SPC42xx/43xx/52xx/53xx/63xx Installation & Configuration Manual Version 3.2 A6V10276959 18.11.
Copyright Copyright Technical specifications and availability subject to change without notice. © Copyright Siemens AB We reserve all rights in this document and in the subject thereof.
Table of contents 1 Meaning of symbols ......................................................................................... 10 2 Security ............................................................................................................. 11 2.1 Target group ....................................................................................................... 11 2.2 General safety instructions ................................................................................. 11 2.2.
9.6 Wiring an external SAB bell ................................................................................ 54 9.7 Wiring an internal sounder ................................................................................. 54 9.8 Installing plug-in modules ................................................................................... 55 10 Powering up the SPC controller ..................................................................... 56 10.1 Powering from battery only ..............
14.6.1 ADD SENSORS .................................................................................. 92 14.6.2 EDIT SENSORS (ZONE ASSIGNMENT) ........................................... 92 14.6.3 ADD WPA ........................................................................................... 93 14.6.4 EDIT WPA ........................................................................................... 93 14.7 ZONES .................................................................................
15.4.3 Doors .................................................................................................123 15.4.4 System alerts .................................................................................... 124 15.4.5 Areas .................................................................................................125 15.4.6 Wireless ............................................................................................ 125 15.4.6.1 Log - Wireless sensor X ....................
15.8.3 Editing a door .................................................................................... 177 15.8.3.1 Door Interlock .................................................................................... 180 15.8.4 15.9 Adding an area group ....................................................................... 181 Configuring controller inputs & outputs ............................................................ 182 15.9.1 Editing an input .............................................
15.12.8 EDP Setup ........................................................................................ 229 15.12.8.1 Adding an EDP Receiver ..................................................................229 15.12.8.2 Editing EDP Receiver Settings ......................................................... 230 15.12.8.3 Editing Event Filter Settings .............................................................. 233 15.12.8.4 Editing EDP settings ..........................................................
21.9 Overview of keypad types ................................................................................ 279 21.10 User PIN combinations..................................................................................... 280 21.11 Duress PINs ..................................................................................................... 281 21.12 Automatic inhibits ............................................................................................. 281 21.12.1 Zones ............
1 Meaning of symbols 1 Meaning of symbols There are several symbols in the document: Symbol Description Not available for SPC42xx, SPC43xx. Only available for SPC controller with IP interface (SPC43xx/SPC53xx/SPC63xx). Not available for installation type Domestic. ! ! Only available in unrestricted mode. Find further information about Security Grade, Region or Mode in text. See Appendix for further information. 10 Siemens AB Security Products A6V10276959 18.11.
Security Target group 2 2 Security 2.1 Target group The instructions in this documentation are directed at the following target group: Target readers 2.2 Qualification Activity Condition of the equipment Installation personnel Technical training for Assembles and building or electrical installs the hardware installations. components on site. Individual components that need to be assembled and installed. Operational startup personnel New, readily assembled and installed device or modified device.
2 Security General safety instructions 2.2.2 Transport Unit damage during transport 2.2.3 Keep the packaging material for future transportation. Do not expose the device to mechanical vibrations or shocks. Setup Radio interference with other devices in the environment / EMS When handling modules that are susceptible to electrostatic discharge, please observe the ESD guidelines.
Security Meaning of written warning notices 2 Danger of explosion or burn hazard if the battery is improperly installed 2.2.5 When inserting new batteries make sure the battery poles are correctly positioned. Use only batteries that have been approved by the manufacturer (type: sealed cell valve-regulated). Do not shorten the battery pins. Do not expose the battery to fire or high temperatures. Do not disassemble the battery. Discard used batteries according to local regulations.
2 Security Meaning of hazard symbols WARNING Warning of dangerous electrical voltage 14 Siemens AB Security Products A6V10276959 18.11.
Directives and standards EU directives 3 3 Directives and standards 3.1 EU directives This product complies with the requirements of the European Directives 2004/108/EC “Directive of Electromagnetic Compatibility” and 2006/95/EC “Low Voltage Directive”. The EU declaration of conformity is available to the responsible agencies at: Siemens AB Building Technologies Division International Headquarters Fire Safety & Security Products Postal Address P.O.
3 Directives and standards EU directives EN50131 Requirement SPC Installation & Configuration Manual identifications Controller hardware [➙ 36] Type of interconnections (refer to 8.8); Technical data SPC4000 [➙ 19] Technical data SPC5000 [➙ 21] Technical data SPC6000 [➙ 23] Wiring the X-Bus Interface [➙ 40] Details of methods of setting and unsetting User programming via the keypad possible (see 11.7.1 to 11.7.
Directives and standards EU directives EN50131 Requirement 3 SPC Installation & Configuration Manual Unset - None Set - Alarm UK, Europe, Sweden, Swiss, Belgium Unset - Tamper Set - Alarm Prioritization of signal and message processing and indications (see 8.4.1.2, 8.5.3); Standard keypad display [➙ 59] Comfort keypad display [➙ 62] Minimum number of variations of PIN codes, User PIN combinations [➙ 280] logical keys, biometric keys and/or mechanical keys for each user (see 8.
3 Directives and standards EU directives EN50131 Requirement SPC Installation & Configuration Manual If ACE is Type A or Type B (see 8.7) and whether portable or moveable (see 11.14); All devices are hardwired and powered by system PSUs. Refer to relevant technical data on PSUs. Component data for non-volatile memory components (see Table 30, step 6); See user documentation for SPCK420/421 and SPCK620/623 keypads. Life of memory support battery (see 8.10.1); N/A. Stored in non-volatile memory.
Technical Data SPC4000 4 4 Technical Data 4.1 SPC4000 Programmable areas 4 Max. number of user codes 32 Remote controls Up to 32 (1 per user) Wireless Panic Alarm Up to 32 Event memory 1'000 intrusion events, 1'000 access events Number of on-board zones 8 Max. number of hardwired zones 32 Max.
4 Technical Data SPC4000 Power supply Type A (per EN50131-1) Mains voltage 230 VAC, + 10%/ -15%, 50 Hz Mains fuse 250 mA T (replaceable part on mains terminal block) Power consumption SPC42xx: Max. 160 mA at 230 VAC SPC43xx: Max. 200 mA at 230 VAC Operating current SPC42xx Controller: Max. 160 mA at 12 VDC SPC43xx Controller: Max. 200 mA at 12 VDC Quiescent current SPC42xx Controller: Max. 140 mA at 12 VDC (165 mA with PSTN, 270 mA with GSM, 295 mA with PSTN & GSM) SPC43xx Controller: Max.
Technical Data SPC5000 4 1) Max. 400 m between devices / cable types IYSTY 2 x 2 x Ø 0.6 mm (min.), UTP cat5 (solid core) or Belden 9829. 2) More I/O expanders can be addressed instead of a keypad or door expander, but number of programmable inputs / outputs cannot exceed specified system limits. 4.2 SPC5000 Programmable areas 16 Max.
4 Technical Data SPC5000 Interfaces 2 X-BUS (2 spurs or 1 loop), 2 RS232 (to X-10 controller or external communication), 1 USB (PC connection), 1 SPC Fast Programmer, SPC53xx: Additionally 1 Ethernet (RJ45) Tamper contact Front spring tamper, 2 auxiliary tamper contact inputs Power supply Type A (per EN50131-1) Mains voltage 230 VAC, + 10%/ -15%, 50 Hz Mains fuse 250 mA T (replaceable part on mains terminal block) Power consumption SPC53xx: Max.
Technical Data SPC6000 4 Dimensions (W x H x D) SPC5320: 264 x 357 x 81 mm SPC5330: 326 x 415 x 114 mm Housing SPC5320: Small metal housing SPC5330: Hinged metal housing, (1.2 mm mild steel) Housing can contain up to SPC5320: 1 additional expander, SPC5330: 4 additional expanders (size 150 mm x 82 mm) 1) Max. 400 m between devices / cable types IYSTY 2 x 2 x Ø 0.6 mm (min.), UTP cat5 (solid core) or Belden 9829.
4 Technical Data SPC6000 Audio Up to 60 sec. pre / 60 sec. post audio recording Field bus 1) X-BUS on RS-485 (307 kb/s) Number of field devices 2) Max.
Technical Data SPC6000 4 Relative humidity Max. 90 % (non condensing) Colour RAL 9003 (signal white) Weight SPC6330: 6.100 kg Dimensions (W x H x D) SPC6330: 326 x 415 x 114 mm Housing SPC6330: Hinged metal housing (1.2 mm mild steel) Housing can contain up to SPC6330: 4 additional expanders (size 150 mm x 82 mm) 1) Max. 400 m between devices / cable types IYSTY 2 x 2 x Ø 0.6 mm (min.), UTP cat5 (solid core) or Belden 9829.
Introduction 5 5 Introduction The SPC series controller is a true hybrid controller with 8 on-board wired zones that communicate with intruder devices. The flexible design of the controller allows the functional components (PSTN/GSM/RF) to be mixed and matched, improving the capability of the system. Using this approach, an installer can ensure that an efficient installation with minimal wiring is achieved.
Mounting system equipment Mounting a G2 enclosure 6 6 Mounting system equipment 6.1 Mounting a G2 enclosure The SPC G2 enclosure is supplied with a metallic cover. The cover is attached to the base of the enclosure by 2 securing screws located on the top and bottom of the front cover. To open the enclosure, remove both screws with the appropriate screwdriver and lift the cover directly from the base. The G2 enclosure contains the controller PCB (Printed Circuit Board) mounted on 4 support pillars.
6 Mounting system equipment Mounting a G2 enclosure 1 3 2 3 3 Standard enclosure 1 Wireless antenna 2 SPC controller 3 Wall mounting screw holes 28 Siemens AB Security Products A6V10276959 18.11.
Mounting system equipment Mounting a G3 enclosure 6.2 6 Mounting a G3 enclosure The SPC G3 enclosure is supplied with a metallic or plastic front cover. The cover is attached to the base of the enclosure by hinges and secured with one screw on the right hand side of the front cover. To open the enclosure, remove the screws with the appropriate screwdriver and open the front cover. The G3 enclosure contains the controller PCB (Printed Circuit Board) mounted on a hinged mounting bracket.
6 Mounting system equipment Mounting a G3 enclosure To wall mount the enclosure: 1. Open the cover and locate the initial fixing screw hole at the top of the cabinet. 2. Mark the position of this screw hole on the desired location on the wall and drill the initial screw hole. 3. Screw the unit to the wall and mark the position of the bottom 2 screw hole positions with the unit vertically aligned.
Mounting system equipment Mounting a G3 enclosure 6 + – 1 2 2. Draw a line around the inside of the back tamper cut out (See item 2 above) to provide a guide for the wall plate on the fixing wall. Remove the enclosure from the wall. 3. Place the wall plate (See item 1 below) on the wall centering it precisely around the rectangle previously drawn (See item 2 below). B A A B 1 2 4. Ensure all four flanges on the wall plate are flush with the wall. 5. Mark the four fixings on the wall plate. 6.
6 Mounting system equipment Mounting a G3 enclosure 2. Fit the enclosure back onto the wall using the three fixings previously removed (See item 2 below). Visually check to ensure there is a flush finish between the wall plate and the enclosure metalwork. 32 Siemens AB Security Products A6V10276959 18.11.
Mounting system equipment Mounting a G3 enclosure 6 3 4 1 2 1 Enclosure 3 Wall Fixing Plate 2 Wall 4 Tamper Switch WARNING If the wall fixing plate is not accurately aligned then the enclosure will not sit properly on its fixings. Wiring the Back Tamper Switch to the Control Panel All control panels have spare inputs configured as tamper inputs that are designed for wiring the tamper switch and do not require any programming.
6 Mounting system equipment Battery installation +– CN23 T1 C T2 NO NC COM 1. Connect NO on the tamper switch to T1 on the controller. 2. Connect COM on the tamper switch to C on the controller. Ensure the T2 jumper is not removed. 3. When the tamper switch is wired, the controller can be commissioned in the normal manner. 6.3 Battery installation For EN50131 compliance the battery needs to be retained within the housing to stop movement.
Mounting system equipment Mounting a keypad 6 The battery flaps should be bent carefully as not to damage the battery. If any signs of a damaged battery exist or any leakage of the electrolyte then the battery should be discarded as per the current regulations and a new battery fitted. 6.4 Mounting a keypad Please refer to corresponding installation instruction. 6.5 Mounting an expander Please refer to corresponding installation instruction. 35 Siemens AB Security Products A6V10276959 18.11.
7 Controller hardware 7 Controller hardware The SPC controller provides 8 on-board wired zones and optional wireless zones that communicate with intruder devices using the new European standard wireless frequency 868 MHz, providing greater security from interference and jamming. For larger applications the SPC system components can be mixed and matched to expand both the wired and wireless zones. This offers unmatched flexibility in cost effective design and efficient installation with minimal wiring.
Controller hardware 7 6 Auxiliary 12 V output The SPC controller provides an auxiliary 12 V DC output that can be used to supply power to expanders and devices such as latches, bells, etc. See page [➙ 269]. The maximum deliverable current is 750 mA. Please Note: The amount of current drawn is subject to the amount of time to be held up under battery conditions. 7 X-BUS interface This is the SPC communications bus used to network expanders together on the system. See page [➙ 40].
7 Controller hardware 21 Battery selector J12: Fit jumper for 17 Ah battery use and remove for 7 Ah battery. Please Note: This selector is only available on 2.3 revision controller PCB. 38 Siemens AB Security Products A6V10276959 18.11.
Door Controller 8 8 Door Controller The two door controller can handle up to two doors and two card readers. Configuration of the operation mode is done via the two door I/Os. Each of the two door I/Os is responsible for the functionality of two inputs and one output of the door controller. A specific door number can be assigned to a door I/O, which gives the inputs and output predefined functionality.
9 Wiring the system Wiring the X-BUS interface 9 Wiring the system 9.1 Wiring the X-BUS interface The X-BUS interface provides for the connection of expanders to the controller. The X-BUS can be wired in a number of different configurations depending on the installation requirements. The X-BUS interface baud rate is 307 kb. NOTICE The X-BUS is an RS-485 bus with a baud rate of 307 kb.
Wiring the system Wiring the X-BUS interface 2A 2B 9 1A 1B 1 2A 2B 1A 2 1B 3 1A 1B 2A 2B Wiring expander 1 Previous expander 2 Next expander 3 SPC controller Most expanders are equipped with additional terminals 3A/3B and 4A/4B for branch expander wiring. See page [➙ 49] for instructions on branch expander wiring. 9.1.1 Loop configuration NOTICE 4000 The SPC42xx/43xx doesn’t support loop configuration (only 1 X-BUS port).
9 Wiring the system Wiring the X-BUS interface The loop (or ring) cabling method offers the highest security by providing fault tolerant communications on the X-BUS. All keypads and expanders are supervised and in case of a X-BUS fault or break, the system continues to operate and all detectors are monitored. This is achieved by connecting 1A, 1B on the controller to 2A, 2B on the first keypad or expander.
Wiring the system Wiring the X-BUS interface 9 All expanders/keypads are fitted with termination jumpers, as default, allowing termination on all the devices. This is imperative for the spur (chain) configuration, as the jumper acts as a resisting terminator cancelling echoes on the line. Within the loop wiring configuration all expanders/keypads are fitted with a jumper, as default, allowing termination on the device. Spur configuration 1 Controller 2-4 Expanders 9.1.
9 Wiring the system Wiring the X-BUS interface Star configuration NOTICE All expanders/keypads are fitted with a termination jumper by default. In star configuration it’s imperative to remove these jumpers. A star configuration is established when multiple expanders are wired back to the same X-BUS port on the SPC controller. Depending on controller type 2 ports may exist (1A/1B, 2A/2B), however only one port (1A/1B) is to be used on each keypad or expander.
Wiring the system Wiring the X-BUS interface 9 The multi-drop configuration varies in that each expander uses the same communication channel as it wires onto the next expander, with all expanders using the same input channel. See multi-drop configuration in the second figure. In the case of a X-BUS break, all expanders and detectors up to the fault continues to be supervised. A short in the cable renders all expanders disabled.
9 Wiring the system Wiring the X-BUS interface 9.1.3.1 Examples of correct wiring Star wiring Multi-drop wiring 46 Siemens AB Security Products A6V10276959 18.11.
Wiring the system Wiring the X-BUS interface 9 Mixed wiring 9.1.3.2 Examples of incorrect wiring NOTICE A mix of star and multi-drop configuration is only allowed if the star point is at the controller X-BUS port. In this case, all expanders/keypads must be wired in multidrop configuration without any other star points in the wiring. 47 Siemens AB Security Products A6V10276959 18.11.
9 Wiring the system Wiring the X-BUS interface Not allowed wiring with a second star point NOTICE If the mix of star and multi-drop configuration is not properly wired the reduced signal quality may lead to slow reaction time of connected devices (e.g. keypad operation) or even loss of communication to devices. If such behavior is observed a wiring in loop OR star configuration is strongly recommended. 9.1.
Wiring the system Wiring of branch expander 9 NOTICE For star and multi-drop wiring It’s not recommended to use shielded cables due to disadvantageous electrical characteristics (higher capacitance) in star and multi-drop wiring configuration. However, if shielding is required (i.e. sites with high electric field interference) a new wiring in proper spur or loop configuration with appropriate installation cable configuration has to be done. 9.1.
9 Wiring the system Wiring the system ground 1A 1B 1 2A 2 2B 2A 1A 2B 1B SHLD 1A 4A 1B 4B 3A 3B 3 1A 1B 2A 2B 4 Wiring of a branch expander 1 Previous expander 2 Expander connected to branch 3 Next expander 4 Expander with branch 9.3 Wiring the system ground 0V of Smart PSU's, Keypads and Expanders must be connected to the SPC controller 0V (System GND). 9.
Wiring the system Wiring the zone inputs SPC 9 NO COM NC +12 V 0V Standard wiring NO Normally open terminal COM Common terminal connection NC Normally closed terminal 9.5 Wiring the zone inputs The SPC controller has 8 on-board zone inputs. By default these inputs are monitored using end of line supervision.
Wiring the system 9 Wiring the zone inputs 1 2 3 SPC I1 4 COM Default configuration (DEOL 4K7) 1 Tamper 2 Alarm 3 EOL 4K7 4 EOL 4K7 1 2 3 4 5 SPC I1 6 COM Anti-Masking PIR configuration 1 Tamper 2 Alarm 3 EOL 1K 4 Anti-Masking 5 EOL 2K2 6 EOL IK The following table shows the resistance ranges associated with each configuration. Range Value Status Range Value Status 52 Siemens AB Security Products A6V10276959 18.11.
Wiring the system Wiring the zone inputs None 1K <100 Closed 3K3 1K0 470R 1K 1K 2K2, 2K2 2K7, 8K2 3K0, 3K0 Short 300 <-> 9K9 Closed Open <100 Short 4K5 <-> 9K0 Open 300 <-> 9K0 Closed >10K Discon <100 Short 300 <-> 10K6 Closed 8K5 <->14K0 Open >15K Discon <100 Short 300 <-> 2K9 Closed 3K9 <100 Short 300 <-> 9K0 Closed 8K2 >10K 4K7 <100 >300 >10K 2K2 3K3 <100 Short 4K7 2K2 300 <-> 9K0 Closed >10K Open 4K8 <-> 14K0 Open <100 Short >15K Discon 300-600
9 Wiring the system Wiring an external SAB bell 9.6 Wiring an external SAB bell On an external bell to the SPC controller board the relay output is wired to the strobe input with Bell Hold Off (BHO) and Tamper Return (TR) connected to their respective inputs on the external bell interface. A resistor (2K2) is pre-fitted on the controller board between the BHO and TR terminals.
Wiring the system Installing plug-in modules 9.8 9 Installing plug-in modules 2 modems (PSTN or GSM) may be installed on the controller board to increase functionality. The picture below shows the 2 slots available for each modem, the primary (left) slot and the back-up (right) slot.
10 Powering up the SPC controller Powering from battery only 10 Powering up the SPC controller The SPC controller has two power sources, the mains supply and the integral standby battery. A qualified electrician should undertake connection to the mains and the mains supply should be connected from a spur that can be isolated. See Page [➙ 282] for full details of conductor sizes / fuse ratings etc. The SPC should be powered from the mains first and then the internal standby battery.
Keypad user interface 11 SPCK420/421 11 Keypad user interface 11.1 11.1.1 SPCK420/421 Introduction The keypad is a wall-mounted interface that allows: Engineers to program the system through the Engineer Programming menus (password protected) and to set/unset the system; a user can control the system on a day-to-day basis. Users to enter User Programming menus (password protected), and to perform operational procedures (set/unset) on the system.
11 Keypad user interface SPCK420/421 1 LCD display The keypad display (2 lines x 16 characters) shows all alert and warning messages and provides a visual interface for programming the system (engineer programming only). The display can be adjusted for contrast and under which conditions the backlight comes on. 2 Alphanumeric keys Alphanumeric keypad allow for both text and numeric data entry during programming. Alphabetic characters are selected by applying the appropriate number of key presses.
Keypad user interface SPCK420/421 11.1.2 11 Using the keypad interface 9 8 7 1 6 2 ok 5 3 4 Keypad display 1 RIGHT SOFT KEY This key is used to select the option presented on the right side of the bottom line display.
11 Keypad user interface SPCK420/421 → BACK to return to previous menu 8 BOTTOM LINE OF DISPLAY In the IDLE state, this line is blank. In Programming mode, this line displays options available to the user. These options align over the left and right soft keys for selection as required. 9 TOP LINE OF DISPLAY In the IDLE state, displays the current date and time.
Keypad user interface SPCK420/421 11.1.
11 Keypad user interface SPCK620/623 To save the programmed setting press ENTER or OK. To change the case of an alphabetic character, press the up/down arrow keys when the character is highlighted by the cursor. To toggle between upper and lower case for all subsequent characters, press the hash (#) key. To delete character to the left of the cursor, press the star key(*).
Keypad user interface SPCK620/623 11 only). (See Display Message Prioritization below) The display can be configured under which conditions the backlight comes on. 3 Soft function keys Context sensitive keys to navigate through menus/programming. 4 Enter key Confirm display or input. 5 Back menu key Go back in the menu Reset buzzers, siren and alarms in the memory.
11 Keypad user interface SPCK620/623 11.2.
Keypad user interface SPCK620/623 11 be inhibited). Off User Amber Flashing Green On Flashing Alarm Red ! Amber Assigned area is unset. Assigned area is Partset A / B Assigned area is fullset On Alarm - Off No alarm On - Flashing Mains Engineer is on site. Off Flashing Alert The system or area can be set.
11 Keypad user interface SPCK620/623 NOTICE The rights of a user can be restricted by the user settings or the settings of the keypad the user is logging in to. Only if the user and the keypad that is being used for logging in have the right for an area, the area is displayed. If the user has the right for several areas but the keypad has only the right for one area, the user will also see the single area view. 11.2.
Keypad user interface SPCK620/623 11 Depending on configuration the direct set option is displayed. A forced set / part set without PIN is possible of the area the keypad is assigned to. 67 Siemens AB Security Products A6V10276959 18.11.
12 Starting the system Engineer modes 12 Starting the system CAUTION The SPC system must be installed by an authorised installation engineer. 1. Wire the keypad to the X-BUS interface on the controller. 2. Enter Engineer Programming by entering the default Engineer PIN (1111). For more details, see Engineering PINs [➙ 68]. 12.1 Engineer modes The SPC system works under 2 programming modes for authorised installation engineers: Full and Soft.
Starting the system Configuring start-up settings 12 SPC Pro SPC Pro is a SDK application providing the ability to program configurations on or offline. SPC Pro programming provides additional advanced communication and X10 functionality not found on the keypad. SPC Pro is compatible with COM ports only. Modems using the USB and modem port are not detected by SPC Pro. SPC Pro may perform firmware upgrades. 12.2.
12 Starting the system Creating system users - AUTO: is not recommended, only with the exception of very small installations. 7. Choose the installation topology: LOOP (Ring) or SPUR (Chain). The system scans for the quantity of keypads, expanders, door controllers and available zone inputs. 8. Press NEXT for scanning all the X-BUS devices. PROGRAMMING MODE will be displayed. The Start-up setting is complete. 1. Check the alerts in the menu SYSTEM STATUS > ALERTS.
Starting the system 12 Programming the portable ACE 8. Press SELECT to use the default PIN. - OR Enter a new user PIN and press SELECT. The keypad confirms that the new user has been created. 12.5 Programming the portable ACE The SPC keypad can be configured with a proximity card/device reader. Users whose profiles are configured as such may remotely set or unset the system, as well as conduct programming, depending on the level of profile.
12 Starting the system Configuring 868 MHz wireless FOB devices 1. Enter the Engineer Programming PIN. (Default PIN is 1111. See Engineering PINs [➙ 68]) 2. Scroll to USERS. 3. Press SELECT. 4. Select EDIT and select USER1 from the list. 5. Scroll to PACE and press SELECT. 6. Toggle to DISABLED. The keypad indicates UPDATED. 12.
Starting the system Configuring 868 MHz wireless FOB devices 2 Fullset 12 4 Partset Number of RF fobs per user: Only one fob device can be programmed for each user. To change fob devices among users, repeat the programming procedure for any new devices. Old fob devices become available for use by different users. Force setting with the RF fob: It is NOT possible to force set the system with an RF fob even if the user assigned to the fob has the ability to force set.
13 Soft Engineer programming via the keypad 13 Soft Engineer programming via the keypad This section provides [Soft] Engineer programming options using the LCD keypad. For each menu option, the keypad must be in Engineer programming: 1. Enter a valid Engineer PIN (Default Engineer PIN is 1111. For more details, see Engineering PINs [➙ 68]). 2. Using the up/down arrow keys, scroll to the desired programming option. 3.
Engineer programming via the keypad SYSTEM STATUS 14 14 Engineer programming via the keypad This section provides [Full] Engineer programming options using the LCD keypad For each menu option, the keypad must be in Full Engineer programming: 1. Enter a valid Engineer PIN (Default Engineer PIN is 1111. For more details, see Engineering PINs [➙ 68]). 2. Press SELECT for FULL ENGINEER programming. 3. Using the up/down arrow keys, scroll to the desired programming option. 4.
14 Engineer programming via the keypad OPTIONS NOTICE Users cannot exit from FULL ENGINEER programming if any fault conditions exist. The first fault will display on the keypad when you attempt to leave engineer mode. You can view and isolate all faults within the System Status menu under Alerts and Open Zones. 14.2 OPTIONS 1. Scroll to OPTIONS and press SELECT. 2.
Engineer programming via the keypad OPTIONS AUTO RESTORE ENABLED/DISABLED KEYFOB RESTORE ENABLED/DISABLED USER DURESS DISABLED PIN +1 PIN +2 RETRIGGER ENABLED/DISABLED BELL ON 1ST ENABLED/DISABLED BELL ON FTS ENABLED/DISABLED STROBE ON FTS ENABLED/DISABLED ALARM ON EXIT ENABLED/DISABLED Only available in ENGINEER CONFIG mode as setting is not in accordance with EN50131.
14 Engineer programming via the keypad OPTIONS PACE AND PIN ENABLED/DISABLED RESTORE ON ENABLED/DISABLED UNSET ENGINEER RESTORE ENABLED/DISABLED OFFLINE TAMPER ENABLED/DISABLED ENGINEER LOCK ENABLED/DISABLED If enabled, system cannot be reset using yellow button on controller unless an engineer code is input on the keypad.
Engineer programming via the keypad TIMERS 14 * Not available for SPC42xx, SPC43xx. 14.3 TIMERS 1. Scroll to TIMERS and press SELECT. 2. Scroll to the desired programming option: Timers Designation of the functions in the following order: 1st row: Web/SPC Pro 2nd row: Keypad Timer Description Default Internal Bells Duration that internal sounders will sound when alarm is activated. (1 – 15 minutes: 0 = never)) 15 min. Duration that external sounders will sound when alarm is activated.
14 Engineer programming via the keypad TIMERS Default Timer Description FULLSET STROBE indicate a full set condition. (0 – 10 seconds) Final Exit The Final Exit time is the number of seconds that arming is delayed after a zone programmed with the final exit attribute is closed. (1 – 45 seconds) 7 sec. Number of seconds to delay triggering of tech. zones with tech. delay attribute. (0 – 9999 seconds) 0 sec. FINAL EXIT Tech. delay TECH.
Engineer programming via the keypad AREAS 14 *NOTE: Entry and Exit timers are displayed on this page if the function (multiple) Areas is not activated. If the function is activated, the Entry and Exit timers for each area are located in the Area Configuration. Default times are dependent upon the Engineer configuration. The default times denoted may or may not be allowable and is dependent on the configuration by the engineer 14.4 AREAS 1. Scroll to AREAS and press SELECT. 2.
14 Engineer programming via the keypad X-BUS DELETE – USER CANCEL – USER DELAY – KEYSWITCH – DELAY INTERVAL – DELAY LIMIT – DELAYED UNSET – UNSET DURATION – INTERLOCK – DUAL PIN RF OUTPUT Select the area to be deleted. See Adding / Editing an area [➙ 166] for further details on these options. 14.5 X-BUS 1. Scroll to XBUS and press SELECT. 2. Scroll to the desired programming options as shown below. 14.5.
Engineer programming via the keypad X-BUS 1 14 9 0 12 9 0 12 38 8 3 7 6 54 7 6 54 Rotary switches identifying expander as 38 For a system with automatic addressing, expanders and keypads belong to the same numbering sequence. E.g. expanders and keypads are automatically numbered 01, 02, 03, etc., by the controller in the order in which they are detected, e.g. its relevant location to controller. In this configuration, zones are allocated to each input expander.
14 Engineer programming via the keypad X-BUS 14.5.3 KEYPADS/EXPANDERS/DOOR CONTROLLERS NOTICE You must upgrade to version 1.1 of firmware before adding door controllers. With earlier firmware versions, the door controllers are seen by the panel as normal I/O expanders and doors must be added manually. 14.5.3.1 LOCATE To locate a keypad/expander/door controller: 1. Scroll to KEYPADS, EXPANDER or DOOR CONTROLLER and press SELECT. 2. Scroll to LOCATE and press SELECT. 3.
Engineer programming via the keypad X-BUS 14.5.3.3 BATTERY Battery voltage: battery voltage level (PSU expanders only) INPUT STATE State of each zone input associated with an expander as follows: C: Closed, O: Open, D; Disconnected, S: Short (Expanders with inputs only) 14 EDIT KEYPADS To edit keypads: 1. Scroll to KEYPADS > EDIT. 2. Press SELECT. 3. Scroll to the device to be edited and press SELECT.
14 Engineer programming via the keypad X-BUS Areas Select which areas can be controlled through keypad. Options Delay Fullset Select to configure a delayed set across all keypads. The location of the keypad is ignored and all areas will perform a full exit time count down. NOTICE An area should be assigned to a keypad only if the keypad is inside the assigned area, and if an entry/exit route is defined.
Engineer programming via the keypad X-BUS 14 Emergency Keys Enable if Panic, Fire and Medical function keys should be indicated in the LCD display. Direct Set Enable if Fullset/Partset function keys should be indicated in the LCD display. Audible indications Alarms Select speaker volume for alarm indications or disable sound. Entry/Exit Range is 0 – 7 (Max volume) Chime Select speaker volume for entry & exit indications or disable sound.
14 Engineer programming via the keypad X-BUS 14.5.3.4 EDIT EXPANDERS To edit expanders: 1. Scroll to EXPANDERS > EDIT. 2. Press SELECT. 3. Scroll to the device to be edited and press SELECT. Parameters and details, if applicable, are displayed for editing as shown in the table below. 4. Press BACK to exit the menu.
Engineer programming via the keypad X-BUS DOORS Configuration of Door I/O 1 & Door I/O 2. READERS Configuration of Reader Profiles 14 To edit a DOOR I/O: 1. Scroll to DOORS. 2. Press SELECT. 3. Scroll to the DOOR I/O to be edited and press SELECT. Parameters and details, if applicable, are displayed for editing as shown in the table below. ZONES No access functionality is realized. The inputs and outputs can be used normally. DOOR 1 – DOOR 64 The selected door number is assigned to the DOOR I/O.
14 Engineer programming via the keypad X-BUS 1 For readers with a green and a red LED. 2 For SIEMENS readers with a yellow LED (AR618X). 3 Profile 3 is used with HID readers that send a PIN to the panel as a card reading with a predefined site code (0 ) 4 Profile 4 is used with HID readers that send a PIN to the panel as a card reading with a predefined site code (255 ). See also 14.5.
Engineer programming via the keypad WIRELESS 14 3. Scroll to select desired configuration: - LOOP - SPUR 4. Press SELECT to update the setting. 14.5.6 BUS RETRIES To program the number of times the system attempts to retransmit data on the XBUS interface before a communications fault is generated: 1. Scroll to BUS RETRIES. 2. Press SELECT. 3. Enter the preferred number of times the system retransmits data. 4. Press SELECT to update the setting. 14.5.
14 Engineer programming via the keypad WIRELESS 14.6.1 SUPERVISION Enable or disable tamper supervision. FILTER LOW SIGNAL Enable or disable the filter low signal (RF strengths 0 and 1). DETECT RF JAM Enable or disable the RF JAM. RFFOB PANIC Enable or disable the RFFob Panic or enable silent mode for the RFFob Panic. WPA TEST SCHEDULE Enter a maximum period (in days) between WPA tests. Max is 365 days.
Engineer programming via the keypad WIRELESS 14 3. Scroll to ZONE. 4. Scroll to the appropriate zone number (only unoccupied zone numbers are displayed). 5. Press SELECT. 14.6.3 ADD WPA NOTICE You can only configure a WPA or check its status on the keypad if there is a wireless module fitted on the panel or any of its expanders and the panel is licensed for the type of module(s) fitted. A WPA is not assigned to a user.
14 Engineer programming via the keypad ZONES 239] SUPERVISE The WPA may be configured to send periodic supervision signals. If supervision is enabled on the WPA (with the jumper), the WPA sends out a supervision message about every 7.5 minutes. The time between messages is randomized to decrease the chances of collision with other WPAs. The supervision function also needs to be enabled on the panel for the particular WPA for correct supervision operation.
Engineer programming via the keypad DOORS 14 Door inputs Each door has 2 inputs with predefined functionality. These two inputs, the door position sensor and the door release switch can be configured. Zone The door position sensor input can be used for the intrusion part as well. If the door position sensor input is used also for the intrusion part, the zone number it is assigned to has to be selected.
14 Engineer programming via the keypad DOORS Door attributes If no attribute is activated, a valid card or a PIN can be used. Attribute Description Void The card is temporarily blocked. Door Group Used when multiple doors are assigned to the same area and/or anti passback, custodian, or interlock functionality is required. Card and PIN Card and PIN are required to gain entry. PIN Only PIN is required. No card will be accepted.
Engineer programming via the keypad DOORS 14 Description Attribute group. In this mode, cardholders must use their access card to gain entry to and exit from a defined door group. If a valid cardholder has presented his access card to enter a door group and not presented the card to exit it, the cardholder is in breach of the Anti-Passback rules. Next time the cardholder attempts to enter the same door group, a Soft Anti-Passback alarm will be raised.
14 Engineer programming via the keypad OUTPUTS 14.9 OUTPUTS Each zone type on the SPC system has an associated output type (an internal flag or indicator). When a zone type is activated, i.e. a door or window opens, smoke is detected, an alarm is detected, etc., the corresponding output is activated. 1. Scroll to OUTPUTS and press SELECT. 2. Scroll to CONTROLLER or EXPANDER and press SELECT. 3. Scroll to the expander/output to be programmed and press SELECT.
Engineer programming via the keypad OUTPUTS 14 External Bell This output type is used to activate the system external bell and is active when any Area External Bell is active. By default, this output is assigned to the first output on the controller board (EXT+, EXT-). Note: An external bell output is automatically activated whenever a zone programmed as an Alarm zone triggers an alarm in Fullset or Partset modes.
14 Engineer programming via the keypad OUTPUTS clears when the alert is restored Entry/Exit This output activates if an Entry/Exit type zone has been activated; i.e. a system or area Entry or Exit timer is running Latch This output turns on as defined in the system latch output configuration (see Configuring system latch and auto set outputs [➙ 188]). This output can be used to reset latching sensors as smoke or inertia sensors.
Engineer programming via the keypad COMMUNICATION 14 Modem 2 Line Fault This output activates when there is a line fault on the secondary modem. Modem 2 Failure This output activates when the secondary modem fails. Battery Low This output activates when the battery is low, Entry Status This output activates if an ‘All Okay’ entry procedure is implemented and there is no alarm generated i.e. the ‘All Okay’ button is pressed within the configured time after the user code is entered.
14 Engineer programming via the keypad COMMUNICATION 14.10.2 ETHERNET PORTS To program the Ethernet port: 1. Scroll to ETHERNET PORT. 2. Press SELECT. The IP ADDRESS option displays, XXX.XXX.XXX.XXX For single digits, leading zero(s) are required. Ie., 001 3. Press SELECT and enter the preferred IP address. When the ENTER key is operated, the system beeps twice and states UPDATED if the IP address is valid.
Engineer programming via the keypad COMMUNICATION 14 NOTICE After a factory default, during the process of initial setup of the system with the keypad, the panel detects if it has a primary or backup modem fitted, and if so, it displays its type and automatically enables it (or them) with the default configuration. No other modem configuration is allowed at this stage. To configure a GSM or PSTN modem: 1. Scroll to MODEMS. 2. Press SELECT. 3.
14 Engineer programming via the keypad TEST ACCOUNT ID This information should be available from the receiving station and is used to identify users each time a call is made to the ARC ACCOUNT NAME Description of the Remote Alarm Receiving Centre PROTOCOL The communication protocol to be used (SIA, Contact ID, Fast Format) 1ST PHONE NUMBER The first number to be dialled to contact the ARC 2ND PHONE NUMBER The second number to be dialled to contact the ARC; the system only attempts to contact the A
Engineer programming via the keypad TEST 14.11.2 14 WALK TEST A walk test ensures that the sensors are operating correctly on the SPC system. To perform a walk test: 1. Scroll to TEST > WALK TEST. 2. Press SELECT. 3. The display indicates the number of zones to be tested on the system with the text TO TEST XX (where XX is the number of valid walk test zones). Locate the sensor on the first zone and activate it (open the door or window).
14 Engineer programming via the keypad TEST 2. Press SELECT. 3. Scroll to a preferred zone and press SELECT, or enter the zone number directly. If the zone is located close to the keypad, the status of the keypad can be viewed as it changes. The Zone status and resistance value displays on the top right. 4. Change the state of the sensor; e.g. for a door contact sensor, open the door. The keypad buzzer beeps and the status of the sensor changes from CL (Closed) to OP (Open).
Engineer programming via the keypad TEST 14.11.6 14 AUDIBLE OPTIONS The audible options are applied as indicators within a walk test. To set the audible options: 1. Scroll to AUDIBLE OPTIONS. 2. Press SELECT. 3. Scroll to one of the following options: ALL, INT BELL, EXT BELL, KEYPAD 4. Press SAVE. 5. Press BACK to exit. 14.11.7 WPA TEST NOTICE This test can be only be performed by an engineer or user that has a ‘WPA Test’ right assigned to them.
14 Engineer programming via the keypad UTILITIES 14.12 UTILITIES 1. Scroll to UTILITIES and press SELECT. 2. Scroll to the desired programming option: SYS SOFTWARE To view the current software version. DEFAULTS To reset users or return the system to factory setting. BACKUP CONFIG To back-up a configuration. RESTORE CONFIG To restore a configuration. FAST PROGRAMM ER SPC PRO 14.13 DATA FROM PANEL: Transfer data from the controller to the Fast Programmer.
Engineer programming via the keypad EVENT LOG VIEW ISOLATIONS 14.14 14 X-BUS TAMPER To view a list of the isolated zones, system alerts and X-BUS devices alerts. EVENT LOG Recent events on the system are displayed in the EVENT LOG option. Events flash in one second intervals. 1. Scroll to EVENT LOG and press SELECT. 2. To view an event from a particular date, enter the date with the numeric keys. The most recent events are displayed on the bottom line of the display.
14 Engineer programming via the keypad USERS 14.16.2 EDIT To edit users on the system: 1. Scroll to USERS > EDIT. 2. Press SELECT. 3. Edit the desired user setting shown in the table below. Change Name Edit the current user name Change Type Edit the current user type User Options Enable or disable available user rights. See User Rights [➙ 131]. Change Areas Enable or disable user access to areas Valid PIN Days Enable or disable the PIN days that are valid for this user.
Engineer programming via the keypad USERS 14 2. Press SELECT. 3. Select the user which should be configured and press SELECT. 4. Scroll to ACCESS CONTROL and press SELECT. The following sections provide programming steps found within the access control option of the selected user. 14.16.2.1.1 ADD CARD manuallyReleased If the card format of the card number is known, the card can be created manually. Depending on the selected card format the site code of the card is also needed. 1. Scroll to ADD CARD 2.
14 Engineer programming via the keypad USERS An overview with all supported card formats can be found in the table below. CARD NUMBER Enter the card number. SITE CODE Enter the site code. Depending on the chosen card format, a site code might not be needed. If a site code is needed, see table below. CARD ATTRIBUTES The different card attributes can be activated or deactivated. See table below. CARD DOORS Configure the access rights of the user for the different doors.
Engineer programming via the keypad ENGINEER SMS 14.16.2.1.4 Card format Side code available Restrictions EM4102 No - COTAG No - Wiegand 26 bit Yes Site code: max. 255 Card number: max. 65535 Wiegand 36 bit Yes Site code: max. 32767 Card number: max. 524287 HID 1000 Yes Site code: max. 4095 Card number: max. 1048575 14 DELETE CARDReleased If an access card is no longer needed it can be deleted via the keypad. 1. Scroll to DELETE CARD. 2. Press SELECT. 14.16.2.1.
14 Engineer programming via the keypad X-10 SMS NUMBER Enter phone number for SMS calls. REPORTED EVENTS Identify specific events that are reported via SMS. Options are ALARMS*, ALARM RESTORE, CONFIRMED, FAULT/TAMPER, FAULT RESTORE, MODE CHANGE, EARLY/LATE, INHIBIT ISOLATE, ACCESS CONTROL, OTHER EVENTS. SMS CONTROL Enable or disable SMS functionality specific to user (limited to 4 users). SMS EVENTS ENABLE Enable or disable SMS calls for specific events (limited to the same 4 users).
Engineer programming via the keypad INSTALLER TEXT 14 5. Press ENTER to save the new time. If an attempt is made to save an invalid time value, the text INVALID VALUE is displayed for 1 second and the user is prompted to enter a valid time. 14.20 INSTALLER TEXT This setting allows the engineer to enter system information and engineer contact information. 1. Scroll to INSTALLER TEXT and press SELECT. 2.
15 Engineer programming via the browser Ethernet interface 15 Engineer programming via the browser Engineer programming options on the SPC panel can be accessed via any standard web browser on a PC and is PIN protected. You can access Engineer Programming via the browser by entering the default engineer PIN (1111). For more details, see Engineering PINs [➙ 68]. This web server provides access to the complete set of programming features used to install and configure the SPC system.
Engineer programming via the browser Ethernet interface 15 Connect 1 JP9 2 Ethernet port 3 To Ethernet port on PC If the SPC Ethernet interface is connected to an existing Local Area Network (LAN), please consult the network administrator for that LAN before connecting to the panel. Default IP Address: 192.168.1.
15 Engineer programming via the browser USB interface 15.2 USB interface If the panel is reset while the USB cable is connected, the cable must be unplugged and plugged in again. The USB port on the controller connects to a PC via a standard USB type A to type B cable. Drivers must be installed to make a USB connection from the controller to the PC: For Windows XP and 2000, install using the CD and the following steps: 1. Connect the USB cable from the controller to a USB interface on the PC. 2.
Engineer programming via the browser Logging into the browser 15 4. On the following window, choose Guest. 5. On the following window, choose the name of the connection. On the Select a Device window, the PC highlights an available serial port for use with the connection. This port should be the COM port that the USB device is using. 6. Click Next. 7. On the following window, choose whether this connection is available to all users. 8. Click Finish. 9.
15 Engineer programming via the browser Panel status 4. Enter the following: - User ID: user or engineer name - Password: code for the user or engineer 5. Select a language in which to display the browser screens. 6. Click Login. Default settings for WEB server address 15.4 15.4.1 Connection IP address Web server Ethernet 192.168.1.100 (default) RS232 (X10) 192.168.2.1 (fix) Backup Modem / RS232 192.168.3.1 (fix) Primary Modem 192.168.4.1 (fix) USB 192.168.5.
Engineer programming via the browser Panel status 15 Performable actions Restore All Alerts Pro 15.4.2 Restores all active alerts on the panel. These alerts messages are displayed in red text opposite the relevant item. Refresh Updates any changes in panel status. You must refresh the status window to display the actual panel status at any particular moment. Full Engineer / Soft Engineer To toggle between Soft- and Full Engineer modes.
15 Engineer programming via the browser Panel status Auto Status Refresh Pro Tick this button to activate an automatically refreshing of the zone summary. This can only be done for all zones, and not for filter zones. Zone Description Text description of the zone (max. 16 characters). Area Areas to which this zone is assigned. Zone Type The type of zone (Alarm, Entry/Exit, etc.). Input The detected input state of that zone (Open, Closed, Disconnect, etc.).
Engineer programming via the browser Panel status 15 It is recommended that you exercise caution when isolating zones as those zones will not be active every time the system is SET. Soak Highlight a zone and click this button to isolate that zone. Pro Filter Zones 15.4.3 Select a zone type from the dropdown menu. Only the summary of this zone type will be displayed. Doors 1. Select Status > Doors. 2. See tables below for further information. Door This ID number is a unique identifier for the door.
15 Engineer programming via the browser Panel status 15.4.4 System alerts 1. Select Status > System Alerts. 2. See tables below for further information. Alert Description of the system alert. Input The actual state of the alert that was detected on the panel (OK, Fault). Status The programmed status of the system alert, i.e. whether the alert has been isolated or inhibited. A status value of OK is displayed if the alert condition has not been disabled in any way (see page).
Engineer programming via the browser Panel status 15.4.5 15 Areas Each area defined on the system and its status is revealed here. For configuration see page [➙ 166]. 1. Select Status > Areas. The following window will be displayed. 2. See table below for further information. 3. Click Refresh. 15.4.6 Area Area number. Description Text description of the area (max. 16 characters). Mode The current armed mode of the area.
15 Engineer programming via the browser Panel status Sensor The number of the sensor enrolled on the system (1 = first, 2 = second, etc.) ID A unique identity number for that sensor. Type The type of wireless sensor detected (magnetic contact, inertia/shock, etc.) Zone The zone to which the sensor has been enrolled. Battery The status of the battery in the sensor (if fitted).
Engineer programming via the browser Panel status 15 1. Click the Log button. 2. See table below for further information. 15.4.7 Date/Time The date and time of the logged event. Receiver The wireless receiver location, i.e. wireless module mounted on the keypad, controller or wireless expander. Signal The signal strength received from the sensor (01=low, 09=high). Status The physical status of the sensor. Battery The status of the battery connected to the sensor (OK, Fault).
15 Engineer programming via the browser Panel status - Panic: Keypad Panic Alarm status revealed Isolate and deisolate are available actions on these status conditions. 15.4.8 15.4.8.1 Logs System Log This log displays all the system events of the SPC system. 1. Select System Log. 2. Create a text file of the log by clicking Text File. 3. The logging of individual zone state changes is enabled by setting the log attribute for that zone in the Zone Attributes configuration page.
Engineer programming via the browser Users 15.4.8.3 15 WPA Log This log displays all the WPA events on the system. Select Log > WPA log. The following window will be displayed: 15.5 15.5.1 Users Adding / Editing user Select Users > Add User. 129 Siemens AB Security Products A6V10276959 18.11.
15 Engineer programming via the browser Users 1. Enter a user ID that is not currently being used. If you enter an ID that is already used, an ‘ID Unavailable’ message is displayed. 2. Provide a User Name (maximum 16 characters and case sensitive). The system will automatically generate a User PIN for each new user. 3. To change this PIN, overwrite the digits shown in this field. 4. Select a Language for the user. Keypad menus and SMS events will be displayed in this language for this user.
Engineer programming via the browser Users 15 If the user duress feature is enabled (see page) then consecutive user codes (i.e. 2906, 2907) are not permitted, as entering this code from the keypad would activate a user duress event. 15.5.2 User rights Based on the operational features of the SPC system, users can have rights attributed to their user profiles providing access to some or all of these features. The rights for each user defined on the system can be assigned by the installation engineer. 1.
15 Engineer programming via the browser Users User Profile Default User type Description Fullset Limited Standard Manager The FULLSET operation fully sets the alarm system and provides full protection to a building (opening of any alarm zones activates the alarm). On selecting FULLSET, the buzzer sounds and the keypad display counts down the exit time period. Exit the building before this time period has expired.
Engineer programming via the browser Users User Profile Default User type 15 Description open zone as the fault or open condition is displayed on the keypad each time the system is being set to remind the user to attend to that zone. Change PIN Standard Manager This menu option allows users to change their user PINS [➙ 109]. Engineer Manager This option allows users to grant access to engineer programming.
15 Engineer programming via the browser Users User Profile Default User type Description Web Access Standard* Manager User can access panel through web browser. View Standard Video/Video in Manager Browser User can view video images via the web browser. Note: The Web Access right must also be enabled for this function. MG Output Control Standard Manager User can turn outputs (mapping gates) on and off. See Editing an Ouput [➙ 184].
Engineer programming via the browser Users 15 Card format Change the card format of the card. An overview with all supported card formats can be found in the table below. Card number Enter the card number. Site code Enter the site code. Depending on the chosen card format, a site code might not be needed. If a site code is needed, see table below. Card attributes The different card attributes can be activated or deactivated. See table below.
15 Engineer programming via the browser Users Card attributes Attribute Description Extented Time Extend door timers when this card is present. PIN bypass Access a door without PIN on a door with PIN reader. Priority Priority cards are stored locally in the door controllers and will grant access in case of technical fault where door controller loses their communication to the control panel.
Engineer programming via the browser Users 15 1. Configure the fields as described in the table below. 2. See also Changing engineer web PIN [➙ 137] 3. Click on the Change PIN button. 15.5.5 Old PIN Enter the existing Engineer PIN code. New PIN Enter the new Engineer PIN code. Confirm New PIN Re-enter the New Engineer PIN code. Changing engineer web PIN This programming option is provided to allow you to create a separate Engineer PIN for accessing the embedded browser on the panel. 1.
15 Engineer programming via the browser Users Web PIN Enable Click the box to use the new web access PIN to access the browser instead of the existing Engineer PIN code. If left unchecked, the same Engineer PIN can be used to access programming from both the keypad and the embedded browser New PIN Enter the new web access PIN (alphabetic characters A-Z, numeric digits 0-9). Confirm New PIN Re-enter the new web access PIN.
Engineer programming via the browser Users 15 SMS Number Enter the number to which the SMS will be sent (Requires three-digit country code prefix). SMS Control Click the box to enable engineer to control panel through SMS. SMS Events Enable Click the box to enable engineer to receive SMS events from the panel. Events Select the events which the engineer will receive. NOTICE PANIC and HOLDUP alarm events are not transmitted via SMS.
15 Engineer programming via the browser File Operations 15.6 File Operations To perform configuration file operations: 1. Select File. The following window will be displayed. 2. See table below for further action. Backup Stores a backup copy of the current configuration to flash. Restore Restores a backup copy of the current configuration from flash. Upload Uploads a configuration file to the controller. Download Downloads a configuration file from the controller.
Engineer programming via the browser File Operations 6. 15 Click Download again. When downloading a configuration file, the configuration settings are stored in a .cfg file. This file can then be uploaded to other controllers to avoid lengthy programming procedures. Upload / Test Upload or test an audio file to the SPC. The file must be created by the SPC Pro Audio Manager. Fast Programmer Fast Programmer File Operations. Firmware Upgrades the controller and peripheral firmware.
15 Engineer programming via the browser File Operations Select the firmware file to upgrade by clicking the Browse button for either the Controller Firmware or Peripheral Firmware, select the firmware file and then click on the appropriate Upgrade button. Controller Firmware Upgrade The controller firmware file is stored in the controller’s (flash) file system until a new controller firmware file is uploaded.
Engineer programming via the browser File Operations 15 Peripheral Firmware Upgrade The peripheral firmware file is only stored temporarily in the file system. When a new peripheral firmware file is uploaded, the current and new versions of the firmware for each peripheral and modem is displayed as shown: Click on the Upgrade button for the peripherals that require upgrading.
15 Engineer programming via the browser File Operations 2. Click the Browse button to select a custom language file. 3. Click on the Upload button. The following page is displayed when the file is imported. 4. The File Status shows how many strings are translated and the total number of strings in the file ( Loaded [xxxx/yyyy] ). 5. Click on the Details button to display untranslated strings which are shown in the default language (in this case, English) 6.
Engineer programming via the browser File Operations 15 SPC controller interface This 10-pin serial interface is located at the top of the Fast Programmer and connects directly to the Fast Programmer interface on the controller board. Once connected, the engineer can upload and download files directly from the Fast Programmer via the browser programming interface. PC USB interface This USB interface is located at the bottom of the Fast Programmer and connects directly to the USB interface on a PC.
15 Engineer programming via the browser File Operations The Fast Programmer is now connected to the controller. To remove the Fast Programmer - gently pull the device out of the Fast Programmer interface. 15.6.3.2 Installing the Fast Programmer on a PC For Windows XP and 2000 1. Connect the USB cable from the controller to a USB interface on the PC. 2. Confirm the correct communication Port. The Found New Hardware wizard is displayed. 3. Press Cancel.
Engineer programming via the browser File Operations 15 6. The following window will be displayed: 7. Click Next (the recommended option – Install the software automatically - will be selected). The PC will proceed to install the driver software. A window will be displayed during the installation process to indicate that the driver software for the fast programmer has not passed Windows logo testing. 8. Click the option Continue anyway to proceed.
15 Engineer programming via the browser File Operations View SPC Fast Programmer Open the Windows menu Start > Control panel > System > Device Manager. The Fast Programmer driver will be listed under the Ports (COM & LPT) directory as SPC USB Fast Programmer (COM X) (X = com port number). 15.6.3.3 Fast Programmer File Operations Controller and peripheral firmware upgrades and custom language imports may be done using the Fast Programmer and SPC Pro. 15.6.3.3.
Engineer programming via the browser File Operations 15.6.3.3.2 15 FIRMWARE UPGRADE The panel searches for a valid controller firmware file. Once if finds the firmware file it will allow the user to select and upgrade the panel. PERIPHERAL UPGRADE The panel searches for a valid peripheral firmware file. Once if finds the firmware file it will allow the user to select and upgrade the panel CUSTOM LANGUAGE UPDATES A list of the language files available on the Fast programmer is displayed.
15 Engineer programming via the browser Changing system settings To upload a configuration file from the Fast Programmer to the SPC, enter the file name in the file name box and click Upload. For complete details on using the Fast Programmer with SPC Pro, consult the SPC Pro Configuration Manual. Upgrading Firmware NOTICE Manufacturer Access is required for firmware operations. A list of the firmware files stored on the Fast Programmer is displayed.
Engineer programming via the browser Changing system settings 15 Installation Name Enter the name of the installation. An installation name must be entered before the installation is saved on the system. The installation can be viewed from the keypad. Installation Date Select the date from the dropdown menu that the installation was completed. Installer Name Enter the name of the person who installed the system (for support purposes).
15 Engineer programming via the browser Changing system settings Installation Type Select the type of installation. Options are Domestic, Commercial or Financial. Region Select the region in which the installation is installed and the regional requirements it complies with. Options are UK, Ireland, Sweden, Europe, Switzerland or Belgium (INCERT) Grade Select the Security Grade that applies to the installation.
Engineer programming via the browser Changing system settings – 15 Unrestricted Belgium Region: – TO-14 (EN50131 Grade 2 based) – TO-14 (EN50131 Grade 3 based) – Unrestricted Switzerland Region: – SWISSI Cat 1 – SWISSI Cat 2 – Unrestricted Spanish Region – EN50131-9 – INT/316/2011 Unrestricted Grade A Security Grade setting of Unrestricted does not apply any regionally approved security restrictions to the installation.
15 Engineer programming via the browser Changing system settings 15.7.3 EN 50131 Grade 3: The Grade is defined according the EN Standard in terms of User/Engineer and System rights. For example, an engineer code is required to restore a tamper alarm. Unrestricted: The system remains compliant to previous grade setting. Once one of the following menu options (System Alert; Zone Alarms and Zone Tamper) is changed, the system is not anymore EN compliant.
Engineer programming via the browser Changing system settings 15 155 Siemens AB Security Products A6V10276959 18.11.
15 Engineer programming via the browser Changing system settings System Options The options displayed vary depending on the Security Grade of the system. ! ! Areas Enables multiple areas on the panel. Bell on First Enable to activate relevant bells/sirens on an unconfirmed alarm. When this option is disabled, the relevant bells/sirens will only activate on a confirmed alarm or if the detector that caused the unconfirmed alarm is reactivated.
Engineer programming via the browser Changing system settings 15 ! Engineer Restore (Impact only if Region "UK" is chosen): If this option is enabled, then the engineer has to restore the confirmed alarms. This option works together with the function "Confirmation". ! Coded Restore Grade 3 only: A user, who does not have the right to restore an alarm, is able to restore the alarm with this feature. On resetting an alarm, a 6 digit code is required.
15 Engineer programming via the browser Changing system settings requirements, and is a specific requirement for UK Commercial installations. The requirement stipulates that an alarm will only be deemed to be a confirmed alarm if it meets the following condition: After an initial zone alarm has been activated and before the alarm confirmation time has expired, a second zone alarm is activated. The alarm confirmation time must be between 30 and 60 minutes.
Engineer programming via the browser Changing system settings 15 always available. Allow Manufacturer Enable this feature to ensure that the engineer can only access the system if the user allows it. If disabled, ENABLE MANUFACTURER menu option on keypad is not available. Note: Only available if Security Grade is ‘Unrestricted’. For Grade 2 / 3, user control of engineer access to system is always available if user type is ‘Manager’.
15 Engineer programming via the browser Changing system settings Only Keypad and Web Only Time Sync Limit Enter a time limit within which no event will be reported. (0 – 999 secs) Silence during Audio ver If enabled, then the internal and external bells (system and area), the keypad buzzers and annunciation messages on the Comfort Keypad will be silenced during audio verification. Override Reader Profile If enabled, the LED behavior of readers will be controlled by the panel.
Engineer programming via the browser Changing system settings 15 161 Siemens AB Security Products A6V10276959 18.11.
15 Engineer programming via the browser Changing system settings Timers Designation of the functions in the following order: 1st row: Web/SPC Pro 2nd row: Keypad Timer Description Default Internal Bells Duration that internal sounders will sound when alarm is activated. (1 – 15 minutes: 0 = never)) 15 min. Duration that external sounders will sound when alarm is activated. (1 – 15 minutes; 0 = never) 15 min. This will cause a delayed activation of the external bell.
Engineer programming via the browser Changing system settings Default Timer Description TECH. DELAY tech. delay attribute. (0 – 9999 seconds) Fail To Set FAIL TO SET Number of seconds to display fail to set message on keypads 10 sec. (0 until valid PIN is entered). (0 – 999 seconds) Confirm CONFIRM TIME Note: Only available when Security Grade is ‘Unrestricted’ and ‘DD243’ is selected for ‘Confirmation’ variable. (See System Options [➙ 154]) 15 30 min.
15 Engineer programming via the browser Changing system settings Default times are dependent upon the Engineer configuration. The default times denoted may or may not be allowable and is dependent on the configuration by the engineer 15.7.5 Clock This window allows to program the date and time on the panel. The controller contains a Real-Time Clock (RTC) that is battery backed to preserve the time and date information in the event of power failure. 1. Select Settings > System > Clock.
Engineer programming via the browser Configuring zones, doors and areas 15 For the Language option, select a language from the dropdown menu. This option determines the system language in which the texts and menus on the keypads, the web interface and the event log will be displayed. For the Idle Language option, select either ‘Use System Language’ or ‘Last Used’. Idle Language determines the language which is displayed on the keypads when the panel is in its idle state.
15 Engineer programming via the browser Configuring zones, doors and areas Zone The number is presented for reference and can not be programmed. Description Enter a text (max. 16 characters) that serves to uniquely identify the zone. Input The physical input is displayed for reference and is not programmable. Type Select a type of zone from the drop down menu (see page [➙ 284]). Area Only if (multiple) Areas is activated. Select an area to which the zone is assigned from the drop down menu.
Engineer programming via the browser Configuring zones, doors and areas 15 1. Press Edit to edit an existing area. 2. Press Add to add a new area. If the Installation Type is Domestic or Commercial, an area is automatically added and the Edit Area Settings window is displayed. Note that the area type for the new area is automatically set to Standard. If the Installation Type is Financial, the following window is displayed and the area must be added manually.
15 Engineer programming via the browser Configuring zones, doors and areas 15.8.2.1 Entry/Exit Configure the following Entry/Exit settings: 15.8.2.2 Entry time The time (in seconds) allowed for unsetting to be completed. The entry time applies to all entry/exit zones in that area (default: 45 seconds) See Timers [➙ 160]. Exit time The time (in seconds) allowed for a user to leave a protected area before setting is complete.
Engineer programming via the browser Configuring zones, doors and areas 15 access option, the buzzer will sound for the entry time period when the PIR sensor is activated thereby warning the user that the alarm will activate if no action is taken. 15.8.2.3 Partset Exit/Entry: Tick the relevant checkbox to change the behaviour of entry/exit zones to alarm zones when in Partset A or B mode. This feature is useful for a domestic installation when the system has been set in partset mode.
15 Engineer programming via the browser Configuring zones, doors and areas Linked Areas 15.8.2.4 Click on the areas that you wish to link to this area. Schedule Configure scheduling with the following settings: 15.8.2.5 Calander Select a calendar to control scheduling. Unset Select if area should automatically Unset as per the time specified in the selected calendar. Fullset Select this option to Fullset the area as per the time specified in the selected Calendar.
Engineer programming via the browser Configuring zones, doors and areas 15 The following parameters (with the exception of the Interlock parameter) are only relevant in the following cases: A Calendar is selected (see Schedule [➙ 170]), or Unset Duration is enabled (has a value greater than zero), or Both of the above conditions are met. Auto Set Warning Enter the number of minutes to display a warning before Auto Setting.
15 Engineer programming via the browser Configuring zones, doors and areas Each delay is determined by the amount configured in the Delay Interval parameter, and the Delay Counter parameter determines the number of times that setting can be delayed. A user needs the correct value in the Auto Set Delay in order to use this feature. There are three ways to delay setting: 1. Entering the PIN on the keypad. DELAY is a menu option on the standard keypad.
Engineer programming via the browser Configuring zones, doors and areas 15.8.2.6 15.8.2.7 15 All Okay All Okay Required If selected, user must confirm ‘All okay’ input or silent alarm is generated. See Editing a Zone [➙ 165] for details on configuring an ‘All Okay’ zone input. All Okay Time Time (in seconds) in which ‘All okay’ must be confirmed before alarm is raised. (Range 1 – 999 seconds) All Okay Event Select the event type to be sent when the ‘All okay’ timer expires.
15 Engineer programming via the browser Configuring zones, doors and areas Timer field. Late to Unset Enables a report to be sent if the panel is manually Unset before a scheduled Unset and before the number of minutes entered in the Timer field. Reporting is done via SMS or to the ARC via SIA and Contact ID. An event is also stored in the system log. Only events configured for late or early reporting for the area will be reported.
Engineer programming via the browser Configuring zones, doors and areas 15 Enable Reporting of Unusual Setting/Unsetting for SMS SMS Events can be configured using both Engineer and User configuration pages. For Engineer configuration, select Users>Engineer SMS: Enable the setting above to report any setting and unsetting which is not according to schedule. 15.8.2.8 RF Output RF Output Time Enter the number of seconds that the RF Output will remain on for. 0 seconds will toggle the output on and off.
15 Engineer programming via the browser Configuring zones, doors and areas 15.8.2.9 Area Triggers The Triggers section is only displayed if triggers have been defined previously. (See section on Triggers) Click on the Edit button to add, edit or delete trigger conditions for the area. The following page is displayed: Configure the trigger for the area using the following parameters: Trigger Select a trigger from the drop down list.
Engineer programming via the browser Configuring zones, doors and areas 15.8.3 15 Editing a door 1. Select Settings > System > Doors. 2. Click the Edit button. 3. Configure the fields as described in the table below. Door inputs Each door has 2 inputs with predefined functionality. These two inputs, the door position sensor and the door release switch can be configured. Zone The door position sensor input can be used for the intrusion part as well.
15 Engineer programming via the browser Configuring zones, doors and areas Each free zone number can be assigned to the zones but the assignment is not fixed. If the number ‘9’ is assigned to a zone, the zone and an input expander with the address ‘1’ is connected to the X-Bus (which is using the zone numbers 9-16). The assigned zone from the two door controller will be moved to the next free zone number. Configuration will be adapted accordingly.
Engineer programming via the browser Configuring zones, doors and areas 15 Description Attribute door group. In this mode, cardholders must use their access card to gain entry into and exit from a defined door group. If a valid cardholder has presented his access card to enter a door group and not presented the card to exit it, the cardholder is in breach of the Anti-Passback rules.
15 Engineer programming via the browser Configuring zones, doors and areas Timer Min. Max. Description Extended 1s 255 s Additional time after granting access to a card with extended time attribute. Escort 1s 30 s Time period after presenting a card with escort attribute within a user without escort right can access the door. Door calendar Door locked Select a calendar which should lock the door during the configured time. No card / pin will be accepted during this time.
Engineer programming via the browser Configuring zones, doors and areas 15 group is open, including the open door itself. This output could be connected, for example, to a red LED or light to indicate that the door could not be opened, and if inverted could be connected to a green LED or light. To configure an output for door interlock. 1. In Full Engineer mode, select Settings>X-BUS>Expanders. 2. In the Expander Configuration page, click on the Change Type button for the required output. 3.
15 Engineer programming via the browser Configuring controller inputs & outputs 1. Click on the Add button. 2. Enter a description for the group. 3. Select the areas that are to be assigned to this group. 4. Click Add. NOTICE To use the area groups for the Comfort Keypad, activate all Areas in the Areas field under Settings > X-BUS > Keypads > Type: Comfort Keypad. 15.9 15.9.1 Configuring controller inputs & outputs Editing an input 1. Select Settings > Controller.
Engineer programming via the browser Configuring controller inputs & outputs Input The number is presented for reference and can not be programmed. End of Line Select the End of Line (EOL) for the zone input (default: 4K7). Analyzed Displays if the sensor is an inertia/shock type sensor 15 Pro Pulse count Pro Gross Attack Pro Pulse count programmed on the panel that will trigger an alarm from an inertia / shock sensor.
15 Engineer programming via the browser Configuring controller inputs & outputs 15.9.1.1 Input zones: attributes Each zone on the SPC can be assigned an attribute that determines the properties of that zone. To assign an attribute to a zone: 1. Select Settings > Controller > Attributes. The following window will be displayed: 2. Check the box beside the preferred attribute. The attributes presented on this page will depend on the type of zone selected.
Engineer programming via the browser Configuring controller inputs & outputs Output Type 15 System Output: Select the type from the dropdown menu. (See Output Types and Output Ports [➙ 186]) Area Output: Only if (multiple) Areas is activated in menu Panel Settings > System Settings > Options. Select an area and the type of system output for this area. (See Output Types and Output Ports [➙ 186]) Zone Mapping: Select which zone should be mapped.
15 Engineer programming via the browser Configuring controller inputs & outputs See also 15.9.2.1 Calendars [➙ 236] Outputs types and output ports Each output type can be assigned to one of the 6 physical output ports on the SPC controller or to an output on one of the connected expanders. Output types that are not assigned to physical outputs act as indicators of events on the system and may be logged and/or reported to remote central stations if required.
Engineer programming via the browser Configuring controller inputs & outputs 15 Panic* This output turns on following activation of panic alarm zone types from any area. A panic alarm output is also generated if a user duress event is generated or if the panic option for the keypad is enabled.
15 Engineer programming via the browser Configuring controller inputs & outputs This output is latched so it will remain active until restored by a level 2 user. PIR Masking is logged by default. The number of log entries do not exceed 8 between arming periods.
Engineer programming via the browser Configuring controller inputs & outputs 15 Select the condition under which the latch output is activated: Entry Time Output turns on at the end of Exit time and off at the beginning of Entry time. Fire Exit Output turns on if any fire exit zones are active. Unset Output turns on if any user unsets system momentary Alarm Reset Output turns on if an alarm is reset momentary.
15 Engineer programming via the browser X-BUS 15.10 X-BUS 15.10.1 Keypads 15.10.1.1 Editing a Standard Keypad 1. Select Settings > X-Bus > Keypads. 2. Click one of the standard keypad identifying parameters. 3. Configure the fields as described in the table below. 190 Siemens AB Security Products A6V10276959 18.11.
Engineer programming via the browser X-BUS Description 15 Enter a unique description to identify the keypad. Function Keys (in idle state) Panic Select Enable, Disable or Enabled Silent. If enabled, panic alarm is activated by pressing the 2 soft keys together. Visual Idications Backlight Select when keypad backlight is on. Options are: - On after key is pressed; Always on; Always off.. Indicators Enable or disable the LED’s on the keypad.
15 Engineer programming via the browser X-BUS 15.10.1.2 Editing a Comfort Keypad 1. Select Settings > X-Bus > Keypads. 2. Click one of the comfort keypad identifying parameters. 3. Configure the fields as described in the table below. 192 Siemens AB Security Products A6V10276959 18.11.
Engineer programming via the browser X-BUS 15 193 Siemens AB Security Products A6V10276959 18.11.
15 Engineer programming via the browser X-BUS Description Enter a unique description to identify the keypad. Function Keys (in idle state) Panic Select Enable, Disable or Enabled Silent. If enabled, panic alarm is activated by pressing F1 and F2 soft keys together. Fire Enable to allow fire alarm to be activated by pressing F2 and F3 soft keys together. Medical Enable to allow medical alarm to be activated by pressing F3 and F4 soft keys together.
Engineer programming via the browser X-BUS 15 Mapping gate Select if keypad should be limited by a mapping gate. Keyswitch Select if keypad should be limited by a keyswitch. PACE Entry Tick this box to disable the keys on the keypad during the entry time when a PACE is configured on the keypad. Areas Location Select the secured area where the keypad is located. Areas Select which areas can be controlled through keypad. Options Delay Fullset Select to configure a delayed set across all keypads.
15 Engineer programming via the browser X-BUS For naming and identifying: In loop configuration, each expander is numbered consecutively from the first (expander connected to the 1A 1B on the controller) to the last (expander connected to the 2A 2B on the controller). Example for SPC63xx: Expanders, when numbered 1 through 63, are allocated zones (in groupings of 8) in subsequent identities of 1 to 512 (the greatest number in zone identification is 512 for).
Engineer programming via the browser X-BUS 15 Linked Mode 1. Enter a description. 2. Select if indicator module should be limited to a valid code entered on a keypad. 3. Select the areas that are to be controlled by the 4 functions keys. 4. Configure the input. Flexible Mode 1. Click the Flexible Mode button. 2. Configure the fields described in the tables below. 3. Configure the input.
15 Engineer programming via the browser X-BUS Area Select the area is to be controlled by the function key. Function Select the function to be performed by this key in this area.. Area Select an area if the indicator module is located in a secure area. Visual Indication Indicator There are 8 indicators / LEDs on the right and 8 indicators / LEDs on the left side. Function The function that is indicated by this LED.
Engineer programming via the browser X-BUS 15 Configure the fields described in the tables below. Description Enter a description for the keyswitch expander. Key Options Latch Select if key position should be latched. Latch timer Enter duration of latch in seconds (0 - 9999, 0 means latch lasts until key is turned the other way). Areas Location Select the area where the keyswitch is located.
15 Engineer programming via the browser X-BUS Function On Select the colour and the state for every indicator if the selected function is ON. Function Off Select the colour and the state for every indicator if the selected function is OFF. Change function Press this button to change the function for this indicator. The function can be enabled or used for a system, area, zone or keyswitch. Deactivation Calendar Select if the keyswitch module should be limited by calendar.
Engineer programming via the browser X-BUS 15 For naming and identifying: In loop configuration, each expander is numbered consecutively from the first (expander connected to the 1A 1B on the controller) to the last (expander connected to the 2A 2B on the controller). Example for SPC63xx: Expanders, when numbered 1 through 63, are allocated zones (in groupings of 8) in subsequent identities of 1 to 512 (the greatest number in zone identification is 512).
15 Engineer programming via the browser X-BUS Editing Zones/Outputs for a Door I/O 1. Select a Zone/Output for the door I/O. 2. Click the Edit button. 3. The 2 inputs and the output belonging to this door I/O can be configured as normal door inputs and outputs. See page [➙ 177]. 4. In order to use the inputs, they have to be assigned to a zone number. 15.10.4 Cable Map For a list of the expanders/keypads in the ordered they are configured on the SPC system: Select Settings > Exp./Keypads > Cable Map.
Engineer programming via the browser Wireless 15.11 15 Addressing Mode Select if expanders/keypads are either manually or automatically addressed on the X-BUS . X-BUS Type Select Loop or Spur configuration. Retries The number of times the system attempts to re-transmit data on the X-BUS interface before a communications fault is generated. (1 – 99: default is 25) Comms Timer The length of time before a communication fault is recorded.
15 Engineer programming via the browser Wireless Sensor The number of the sensor enrolled on the system (1 = first, 2 = second, etc.) ID A unique identity number for that sensor. Type The type of wireless sensor detected (magnetic contact, inertia/shock, etc.) Zone The zone to which the sensor has been enrolled. Battery The status of the battery in the sensor (if fitted).
Engineer programming via the browser Wireless 15 1. Click the Log button. 2. See table below for further information. 15.11.2 Date/Time The date and time of the logged event. Receiver The wireless receiver location, i.e. wireless module mounted on the keypad, controller or wireless expander. Signal The signal strength received from the sensor (01=low, 09=high). Status The physical status of the sensor. Battery The status of the battery connected to the sensor (OK, Fault).
15 Engineer programming via the browser Wireless external) from the drop down menu. The type of antenna required for the wireless module depends on the type of wireless module fitted. 15.11.3 Supervision Select whether a wireless sensor that is reported as missing registers a tamper condition on the signet panel. A wireless sensor is reported as missing when no supervision signal has been received from the sensor for a period greater than the programmed Wireless Lost timer. See page [➙ 160].
Engineer programming via the browser Wireless 15 The panel receives the battery status from the WPA in every frame. The battery status can be either OK or Low. Battery monitoring requires a WPA fitted with the PCB revision E-PC138612 or later. Supervise Status The Supervise status can be any of the following: – Fault The panel has not received a supervision message from the WPA in the period configured in the Wireless Settings page. – Disabled Supervision is not configured.
15 Engineer programming via the browser Wireless Configure the WPA using the following details: Description/Name Enter a Description or Name to uniquely identity a WPA. Transmitter ID The transmitter ID is printed on the WPA casing and can be entered manually here. You can also identify the ID remotely by pressing any button on the WPA and then clicking the Learn button.
Engineer programming via the browser Configuring communications 15 WPA. Test Tick the Test box if a periodic WPA test is required. The timeframe for periodic testing is configured on the Changing wireless settings [➙ 205] page. Button Assignment Use this section to assign functions to button combinations. Available functions are Panic, Holdup, Suspicion or RF User Output. More than one combination can be selected for the same function.
Engineer programming via the browser 15 Configuring communications +– 3 1 2 4 1 PC with serial port running hyperterminal 2 SPC controller 3 JP9 4 RS232 To configure the serial ports: Select Settings > Comms. > Serial Ports. The following window will be displayed: 210 Siemens AB Security Products A6V10276959 18.11.
Engineer programming via the browser Configuring communications 15 The settings displayed will depend on the type of connection that the ports are used for. The settings are described in the following sections: 15.12.1.1 Making a terminal connection to the controller via the serial port The SPC controller serial port (RS232) can be used to provide access to the embedded web server for Engineer and User Programming.
15 Engineer programming via the browser Configuring communications Physically connect the PC to the controller by connecting the DB9 serial port on the PC to the RJ45 interface on the SPC labeled RS232 using cable detailed above Configuring the serial port on the controller: 1. Enter ENGINEER programming mode on the keypad or browser. 2. Configure Serial Port 2 with the following settings.
Engineer programming via the browser Configuring communications 15.12.1.2 15 Making a browser connection to the controller via the serial port 1. Physically connect the PC to the controller by connecting the DB9 serial port on the PC to the RJ45 interface on the SPC labeled RS232 using the same cable as for a terminal connection. 2. Configure the serial port on the controller (from the existing IP browser connection or via the keypad). 3.
15 Engineer programming via the browser Configuring communications 1. Right click the connection icon to get the details of the serial port connection. In the Details tab the Server IP address is displayed. 2. Enter this address into the browser using the secure address format e.g. https:\\ 192.168.3.1 to connect to SPC. 15.12.1.
Engineer programming via the browser Configuring communications 15 SMS detection and configuration is not available unless modems that are configured and enabled. 15.12.2.1 PSTN modem 1. Select Settings > Comms > Modems > Configure. 2. Configure the fields as described in the table below. Modem settings Country Select the country that the SPC is installed in. 215 Siemens AB Security Products A6V10276959 18.11.
15 Engineer programming via the browser Configuring communications Answer Mode The modem can be programmed to answer calls based on the following conditions: Don’t answer calls: Modem never answers calls. Confirm party / Hang-up mode: In this mode of operation the calling party calls the modem, hangs up after 1 ring burst only and then immediately re-calls the modem. The SPC system knows to automatically answer the call in this condition.
Engineer programming via the browser Configuring communications 15 Check with country specific service providers for availability of service and SMS server number. Some SMS servers may have additional technical requirements for the correct operation of the service. Check with the local SMS service provider for details on these requirements. 15.12.2.2 GSM modem A GSM modem must be properly installed and functioning correctly. 1. Select Settings > Comms. > Modems > Configure.
15 Engineer programming via the browser Configuring communications Answer after ‘x’ rings: Select the number of rings after which the modem answers the incoming call. Confirm party / Hang-up mode: In this mode of operation the calling party calls the modem, hangs up after 1 ring burst only and then immediately re-calls the modem. The SPC system knows to automatically answer the call in this condition. Prefix Enter the number required to access a line. (e.g.
Engineer programming via the browser Configuring communications 15 The SMS operates using a standard protocol that is used in SMS telephones. Please note that some PSTN operators do not provide the service of SMS over PSTN. For SMS to operate over PSTN the following criteria is required: 15.12.2.4 Caller ID needs to be enabled on the telephone line. Direct telephone line – not through PABX or other comms equipment.
15 Engineer programming via the browser Configuring communications For commands using code, the format of the text is the code followed by either a space or a full stop. Where **** is the code and “command” is the command: ****.command or **** command. For example, the command “HELP” is this text: **** HELP or ****.
Engineer programming via the browser Configuring communications 15 For SMS recognition, mapping gate identification uses the format ONNN, where O stands for mapping gate, and NNN are the numeric placeholders, of which not all are necessary. (Example: O5 for mapping gate 5) For SMS recognition, X-10 device uses the format: XYNN, where X stands for X10; Y stands for the alphabetic identity and NN are the available numeric placeholders.
15 Engineer programming via the browser Configuring communications DNS Server 15.12.4 Enter the IP address of the DNS server. Registering to SPC portal The SPC Portal provides you with the ability to remotely connect via the internet to the embedded web server on the SPC controller without needing to know the WAN IP address of the SPC unit. The SPC portal server is an external server with a fixed IP address that has the ability to listen or 'scan' for SPC controllers on specified port numbers.
Engineer programming via the browser Configuring communications Update Interval 15.12.5 15 Enter the time interval for registering your portal settings. Configuring the networking services of the panel 1. Select Settings > Comms. > Services. The following window will be displayed. 2. Configure the fields as described in the table below. HTTP Enabled Tick this box to enable the embedded web server on the panel. HTTP Port Enter the Port number that the web server is 'listening' on.
15 Engineer programming via the browser Configuring communications 15.12.6 ENMP Enabled (by default enabled) Tick this box to enable Enhanced Network Management Protocol (ENMP). ENMP Port Enter the ENMP port number (default: 1287). ENMP password Enter the password for the ENMP protocol (default: siemens). ENMP change enabled Check this box to enable network changes to be made with ENMP protocol. SPC Pro / SPC Safe 1. Select Settings > Comms. > SPC Pro/SPC Safe. 2.
Engineer programming via the browser Configuring communications 15 SPC Safe For further information about configuration of the SPC Safe please refer to the SPCS410 Installation & Configuration Manual. 1. Click the Enable SPC Safe button. 2. Configure the fields as described in the table below. Enable Tick this box to enable Pro to connect to the panel. Engineer Access Tick this box if engineer access must be granted to allow Pro to connect to the panel.
15 Engineer programming via the browser Configuring communications has been changed. Reporting Timer Enter the minutes how long after the last configuration change the panel should contact the server to report its configuration ( min: 1, max.: 120 ). Enable IP Tick this box to enable a connection to the panel using Internet Protocol (IP). TCP/IP Port Enter the IP port that SPC Safe will use to connect to the panel (the IP port of the panel).
Engineer programming via the browser Configuring communications 15 3. Click on the Log button to receive a log file. A window with the logs from all automatic and manual test calls will be displayed. 4. To add or edit an ARC, click Add. – OR Click Edit. The following window will be displayed. 5. Configure the fields as described in the table below. Description Enter a description of the remote Alarm Receiving Centre. Account Enter your account number.
15 Engineer programming via the browser Configuring communications Click on the Add button to enter those details on the system. A list of the configured ARC accounts will be displayed on the browser screen along with the account information, description, protocol, dial-up status and time and date of the last call to the ARC. 15.12.7.3 Editing an ARC filter To configure the events on the SPC that will trigger the call to the ARC: 1. Select Settings > Comms. > ARC > Edit > Filter.
Engineer programming via the browser Configuring communications Faults Faults and tampers are activated. Fault Restores Fault or tamper alarms are restored. Settings System is Set and Unset. Early/Late Unscheduled setting and unsetting of the system. Inhibits Inhibit and isolate operations are performed on the system. Door Events Door events are activated. Only works with SIA protocol. Other All other types of events are detected on the system.
15 Engineer programming via the browser Configuring communications Max. 8 receivers can be added to the SPC system. 2. Click on the Add button. The following window will be displayed. 3. See table below for further information. Description Enter a text description of the receiver. Receiver ID Enter a unique number which will be used by the EDP to identify the receiver. See also 15.12.8.2 Editing EDP Receiver Settings [➙ 230] Editing EDP Receiver Settings 1.
Engineer programming via the browser Configuring communications 15 Description Edit the name of the EDP receiver. Maximum 16 characters. Receiver ID Edit the EDP receiver ID. Range is 1 to 999997 (999998 and 999999 are reserved for special purposes) Protocol Version Select the EDP protocol version to use with this EDP receiver. Options are Version 1 or Version 2. Version 2 is recommended if supported by the receiver, as it is a more secure protocol.
15 Engineer programming via the browser Configuring communications Commands Enable Check this box to allow commands to be accepted from the receiver. Change User PINs Check this box to allow user PINs to be changed from a remote location. This feature is applicable only if commands are enabled from the receiver. Encryption Enable Check this box to enable encryption on data to and from the receiver. Encryption Key Enter a hexadecimal key (max. 32 digits) that will be used to encrypt the data.
Engineer programming via the browser Configuring communications 15 GPRS Hangup Timeout Enter the time in seconds after which the GPRS call will hang up. (0 = stay connected until IP connection is up) GPRS Autoconnect Check this box to automatically trigger a GPRS call to the server if an IP network fault occurs. Dial-up on Net Fault Check this box to report network faults on a dial-up test call. Dial-up Interval 1* Enter the number of minutes between dial-up test calls when network link is up.
15 Engineer programming via the browser Configuring communications Check any of the following boxes if you want to initiate a remote call to an EDP Receiver to notify it of the particular event. Alarms Alarms are activated. Alarm Restores System alarms are restored. Confirmed Alarms Alarms confirmed by multiple zones Alarm Abort Alarm Abort events. Alarms are aborted after a valid user code is entered via the keypad after a confirmed or unconfirmed alarm, Faults Faults and tampers are activated.
Engineer programming via the browser Configuring communications 15.12.8.4 Door Events Door events are activated. Only works with SIA protocol. Other All other types of events are detected on the system. Other (Non standard) Non supported SIA codes used with SPC COM XT including Camera Online/Offline events. Network Report IP Network Polling Up/Down events. Areas Select specific areas to which above events apply. 15 Editing EDP settings 1. Select Settings > Comms. > EDP > Settings.
15 Engineer programming via the browser Configuring advanced settings Enable Tick this checkbox to enable EDP operation on the system. EDP Panel ID Enter a numeric identifier that is used by the EDP Receiver to identify the panel uniquely. Panel Port Select the IP port for receiving IP packets. Default is 50000. Packet Size Limit Enter the maximum number of bytes in an EDP packet for transmission.
Engineer programming via the browser Configuring advanced settings 15 schedules within the calendar might be “active”. Thus, a calendar is active if its time conditions are satisfied. 15.13.1.1 Adding / Editing a calendar 1. Select Settings > Advanced > Calendars > Add. The following window will be displayed: 2. Provide description for name of calendar (max. 16 characters) Week Types Calendars are configured using Week Types. There is a system maximum number of 64 calendar configurations.
15 Engineer programming via the browser Configuring advanced settings 3. One, two or three weeks may be configured for use: Week Type 1, Week Type 2, and Week Type 3. 4. Click Save. 5. Click Back. 6. Select the week(s) to be set to a particular calendar week type. For instance a Week Type that is configured for Christmas scheduling would likely occur on or near Week 51. 7. Select the desired week type (ex. Type 2) from the pull down menu for the scheduled week (ex.Week 51). 8. Click Save 9. Click Back.
Engineer programming via the browser Configuring advanced settings 15.13.1.2 15 Description Enter a for name for the exception (16 characters max). From Date…To Select the start and end date. On Time…Off Time Select the desired times for setting / unsetting or the desired times for triggers. Use time guidelines for auto set / unset (see page [➙ 239]), or for all other purposes (see page [➙ 239]). Calendars Assigned to Select the desired calendar(s) for effect.
15 Engineer programming via the browser Configuring advanced settings Trigger System generated number for new trigger. Trigger will only become active if one of the 2 optional steps (calendar/time limitation) is configured Description Enter a text description for the trigger Calendar Select a calendar, if required. If selected, the trigger will only be in effect during this calendar period. See page [➙ 236].
Engineer programming via the browser Configuring advanced settings 15 Keypad valid PIN – this condition can be configured for a particular user or for any user. With this configuration, if the configured user (or any user) enters a valid PIN, or presents a configured PACE, it will cause an instantaneous pulse OFF/ON/OFF. Keyswitch – the trigger can be configured for a specific key position on the keyswitch.
15 Engineer programming via the browser Configuring advanced settings There may be many outputs activated by one shortcut, both X-10 and Mapping Gates. 4. Add a Timer for the gate. Time quantity used is 1/10 of a second. 5. Click on the Triggers button to configure triggers for turning the output on and turning it off. In both cases, a positive or negative edge of the trigger needs to be defined. See Triggers [➙ 239] for details of configuring triggers. 6.
Engineer programming via the browser Configuring advanced settings 15 Unit number This is the number (1-16) that is assigned to the device. Active This field indicates if the device is active or not. Description This field displays a description that is used to help identify the device – e.g. downstairs light (16 characters max). Quick key This field indicates if the X10 device activation can be toggled by entering a code from the keypad. To edit a X-10 device 1. Click Edit.
15 Engineer programming via the browser Configuring advanced settings 2. For further programming refer to page [➙ 239]. 15.13.5 Updating SPC Licenses The License Options feature provides a mechanism for the user to update or add functionality to the SPC system, for example, for migrations, where installed peripherals, which are not licensed for SPC, need to be supported by an SPC controller. 1. Select Settings > Advanced > License. 2.
Accessing web server remotely PSTN connection 16 16 Accessing web server remotely 16.1 PSTN connection PSTN Connection 1 Remote PC with browser 2 PSTN modem 3 PSTN network 4 Telephone line 5 PSTN modem 6 SPC controller 7 JP9 The web server on the controller can be accessed via a remote connection over a PSTN telephone line. A PSTN module and a PSTN line must be connected to the controller as shown above to provide remote access to the controller.
16 Accessing web server remotely PSTN connection 5. Select the following settings: - Enable Modem: Set to enabled - Type: Displays the type of modem (PSTN) - Country Code: Select the relevant country code (Ireland, UK, Europe) - Answer mode: Select numbered rings; this tells the modem to wait for a number of rings before answering the incoming call - Modem Rings: Select the number of rings to allow before answering the call (8 rings max) 6.
Accessing web server remotely GSM connection 16 For some Windows operating systems, a dialog box regarding Windows certification appears. Siemens deems this acceptable to continue. For further queries, please contact network administrator or a Siemens technician. To obtain this IP address: 1. Right click the dial-up icon. 2. Click on the Details tab. The IP address is displayed as the Server IP address. 1. Enter this IP address in the address bar of the browser and click. 2.
16 Accessing web server remotely GSM connection 7 GSM modem 8 SPC controller The web server on the controller can be accessed via a remote connection over the GSM network. A GSM module (with SIM card) must be installed on the controller as shown above to provide remote access to the SPC. The data option of the SIM card must be activated and the data number must be used. On the remote side of the connection the user must have a PSTN or GSM modem installed on a PC with browser.
Accessing web server remotely GSM connection 16 Default code should be changed and noted accordingly as Siemens is unable to retrieve this new code. Forgotten codes are be remedied only by a factory default of the system, rendering loss of programming. Programming can be restored if a backup is available. To activate this dial-up connection: Click on the icon located in the Control Panel > Network Connections window. The PC makes a data call to the PSTN line connected to the SPC PSTN module.
17 Intruder alarm functionality Financial mode operation 17 Intruder alarm functionality The SPC system can accommodate 3 distinct modes of intruder alarm operation, Financial, Commercial or Domestic mode, all of which support multiple areas. Each area in turn can support 4 different alarm modes. Commercial and Financial mode present more programmable alarm types than Domestic mode. The default zone name and type settings for each mode is listed in page [➙ 272]. 17.
Intruder alarm functionality Domestic mode operation 17.3 17 Domestic mode operation Domestic mode is suitable for residential installations with one or more areas and a small-to-moderate number of alarm zones. Each area defined on the system supports the alarm modes listed below. 17.4 Alarm Mode Description UNSET Area is disarmed, only alarm zones classified as 24Hour will activate the alarm.
18 System examples and scenarios When to use a common area 18 System examples and scenarios 18.1 When to use a common area Common areas provide a convenient way of setting multiple areas within a single installation. A user assigned to a common area has the ability to SET ALL areas within that common area (even those areas that have not been assigned to that user). However, the users can only UNSET areas assigned to them.
System examples and scenarios When to use a common area 18 case there are no additional areas. NOTE: The accounts worker cannot UNSET the Sales area. COMMON: unsets ONLY the Common Area (Reception). This provides the option to unarm the reception area only while leaving the Accounts and Sales offices set. ACCOUNTS: unsets the Accounts area and the Common Area (Reception). In this case the Sales area remains set while access is still permitted through the front door.
19 Audio/Video Verification Configuring Video 19 Audio/Video Verification To set up Audio/Video Verification on an SPC system: 1. Install and configure Audio Expander (s) 2. Install and configure Video Camera(s). 3. Install and configure Audio Equipment. 4. Configure Verification Zone(s). 5. Test audio playback from verification zones. 6. Assign Verification Zone(s) to physical zone(s). 7. Configure Verification Settings. 8. View images from verification zones in web browser or SPC Pro.
Audio/Video Verification Configuring Video 19 A list of any previously configured cameras is displayed and their online or offline status. A camera is online if an image was obtained from the camera in the previous 10 seconds. 2. Click on the Add button to add a new camera or the Edit button to edit an existing camera. The following screen is displayed. Configure the camera with the following parameters: Camera ID System generated Camera ID.
19 Audio/Video Verification Configuring Verification Zones Type Select from one of the following camera types: Generic Siemens CCIC1410 Siemens CFMC1315 Camera IP Enter the IP address of the camera. Camera Port Enter the TCP port the camera listens on. Default is 80. Note: The CCIC1410 camera can only be used over port 80 only. Username Siemens CCIC1410 and CFMC1315 cameras only. Enter a login username for the camera which will be added to the command string below when the Update Cmd.
Audio/Video Verification Configuring Verification Settings 19 2. Click on the Add button. 1. Enter a Description for the zone. 2. Select an Audio expander from the drop down list. 3. Select a Video from the drop down list. 4. Click on the Save button. 5. Assign this verification zone to a physical zone on the SPC system. (See Editing a Zone [➙ 165]) The audio input and output for the verification zone can be tested by the engineer only in SPC Pro. 19.
19 Audio/Video Verification Viewing Video Images The View Video right can also be set on the keypad and in SPC Pro (‘Video in Browser’ setting). To view images: In Full Engineer, Soft Engineer and User mode, select Status>Video. All the configured and operational cameras (up to the maximum of four) are displayed in the Video Cameras page. Only two cameras are available in the following example. The images are automatically refreshed as per the interval settings for the camera.
Audio/Video Verification Configuring Video 19 See also 19.5 Adding / Editing user [➙ 129] Configuring Video Overview Cameras are used for video verification. The SPC panel supports a maximum of four cameras. Only IP cameras are supported and the panel must have an Ethernet port. Cameras can only be configured with the web browser or SPC Pro. Configuration with the keypad is not supported.
19 Audio/Video Verification Configuring Video Configure the camera with the following parameters: Camera ID System generated Camera ID. Description Enter a description to identify this camera. Type Select from one of the following camera types: Generic Siemens CCIC1410 Siemens CFMC1315 Camera IP Enter the IP address of the camera. Camera Port Enter the TCP port the camera listens on. Default is 80. Note: The CCIC1410 camera can only be used over port 80 only.
Audio/Video Verification Configuring Video 19 pressed. Command String Enter the command string to be sent to the HTTP server on the camera in order to obtain images. This string should include the user name and password for the camera. Consult the camera documentation for the specific string required for the camera type selected. SPC Pro can configure this automatically if connected to a Siemens CCIC1410 or CFMC1315 camera over a LAN.
20 Seismic Sensors Configuring Video 20 Seismic Sensors Vibration sensors, also called seismic sensors, are used to detect intrusion attempts by mechanical means, such as drilling or making holes through walls or safes. Support for seismic sensors is available only if the installation type for the panel is ‘Financial’. There are several ways to test seismic sensors. The simplest way to test seismic sensors is by hitting a wall or safe and seeing if the zone opens during a walk test.
Seismic Sensors Configuring Video 20 Seismic zones can be controlled by a calendar and can also be assigned to a verification zone. Configure timers to specify how often to test seismic zones (default is 7 days) and the duration of the tests. (Automatic Seismic Test zone attribute must be set). (See Timers [➙ 160]) Using the Keypad Select FULL ENGINEER->ZONES->(select zone)->ATTRIBUTES->SEISMIC AUTOTEST Configure an output for testing a seismic zone.
20 Seismic Sensors Seismic Sensor Testing configured to use areas as is usually the case in financial environments. The output should only be assigned to the system if the panel does not use areas. See also 20.1 Editing a zone [➙ 165] Seismic Sensor Testing Seismic zones must be configured in order for both manual and automatic tests to be available. The results of either manual or automatic testing are stored in the system event log. During a seismic test, one or more seismic zones are tested.
Seismic Sensors Seismic Sensor Testing 20 1. The panel activates the Seismic Test Output for the appropriate area(s) in which the seismic zone(s) are to be tested. 2. The panel then waits for all seismic zones under test to open and then verifies that all seismic sensors in the area enter the alarm state within the time configured for the ‘Seismic Test Duration’. Any zone(s) that have not opened within the maximum period are deemed to have failed the test. 3.
20 Seismic Sensors Seismic Sensor Testing If all areas or an area group or a single area are selected to be set, and a seismic test fails, then ‘SEISMIC FAIL’ will be displayed. Pressing Return displays a list of the failed zones which can be scrolled through using the up and down arrow keys. Depending on the Inhibit settings for the failed seismic zones and your user profile, the following can occur: 1.
Seismic Sensors Seismic Sensor Testing 20 – TEST ALL ZONES Test all seismic zones in this area if there is more than one seismic zone. – ‘ZONE NAME’ The names of all seismic zones are listed and can be selected for testing individually. The message ‘SEISMIC TEST’ is display on the keypad while the test is being performed, If the test fails, the message ‘SEISMIC FAIL’ is displayed. If the “i” or VIEW key is pressed, a list of the failed zones is displayed which can be scrolled through.
21 Appendix Network cable connections 21 Appendix 21.1 Network cable connections A PC can be connected directly to the Ethernet interface of the SPC controller or via a LAN connection. The tables below show the 2 possible connection configurations. If the SPC is connected to an existing network via a hub, then connect a straight through cable from the hub to the SPC and another from the hub to the PC. If the controller is not connected to a network (i.e.
Appendix Powering expanders from the auxiliary power terminals LED 2 Battery Status ON: battery voltage has dropped below the deep discharge level (10.9 V) OFF: battery status OK LED 3 Mains Supply ON: Mains failure OFF: Mains OK LED 4 X-BUS Status 21 ON: X-BUS configuration is a loop configuration OFF: X-BUS configuration is an spur configuration FLASHING: Detects end of line Expanders or break in wiring.
21 Appendix Calculating the battery power requirements 1 3 +– JP9 4 5 2 6 Powering expanders from the auxiliary power terminals 1 SPC controller 2 Battery 3 Auxiliary 12 V power terminals 4 Keypad 5 Keypad 6 I/O expander 21.4 Calculating the battery power requirements It is important that adequate stand-by power is available to supply all devices in the event of a mains supply failure. To ensure that enough power is available, always connect the appropriate back-up battery and PSU.
Appendix Calculating the battery power requirements 21 Time (hours) Battery size = 7 Ah or 17 Ah depending upon SPC enclosure chosen Time = 12 / 30 h depending upon Security grade Icont = Quiescent current (in A) for the SPC controller Ibell = Quiescent current (in A) for the attached external and internal bells Imax = the maximum current that can be drawn from the controller external Aux output Amount of current from Aux output using a 7 Ah battery (SPC422x/522x) COMMS NONE PSTN GSM PSTN+GSM 12 h
21 Appendix Domestic, Commercial and Financial mode default settings 30 h 312 mA 287 mA 182 mA 157 mA Values listed as N / A indicate that the selected battery does not have the capacity to power the minimum load of just the SPC controller for the given standby time. See page [➙ 270] for maximum load of devices and modules. Only sealed cell valve regulated battery types to be used. For EN compliance the supplied current needs to be supported by the battery for required stand by time. 21.
Appendix Wiring of the X10 interface 21.6 21 Wiring of the X10 interface X10 wiring to the controller 21.
21 Appendix SIA Codes DESCRIPTION CODE CLOSE AREA CG FAIL TO CLOSE CI EARLY TO CLOSE CK CLOSING REPORT CL AUTOMATIC CLOSING CP REMOTE CLOSING CQ CLOSING KEYSWITCH CS LATE TO OPEN CT ACCESS CLOSED DC ACCESS DENIED DD DOOR FORCED DF ACCESS GRANTED DG ACCESS DENIED PASSBACK DI DOOR LEFT OPEN DN ACCESS OPEN DO DOOR RESTORAL DR REQUEST TO EXIT DX EXIT ALARM EA EXPANSION TAMPER RESTORE EJ EXPANSION MISSING EM EXPANSION MISSING RESTORE EN EXPANSION RESTORAL ER EXPANSI
Appendix SIA Codes DESCRIPTION CODE FIRE UNBYPASS FU HOLDUP ALARM HA HOLDUP BYPASS HB HOLDUP TROUBLE RESTORE HJ HOLDUP RESTORAL HR HOLDUP TROUBLE HT HOLDUP UNBYPASS HU USER CODE TAMPER JA TIME CHANGED JT LOCAL PROGRAMMING LB MODEM RESTORAL LR MODEM TROUBLE LT LOCAL PROGRAMMING ENDED LX MEDICAL ALARM MA MEDICAL BYPASS MB MEDICAL TROUBLE RESTORE MJ MEDICAL RESTORAL MR MEDICAL TROUBLE MT MEDICAL UNBYPASS MU PERIMETER ARMED NL NETWORK LINK IP RESTORE NR NETWORK LINK G
21 Appendix SIA Codes DESCRIPTION CODE REMOTE OPENING OQ DISARM FROM ALARM OR PANIC ALARM PA PANIC BYPASS PB PANIC TROUBLE RESTORE PJ PANIC RESTORAL PR PANIC TROUBLE PT PANIC UNBYPASS PU RELAY CLOSE RC REMOTE RESET RN RELAY OPEN RO AUTOMATIC TEST RP POWERUP RR REMOTE PROGRAM SUCCESS RS DATA LOST RT MANUAL TEST RX TAMPER TA TAMPER BYPASS TB TAMPER RESTORAL TR TAMPER UNBYPASS TU TEST CALL TX UNTYPED ALARM UA UNTYPED BYPASS UB UNTYPED TROUBLE RESTORE UJ UNTYPE
Appendix SIA Codes DESCRIPTION CODE RF JAM FAULT XQ RF TAMPER XS COMMUNICATION FAIL YC CHECKSUM FAULT YF BELL RESTORED YH COMMUNICATION RESTORAL YK BATTERY MISSING YM PSU TROUBLE YP PSU RESTORAL YQ BATTERY RESTORAL YR COMMUNICATION TROUBLE YS BATTERY TROUBLE YT WATCHDOG RESET YW SERVICE REQUIRED YX SERVICE COMPLETED YZ 21 SPECIAL SIA EVENTS USER DURESS HA USER DURESS RESTORE HR ENET PANIC ALARM PA ENET PANIC RESTORAL PR USER PANIC ALARM PA ENET FIRE ALARM FA ENET
21 Appendix CID Codes DESCRIPTION CODE MDT BELT CLIP RESTORE HR RPA PANIC PA RPA PANIC RESTORE PR RPA HOLDUP HA RPA HOLDUP RESTORE HR NON-STANDARD SIA CODES FOR ZONE STATE REPORTING ZONE OPEN ZO ZONE CLOSE ZC ZONE SHORT ZX ZONE DISCON ZD ZONE MASKED ZM OTHER NON-STANDARD SIA CODES 21.8 CAMERA ONLINE CU CAMERA OFFLINE CV CID Codes CODE CID EVENT DESCRIPTION 100 MEDICAL Medical and man down alarm and restore.
Appendix 21 Overview of keypad types 21.9 305 RESET System reset. 311 BATTERY FAIL PSU battery fail and restore. 312 PSU OVERCURRENT PSU internal, external and auxiliary fuse fail and restore. 320 SOUNDER Bell tamper fail and restore. 330 SYSTEM PERIPHERAL TROUBLE PSU fault and restore. 333 EXP FAIL X-Bus cable and node communications fault and restore. 338 EXP BATT X-Bus node battery fault and restore. 341 EXP TAMPER X-Bus tamper and RF antenna tamper alarm and restore.
21 Appendix User PIN combinations Keypad with PACE SPCK421 ✓ Comfort Keypad SPCK620 ✓ Comfort Keypad with Audio/CR SPCK623 ✓ ✓ - ✓ ✓ 1 2 Keypad Label SPCK420/421 1 Label on inside of Keypad 2 Pull-down label for providing installer details. Fill in all relevant details when installation is complete. 21.10 User PIN combinations The system supports 4, 5, 6, 7 or 8 PIN Digits for each user (User or Engineer PINs).
Appendix Duress PINs 21 10 No of digits = Number of variations (including the User or Engineer PIN) The default Engineer PIN is 1111. See Engineer PINs [➙ 68] for more details. 21.11 Duress PINs The last user PIN within each number of digits, i.e. for a 4 digit PIN this would be 9999, a duress PIN is not allowed on this user PIN. The last user PIN that is allowed to have duress is the number of variations ‘-2’ or ‘3’ depending if Duress +1 or Duress +2 is used respectively i.e.
21 Appendix Wiring of mains cable to the controller 21.12.3 Engineer Access An Engineer can only access the system if permitted by a ‘Manager’ user type (see ‘Engineer’ attribute in User Rights [➙ 131]) and only for a specified time duration (see ‘Engineer Access’ in Timers [➙ 160]). 21.12.4 Keypad User Logoff If no keys are pressed on a keypad for a specific duration (see ‘Keypad Timeout’ in Timers [➙ 79]), the user is automatically logged off. 21.
Appendix Maintenance Smart PSU 21 NOTICE The new battery should be of the same capacity or greater (up to the maximum the system can accommodate). 21.15 If the main fuse blows then the system should be checked for any reasons. The fuse should be replaced by a fuse with the same rating. The rating is stated on the system label in the rear of the cabinet.
21 Appendix Zone types 21.16 Zone types The zone types on the SPC system are programmable from both the browser and keypad. The table below gives a brief description of each zone type available on the SPC system. Each zone type activates its own unique output type (an internal flag or indicator) that can then be logged or assigned to a physical output for activation of a specific device if required.
Appendix Zone types 21 TECHNICAL Intruder The tech zone controls a dedicated tech zone output. When a tech zone changes state, the tech zone output will follow. That is: When the tech zone opens, tech zone o/p triggers on When the tech zone closes, tech zone o/p goes off If more than one tech zone has been assigned, the tech zone output will remain on until all tech zones are closed. MEDICAL Hold-up This zone type is used in conjunction with radio or hardwired medical switches.
21 Appendix Zone attributes LOCK SUPERVISION Intruder Only available in Commercial mode. Used to monitor a door lock. System can be programmed not to set unless door is locked. SEISMIC Intruder Only available if the panel is in Financial mode of operation. Vibration sensors, also called seismic sensors, are used to detect intrusion attempts by mechanical means, such as drilling or making holes through walls or safes.
Appendix Zone attributes Exclude A If the ‘Exclude A’ attribute on a zone is set, then an alarm will not be generated by that zone opening while the panel is in the Partset A mode. The ‘Exclude A’ attribute is valid for Alarm zone type and Entry/Exit zones only. A FULL alarm is generated if a zone with the EXCLUDE A attribute is opened while the system is in FULLSET or PARTSET B Mode (Bells - Internal & External, Strobe).
21 Appendix Zone attributes Analysed The Analysed Attribute must be set for a zone if that zone is wired with an inertia sensor. The Pulse count and Gross attack values should be programmed for each inertia sensor on the system in accordance with the results of a simple calibration of the device. Pulse Count Pulse count trigger level for analysed inertia sensors.
Appendix Applicable attributes to zone types 21 NOTE: The Technical Output will not trip until the delay timer has expired. Armed report only Openings are reported only in armed mode. Fire pre-alarm If enabled and a fire alarm occurs, a Fire Pre-alarm timer is started and internal bells and buzzers are activated. (See Timers [➙ 160].) If the alarm is not cancelled within the timer duration, a fire alarm is confirmed, internal and external bells are triggered and an event is sent to ARC.
21 Appendix Applicable attributes to zone types 290 Siemens AB Security Products A6V10276959 18.11.
Appendix ATS levels and attenuation specifications 21 Only available in Commercial Mode. * Only in conjunction with Remote Maintenance. ** Only available in Financial Mode 21.
21 Appendix Compliance with EN50131-1 Approvals In Standards settings, select Europe under Region to implement EN50131 requirements. Select Grade 2 or Grade 3 to implement the grade of EN50131 compliance. Select Synchronization Time with Mains under Clock settings to use mains as clock master. DO NOT select the attribute Setting State in the Keypad configuration settings for Visual indications. 292 Siemens AB Security Products A6V10276959 18.11.
Appendix Compliance with INCERT Approvals 21 Hardware Requirements The back tamper kit (SPCY130) must be installed for panels and power supplies for compliance with EN50131 Grade 3. EN50131 Grade 3 compliant components must be installed for EN50131 Grade 3 compliant systems. Either EN50131Grade 2 or 3 compliant components must be installed for EN50131 Grade 2 compliant systems.
21 Appendix Compliance with INCERT Approvals Selecting Grade 2 or Grade 3 selects EN50131 compliance plus any additional INCERT requirements: Only an engineer can restore a tamper. For INCERT, this applies across all grades. This is normally only a requirement for Grade III En50131. A tamper on an Inhibited / Isolated zone must be sent to an ARC and displayed to the user. For INCERT, tampers are processed for isolated zones. On all other standard variations, tampers are ignored on isolated zones.
Appendix Compliance with INCERT Approvals COMMS NONE PSTN GSM PSTN+GSM 12 h 568 mA 543 mA 438 mA 413 mA 24h 214 mA 189 mA 84 mA 59 mA 30 h 143 mA 118 mA 13 mA N/A 60h 2mA N/A N/A N/A 21 Standby time The amount of current from Aux output using a 10 Ah battery for SPC43xx/SPC53xx/ SPC63xx is: COMMS NONE PSTN GSM PSTN+GSM 12 h 538 mA 513 mA 408 mA 383 mA 24 h 184 mA 159 mA 54 mA 29 mA 30 h 113 mA 88mA N/A N/A 60 h N/A N/A N/A N/A Standby time 295 Siemen
Issued by Siemens AB Infrastructure & Cities Sector Security Products International Headquarters Englundavägen 7 SE-171 24 Solna Tel. +46 8 629 0300 www.siemens.com/securityproducts Document ID A6V10276959 Edition 18.11.2011 © 2011 Copyright Siemens AB Technical specifications and availability subject to change without notice. Vers. 3.