0 GLOSSARY OF TERMS iii koke kika ik mt l pak chee ka a e e kk a a n a e e a a a kk pa n
16. an output group was activated as P by input group 2 then input group 1 triggered which is set to C the output group would switch from the alert tone to the evacuate tone 11 3 Setting up Output Group Delays T1 and T2 Each output group can have two delays introduced Delay 1 is termed Output Delay T1 and delay 2 is termed Output Delay T2 When an output group is activated the activation of the relevant output group can be delayed by up to 10 minutes for T1 and up to 20 minutes for T2 The delays can be set in increments of 5 seconds If an output group activation changes from OFF to ON C P or W is classed as on the change will not be actioned until the programmed delay time has expired Figure 11 0 shows output group 1 set with a T1 delay of 1 minute and a T2 delay of 5 minutes The T1 delay is introduced automatically and T1 is replaced by T2 delay if T2 is longer than T1 if the Mute Buzzer button is pressed at access level 2 or 3 during an alarm condition Pressing Silence before the delay has expired will prevent the output group from becoming active until the next activation for that output group T1 T2 delays will be cancelled by activation of a manual class device or if the 6100 is in night mode A and the Cancel Delays in Night Mode option has been selected in the Windows software Delays are not used when in Walk Test mode N93 531 79 Issue 5 NH Page 20 of 33 Protec Fire Detection plc
17. ata file that is stored the 6100 this file contains the data about loop devices panel settings loop device text zone text panel text and cause and effect matrix information When this file is uploaded using the Windows commissioning software any historic event logs are automatically appended to it Incomplete and complete site files Some elements of loop device data can only be retrieved when the loop devices are logged and mapped loop device software version and map node are two examples A site file that has not yet had this data stored is termed incomplete This type of site file is generally produced when scanning device data from barcode labels on the devices an incomplete site file must be downloaded into the 6100 the loop logged and mapped and the file uploaded after which it will be complete and can be backed up Input Group Input devices detectors Manual Call Points MIP s etc must be allocated an input group in the range 1 to 31 The input group triggers the cause and effect s sequences and is linked to activate output devices by relevant programming in the cause and effect matrix Output Group Output devices sounders MICCO s etc must be allocated an output group in the range 1 to 32 The output group is activated by input group activations as dictated by relevant programming in the cause and effect matrix Devices programmed into alarm output groups are triggered under a Sound Alarms
18. condition and are silenced when Silence Alarms is pressed Devices programmed into control output groups are not triggered under a Sound Alarms condition and are not silenced when Silence Alarms is pressed A panel reset is required Zone Input devices must be allocated a zone number in the range 1 to 32 Matrix The system programming describing how output groups are triggered by input groups Class The device class determines how the 6100 will process an activation from that device Each input device may be allocated a class Detectors are programmed as automatic class whereas Manual Call Points are programmed as manual class See section 10 6 for more details Display Group The Protec 6000 MIMIC device controls LEDs and can be used as a geographical mimic indicating where input devices have activated Loop input addresses may be allocated a display group in the range 1 to 255 0 disables the feature if the input device activates the corresponding display group LED illuminates on the mimic For example if input device 10 was allocated a display group of 34 LED 34 on the Protec 6000 MIMIC would illuminate if input device 10 activated N93 531 79 Issue 5 NH Page 6 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection pic Y Repeat Group Loop devices may be allocated a repeat group in the range 1 to 32 0 disables the feature The repeat LED on the device usually an auto
19. downloaded N93 531 79 Issue 5 NH Page 30 of 33 Protec Fire Detection plc 2015 Protec Fire Detection plc Cee BLANK PAGE N93 531 79 Issue 5 NH Page 31 of 33 Protec Fire Detection plc 2015 Protec Fire Detection plc Cee BLANK PAGE N93 531 79 Issue 5 NH Page 32 of 33 Protec Fire Detection plc 2015 Designed and manufactured in the United Kingdom N93 531 79 Issue 5 NH Page 33 of 33 Protec Fire Detection plc 2015
20. e Reset Activation causes 6100 to reset silence must be done first Sound Alarms Activation causes 6100 to sound alarms Accept Activation causes 6100 to accept mute buzzer IReset Activation causes 6100 to reset silence not required Other Automatic Processed as an automatic device 10 7 Setting a Loop Input Device to be Latching or Non Latching Loop input devices can be set as latching or non latching A latching device once activated can only be reset from the 6100 by pressing Silence then Reset at access level 2 or above Non latching devices cause the 6100 to automatically reset when they return to normal after being activated Note that the 6100 will only automatically reset if no other activations are present on the system If several non latching devices are active the 6100 will only reset when all devices have returned to the normal state N93 531 79 Issue 5 NH Page 17 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection pic 10 8 Setting Automatic Detector Sensitivities Automatic detectors can be allocated various sensitivity levels these are used to tailor the response of the detector to local site conditions to minimise unwanted alarms due to steam in a shower for example Two sensitivity levels can be setup Day sensitivity and Night sensitivity Table 10 2 gives suggested applications for each sensitivity The Day sensitivity is used when the 6100 is running in Day m
21. eeeeeeeeaeeeeeeeeseaeeeeseeeseaeesseeeseeeeeaees 17 10 6 Allocating a Class to a Loop Device eeccceeceeceeeeeeeeeeeeeeeeeeeceaeeseaeeseaaeeseaeeseaeesseaeessneesnaeesaas 17 10 7 Setting a Loop Input Device to be Latching or Non Latching ccccesscceesesseeeesssseeeesseaeees 17 10 8 Setting Automatic Detector Sensitivities 2 0 0 ccecceceeeeeeeeeeeeeeeeeeeeeeeeeseaeeeseaeeseaeeeeiaeeseeeeseaeetaas 18 10 9 Programming Display Group Datta cccccccccceeeeeeeeeeeeeeeeeeeeecaeeseaeeeeaaeeseaeeseeeeseaeeseneeeseeessaees 18 10 10 Programming Repeat Group Data ccccceccceeceeeeceeeeeeeeeeeeeeeaeeeeeeeeseaeeseaeeeeeeeeeeaeesseeeseeeseeeeess 18 10 11 Programming the coverage volume of a Visual Alarm Device VAD typ eeeeeerreves 19 11 0 PROGRAMMING CAUSE AND EFFECT SEQUENCES MATRIX cccssecsseeeeeseeeeseeeeeneeeeseeeneae 20 11 1 Setting up the Output Group Activation Tone ccecccceeececeeeeeceeeeeeeeeseeeeeeaeeseeeeeneeeseieeesseeetaas 20 Setting up the Output Group Activation Tone when FBP mode is enabl Q eeerrrreeerres 20 1 3 Setting up Output Group Delays T1 and 12 eeceeeceeeeeeeeeeneeeeeeeeeeeeeseeeeeeaeeseaeeseeeeeseneeesseeeeaas 20 11 4 Programming the Output Group TYPE cccecccceeeeeeeeeeseeeeseeeeseaeeseaeeseaaeeseaeeseeeeeeaeeseneeeseaeeesaees 21 1 5 Sound Alarms Remote Alarm and Class Change Programming 2 ccccceesceeeseeseseeeesee
22. el menu This menu is used to download and upload data to and from the 6100 to update the operating system firmware or to change the panel from managed to open protocol relevant dongle must be installed 8 5 The Help menu This menu allows the user to generate an emergency access code if the entry codes for the 6100 have been forgotten check for updates to the commissioning software or download relevant 6100 documentation from the internet N93 531 79 Issue 5 NH Page 14 of 33 Protec Fire Detection plc 2015 g Protec Protec Fire Detection plc 9 0 Creating a Site File 9 1 Creating a Blank Site File When starting from scratch a blank default site file must be used This site file contains default values for relevant elements of the site data To create a blank site file click File gt New then select Yes when the program requests to Delete Current Settings A default site file will be loaded into the program 9 2 Creating a Site File Using the Loop Commissioning Booklet In some cases it is advantageous to build the site file remotely from the panel a site file can be prepared before visiting site if loop device data matrix and associated text is known before hand All Protec loop devices are supplied with two manufacturing barcode labels During installation one label remains on the device and the other is removed from the device and affixed at the relevant loop address in the 6100 Loop Com
23. f 33 Protec Fire Detection plc 2015 cf Protec Protec Fire Detection pic v 16 0 The Help Menu 16 1 Generating an Emergency Code ECode If the current entry codes to a 6100 have been misplaced or forgotten it is possible to obtain an emergency code to allow access to the 6100 Commissioning Software and reset the entry codes After three failed code entry attempts the 6100 will display an encoded key number This key is valid for one hour from its generation and will only work once The one off entry access code can be obtained by contacting Protec with the key who will then issue the access code Alternatively the key can be typed in to the 6100 Commissioning Software if a Protec dongle is attached and this will generate the access code 16 2 Checking For Updates to the Commissioning Software By clicking on the Help gt Check for updates option assuming the PC is connected to the internet any updates to the Commissioning Software are offered Before agreeing to the update the user must be certain that updated commissioning software is A compatible with the 6100 being used If in doubt contact Protec with the software version of the 6100 for advice 16 3 Downloading Online Documentation By clicking on the Help gt Download documentation option assuming the PC is connected to the internet current versions of the 6100 User 6100 Installation and Commissioning and 6100 Programming manuals can be automatically
24. g date 6100 Loop Commissioning Booklet filled in with device data amp loop addresses Loop device address text 20 characters maximum per device Zone text 20 characters per zone maximum Panel text 2 lines of 20 characters maximum Required cause and effect programming matrix information delays coincidence data etc A commissioning form is available upon request which should be filled in with the relevant information 5 0 Items Required to Commission the 6100 Using a PC 5 1 PC Laptop Requirements The PC used to connect to the 6100 must conform to the following minimum specification 1 GHz processor 1 GB RAM 1 GB available hard disk space One free USB 2 0 communications port for connection to the 6100 A second free USB 2 0 communications port if a Dongle is required Windows Operating System XP Vista or Windows 7 32 bit or 64 bit Connection to the internet if online software updates are required 5 2 Software and Hardware Requirements e 6100 commissioning software with a suitable dongle if the site is managed e USB barcode scanner CipherLab 1000 CCD or equivalent e 115 Torx type security tool for removal of the 6100 enclosure front cover e USB Lead Type A male to Type B male as illustrated below 2 metres maximum length N93 531 79 Issue 5 NH Page 9 of 33 Protec Fire Detection plc 2015 g Protec Protec Fire Detection plc amp 6 0 Loadin
25. g the 6100 Commissioning Software onto a PC The 6100 commissioning software is supplied as a single executable file following the naming convention 6100 PC VX XX exe no special installation is required and the file is simply copied onto the desktop of the PC being used for commissioning If the PC is connected to the internet the 6100 commissioning software may check to see if a newer version is available If so a warning box is displayed asking if an upgrade should be carried out Only click yes if you are sure an upgrade to the commissioning software is required 7 0 Connecting and Disconnecting the 6100 from the PC When the front cover of the 6100 is removed all system cabling including mains cabling and connections are accessible DO NOT touch any connections or cabling The PC connects to the 6100 using a standard USB cable see section 5 0 The USB port on the 6100 is accessed by removal of the enclosure front cover as shown in figure 7 0 USB port location Figure 7 0 Removal of 6100 enclosure front cover and USB connection to a PC N93 531 79 Issue 5 NH Page 10 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection plc Mi 7 1 Connecting the PC to the 6100 The USB communication port is located on the cent
26. his equipment must be earthed e This equipment is not guaranteed unless installed and commissioned in accordance with current national standards e This equipment has been designed and manufactured to conform to the requirements of all applicable EU council directives and regulations e Both the 6100 User manual 6100 Installation and Commissioning manual and this manual must be thoroughly read and understood before programming is undertaken e This equipment WILL NOT operate as a fire alarm panel when the USB port is connected and the panel is connected to a PC e This equipment is not suitable as part of an I T type power distribution system as defined in IEC 60364 3 e There are no user serviceable parts inside the 6100 panel A competent person trained to undertake such work MUST carry out any internal maintenance work The policy of Protec Fire Detection plc is one of continuous improvement and as such we reserve the right to make changes to product specifications at any time and without prior notice Errors and omissions excepted N93 531 79 Issue 5 NH Page 5 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection pic v 2 0 Glossary of Terms 6100 or panel Refers to the 6100 fire alarm control panel Downloading Refers to the transfer of data from a PC to the 6100 Uploading Refers to the transfer of data from the 6100 to a PC Site file Refers to the site configuration d
27. ine then the fire link will activate after the time out If the cause of the fire is a false alarm the 6100 can be reset without activating the fire link 13 5 Programming a First Knock Fire Link Delay Time The first knock fire link delay time programs the time delay from when a single coincidence input group activates first knock to when the Fire Link output is activated This delay time is used even if the standard fire link delay time is shorter If appropriately programmed a second coincidence group activation will automatically cancel the fire link delay and output group delays and immediately activate the fire link output 13 6 Programming the Walk Test Timeout The Walk test timeout sets the time from when the 6100 enters the fire condition to when it automatically resets when in walk test mode The default timeout is set to 12 seconds which is sufficient to reproduce the test message from Protec talking sounders N93 531 79 Issue 5 NH Page 25 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection pic e 13 7 Programming Talking Sounder Options The 6100 supports Protec loop driven talking sounder products Certain aspects of talking sounder operation can be adjusted using the commissioning software Message Synchronisation Time The repeated annunciation of speech messages is automatically synchronised by the 6100 The default synchronisation time is 20 seconds which is sufficient to repr
28. ix see section 11 0 Click on the Input group field of the relevant loop address and enter an input group number Note that if enabled the Remote Alarm input occupies input group 31 which is then unavailable for A use by loop input devices Similarly if the Class Change input is enabled input group 30 is unavailable 10 3 Allocating an Output Group to a Loop Output Device Loop output devices sounders beacons CCOs etc must be allocated an output group in the range 1 to 32 The output group number required will depend on how the system designer wishes the system to respond when an input group is activated linked by programming in the cause and effect matrix see section 16 0 Click on the Output group field of the relevant loop address and enter an output group number A Non talking and talking loop devices must not be programmed into the same output group 10 4 Allocating an Output Group to the Conventional Alarm Outputs The conventional alarm outputs on the 6100 are designed to drive standard 24V output devices In the Edit gt Matrix editor window a section is provided to map an output group to the conventional alarm outputs By doing this the conventional outputs will follow programming associated with the chosen output group as shown in Table 10 0 Table 10 0 Output Group Activation Conventional Alarm Response Off Switches off Continuous Switches to 24V Warble Switches to 24V Intermittent pulsing A
29. lternates between 24V and off at P 9 the system pulsing rate N93 531 79 Issue 5 NH Page 16 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection plc 10 5 Programming Loop Sounder Volume Levels Most Protec loop sounder devices can have their volume levels individually programmed from the 6100 The selections currently available are LOW MEDIUM and HIGH Please consult the specific datasheet for the loop device to determine the dB output for each volume level In the Edit gt Device editor window repeated clicking on the Volume field for the relevant loop address scrolls through the available choices 10 6 Allocating a Class to a Loop Device The activation behaviour of loop input devices can be altered by selecting the relevant option in the Class field for that address In general detectors are set to automatic class and Manual Call Points are allocated as manual class Normally 6000 MIP devices are used to control various panel functions via the loop In the Edit gt Device editor window repeated clicking on the Class field for the relevant loop address scrolls through the available class choices Table 10 1 details how the class should be allocated to various loop devices Table 10 1 Loop Input Device Class Operation Automatic Detector Automatic Processed as an automatic device ee eee Manual Processed as a manual device MIP Silence Activation causes 6100 to silenc
30. matic detector is switched on if an output group matching the programmed repeat group activates For example if loop device 25 has its repeat group programmed to 6 then the repeat LED on address 25 will illuminate if output group 6 activates Non latching A non latching device returning to normal will cause the 6100 to automatically reset if no other latching activations are present An activation from a latching device requires the 6100 to be manually reset Day and Night Sensitivity Levels Each automatic detector can have day and night sensitivities programmed The sensitivity level controls how the device reacts to smoke heat or carbon monoxide and can be used to tailor the response of the device to match specific site conditions to minimise false activations due to steam from showers for example Coincidence The 6100 can automatically activate extra input groups when two or more devices trigger coincidence in a specific input groups or across any input groups global coincidence Open Protocol System If the system is Open Protocol the commissioning software freely connects to the 6100 and allows full access to all programming features There is no need for a USB dongle Managed System If the system is managed then a dongle is required available from Protec to access all features in the commissioning software Without a dongle or with an incorrect dongle fitted the commissioning software will not connect to the 61
31. missioning Booklet This then links the device to a loop address In the Edit gt Device Editor window of the commissioning software the 6100 Loop Commissioning Booklet is then used in conjunction with a barcode scanner to scan the address number in the booklet followed by the loop device data This device data is then stored at the relevant address See figure 9 0 The extra device parameters input group output group class etc can be edited at this point if desired Tip Devices with more than one serial number 16 way products for example may be entered by repeated scanning of the serial number barcode the 6100 commissioning software will automatically increment the address and serial number on each scan Note that when using this method the software version and map node for the loop device are not read from the barcode label the site file is incomplete When all devices have been scanned in from the Loop Commissioning Booklet the site file must be downloaded into the 6100 and the loop logged and mapped at this point the software version and map node are added to the site file it becomes a complete site file and it must be uploaded from the 6100 for backup purposes Figure 9 0 6100 Commissioning software No site name Engineer 0 File Edit View Panel Help Example of device serial number 0x74249F allocated Address Serial number Type Version Map node Zone Day Sens Night Sens Ir to address
32. mming the System Pulsing Alarm TIMES ccccccesceeceeeeeeeeeeeneeeseeeeeeeeeseaeessneeeseeeeeaees 26 13 10 Programming Day and Night Times cece ceeeteeeeeneeeeeeeneeeeeeeeeeeeeeeeeeeeeeeeeseeeeeeeteeeeeenaes 27 13 11 Programming Remote Alarm Operation ccccccecceceeeeeeeeeeceeeeeeeeeeeeaeeseeeeseeeeseaeesenaeeseeeseeeeess 27 13 12 Programming Class Change Operation ccccccccceeceseeeeseeeseeeeeeneeeeeaeeseeeeseaeeseaeeseaeeseeeseneeess 27 13 13 Programming Loop Beacon and VAD Operation cccccceceseeeeseeeeeeeteneeeeeeeeeeaeeseneeeteeeseneeess 27 13 14 Overriding System Delays on a Second Knock Coincidence Activation cccccccesseeeeeees 28 13 15 Pulsing the First Display Group into Alarm ccecceeeeeeeeseeeeeneeeeeeeeeceeeseaeeeeeeeeseaeeseeeeseeeseeeeess 28 13 16 Programming Loop Devices to Flash when Polled ccccceseseeeeeeeneeeeeeeneeeeeteneeeeeeeneeeeenaes 28 13 17 Programming Dual Fire Link Outputs 0 eee ceeeeeeeeeeeneeeeeaeeeeaee seats eeaeeeeeaeeseaeeeeaaeeseaeeseneeees 28 13 18 Cancelling Delays in Night mode cccccecesceeeeeeeeeeeeeeeeeeeaeeeeaeeeeeeeseaeeesaeeseaeeseneeeseaeeseeeees 28 13 19 Enabling Fire Brigade Panel FBP Operation ccccceccceeeeeeeseeeeeeeeeeneeeeeeeeseaeeseeeeseaeeseeeeees 28 13 20 Disabling the LCD when in FBP Mode cccccceceeeeeeeeeeeeeceeeeeeaeeeeaeeseaeeeeeneeseaeeseneeeseaeeseeeeees 28 14 0 VIEW
33. n practice EN54 parts 2 and 4 The 6100 panel is a single loop fire alarm control panel incorporating an on board power supply and high power loop driver circuitry that allow communication to a maximum of 192 Protec 6000Plus series devices This manual is concerned with how the 6100 system is commissioned using the software suite specifically designed by Protec for the purpose It is assumed the commissioning engineer is familiar with standard addressable fire alarm system operation and terms of reference The 6100 Commissioning Software allows the commissioning engineer to perform the following functions Downloading the 6100 operating system firmware Open edit and download site files Create site files by scanning in loop device data using a barcode scanner Upload the current site file from the 6100 for backup or printing Edit enter device zone and panel text Upload fire and non fire historic logs Import device zone and panel text from a Microsoft Excel spreadsheet using the Excel text editor program developed by Protec N93 531 79 Issue 5 NH Page 8 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection pic Vi 4 0 Information Required Prior to Commissioning 4 1 Site Specific Information Required to Commission the 6100 To ensure rapid and trouble free commissioning the following information must be supplied to the commissioning engineer or company in advance of the proposed commissionin
34. nenin e bb reb aceasta Sa Ee Y Gah katana eee aetna 13 se TAS VIG W MON W s vo aks done pak sek essai aka sea ae ete ia sak chu dance Ge kaj kan ei a kek ak ked Genn k aa kaa e VAR Akan 14 8 4 ThePanel MON iesin fk side ia d Ga Sees kk ka n ei tij kan e kk ka n e k ka Dee Aka 14 80 The HODIM ske Genn late a a kn n a k kad n e A ti k KR LAA e ka da GEN e ki Aa a e SAN RA kn 14 9 0 CREATING A SITE FILE n kek ke vini ko a bo kwa ka ao akou ta ken raa n kk ai ap eko pea ao n ae k n apik ko anpasan 15 9 1 Creating a Blank Site File oo ee iiini aa anaiai E S 15 9 2 Creating a Site File Using the Loop Commissioning Booklet cccceseeeeeeeeeeeeteeeeseneeeeaees 15 9 3 Creating a Site File by Logging and Mapping Devices Directly on the 6100 veeeeeeereoos 16 10 0 PROGRAMMING LOOP DEVICE DATA 0 ccsecsseeseneeeeeeeeeseeeeeneeeneeeensaeeesneeeeeneeeseeeeseeseseeneneeeeneae 16 10 1 Allocating a Zone Number to a Loop Input Device oe eee ceeeeeeneeeeeeeneeeeeteneeeeeteeeeeeeeneeeeenaes 16 10 2 Allocating an Input Group to a Loop Input Device ce eececeeeeeeeeeeeeeeeeeeeeneeseeeeeeaeeseneeeseaeetaas 16 10 3 Allocating an Output Group to a Loop Output Device eee ecceceeeseneeeeesneeeeeesneeeeessneeeeeesaes 16 10 4 Allocating an Output Group to the Conventional Alarm Outputs cccccssceesssteeeessneeeeesaes 16 10 5 Programming Loop Sounder Volume Levels 2 ccecceeeeee
35. nly when they are enabled via the Edit gt Panel info window When Class Change or Remote Alarm are enabled the matrix displays Class Change in place of IPG30 and Remote Alarm in place of IPG31 The relevant input group 30 or 31 is then not available for normal use in the device editor and a warning will be issued by the program should the user attempt to allocate one of these input groups to a loop device If loop devices are already allocated to input groups 30 or 31 then the option to enable the Class Change or Remote Alarm inputs is not allowed Figure 11 1 shows the matrix when both the Class Change and Remote Alarm inputs are enabled Figure 11 1 ros EBra roo ESEAS Class Change Class Change ESZA ES ESE 3 1 a es Remote Alarm and Remote Alin Sl Ee e BE ST Bee ES ee Sound Alarms matrix ae Soud Alamas SS A HS ET SRC lines N93 531 79 Issue 5 NH Page 21 of 33 Protec Fire Detection plc 2015 ef Protec Protec Fire Detection ple __ 11 6 Setting up Coincidence Operation The 6100 offers coincidence programming to EN54 2 Type C Dependency Using the Edit gt Coincidence open the coincidence programming window as illustrated in Figure 11 2 Choose the required number of coincidence input groups by clicking on the relevant Number of Groups field the illustration in Figure 11 2 shows 2 coincidence groups selected Global Coincidence If the Number of Groups is set to 1 then global
36. ode and is the sensitivity normally used Night sensitivity is used when the 6100 is in Night mode and is considered the alternate sensitivity To alter the sensitivity of a loop device at a particular address go to the Edit gt Device editor window Repeated clicking the Day Sens or Night Sens field for the loop address scrolls through the available sensitivity selections for that device type Loop addresses set with an invalid sensitivity will generate a device fault on the 6100 Table 10 2 Sensitivity Suggested Applications None Only used for non automatic detector types Office The default sensitivity Used for most applications Bedroom Incorporates an anti steam algorithm for use in bedrooms Enhanced Increases the sensitivity of the optical and or heat sensing element of the detector Prison Used specifically for prison cells 10 9 Programming Display Group Data The 6000 loop mimic device is designed to offer a loop driven geographic mimic function The device drives up to 255 LEDs which can be mapped to an individual loop address activation by setting the Display Group number for that address The Display Group number ranges from 1 to 255 a Display Group of 0 disables the feature for that address If that loop address activates the 6100 will illuminate the mimic LED corresponding to the Display Group allocated to that address For example if loop address 25 is allocated a Display Group of 54 then LED
37. oduce the longest audio message currently supported by Protec talking devices If required the synchronisation time may be adjusted between 1 and 120 seconds Male and Female Voice Standard Protec talking devices contain both male and female versions of each message The default voice is female selecting the Male voice option switches all messages to male Spoken Test Message If the Spoken test message box is checked all talking sounders will output the test message when the 6100 is in walk test mode Activation Type Talking sounders can be programmed to behave as talking devices standard electronic sounders or electronic bells Only one of these options can be chosen For talking sounder operation the Sooken messages option must be selected For standard sounder operation the Electronic sounds option must be selected in which case they follow the C continuous W warble and P pulsing output tones like standard sounders For electronic bell sounds the Bell sounds option must be selected Electronic bells follow the C continuous and P pulsing options in the matrix 13 8 Programming the Pulsing Alarm Timeout and Tone An option is included in the 6100 for pulsing output groups to timeout to an alternate tone Only pulsing non talking outputs groups are affected by this feature The pulsing to new tone timeout time begins when the output group changes from OFF to pulsing and can be setup between 5 seconds and
38. ounder op arp 1 Setting the Adopt sounder op grp 1 feature means the beacon Inhibit class change of a loop sounder beacon automatically adopts the next output Flash until reset group to the sounder Setting Inhibit class change stops loop beacons from activating during a class change activation Setting Flash until reset prevents beacons from stopping on a silence a reset is required N93 531 79 Issue 5 NH Page 27 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection pic V 13 14 Overriding System Delays on a Second Knock Coincidence Activation When this option is enabled any system delays that have been setup or are running will be immediately overridden For example if a first knock coincidence activation has started a fire link delay then a second knock coincidence activation occurs before the timeout the fire link will immediately activate 13 15 Pulsing the First Display Group into Alarm This feature is used with Protec 6000 MIMIC devices If the feature is enabled the first display group into alarm will flash further display groups into alarm will illuminate steadily 13 16 Programming Loop Devices to Flash when Polled Most loop devices incorporate an integral indicating LED For confirmation purposes the LED can be programmed to illuminate momentarily when the 6100 communicates with the device This normally occurs once every 3 to 4 seconds To enable disable the Flash on poll fea
39. re left of the 6100 PCB housing see figure 7 0 Ensuring the 6100 is powered up connect the USB cable to a free USB port on the host PC then carefully plug the other end of the USB cable into the USB port on the 6100 Using the menus on the 6100 consult the 6100 Installation and Commissioning Manual select the CONNECT TO PC USING USB option and press the J key to enter the menu A When the 6100 panel is connected to the PC it WILL NOT operate as a fire alarm panel At the warning screen press the key to continue or to exit press any of the A V lt or gt keys Note When the 6100 is connected to a PC for the first time the PC must recognise the 6100 and load appropriate software drivers this can take up to 1 minute Standard Windows drivers are used no special drivers are required Further connections to the same PC will not require this phase Once connected to a PC the 6100 will display its PC connection screen all further control is now performed using the PC only 7 2 Disconnecting the PC from the 6100 When all commissioning has been completed the following procedure must be followed to correctly disconnect the PC from the 6100 e Close the 6100 commissioning software e Disconnect the 6100 from the PC by using the Windows Safely Remove Hardware feature e Carefully remove USB lead from the 6100 The 6100 automatically detects the USB lead has been removed and resets The loop will be re powered and a full
40. s then stored in the relevant text cell Figure 12 0 6100 Commissioning software No site name Engineer 0 File Edit vidw Panel Help Devicetet Zonetext Banner text 1 TEXTFORDEVICE1X TEXTFORZONE1 X PROTEC 6100 gt CONTROL PANEL Figure 12 1 MN Edit text Editszofee x t JEXT FOR ZONE 1 N93 531 79 Issue 5 NH Page 23 of 33 Protec Fire Detection plc 2015 Li Prot n 13 0 Programming Panel Configuration Data To edit panel configuration settings use the Edit gt Panel info option The window shown in Figure 13 0 is displayed Figure 13 0 cerai nimbe coni Fire Link Pulsing alarms Panel contractor 9 Activation delay Continuous v Timeout tone en ten E First knock search time 0 00 Timeout time Panel type Search time 1 0s Pulse on time Number of zones 32 Overlay 6100 Talking sounders 1 0s Pulse off time User code 134422 20s Sync time Night mode User code 2 421131 Male voice is 3 0 00 _ Night time Engineer code 314431 C Spoken test message i Advanced code 143342 Spoken messages 0 00 Day time Electronic sounds Language English Bell sounds Beacon Fault relay mode Hedvon poli 2Seconds Flash rate Class change input Input group 30 _ Remote Alarm Input Input aroup 31 Remote Alarm Input operates control o p groups Remote Alarm Input operates Day Night selection Override delays on second knock coincidence Use conv alarm ou
41. tees 21 Setting up Coincidence Operation cceccccecceeeeeeeeeeeeeeneeeceaeeeeeeeeaeeseeeeseaeeseaeessiaeeseneeesseeetaas 22 12 0 ENTERING DEVICE ZONE AND PANEL TEXT ccccseeeeseeeeeseeenseeeesneeeeneeensneeaseeenseeseseeeeseaeneas 23 N93 531 79 Issue 5 NH Page 3 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection plc 13 0 PROGRAMMING PANEL CONFIGURATION DATA cscccsseceseseeeeseeeeeeeeesseeeneeeeeseeeenseeseeeneneeeeneee 24 13 1 Programming the Panel ACCESS Codes cccecceeeeeeeeeeeeeeeeeceaeeseaeeeeaeeeseaeeseeeeseaeeseeeeseaeeseaees 24 13 2 Programming the Global Fire and Fault Contact Operation ccccccccssscessssteeesssneeeeesnneeeeees 24 13 3 Programming the Fire Link Activation Delay ccccccceeceeeeeseeeeeteneeeesenaeeeeeeaeeeeeenaeeeerenaeeeete 25 13 4 Programming the Fire Link Search Time cccccccceeeeeeeeeeneeeeeeeeseaeeseeeeeseaeeeeeeeseaeeseneeessaeeseaees 25 13 5 Programming a First Knock Fire Link Delay Time 0 ccccceeeeeeeeeeeneeeeeeeeeeeeenaeeeeeenaeeeerenaeeeeee 25 13 6 Programming the Walk Test TimeOut ccececeeeseeeeeeeeneeeeeeeaeeeeseaeeeeeeaeeeeseaeeeesenaeeeesenaeeeeee 25 13 7 Programming Talking Sounder Options ccccccccceeeeeeeeeeeeeceeeeeeaeeseeeeseaeeseeeeeeeaeeseneeeseaeeeeaees 26 13 8 Programming the Pulsing Alarm Timeout and TOne ceececeeeeeseeeeeeenneeeetenaeeeesenaeeterenaeeeeee 26 13 9 Progra
42. this function Save Save As Allows the site file currently loaded to be saved as filename psf Export This option allows the Event log Device Data Matrix and Text to be exported to a txt file Exit Exits the program 8 2 The Edit menu This menu contains the following choices Enter Site Info This screen allows information about the site to be entered The data is then stored in the panel and can be retrieved at a later date Matrix Editor The cause and effect matrix is edited in this window output group activations are linked to input group activations Output group delays and type can also be setup and the conventional alarm output group can be programmed Text Editor The loop device text zone text and panel text can be entered and edited in this screen Device Editor Loop device data and operational parameters are setup in this screen Coincidence Input group coincidence operation is enabled and programmed in this screen Panel Information Various system operational parameters are setup in this screen including User and Engineer access codes global relay operation fire link delay times fire link search time talking sounder messages and synchronisation time N93 531 79 Issue 5 NH Page 13 of 33 Protec Fire Detection plc 2015 ef Protec Protec Fire Detection pic 8 3 The View menu This menu allows the user to view event logs uploaded from a panel or stored in a site file 8 4 The Pan
43. tions allow the system designer to balance VAD coverage volume and average loop alarm current This means the system is not limited solely to high power VADs and more VAD devices may be placed on the loop if less coverage can be tolerated Three configuration choices are offered for both ceiling and wall VADs and the format of the settings in the commissioning software follows the EN54 23 format T H W where T is the type of VAD C for ceiling W for wall and O for Open class HH is the required mounting height of the VAD in metres and WW is the width of coverage in metres For example a C 3 3 device is a ceiling mounted VAD which is to be mounted on a 3m height ceiling and will provide coverage in a 3m diameter cylinder A W 2 4 5 device is a wall mounted VAD which is to be mounted 2 4m from the floor and provides a 5m cuboid pattern coverage Please consult the relevant installation leaflet for the particular VAD for further details Clicking in the coverage cell will scroll round the available settings for the loop VAD at that address Figure 10 0 Example of a ceiling mounted VAD set to 3m ass Non Latching Coverage matic Latching C 3 3 coverage diameter matic Latching L N A matic Latching N A matic Latching N A matic Latching N A matic Latching M A N93 531 79 Issue 5 NH Page 19 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection plc 11 0 Programming Cause and Effect Sequences Matrix
44. to the host 6100 panel when FBP mode is enabled Australian type loop sounders and detector sounders must be used on an FBP enabled 6100 13 20 Disabling the LCD when in FBP Mode Under certain conditions it may be advantageous to disable the LCD when the FBP control Interface has been enabled by use of a special key switch If the Turn off LCD when FBP Enabled box is ticked the LCD backlight is turned off which passes all control functions solely to the FBP Control Interface N93 531 79 Issue 5 NH Page 28 of 33 Protec Fire Detection plc 2015 di Protec Protec Fire Detection pic a 14 0 Viewing Historic Event Logs The 6100 stores 300 fire and non fire historic event logs When the site file is uploaded from the 6100 the last 300 historic events fire and non fire are automatically appended to it To view historic events using the commissioning software first upload the site file from the relevant 6100 using Panel gt Get settings from panel then using View gt Fire event log View gt Non fire event log or View gt combined Fire Non fire event log the relevant event log can be viewed The most recent events are displayed first 15 0 Uploading and Downloading Site Files to the 6100 Before site files can be downloaded or Uploaded to the 6100 the 6100 must first be connected to the PC see section 7 0 A Important NEVER remove the USB lead while downloading data site files or operating system to the 610
45. tputs as manual firelink Service reminder days Flash first display aroup in alarm Devices per loop 197 Cancel all delays in night mode us Walk test timeout Fire Brigade Panel FBP System Normal Display Options Type2 Os Denergise on fault M Fire relay mode Adopt sounder op arp 1 Inhibit class change Flash until reset Energise on any fire M Alarm count Oooog Turn off LCD when FBP enabled Enable serial port ok 00g 13 1 Programming the Panel Access Codes The 6100 uses four codes to access various parts of the system The codes are User code Allows access level 2 functions to be accessed User code 2 Same as User code but also allows loop devices to be exchanged Engineer code Allows access level 3 functions to be accessed Advanced code Allows access level 4 functions to be accessed To edit a code click in the relevant code box delete the current code and enter the new code codes must be six digits long using only digits 1 2 3 and 4 13 2 Programming the Global Fire and Fault Contact Operation The operation of the global fire contacts can be setup by clicking on the Fire relay mode box and selecting the mode of operation as required The global fire relay can be made to operate on any fire just automatic fires or just manual activations N93 531 79 Issue 5 NH Page 24 of 33 Protec Fire Detection plc 2015 a Protec Protec Fire Detection plc
46. ture check uncheck the Flash on poll option as required 13 17 Programming Dual Fire Link Outputs The 6100 normally provides a single Fire Link output operates on automatic and manual fires and a pair of conventional alarm outputs It is possible to alter this configuration so that the standard Fire Link output operates only on automatic activations and the conventional alarm output ALARM 1 and 1 changes function to become a second Fire Link output which operates only on manual activations A 8200 5 1W resistor must be fitted in series with the ALARM 1 output locally in the 6100 The In dual Fire Link mode connections must not be made to ALARM 2 and 2 standard Fire Link End of Line module is then used as per normal at the remote end of the Fire Link 13 18 Cancelling Delays in Night mode It may be advantageous to cancel all system delays firelink and Output Group T1 T2 delays when the 6100 is in night mode By doing this system delays will be enabled during the day and when a building is unoccupied during the night delays will be cancelled To enable disable the feature check uncheck the Cancel all delays in night mode option as required 13 19 Enabling Fire Brigade Panel FBP Operation Ticking the Fire Brigade Panel FBP box configures the 6100 for FBP operation FBP operation is typically used when 6100 panels are supplied to the Australian market An FBP interface must be connected
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