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VISTVISTVISTVISTVISTA 25 UKA 25 UKA 25 UKA 25 UKA 25 UKENGINEERSENGINEERSENGINEERSENGINEERSENGINEERS
MANUMANUMANUMANUMANUALALALALAL
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ContentsSECTION 1: WIRING AND SAFETY INFORMATION ................. 1General ..................................................................................................1Siting .....................................................................................................1
Fixing .................................................................................................... 1
Ventilation .............................................................................................1
Cabling ..................................................................................................1Mains Supply Connections .................................................................2
Cable Type ............................................................................................3
Fuses .....................................................................................................3
Equipment Electrical Rating ...............................................................3Batteries ................................................................................................3
SECTION 2: INSTALLING THE VISTA 25 .................................. 5Fixing the Cabinet ................................................................................5
Installing The Remote Keypad............................................................6
Programmable Output Triggers .......................................................... 8External Bell Connections ................................................................................... 9Summary of Main PCB Connections ............................................................... 10
Telephone Line Installation ............................................................... 12
SECTION 3: OPTIONAL MODULES ........................................ 154208-2 Expander Module ................................................................... 154204 Relay Module ............................................................................. 18
4110SM Speaker Module ................................................................... 20
SECTION 4: PROGRAMMING THE VISTA 25 ......................... 21General ................................................................................................ 21Entering / Exiting Program Mode ..................................................................... 21Programming Format ....................................................................................... 21Defaults ............................................................................................................. 21Software Version ............................................................................................... 21
Programming Fields .......................................................................... 22Entry/Exit .......................................................................................................... 22
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Output Options ................................................................................................. 22Field 89 programming ...................................................................................... 24Engineer ............................................................................................................ 26User Access Rights .......................................................................................... 26Zone Programming Options ............................................................................. 27Zone Responses ................................................................................................................. 27Zone Options .................................................................................................... 28Communication ................................................................................................ 30High Speed Format .............................................................................................................. 30Contact ID Format ............................................................................................................... 30Alpha-Numeric Keypad - Text Programming .................................................... 34Zone Descriptors ................................................................................................................. 34Custom Words .................................................................................................................... 34Library ................................................................................................................................. 35Zone Response Definitions ............................................................................... 39Output Type Definitions .................................................................................... 39
SECTION 5: PROGRAMMING RF DEVICES .......................... 43Introduction ........................................................................................ 43Walk Testing RF Devices .................................................................................. 43Clearing Tampers from RF Devices ................................................................. 43Range................................................................................................................ 44Battery Life ........................................................................................................ 44
Configuring Keyfobs onto a 6128 RF-UK Keypad .......................... 44Initialising the RF Keypad ................................................................................. 44Enrolling the Keyfobs ........................................................................................ 45RF Keypad User Programme Mode ..................................................................................... 45
Programming Vista 25 RF Options ................................................... 46Ö/# 28 Receiver Jammed Responses ............................................................................... 46Ö/# 38 Detector Low Battery Responses ....................................................................... 46Ö/# 42 Supervision Time Window ..................................................................................... 46Ö/# 43 RF Zone Programming ........................................................................................... 47Ö/# 47 Supervision Fail Responses .................................................................................. 48
SECTION 6: OPERATING THE SYSTEM ............................... 49Setting and Unsetting the System ..................................................... 49Full Setting the System ..................................................................................... 49Part Setting the System .................................................................................... 49Unsetting the System ....................................................................................... 49Area Setting ...................................................................................................... 49Setting the System with a Mains Fail or a Line Fail ......................................... 49
Resetting After an Alarm.................................................................... 50Bypassing Zones ................................................................................. 50
Programming User Codes .................................................................. 51
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Panic Alarm ........................................................................................ 51
Fire Alarm ........................................................................................... 51
Duress .................................................................................................. 52
Chime .................................................................................................. 52Testing the system .............................................................................. 52
Setting the Time and Date ................................................................. 52
Viewing the Event Log ....................................................................... 53
Printing the Event Log ....................................................................... 53Troubleshooting .................................................................................. 54
APPENDIX A: SPECIFICATIONS ............................................. 59Vista 25 Control Panel ........................................................................ 59Physical ............................................................................................................ 59Electrical ........................................................................................................... 59
6139 Full Text Keypad ........................................................................ 59Physical ............................................................................................................ 59Electrical ........................................................................................................... 59
6128UK Fixed Text Keypad ................................................................ 59Physical ............................................................................................................ 59Electrical ........................................................................................................... 59
4208 - 2 Expander Module ................................................................. 60Physical ............................................................................................................ 60Electrical ........................................................................................................... 60
4204 Relay Module ............................................................................. 60Physical ............................................................................................................ 60Electrical ........................................................................................................... 60
RF Devices .......................................................................................... 60
APPENDIX B: EVENT LOG AND CONTACT ID CODES ....... 61
ADEMCO LIMITED WARRENTY ............................................. 63
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SECTION 1:SECTION 1:SECTION 1:SECTION 1:SECTION 1: WIRING WIRING WIRING WIRING WIRING ANDANDANDANDAND SAFETY INFORMA SAFETY INFORMA SAFETY INFORMA SAFETY INFORMA SAFETY INFORMATIONTIONTIONTIONTION
GeneralGeneralGeneralGeneralGeneralIt is essential that this product is installed correctly, in particular with respect to apersons safety and connection to the mains electricity supply.
This product is not suitable for installation, maintenance or connection by the user;installation and maintenance must be carried out by a competent, qualified installer,for example, BS5750 or NACOSS approved.
It is a condition of the product’s approval that the installer complies with the following:
SitingSitingSitingSitingSitingThe control panel must be sited indoors in a secure area where it cannot be readilyinterfered with. The location must have adequate ventilation, ample light and easyaccess for servicing and maintenance. It is not suitable for siting externally or in harshenvironments where it could be subject to high humidity, extremes of temperature,chemical atmospheres, high dust levels, or in a position where it may be subject todripping or splashing by water or other fluids.
FixingFixingFixingFixingFixingThe control must be securely fixed to a vertical, smooth, solid surface which is part ofthe fabric of the building. The position chosen must allow the cabinet door to beremoved and allow unhindered access for installation and maintenance.
VVVVVentilaentilaentilaentilaentilationtiontiontiontionWhile the control panel has been designed so that no part reaches an unsafetemperature it is important that adequate ventilation is provided around the cabinet.Heat-radiating equipment or sources of heat should therefore not be positioned closeto the cabinet.
CablingCablingCablingCablingCablingThe product has high voltage barriers between the mains supply (excessive voltage),the alarm wiring terminals (separated extra low voltage) and the telephone line terminals(telecom network voltage). It is essential that these barriers are maintained in the waythe cables enter the cabinet, are routed inside the cabinet and are routed externally.
Knockouts, rear entry points and a trunking point are provided for cable entries;additional holes must not be cut in the enclosure. Where necessary, the cable must beprotected at the entry point by the use of grommets. The cables external to the cabinetmust be either firmly affixed to the fabric of the building using suitable clips or saddles
or mechanically protected in conduit or trunking. Alarm system cables must not beallowed to loop inside the cabinet – they must be neatly trimmed. It must not bepossible to put strain on the wiring within the control cabinet by pulling on cablesexternal to the cabinet.
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Knockouts or the trunking entry point must only be removed if cables are to enter thecabinet at that point. The hole must be covered by the trunking or conduit or bymeans of a blanking grommet.
It must not be possible to push a finger or similar size object or instrument into anyhole or cable entry point.
Mains SupplMains SupplMains SupplMains SupplMains Supply Connectionsy Connectionsy Connectionsy Connectionsy ConnectionsNote: This apparatus must be earthed.The connection to the a.c. mains supply must be made by a competent, qualifiedperson, e.g. NICEIC approved, in accordance with the current IEE and local supplyregulations.
The earth impedance of the mains input earth must be verified.
A means of isolation from the mains supply must be provided within 2 metres of thecontrol. This is normally a switched fused spur fitted with a 3 A fuse.
Where a flexible cable is connected to the control panel having cores colouredgreen/yellow, brown and blue, it is important to connect the wires according to thefollowing code:
Green/yellow: Earth – connect to terminal marked EBlue: Neutral – connect to terminal N
Brown: Live – connect to terminal L
Where a non-flexible cable is connected to the control having cores coloured red,black, and a green/yellow sleeve covering the earthing conductor, it is important toconnect the wires according to the following code:
Green/yellow: Earth – connect to terminal marked EBlack: Neutral – connect to terminal N
Red: Live – connect to terminal L
The insulation of each conductor must be prepared and connected so that no part ofthe bare conductor is visible or protruding outside the terminal block. In the case ofstandard conductors, all the strands should be twisted together and firmly clampedin the terminal. Each of the wires must be cut to a length such that if the cable slipsout of the cable clamp and is strained, the live conductor will become taut before theconductor that is connected to the protective earth terminal. The outer coveringinsulation must be clamped under the cable clamp provided. It is important that thiscable enters the control panel enclosure through the mains entry hole provided, isnot looped within the control panel enclosure and does not run close to other systemcables inside or external to the enclosure.
The cover of the control panel enclosure must not be opened before isolating themains supply. The green Power LED indicates the presence of a.c. mains supply. Thecover must be securely fitted in normal use.
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Cable TypeCable TypeCable TypeCable TypeCable TypeThe conductors of the mains supply cable must have a minimum cross-sectional areaof 0.75 mm and the insulating material on each conductor must be a minimum of 0.4 mmthick Polyvinyl Chloride (PVC). Flexible cables must conform to the requirements ofBS6500 and IEC Publication 227. Non–flexible electrical installation cables must con-form to BS6004 and the earth continuity conductor must be covered with a green/yellow sleeve where it leaves the outer sheath.
FusesFusesFusesFusesFusesThe mains fuse within the cabinet is rated at 2 A.
The mains supply must be disconnected before opening the cabinet and changingthe fuse. Replace mains fuse with the same type and rating, that is:
Rating: 2 A anti-surge (T).Construction: Glass or ceramic (sand filled) cartridge.Dimensions: 25 mm length, 5 mm diameter.
Conformance: BS EN 60127-2 and IEC127-2.
Equipment Electrical REquipment Electrical REquipment Electrical REquipment Electrical REquipment Electrical RaaaaatingtingtingtingtingThe control equipment is designed to operate on a UK mains supply of 230 Voltsa.c. at a frequency of 50 Hz (230 V +10% – 6%, as stated in the IEE publicationCommentary on BS7671:1992 Requirements for Electrical Installations). It is notsuitable for other types of supply. The maximum current consumption in normaluse is 80 mA.
BaBaBaBaBatteriestteriestteriestteriestteriesThe battery used with the control panel must be a 12 V sealed lead-acid recharge-able battery of up to 7.2 Amp-hour capacity. The battery must be positioned on thebattery shelf. The battery leads must be connected to the battery observing the polar-ity and not allowed to hang near the mains terminal block .
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SECTION 2:SECTION 2:SECTION 2:SECTION 2:SECTION 2: INST INST INST INST INSTALLING ALLING ALLING ALLING ALLING THETHETHETHETHEVISTVISTVISTVISTVISTA 25A 25A 25A 25A 25
Fixing the CaFixing the CaFixing the CaFixing the CaFixing the CabinetbinetbinetbinetbinetThe enclosure base should be fixed to the mounting surface as follows:
1. Remove the enclosure lid by unscrewing the two fixing screws, sliding thelid upwards past the bottom lip and easing it away from the base.
2. Mark the position of the two mounting holes and keyhole slot on the mountingsurface.
Figure 2.1 Enclosure Layout
3. Position the control panel enclosure on the mounting surface using the keyholeslot in the enclosure base.
4. Bring the cabling into the enclosure via the appropriate cable entry points.The entry points for the a.c. mains and telephone cables are marked in Figure
Cable entry points
Keyhole slot
Knock-outs (on underside)
Mainsentrypoint
LEN
Mounting holes
Fuseterminalblock
Telephoneentrypoint
Zone terminals
Outputtriggers
Telephone line
Vista 25 Printed Circuit Board
Bell tamper
Transformer
Mains fuse
Knock-out (top)
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2.1 Enclosure Layout. Other cabling can be brought in via the four cable entrypoints on the back-plane or through the knockouts on the underside andtopside of the enclosure.
5. Secure the enclosure base firmly in place using the two mounting holes, 1.5” xNo. 8 screws are recommended. It is strongly recommended that toggle orbutterfly fixings are used if the mounting surface is a cavity wall.
Installing Installing Installing Installing Installing TTTTThe Rhe Rhe Rhe Rhe Remote Kemote Kemote Kemote Kemote KeeeeeypadypadypadypadypadA maximum of four remote keypads can be connected to the system. Any of thefollowing keypads can be used:
• 6128 UK fixed text • 6128 IR • 6139 full text
RF Keypad InstallationThe 6128 RF-UK keypads act as RF receiver units for any RF detectors on the system.They are hardwired into the system bus and act as an interface between the RFdevices and the Vista 25 control panel.
Two 6128 RF-UK keypads can be used on the system. The first keypad must have areceiver address of 4 and the second keypad must have an address of 5. Both keypadscan be physically connected to the same keypad bus or one on each bus. All keypadsmust have a keypad address of 31.
The receiver on an RF keypad functions for all detectors in both partitions regardlessof the partition the receiver keypad is connected to. However the keypad itself belongsonly to the partition in which it is situated.
When using two 6128 UK-RF keypads, any transmission may be received by either orboth receivers. This provides greater area coverage and reduces “Dead Spots”. Formore information on partitions see Wiring the Keypad.
The receivers are dual diversity (two aerials). This also facilitates the elimination ofdead spots.
It is strongly recommended that:
• RF keypads are mounted at least 1 metre from the control panel.• RF detectors are mounted at least 1 metre away from the RF receiver keypads.
Mounting the KeypadCare should be taken when selecting the mounting location and height of the keypad.The keypads should not be mounted directly under a light source and should beslightly below eye level for optimum viewing.
1. Remove the back case by pressing down the two snaps on the keypads upperedge while carefully pulling the two halves of the case apart.
2. Route the wiring from the control panel through the opening in the back of thecase.
3. Attach the back case to the mounting surface.4. If using the 6139 keypad, plug the supplied flying lead connector into the
keypad PCB socket. If using the 6128 keypad, wire the four cores into the 4way terminal block on the back of the keypad.
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Wiring the KeypadThe Vista 25 PCB has two keypad buses. The bus 1 connections are on the terminalstrip on the left side of the board (Data In, Data Out, +12 V, –12 V). Bus 2 is located tothe left of the main processor – connector labelled PLC. If the system is programmedfor one area (partition) then all keypads should be connected to Bus 1. If the systemhas two areas then the Area 1 keypads must be connected to Bus 1 and the Area 2keypads to Bus 2 (using the supplied wiring loom). The keypad wiring convention isshown in Table 2.1. The control panel connections refer to either Bus 1 or Bus 2,depending on whether the keypad is for Area 1 or 2.
A maximum cable run of 300 metres is advised. This is the total length of all keypadcabling for the system.
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nIataD nIataD neerG
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Tamper TamperAlarm Alarm
Zone 6 Zone 5
13 14 15 16 17 18 19 20
Figure 2.2 Zone Wiring
The zones can also be configured for normally open devices. This is done by leavingthe alarm and tamper links fitted across the zone terminals and wiring the normallyopen contacts across the pair of links. This is shown in Figure 2.3 Normally OpenZone.
Table 2.1 Keypad Wiring.
Zone WiringThe standard system supports up to 8 wired zones. These zones are double-pole,normally closed alarm and tamper loops. An additional tamper zone (zone 9) isincluded on the main board for the external bell tamper. The system can also beexpanded to 24 zones - for details see Section 3: Optional Modules. Figure 2.2 ZoneWiring shows correct N/C wiring.
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PLA
PROGFAULTTAMPBURGPANICFIRE
1
Figure 2.3 Normally Open Zone
RF Zone WiringIf a zone number has been programmed to use an RF detector via a 6128 RF-UKkeypad the zone terminal for that address is still active and should be linked out usinga zero ohm (0 Ω) link.
Note: If the zone address is on a 4208-2 expander module that has been programmedinto the system in field 89 but is not physically connected to the system noproblems will occur.
PrPrPrPrProoooogggggrrrrrammaammaammaammaammabbbbble Output le Output le Output le Output le Output TTTTTrigrigrigrigriggggggererererersssssSix programmable output triggers are available on the terminal strip marked PLA. Thetext adjacent to the strip refers to the default response of each trigger - see Figure 2.4Output Triggers. These can be reprogrammed as required - see Output Options inprogramming section. The output polarity defaults to positive removed (negativeapplied), i.e. the voltage is normally +12 V, dropping to 0 V when the trigger is active.The polarity can be reprogrammed if required. A maximum current of 5 mA can bedrawn from each trigger.
Figure 2.4 Output Triggers
Wiring an Exit Terminate Button (Push-to-Set)A momentary Exit Terminate button can be connected to any zone programmed asPush Button Set. If using a normally closed button the contacts should be wiredacross the alarm contacts of the zone and the tamper contacts should be linked out.If using a normally open button both the alarm and tamper links should be fittedand the normally open switch contacts wired across the links. Figure 2.5 Exit Ter-minate Wiring shows both configurations for an Exit Terminate button on zone 4.
Tamper Alarm
Zone 6
13 14 15 16
Normally OpenDevice
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Table 2.2 Connections for SABs. Table 2.3 Connections for Bell/Strobe.
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)-pmaT(9enoZ ffodloh/ylppuSevitageN
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-BTS reggirtevitagenebortS
Zone 9
SW-2
12V+3 41
STB- BELL-TamperReturn
0V
Bell neg. trigger
Strobe neg. triggerSupply +
Tamper return
Supply -Tamper in
SAB
Figure 2.6 SAB
SW-2
12V+3 41
STB- BELL-
Bell
Strobe + -
Zone 9
TamperReturn
0V
+
-
c
n/cn/o
Figure 2.7 Bell / Strobe
lenaPlortnoC ebortS/lleB
+V21 evitisopebortS&lleB
-LLEB evitagenlleB
)-pmaT(9enoZ nommochctiwsrepmaT
)teRpmaT(9enoZ C/NhctiwsrepmaT
-BTS evitagenebortS
Normally - closed
Alarm
Tamper
24
21
22
23
Figure 2.5 Exit Terminate Wiring
External Bell ConnectionsConnections for Self Actuating Bells (SAB) and Bell/Siren modules should be madewith reference to Tables 2.2 and 2.3. These connections are illustrated in Figure 2.6and Figure 2.7.
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Summary of Main PCB ConnectionsBattery / Ground TerminalsGND Equipment Ground Terminal - connection must be intact at all times.
BATT- Battery Negative - Connect to the -ve (black) terminal of the battery.
BATT+ Battery Positive - Connect to the +ve (red) terminal of the battery.
Output Triggers (default allocation)
1. Fire trigger2. Panic trigger3. Alarm (Intruder) trigger4. Tamper trigger - responds to tamper alarms when the system is unset. When
full set, a tamper alarm activates the Alarm output trigger.5. Fault trigger - responds to low battery, mains fail, memory checksum
failure and watchdog reset.6. Programme trigger - activates when programming mode is entered.
Power / Keypad TerminalsAC These two terminals connect to the 13 V a.c. output of the mains
transformer. They are not for direct connection to the mains supply.
Data Out Connects to the Data Out (yellow) terminal of the Area 1 keypadsand the Data Out connections on expansion modules or relay outputmodules, if fitted.
Data In Connect to the Data In (green) terminal of the Area 1 keypads and theData In connections on any expansion module or relay output module,if fitted.
12 AUX Auxiliary 12 V supply - two pairs of terminals are available forconnection of remote keypads and auxiliary fused devices.
Note: Area 2 keypads should be connected to the terminal strip marked “Area 2Keypads” in Figure 2.8 PCB Connections. A four wire loom is provided forthis purpose. The same wiring convention as Area 1 should be followed.
Bell / Zone / SW- terminals1. Switched Negative Supply - This output can be programmed as:
(a) Negative supply for smoke detectors or other latching devices whichrequire the interruption of the supply to reset. The output is normally0 V switching to +12 V for 6 seconds on the second entry of Code + Offafter an alarm condition. The output can also be activated at any point inthe unset state by pressing the Ö and 1 keys together.
(b) Printer data output for a serial printer.(c) Sounder output.
2. Strobe negative - for connection with external strobe negative.3. Positive bell / strobe supply - common positive, limited by fuse to 1 Amp
maximum (labelled F3 in Figure 2.8 PCB Connections).
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4. External bell negative - for connection with switched negative triggeron external bell or SAB switched negative trigger.
5 - 36. Alarm zones 1-8 - wired as standard double poll zones.ZONE 9 Used for external bell tamper and the on-board cabinet tamper switch.Telephone line - for connection to a NTE5 masterplan line box.
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TTTTTeleeleeleeleelephone Line Installaphone Line Installaphone Line Installaphone Line Installaphone Line InstallationtiontiontiontionBefore connecting the telephone line, ensure that the system has been correctlyinstalled as detailed herein and that the cable routing has been carried out as advised.Remove the connection to the AC supply by switching off at the external fuse spur orthe circuit isolator. Remove the control cabinet cover, as outlined in Fixing the Cabinet,and ensure that the mains indicator on the main PCB is off. Do not attempt to continueif the mains supply is still present within the control. Disconnect the battery leads andremove the battery from the cabinet.
WiringA connection is provided on the Vista 25 for an ex-directory standard PSTN telephoneline. This connection must be made to an NTE5 master socket (line box). It is stronglyrecommended that no telephones or related equipment should be connected to thesame telephone line. The connection to the telephone line terminals must only bemade by an approved installer. The wiring must be mechanically protected external tothe cabinet and must enter via the telephone entry point shown in Figure 2.1 EnclosureLayout. It must not enter the cabinet by any other point.
The unit is not suitable for connection to a payphone or shared service line and it isnot suited for use with PABX or other types of external exchange. It is intended tointerface directly with PSTN lines with loop disconnect (pulse dial) or multi-frequency(DTMF) signals.
The unit has been approved for the use of the following facilities: modem; loopdisconnect signalling; multi-frequency signalling; auto calling; auto answering. Anyother usage will invalidate the approval of the apparatus and it will cease to conformwith the standards against which the approval was granted.
The telephone cable must conform to the requirements of BT specification CW1308.This cable uses a single strand conductor of 0.5 mm CSA and the wires are configuredin twisted pairs. A suitable cable from RS components is code 368-413 (2 pair cable).Alarm or any other type of cable must not be used. Communications must only bemade to an NTE5 master socket (line box) user port or an extension correctly connectedto the master socket. Where terminals use insulated displacement techniques, a specialterminal tool must be used.
Instructions and wiring call code given in OFTEL wiring code Part 1 must be followed(see Figure 2.9 Telephone Line Connections) i.e.
Terminal A – White wire with blue rings – NTE5 terminal 5.
Terminal B – Blue wire with white rings – NTE5 terminal 2.
Terminal BC –Orange wire with white rings – NTE5 terminal 3.
RENThe Ringer Equivalence Number (REN) is a guide to the maximum number of items ofapparatus which may be connected simultaneously to the telephone line. The totalREN is obtained by adding up the REN values of each item of equipment connectedto the exclusive line. Any BT approved instrument is assumed to have a REN of 1.0unless it is otherwise marked.
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The REN of the Vista 25 is 0.5. If the panel is connected to a telephone line withadditional telephone apparatus connected then the total REN of the additional ap-paratus must not exceed 2.5. The Vista 25 is intended to be connected to an exclu-sive line and it is strongly recommended that no other apparatus should is con-nected.
WarningThe approval of this equipment for communication to the PSTN is invalidated if theapparatus is subject to any modification in any material way not authorised byBABT or if it is used with or connected to any of the following:
1. Internal software that has not been formerly accepted by BABT.2. External control software or external control apparatus which causes the
operation of this equipment or associated call set up equipment to contravenethe requirements of the BABT standards. (BABT/SITS/82/005S/D).
Completion of InstallationReplace the control cabinet cover and tighten the two fixing screws. Restore themains supply to the control. Programme the communication parameters beforeattempting communication.
Approval
Your attention is drawn to the approval labels which are fixed to the outsideand inside of the control cabinet. This approval number must be quoted whenapplying to connect the product to the PSTN, when ordering a telephone lineor an extension to an existing line or in any communication with the telephonesupply authorities. These and other warning labels must not be removed fromthe product.
Figure 2.9 Telephone Line Connections
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SECTION 3:SECTION 3:SECTION 3:SECTION 3:SECTION 3: OPTION OPTION OPTION OPTION OPTIONALALALALALMODULESMODULESMODULESMODULESMODULES
4208-2 Expander Module4208-2 Expander Module4208-2 Expander Module4208-2 Expander Module4208-2 Expander ModuleThe Vista 25 can be expanded by a maximum of two 4208-2 expander modules. Eachmodule contains an additional eight zones and four outputs, giving a possible maximumof 24 zones and 14 outputs for the system.
The 4208-2 connects to the Vista 25 keypad bus and any break in the bus wiring isdetected and reported by the Vista 25. Similarly, the 4208-2 detects and reports theremoval of it’s cover by use of the built in tamper switch, SW1.
Figure 3.1 4208-2 Expander Module
AddressingThe 8-way DIP switch (SW2) is used to set up the keypad bus address and variousother functions for the module. The address is set up using switches 1– 4 and must bea unique number in the range 0 to 3. This must correspond to the address assignmentin programming field 89. Table 3.1 Switches 1–4 shows the DIP switch settings foreach of the 4 addresses available to the expander modules on the Vista 25.
Table 3.1 Switches 1–4 (address) Table 3.2 Switches 5–8
sserddAgnitteshctiwsPID
1 2 3 4
0 - - - -
1 - - - NO
2 - - NO -
3 - - NO NO
.wS
.oNnoitcnuF NO FFO
5 edoMenoZ elbuoDlloP
decnalaBLOE
6 locotorP dapyeKsuB
gnilloPpooL
7 esnopseRenoZ tsaF lamroN
8 sDELsutatS nO ffO
CA
SE
TA
MP
ON
ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 ZONE 8ZONE 112
OU
TP
UT
S1+
23
4
CO
NS
OLED
IN0V
+12
DO
UT
LOO
P
-+
LED 1(Red)
LED 2(Green)
IC2
ALARM TAMPALARM TAMPALARM TAMPALARM TAMPALARM TAMPALARM TAMPALARM TAMPALARM TAMPALARM TAMP
JumperLinks
SW1
SW21 2 3 4 5 6 7 8
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DIP Switches 5-8Table 3.2 Switches 5–8 lists the module functions controlled by switches 5 to 8.
Zone Mode (Switch 5)Switch 5 changes the zone mode between double poll and balanced end-of-line (EOL).If set to double-poll the zones operate as normally-closed, alarm and tamper loops. Ifset to balanced EOL, series and end-of line resistors must be used. Refer to Figure 3.2Balanced EOL Configuration.
Protocol (Switch 6)Switch 6 should always be set to ON to enable connection with the Vista 25 keypadbus. Connections should be made to the terminals marked CONSOLE on the 4208-2. The LOOP terminals are not used on the 4208-2.
(Another version of the expander (4208-3) will be able to work with the Vista 4140and 4170 making use of the LOOP connections.)
Zone Response (Switch 7)Switch 7 changes the zone response time from Normal to Fast Response.
Status LEDs (Switch 8)Switch 8 determines whether the status LEDs (LED 1 and LED 2) operate or not.The function of the status LEDs is described in Table 3.4 Status LEDs.
Note: When the 4208-2 is configured onto the Vista 25, any DIP switch changeswill not take effect until the system power is removed then reconnected.
ConnectionsThe following procedure should be followed when connecting the 4208-2 expanderto the Vista 25:
1. Remove power (mains and battery) from the Vista 25.2. Referring to Table 3.3 4208-2 Connections, connect the four terminals on
the 4208-2 CONSOLE terminal strip to the Vista 25 keypad bus using therecommended wiring colours. Either keypad bus 1 or 2 can be used regardlessof the area that the zones are assigned to. Keypads, 4208-2 and 4204modules (see 4204 Relay Module) can be connected in daisy chain or star.
2-8024 52atsiV ruoloC
V0 -V21xuA kcalB
V21 +V21xuA deR
niD nIataD neerG
tuoD tuOataD wolleY
Table 3.3 4208-2 Connections
3. Ensure that the two PCB jumper links shown in Figure 3.1 4208-2 ExpanderModule are fitted. These should always be fitted on the 4208-2 expander.
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4. If a lid tamper is required, no connection should be made to the CASE TAMPterminals. Any lid tamper condition will then be reported along the keypadbus. If the CASE TAMP terminals are linked out, the lid tamper is disabled.
Zone WiringDIP switch 5 selects the wiring configuration for all eight zones. This can either beclosed circuit or balanced end of line (EOL) configuration. For the balanced EOLconfiguration the tamper loop must always be closed circuit. This configuration isshown in Figure 3.2 Balanced EOL Configuration.
Note: A maximum of 10 contacts can be fitted on each loop for balanced EOL.
TAMPALARM
1kΩ 1kΩ1kΩ
NC tamper loop
Figure 3.2 Balanced EOL Configuration
OutputsThe 4208-2 has four programmable outputs which operate as positive removed (nor-mally 12 V switching to 0 V when active). The outputs are open-collector and can sinka maximum of 100 mA. A common +12 V connection is available on the same terminalblock for use with the outputs. See Figure 3.1 4208-2 Expander Module for the locationof the outputs on the PCB.
Note: Although it is possible to add two 4208-2 expanders and two 4204 relay modulesto the system, no more than eight outputs can be used. These can be eighttriggers via 4208-2 modules, eight relays via 4204 modules or four triggers andfour relays from both module types.
Status LEDsThe status of the 4208-2 module is displayed on LED 1 (red) and LED 2 (green) ifswitch 8 is set to ON. Table 3.4 Status LEDs details the meaning of each state.
)deR(1DEL )neerG(2DEL gninaeM
FFO FFO teston8hctiwsPID/rewoPoN
NO FFO detcetedatadoN
GNIHSALF FFO ylnosdapyekrofdetcetedataD
FFO GNIHSALFro2-8024rehtorofdetcetedataD
4024
NO NO 2-8024sihtrofdetcetedataD
Table 3.4 Status LEDs
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4204 Relay Module4204 Relay Module4204 Relay Module4204 Relay Module4204 Relay ModuleThe 4204 relay module adds one to four dry, Single Pole Double Throw (SPDT)relay outputs to the Vista 25. A maximum of two modules can be connected to theVista 25 keypad bus. The relay outputs can be used as an alternative to using the4208-2 outputs.
The 4204 has a built in tamper switch which allows it to detect the removal of it’scover and report this to the control panel. Communication to the 4204 is supervisedso that it cannot be removed from the data bus without detection by the control.
-erddAss
gnitteshctiwsPID
2 3 4 5
0 NO NO NO NO
1 - NO NO NO
2 NO - NO NO
3 - - NO NO
Figure 3.3 4204 Relay Module
ON1
23
45
13 16151413 161514
1211
109
58
76
14
32RELAY
1
RELAY2
RELAY3
C
NO
NC
C
NO
NC
C
NO
NC
C
NO
NCTB1
TB2
COVER TAMPER (REED) SWITCH
4 PIN CONSOLE PLUG
YEL
RED
GRN
BLK0V
DATA OUT
DATA IN
+12V
0V
DATA OUT
DATA IN
+12V
RELAY4
TYPICAL(SHOWN OFF)DIP SWITCH
EITHER OR BOTHCAN BE USED
DIP Switch SettingsThe address for the 4204 should be set using positions 2-5 of the 5 way DIP switch.The address must be a unique number in the range 0 to 4. Refer to Table 3.5 forsettings. DIP switch 1 enables/disables the lid tamper. If set to OFF the tamper isenabled.
Table 3.5 4204 DIP Switch Setting
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ro1BT(4024)gulpnip4
52atsiV ruoloC
V0 -V21xuA kcalB
V21 +V21xuA deR
niD nIataD neerG
tuoD tuOataD wolleY
Panel ConnectionsConnections to the Vista 25 can be made via the four position terminal block TB1, thefour pin plug or by using both connections. Figure 3.3 4204 Relay Module shows thelocation of these connections. The convention shown in Table 3.6 Panel Wiringshould be followed.
Table 3.6 Panel Wiring
Relay ConnectionsConnections to the four relays are made via the 12 position terminal block TB2. Theseare shown in Figure 3.3 4204 Relay Module.
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adhesive pad
potentiometer(tone control)
loudspeaker connection
connection to Vista 25
VR1
P1P2
P3P5 P4
4110SM Speak4110SM Speak4110SM Speak4110SM Speak4110SM Speaker Moduleer Moduleer Moduleer Moduleer ModuleThe 4110SM speaker module plugs directly onto the PLJ connector on the Vista 25PCB, providing an output for a 16 Ω loudspeaker. Once connected, the loudspeakerwill respond to Entry/Exit and Alarm conditions.
If more than one loudspeaker is required the connections should be arranged suchthat the resistance across the terminals P1 and P2 is 16 Ω, e.g. two 8 Ω loudspeakersin series.
When connecting the speaker module, the adhesive pad should be used to allowbonding to the Vista 25 PCB. Once connected the tone of the loudspeaker can bevaried by adjusting the potentiometer, VR1. See Figure 3.4 4110SM Speaker Modulefor details.
Figure 3.4 4110SM Speaker Module
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SECTION 4:SECTION 4:SECTION 4:SECTION 4:SECTION 4: PR PR PR PR PROGRAMMINGOGRAMMINGOGRAMMINGOGRAMMINGOGRAMMINGTHE THE THE THE THE VISTVISTVISTVISTVISTA 25A 25A 25A 25A 25
GeneralGeneralGeneralGeneralGeneralWhen access has been made to program mode, the system parameters can be changedfrom the factory default settings. The default values for each of the parameters areshown in brackets above each programming field. If no changes are made to thesedefaults the system will operate as an audible only alarm.
Note: Programming fields specific to the functioning of RF devices can be foundin Section 5; Programming RF devices.
Entering / Exiting Program ModeTo enter engineer mode: Enter engineer code + 8 + 0 + 0. If the engineer code hasbeen lost press the Ö + # keys together within 30 seconds of powering up thesystem. (No programming will be lost other than date and time).
To exit engineer mode: Enter Ö99. The default engineer code is 4115. It is stronglyrecommended that this code is changed by the engineer.
Note: Programming mode can only be entered from an Area 1 keypad.
Programming FormatIn engineer mode, the system programming can be modified using the Ö key orviewed using the # key:
To programme a field: Enter Ö + field number + field entry (in engineer mode).
e.g. to change the engineer code to 1111 enter Ö00 then 1111, where 00 is the fieldnumber for the engineer code. Two beeps indicate entry confirmed.
To view contents of a field: Enter # + field number (in engineer mode).
Each programming field on the following pages is shown preceded by Ö/#. Thisindicates that the Ö key should be pressed to change the field or the # key should bepressed to view the contents of the field. The Ö key also acts as an enter key whenentering less than the maximum number of digits for a particular field.
DefaultsTo return the programming back to factory defaults: Enter Ö97, wait five sec-onds then enter Ö97 again.
Note: This will clear all previous programming.To default the master code (user 01) : Enter Ö95, wait 5 seconds then enter Ö95again. The default master code is 1234.
Software VersionTo view which version of software the control panel is using, enter #92 in engineermode.
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Programming FieldsProgramming FieldsProgramming FieldsProgramming FieldsProgramming Fields
Entry/ExitÖ/# 08Secondary Entry Time Multiples of 10 Seconds
(for type 02 zones) i.e. 01=10 secs, 02=20 secs etc.
ÖÖÖÖÖ/# 09Primary Entry Time Multiples of 10 Seconds(for type 01 zones) i.e. 01=10 secs, 02=20secs etc.
Multiples of 10 SecondsÖÖÖÖÖ/# 10Exit Delay i.e. 01=10 secs, 02=20secs etc.
00 = Final Contact Set
ÖÖÖÖÖ/#17 Supplementary Entry 0 = NODelay 1= YES
ÖÖÖÖÖ/# 18Entry Deviation Permitted 0 = NO1 = YES
ÖÖÖÖÖ/# 29Easy Set 0 = NO1 = YES - use ‘#’ instead of code
ÖÖÖÖÖ/# 21Exit Tone on STAY Set 0 = NO1 = YES
0 = Timed Exit or Final Contact SetÖÖÖÖÖ/# 11Setting Options 1 = Exit Terminate AWAY Set
2 = Exit Terminate AWAY/ STAY
Area 1 Area 2
(0 3) (0 3)
Area 1 Area 2
(0 6) (0 6)
Area 1 Area 2
(0 3) (0 3)
Area 1 Area 2
(0) (0)
Area 1 Area 2
(0) (0)
Area 1 Area 2
(1) (1)
Area 1 Area 2
(0) (0)
Area 1 Area 2
(0) (0)
If enabled, the entry time isdoubled. After the standardentry time elapses an internalalarm occurs.
If enabled, an internal alarmoccurs if the user strays fromthe entry-route.
If set to 1 or 2, any zone can then be programmed as Push to Set in field 02. If set to 1, an Away setrequires to be terminated by a Push to Set button (the exit delay in field 10 will be ignored). Stay set willnot require to be terminated by the button (sets after 30 seconds or when button pressed). If set to 2, bothAway and Stay set require to be terminate by the Push to Set button.
Area 1
(10)
(0)
Note: After the bell duration expires the system re-arms. The maximum number of re-arms is three. After three re-arms the system locks out the alarm zone.
Output OptionsÖÖÖÖÖ/# 12Bell Delay 0 = Instant Bells
1 = 10 minute bell delay
ÖÖÖÖÖ/# 13Bell Duration Multiples of 2 Minutesi.e. 01 = 2 mins, 10 = 20 mins
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ÖÖÖÖÖ/# 14SW- (Switched -ve Terminal) 0 = Internal SounderInternal Sounder or Power 1 = Power ResetReset
ÖÖÖÖÖ/# 16Strobe to Confirm Away Set 0 = NO1 = YES (strobe operates for threeseconds on setting)
ÖÖÖÖÖ/# 19External Bells for Fire 00 = No bells for Fire Alarm01-99 = Duration in Minutes
ÖÖÖÖÖ/# 45Panel Output Trigger 0 = Normally 12 V, Active 0 VPolarity 1 = Normally 0 V, Active 12 V
ÖÖÖÖÖ/# 48Display Armed Status for 0 = Blank DisplayAway Set 1 = Show Status
ÖÖÖÖÖ/# 65Area Assignments of 1 = Area 1Panel Triggers: 2 = Area 2
3 = Area 1 or 2
ÖÖÖÖÖ/# 86Panel Trigger:Output Types (see Table 4.1)
ÖÖÖÖÖ/# 85Expander Module:Output Types (see Table 4. 1)
ÖÖÖÖÖ/# 87Expander Module:Output Options (Table 4. 2)
ÖÖÖÖÖ/# 88Expander Module: OutputTimings - Single Pulse Outputs
(3) (3) (3) (3)(3)(3)
T1 T6T5T4T3T2
(0)
(0)
(0 0) (0 0) (0 0) (0 0)(0 0)(0 0) (0 0)(0 0)
T1 T6T5T4T3T2 T7 T8
1 65432 7 8
(0 0) (0 0) (0 0) (0 0)(0 0)(0 0) (0 0)(0 0)
1 65432 7 8
(0 0) (0 0) (0 0) (0 0)(0 0)(0 0) (0 0)(0 0)
T1 T6T5T4T3T2
(0 1) (0 8) (1 1) (1 6)(0 3)(0 2)
(0)
(0)
(2 0)
Length of ON pulse = multiples of 2 seconds (i.e. 01 =2 seconds). EXCEPT 00 gives 1 second.
Enter area of each output in 1st digit of each box (1 = Area 1, 2 = Area 2). Enter output option in2nd digit of each box by matching with the output types making reference to Table 4.2.
If set to 1 the SW- terminal can be used as the negativesupply for a latching detector. For this setting, the 4110SMloudspeaker module must not be fitted.
It is strongly recommended that field 65 is reprogrammed sothat each trigger is set to one area only (Area 1 or Area 2). 1 is
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Vista 25Control
4208-2
4208-2
4204-2
Address = 0
Address = 2
Address = 1
Zones 10 - 17
Zones 18 - 25
Outputs1 - 4
OutputsNOT USED
Outputs5 - 8
assigns zones 10 -17 to module addressed as 0
assigns zones 18 -25 to module addressed as 1
assigns outputs 5 - 8 to module addressed as 2
assigns outputs 1 - 4 to module addressed as 0
0 201ÖÖÖÖ89 4 9
assigns first 6128 RF-UK keypad to Bus 1
second 6128 RF-UK keypad not used
first 6128 RF-UK (on Bus 1)
Address = 4
Bus 1
ÖÖÖÖÖ/# 89Expander Module Address(9) (9)(9)(9)
10-17 18-25 1-4 5-8(ZONES) (OUTPUTS)
Field 89 programmingThe information below describes each digit of field 89 and gives a programming example.
1st digit: tells control panel which 4208-2 address has zones 10 to 17
2nd digit: tells control panel which 4208-2 address has zones 18 to 25
3rd digit: tells control which module address (4208-2 or 4204) has outputs 1 to 4
4th digit: tells control which module address (4208-2 or 4204) has outputs 5 to 8
5th digit: tells control address of the first 6128 RF-UK keypad (must be 4 if fitted)
6th digit: tells control address of the second 6128 RF-UK keypad (must be 5 if fitted)
Example:System consists of two 4208-2 expander modules and one 4204 output module and one6128 RF-UK keypad.
The first 4208-2 is addressed as 0, second addressed as 1 and the 4204 module addressed as2. Each module address is assigned to zones and outputs in field 89 as follows:
After entering a zone expander address in field Ö89 the zone responses must beprogrammed for the expander zones before leaving Programme mode.
Expander modules can be addressed as 0, 1, 2 or 3.
• Only the address of a 4208-2 hardwire expander module can be entered into the firsttwo slots of field Ö89 (zones 10-17 and zones 18-25).
• 6128 RF-UK keypads must be addressed as 4 or 5. Two 6128 RF-UK keypads canbe added to the system.
• The first 6128 RF-UK keypad (if fitted) must be addressed as 4.
• The second 6128 RF-UK keypad (if fitted) must be addressed as 5.
Example 1: Field 89 Programming
(9)(9) 0-5 = Address9 = Not Used
(REC. 1) (REC. 2)
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edoCtuptuO
sepyTtuptuOsnoitpO
00 DESUTON –
10 ERIF HCTAL
20 CINAP WOLLOF
30 MRALA HCTAL
40 TESTRAP WOLLOF
50 TES WOLLOF
70 RUOH42 HCTAL
80 REPMAT HCTAL
90 evitisoPHCTALTES )laiceps(HCTAL
11 ELBUORT/TLUAF HCTAL
21 LIAFROTACINUMMOC WOLLOF
31 XUA HCTAL
41 TROBA WOLLOF
51 DEIFIREV HCTAL
61 GORP WOLLOF
71 32EPYTENOZ WOLLOF
91 TLUAFENIL WOLLOF
02 LLEB WOLLOF
dn2tigiD
noitcnuF noitanalpxE
0 hctaLtonsidnasruccotnevetratsehtecnoV0otspordtuptuO
siFFO+edocresu/retsamehtlitnu)V21+ot(teserderetne
2 wolloF tnevetratsswolloftuptuO
3 esluPelgniSelbaTees(noitarudtesafoeslupV0elgnisasevigtuptuO
V21+otserotserneht)3
The codes shown for each output type can be entered in field 86 (for panel) and field 85 (forexpander). The output options shown only affect expander outputs.
Table 4.1 Output Event Types
Table 4.2 Output Options for field Ö87
One of the three output options above should be selected for each expander output. Theoutput options must be matched with the output responses by referring to Table 4.1. Theoptions chosen should be entered into the second digit of the appropriate boxes in field 87.The first digit is the area (1 or 2).
Also See Page 39
edoCtuptuO
sepyTtuptuOsnoitpO
12 EBORTS WOLLOF
22 REDNUOSLANRETNI WOLLOF
32 EDOMTSET WOLLOF
62 YDAER WOLLOF
72DEMRA
NOITAMRIFNOCESLUPELGNIS
82 YRTNE WOLLOF
92 TIXE WOLLOF
03 TIXEROYRTNE WOLLOF
33 YRETTABWOL WOLLOF
43 LIAFSNIAM WOLLOF
53 GODHCTAW HCTAL
63 LIAFYROMEM HCTAL
73 EMIHC ESLUPELGNIS
93 TSETCIDOIREP ESLUPELGNIS
04 0+EDOCRESU ESLUPELGNIS
14 31EDOCRESU ESLUPELGNIS
24SAEDOCRESUYLNOREGGIRT
ESLUPELGNIS
34ENOZFR
LIAFNOISIVREPUSHCTAL
44 YRETTABWOLFR WOLLOF
54 DEMMAJREVIECER HCTAL
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EngineerÖ/# 00Engineer Code
0 = No LockoutÖÖÖÖÖ/# 01Keypad Lockout 1 = 15 min. lockout (4 wrong codes)
ÖÖÖÖÖ/# 06Technistore Version Number Enter version number used bycentral station (000 - 255)
ÖÖÖÖÖ/# 15Event Log Printout on 0 = NOExiting Programming 1= YES
ÖÖÖÖÖ/# 23Tamper : Reset Type 0 = Customer1 = Engineer
0 = CustomerÖÖÖÖÖ/# 24Alarm: Reset Type 1 = Engineer
2 = Technistore Code Only3 = Engineer or Technistore
( 4 1 1 5 )
( 0 0 0)
(0)
(0)
(0)
1 = Area 1 4 = Cleaner 7 = Trigger Output2 = Area 2 5 = Duress Area 1 8 = Master Area 13 = Area 1 & 2 6 = Duress Area 2 9 = Master Area 2
(0)
Pressing any key within the lockout period willrestart the 15 minute lockout period.
(1) (1) (1) (1)(1)(1) (1)(1)
(3) (1) (1) (1)(1)(1) (1)(1)
(1) Area 1 - code sets/unsets Area 1 zones (must be entered at Area 1 keypad).(2) Area 2 - code sets/unsets Area 2 zones (must be entered at Area 2 keypad).(3) Area 1 & 2 - code sets/unsets Area 1 and Area 2 zones. Must be entered at Area 1
keypad to set Area 1 and then Area 2 keypad to set Area 2 (except for User 1).(4) Cleaner - when system is set and cleaner code + off entered, zones with the cleaner
access option selected (see Zone Options) are unset. The cleaner code + Away mustalways be entered when the cleaner is leaving the premises, even if the rest of thesystem is unset. Otherwise, the cleaner zones remain unset at the next setting.
(5) Duress Area 1- any entry of the code at an Area 1 keypad activates an outputprogrammed as PA and sends a PA signal to central station.
(6) Duress Area 2 - same as (5) for Area 2.(7) Trigger Output Only - code activates any output programmed as Trigger (type 42).
User Access Rights
ÖÖÖÖÖ/# 26User 1 - 8 Access Rights
ÖÖÖÖÖ/# 27User 9 - 15 Access Rights
ÖÖÖÖÖ/# 25 Fire and PA: Reset Type 0 = Customer1 = Engineer (Ö24 must be 1, 2, 3)
(1)
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Ö/# 02Zone 1-8 Response
ÖÖÖÖÖ/# 03 Zone 10-17 Response
ÖÖÖÖÖ/# 04Zone 18-25 Response
ÖÖÖÖÖ/# 05Zone 99 (Ö + #) Panic(Both Areas)
ÖÖÖÖÖ/# 07Zone 1-8 Response Time
ÖÖÖÖÖ/# 39Zone 1-8 Forced Walk Test
ÖÖÖÖÖ/# 40Zone 10-17 Forced WalkTest
Zone Responses00 Not Used 06 PA Silent 19 Comms Hold-Off Zone
01 Final Exit (Primary Timer) 07 PA Audible 20 Stay Arm
02 Final Exit (Secondary Timer) 08 24 Hr Auxiliary 21 Away Arm
03 Intruder 09 Fire 22 Disarm
04 Walk Through 17 Telephone Line Monitor 23 Trigger Output Only
05 24 Hour Tamper 18 Push Button Set
(0)
(0) (0) (0) (0)(0)(0) (0)(0)
(0) (0) (0) (0)(0)(0) (0)(0)
(0) (0) (0) (0)(0)(0) (0)(0)
(0 0) (0 0)
(0 0) (0 0) (0 0) (0 0)(0 0)(0 0) (0 0)(0 0)
(0 1) (0 3) (0 3) (0 3)(0 3)(0 4) (0 3)(0 3)
(0 0) (0 0) (0 0) (0 0)(0 0)(0 0) (0 0)(0 0)
0 = No1 = Yes
Enter zone response in first box (06 or07). Always set second box to 00.
(8) Master Area 1 - sets/unsets Area 1 zones and can change Area 1 codes.(9) Master Area 2 - sets/unsets Area 2 zones and can change Area 2 codes.
Note: User 1 always acts as the master code. It is also the only code which full sets (Away)both areas from the one keypad . If using Stay set for both areas then user 1 must beentered at both keypads.
Zone Programming Options
Note: For information on programming RF zones, see section 5; ProgrammingRF Devices
ÖÖÖÖÖ/# 41Zone 18-25 Forced WalkTest
0 = Normal (As per BS4737)1 = Fast Response (vibration sen-sors only)
Once enabled, if a zone has not been activated dur-ing the unset period then the user must activate thezone before the system will set. The keypad willindicate the zone(s) to be activated.
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)a( )b( )c( )d( )e( )f( )g( )h(
aerAnietalosIteSyatS
ssapyBtibihnI
renaelCsseccA
kaoStseT
elbuoDkconK
desUtoN desUtoN
1aerA=02aerA=1
oN=0seY=1
oN=0seY=1
oN=0seY=1
oN=0seY=1
oN=0seY=1
ebtsuM0ottes
ebtsuM0ottes
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
(0 0) (0 0) (00) (0 0)(0 0)(0 0) (0 0)(0 0)
Enter zone numbers for zones which are commonto both areas. These zones will only be active whenboth area 1 and area 2 are set.
ÖÖÖÖÖ/# 52Common Area Zone List
Zone OptionsSix zone options can be selected for each zone. These are shown in Table 4.4 asoptions (a) to (f).
Table 4.4 Zone Options
ÖÖÖÖÖ/# 53Zone 1 Options
ÖÖÖÖÖ/# 54 Zone 2 Options
ÖÖÖÖÖ/# 55Zone 3 Options
ÖÖÖÖÖ/# 56 Zone 4 Options
ÖÖÖÖÖ/# 57 Zone 5 Options
ÖÖÖÖÖ/# 58 Zone 6 Options
ÖÖÖÖÖ/# 59 Zone 7 Options
ÖÖÖÖÖ/# 60 Zone 8 Options
ÖÖÖÖÖ/# 69 Zone 10 Options(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
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29
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g h
(0) (0) (0) (0)(1)(0) (0)(0)
a b c d e f g hÖÖÖÖÖ/# 73 Zone 14 Options
ÖÖÖÖÖ/# 74 Zone 15 Options
ÖÖÖÖÖ/# 75 Zone 16 Options
ÖÖÖÖÖ/# 76 Zone 17 Options
ÖÖÖÖÖ/# 70 Zone 11 Options
ÖÖÖÖÖ/# 72 Zone 13 Options
ÖÖÖÖÖ/# 71 Zone 12 Options
ÖÖÖÖÖ/# 84 Zone 25 Options
ÖÖÖÖÖ/# 83 Zone 24 Options
ÖÖÖÖÖ/# 82 Zone 23 Options
ÖÖÖÖÖ/# 81 Zone 22 Options
ÖÖÖÖÖ/# 80 Zone 21 Options
ÖÖÖÖÖ/# 79 Zone 20 Options
ÖÖÖÖÖ/# 78 Zone 19 Options
ÖÖÖÖÖ/# 77 Zone 18 Options
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CommunicationThe Vista 25 has the capability to transmit in one of two formats to a central stationdigital receiver. These formats are:
(1) Ademco high speed (standard UK high speed format).
(2) Ademco contact ID (point ID).
The Vista 25 does not require a pre-programmed PROM since all communicationparameters are programmed from the Vista 25 keypad.
High Speed FormatIn the standard UK high speed format it is usual to assign channels to the alarm typesas follows:
Channel 01 is normally assigned for fire alarm conditions.Channel 02 is normally assigned for PA (panic) alarm conditions.Channel 03 is normally assigned for intruder alarms (burglary).Channel 04 reports open/close signals.
For the Vista 25 additional channels are assigned as follows:Channel 05 reports daytime tampers.Channel 06 reports RF low battery.Channel 07 reports an abort code.Channel 08 reports verified alarms.Channel 09 reports low battery and test signals.
The channel reporting may be enabled/disabled for each zone. Each zone is assignedto channel 03 by default and only requires changing if a different report or no reportingof a zone is required. In addition to alarm reports, a restore report may be sent for eachchannel. The restore will by default be transmitted after the second entry of code + Offafter an alarm condition. This can be changed in programming field 50.
Contact ID FormatWhen using contact ID format each event is transmitted as a unique event type(event code) instead of sending channel activations. The user or zone number relatedto the event is also transmitted along with the message. The data is sent as follows:
AAAA Q EEE GG ZZZ, where:AAAA = account number.Q = event qualifier, i.e. E = new event, R = restore.EEE = event code.GG = group number (area).ZZZ = zone or user number.
Note: Each zone should be assigned the channel code 03 except for fire whichshould be assigned as 01 and panic alarm assigned as 02.
Note: See also Appendix B
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Before entering number typeÖ 31Ö to delete previousnumber. Enter as 2 digit numberse.g. 9 = 09. If using less than 8digits press Ö to finish.
Before entering new numbers type Ö33Ö (primary) orÖ34Ö (secondary) to delete previous number. If numberis less than 16 digits press Ö to finish entry.
(0)
(1 5) (1 5)(1 5)(1 5)
(1)
(0)
Area 1
(1 5) (1 5)(1 5)(1 5)
Area 2
(1 5) (1 5) (1 5)(1 5)
Area 1
(1 5) (1 5)(1 5)(1 5)
Area 2
(1 5) (1 5) (1 5)(1 5)
(1)
(0)
ÖÖÖÖÖ/# 20 Allow arming with 0 = Notelephone line fault 1 = Yes
ÖÖÖÖÖ/# 22 Telephone Line Monitor 0 = NoActive 1 = Yes
ÖÖÖÖÖ/# 30 Dialling Method: 0 = PulsePulse / DTMF 1 = DTMF
ÖÖÖÖÖ/# 31 PABX Access Code
Note: The Vista 25 cannot be guaranteed to workwith PABX exchanges.
ÖÖÖÖÖ/# 33 Primary Central StationTelephone Number
ÖÖÖÖÖ/# 34 Secondary Central StationTelephone Number
ÖÖÖÖÖ/# 32 Primary AccountNumbers
ÖÖÖÖÖ/# 90 Secondary AccountNumbers
ÖÖÖÖÖ/# 46 Digicom Format 0 = Contact ID1 = High Speed (8 channel)
ÖÖÖÖÖ/# 49 Checksum Verification 0 = No1 = Yes (only used onADEMCO receivers)
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ÖÖÖÖÖ/# 50 Send Restore on 1st code 0 = No (second code + off)+ off 1 = Yes
ÖÖÖÖÖ/# 51 Dual Reporting 0 = No1 = Yes (all reports to both Primaryand Secondary telephone no.s)
ÖÖÖÖÖ/# 67 Non-alarm reports
(a) Mains Loss(b) (Not Used)(c) Tamper/Trouble(d) Tamper/Trouble Restore(e) Isolate (Bypass) Restore(f) Isolate (Bypass)(g) Restores (Alarm / Low Batt / Mains Fail)(h) (Not Used)
ÖÖÖÖÖ/# 68 Non-alarm reports
(a) Open(b) Close(c) Low Battery(d) Verified Alarm (High Speed format only)(e) Test(f) Watchdog Reset(g) Alarm Cancel (Abort)(h) Program Mode Access
ÖÖÖÖÖ/# 61 Digicom Channel Codes:Zones 1-8
ÖÖÖÖÖ/# 62 Digicom Channel Codes:Zones 9-16
ÖÖÖÖÖ/# 63 Digicom Channel Codes:Zones 17-24
ÖÖÖÖÖ/# 64Digicom Channel Codes: 0 2Zones 25 & 99 (Keypad PA)
(0)
(0) (0) (0) (0)(0)(0) (0)(0)
a b c d e f g h
(0) (0) (0) (0)(0)(0) (0)(0)
a b c d e f g h
(0 3) (0 3) (0 3) (0 3)(0 3)(0 3) (0 3)(0 3)
(0 3) (0 3) (0 3) (0 3)(0 3)(0 3) (0 3)(0 3)
(0 3) (0 3) (0 3) (0 3)(0 3)(0 3) (0 3)(0 3)
(0 3) (0 2)
0 = No1 = Yes
(0)
0 = No1 = Yes
00 = No Comms
02 = PA
01 = Fire
03 = Intruder
(0)If enabled, the system will communi-cate Intruder alarms when Stay set.
ÖÖÖÖÖ/# 66Enable Comms in Stay set 0 = No1 = Yes
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DownloadingIf the system is to be programmed from NEW by the downloading computer, thefollowing procedure should be used:
1. Enter Program Mode by typing the engineer code + 8 + 0 + 0.
2. Enter Ö97 twice to load the system defaults.3. Enter Ö35 and enter the telephone number of the downloading computer.4. Enter Ö99 to exit Program Mode.5. Contact the downloading computer operator to make sure computer is ready
for a site initiated download.6. Enter 4115 + # + 1 to initiate dialling.7. Do not pick up any telephone connected to the same line as the Vista 25
until the download is completed.
ÖÖÖÖÖ/# 35 Downloader: Tel No.
ÖÖÖÖÖ 36 Downloader ID
ÖÖÖÖÖ/# 37 Downloader: CommandEnables
(a) Dialler Shut Down(b) System Shut Down(c) Access When Set(d) Remote Bypass (Isolate)(e) Remote Disarm(f) Remote Arm(g) Upload Program(h) Download Program
ÖÖÖÖÖ/# 44 Ring Count 00 = No Ring Detect (01-14 rings)15 = Answering Machine Defeat
(1 5) (1 5) (1 5) (1 5)(1 5)(1 5) (1 5)(1 5)
Before entering new number type Ö35Ö to delete previousnumber. If number is less than 16 digits press Ö to finishentry.
(1) (1) (1) (1)(1)(1) (1)(1)
a b c d e f g h
If enabled, the commands (a) to (f) can becarried out from the download computer.
(1 2)
Enter no. of rings (01 to 14) before panel answers incom-ing call. If set to 15 panel will only pick up line if down-load PC calls in, hangs up after 2 rings then redials.
0 = No1 = Yes
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Alpha-Numeric Keypad - Text ProgrammingZone descriptors are created by entering words from the built-in library. Alterna-tively an additional 20 ‘custom’ words can be created and used.
Zone DescriptorsTo enter a zone descriptor the following steps should be taken:
1. Once in Program Mode type Ö93 to enter text programming mode.2. From the “Zone Descriptors, Enter Zone” prompt enter the zone number
(01 – 25). The display then shows the zone number and the character A.
3. Each key represents several characters (see Figure 4.1 Character Allocation).Select the first character of the word required by pressing the relevant keyuntil this letter appears on the display. For example if the letter R is required,press the 6 key three times. If custom words have already been created, the 0key is used to access them.
4. Once the correct character is displayed, press the Ö key to access the wordlist.
5. Press any number key (0 – 9) to scroll forwards through the word list untilthe required word is displayed.
6. Press the Ö key to accept the selection. The display then shows 0A.7. Select the 1st letter of the next word by pressing the relevant key (see Figure
4.1) or press Ö to save word into memory.8. Repeat until the required number of words are displayed (maximum of three).
Note: The ‘#’ key acts as an undo key when programming text.
Figure 4.1 Character Allocation
Custom WordsTo enter a custom word into the library, use the following procedure:
1. In Program Mode, type Ö93 to enter Text Programming Mode.2. From the “Zone Descriptors, Enter Zone” prompt, type 00 to enter Custom
Word Programming Mode.3. Enter the custom word number – between 00 and 19.4. Press the number key which represents the first character of the new word
(see Figure 4.1) until this character is shown on the display.
J K L M N O P Q R
V W XS T U Y Z
A B C D E F G H I
Ö #0
21 3
4 5 6
7 8 9
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5. Press the Ö key to accept the selection.6. Continue entering characters until the word is complete (maximum of 9
letters).7. Press # to enter the word in memory.
Note: After pressing the Ö key to accept a letter, press the Ö again to enter a spaceif required.
LibraryA ELSIA D SRETHGUAD H LLAH N HTRON S EFAS W LLAW
MRALA KSED TAEH YRESRUN ERUCES ESUOHERAWEVOCLA ROTCETED ESUOH TXEN ROSNES HSAW
TNEMTRAPA GNINID ECIVRES TSEWAERA YALPSID I NI O ECIFFO DEHS WODNIWOIDUA ROOD DERARFNI NEPO KCOHS ENIW
YRAILIXUA SROOD EDISNI GNINEPO POHS GNIWNWOD ROIRETNI EDISTUO TROHS SSELERIW
B YBAB SRIATSNWOD NOISURTNI SDRAWTUO EDIS KROWKCAB ELBUOD SDRAWNI DAEHREVO ELGNIS SKROW
RAB YAWEVIRD GNIDILSNRAB GURD J YRELLEWEJ P GNITNIAP LLAMS X RETTIMX
TNEMESAB LENAP EKOMSMOORHTAB E TSAE K NEHCTIK CINAP SNOS Y DRAY
YAB CIRTCELE YRTNAP REDNUOSDEB YCNEGREME L GNIDNAL EVISSAP HTUOS Z ENOZ
MOORDEB ECNARTNE EGRAL OITAP SRIATSLLEB YRTNE YRDNUAL RETEMIREP NOITATS TS1,1
DGB TNEMPIUQE TFEL RIP KCOTS DN2,2RELIOB EVITUCEXE LEVEL TNIOP EGAROTS DR3,3MOTTOB TIXE SHL ECILOP EROTS HT4,4
XOB ROIRETXE YRARBIL GNILLOP SEROTS HT5,5KAERB THGIL LOOP GNIMMIWS HT6,6
TSAFKAERB F YROTCAF GNIVIL HCROP HCTIWS HT7,7GNIDLIUB ERULIAF GNIDAOL USP HT8,8
NOTTUB SREHTAF YBBOL REWOP T REPMAT HT9,9ECNEF KCOL EPAT 0
C TENIBAC ERIF TFOL Q DAUQ MOCELETNEETNAC ROOLF POOL OT
RAC LIOF EGNUOL R OIDAR LOOTHSAC REYOF WOL RAER POT
REIHSAC REZEERF REWOL REVIECER EDARTVTCC TNORF NOITPECER RETTIMSNART
GNILIEC M ENIHCAM FRLARTNEC G YRELLAG CITENGAM SHR U ARTLU
TIUCRIC EGARAG REGANAM THGIR PUMOORKAOLC NEDRAG NIAM MOOR REPPU
DESOLC SAG RETSAM FOOR SRIATSPUNOITCELLOC ETAG TAM YTILITU
RETUPMOC LARENEG LACIDEM XTUECNEREFNOC SSALG ENICIDEM
YROTAVRESNOC SDOOG YENOM V TLUAVTCATNOC TSEUG ROTINOM NOITARBIVRETNUOC NUG SREHTOM EGATLOVRODIRROC NOITOM
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00 Not Used 06 PA Silent 19 Comms Hold-Off Zone
01 Final Exit (Primary Timer) 07 PA Audible 20 Stay Arm
02 Final Exit (Secondary Timer) 08 24 Hr Auxiliary 21 Away Arm
03 Intruder 09 Fire 22 Disarm
04 Walk Through 17 Telephone Line Monitor 23 Trigger Output Only
05 24 Hour Tamper 18 Push to Set
Zone Response DefinitionsThe Vista 25 has 16 zone types, these are:
Final Exit (Primary Timer) – 01This zone type is used for the entry/exit route(s) and is usually assigned to the frontdoor or other main entry point(s). The entry time for this zone type is set by theprimary timer (see field Ö09 Primary Entry Time in Program Mode). The zone becomesoperational when the system is set or setting.
A Final Exit zone will terminate the setting-routine if programming field Ö11 settingoptions is set to 0 (or 00 if using both areas) and programming field Ö10 Exit Time isset to 00 (or 00 00 if using both areas).
Activation of a Final Exit when the system is set initiates the unsetting routine. Thekeypads and internal sounder will produce entry tones and any Walk Through zoneswill be isolated. A valid user code must be entered at the keypad before the entry timehas elapsed.
If the system is Stay set the exit time is set at 30 seconds.
Final Exit (Secondary Timer) – 02This zone type is identical to type 01 Final Exit (Primary Timer) except that the entrytime is determined by the secondary timer (see field Ö08 Secondary Entry Time).
Intruder – 03The Intruder zone type is used for zones which require an instant alarm when thesystem is set (Stay or Away). If an intruder zone type is activated when the system isfull set (Away), a full alarm condition occurs - internal and external sounders operateand the Digicom reports the alarm (if programmed). If the zone is activated in Stay set,the internal and external sounders activate and if field Ö66 is enabled the Digicomreports the alarm.
Walk Through – 04This zone type is used for zones which require to act as an Intruder alarm when thesystem is full set (Away) but which isolate when a Final Exit zone is tripped first.When the system is Stay set, Walk Through zones behave as Final Exit zones. TheWalk Through zone type is usually assigned to detectors (PIRs) in an entrance hallwayor reception area which users must pass through to reach the keypad during theunsetting routine.
24 Hour Tamper – 05This zone type is used for zones which are intended to operate as an Intruder tamper.During the unset state an activation will initiate an alarm on the internal sounders and
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keypad buzzer and the keypad display will show “Check” along with the zone numberand descriptor. A tamper communication report will be sent by the on-board Digicomif tamper reporting is enabled in field Ö67 and a 24-Hour output will activate ifprogrammed. During the set state both the internal and the external sounders willoperate and an intruder communicator report will be triggered (if programmed). Thiszone type is usually used for zones covering sensitive areas (e.g. a stock room) or acontrolled access area where immediate notification of entry is required (e.g. firedoors).
PA Silent – 06This zone type is generally assigned to a zone containing a PA button and whenactivated, a panic alarm is transmitted by the on-board Digicom (if the channel codefor the zone is programmed as 02). Any output programmed as Panic will also beactivated. No audible alarm is generated and no visual display of the alarm occursuntil a valid user code + OFF is entered.
PA Audible – 07This zone type is also assigned to a zone containing a PA button. In addition toinitiating communicator reporting and activating any Panic outputs, activating a PAAudible zone will initiate an audible alarm on both external and internal sounders(including keypad sounders). The zone number and “Alarm” is displayed on thekeypad during the alarm condition.
24 Hour Auxiliary – 08The 24 Hour Auxiliary zone type is assigned to zones which require a local alarm to begenerated. The first activation of this zone type when the system is unset initiates thekeypad sounders only, with the active zone number being indicated on the keypaddisplay. Any outputs programmed as 24 Hour or Aux will activate and a communicatorreport will be triggered if a channel code is assigned to the zone. Subsequent zoneactivations will still display the alarm zone on the keypad but will not initiate thekeypad sounders until the system is set then unset or until engineer mode is enteredthen exited. The zone type can be assigned to zones containing monitoring equipmentsuch as temperature sensors and water sensors.
Fire – 09The Fire zone type is used for fire detection devices with either normally closed ornormally open outputs. When a fire zone is activated both internal and externalsounders produced a pulsed alarm sound and a fire communication report is triggered(if the channel code for the zone is programmed as 01). Fire zones cannot be bypassed.
Telephone Line Monitor – 17This zone type can be used to monitor the line fail output of a stand-alone telecomdialler. When the zone is activated in daymode a line fail alarm occurs instantly - thekeypad beeps rapidly and the display shows Telco Line Cut or Cd. When the zoneclears the alarm cancels and resets automatically. During the line fail condition thealarm can be cancelled by entering a valid code and off. If the zone is activated whenthe system is set, then the internal sounders operate but the keypad sounders in theset area do not. The alarm does not cancel until a valid code + OFF is entered.
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Push to Set – 18This zone type is assigned to a zone connected to a Push to Set (Exit Terminate)button. In addition to programming the zone, programming field Ö11 must be set to 1( if the button is to terminate Away setting only) or 2 (if the button is to terminate bothAway and Stay setting). If set to 1, Away set will only terminate when the button ispressed; Stay will terminate either when the button is pressed or after 30 seconds. Ifset to 2 both Away and Stay sets will only terminate after the button is pressed.
Note: The setting procedure is initiated by entering a valid code at the keypad thenpressing Away or Stay. Pressing the Push To Set button will then terminatethe setting procedure and the system will be set. Subsequent pressing of thebutton will have no effect on the system.
Comms Hold-Off Zone – 19This zone type can be assigned to an output from a stand-alone dialler. When thezone is activated, any pending communication from the on-board Digicom will behalted to allow the stand-alone dialler to communicate first.
Stay Arm – 20When activated, a zone programmed as Stay Arm will initiate the Stay setting routine.The system will then set after 30 seconds or with the Push to Set button, dependingon Ö11 Setting Options. This can be done as an alternative to entering a valid usercode + Stay.
Note: This zone type is not used for a zone which is isolated in Stay set. A zonebecomes isolated in Stay set by assigning the Isolate in Part Set zone optionto the zone (see Zone Options).
Away Arm – 21When activated, a zone programmed as Away Arm will initiate the Away settingroutine. This can be done as an alternative to entering a valid user code + Away.
Disarm – 22When activated during an Away or Stay set, a zone programmed as Disarm will causethe system to unset. This performs the same function as entering a valid user code +OFF.
Trigger Output Only – 23Activation of a zone programmed as Trigger Output Only causes an output alsoprogrammed as Trigger Output Only to activate. This zone type has no other effect onthe system.
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Output Type DefinitionsThe output types listed in Table 4.1 are described below.
Fire – 01The Fire output type is activated by Fire zones in the Set and Unset state. The outputlatches on and will deactivate on the second entry of a valid code + OFF. The Fireoutput type is not affected by Bell Delay.
Panic – 02The Panic output type is activated by PA Silent zones, PA Audible zones and byentering a valid duress code at the keypad. The output deactivates on entry of a validcode + OFF.
Alarm – 03The Alarm output type is activated if an Intruder alarm condition occurs when thesystem is set (Away or Stay). When the system is Away set the following zone typeswill activate the Alarm output: Walk Through, Intruder, 24 Hour Tamper. When thesystem is Stay set only the Intruder and 24 hour tamper zone types will activate theAlarm output. The output deactivates on the second entry of a valid code + OFF. Ifengineer reset is enabled in field Ö24 then the engineer code must be used to deactivatethe output.
Part Set – 04The Part Set output type is activated when the system is part set. A part set conditionoccurs when a valid code + STAY is used to set the system or when a valid code +AWAY is used after bypassing one or more zones. The output deactivates when thesystem is unset.
Set – 05The Set output type is activated when the system is full set (Away) and will deactivatewhen the system is unset. This output type is not affected by Stay set.
24 Hour – 07The 24 Hour output is activated by 24 Hour Tamper zones when the system is unsetand by 24 Hour Auxiliary zones when the system is set. The output deactivates on thefirst entry of a valid code + Off.
Tamper – 08The Tamper output type is activated if a zone or a bell tamper condition occurs in theunset state. When the system is set a zone or bell tamper condition causes a fullIntruder alarm.
Set Latch Positive – 09The Set Latch output type activates when the system full sets (Away). The outputdeactivates when an Intruder alarm occurs, when the system is unset or when a FinalExit zone is activated. This output type is used to latch-on an LED on certain detectors(e.g. vibration detectors, latching PIRs) when the detector causes an alarm and also toreset any latched detectors when the system is full set.
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Fault / Trouble – 11The Fault / Trouble output type is activated by a mains fail, a line fail or by a lowbattery condition. When a mains fail occurs the condition must be present for 1 hourfor the output to activate. The output will deactivate with entry of a valid code + Off.
Communicator Fail – 12The Communicator Fail output type is activated after the dialler has attemptedcommunication five times without establishing connection with the receiving centre.
Aux – 13The Aux output type is activated by 24 Hour Auxiliary zones in the set and unsetstate. The output deactivates on 1st entry of code + Off.
Abort – 14The Abort output type is activated on the first entry of a valid code + Off after anIntruder alarm condition . The output deactivates on the second entry of a valid code+ Off.
Verified – 15The Verified output type is activated by two Intruder alarms occurring in succession.The output deactivates on the first entry of a valid code + Off.
Prog – 16The Prog output type activates when Program Mode is entered and deactivates whenProgram Mode is exited.
Zone Type 23 – 17The Zone Type 23 output type is activated by zones programmed as Trigger OutputOnly (zone type 23) in the set or unset state. The output deactivates when the zone isdeactivated.
Line Fault – 19The Line Fault output type is activated 30 seconds after a line fail condition on the on-board Digicom or instantly by a zone programmed as Telephone Line Monitor. Theoutput deactivates after the line fail condition clears.
Bell – 20The Bell output type is activated in a full alarm condition. The output deactivateswhen a valid code + Off is entered at the keypad or when the bell duration, programmedin field Ö13, expires. If Bell Delay is enabled in programming field Ö12, then theoutput will not activate until the 10 minute bell delay expires.
Strobe – 21The strobe output type is activated in a full alarm condition and deactivates when avalid code + Off is entered at the keypad. The strobe output type also operates brieflyon full setting if programming field Ö16 Confirm for Strobe is enabled.
Internal Sounder – 22The internal sounder output type is activated in entry/exit and alarm conditions. Theoutput cancels when the condition clears.
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Test Mode – 23The Test Mode output type activates when the system is put into test mode using avalid code + Test. The output deactivates on exit from test mode.
Ready – 26The Ready output type is activated in daymode when all zones are closed. The outputdeactivates when any zones are open.
Armed Confirmation – 27The armed confirmation output type activates when the system is full set. If theoutput is assigned to an expander, a single pulse lasting one second is produced. Ifthe output is on the Vista 25 then the output latches until a valid code + Off is entered.This output type only functions if programming field Ö16 Confirm for Strobe isenabled.
Entry – 28The Entry output type activates during the entry routine, i.e. when a Final Exit zone istripped during the set state. The output deactivates when a valid code + Off is enteredat the keypad.
Exit – 29The Exit output type activates during the exit routine, i.e. after a valid code is used toStay or Away set the system. The output deactivates when the system has set.
Entry or Exit – 30The Entry or Exit output type activates during the entry routine and during the exitroutine. The output deactivates when the exit or entry routine is terminated.
Low Battery – 33The Low Battery output type activates during a low battery condition, i.e. when themains has been removed and the battery voltage has dropped to approximately 11 Vdc. The output deactivates when the battery voltage has restored.
Mains Fail – 34The Mains Fail output type activates when the mains supply for the system has beenabsent for one hour. If the mains supply is restored during this period the output willnot activate.
Watchdog – 35The Watchdog output type activates if the system restarts for any reason, e.g. whenpower is applied after a complete power fail or after a software glitch.
Memory Fail – 36The Memory Fail output activates if the system memory becomes corrupt.
Chime – 37The Chime output type is activated by Chime zones in the unset state. If the output isassigned to an expander a single pulse lasting one second is produced. If the outputis on the Vista 25 then the output latches until a valid code + Off is entered.
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Periodic Test – 39The Periodic Test output is activated when the system transmits a 24 hour test signalto the receiving centre. If the output is assigned to an expander a single pulse lastingone second is produced. If the output is on the Vista 25 then the output latches untila valid code + Off is entered.
User Code + 0 – 40The User code + 0 output type is activated by entering a valid user code + 0 at thekeypad. If the output is assigned to an expander a single pulse lasting one second isproduced. If the output is on the Vista 25 then the output latches until a valid code +Off is entered.
User Code 13 – 41The User Code 13 output type is activated by entering user code 13 at the keypad. Ifthe output is assigned to an expander a single pulse lasting one second is produced.If the output is on the Vista 25 then the output latches until a valid code + Off isentered.
User Code Assigned as Trigger Only –42The User Code Assigned as Trigger Only output type is activated when a user codeassigned with the Trigger Only function in programming field Ö26/27 is entered at thekeypad. If the output is assigned to an expander a single pulse lasting one second isproduced. If the output is on the Vista 25 then the output latches until a valid code +Off is entered.
RF Zone Supervision Fail 43
This output is activated if any radio zone fails to send a supervision report during thesupervision time window programmed into field *42. It will only restore, when a signalhas been received and the system has been reset. See also field *50.
RF Zone Low Battery 44
This output activates if an RF Zone reports a low Battery and the fault has not beretified within 100 hrs. It will only restore when a new battery is fitted and the systemhas been reset. See also field *50.
RF Receiver Jammed 45
This output activates if one or both receivers are jammed for longer. It will not restoreuntill the jamming signal has cleared and the system has reset. See also field *50.
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SECTION 5: PROGRAMMINGSECTION 5: PROGRAMMINGSECTION 5: PROGRAMMINGSECTION 5: PROGRAMMINGSECTION 5: PROGRAMMINGRF DEVICESRF DEVICESRF DEVICESRF DEVICESRF DEVICES
IntroductionIntroductionIntroductionIntroductionIntroductionThe Vista 25 is compatible with the following Ademco Microtech wireless RFdevices:
• 5888 UK PIR• 5802 UK PA Necklace Pendant or Belt Clip• 5816 UK two zone Door/Window Contact Transmitter• 5804 UK Radio Keyfob• 6128 RF-UK combined receiver and keypad.• 5808 UK Smoke Detector
At least one 6128 RF-UK keypad must be fitted to the system to act as theRF receiver.
5804 UK keyfobs may be used with the Vista 25 for remote setting and unsetting.
Two 6128 RF-UK keypads can be used on the system. The first keypad must have areceiver address of 4 and the second keypad must have an address of 5. Both keypadscan be physically connected to the same keypad bus or one on each bus. All keypadsmust have a keypad address of 31.
The receiver on an RF keypad functions for all detectors in both partitions regardlessof the partition the receiver keypad is connected to. However the keypad itself belongsonly to the partition in which it is situated.
When using two 6128 RF-UK keypads, any transmission may be received by either orboth receivers. This provides greater area coverage and reduces “dead spots”. Thereceivers are dual diversity (two aerials), this also reduces dead spots.
Walk Testing RF DevicesWhen walk testing the system (code + 5) the RF keypad receiver gain drops to 50%of its normal (100%) value. This is to ensure proper communications when in normal(non-test) mode.
If a radio detector fails the walk test, yet functions in normal mode, it should still beconsidered to be situated in an unsatisfactory position and relocated until the testmode is passed. It is recommended that each radio detector is tested several times invarious positions to ensure a good signal path to the receiver. For more informationon walk testing see Section 6: Operating the System.
Note: It is strongly recommended that immediately following installation allRF devices are walk tested to ensure they have been configured onto thesystem correctly.
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Clearing Tampers from RF DevicesWhen entering code + 1 (Off) to clear a tamper condition from an RF transmitter thekeypad display will not clear until the control panel receives a clear status messagefrom the RF device. To get the device to send the message it must be tripped.
RangeThe transmitters have a nominal range of 60 metres. Radio keyfobs (5804 UK) have anominal range of 30 metres.
Note: RF range is always dependant on site specific environmental variables.
Battery LifeBattery life of a typical PIR can be up to seven years if the unit is placed in the NormalMode (detector sleeps for three minutes after each transmission).
A Low Batt warning period of approximately thirty days is given when in Normalmode.
Configuring KConfiguring KConfiguring KConfiguring KConfiguring Keeeeeyfyfyfyfyfobs onto a 6128 RF-UK Kobs onto a 6128 RF-UK Kobs onto a 6128 RF-UK Kobs onto a 6128 RF-UK Kobs onto a 6128 RF-UK KeeeeeypadypadypadypadypadThe Vista 25 can be set and unset using 5804 UK radio keyfobs, within a nominalrange of 30 m. The keyfobs enrol in to a 6128 RF-UK keypad (not to the control panel).Each 6128 RF-UK keypad can accept up to eight keyfobs through eight addresses.The keyfob operates by transmitting a seven digit code to the 6128 RF-UK keypadwhich in turn sends a valid user code to the control panel.Note: For Class 6 compliance, keyfobs should not be used.
Initialising the RF Keypad1. Ensure all user codes are programmed into the control panel (see Programming
User Codes).2. Remove power from the 6128 RF-UK keypad.
3. Holding both the 1 and 3 keys down re-apply the power to the keypad untilthree beeps are heard and the keypad display alternates between 00 and .The keypad is now in programme mode. If no keys are pressed the keypadexits programme mode after thirty seconds.
4. View the keypad address by pressing the 1 key—the keypad display alternatesbetween cA (Console Address) and xx where xx is the keypad address – 31by default. Press the Ö key to accept or enter the correct address then pressthe Ö key.Note: 6128 RF-UK keypad address must always be 31.
5. View the receiver address by pressing the 2 key—the keypad display alternatesbetween rA (Receiver Address) and xx where xx is the receiver address. Enterthe receiver address value, the keypad displays rA and the new receiveraddress.Note: The receiver address must be set to 04 for the first keypad and to 05
for the second keypad.
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Press the Ö key to accept the programming.
6. View the setting of the receiver enabled/disabled option by pressing the 6key—the keypad display alternates between r and x where x = 1 for enabledor 0 for disabled.If this option is set to 1 press Ö to accept. If this option is set to 0 press the 1key to enable the receiver then the Ö key to accept.
Enrolling the KeyfobsTo enrol keyfobs the 6128 RF-UK keypad must be in programme mode. If the keypadis not in programme mode follow the first three steps of Initialising the RF Keypad,then:
1. Press the 8 key to go to the first unused address—the keypad display alternatesbetween dx and where x is the first unused address 1-8.
2. Holding all four buttons on the keyfob point it towards the keypad until threebeeps are heard.
3. The keypad now displays the keyfob serial number as a sequence of two digitnumbers. Check the serial number; if it is correct press the Ö key to accept, ifnot press the # key and repeat step two.
4. Press the 2 key— the keypad display alternates between u4 and ,enterthe four digit user code (PIN)—the keypad now displays dx, xx, xx where dxis the keyfob address and the xx, xx are the four digits of the user PIN. Press theÖ key to accept or the # key to cancel and re-enter the user pin.
5. Press the Ö key once to go to next available address then follow on fromstep 2 or press Ö twice to return to display of 00 then Ö again to exit thekeypad programme mode.
For further programme options, for instance changing keyfob functions, see theinstallation guide supplied with the keypad.
RF Keypad User Programme ModeOnce the programme mode of the receiver keypad has been exited for thirty seconds,users may access the keypad user programme mode, this allows users to enable/disable each keyfob.
To enable or disable keyfobs:
1. Hold down the 3 and 1 keys together until the keypad beeps three times, andthe keypad display alternates between dE and .
2. Enter the address of the keyfob to be enabled/disabled.
3. The keypad display alternates between dx (where x is the address of thekeyfob, 1 to 8) and either a, 0 – for disabled, or a, 1 – for enabled.
4. To alter the state press 1 to enable or 0 to disable. Press the Ö key to acceptany changes or the # key to cancel.
5. Press the Ö key to exit user programme mode and return to normal keypadoperation.
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Programming Vista 25 RF OptionsProgramming Vista 25 RF OptionsProgramming Vista 25 RF OptionsProgramming Vista 25 RF OptionsProgramming Vista 25 RF OptionsNote: For Class 6 compliance only two programming fields need be programmed:
Field Ö89 to set the RF Keypad receiver address.Field Ö43 to set the RF zone programming options.
For details on programming Ö89 see page 24
ÖÖÖÖÖ/# 28 Receiver Jammed ResponsesThis option has two settings:
0 Normal1 High Security
Default setting = 1 Normal.
0 = NormalWhen programmed for normal security the responses are as follows:
Panel unset – internal tamper type response, panel displays Ax where x is the receiveraddress (4 for partition 1 or 5 for partition 2). No Central Station (CS) report.
Panel set – panel waits until the user unsets before giving internal tamper response.No CS report.
1 = High SecurityWhen programmed for high security the responses are as follows:
Panel unset – internal tamper type response, panel displays Ax where x is the receiveraddress (4 or 5). Report sent to CS if jamming signal is present for five minutes. Thisis a tamper (channel 5) in high speed and receiver jammed in Contact ID.
Panel set – alarm condition (Internal and External) and report to CS if jamming signalis present for five minutes.
This is sent as a tamper (Channel 05) in High Sped format and Receiver Jammed inContact ID.
Note: Jamming must be present for thirty seconds before any response is given bythe control panel.
ÖÖÖÖÖ/# 38 Detector Low Battery ResponsesThis field determines how the panel reports a low battery condition in an RF deviceand has three settings:
0 Visual response only1 Internal tamper response when unset2 Internal tamper responses at any time
Default setting = 1 Internal tamper response when unset.
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ÖÖÖÖÖ/# 42 Supervision Time WindowThis field determines the amount of time between check-in signals from each transmitterbefore notification is given and has three settings:
0 2.5 hours (Class 6)1 3.6 hours (Class 5)2 8.4 hours (Class 4)
Default Setting = 2.5 hours (Class 6).
The times quoted are the maximum times allowed without receiving a check in(supervision) signal from any particular detector.
Note: Supervision monitoring may be disabled for any zone via programmingin Ö43.
ÖÖÖÖÖ/# 43 RF Zone ProgrammingTo programme an RF zone:
1. Enter programming mode (Engineer Code + 800) and enter field 43 (Ö43)2. Enter the two digit zone number3. Enter 1 or 0 (1 = Supervision Enabled, 0 = Supervision Disabled)4. Enter loop number of the transmitter (Always programme as loop 1 for PIRs,
PAs and Smoke Detectors. For 5816 Door / Window transmitters programmeLoop 1 for the hardwire terminals and Loop 2 for the Magnet + Reed).
5. Enter seven digit Serial Number (ignore letter A).
Note: When RF zone programming is completed, hard wire zone must be linked out.Table 5.1 RF Zone Programming summarises the programming of an RF zone.
FRretnEenoZ
gnimmargorPNenoZ .o noisivrepuS
delbnanE NpooL .o tigidneveSNlaireS .o
Ö 34 xx oN=0,seY=1 2ro1 xxxxxxx
eeS Ö .4.oN,gnimmargorPenoZFR34
ehtedulcnitonoD A .rebmunlairesehtfotratsehtta
Table 5.1 RF Zone Programming
Example: To programme a PIR with serial number 1234567 to be supervised on zoneseven enter:
Ö43, 07, 1, 1, 1234567.
To view the programme for any zone, enter #43, wait two seconds then enter the zonenumber.
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Deleting RF ZonesTo delete an RF zone from the system:
• enter Ö43, then the zone number followed by Ö.• programme the zone as not used (00) in field 02, 03 or 04.
5816 UK Door/Window Contact
When using both zones (magnet + reed and hardwired terminals) on the same 5816UK Door/Window transmitter ensure they are both assigned to the same partition.
ÖÖÖÖÖ/# 47 Supervision Fail Responses
This option has two settings:0 Normal1 High Security
Default setting = 1 High Security.
0 = NormalWhen programmed for normal security, the responses are as follows:
Panel unset – internal tamper type response. Report sent to CS only sent if tamperreports are enabled in field Ö67 Non-alarm Reports.
Panel set – panel waits until the user unsets the system before giving an internaltamper response. Report sent to CS only sent if tamper reports are enabled in fieldÖ67 Non-alarm Reports.
1 = High SecurityWhen programmed for high security the responses are as follows:
Panel unset – internal tamper type response and report sent to CS if tamper reports areenabled in field Ö67 Non-alarm Reports.
Panel set – internal tamper response and report to CS, for High Speed format this is aTamper, for Contact ID this is a Supervision Fail.
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SECTION 6:SECTION 6:SECTION 6:SECTION 6:SECTION 6: OPERA OPERA OPERA OPERA OPERATING TING TING TING TING THETHETHETHETHESYSYSYSYSYSTEMSTEMSTEMSTEMSTEM
The following sections explain the operation of the Vista 25 in daymode.
Setting and Unsetting the SystemSetting and Unsetting the SystemSetting and Unsetting the SystemSetting and Unsetting the SystemSetting and Unsetting the SystemIf the system is set by a user code then any valid user code can unset the system. Theengineer code can only unset the system if the engineer code was used for setting.Any valid user code can also unset a system set by the engineer code.
Full Setting the System1. Ensure that all zones are clear and that the building is empty of personnel.2. If “NOT READY” or “DISARMED - PRESS Ö” are shown on the display,
press the Ö key to view any open zones. If these zones are not on the exitroute, they must be cleared before setting.
3. Enter a valid code (or press ‘#’ , if quickarm is enabled) then press AWAY.A constant exit tone is generated on the internal sounder and keypads and theARMED LED illuminates. After the exit time has elapsed (or after the settingroutine is terminated) the warning tone stops. A double beep on the keypadindicates that the system is set. The ARMED LED deactivates when thesystem is set, unless field Ö48 Display Armed Status for Away Set is enabled.
Part Setting the System1. Ensure that all zones which are active in Stay set are clear.2. Enter a valid code (or press the # key) then press the STAY key.
Unsetting the System1. Enter a valid code then press the OFF key.
Area Setting1. To set Area 1, enter an Area 1 code at an Area 1 keypad then press the AWAY
or STAY key.2. To set Area 2, enter an Area 2 code at an Area 2 keypad then press the AWAY
or STAY key.3. To set both Area 1 and Area 2 with one code, enter a code allocated to both
areas at an Area 1 keypad then press the AWAY or STAY key. Repeat theprocedure at an Area 2 keypad. If the code is User 1 then entering the code atone keypad will set both areas simultaneously.
Setting the System with a Mains Fail or a Line Fail1. Enter a valid code then press the BYPASS key followed by 00.2. Wait five seconds.3. Enter a valid code then press the AWAY or STAY key, as required.
Note: If setting with a line fail present, programming field Ö20 must be enabled.
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RRRRResetting esetting esetting esetting esetting After an After an After an After an After an AlarAlarAlarAlarAlarmmmmmThree reset modes are possible: Customer, Engineer and Coded (Technistore). Thereset mode is programmed in field 24 (see Engineer options in programming).
1. To silence the alarm, enter a valid code and then press the OFF key. The firstzone number displayed indicates where the alarm originated.
2. To reset the system, enter a valid code and then press the OFF key.If ‘CE’ or CALL ENGINEER is displayed, the system requires an engineerreset, i.e. enter the engineer code, then press the OFF key.If a list of numbers appears followed by ‘CE’ or ‘CALL CS QUOTE’, thesystem requires a coded reset. The five digit Technistore number displayedshould be quoted to the alarm monitoring station and a five digit anti-codeshould be obtained. This number should be entered at the keypad to reset thesystem.
Note: The system can be set up for combined engineer and coded reset. When inthis mode, an alarm condition can be reset either by entering the engineercode then OFF or by entering the Technistore anti-code.
Bypassing ZonesBypassing ZonesBypassing ZonesBypassing ZonesBypassing ZonesOne or more zones can be temporarily bypassed so that the zones are not active onthe next setting of the system. The zones must have their Bypass Inhibit optiondisabled for bypassing to be possible (see Zone Options in programming). Thebypass inhibit option is enabled by default and must therefore be changed beforebypassing zones.
1. Enter a valid code and then press the BYPASS key followed by the zonenumber(s).A two digit number must be entered for each zone, i.e. 01 to 25 (excludingzone 09 - tamper).
2. Wait for five seconds. The system then confirms the bypassed zones on thedisplay.
3. Set the system by entering a valid code followed by the AWAY or STAY keyas required.
4. To remove all bypassed zones enter a valid code and then press the OFF key.Note: Any zones programmed as Fire or Panic cannot be bypassed.
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Programming User CodesProgramming User CodesProgramming User CodesProgramming User CodesProgramming User CodesThe master code (user 01) is 1234 by default. It is strongly recommended that themaster user changes this code. The code can assign up to 14 additional codes. Themaster code is user 01 and the other users are numbered 02-15. In addition to user1, any user code programmed as Master Area 1 or Master Area 2 in programmingfield 26 or 27 can change other user codes in the same area (see User AccessRights in programming). The engineer code cannot change codes.
1. To assign a new code or change an existing code, enter the master code(User 01) then press the CODE key followed by the two-digit user number(01 – 15) then enter the new four digit code.After entering the new code a confirmation beep occurs on the keypad if thecode has been successfully changed.Entry of a code already in use results in the keypad beeping three times toindicate the fault. The procedure must be repeated to choose another code.
2. To delete a code, enter the master code then press the CODE key followed bythe user number (02 – 15) to be deleted. Wait five seconds. A confirmationbeep occurs at the keypad if the code has been successfully deleted.
Note: If the Master Code has been lost, entering Ö95 twice in engineer mode willset the code back to factory default (1234).
PPPPPanic anic anic anic anic AlarAlarAlarAlarAlarmmmmmA Panic Alarm can be initiated by activating a panic button connected to a zoneprogrammed as PA Audible or PA Silent. The Ö and # keys can also be used toinitiate a panic alarm if programming field Ö05 is programmed for a panic zoneresponse. The Ö and # keys must be pressed together to initiate the alarm.
For a PA Audible response, the zone number is indicated on the keypad display.This is displayed as zone 99 for the keypad panic. For a PA Silent, the zone numberis only displayed after entering a valid code and then pressing the OFF key.
To cancel the alarm, enter a valid code and then press the OFF key.
To reset the system, enter a valid code and then press the OFF key.
FirFirFirFirFire e e e e AlarAlarAlarAlarAlarmmmmmSmoke detectors can be connected to any zone programmed as Fire. Activating thiszone type in the set or unset state will cause the internal and external sounders topulse on and off.
1. To silence the sounders, enter a valid code and then press the OFF key. Resetthe smoke detectors according to their instructions.
2. To reset the system enter a valid code and then press the OFF key.Note: The SW- (Switch Negative) connection can be used as a detector reset for
latching smoke detectors. The terminal should be connected to the negativesupply for the detector. The SW- output activates on the second entry of avalid code and OFF after the alarm condition.
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DuressDuressDuressDuressDuressThe duress facility allows a panic signal to be transmitted if the user is forced toaccess the system under threat. A user code assigned as a duress code in program-ming field 26 or 27 (see User Access Rights in programming) can set and unset thesystem as normal but will also activate any outputs programmed as PA and willtrigger a Panic communicator report. No audible alarm occurs.
ChimeChimeChimeChimeChimeThis facility allows the internal sounders to Chime when certain zones are opened.To enable the Chime function on a zone(s):
1. Enter a valid code (user or engineer) and then press the CHIME key followedby the 2 digit zone number(s) to be put on Chime.
2. Wait five seconds. The keypad display then indicates which zones have theChime facility enabled.
3. Chime mode can be toggled on or off by entering a valid code and thenpressing the CHIME key.
4. The Chime function can be removed from all zones by entering a valid codethen pressing the CHIME key followed by 00.
TTTTTesting the systemesting the systemesting the systemesting the systemesting the systemAny valid code (engineer or user) can be used to test the system.
To enter test mode, enter a valid code and then press the TEST key. The internaland external sounders (bell) then operate for 3 seconds and the keypad displayscrolls through each of the programmed zone numbers, allowing each zone to betested. On activation of each zone the keypad buzzer and internal sounders beepand the zone number is removed from the list on the display. The strobe output willactivate for the duration of the test.
Once all zones have been tested the system will automatically exit Test Mode. Entera valid code and then press the OFF key to exit Test Mode manually.
The Master Code (user 01) and the engineer code can trigger a communicator testsignal by entering the code and then pressing the # key followed by the 5 key. TheTest option must be enabled in programming field Ö68.
Note: The keypad buzzer will sound a single beep every 15 seconds as a reminderthat the system is in Test Mode.
Setting the Setting the Setting the Setting the Setting the Time and DaTime and DaTime and DaTime and DaTime and DateteteteteThe time and date can be set by the master or engineer code.
1. Enter the code and then press the # key followed by the 9 key.2. Enter the time and date in the format: dd mm yy hh mm (i.e. day, month,
year, hours, minutes, all as two digits)
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Viewing the Event LogViewing the Event LogViewing the Event LogViewing the Event LogViewing the Event LogThe Vista 25 has a 250 event memory. The full log can be viewed by the master codeor the engineer code using a 6139 full text keypad.
1. Enter the code and then press the # key followed by the 7 key.The most recent event is shown on the keypad display. The top line of thedisplay shows the time and date. The bottom line shows the event descriptionfollowed by the area, user number and zone number. The format is as follows:EEEEEEEE A ZZ UUWhere EEEEEEEE = event description, A = area, ZZ = zone number, UU =user number.
2. Use the 1 key to scroll backwards through the events and the 3 key to scrollforwards.
Note: The user number is always displayed. If the event is not affected by a usercode, e.g. an intruder alarm, the user number displayed is the last user toaccess the system.
The 6128 fixed text keypad cannot display the full log. It can be used to view a logof the alarm zones. Entering a valid code and then pressing the # key followed bythe 8 key displays the last zone to cause an alarm. The 1 key can be used to scrollback to view previous alarms and the 3 key to scroll forward.
Printing the Event LogPrinting the Event LogPrinting the Event LogPrinting the Event LogPrinting the Event LogThe full event log can be printed on exiting programming mode by enablingprogramming field 15. Two printer leads are required to enable connection fromthe panel to an RS232 Serial Printer:
Master Printer Lead (part no. 2011-095) - connects from the printer to the AdapterPrinter Lead.
Adapter Printer Lead (part no. 2011-095) - connects from the control panel to theMaster Printer Lead.
The Adapter Printer Lead connects to the control panel using a three wire connec-tion. The three connections are the SW- terminal (yellow wire), the +12 V Auxil-iary supply (red wire) and the -12 V Auxiliary supply (black wire).
The printer settings should be as follows:
Data Bits 8Parity NoneBaud Rate 1200Country UKPrint Mode TextAuto Off DisabledEmulation StandardDTR Normal
Note: The event log can be uploaded from the panel using the Vista 25 Downloader.
Note: See Appendix B
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TTTTTrrrrroubouboubouboubleshootingleshootingleshootingleshootingleshootingShown below are some examples of different display conditions which can occur onthe Vista 25. In each example the 6139 keypad display is shown above the 6128 keypaddisplay.
1. CHECK followed by a zone numberindicates a tamper fault on the zone.CHECK 09 refers to a panel-lid or belltamper. Also see point 2.
2. If the display alternates between Check 09and Fault ECP MODULE 0 or alternatesbetween CHECK E0 and CHECK 09 thenthe device addressed as 0 on the keypadbus is not communicating with the controlpanel.
3. Mains Fail or NO AC indicates that themains power for the system has been lost.
4. SYSTEM LOBAT or BAT indicates thatthe internal battery is running low.
5. Open Ckt or OC indicates that the keypadis not receiving any data from the controlpanel on the Data Out line.
Mains Fail
System Lobat
Open Ckt
NO AC
READY
04 NO AC
CHECK
READY
CHECK 04 FRONT
DOOR
OC
AC
BAT
READY
E0 (09) NO AC
CHECK
READY
FAULT ECP MODULE
0 (CHECK 09)
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5. Telco Line Cut or Cd indicates that thesystem has a telephone line fault.
6. This indicates that the system iscommunicating with the download PC.
7. This indicates that the system has failed tocommunicate to the alarm receiving centre.
8. This indication occurs on an Area 1 keypadwhen the system is in Program (engineer)Mode. Program Mode can only be accessedby an Area 1 keypad.
9. This indication occurs on an Area 2 keypadwhen engineer mode has been accessed atan Area 1 keypad.
Telco Line Cut
Cd
Comms Mode
CF AC
READY
Comm. Fail
CC NO AC
READY
>>Program Mode
Ö=Fill #=View
00 AC
ENGINEER on site
Not Usable, WAIT
dE AC
NOT READY
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11. This indicates that the Program ModeAccess option has been enabled inprogramming field Ö68. The system isattempting to dial to the central station andaccess will only be made after a successfulcommunication.
12. This indicates that the system is set up fortwo areas and that the other area (in thisexample Area 2) is not ready to be set.
13. This indicates that a radio detector is notcommunicating with the alarm system.Call the alarm company.
12. This indicates that the system requires anengineer reset
Other AreaNot Ready
A2
dE AC
READY
Delayed Entry,
Reporting to C/S
Call For Service
Check 04 Hall
RF - TX No Report
AC 04Check
5F AC
CE AC
Alarm
↑↓
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09
Check
Jam Detection A4
AC
A4
Check
AC
15. This indicates that one of the detectorshas a low battery. Replace the battery orcall the alarm company, the alarm canstill be used during this period.
Check 04 Hall RF-Tx LOW - BATT
04
Check
AC
BATT
14. This indicates that the alarm system hasbeen jammed by a radio signal. Call thealarm company. A4 indicates receiveraddress 4.
↑↓
16 Disarmed Ready s
AC Ú Ready
An S or Ú indicates that the system is setup for two areas and that the other area(in this example) is SET.
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APPENDIX APPENDIX APPENDIX APPENDIX APPENDIX A:A:A:A:A: SPECIFICASPECIFICASPECIFICASPECIFICASPECIFICATIONSTIONSTIONSTIONSTIONS
VVVVVista 25 Contrista 25 Contrista 25 Contrista 25 Contrista 25 Control Pol Pol Pol Pol Panelanelanelanelanel
PhysicalWidth 238mm
Height 304mm
Depth 80mm
ElectricalMains Input 230 V a.c. (+10% – 6%) 50Hz
Stand-by Battery Up to 7Ahr 12 V Sealed lead acid
Aux Power Output 12 V d.c., 1 A max.
Output Triggers 12V d.c. (0V in alarm)
5 mA maximum sink current
6139 Full 6139 Full 6139 Full 6139 Full 6139 Full TTTTTeeeeext Kxt Kxt Kxt Kxt Keeeeeypadypadypadypadypad
PhysicalWidth 160 mm
Height 120 mm
Depth 31 mm
ElectricalVoltage Input 12 V d.c.
Current drain 60 mA
100 mA in alarm
6128UK Fix6128UK Fix6128UK Fix6128UK Fix6128UK Fixed ed ed ed ed TTTTTeeeeext Kxt Kxt Kxt Kxt Keeeeeypadypadypadypadypad
PhysicalWidth 146 mm
Height 120 mm
Depth 25 mm
ElectricalVoltage Input 12 V d.c.
Current Drain 20 mA (60 mA in alarm)
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4208 - 2 Expander Module4208 - 2 Expander Module4208 - 2 Expander Module4208 - 2 Expander Module4208 - 2 Expander Module
PhysicalWidth 180 mm
Height 160 mm
Depth 32 mm
ElectricalInput Voltage 12 V d.c.
Current Drain 45 mA quiescent
Output Triggers 12 V d.c. (0 V when active)
100 mA maximum sink current for each output
4204 R4204 R4204 R4204 R4204 Relaelaelaelaelay Moduley Moduley Moduley Moduley Module
PhysicalWidth 163 mm
Height 108 mm
Depth 32 mm
ElectricalInput Voltage: 12 V d.c.
Current Drain: 15 mA quiescent + 40 mA per active relay
Contact Rating: 2 A max. at 28 V d.c./a.c. (resistive loads)
RF DeRF DeRF DeRF DeRF DevicesvicesvicesvicesvicesSee RF device specifications enclosed with device.
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APPENDIX BVista 25UK Eventlog Abbreviations and Contact ID Codes
epyTtnevE noitpircseDgoLtnevE edoCtnevEDI-tcatnoC
tesnU/mrasiD TESNU 104E
teSlluF/yawA YAWATES 104R
teStraP/yatS YATSTES
senoZetalosI/ssapyB SSAPYB 075E
erotseRsenoZetalosI/ssapyB TSRPYB 075R
segnahCedoCresU EDCRSU
sseccaedommargorP/reenignE CADMGRP 726E
tixEedommargorP/reenignE XEDMGRP 826R
segnahCedommargorP/reenignE HCGORP
mralAredurtnI NSURTNI 231Ero131E
erotseRmralAredurtnI TSRRTNI 231Rro131R
mralAcinaPelbiduA .A.P 321E
erotseRmralAcinaPelbiduA TSR.A.P 321R
mralAcinaPtneliS .A.P 221E
erotseRmralAcinaPtneliS TSR.A.P 221R
deretnEedoCsseruD SSERUD 121E
)#+*(mralAcinaPdapyeK .A.P 321E
mralAeriF ERIF 011E
erotseRmralAeriF TSRERIF 011R
)lleb/lenap/enoz(mralArepmaT REPMAT 383E
erotseRmralArepmaT TSRPMT 383R
)50epytenoz(mralArepmaTrh42 LBRT 083E
erotseRmralArepmaTrh42 TSRLBRT 083R
epytenoz(mralAyrailixuArh42)80
YRALIXUA 083E
erotseRmralAyrailixuArh42 RTSRXUA 083R
tluaF/liaFeniLenohpeleT LIAFLET
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epyTtnevE noitpircseDgoLtnevE edoCtnevEDI-tcatnoC
erotseRtluaF/liaFeniLenohpeleT TSRLET
eruliaFnoitacinummoC LIAFMOC
yrettaBwoLmetsyS TTABWOL 203E
erotseRyrettaBwoLmetsyS TSRTABL 203R
eruliaFrewoP.C.A/sniaM LIAFRWP 103E
erotseRrewoP.C.A/sniaM TSRRWP 103R
eruliaFnoisivrepuSFR PUS-FR 183E
erotseRnoisivrepuSFR RPUS-FR 183R
detceteDmaJrevieceR MAJ-FR 443E
erotseRmaJrevieceR RMAJ-FR 443R
yrettaBwoLenoZFR TABL-FR 483E
erotseRyrettaBwoLenoZFR RTABL-FR 483R
tcennoC/sseccAredaolnwoD NEDLNWD
tcennocsiD/tixEredaolnwoD XEDLNWD
teSysaE 99resusasgoL 804E
degnahCetaD&emiT HCETD/T
noitavitcAenoZtseTkaoS TSETKAOS
erotseRenoZtseTkaoS TSRKAOS
deretnEedoMtseT EDOMTST
detixEedoMtseT TIXETST
eruliaFsuBdapyeK/PCE F.SUBPCEfi383ErotesnehW531E
TESNU
erotseRsuBdapyeK/PCE R.SUBPCEfi383RrotesnehW531R
TESNU
teseRgodhctaW TESRGODW 503E
sseccAedoCrenaelC NIRNLC
tixEedoCrenaelC TUORNLC
dellecnaCmralA 604E
edoC(tseTdereggirTyllaunaM)5#+
106E
APPENDIX B(cont.)
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ADEMCO LIMITED WARRANTYAlarm Device Manufacturing Company, a Division of Pittway Corporation, and its divisions, subsidiariesand affiliates (“Seller”), 165 Eileen Way, Syosset, New York, 11791, warrants its products to be in conform-ance with its own plans and specifications and to be free from defects in materials and workmanship undernormal use and service for 18 months from the date stamp control on the product or, for products not havingan Ademco date stamp, for 12 months from date of original purchase unless the installation instructions orcatalogue sets forth a shorter period, in which case the shorter period shall apply. Seller’s obligation shall belimited to repairing or replacing, at its option, free of charge for materials or labour, any product which isproved not in compliance with Seller’s specifications or proves defective in materials or workmanship undernormal use and service. Seller shall have no obligation under this Limited Warranty or otherwise if theproduct is altered or improperly repaired or serviced by anyone other than Ademco factory service. Forwarranty service, return product transportation prepaid to:
Ademco-Microtech Ltd, 3 Wellington Crescent, Fradley Park, Lichfield, Staffs, WS13 8RZ.
THERE ARE NO WARRANTIES, EXPRESS OR IMPLIED, OF MERCHANTABILITY, OR FITNESSFOR A PARTICULAR PURPOSE OR OTHERWISE, WHICH EXTEND BEYOND THE DESCRIP-TION ON THE FACE HEREOF. IN NO CASE SHALL SELLER BE LIABLE TO ANYONE FORANY CONSEQUENTIAL OR INCIDENTAL DAMAGES FOR BREACH OF THIS OR ANY OTHERWARRANTY, EXPRESS OR IMPLIED, OR UPON ANY OTHER BASIS OF LIABILITY WHATSO-EVER, EVEN IF THE LOSS OR DAMAGE IS CAUSED BY THE SELLER’S OWN NEGLIGENCEOR FAULT.
Seller does not represent that the products it sells may not be compromised or circumvented; that the prod-ucts will prevent any personal injury or property loss by burglary, robbery, fire or otherwise; or that theproducts will in all cases provide adequate warning or protection. Customer understands that a properlyinstalled and maintained alarm may only reduce the risk of a burglary, robbery, fire or other events occurringwithout providing an alarm, but it is not insurance or a guarantee that such will not occur or that there willbe no personal injury or property loss as a result. CONSEQUENTLY, SELLER SHALL HAVE NO LI-ABILITY FOR ANY PERSONAL INJURY, PROPERTY DAMAGE OR OTHER LOSS BASED ON ACLAIM THE PRODUCT FAILED TO GIVE WARNING. HOWEVER, IF SELLER IS HELD LIABLE,WHETHER DIRECTLY OR INDIRECTLY, FOR ANY LOSS OR DAMAGE ARISING UNDER THISLIMITED WARRANTY OR OTHERWISE, REGARDLESS OF CAUSE OR ORIGIN, SELLER’SMAXIMUM LIABILITY SHALL NOT IN ANY CASE EXCEED THE PURCHASE PRICE OF THEPRODUCT, WHICH SHALL BE THE COMPLETE AND EXCLUSIVE REMEDY AGAINST SELLER.This warranty replaces any previous warranties and is the only warranty made by Seller on this product. Noincrease or alteration, written or verbal, of the obligations of this Limited Warranty is authorised.
ADEMCOMicrotech Ltd.
3 Wellington Crescent
Fradley Park
Lichfield
Staffs
WS13 8RZ
A division of the Pittway corporation © Copyright Pittway Corporation
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