Home

FP2000 IO Programming Guide

1. General Zone or Area Fire Protection General Zone or Area Logic 6 2 11 EVENT These outputs allow the user to create text messages of 40 characters in length These messages may be displayed on the LCD display of the panel or simply be logged in the event log of the panel 6 2 12 ACTION These outputs will cause an action to be performed on the panel 22 Aritech I O Programming Guide The subtypes are Indicating what action will be performed Call on Line 1 Call on Line 2 Call on Line 3 Call on Line 4 Day Mode Fault routing Delay On Fault routing Off Fault routing On Fire Brigade Delay On Fire Brigade Signalled Fire Brigade Stopped Fire protection Delay On Fire protection Off Fire protection On Key Switch Unlocked Reset Restart Schoolbells On Silence Buzzer Sounder Delay On Sounder On Sounder Silenced Synchronise Time Zones on Aritech I O Programming Guide 7 BASIC PROGRAMMING All logic programming need not be complex and in fact in most instances the programming in the field is rather straightforward The following two sections will explain some of the usage of this facility in the panel with the help of some practical examples Example 1 Activating Outputs linked to the Sounders or Fire Brigade outputs of the panel Scenario A basic fire installation with in addition to the normal smoke detection devices sounders or sounder controllers connected to the detection loops of the panel Th
2. ARITECD Aritech Addressable Fire O Programming Guide IPG2000 Revision 0 2 March 2002 aninterlo git4compan y Aritech is an Interlogix company COPYRIGHT 2001 Interlogix B V All rights reserved Interlogix B V grants the right to reprint this document for internal use only Interlogix B V reserves the right to change information without notice CONTENTS 1 Introduction i a a 4 1 1 SCOPE iii as ead a In 4 2 How to use this guld amp 0 Lie iseina ia ias iL dee aaraa a raaa e e 4 2 1 Inputs5 2 2 U o L EPA ia 5 2 3 Logic 5 3 Logic Programming i iii i ai a asi f a iai a iai fra i 6 3 1 Basic LOGICA mr rer ne ir a a a a a i 6 galed A dd dan ob E I DF 6 3 2 Boolean LOGIC tsi iiu ai ai ii WY WLR gw nr OP ieee 7 3 21 AO A ia FYW MA FAR ss RF La a a a a a E 7 3 22 E NN EFFRO HF EFE NN 7 3 3 Rules of the Aritech logic programming nn rna ann na nen cnc aaa 7 4 Switching Di gfams ini ii i ss as Vantaa da a ns a a ae a e a eo sai A akies 10 5 Input Definition ii ii a E a a ania K ii e D K ai a a HYD 13 Dl Alnput TYPOS cz ka ied a D ca eee eta ates ate an ete tae LD dT 14 Daly GENERAL eno Se ee ee Dd 14 5 12 ZONE fatten to EHRE Med du nee ls edd Ret 15 B 1 3 AREA suro Here Bead ie ed eee 15 SAA ADU AREA zoo nd we tat a leer aa batten eed Seat cag Seah YH denn vee Se cabo Sereda teh 15 5 15 INTERNAL Mia tale Da ernennen 16 DO MEG tl dn aa N DR NF o Ra pura ee
3. LOGIC OUTPUT UNLATCHED CONTINUOUS 10 Aritech I O Programming Guide UNLATCHED CONTINUOUS INVERTED UNLATCHED PULSE UNLATCHED PULSE INVERTED UNLATCHED PULSING UNLATCHED PULSING INVERTED LATCHED CONTINUOUS LATCHED CONTINUOUS INVERTED LATCHED PULSE LATCHED PULSE INVERTED LATCHED PULSING LATCHED PULSING INVERTED INPUT 1 INPUT 2 OUTPUT SET S in 1 RESET S in 2 OUTPUT SET E in 1 RESET E in 2 Aritech I O Programming Guide 0 Reset Reset Reset Reset Reset Reset Reset Reset 11 OUTPUT NOT 1 0 Aritech I O Programming Guide 5 NPUT DEFINITION Defining an input will define the cause of the function Figure 5 Input Menu INPUT DEFINITION State Current Status Input Input Number Trig Latch unlatched Tvpe Input Tvpe Mode Trigger mode Fct Input Subtype Trigger shape Channel Input channel No Event Log status User Definable Text User Panel Interface Line Alarms Guant Faults Ouant Cond Quant P ID SDZ Input Number This number oniv defines the position of the input in the input table The size of the input table can be adjusted in the memorv configuration of the panel The default size will allow 150 input entries but a maximum of 999 inputs locations mav be configured Refer to the FP2000 Reference Guide for further information Input Tvpe This defines the input group that this input belong
4. 13 and not input 14 z marker 15 input 16 outpu 17 marker 18 z outpu 19 marker 20 outpu 21 marker 22 outpu 23 marker 24 z outpu 25 marker 26 outpu 27 marker 28 outpu 29 marker 30 z outpu 31 marker 32 outpu 33 end Aritech I O Programming Guide Number aN 222000320 202B4000N00D 20D N 2220 Mode None None None None None None None None Mode None None Number oooooooo Number 0 0 Time 15 Trigger Shape Mode Event Latched Continuous Active Unlogged Trigger Mode Shape Event Output text Unlatched Normal Continuous Unlogged Gas discharge output Unlatched Normal Continuous Unlogged Indicator gas discharged Unlatched Normal Continuous Unlogged First alarm bells Unlatched Normal Continuous Unlogged First alarm indicator Unlatched Normal Continuous Unlogged Second alarm siren Unlatched Normal Continuous Unlogged Second alarm indicator Unlatched Normal Continuous Unlogged Zone 100 ALARM Unlatched Normal Continuous Unlogged Start extinguishing Trigger Mode Shape Event Output text Unlatched Normal Continuous Unlogged First alarm output Unlatched Normal Continuous Unlogged Second alarm output If there is co incidence in zone 100 and the control is NOT in manual mode or there is a manual extinguishing activation command set this marker When this marker is set start a timer for 15 seconds When timer one has timed out and the emergency stop has not b
5. DELAY ON DELAY ON EAULT A W 718 Derav ore 22 8 DELAYOFF DISABLE L DISABLE aje FAULTT i he SUPPLY a av STOP FIRE eatin n TEST R SILENCE V BRIGADE SYSTEM FAULT PROCESSOR RUNNING SUPPLY ON SOURCE TEST 3RD LOCAL REPEATERS Exit all menus ensure that you have no faults on the panel and you re ready to go This icon will now allow the status of the output on the SD2000 PCB showing whether it is in fact true or not Simply right click on the device to turn the output on or off That s it You ll be able to control input 5 now on this panel and potentially it can switch anything depending on how you do your logic In this case it is switching relay 6 on the SD2000 PCB The status is updated on the screen about once every 10 seconds Example 9 Gas Control Unit Programming Scenario In this example we will show that it is possible to turn the panel into a GAS control panel We do however emphasise that this example is used for explanation purposes only and is NOT normally recommended as a true solution in the field since the outputs here are all unsupervised and therefore not suitable for this type of application Eguipment Here we will use as inputs the internal inputs inside the panel both on the FEP PCB as well as on the SD2000 PCB The panel has to be in an operation mode other than VdS As the main controller we will use an FM80
6. unlatched else it cannot be switched off without a reset from the fire panel Aritech I O Programming Guide Figure 28 Panel Input configuration FP2000 Front panel emulation INPUT DEFINITION State false Input 5 Trig unlatched Type Network Mode active Hode 00706 continuous Output 2 Event unlogged ale BA v lt gt E Alarms 0 Faults 9 Cond 1 G 1 GENERAL CONTROLS SOUNDERS 15151518155 158818151 4 Go to the output table of the panel Go to any output number and configure this as an internal output since we are working with a SD2000 controller here Ensure that this output is unlatched else it cannot be switched off without a reset from the fire panel Figure 29 Panel Output configuration FP2000 Front panel emulation OUTPUT DEFINITION State false Output 20 Trig unlatched Type Internal Mode normal Board 18 VdS continuous Output 6 unlogged ale more AW lt gt B X Alarms 0 Faults 9 Cond 1 G 1 GENERAL CONTROLS MAL SOUNDERS FIRE BRIGADE SBHH 5 Go to the logic table and link the input in 2 3 and the output in 2 4 together Aritech I O Programming Guide 39 Figure 30 Panel Logic configuration FP2000 Front panel emulation Eile Connection Version PANELS LOGIC TABLE 8 Input Output 0 9 v Alarms 0 Faults 9 Cond 1 GENERAL CONTROLS SOUNDERS FIRE BRIGADE SILENCE 20 ajo Bice 6 SOUND SIGNAL 7 ap
7. O unit This is what panel 2 and all other panels programming looks like General Inputs Input Type Function Trigger Shape Mode Event 1 General Common Fire Latched Continuous Active Unlogged 3 General Common Cond Unlatched Continuous Active Unlogged 20 General Common Fault Latched Continuous Active Unlogged These inputs capture the different alarms of this so that they can be sent to panel 1 Network Outputs Output Type Input Panel Repeater Trigger Mode Shape Event Output Text 1 Network 4 1 0 Latched Normal Continuous Unlogged Report Fire to Panel 1 2 Network 60 1 0 Latched Normal Continuous Unlogged Report Fault to Panel 1 3 Network 6 1 0 Unlatched Normal Continuous Unlogged Report Condition to Panel 1 These outputs pass the messages to panel 1 Note how the input numbers where they must go on panel 1 is listed with each output Logic ine Operator Operand Number Time Input Output Input Output Input Output u WWNNA D u 3 o And all that remains is to simply link all the inputs to their correct outputs on the network Example 8 Network programming between PC node and a panel node Scenario The operator needs to control a sounder from the PCG2001 software Eguipment For this we will use a SCC Sounder Circuit Controller icon from the devices toolbar We can also use the Sounder Icon from the devices toolbar right next to the SCC icon 1 Place the sounder device on the plan as reguir
8. a fire door and must therefore de activate whenever a fire exists anywhere in the system Eguipment Lets say we have an Output Unit connected at address Loop 1 device 10 Programming We need to know when we want the output to de activate i e what event will we use cause that will cause this output to switch effect Once we have this we can continue Inputs Any fire in the system Refer to section 5 1 1 GENERAL Figure 9 General Common Fire Input INPUT DEFINITION State Current Status Input x Trig latched Tvpe General Mode normal Fct continuous Common Fire Event unlogged User Panel Interface Line Alarms Guant Faults Quant Cond Quant P ID SDZ Outputs Refer to section 6 2 5 DEVICE OUTPUT Note that the Output device has to be enabled in the device menu first Don t forget that this output must be active all the time and deactivate when the event occurs We can accomplish this very easily by simply inverting the mode for this output in the output programming menus Aritech I O Programming Guide 25 Figure 10 Device Output Menu OUTPUT DEFINITION Current Status Output y unlatched Type Device Output inverted Addr 1 10 1O continuous Chan 1 Log status User Definable Text User Panel Interface Line Alarms Guant Faults Ouant Cond Quant P ID SDZ NOTE If we want we may even add user text to this output to describe what its function is This way
9. input will normally become active at 00 00 on the date that was programmed here The subtypes are in day month year format Date dd mm yy Aritech I O Programming Guide 17 6 OUTPUT DEFINITION 6 1 Outputs Figure 6 Output Menu OUTPUT DEFINITION State Current Status Output Output Number Trig Latch unlatched Tvpe Output Tvpe Mode Output mode Fct Output Subtype Output shape Channel Output channel No Event Log status User Definable Text User Panel Interface Line Alarms Guant Faults Ouant Cond Quant P ID SDZ Defining an output will define the effect of the function Output Number This number defines the position of the output in the output table The size of the output table can be adjusted in the memory configuration of the panel The default size will allow 150 Output entries but a maximum of 999 output locations may be configured Refer to the FP2000 Reference Guide for further information Output Type This defines the output group that this output belongs to Each output group will have different subtypes Output Sub Type This defines the specific function of the selected output group Output Channel Number Optional depending on the output type Should the specific output unit allow for more than one physical output the specific output used will have to be defined here User Definable Text Optional depending on the output type Text that allows t
10. successfully linked the sounders on Loop 1 Device 10 to the common sounder control of the panel When there is a condition on the panel that would normally activate the common sounder output inside the panel our loop powered sounder will be activated as well The sounder control on the front of the panel will also service this programmed sounder so we will also be able to silence the sounder in the filed using these controls Set up another output similar to this one for the sounder at Loop 2 Device 100 Now the panel controls both sounders In Figure 8 above one can see that we did not use any mode configuration The mode configuration may be used in instances where I do not want my sounders to activate when there is a fire anywhere in the system but only when there is a fire in the zone or area serviced by this sounder I con then use this mode functionality for linking a sounder to a specific zone or area The sounder is still controlled from the sounder output of the panel but now only activates when a fire exists in that zone or area set in the mode programming Any outputs in the system may be linked in this way and controlled by the fire brigade and sounder controls on the fact of the panel Example 2 Activating an output on an input output unit Scenario A basic fire installation with in addition to the normal smoke detection devices output units connected to the detection loops of the panel This output is used to hold open
11. two outputs on the 102032 installed on Loop 2 Device 12 Programming We need to know when we want the output to be activate i e what event will we use cause that will cause these outputs to switch effect and how we would like the outputs to be normally We will need a fail to safe relay for the fire door magnets so that the magnets will also release in the case of a critical failure but a normal relay for the building management system but only a single pulse Then we need to know where our other input will come from Inputs A fire in Zone 2 will trigger the relavs Refer to section 5 1 2 ZONE On the fire panel Aritech I O Programming Guide 29 Figure 17 Fault Input Menu State Trig Mode INPUT DEFINITION Input IX Type Fire Area 2 Fct Fire Event User Panel Interface Line Alarms Guant Faults Guant Cond Outputs DEVICE OUTPUT Figure 18 Device Output Current Status latched normal continuous unlogged Quant P ID SDZ Two device outputs output 1 and output 2 on the 102032 Refer to section 6 2 5 OUTPUT DEFINITION Output v Tvpe Device Output Addr 2 12 10 Chan 1 User Definable Text User Panel Interface Line Alarms Quant Faults Quant Cond Current Status unlatched normal pulse Log status Quant P ID SDZ NOTE If we want we may even add user text to this output to describe what its function is This way it will a
12. 16 5 12 DEVICE NPUT Au een arena ernennen 16 51 85 DEVICE a ita IA a ae na d aa Gn da ddn 16 5 1 9 NETWORK zub inas e a A a ne A aaa Banane a A da ua iais 16 SIMAO ACTION 222 2222 en DY tl LYW DI CF 17 91 14 CEDEVICE 2 aidi as iai nn E E cede yd OA SF 17 54112 DATE sitai aaa L aaa ae E aa aa ei AE ou o doo lb duced ad as ia a oi 17 6 Output DefinitiON L Listas siai a e ASA 18 ol OUtpillSiau sa tee ee a dn S aaa a aaa ate S 18 6 2 OutputoT peS iii iri titted ga nude dad ds aa a i aa DF as 19 90 21 lt GENERAL eie ii tu sso tases ate aaa ko sea can gust E NI canes aaa aa as Aa aaa an ia tenia ac bli 19 02 27 ZONE i a aa ia a TD do 19 G 2 3 AREA oo a r neal stant ache taa 19 6 24 INTERNAL 42 2232 A i ea a a a AEF CY FFY AY 20 G 2 5 DEVICE OUT U T a ee ddod rate TE yi aaa 20 6 2 6 INTERNAL SUPR RVS E D i 2422er Aa la asa dis 21 6 2 7 DEVI E SUPERVISED iii ii re dau ED aaa Sina daa 21 6 2 8 NETWORK 5 u a aa o a daina a ca dade Aaaa a daU akis 22 6029 CURRENT OOP D V OE a Penn oka ohm a 22 6 2 10 CURRENT LOOP SUPERVISED eee eee een rna na 22 62 11 EVENT rect ee an Zo kroky k dein a dnd ddd dnd a zon nooo Sd 22 6 2 12 ACTION i ia ddom ee I LEHRE de Zone kon Meinen 22 7 Basic Program bocina 24 8 Advanced ProgramMMINg ici ais 32 Aritech I O Programming Guide 3 1 INTRODUCTION 1 1 Scope This manual explains how to set up and test the Input Table Output Tab
13. 6 2 6 The subtypes are indicating what PCB this output is located on and what particular output on this PCB is of interest both the RB2016 and the SD2000 have multiple outputs Board number Output Channel Link to Sounders General Zone or Area Fire Brigade General Zone or Area Fault Routing General Zone or Area Fire Protection General Zone or Area Logic 6 2 5 DEVICE OUTPUT 20 These outputs are located on the Output Units connected to the detection loop of the panel Note Do not confuse these with the supervised outputs located on some I O units See section 6 2 7 The subtypes are indicating where the I O Unit is and what output channel in cases where a multi channel I O unit is used is of interest Device Number Output Channel Link to Sounders General Zone or Area Fire Brigade General Zone or Area Fault Routing General Zone or Area Fire Protection General Zone or Area Logic Aritech I O Programming Guide 6 2 6 INTERNAL SUPERVISED These outputs form part of the internal outputs of the panel These outputs are located on the SD2000 or SD1200 PCB s on the back panel electronics of the panel Refer to the various Installation and Commissioning manuals for more information on these outputs Note Do not confuse these with the un supervised internal outputs located on the RB2016 and SD2000 PCB s See section 6 2 4 Even though these relays are
14. 8 the 8 output current loop device First we ll do the monitoring of the gas status i e the user interface Internal Inputs Input Type Brd Addrs Channel Adr2 Trigger Shape Mode Event Input text 1 Internal 24 1 Unlatched Continuous Active As Cond Zone 100 Gas control in MANUAL MODE 2 Internal 17 5 Latched Continuous Short As Fault Emergency stop activated 3 Internal 17 6 Unlatched Continuous Short Unlogged Discharge confirmed 4 Internal 17 T Unlatched Continuous Short As Fault Container pressure low 5 Internal 17 8 Latched Continuous Short As fire Zone 100 Manual extinguish command Here is the zone that we will protect Zone Inputs Input Type Zone Function Trigger Shape Mode Event 6 Zone 100 Fire Latched Continuous Active Unlogged 4000 Antech I O Programming Guide Input 7 Type Zone Zone 100 Function Co incidence Then we ll do the outputs for the field controller Current Loop Outputs Output Type Address Output Linked to 1 CL Device 1 1 Logic 2 CL Device 1 5 Logic 3 CL Device 1 2 Logic 4 CL Device 1 6 Logic 5 CL Device 1 3 Logic 6 CL Device 1 7 Logic 7 CL Device 1 4 Logic 8 CL Device 1 8 Logic and for the user interface Internal Outputs Output Type Brd Addrs Channel Linked to 9 Internal 17 5 Logic 10 Internal 17 6 Logic Logic Line Operator Operand 1 2 input 3 and not input 4 5 or input 6 z marker 7 marker 8 z timer 9 timer 10 and not input 11 z outpu 12 input
15. O unit connected to panel 1 on loop 2 device 126 Every fire panel has to report a fire fault and condition alarm to panel 1 via the network so that this can be reported from there to the fire brigade This is what the programming on panel 1 looks like General Input s Input 1 3 20 Type Function Trigger General Common Fire Latched General Common Cond Unlatched General Common Fault Latched Shape Mode Continuous Active Continuous Active Continuous Active Event Unlogged Unlogged Unlogged These inputs capture the different alarms of panel 1 so that they can be linked to the I O unit Network Inputs Input Type Output 4 Network 1 6 Network 3 7 Network 1 9 Network 3 10 Network 1 12 Network 3 13 Network 1 15 Network 3 60 Network 2 61 Network 5 62 Network 5 63 Network 5 Output 1 2 3 Panel Repeater 2 0 2 0 3 0 3 0 4 0 4 0 5 0 5 0 2 0 3 0 4 0 5 0 Trigger Latched Unlatched Latched Unlatched Latched Unlatched Latched Unlatched Latched Latched Latched Latched Shape Con Con Con Con Con Con Con Con Con Con Con Con inuous inuous inuous inuous inuous inuous inuous inuous inuous inuous inuous inuous Mode Event Active Unlogged Active Unlogged Active Unlogged Active Unlogged Active Unlogged Active Unlogged Active Unlogged Active Unlogged Active Unlogged Active Unlogged Active Unlogged Active Unlogged Input Text Panel 2 Fire Panel 2 Cond
16. Text User Panel Interface Line Alarms Guant Faults Quant Cond Quant P ID SDZ Refer to section 4 Switching Diagrams 2 2 Outputs Figure 3 Output Menu OUTPUT DEFINITION State Current Status Output Output Number Trig Latch unlatched Type Output Type Mode Output mode Fct Output Subtype Output shape Channel Output channel No Event Log status User Definable Text User Panel Interface Line Alarms Quant Faults Quant Cond Quant P ID SDZ Refer to section 6 Output Definition 2 3 Logic Figure 4 Logic Table LOGIC TABLE 599 Operator Operand Number Time 600 Operator Operand Number Time 1 Operator Operand Number Time Operator Operand Number Time 3 Operator Operand Number Time User Panel Interface Line Alarms Quant Faults Quant Cond Quant P ID SDZ Aritech I O Programming Guide 3 LOGIC PROGRAMMING The logic programming of the Aritech fire panels follow a simple cause and effect sequence i e when something happens cause we also want something else effect to happen For the panel the cause will be defined as an Input whilst the effect is defined as an Output The inputs causes for the panel are defined in a table called the Input Table The size of this table is adjustable in the memory configuration of the panel By default there will be 150 inputs available to the user but this may be expanded as required to a maximum number of 999 The outp
17. able as outputs in numerical seguence For example Input Output Input Output Il ono A AS Input Output 0 This functions consist of more than three functions but the Output x operand is always in numerical seguence i e the highest number is always below its predecessor This is not flagged as a fault condition and will not cause any problems but it will assist with the implementation of rule 6 above as well as help greatly in the debugging of the logic should this ever be reguired The final line of logic in the logic table should have an end statement in the operator field For example Aritech I O Programming Guide Input 1 Output 1 Input 2 Output 5 end This is not flagged as a fault condition and will not cause any problems It just helps the panel not to scan all blank lines in the logic table to find no further executable logic and therefore speeds up the processing in the panel Aritech I O Programming Guide 4 SWITCHING DIAGRAMS The following table provides an overview of the shape of an input and an output in the panel when used with the various configuration options in the logic as described in sections 5 6 and 7 in this document 1 PHYSICAL INPUT N MODE ACTIVE UNLATCHED CONTINUOUS UNLATCHED PULSE LATCHED CONTINUOUS Reset LATCHED PULSE MODE PASSIVE UNLATCHED CONTINUOUS UNLATCHED PULSE LATCHED CONTINUOUS Reset LATCHED PULSE
18. allowed to be used for user programming always remember that they have pre programmed functions These functions are determined by regulations and are not removable Any user function will simply be or ed with the pre programmed functions leading to undesirable effects in most cases It is therefore highly recommended that these relays NOT BE USED FOR USER PROGRAMMING FUNCTIONS The subtypes are indicating what PCB this output is located on and what particular output on this PCB is of interest both the SD2000 and the SD1200 have multiple outputs Board Number Output Channel Link to Sounders General Zone or Area Fire Brigade General Zone or Area Fault Routing General Zone or Area Fire Protection General Zone or Area Logic 6 2 7 DEVICE SUPERVISED These outputs are located on the Output Units connected to the detection loop of the panel Note Do not confuse these with the un supervised outputs located on some I O units See section 6 2 5 The subtypes are indicating where the I O Unit is and what output channel is of interest All supervised I O only have one channel i e channel 1 Device Number Output Channel Link to Sounders General Zone or Area Fire Brigade General Zone or Area Fault Routing General Zone or Area Fire Protection General Zone or Area Logic Aritech I O Programming Guide 21 6 2 8 NETWORK These outputs are located on the Fire Panel Network B
19. cted External Fault External Fire External Supplv Fault Fault routing Disabled Fault routing Fault Fault routing Test Fire Brigade Disabled Fire Brigade Fault Fire Brigade Test Fire protection Disabled Fire protection Fault Fire protection Test Global Repeater Fault Hardware Fault Local Repeater Fault Low Batterv Mains Disconnected Maintenance Fault Memorv unlocked Modem Fault Panel Fault Printer Disconnected Aritech I O Programming Guide 5 1 2 5 1 3 5 1 4 Service Switch On Soak Test Sounder Disabled Sounder Fault Sounder Test Supply Fault System Fault Tamper Switch Test VDU Disconnected Zone Test ZONE These inputs form part of the detection zone functions of the panel A zone is defined as a group of detection devices The subtypes are indicating what particular zone status is of interest Fire Fault Coincidence Condition Disable AREA These inputs form part of the detection area functions of the panel An area is defined as a group of detection zones The subtypes are indicating what particular area status is of interest Fire Fault Coincidence Condition Disable ADJ AREA These inputs form part of the detection area functions of the panel An adjacent area is defined as an area next to the area that I am interested in The subtypes are indicating what particular status of any adjacent area to my area is of interest Fire Fault Coincidence Condition Disable A
20. d by location in the panel as can be seen from the functions below 6 2 1 GENERAL These outputs form part of the general operating functions of the panel The subtypes are indicating what particular general status effect will be caused Common Condition Common Fault Common Fire External Fault External Fire External Supply Fault Fault routing Disabled Fault routing Test Fire Brigade Disabled Fire Brigade Test Fire protection Disabled Fire protection Test Service Switch On Sounder Disabled Sounder Test Hardware Fault Tamper Switch 6 2 2 ZONE These outputs form part of the zone operating functions of the panel The subtypes are indicating what particular zone status effect will be caused Fire MCP Fire Auto Fault Coincidence Condition Disable Pre Alarm 6 2 3 AREA These outputs form part of the area operating functions of the panel The subtypes are indicating what particular area status effect will be caused Fire Fault Coincidence Condition Disable Pre Alarm Aritech I O Programming Guide 19 6 2 4 INTERNAL These outputs form part of the internal outputs of the panel These outputs are located on the RB2016 and the SD2000 PCB s on the back panel electronics of the panel Refer to the various Installation and Commissioning manuals for more information on these outputs Note Do not confuse these with the supervised internal outputs located on the SD2000 and SD1200 PCB s See section
21. e sounders must activate whenever a fire exists anywhere in the system Normally the panel will depending of course on the operating mode EN EP VdS or NEN activate the common sounder output inside the panel automatically when a fire alarm exists on the panel It will however not activate any outputs on the detection loops unless programmed to do so Eguipment Lets say we have two loop powered sounders connected at address loop 1 device 10 and loop 2 device 100 Programming We will use the special function of the panel to simplify this programming We already know that we have a sounder output that will activate whenever we have a fire Why can we not link our loop powered sounders to this output We can Inputs Not required Outputs Refer to section 6 2 7 DEVICE SUPERVISED Note that the sounder has to be enabled in the device menus first Figure 7 Supervised Device Output Menu OUTPUT DEFINITION State Current Status Output y Trig latched Tvpe Sup DevOutput Mode normal Addr 1 10 SND Output shape Event Log status User Definable Text User Panel Interface Line Alarms Guant Faults Quant Cond Quant P ID SDZ and on the next screen Figure 8 Supervised Device Output Menu 2 OUTPUT DEFINITION Output y Lnk SND Mode none User Panel Interface Line Alarms Quant Faults Quant Cond Quant P ID SDZ 24 Aritech I O Programming Guide So what we have done is we have
22. e fire panel Aritech I O Programming Guide 27 Figure 13 Area Input Menu INPUT DEFINITION State Current Status Input LX Trig latched Tvpe Area Mode normal Area 5 continuous Fct Fire Event unlogged User Panel Interface Line Alarms Guant Faults Ouant Cond Quant P ID SDZ Figure 14 Network Input Menu INPUT DEFINITION State Current Status Input y Trig unlatched Type Network Mode active Node 00 PC ID continuous Output PC Output Event Log as Cond Area 1 Sounders STOPPED DISABLED User Panel Interface Line Alarms Guant Faults Quant Cond Quant P ID SDZ lf we want we may even add text to this input and log it as a condition This way it will also appear as an event on the panel and in the event buffer and you cannot forget to remove the condition once it is activated Outputs An internal output output 8 on the SD2000 Refer to section 6 2 4 INTERNAL Figure 15 Internal Output OUTPUT DEFINITION State Current Status Output y Trig unlatched Type Internal Mode normal Board PCB address VdS continuous Chan 8 Log status User Definable Text User Panel Interface Line Alarms Guant Faults Ouant Cond Quant P ID SDZ NOTE If we want we may even add user text to this output to describe what its function is This way it will always know what this relay is in fact used for Logic Now we have to link our causes to our e
23. ed Aritech I O Programming Guide Figure 21 Device Control Icons Select icon size Ot6 Ou 32 Panels Devices Navigation Retrieve Data Exit Config Mode an interlogi company 2 Configure the icon on the PC as reguired Figure 22 Control Device configuration DEVICE CONFIGURATION This section refers the the phisical device location just like any other Node Loop Number 2 gros Device Number 3 sl PC output number Me a ion on the PC Network input number 10 gt en on the Panel Switchable The output location on the Panel output table This is all that is required on the PC The panel must be programmed as follows 3 Go to the input table of the panel Go to the input number referred to in the panel input in 2 above Configure this input as a network input The Node ID here will of course refer to the PC ID and the output number will refer to the PC output number programmed in 2 above Ensure that this input is unlatched else it cannot be switched off without a reset from the fire panel Aritech I O Programming Guide 35 36 Figure 23 Panel Input configuration FP2000 Front panel emulation INPUT DEFINITION State false Input 10 Trig unlatched Type Network Mode active Node 00706 continuous Output 1 Event unlogged AM Alarms 0 Faults 2 Cond P 2 GENERAL CONTROLS SOUNDERS H M FIRE BRIGADE l 4 Go to the output table of the pane
24. ed Normal Continuous Unlogged Device Outputs Output Type Loop Device Channel Linked to Mode Number Trigger Mode Shape Event Output Text 13 Dev Out 2 5 1 Logic None 0 Latched Normal Pulse Unlogged Reset pulse for FD2000 Logic Line Operator Operand Number Time 9 input 11 ta 10 and timer 14 11 and output 13 12 output 11 gt Check if all these states are true then raise the alarm 13 input 12 14 and timer 14 15 and output 13 16 output 12 gt Check if all these states are true then raise the fault 17 input 13 18 or input 14 gt Remember when the panel is reset or restarted 19 marker 13 20 marker 13 21 timer 14 45 gt Start a 45 second timer after reset or restart 22 marker 13 23 output 13 gt Reset the FD2000 after reset or restart 25 end 0 32 Aritech I O Programming Guide The tricky part of this programming is to mask the fire and fault conditions sufficiently after a panel restart or reset to allow the panel to ensure that the reset restart action of the FD2000 has in fact been executed This is why the 45 second timer is necessary Example 7 Network input output programming between panel nodes This is part of actual programming with 1 global repeater and 5 fire panels the fire brigade interface is connected to panel 1 The physical input output and logic numbers are of course not important Scenario Fire fault and condition has to be reported to the fire brigade via a 3 channel I
25. een activated discharge this gas If there is a fire in zone 100 and the control is NOT in manual mode set this marker When the discharge has been confirmed light the discharge indicator lamp When this marker is set ring the warning bells for first fire When this marker is set light the first alarm indicator When this marker is set ring the alarm bells for second fire When this marker is set light the second alarm indicator When this marker is set light the alarm indicator for this zone When this marker is set light the indicator for discharge timer started When this marker is set switch the first fire alarm output When this marker is set switch the second fire alarm output 41 14 xxxx 999 1
26. en the timer has timed out then make the output at output location y true So in our case If there is a common fire condition then start a timer and time for 10 seconds When the timer has timed out then switch the output on device loop 1 device 10 Example 4 Controlling the activating of an output from a separate input unit Scenario When a fire alarm activates in a specific area Area 5 we need to switch a relay that will control the sounders in that area However we also want to be able to disable this sounder from another location when testing is done in this area Eguipment Let s say we use an output on the SD2000 PCB inside the panel to switch the sounders in this area We have a separate input from the PC to either disable this output for testing purposes or stop the sounders once they have activated Programming We need to know when we want the output to be activate i e what event will we use cause that will cause this output to switch effect Then we need to know where our other input will come from Inputs A fire in Area 5 will trigger the relay Refer to section 5 1 3 AREA but we will be able to override this trigger from a network input from the PC Refer to section 5 1 9 NETWORK On the PC Use a controllable Input icon Make the input switchable and link the status of this icon to the input on your panel as usual The icon status will now be updated according to whether the input is true or false On th
27. evice is of interest Device Number Cause Fire Fault or Condition 5 1 9 NETWORK These inputs are located on the Fire Panel Network Note By definition this means that there will also be an output somewhere in the system onto the Fire Panel Network Using this function will allow inputs and outputs to be sent between fire panel nodes on the same network The subtypes are Indicating where the output is generated in the network Node ID xx xx Output 1 999 16 Aritech I O Programming Guide 5 1 10 ACTION These inputs are generated by an action either performed by the panel itself or by a system operator The subtypes are Indicating what action it is that is of interest Day Mode Zones On School Bells on Silence Buzzer Restart Reset Access enabled Event buffer full Maintenance reminder Key switch enabled Event Buffer cleared Fire Brigade signal Fire Brigade stop Fire Brigade delay on Sounder on Sounder silenced Sounder delay on Fprot delay on Fprot on Fltrt on FItrt delay on 5 1 11 CL DEVICE These inputs are located on the devices connected to the Current Loop network of the panel The subtypes are Indicating what current loop device the input is coming from and what input on this device is of interest all current loop devices have multiple inputs CL Device Number Input Channel 5 1 12 DATE These inputs are generated from the internal real time clock of the panel This
28. ffect 28 Aritech I O Programming Guide Figure 16 Logic Table LOGIC TABLE 1 Input 2 Input 3 Output 6 7 User Panel Interface Line Alarms Quant Faults Quant Cond Quant P ID SDZ This will have the following functionalitv Condition 1 When there is a fire in Area 5 When the PC output is in the normal state not disabled and there is a fire alarm in area 5 Output z will be activated If however the PC output is set switched on whilst the sounders are on the sounder will be switched off Condition 1 When there is no fire Switching the output on when there is no fire alarm will have the effect of disabling the output When Input y is true Input x will have no effect on Output z The icon will change on the PC to another colour when it is ON because it is linked to the true false state of the network input You will therefore always Know when the sounders are OFF or DISABLED There will however be no distinction between off and disabled If you need to know this then we can do it in another way but you would need to use two icons and two network inputs Example 5 Switching two outputs from a single input Scenario When a fire alarm activates in a specific zone Zone 2 we need to switch a relay that will notify the building management system to shut down air conditioning in that zone However we also want to switch a relay that unlatches the fire door magnets and close them Eguipment Let s say we use
29. g Status Optional depending on the input type The programmer may decide how the event processor of the panel handles this event Will the fact that the input changes to the TRUE state be logged in the event log or not and if so will it have any effect on the operation of the panel i e will it cause an alarm Some inputs have pre defined functions and therefore are not user definable Aritech I O Programming Guide 13 5 1 5 1 1 14 Input Tvpes The various input types are simply groups of inputs to make finding of the required input easier All inputs have been grouped by location in the panel as can be seen from the functions below Note Remember that some of these inputs have defined functionality They will automatically do what they are supposed to be doing What we will do with our input output and logic programming functions will be in addition to what the panel will normally do when these inputs activate GENERAL These inputs form part of the general operating functions of the panel Explanations for the definitions of these inputs and when they will appear on the panel may be found in the Aritech Analogue Addressable Faultfinding Guide The subtvpes are indicating what particular general status is of interest Access Fault Batterv Disconnected Batterv Test Failed Charger Fault Current Loop Device Fault Coincidence Common Condition Common Fault Common Fire Disable Earth Fault Emulation Disconne
30. he user to describe the function of this output Some outputs have predefines or self explanatory functions and will therefore have no definable user text Current Status Indicates whether this output is currently TRUE or FALSE this may be used for debugging and diagnostic purposes This state is updated every time the panel reads the output Latched Unlatched A selection to allow the programmer to decide whether this output will follow the status of the monitoring point unlatched or whether it will latch remain in the TRUE state once activated Trigger Mode The specific function of this output that will cause the output to change to the TRUE state Trigger Shape The shape of the output to be expected e g a transition from FALSE to TRUE and back to FALSE pulse or simply a transition from FALSE to TRUE continuous Log Status Optional depending on the output type The programmer may decide how the event processor of the panel handles this event Will the fact that the output changes to the TRUE state be logged in the event log or not and if so will it have any effect on the operation of the panel i e will it cause an alarm Some outputs have pre defined functions and therefore are not user definable 18 Aritech I O Programming Guide 6 2 Output Types The various output types are simply groups of outputs to make finding of the reguired output easier All outputs have been groupe
31. ing will be done using PCC2000 the Aritech Configuration software for programming Aritech fire panels The following examples are extracts from site programming of various sites and are based on the printed files from PCC2000 Example 6 Monitoring and controlling an FD2000 stand alone beam detector using 2 inputs and 1 output Scenario Fire and fault conditions have to be reported to the panel from the FD2000 The fire and fault states should be monitored and after a fire and or fault is reported from the FD2000 the FD2000 should be reset from the fire panel when the fire panel is reset or restarted Eguipment This is done by using a 21 10 unit connected to the panel For this example the device is connected on loop 2 device 126 and installed at or inside the FD2000 enclosure This is what the programming looked like Device Inputs Input Type Loop Device Channel Trigger Shape Mode Event Input Text 11 Dev Input 2 5 1 Unlatched Continuous Active Unlogged Fire signal from FD2000 12 Dev Input 2 5 2 Unlatched Continuous Active Unlogged Fault signal from SD2000 Action Inputs Input Type Function Trigger Shape Mode Event 4 Action Silence Buzzer Unlatched Continuous Passive Unlogged 13 Action Reset Latched Continuous Active Unlogged 14 Action Restart Latched Continuous Active Unlogged Zone Outputs Output Type Zone Function Trigger Mode Shape Event 11 Zone 12 Fire AUTO Latched Normal Continuous Unlogged 12 Zone 12 Fault Latch
32. it will always Know what this relay is in fact used for Logic Now we have to link our cause to our effect Figure 11 Input x Output y LOGIC TABLE 599 600 1 Input 2 Output 3 end User Panel Interface Line Alarms Quant Faults Quant Cond Quant P ID SDZ What does this say in English If the input at input table location x is true then make the output at output location y true So in our case If there is a common fire condition then switch the output on device loop 1 device 10 Simple logic as we see above has the effect of activating our output immediately when there is a fire Because we have inverted the output it will now deactivate when there is a fire Example 3 Activating an output on an input output unit with a delayed effect But what if we need a 10 seconds delay before activation using the same device as in the example above The fire panel can also do this for us via the logic programming with the use of a timer function The inputs and outputs are set up as we have seen in the previous example The logic now will look as follows Aritech I O Programming Guide Figure 12 Logic Table with timer LOGIC TABLE 1 Input 2 Timer 3 Timer 4 Output 5 end User Panel Interface Line Alarms Quant Faults Quant Cond Quant P ID SDZ What does this say in English If the input at input table location x is true then start timer z and time for 10 seconds Wh
33. ition Panel 3 Fire Panel 3 Condition Panel 4 Fire Panel 4 Condition Panel 5 Fire Panel 5 Condition Panel 2 Faul Panel 3 Faul Panel 4 Faul Panel 5 Faul These inputs are received on this panel from every other panel in the network so that they can be linked to the I O unit Note that the Output number on each transmitting panel is also specified Device Outputs Type Loop Device Dev Out 2 126 Dev Out 2 126 Dev Out 2 126 Channel 1 3 2 Linked to Logic Logic Logic Trigger Latched Unlatched Unlatched Mode Normal Normal Normal Shape Continuous Continuous Continuous These are the physical outputs on the 3 channel I O unit Logic Operator or or or or or or Operand inpu inpu inpu inpu inpu output inpu inpu inpu inpu inpu timer timer output inpu inpu inpu inpu Aritech I O Programming Guide Number Time 1 4 7 10 13 4 3 6 9 12 15 4 4 2 20 60 61 62 180 Event Unlogged Unlogged Unlogged Output Text Report Fire Report Condition Report Fault gt All the Fire alarms in the system or ed together gt All the Conditions in the system or ed together Output delayed for 3 minutes gt All the Faults in the system or ed together 33 34 Line Operator Operand Number Time 19 or input 63 20 output 3 21 end And all that remains is to simply link all the inputs to their correct outputs on the 3 channel I
34. ividual inputs but will act on the combined state of all the inputs linked to this output E g Input 1 and Input 2 Output 1 Here the following scenarios mav take place Input 1 is false Input 2 is false then Output 1 will be false Input 1 is false Input 2 is true then Output 1 will be false Input 1 is true Input 2 is false then Output 1 will be false Input 1 is true Input 2 is true then Output 1 will be true 3 2 2 Or The or function is a function that allows for an output to be dependent on everv individual input and will act on the individual state of everv inputs linked to this output E g Input 1 or Input 2 Output 1 Here the following scenarios mav take place Input 1 is false Input 2 is false then Output 1 will be false Input 1 is false Input 2 is true then Output 1 will be true Input 1 is true Input 2 is false then Output 1 will be true Input 1 is true Input 2 is true then Output 1 will be true 3 3 Rules of the Aritech logic programming There are only a few rules that apply to the fire panel s input output and logic table Some of the rules are essential for the correct operation of the panel but others are recommended only for ease of use and debugging There are as always also some exceptions to some rules but these will be handled separately in the Advance Programming section Section 7 of this manual The basic programming rules are as follows 1 A specific input should only be defined once in the Inp
35. l Go to the output number programmed in 2 above as the Panel output number Configure this as a supervised device output since we are working with a sounder controller here The device location here will of course refer to the connected position of this sounder and will match the address referred to in 2 above Ensure that this output is unlatched else it cannot be switched off without a reset from the fire panel Figure 24 Panel Output configuration FP2000 Front panel emulation OUTPUT DEFINITION State false Output 100 Triq unlatched Type Sup a Mode normal Addr 2 3 continuous unlogged more s lt gt E Alarms 0 Faults 2 Con Bit GENERAL i CONTROLS SOUNDERS 5 Go to the logic table and link the input in 3 and the output in 4 together Aritech I O Programming Guide Figure 25 Panel Logic configuration FP2000 Front panel emulation LOGIC TABLE 9 Input 10 Output 100 Bati Avy 745 B X Alarms 0 Faults 2 Cond 0 P 2 SDZ M FIRE BRIGADE li GENERAL ff J CONTROLS N SOUNDERS We J Exit all menus ensure that you have no faults on the panel and you re ready to go This icon will now allow the status from the ICC panel 2 loop 2 device 3 in this case to be displayed but will also monitor the true false state of output 100 on panel two showing whether this output is in fact active or not Simply right click on the device to turn the output on or off The status is upda
36. le and Logic Table programming for the Aritech Addressable and Analogue Addressable fire detection panels Other reference manuals that mav be consulted are FP2000 1200 1100 Reference Guide FP2000 1200 1100 Installation and Commissioning Manual FP2000 1200 1100 User s Manual 900 Series Installation Guide 2000 Series Installation Guide 2 HOW TO USE THIS GUIDE Logic programming on the Aritech fire panel is divided into 3 main categories Inputs Outputs and Logic Inputs can be defined as the cause of an action outputs as the effect of this action whilst the logic is the mechanism to connect the cause to the effect Figure 1 Input Output Menu INPUT OUTPUT 1 Inputs Outputs 3 Logic CL Devices 5 Timers Markers User Panel Interface Line Alarms Quant Faults Quant Cond Quant P ID SDZ The functionality of these tables is indicated on the fire panel LCD display as follows Note The boldface items indicate the important information that the user has to supply for the panel Depending on the specific input output or logic type some fields may not be reguired or may not be available Aritech I O Programming Guide 2 1 Inputs Figure 2 Input Menu INPUT DEFINITION State Current Status Input Input Number Trig Latch unlatched Tvpe Input Tvpe Mode Trigger mode Fct Input Subtype Trigger shape Channel Input channel No Event Log status User Definable
37. lways know what this relay is in fact used for Figure 19 Device Output OUTPUT DEFINITION Output z Type Device Output Addr 2 12 10 Chan 2 User Definable Text User Panel Interface Line Alarms Quant Faults Quant NOTE If we want we may even add Cond Current Status unlatched inverted continuous Log status P ID SDZ Ouant user text to this output to describe what its function is This way it will always know what this relay is in fact used for Logic 30 Now we have to link our cause to our effects Aritech I O Programming Guide Figure 20 Logic Table LOGIC TABLE 1 Input 2 Output 3 Input A 5 Output User Panel Interface Line Alarms Quant Faults Quant Cond Quant P ID SDZ What does this say in English If the input at input table location x is true then make the output at output location y true If the input at input table location x is true then make the output at output location y 1 true So in our case If there is a fire in Zone 5 then switch the first relay on the 102032 on address 2 12 If there is a fire in Zone 5 then switch the second relay on the 102032 on address 2 12 The fact that Relay 1 is set to pulse and relay 2 is set to inverted in the Output Table means that we don t have to worry about this in the logic Aritech I O Programming Guide 31 8 ADVANCED PROGRAMMING Most advanced programm
38. ly makes no difference We will discuss the Inputs and Outputs in the table later on in this manual Note The true and false flags of the inputs and outputs are indicated in the top right hand corner of every input and output screen on the panel Refer to state in Figure 2 and Figure 3 above This does not necessarily mean that the input is on or of but rather whether it is triggered or not This will become clearer when we discuss the inputs and outputs later on in this manual 3 1 Basic Logic Basic Logic programming consist of the simple function Variations of this function are available but they will be treated in the Advanced Programming section of this manual See Section 7 3 1 1 The function is a function that allows for an output effect to be dependent on an input cause and will only act on the state of this input E g Input 1 Output 1 Here the following scenarios may take place Input 1 is false then Output 1 will be false Input 1 is true then Output 1 will be true 6 Aritech I O Programming Guide 3 2 Boolean Logic Apart from the simple function the fire panel employs just two basic logic functions and and or Variations of all these functions are available but they will be treated in the Advanced Programming section of this manual See Section 7 3 21 And The and function is a function that allows for an output to be independent on the ind
39. red to be a complete function ending with a Any function after this has to again comply with rule 3 above If not this will be flagged as a fault condition and will cause the panel to suspend all logic functions until the error is corrected Refer to the Faultfinding Guide for further information on this fault In a single logic function there should be just as many closed brackets as there are open brackets For example Complex functions functions within functions are allowed in the logic See section 7 such as Input 1 or Input 2 and Input 3 Output 1 This function consists of two open brackets and two closed brackets and is therefore complete If a bracket is left out this will be flagged as a fault condition and will cause the panel to suspend all logic functions until the error is corrected An output should never be defined as an output function more than once in the logic table For example If a situation situations arises where more than one inputs have to trigger a single output the two inputs should be linked to the output in the logic using a single function with and or or If every input is linked to this output separately only the last function the function with the highest logic number referring to this output will activate the output This is not flagged as a fault condition and can cause rather big programming problems Outputs should always be inserted in the logic t
40. ritech I O Programming Guide 15 5 1 5 INTERNAL These inputs form part of the internal inputs of the panel These inputs are located on the FEP2000 and the SD2000 PCB s on the back panel electronics of the panel Refer to the various Installation and Commissioning manuals for more information on these inputs The subtypes are indicating what PCB this input is located on and what particular input on this PCB is of interest both the FEP2000 and the SD2000 have multiple inputs Board Number Input Channel 5 1 6 TIME These inputs are generated from the internal real time clock of the panel The subtypes are in hour minute format Time hh mm Day day of the week 5 1 7 DEVICE INPUT These inputs are generated by Input Units connected to the detection loop of the panel 77 Note Do not confuse these with the inputs generated by the detection devices connected to the detection loop of the panel See section 5 1 8 The subtypes are indicating where the I O Unit is and what input channel in cases where a multi channel I O unit is used is of interest Device Number Input Channel 5 1 8 DEVICE These inputs are generated by the detection devices connected to the detection loop of the panel Note Do not confuse these with the inputs generated by the Input Units connected to the detection loop of the panel See section 5 1 7 The subtypes are indicating where the device is and what state of this d
41. s to Each input group will have different subtvpes The input group is only used to sort the input tvpes to make location of the required input easier Input Sub Tvpe This defines the specific function of the selected input group Input Channel Number Optional depending on the input tvpe Should the specific input unit allow for more than one phvsical input the specific input used will have to be defined here User Definable Text Optional depending on the input tvpe Text that allows the user to describe the function of this input Some inputs have predefined or self explanatorv functions and will therefore have no definable user text Current Status Indicates whether this input is currently TRUE or FALSE this may be used for debugging and diagnostic purposes This state is updated every time the panel reads the input at least once ever 10 seconds Latched Unlatched A selection to allow the programmer to decide whether this input will follow the status of the monitoring point unlatched or whether it will latch remain in the TRUE state once activated Trigger Mode The specific function of this input that will cause the input to change to the TRUE state e g activated passive open circuit or short circuit Trigger Shape The shape of the input to be expected e g a transition from FALSE to TRUE and back to FALSE pulse mode or simply a transition from FALSE to TRUE continuous mode Lo
42. ted on the screen about once every 10 seconds For the second scenario we will not use an icon that will show the status of the device but simply whether the output is on or off when controlled from the PC Here we will use the fan icon to show and switch an output on the SD2000 in the panel On the PC 1 Place the icon from the Input configuration of the I O Toolbar Any icon from this input toolbar will do the same thing Aritech I O Programming Guide 37 38 Figure 26 Control Monitor icons Select icon size O16 Ou 32 Navigation Others Retrieve Data Exit Config Mode 2 Configure the icon on the PC as reguired Normally one will monitor the same input that we are switching but this is at your own discretion Figure 27 Control Monitor configuration INPUT CONFIGURATION This section determines the input that will be monitored on the Node 0 1 gt Input number 5 panel and that will determine the state of this icon PC output number Network input number sl OK Cancel This section determines where this output will be sent to Switchable M On the panel 3 Go to the input table of the panel Go to the input number referred to in the panel input in 2 2 above Configure this input as a network input The Node ID here will of course refer to the PC ID and the output number will refer to the PC output number programmed in 2 2 above Ensure that this input is
43. ut table For example If I want to use a specific input to trigger more than one output I should use the logic table to link the input to these outputs in stead of defining the input more than once in the input table to match the number of outputs This is not necessarily flagged as a fault condition UNLESS the inputs are configured differently in the options for the 2 inputs It is however recommended avoiding this configuration to eliminate later problems 2 A specific output should only be defined once in the Output Table For example If I want to use more than one input to trigger a single output I should use the logic table to link these inputs to the output in stead of defining the output more than once in the output table This is not necessarily flagged as a fault condition UNLESS the outputs are configured differently in the options for the 2 outputs It is however recommended avoiding this configuration to eliminate later problems 3 Every logic function should start with a For example Aritech I O Programming Guide 7 Input 1 Output 1 is considered to be a complete function starting with a If not followed this will be flagged as a fault condition and will cause the panel to suspend all logic functions until the error is corrected Refer to the Faultfinding Guide for further information on this fault A logic function always ends after a sign For example Input 1 Output 1 This is conside
44. uts effects for the panel are defined in a table called the Output Table The size of this table is the same as for the Input Table and is therefore also adjustable in the memory configuration of the panel By default there will be 150 available outputs for the user but this may be expanded as reguired to a maximum number of 999 In order to link the specific cause in the Input Table to a specific effect in the Output Table some sort of mechanism needs to be used The mechanism for linking cause to effect Inputs to Outputs is called a Logic Table The logic table has the function of taking the specific input number defined in the input table and linking it to a specific output number in the table The size of this table is also adjustable in the memory configuration of the panel By default there will be 600 available lines of logic but this may be expanded as required to a maximum number of 1999 In addition to just linking inputs to outputs certain special functions may also be implemented in the logic to allow for complex functionality and timing functions These are done in the form of Boolean logic markers and timers These functions will all be discussed in greater detail later on in this document Note Remember that the numbers in the sections below refer to the table number in the input and output table At this point we are not interested in what is actually entered in these tables since for the operation of the logic it real
45. y definition this means that there will also be an input somewhere in the system from the Fire Panel Network Using this function will allow inputs and outputs to be sent between fire panel nodes on the same network The subtypes are Indicating where the input is located in the network Node ID xx xx Input Number 1 999 6 2 9 CURRENT LOOP DEVICE These outputs are located on the devices connected to the Current Loop network of the panel The subtypes are Indicating what current loop device the output is located on and what output on this device is of interest all current loop devices have multiple outputs Current Loop Device Number Output Number Link to Sounders General Zone or Area Fire Brigade General Zone or Area Fault Routing General Zone or Area Fire Protection General Zone or Area Logic 6 2 10 CURRENT LOOP SUPERVISED These outputs are located on the devices connected to the Current Loop network of the panel The subtypes are Indicating what current loop device the output is located on and what output on this device is of interest all current loop devices have multiple outputs Note Aritech have not produced any supervised current loop devices This output definition is therefore NOT CURRENTLY SUPPORTED It is only for future use Current Loop Device Number Output Number Link to Sounders General Zone or Area Fire Brigade General Zone or Area Fault Routing

FP2000 IO Programming Guide

Contents

Download Pdf Manuals

Related Search

Related Contents