INSTALLATION AND PROGRAMMING GUIDE HARDWIRED CONTROL PANEL
9851 Hardwired Control Panel Installation and Programming Guide. © Cooper Security Limited. 2002 Every effort has been made to ensure that the contents of this book are correct, errors and omissions excepted. However, neither the authors nor Cooper Security Limited accept any liability for loss or damage caused or alleged to be caused directly or indirectly by this book. The contents of this book are subject to change without notice. Printed and published in the U.K.
Contents Contents 1. INTRODUCTION ....................................................................................... 1 Operator Controls and Displays - 9930 ......................................................................................... 3 System Features ............................................................................................................................ 4 Detectors ........................................................................................................
Contents Safety Notice ............................................................................................................................... 24 Connecting the Telephone Line ............................................................................................ 25 Fitting a Plug-On Communicator .......................................................................................... 27 Plug-On Communicator Signals: .............................................................................
Contents Setting Time and Date (Command 51) ................................................................................. 58 Omit Tamper Allowed (Command 52) ................................................................................... 58 Abort Reset (Command 53) .................................................................................................. 58 BVVO Supervision (Command 54) .......................................................................................
Contents Select Language (Command 126) ........................................................................................ 76 Radio Zone Supervision Fail Response (Command 128) .................................................... 76 Telecommand Requires Entry for Unset (Command 129) .................................................... 77 Report Mode (Command 131) .............................................................................................. 77 Send Tamp as Burg (Command 132) ...........
1. Introduction 1. INTRODUCTION The 9851 is designed to be fully programmable to suit individual site requirements and user needs. The system comprises a control unit in a shielded case, up to four separate keypads and one keyswitch interface (see Figure 1 on the next page). You should always fit at least one keypad. The control unit provides: ° A four-wire bus connection for keypads, keyswitches and hard-wired or wireless zone expanders.
1. Introduction ° Keyswitch setting/unsetting. ° Dual key PA alarm from the keypads. ° Remote telecommand set/unset when using 9955 RF Expander. To reduce the possibility of false alarms the system also provides Alarm Abort and Alarm Confirmation communications output. Before attempting to program the system, make sure you are completely familiar with the functions of the system and its programmable options.
1. Introduction Operator Controls and Displays - 9930 Figure 2. 9930 Remote Keypad. The 9930 keypad has a single line 16 character LCD display that shows "first to alarm" information, level status, and programming commands. In addition there are three LEDs with the following functions: Glows steadily when mains power is present. Flashes when the system is working from battery backup. Glows steadily if a telephone line fault is present.
1. Introduction System Features Detectors The control unit and expanders provide connections for up to 40 separate detector zones. There are three different methods of connecting wired detectors: Four-wire closed circuit loop (CCL). You can connect a maximum of eight CCL zones to the control unit and up to 32 extra zones using expanders. Two-wire Fully Supervised Loop (FSL). You may connect up to 16 FSL zones to the control unit and and extra 24 zones using expanders. Two-wire End of Line (EOL) resistor.
1. Introduction other detectors or remote setting switches apart from the ones it has learned. See the separate "RFX Installation and Programming" manual for more details.
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2. Technical Description 2. Technical Description Specification Environmental Operating temperature Humidity Dimensions Weight Internal Clock Grade 2 -10° to +55°C 96% RH 310mm W, 385mm H, 95mm D 4.4 kg (without stand-by battery) ±10 minutes over one year (depending on the accuracy of the mains supply frequency). Radio detector differs 16,777,214 (224 -2) Conforms to BS4737 Part 1 for remote signalled systems, ACPO-IAS Policy, NACOSS NACP14, ABI log requirements.
2. Technical Description LS AUX Coms OP1-8 Can support two parallel connected externally mounted 16 Ohm loudspeakers for internal sounder or EE tones. 500mA, 12VDC min. 13.8VDC max, ripple ±2% max. 12V logic outputs, -ve applied in alarm (+ve removed), 50mA max. Inputs TR = Tamper return for bell. Tellback/RedCare reset* = +12V applied to operate reset. Line Fault input* = +12V applied to indicate line failure. * These outputs and inputs appear as pins on the connector for the plug by communicator.
2. Technical Description Control Unit PCB Figure 3 shows the layout of the control unit PCB. Lid Tamper switch Plug-by communicator connector Plug-on communicator connector Zone connectors Printer connector Reset pins Factory test pins Plug-on communicator connector Local Downloader connector Keypad and expander bus Telephone line connector Telephone line socket Outputs 21VAC from mains transformer Aux power Kick start pins Battery connector Figure 3.
2. Technical Description 9954 Expander The 9954 Expander provides connectors for either eight four-wire CC loop zones, FSL or EOL zones. Figure 4 shows the layout of the PCB. CC/FSL/EOL Jumpers AT5 CCT2 AT6 Zone Connectors EOL CCT1 FSL Zone Connectors AT1 CCT5 AT2 CCT6 CCT3 AT7 CCT4 AT8 AT3 CCT7 AT4 CCT8 Lid Tamper switch 2 3 4 Spare Connectors (Not connected) Address Jumpers Keypad bus 0V 12V CLK DATA Figure 4.
3. Installation 3. INSTALLATION Caution: Always remove mains power before opening the case lid. Do not work inside the control unit with mains power present. Overview A typical installation comprises the following main steps: 1. Survey the site and decide on positions for wired detectors, 9954 wired expanders, control unit, keypads, external and internal sounders. As part of the survey ask the user what facilities they need. 2.
3. Installation Cabling Keypads and Expanders Cooper Security recommend that you use 8-core 7/0.2 or 16/0.2 alarm cable for wiring keypads and expanders. You can connect the keypads and expanders in either a star or bus configuration (see Figure 5). If you are intending to use long cable runs then Cooper Security recommend that you use star wiring with no more than 200m of cable per branch. Control Unit 200m 200m 200m 200m 200m Distribute devices along cable for better performance.
3. Installation 1. Do not connect anything other than keypads and expanders to the keypad bus. The keypad bus power supply is limited to a maximum of 400mA and can supply no more than a maximum of four keypads and four expanders. 2. Make sure that the voltage between 0V and 12V of the keypad bus at the furthest point from the control unit is at least 12.0VDC when all the keypad backlights are on. Note: The following instructions assume that you have already run all the necessary cabling.
3. Installation Cooper Security recommend that you mount the keypad using No 8 or 6 screws (M4/M3.5) as follows: 1. Select which cable entry you are going to use and break out the appropriate plastic sections. 2. Hold the backplate in place against the wall and mark the position of the centre hole in the adjustable cam (see Figure 6). 3. Drill and plug the hole, and screw the backplate to the wall through the adjustable cam. Do not tighten the screw completely home. 4.
3. Installation To Control Panel Transformer L N 230V ~50Hz 200mA T 250mA 250V Figure 7. Mains Connection Connect the 21VAC lead from the mains transformer to the main pcb. See Figure 3 for the location of the 21VAC connector. Caution: Do not apply mains power at this point. Do not work inside the control unit case when mains power is present. Remote Keypads Keypad Addressing The control unit is supplied with one remote keypad.
3. Installation Keypad Backlight When supplied from the factory the control unit is configured with the keypad backlight ON. To turn the keypad backlight OFF remove the jumper from the "ON BACKLIGHT" link, shown in Figure 8. Connecting Keypads, Exit Terminate Buttons, Lock Switches and Sounders Figure 9 shows the connections for any of the remote keypads. To connect an exit terminate button use the "ET" connector terminals on the keypad PCB. Use the "ET" connector terminals to connect a Lock Switch.
3. Installation Detector Circuit Connections The left hand edge of the main PCB provides 24 connectors that can be used for up to 16 zones. During programming use command 21 to configure these connectors as either 4-wire CC zones, two wire FSL, two wire EOL, or two wire FSL plus expander. Four Wire CC Connections Figure 10 shows how to connect four wire CC zones. Note that pairs of alarm contacts alternate with pairs of anti-tamper contacts.
3. Installation The wiring resistance of the cable to the detector (including joints) should be restricted to a maximum of 100 ohms. The recommended maximum cable distance per zone is 200 - 300 metres. 4K7 Alarm contacts 2K2 EOL Zone 1 Tamper contacts 4K7 1 2 Zone 2 Alarm contacts 2K2 EOL Tamper contacts Figure 11. FSL Connections 4k7 Yellow Violet Red 2k2 Gold Red Red Red Gold Figure 12.
3. Installation Alarm contacts 2K2 EOL 1 Zone 1 2 Alarm contacts 3 4 2K2 EOL Zone 2 2K2 EOL 5 6 Global anti Tamper Loop 7 8 Zone 3 Zone 4 9 10 11 12 Zone 5 Zone 6 13 14 15 16 Zone 7 Zone 8 Figure 13. EOL Connections Connecting Expanders Figure 14. shows how to wire a 9954 Hard Wired Expander or 9955 Radio Expander to the control unit. Expander 0V 12V CLK DATA 0V 12V CLK DATA To other keypads Control Unit Figure 14.
EOL FSL 3. Installation Four-wire CC Two-wire FSL Two-wire EOL Figure 15. Jumper Positions to Select Connection Types Once you have connected a 9954 expander refer to the instructions supplied in order to connect detectors. Once you have connected a 9955 expander then refer to the instructions supplied in order to "learn" radio detectors to the expander. Expander Addressing If you fit 9955 or 9954 expanders then you must allocate each expander to a specific range of zone numbers.
3. Installation Shock Sensor Reset 0V Bell Follow Buzzer/Relay OP3 OP3 TR TR ST VIPER +ve ST BUZZER/RELAY LS LS +ve 12V Aux +ve 12V Aux Use Command 83 4 Use Command 83 0 Relay energises/buzzer sounds when bell activates. PIR Set Latch/Walk Test French Siren Test OP3 OP3 PIR TR 0V SIREN +ve TR ST ST LS LS +ve 12V Aux +ve 12V Aux For: Set Latch use Command 83 3 Walk Test use Command 83 5 Use Command 83 X1 (for use in France only) Figure 17.
3. Installation Momentary or Continuous Keyswitches The 9928 can be connected to either momentary or continuous keyswitches, see Figure 18. When using a momentary keyswitch remove the jumper from link M/C. When using continuous keyswitches fit a jumper to link M/C. Using a Communicator The 9851 has an internal communicator.
3. Installation line failure. While enabled Line Monitor continually checks the line voltage to ensure that the line is connected. If this function detects a failure the system gives a programmable Line Fault Response (programming command 106). Test Calls The 9851 can be programmed to make test report calls to an Alarm Receiving Centre. "Static" test calls can be programmed to occur at a set time every day. "Dynamic" test calls occur 24 hours after the last call made by the 9851. See "4.
3. Installation (f) Multiple Repeat Attempts. (g) Line Status Monitoring. Usage other than approved usage or failure to comply with the installation and programming instructions may invalidate any approval given to the apparatus, if, as a result, the apparatus ceases to comply with the standards against which approval was granted. Note the approval label on the main PCB. REN The Ringer Equivalence Number (REN) of the built in communicator is 1.
3. Installation The terminals on the 9851 control unit main pcbs are described as Safety Extra-Low Voltage circuits (SELV), according to the definitions in Safety Standard EN60 950. The terminals on the built in communicator are described as SELV or Telecommunications Network Voltage (TNV) according to the definitions in Safety Standard EN60 950. Note: The labels "SELV" and "TNV" which are shown in Figure 19 are for reference only and do not appear on the 9851 main pcb.
3. Installation 3. If other apparatus is required to share the telephone line with the internal communicator (series apparatus), connect the main apparatus to the series switched line connections marked A1, B1. Caution: The connection of only one such series apparatus is allowed to be connected between a main apparatus (e.g., telephone) and the PSTN. Take care to ensure that the A and B line are connected correctly ( i.e. correct polarity).
3. Installation Fitting a Plug-On Communicator Caution: Before fitting a plug on communicator, the control unit must be completely powered down, mains and battery. When reapplying power, the battery must be connected first. Failure to do so may result in damage to the control unit. Remember to short the "Kick Start" pins when powering from a battery only. Plug-On Communicator Signals: The 9851 plug on communicator pins are variants of the standard Scantronic footprint.
3. Installation Fitting a Plug-by Communicator The 9851 can be fitted with a communicator or speech dialler (for example the Scantronic 8400, 8440, 660 or RedCare STU). To fit a communicator, follow the instructions below. Caution: Follow the instructions in the order shown, or you may damage the control unit and/or communicator. 1. 2. Disconnect mains and battery power from the control unit and remove the case lid, if the system has already been installed.
3. Installation Initial Start Up Before applying power to the control unit, ensure that: • All remote keypads and expanders have been addressed and connected. • All external and internal sounder are connected. • All wired zone circuits are connected. • All wireless zones have been learned to their expanders. Then: 1. Connect the battery to the control unit PCB. 2. Briefly short the kick start pins together (they are located above battery connector, see Figure 3).
3. Installation • Each partition can be set, unset or in alarm independently of the other partitions. • You can assign individual keypads to one or more partitions. The keypads cannot set or unset partitions to which they are not assigned. • Each partition can have its own bell and strobe set output. • Every zone belongs to one and only one partition.
4. Programming 4. Programming Entering Programming Mode “3. Installation - Initial Power Up” describes how to enter programming mode for the first time in a new installation. If you wish to enter programming mode at any other time: 1. Make sure the system is unset. Note: If you have selected defaults for Norway, Sweden or Denmark then you must enter a valid user code at this point. 2. Press 0, then key in the Engineer’s code (default 7890). Installer The display shows: You are now in programming mode.
4. Programming To change: Key-in: Notes YY Default Country PTT Defaults 0 n n = country, one of: 0 = UK (Y) 5 = France X1 = Ireland X6 = Denmark 1 = Italy 6 = Belgium X2 = OEM 1 X7 = Sweden 2 = Spain 7 = Germany X3 = OEM 2 3 = Portugal 8 = Switzerland X4 = OEM 3 4 = Netherlands 9 = Austria X5 = Norway Note: If you carry out this Command then the system will load all defaults for the selected country.
4. Programming To change: Key-in: Zone Configuration 21 Y LS Chime Output (Single system only.
4. Programming To change: Key-in: Level A Exit Mode 39 Y System Auto Re-Arm 40 Y Bell Delay 41 Y Bell Duration 42 Y Level A Entry Time Level A Exit Time Entry/Exit Volume (Single system only.
4. Programming To change: Key-in: Tamper Alarm Response (Single system only.) 46 Part’n A Alarm Response 47 (Partitioned system only.) Lockout Kpds During Entry 48 CSID Code Set Time and Date Omit Tamper Allowed Y Y Y Default 0 1 2 Internal sounders Keypad sounders Internal and keypad sounders Y 0 1 2 Keypad sounders Local Alarm Full Alarm Y 0 1 No Yes Y n....n Seed code for remote reset Y .....
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4. Programming To change: Level D Entry Time Level D Exit Time Key-in: 78 79 Y Y Y Notes Default 1 2 3 4 5 6 10 seconds 20 seconds 30 seconds 45 seconds 60 seconds 120 seconds 1 2 3 4 5 6 10 Seconds 20 seconds 30 seconds 45 seconds 60 seconds 120 seconds Output 1 Type, one of 81 n Where n is one of the following: 00 Bell (default full/part set sys.
4. Programming To change: Key-in: Alarm Confirmation 89 Y Event Log* 90 Y Notes Default 0 1 Confirm off (default for rest of World) Confirm on (default UK only) 0 1 3 7 8 Print log View earlier events View later events Toggle printer on/off Print configuration Cancel viewing Toggles time/date display X Y Test Output 1* 91 Y Test Output 2* 92 Y Test Output 3* 93 Y Test Internal Sounder (Single system only.
4. Programming To change: Key-in: Static Test Call Dynamic Testing Three Way Calling (UK) Y A (or B) nn Y 00 Static off A nn Static call at nn hours, 01 to 24 max. B nn Static on day nn, 01 to 24 max.
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4. Programming Leaving Programming Mode When all programming has been completed: 1. Key-in ‘99 ’ at the keypad The display shows: Y 2. Y Press . The display shows: followed by the time and date. 99:Exit Eng ? 99:Checking Sys The system is now in user mode. Note: If there is a fault, for example an open tamper circuit, the display shows this and will not return to Day mode. Press X and rectify the faults. Engineer Reset To perform an Engineer Reset: 1.
4. Programming Restoring All Factory Default Programming If you wish to restore all factory default options then: 1. Enter programming mode (if you are not already there). 2. Key in 98 at the keypad. The display shows: Load Y Y default 3. Press 1 at the keypad. The display shows (for example): Mult Sys? OFF 4. Either: Press 1 to create a partitioned system Or 0 to create a single system. The display shows (for example): Mult Sys? ON 5. Y Press .
4. Programming Y tributes. When you have entered the zone type and attributes press once more to store the changes. Zone Names When you key in the zone number and press the display shows the current zone name with a flashing cursor under the first letter. Enter letters from the keypad one at a time by pressing a number key repeatedly until the display shows the letter you want. You may already be familiar with typing out short messages on a mobile phone using the same sort of system.
4. Programming signal (internal sounders pulsing “Dee Dah Dee Dah...”). Fire alarms operate whether the system is set or unset, and will always trigger communications if fitted. Normal Alarm (NA)(Key in 03) A zone programmed as ‘Normal Alarm’ will start an alarm when the system is set. 24 Hr Zone (24) (Key in 04) This zone causes an internal alarm if violated when the system is unset, and a full alarm if the system is set.
4. Programming event and communicates it to the ARC. The control unit also provides a Key Box output type that you can program to trigger one of the plug by communicator output pins, see Command 151. Smoke Detector (SD) (Key in 10). This zone type is for use in Scandinavia only. Use this type for zones connected to 12V smoke detectors. This type is active whether the system is set or unset and the control unit will transmit a specific alarm to the ARC if triggered.
4. Programming Forbikobler (FB) setting and unsetting. If the zone is violated the control unit starts a tamper alarm, shows the message “AM Tamper” on the keypad display, and logs the event as a zone number with Anti Mask. (Key in 14). This zone type is a Scandinavian entry/exit zone. Use this type on zones connected to stand alone external keypads or access controllers.
4. Programming remains open for more than 10 seconds. Programming a zone as ‘Double Knock’ is a way of reducing false alarms caused by environmental changes, but is not normally recommended. Notes: 1.‘Double Knock’ is available only for Normal Alarm and Entry Route zone types. 2. Do not apply ‘Double Knock’ to radio zones with a PIR detector. The radio PIR uses a lockout timer and the detector will not send a second activation within the Double Knock time window.
4. Programming Option 1 Eight End of Line resistor (EOL) zones on control unit, plus up to 32 zones on expanders. Option 2 16 Fully Supervised Loop (FSL) zones on control unit, plus up to 24 on expanders. Option 3 Eight FSL zones on control unit plus up to 32 zones on expanders. See Chapter 3 for wiring details. Loudspeaker Chime (Command 22) In a single system a user may find that the chime tone from the keypads is not loud enough.
4. Programming Local Sounder Delay on Entry (Command 26) This Command controls the time at which local sounders operate in response to an entry alarm. Option 1 (default) introduces a delay to allow silent communications when an entry alarm is triggered (required by some police forces). The option is only valid under the following conditions: Alarm abort off (Command 36). Bell delay not zero (Command 41). Dual Ply off (Command 86). Alarm Confirm (Command 89) disabled.
4. Programming If you use option 1 and the user strays from an entry route zone during entry then the system waits 30 seconds before raising a full alarm. The system also gives an internal alarm during the 30 second wait. If the user enters an access code before the end of the 30 seconds internal alarm then the user can reset the system. Silent or Audible PA (Command 30) This Command selects how the system responds when a PA zone operates.
4. Programming System Reset (Command 33) If you wish to make the system engineer reset, then use option 1. For user reset use option 0. Certain types of event will always need an Engineer reset, no matter what option you choose for Command 33. These events are: Auxilliary 12V supply fuse blown. Keypad missing or failed. Remote expander missing or failed. A low battery at the control unit. Note: To comply with DD243: 2002 use Engineer Reset (option 1).
4. Programming With option 1 selected the system communicates tamper events to the ARC and starts the internal sounder. When unset, the system also communicates “RF Low Battery” for any radio detectors that have low batteries and either causes an alarm or sends supervision signals. Note: Do not select option 1 if you have two or more 24 hour zones. With option 0 selected the system starts the internal sounder only.
4. Programming keypad ET terminals. In a single system, do not attempt to fit two lockswitches. To set the system the user first enters their access code at a keypad or operates a keyswitch. The control unit starts the exit tone. Note that the exit time is infinite in this option. The user then operates the final exit zone and turns the key in the lock switch to “locked”. The system sets seven seconds after the lock switch contacts open.
4. Programming nal sounder. The system then operates the external sounder for the programmed Bell Duration. See “Programming Commands” for the Command options. Note: Command 41 has no effect if Alarm Confirmation (Command 89) is enabled and either: External Sounder (Command 162) is set to option 0, or Internal Sounder (Command 161) is set to option 0. or Alarm Response Mode (Commands 47, 63, 73 and 77) does not require communications.
4. Programming Option 0 Keypad sounders only. Option 1 Local alarm (internal and external sounder only). Option 3 Full alarm (communication and internal/external sounders). Note that this Command is not available for single systems. Lockout Keypads During Entry (Command 48) This Command is intended to make the system comply with DD243: 2002 6.4.5. If you want the user to unset the system by means of a portable ACE (for example the 725r telecommand) then the keypads must be locked out during entry.
4. Programming Setting Time and Date (Command 51) The system has an internal clock/calendar which it uses to date stamp the log print-out. To set the system’s clock/calendar to the correct time and date: 1. Enter programming mode (if you are not already there). 2. Key in 51 at the keypad. The display shows the current date, for example: D11 M09 Y01 Y 3. 4. 5. 6. 7. Y Key in two digits for the day number and press . Use a leading zero for the first nine days of the month.
4. Programming If you select option 0 the control unit will report supervision failure as described for Command 128. Number of Digits in Access Codes (Command 56) The control unit can use either four-digit or six-digit access codes. To select four digit access codes choose option 0. Select option 1 for six digit access codes. Note: Changing from four- to six-digit access codes (or from six- to four-digit access codes) causes the system to revert to factory defaults for all access codes.
4. Programming set B will continue to act as Final Exit zones during part set B. When the option is set to 1 any Final Exit zones included in part set B will act as Normal Alarm zones during part set B. Level B Entry Route Response (Command 61) Command 61 controls how the system treats Entry Route zones during part set B. (This Command does not affect Partition B in a Partitioned system.
4. Programming Level B Alarm Response (Command 63) Command 63 specifies the alarm response for part set B or Partition B. In a single system: Option 0 Internal sounders and keypad sounders. Option 1 Internal sounders and keypad sounders Option 2 Local alarm (internal and external sounder only). Option 3 Full alarm (communication and internal/external sounders). For a partitioned system: Option 0 Keypad sounders only. Option 1 Local alarm (internal and external sounder only).
4. Programming Option 1 Option 2 Instant Set (no exit tone) Silent Set. Use Command 75 to program the Exit time. At the end of the exit time the keypad gives a double beep confirmation tone. Option 3 Makes the Level C exit mode the same as Level A. For a partitioned system the options are: Option 0 The keypad sounders and any internal sounders give a full tone when setting Partition C. Use Command 75 to select the exit time. Option 1 Terminate.
4. Programming Level C Exit Time (Command 75) This Command sets the exit time for part set C or Partition C. See “Programming Commands” for options. Level D Exit Mode (Command 76) Command 76 specifies the exit mode for part set D or Partition D. For a single system the options are: Option 0 The keypad sounders and any internal sounders give a low tone when entering part set Level D. Use Command 79 to select the exit time. Option 1 Instant Set (no exit tone) Option 2 Silent Set.
4. Programming For a partitioned system: Option 0 Keypad sounders only. Option 1 Local alarm (internal and external sounder only). Option 2 Full alarm (communication and internal/external sounders). Level D Entry Time (Command 78) This Command sets the entry time for part set D or Partition D. See “Programming Commands” for options. Level D Exit Time (Command 79) This Command sets the exit time for part set D or Partition D. See “Programming Commands” for options.
4. Programming PIR Set Latch Shock Reset Walk Test Ready Lamp 24 Hour alarm Strobe Smoke Reset Siren Test Strobe Set Pulse Set (Key in 03) This output is active when the system is set and deactivates when the system is unset or an alarm condition occurs. The output will also activate for one second when a reset is performed or the control unit leaves programming mode. In addition, the output is active during a walk test.
4. Programming Pulse Unset (Key in 13) This output becomes active for 1 second when someone unsets the system, or during a fire or PA alarm. Alarm Confirm (Key in 14) This output is active during a confirmed alarm. Set Complete (Key in 15) This output is active for 10 seconds when someone successfully sets the system. Unset Complete (Key in 16) This output is active for 10 seconds when someone unsets the system, or disarms it after an alarm.
4. Programming Notes: 1. If a Final Exit Zone is triggered, Channel 3 becomes active at the end of the Programmed Entry time, or, 2. If Dual Ply Entry is enabled (Command 86 1) and the Final Exit zone is triggered then Channel 3 becomes active at the end of the 30 second Dual ply grace period, or, 3. If Alarm Abort is enabled (Command 36 1) Channel 3 restores if the user unsets the system. Dual Ply Entry Warning (Command 86) Note: Disable Alarm Confirmation (Command 89) to gain access to this Command.
4. Programming Commands 90 - 97, See “5.Testing” Load Full Defaults (Command 98) Use this Command to load default values for all Commands. 1. Enter programming mode (if you are not already there). 2. Key in 98 at the keypad. Load The display shows: Y Y default 3. Press 1 at the keypad. The display shows (for example): Mult Sys? OFF 4. Either: Press 1 to create a partitioned system Or 0 to create a single system. The display shows (for example): Mult Sys? ON 5. Y Press .
4. Programming Alternate (2) Dual (3) Reports to one of two programmed telephone numbers (see Commands 115 and 116). Operation: The system dials the first telephone number and attempts to connect to the ARC. If it fails, it will then close down and dial the second telephone number and attempt to connect to the ARC. If received and acknowledged on this attempt, the system will close down and the alarm transmission will be complete.
4. Programming Static Test Call (Command 105) In static testing the system makes a test call either at one particular time of day or on one day every month. To make calls at a set time every day press A and then key in a number between 01 and 24 to select the time of day for the call. For example, key 18 to program the control unit to make a static test call at 6:00pm every day. To make calls one day every month press B and then key in the day number of of the call.
4. Programming Dynamic Test (Command 108) In dynamic testing the system makes a test call 24 hours after the last communication. Select option 0 to disable dynamic test calls. Select option 1 to enable dynamic test calls. Note: Cooper Security Ltd recommend that you chose either Static Test Call (105) or Dynamic Test Call, but not both at the same time.
4. Programming Use Command 114 if you want the control unit to answer incoming calls from without an engineer being present. Rings to Answer (Command 112) Use this option to set the number of rings that the system waits before answering an incoming call from the remote PC. See “Programming Commands” for the available options. Answer on One Ring (Command 113) (Answer phone defeat) Use this feature if the alarm system shares a line with other equipment.
4. Programming correct panel ID, and is using the correct software version. If these items don't match then the system hangs up. If the items do match then the system hangs up and, after a short delay, the system seizes the telephone line and calls the PC using the indicated Downloader Telephone Number. Note: Secure Call Back must be Disabled (Default) until the first “attended” upload has been performed.
4. Programming 1. 2. Enter programming mode (if you are not already there). Key in 117 at the keypad. 117: The display shows: 3. Press . The display shows (for example): 4. Key in the digits of the account code for partition A . (If the account code is correct simply press .) Press C between each digit to move the cursor to the right. Press D to move the cursor to the left to correct any mistakes. Press when the account code is correct.
4. Programming Third Downloader Telephone Number (Commands 120) Use this option to enable Downloader to use a third callback number (independent of Commands 118 and 119). Before the Downloader has made a connection, the remote PC operator keys in the third callback number and transmits it to the control unit. The control unit then uses that number to call back to the remote PC. Key in Option 0 to disable the third callback number, or option 1 to enable it.
4. Programming In addition, if you have used Command 121 to program channel 3 with Fast Format communications then the control unit will add a 20 second delay before dialling an alarm call. To disable Communication Acknowledge use option 0. Report Restorals (Command 123) This option is only available if you have selected Scancom Fast format in Command 103. Restore off (0) The system does not communicate restorals. Restore on (1) Enabled. The system will communicate restorals.
4. Programming unit. Use Command 128 to select how the control unit will respond to the reported supervision failure. Option 0 Full alarm (all sounders and communication to the ARC). Option 1 Internal, external and keypad sounders. Option 2 Keypad sounders. Option 3 Communication to the ARC and no sounders. Option 4 Prevent the control unit setting until the faulty radio detector responds to supervision.
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4. Programming Option 0: (Default) The control unit sends all SIA messages as specified in Command 131. Option 1: For full alarm response the control unit sends tampers as burglary (BA) and sends Contact ID 130 in place of Contact ID 137. In addition the control unit does not send: FR (fire restoral), PR (panic restoral), UR (technical restoral), BR (burglary restoral) or TR (tamper restoral).
4. Programming Note: 1. If the control unit is using Fast Format signalling, and has sent a Burg to the ARC, then the control unit activates the output pin assigned to Comms Acknowledge when the ARC returns a Comms Acknowledge signal. (Use Command 101 to enable comms.) 2. The control unit delays reporting/loging either mains loss, or exiting engineering with mains loss, by 15-18 min (chosen randomly).
4. Programming Option 0 No zones (alarm confirmation disabled during entry). Option 1 One zone (not DD243:2002 compliant). Option 2 Two zones. Use option 0 if you are trying to comply with DD243 sections 6.4.2, 6.4.3, 6.4.4 or 6.4.6. These sections cover entry methods where: Unlocking the final door unsets the system. Unlocking the final door disables confirmation. Opening the entry door disables confirmation. The user must call the ARC to unset the system.
4. Programming Partition Programming Introduction When programming the 9851 there are two ways of changing the control unit from a single system to a partitioned system: a) during initial power up or b) by using Command 98. To create a partitioned system during initial power up see page 28. If you have an existing 9851 that has already been programmed as a single system, and wish to convert it to a partitioned system, then: 1. Enter programming mode (if you are not already there). 2.
4. Programming Partition A B C D Exit Mode C39 C62 C72 C76 Alarm Reponse C47 C63 C73 C77 Entry Time C43 C64 C74 C78 Exit Time C44 C65 C75 C79 4. Use Commands 81 to 84 to assign bell outputs to each Partition as required. Option 5 assigns an output to Partition A Option 6 assigns an output to Partition B Option 7 assigns an output to Partition C Option 8 assigns an output to Partition D 5. Make sure that the master user understands how to assign individual user codes to each Partition.
4.
4. Programming ACPO DD243: 2002 Compliance Please study this section If you are installing an intruder alarm system in England, Wales and Northern Ireland which has remote signalling, requires the local Police Authority to issue a URN (Unique Reference Number) and you have chosen to use “Sequential Alarm Confirmation” to comply with DD243: 2002.
4. Programming Confirm After Entry = 2 = The control unit starts a confirmed alarm if an intruder activates two separate zones after the entry timer expires. Use this option to comply with section 6.4.5. Command 164 – User Reset After Confirmed Alarm = 1 = enabled to allow users to reset the system after a confirmed alarm. The table opposite summarises which options to select on various Commands in order to comply with paras 6.4.2 to 6.4.6 DD243: 2002 Para: Possible Installation 6.4.
5. Testing 5. Testing Reading the Log (Command 90) The control unit keeps a log of recent events The log can contain up to 500 events. Each event is represented by a short text message, shown below and on the next page. To review the event log, make sure the system is in programming mode, then: 1. Key in 90y. The display shows the most recent event in the log. For a list of the log messages see below. 2. 3. 4. Key in 1 to show earlier events or 3 to see more recent events.
5. Testing Keypad and Event Log Displays 88 Keypad AC Fail AC Restore Alarm Abort AntiMask Al Znn AntiMask Rs Znn AntiMask Tp Znn Aux DC Fail Aux DC Fail Rstr Bad Checksum Printed* AC Lost AC Restore USER Alarm Abort Anti Mask Alarm Znn Anti Mask Restore Znn Anti Mask Tamp.
5. Testing Keypad Low Batt Rstr Low Battery Test Call PA Knn Alarm PA Znn Alarm PA Znn Rstr RF Jamming RF Jamming Rstr RF Sup Fail Znn Printed* Low battery Restore Low Battery Man Trig Test K/P PA KEYPAD Panic Alarm ZONE Panic Restore USER Jamming Start Jamming End Supervision Fail ZONE RF Sup Rstr Znn Super’ion Restore ZONE Set Fail Znn USER Exit Timeout ZONE Smk Det Alm Znn Smk Det Res Znn Soak Fail Znn Smoke Det. Alarm Znn Smoke Det.
5. Testing Printing the Log To print the event log, make sure the system is in programming mode, then Key in 90 Y 0. Figure 24 below shows a sample of a printed log. - 9851 14/12/01 18:42:30 Sounder Tamper Figure 24. Sample Log Print To stop printing press X. To print a listing of the panel's configuration key in 90 8 Y. Testing Outputs (Commands 91-96) You may test parts of the system by entering commands at the keypad.
Index Index Symbols 24 hour alarm ................................................................ 65 24 hour zones ................................................................ 46 9855 ............................................................................... 19 9955 ............................................................................... 19 A Access codes .................................................................. 5 Number of digits .................................................
Index 61 .......................................................................... 60 62 .......................................................................... 60 63 .......................................................................... 61 64 .......................................................................... 61 65 .......................................................................... 61 70 .......................................................................... 61 71 .................
Index I O Inputs ............................................................................... 8 Installation overview ...................................................... 11 Instant Set ..................................................................... 54 Internal sounder confirmed alarm .................................................... 80 Internal sounder test ..................................................... 90 Omit allow ...............................................................
Index S W Secure callback ............................................................. 72 SELV .............................................................................. 25 Sensitivity ....................................................................... 49 Set Complete ................................................................. 66 Set latch ......................................................................... 65 Shock analyser ............................................................
Index Notes: 496791 95
DECLARATION OF CONFORMA NCE Cooper Security Ltd issues this certificate to certify that the equipment known as: 9851 Complies with the following directive: 1995/5/EC R&TTE Directive Signed Stewart Taylor, Technical Director Date: 4 September 2002 Cooper Security Ltd Security House Vantage Point Business Village Mitcheldean Gloucestershire GL17 0SZ www.scantronic.co.uk Product Support (UK) Tel: (09068) 616343. Hours: 08:15 to 17:00 Monday to Thursday, 08:15 to 12:45 Friday.
