SCHLAGE Supplementary File - schlage
Contents
1.2. Field name Description Range Default value 8045 8045N 8045 8085 808SN 808SX R129096 DOOR The door number 1to4 1to4 1to8 1to8 NAME The name of the door 24 chars blank blank blank blank RPTKT Key trace report number 0t015 0015 010 15 0015 RPTAG Access granted report number 0t015 0015 0t015 0015 RPTAD Access denied report number 010 15 0015 01015 0015 RPTDOTL Door open too long report number 0t015 0015 0t015 0015 RPTDFO Door forced open report number 0t015 0015 00 15 0015 RPTCF Coax failure report number 0t015 0015 0t015 0015 RPTSF Sensor failure report number 00 15 0015 010 15 0015 RPTMF MSM failure report numbers 0t015 0015 0t015 0015 RPTRG REX granted report number 0t015 0015 00 15 0015 RPTRD REX denied report number 0t015 0015 0t015 0015 SENSOR Sensor type NORMAL OPEN CLOSED NORMAL NORMAL NORMAL NORMAL STATION PASSBACK Passback control NONE ENTRY EXIT 8 NONE NONE NONE NONE PBTYPE Passback type HARD SOFT HARD HARD HARD HARD REVLOCK Reverse action lock YorN YorN YorN YorN OPENTIME Maximum door open time seconds 1to240 1to240 1to240 1to240 UNLOCKT Unlock time seconds 1to240 1to240 1to240 1to240 SWITCH Door switch number 1 1 to 4 410 1 1to 4 41 1 1 to 8 410 1 1 to 8 410 REX Request to Exit switch number 1 1 to 4 429 1 1 to 4 410 1 1 to 8 419 1 1 to 8 40 ULKREX Unlock
3. 0013 fi p6 fo fo Doorcont unlock status IDOOR amp U LLA FORCED 00104 fji fe fo fo Doorforcedstatus IDOOR amp U LL4MSM Jooos Gor MSM status DOOR U 1 1 4 SENSOR_ O06 fi Gor sensor status DOOR U 1 1 4 STATUS 0007 e fo fo Doorswitchstatus DOOR U 114 COAX Jooo fio j oor coax status FBPURGE _ Joc urge feedback files orgive anti passback eneral alarm message en alarm message flag mit building ock status m joo i p FORGE Oow joo joo GENERALALARM MESSAGE FLAG fi o o 5 o LOCKAU LLA STATUS 000A 1 j joo MOMA TAG EALOGGED e bebe j MSM U 1 1 4 4 U 1 1 4 STATUS 0008 1 5 0 0 point status OPEN joo jo o o o 0 oo p oo o o o o o oo o oo o db x004 1 POWER PURGE dows RELOCK DOOR ALL _ O06 1 5 0x0007 REQ U 1 1 4 STATUS REQ U 1 1 4 TIME Open building Operator name Power fail status Purge log files Relock all doors Relock door Remote IO control EX status EX time 8 5H Driver Design peciricauon Shunt door coax Shunt door Shunt monitor point Shunt door MSM SHUNT MP 96U 1 1 4 96 4 964U 1 1 4 SHUNT SENSOR U 1 1 4 Shunt power fail Shunt door sensor Shunt tamper UNLOCK DOOR U 1 1 4 UNSHUNT MSM U 1 1 4 l6 Unshunt door MSM Unshun
4. o fo jUneckdor UPDATE peo o fo jSetdat imeinACU JUNSHUNT COAX U 1 1 8 0003 shunt door coax amper status nlock all doors nlock door et date time in ACU nshunt door coax Unshunt door Unshunt monitor point jo jo jo jo jo jo jo 5 alarm jo jo jo jo o jo jo jo Lo Driver Design peciricauon UNSHUNT DOOR U 1 1 8 0x0014 dG nshunt door UNSHUNT MP U 1 1 8 4 U 1 1 4 0 0015 ll o pe Jo o Unshuntmonitor point UNSHUNT MSM U 1 1 8 0x0016 ll e o Unshunt door MSM UNSHUNT POWER 0x0017 ll je gt fo Unshuntpowerfail UNSHUNT SENSOR U 1 1 8 0x0018 ll pne o o Unshuntdoorsensor UNSHUNT TAMPER 0x0019 ____ 16 do 0 Unshunttamper 2 7 2 3 R1200C DBF The user should be aware that the address ranges that can be successfully used with an R1200C alarm panel depends on the number of sectors installed in the unit For example commands to shunt or unshunt monitor points that correspond to sectors that do not exist will cause erroneous actions to be carried out by the unit Citect tags should not be configured for monitor point numbers sectors that do not physically exist An example of an erroneous response is than an R1200C with only 8 sectors installed will unshunt sector 1 and report sector 9 unshunted in a log message if a direct command is issued to unshunt
5. CTBIN index exe c citect bin help dbf type End CiT Specific 2 7 10 Device Variable Types 2 7 1 Formats and types Note that the following addresses and data types have no direct equivalent data type in the ACU Information accessed through these addresses is reconstructed or cached by the driver from several pieces of information gathered from the ACU The addresses supported bra an R1200 are a 4 subset of the addresses supported by an 8085 The message formats for common addresses are identical Citect address Citect data Description Valid Ranges Applies to format types ACCESS x FLAG INT Flag set by driver after ACCESS x KEY or ACCESS x TIME is 804 8S SN SX updated If this flag is already set the driver may raise a hardware alarm since the Citect project has missed a previous update ACCESS x STATUS 1 Not initialised 804 85 5 5 0 Access granted 1 Wrong facility code 2 Not in memory 3 z Wrong access code 4 Wrong time of day 5 Wrong passback 6 Building not open 7 VIP code Read only A write to this address triggers the download of the information in all 804 85 SN SX configuration files to the IO device A read from this tag will always return a value of 0 BUILDING STATUS 0 Closed 804 85 SN SX R 1200C 1 Limited 2 0pen Read only CLOSE DELETE KEY ALL DOOR x CTS UNLOCK DOOR x FORCED DOOR x MSM DOOR x SENSOR DOOR x STATUS DOOR x COAX FBPURGE FORGIVE GENE
6. monitor point 3 1 i e monitor point 9 IBUILDINGSTATUS 0012 de fo fo Buildingstatus close o pne fo Jo IDOOR A amp U LLS CTS UNLOCK 0013 fi p6 fo fo Doorcont unlock status IGENERALALARM MESSAGE _ 0032 7 02 fo General alarm message IGENERALALARM MESSAGE FLAG 0019 1 n6 fo Gen alarm message fiag MSM U 1 1 32 4 U 1 1 4 LOGGED 00110 ft n6 fo MSM logged status MSM U 1 1 8 4 HU L1 4 STATUS e 0 fo MSMpontstatus OPEN 0 3 pe Jj fo OPERATOR 00200 7 ios fo fo Operatormame POWER A Power fail status PURGE 1 005 urge log files elock all doors elock door hunt monitor point o fo o fo o fo o fo o o J Shuntpower fail o fo o fo o fo amper status nlock all doors UNLOCK DOOR U 1 1 32 nlock door UPDATE 0x0012 pot qo 0 Setdate time in ACU UNSHUNT MP U 1 1 32 4 U 1 1 4 0x0015 ll pe Jo o shunt monitor point UNSHUNT POWER 0x0017 ll e o Jo J Unshuntpowerfail 2 8 PROTDIR DBF FILE BLOCK MAX LENGTH OPTIONS SCHLAGE804 SE804 2048 2048 0x0006 SCHLAGE808 SE808 2048 2048 0x0006 SCHLAGE1200 R1200C 2048 2048 0x0006 2 9 Parameters and INI options 2 9 1 Standard Parameters Block 256 Delay 1 MaxPending
7. SCHLAGES04 Protocol PROTOCOL MASK ERROR MESSAGE REF ACTION COMMENT SCHLAGE804 Jo 0x50 ACU returned unrecognised response j ChecktheACU modelnumer Driver Design peciricauon SCHLAGE804 ACU returned unrecognised log code Check the ACU model number The log code is undocumented found 5 CHLAGE804 SCHLAGE804 M x52 Bad CSV file format x53 ACU could not attach database Checkthe formatof CSV fies The ACU may become EBENEN inoperable if this occurs ee d page aa a repre in the CSV files periods were specified 0x56 ACU could not detach database The ACU may become pci 7 NN SCHLAGE804 SCHLAGE804 SCHLAGE804 checksum checksum differs from expected download the key database checksum differs from expected message 0x5A Access alarm overflow 2 7 1 SetDisableOverflowAlarm 2 9 3 2 parameter if the alarm flag is not used 0x5B General alarm overflow 2 7 1 SetDisableOverflowAlarm 2 9 3 2 parameter if the alarm flag is not used 0x5C Invalid model number 2 5 2 Check the model number A unit will not be put online specified in the IO devices form unless a valid model number is Address field specified Ox5D Invalid CSV file path Check the path specified in the SCHLAGE804 SCHLAGE804 SCHLAGE804 SCHLAGE804 SCHLAGE804 SCHLAGE804 10 devices form Address field SCHLAGE804 Ox5E Invalid unit address 2 5 Checkthe unit address specified in the 10 dev
8. Y or N TAMPER Tamper report number 1to 15 1015 100 15 1015 POWER Power fail report number lto 15 1015 1600 15 1015 GUID The GUID for the download transaction 0 0 0 0 1 4 15 USER TXT The USER TXT file defines the valid ACU Operators that can log in through the Terminal port This information is not critical to the operation of the driver Field name Description Range Default value 8045 804SN 8045 8085 808SN 8085X USER The user number 1to8 1to 8 NAME The name of the user 12 chars NEW NEW PASSWORD The password for the user 12 chars NEW NEW RANK The level of authorisation of the user A to F F F 1 4 16 FEEDBACK DBF The driver will add records to the FEEDBACK DBF file upon execution of a BATCH command to record the status of database download transactions This log together with the configuration files forms an audit trail for changes to the ACU database Field name Length Type Description GUID 9 ASCII String The GUID for the download transaction IODEVICE 64 ASCII String The two hexadecimal address characters from the string in the Citect IO devices form address field18 RESULT 12 ERROR OK WARNING The status of the action INFO 80 ASCII String Any other information the driver can provide e g further information on errors that occurred 1 5 Event Log File The 800 series ACUs and the R1200 security panel
9. at any time In particular the 800 series ACUs provide the following functionality e Receive the identity of command keys presented at a controlled door and control access according to key code Monitor the status open closed locked and alarm conditions tamper alarm of doors Monitor the status of alarm points such as motion detectors PIR and window contacts Provide remote control for direct actions such as locking unlocking doors Trigger alarm contact closure for sirens dial out etc Transmit reports of activity in the controlled area when connected to a remote host The R1200C security panels provide only security monitoring without access control Up to 128 digital inputs and outputs can be connected to motion sensors door switches locks etc to provide security monitoring The R1200C will be used in Schlage emulation mode and will appear to the driver as a single 8085 ACU It will not support the full 808S command set and the protocol functionality will be limited to log messages and direct commands since the R1200C does not Driver Design peciricauon support access control functions The exact Schlage commands supported by the R1200C are detailed in the document Malloch Digital Series 150 Malloch Digital Series 200 Schlage 808S Interface Programming Instructions Issue No 2 D 1 February 1995 1 3 3 Model numbering The following table summarises the dynamic data storage capabilities of each of th
10. code must also be specified The key type currently in use is defined in SYSTEM TXT Precede the key number with the letter A if it is a key for an alternate facility code Driver Design peciricauon NAME The command key name unused unused unused unused unused ACN Access code number 0t015 0015 0t015 0015 PRIVILEGED Privileged access Y or N Y or N Y or N Y or N TRACE Enable key trace Y or N Y or N Y orN Y orN DEFERRED Enable deferred access decision requires SE6000 Y or N Y or N Y or N Y or N 1 4 13 DELETE TXT The DELETE TXT file removes key code information in the ACU Field name Description Range Default value 8045 804SN 8045 8085 808SN 8085 R1200C NUMBER The command key number up to 8 digits to number number number number delete1415 1 4 14 SYSTEM TXT The SYSTEM TXT file is used to define several system parameters for the ACU Field name Description Range Default value 8045 8045N 8045X 8085 808SN 8085X R1200C KEYTYPE The key type used with the ACU 1030 1040 1050 1040 1040 1040 1040 FACILITY The facility code for 1030 and 1040 keys A000 A000 A000 A000 ALTFACILITY The alternate facility code for 1030 and 1040 keys A000 A000 A000 A000 TERMX Use XON XOFF at Terminal port Y or N Y or N Y orN Y orN HOSTX Use XON XOFF at Host port Y or N Y or N Y orN
11. configuration of Schlage 800 series ACUs using a system of CSV data files saved as TXT generated by an external application and downloaded to the ACU by the driver Note that configuration files are not required for R1200C panels Malloch series 100 panels The configuration file system applies only to Schlage 800 series ACUs Each ACU configured in Citect requires its own set of configuration files which must reside in a unique directory The source directory for configuration files is specified in the Address field of the IO devices form See section 2 5 2 for more information on the format of the address field Driver Design peciricauon The SCHLAGE driver functionality is designed to be similar to the S764CMD and S764OP drivers developed for use with Schlage 700 series ACUs hence the format of the configuration files has been copied from the original drivers wherever possible Due to inherent differences in the two protocols used for the two series however the configuration files are used in significantly different ways The primary difference is that the information in the SCHLAGE driver configuration files is not designed to be incremental Before information can be downloaded to the ACU the configuration files need to be re generated and must contain all information to be sent to the ACU Information already in the ACU is not retained by the driver or the ACU and will always be overwritten by the information in th
12. devices form Address field SCHLAGE1200 0 0x5F Invalid protocol Check the combination of model type and protocol SCHLAGE1200 0 0x60 Cannot find DRIVER DBF The file DRIVER DBF in the The DRIVER DBF file is used to Driver Design peciricauon BIN directory could not be format DCBs for error reporting found SCHLAGE1200 0 0x61 Cannot open file The driver failed to open a Check that the file exists and no required data file locks are held by other applications SCHLAGE1200 0 0x62 Bad unit state An unexpected sequence of Report this condition to CiT messages was encountered SCHLAGE1200 0 0x63 File 1 0 Error A general file 1 0 error was Check that all required files exist encountered and are not locked by other applications SCHLAGE1200 0 0x64 Unsolicited response An unsolicited response was received SCHLAGE1200 0 0x65 Channel locked The channel is locked against Another unit on the channel is write requests performing a database download 2 13 Debug Messages The debug messages produced by the driver are marked by the following descriptions e TX DATA raw data dump of transmitted bytes e RX DATA raw data dump of received bytes collected into the frames they arrived in The debug system displays both the HEX and ASCII versions of the data bytes and cross referencing the information with section Error Reference source not found with the AS
13. once the baud rate has been set A double beep indicates a new value has been accepted Set the operating mode Once the baud rate has been accepted the display will indicate the current operating mode Press the 0 key until the desired operating mode is shown A mode of N81 is recommended The available options are N81 O81 N82 E81 N71 O71 N72 and E71 Press the key to accept Or press the key to cancel A double beep indicates a new value has been accepted The communication parameters become effective immediately 1 3 5 3 Hardware Configuration The diagram below shows a variety of possible connection methods Note that no two ACUs on the same port may have the same address but two ACUs on different ports may Each ACU must be assigned an address even if it is the only ACU on a port It is also completely acceptable to mix 804 808 and R1200C Malloch series 100 units on the same port Standard COM ports or Digiboard RS 232 to RS 422 RS 422 to RS 232 etc converter converter RS 232 RS 422 4 wire RS 422 4 wire RS 232 8048 8085 R1200C 808SX R1200C 8045 804SN 0x01 0x01 0x01 0x01 0x02 0x03 0x04 Lou 8 Driver Design peciricauon 1 3 5 4 Wiring Diagrams Standard serial port DTE RS232 Host For DCE wiring port DCE reverse these two connections TX 2 2 TX RX 3 3 RX RTS 4 gt 4 RTS CTS 5 5 CTS 5 7 7 SG D Connector D Connector 25 WAY 25 W AY FEMALE
14. parameter must be overridden in CITECT INI and set to WatchTime in the previous section x 1000 If the hardware alarm PLC server request timeout occurs the value of Timeout should be increased The LAN Timeout parameter sets the number of milliseconds a Citect client will wait for a response from an IO server before raising a hardware alarm The parameter applies equally across networks and between the server and client running on the same machine For example to set the value of the LAN Timeout parameter to 60 seconds the following lines should appear in CITECT INI Lam 08 Driver Design peciricauon LAN Timeout 60000 2 9 3 Driver Specific Parameters There are several driver specific parameters that can be used to override default driver behaviour for each unit 2 9 3 1 Disable Automatic Date Time Synchronisation By default the driver will synchronise the date and time in an 800 series ACU or R1200C panel with the time on the IO server when the unit is initialised or when the unit returns online This default behaviour can be disabled by setting the AutoTimeSync parameter in CITECT INI to O The section name unit for the parameter must be set to the same as the unit name specified in the IO devices form This parameter can be set per unit lt unit gt AutoTimeSync 0 2 9 3 2 Disable Hardware Alarm on Alarm Overflow By default the driver will raise a hardware alarm if the ACCESS xXFLAG or GENERAL ALARM MESS
15. to be monitored and logged the driver polls for new information every 2 seconds by default This default time can be overridden by setting the StatusLogPollTime parameter in CITECT INI to a new poll time in milliseconds The section name unit for the parameter must be set to the same as the unit name specified in the IO devices form The following example sets the poll time to 1 second If the poll time is set to O status log polling will be disabled 7 8 5H Driver Design peciricauon The minimum poll time is 1000ms If a value between 1 and 999 is specified a value of 1000 will be used The maximum poll time is 2 831ms 25 days This parameter can be set per unit unit StatusLogPollTime 2000 2 10 Remapping Remapping is not used 2 11 Driver Specific Errors Error Generic Error label ONSE response R1200C ODE log code R1200C T AT D database page RS span DTFs D database AD database checksum BAD checksum DRIVER ADD KEY FAILED GENERIC GENERAL ERROR ACU could not add ke 804 8S SN SX OW R1200C OW R1200C specified R1200C H specified DRESS R1200C OL R1200C VER DBF R1200C LE R1200C encountered R1200C R1200C PONSE received R1200C 0x65 DRIVER CHANNEL LOCKE puse am channel is uu eem D locked against write requests 2 12 Driver Error Help The following entries should be included in the Citect PROTERR DBF spec file Note that the information is split into 3 tables for clarity only 2 12 1
16. transmission times at each baud rate are based on 1 start bit 8 data bits 1 parity bit 1 stop bit 11 bits total per byte Baud rate 300 600 1200 2400 4800 9600 Bytes sec 27 27 54 55 109 1 218 2 436 4 872 7 1 byte 36 7ms 18 3ms 9 17ms 4 58ms 2 29ms 1 15ms 1000 bytes 36 75 18 3s 9 17s 4 58s 2 29s 1 15s e The suggested values for Timeout and WatchTime are values shown per additional unit should be added to the value given for the first four units 804S SN SX 808S SN SX R1200C First four units Per additional unit First four units Per additional unit First four units Per additional unit Baud rate Timeout WatchTime Timeout WatchTime Timeout WatchTime Timeout WatchTime Timeout WatchTime Timeout WatchTime 300 4000 80 0 4000 80 4000 80 600 3000 60 3000 60 3000 60 1200 2000 50 2000 50 2000 50 2400 1000 M0 1000 40 40 1000 40 4800 1000 M0 1000 40 1000 40 9600 1000 40 1000 40 1000 40 Note that the values above are only approximations If the hardware alarm IO Device offline occurs the value of Timeout should be increased If the hardware alarm Driver not responding occurs the value of WatchTime should be increased 2 9 2 Client Parameters The default value of 8000 ms for the LAN Timeout
17. 1997 2012 2003 2006 2001 2016 2007 2010 2005 2020 2011 2014 2009 2024 2015 2018 2013 2028 2019 2022 2017 2032 2023 2026 2021 2036 2027 2030 2025 2040 2031 2034 2029 2044 2035 2038 2033 2048 Other values are possible however leap year synchronisation will only be maintained if the chosen BaseYear minus 1985 is always a multiple of 4 note that the year 2000 is a leap year The following table details the year reported by an R1200 or 800 series ACU for each of the years from BaseYear to BaseYear 15 Year offset R1200C year displayed 800 series year displayed 0 2085 01 1 2086 02 2 2087 03 3 2088 04 4 2089 05 5 1990 06 6 1991 91 7 1992 92 8 1993 93 9 1994 94 10 1995 95 11 1996 96 12 1997 97 13 1998 98 14 1999 99 15 2000 00 For example if BaseYear was set to 1996 and the current year was 1999 an R1200C would report 2088 and an 800 series ACU would report 04 from HyperTerminal 2 9 4 Status Poll Time Since there are several changes of state which if initiated by a command through the Host port of an 800 series ACU do not generate a log message the Schlage driver will automatically generate log messages for these state changes based on the information in the status messages The state changes detected by this system include monitor shunt unshunt active clear door open closed coax fail OK shunt unshunt etc To allow state changes
18. 2 Polltime 0 Timeout 1000 Retry 2 WatchTime 40 Driver Design peciricauon The default values given above for these parameters may need to be overridden in CITECT INI if the baud rate is changed or a large number of units are multi dropped on the same channel It is recommended that no more than four units be multi dropped on a single channel to maintain optimum performance The tables below indicate the preferred values for Timeout and WatchTime for various baud rates and channel configurations and their calculation methods e Timeout value is based on the transmission time required for the longest message for each unit values in bytes Unit type Longest single message Length Request bytes Response bytes 804S SN SX Database page 519 517 2 808S SN SX Database page 519 517 2 R1200C Status message 72 8 64 e The WatchTime value is based on the transmission time required for the worst case transaction sequence for each unit also assuming 100ms delay between transactions for 800 series units and 200ms delay between transaction for R1200C units values in bytes Unit type Transaction Length Request bytes Response bytes 804S SN SX 10 database pages 5190 110 of 517 10 of 2 808S SN SX 10 database pages 5190 10 of 517 10 of 2 R1200C Unlock all retrieve logs relock all 994 32 of 9 10 of 3 32 of 2 10 of 26 32 of 9 32 of 2 e The approximate
19. 200C SCHLAGE1200 SCHLAGE DLL R1200C DBF 2 5 2 Address The IO devices form address field is used specify three parameters in a comma separated variable list The first parameter is the two digit hexadecimal address of the ACU or security panel The valid range for the address is 00 to FF The address field is not case sensitive The driver will not initialise the unit if the address cannot be interpreted as a valid hexadecimal number The address of an 800 series ACU is set using the SYSTEM command though the terminal port The address of an R1200C panel is set using the 5 15 command from the front keypad note that the value is set in decimal The second parameter is the model type For 800 series ACUs valid model numbers are S SN and SX For R1200C security panels the model number is C The model type field is required The third parameter is the path specifying the location of the configuration and log files for the unit The path must be unique for each unit and need not be fully qualified The driver does not support using the same set of configuration files for two units hence the path must be unique across all Citect IO servers using the SCHLAGE protocol The path can be specified as a UNC address and has a total limit of 91 characters Labels and path substitution parameters are not supported in the address field A trailing backslash character on the path is required For 800 series ACUs only the d
20. 4 0 Service Pack 4 with Citect for Windows V5 20 Rev 00 Service Pack B 2 Windows NT 4 0 Service Pack 5 with Citect for Windows V5 21 Rev 00 as required when released 1 3 Schlage SE 804S 808S Access Control Units 1 3 1 Device Manufacturer Schlage Electronics SE 8045 access control unit EPROM revision or O or later SE 804SN access control unit firmware revision unavailable SE 804SX access control unit firmware revision unavailable SE 8085 access control unit EPROM revision or or later SE 808SN access control unit firmware revision unavailable SE 808SX access control unit firmware revision unavailable Honeywell R1200C security panels Malloch 100 series panels running in Schlage 800 series emulation mode firmware revision CH6L Note that firmware revision O gives the 804 8 ACU Y2K compliance The driver will not be designed to support the 9025 or UMB access control units despite the fact these devices support most features of the protocol 1 3 2 Device Definition The Schlage 804 and 808 ACUs provide access control and security monitoring for up to 4 or 8 doors respectively and authorisation information for up to 5200 employees 2000 named employees Access control is provided by means of a keycard system with the intention that each employee be issued a unique keycard ID The 804 and 808 ACUs are intended to be dynamically configurable such that access permissions for all keycard codes can be adjusted remotely
21. 8 for the 808 The access control functions in an R1200C are organised by sector number The R1200C supports up to 255 sectors however when running in Schlage emulation mode only the first 8 sectors are mapped to doors Sector 1 always relates to Door 1 etc Each sector is identified by a single digit number 1 to 8 Information about other sectors attached to an R1200C is available MSM x y LOGGED addresses indirectly via the 1 3 3 2 Monitor Point Numbering Scheme Each MP DS and REX in an 800 series ACU is identified by a unique 2 digit number of the form X Y Where X is the number of the sensor port to which the MSM is connected to 1 to 4 for the 804 1 to 8 for the 808 and Y is specifies which of the 4 sensor terminals for both 804 and 808 on that port the sensor is connected to Example Door switch 3 4 is wired to MSM 3 terminal 4 and would be assumed to relate to door 3 Driver Design peciricauon Note that although the labelling on the ACU specifies DS REX GPS1 GPS2 for the 4 MSM terminals respectively the terminals are not restricted to these functions Door and REX switches are not directly supported by the R1200C Monitor points are supported and monitor point 1 is always assumed to be the door switch for door 1 etc 1 3 4 Communications Method All driver communication with the 804 and 808 ACUS is performed using a master slave serial protocol through the ACU s Host port The serial data f
22. A t6 fo jtoksatu MSM GEL SIGE HLA LOGGED oono e 9 MSM U 1 1 8 4 U 1 1 4 STATUS o MSM point status OPEN e Jo Open bilding OPERATOR qooxo0 fos o 0 Operatorname POWER ft Jo fo Power fal status PURGE 1005 je j Purge log files IRELOCK DOORALL oxo6 t o fo Relckal doors IRELOCKDOOR U 18 0x007 t6 o fo jReockdor REMOTE ooo Jo 0 IREQAU LLI8 STATUS i6 o o IREQAMU LISB TIME 7 pos o jREXtm SHUNT COAX U 1 1 8 xo o de fo fo Shunt doorcoax SHUNT DOOR U L1 8 0x09 fe fo fo Shumtdor SHUNT MP U 1 1 8 4 U 1 1 4 1 Me fo fo Shuntmonitorpoint SHUNT MSM U 1 1 8 83 e o 0 jShutdorMSM ISHUNTPOWER jShutpowerfal SHUNT SENSOR U 1 18 ooo i6 fo fo jShundoorsensor SHUNT TAMPER joo e Shunttamper SILENCE e o 0 Silence alarm TAMPER jor _ 6 o 0 JTamprstatus IUNLOCKDOORALL ooi flock all doors JUNLOCK DOOR U L18 ood t
23. AGE FLAG flags need to be set to 1 whilst already set at 1 This condition indicates that the Citect project has missed the information in ACCESS x STATUS or GENERAL ALARM MESSAGE etc If the Citect project does not need to capture this information the hardware alarms can be disabled by setting the DisableOverflowAlarm parameter in CITECT INI to 1 This parameter applies globally to all units SCHLAGE DisableOverflowAlarm 1 2 9 3 3 Event Log Poll Time The driver polls for new event log records every 5 seconds by default This default time can be overridden by setting the EventLogPollTime parameter in CITECT INI to a new poll time in milliseconds The section name lt unit gt for the parameter must be set to the same as the unit name specified in the IO devices form The following example sets the poll time to 2 seconds If the poll time is set to 0 event log polling will be disabled The minimum poll time is 1000ms If a value between 1 and 999 is specified a value of 1000 will be used The maximum poll time is 2 31ms 25 days This parameter can be set per unit unit EventLogPollTime 2000 2 9 3 4 Event Log Poll Count The driver retrieves a maximum of 5 800 series or 10 R1200C event log records per poll time by default This maximum count can be overridden by setting the EventLogPollCount parameter in CITECT INI to a new poll count The section name unit for the parameter must be set to the same as the unit n
24. CDTF1 Limit latched contact closure to DTF interval 1 unused unused unused unused CLCDTF2 Limit latched contact closure to interval 2 unused unused unused unused CLCDTF3 Limit latched contact closure to DTF interval 3 unused unused unused unused COCN Close output contact number 010123 0012 Oto 163 Oto 163 If a value of 0 is entered and any of the contact closure intervals are defined then a data log will be generated but there will be no contact closure or central station report 88 Driver Design peciricauon coco Close output contact when building is Open YorN YorN YorN YorN COCL Close output contact when building is Limited YorN YorN YorN YorN COCC Close output contact when building is Closed YorN YorN YorN YorN COCDTF1 Limit contact closure to DTF interval 1 lt unused gt lt unused gt lt unused gt lt unused gt COCDTF2 Limit contact closure to DTF interval 2 lt unused gt lt unused gt lt unused gt lt unused gt COCDTF3 Limit contact closure to DTF interval 3 lt unused gt lt unused gt lt unused gt lt unused gt PRVNTCLS Prevent building closure YorN YorN YorN YorN PRNTASTRSK Print asterisk with 100 YorN YorN YorN YorN 1 4 7 DOOR TXT A door definition record maps the sensors for and defines the behaviour of a door
25. CII output allows easy identification of both the transmitted received command as well as the address of the target unit This level of information is sufficient for most debugging 2 14 Stats Special Counters Purpose Meaning of this counter o STATS_RX_NACK_ Count of responses received 6 STATS TX TIME SYNC J Countoftime sync messagessent 8 STATS RX_FRAME Count of received frames 9 STATS TX FRAME Countof transmitted frames 2 15 Hints and Tips e Add the following entry to CITECT INI to allow immediate debugging of a port on Citect startup c SCHLAGE DebugStr port name ALL Lai 25H Driver Design peciricauon 3 1 References Copies of the following references may be found in CiT Systems Job No 4370 Technical Documentation Folder 2 1 2 MELDE 9 SE 8045 8085 User s Manual Schlage Electronics Part No 66104574001 Rev C Pages 1 201 Honeywell R1200C Grade 2 Security Alarm Panel Operating Instructions for use with Endurance Electronics Series 100 150 Malloch Panels with SYS4 software Pages 1 107 Dated May 1989 Schlage Electronics 804S 808S 902S UMB Interface Protocol Part No 75107451001 Rev A Pages 1 26 dated April 19th 1990 Malloch Digital Series 100 amp 200 Communications Protocol Manual Endurance Electronics Issue 3 D dated 1st May 1993 SE 6000 Manual Module 13 Remotely Connected Devices RDI
26. Card Pages 1 26 Ness 5000 8 zone Instruction Manual Dec 1988 pages 1 29 Ness 5000 8 zone Installation Manual Dec 1988 pages 1 30 Eraring R1200 A amp B Cables amp Terminal Schedules Doc IDR12AER XLS Dated 28 2 91 Titled As built Z world Short Form Catalog on Model BL1100 card RDI 10 Honeywell Access Control System drawing Rev 6 As Built DRW No 129514 89 ER3 11 Honeywell Security Alarm R1200C Schematic Diagram Rev 6 As Built DRW No 12951 4 89 ER4 12 Honeywell Station Security System Configuration ACAD 2193 Rev 7 13 Honeywell SN60 Channel Configuration DRW No 129514 89 229 Rev 2 14 Pacific Power International Electrical amp Control Systems PACIFIC POWER SECURITY SYSTEM UPGRADE Rev 2 Oct 1998 15 A Painless Guide to CRC Error Detection Algorithms by Ross N Williams Version 3 19 August 1993 ftp adelaide edu au pub rocksoft crc v3 txt NB URL no longer exists 16 Malloch Digital Series 150 Malloch Digital Series 200 Schlage 808S Interface Programming Instructions Issue No 2 D 1 February 1995 Endurance Electronics 17 Malloch Digital Series 150 Grade 2 Alarm Panel Programming Instructions Issue No 6 B 1 October 1992 Endurance Electronics The following references may assist in finding further information 1 2 http Awww schlagelock com Schlage online homepage http www endurance com au Endurance Electronics online homepage
27. Citect for Windows Driver Specification Extract SCHLAGE Driver 20 4 99 11 5 99 Added Event Log DBF specification section 1 5 24 5 99 Completed protocol capture references testing guidelines 2 6 99 Updated after final review Andrew Peterson 16 6 99 Updated build notes IO device variable types description UPDATE command description for R1200C BaseYear option Outstanding issues Andrew Peterson 22 6 99 Added suggested SCHLAGE TimeOut and WatchTime values and LAN timeout values for all baud rates Updated Log Cache file description Stephen Byrne 29 6 99 Final Testing amp Release Elspeth Hurley 8 9 99 Updated after phase 2 development and testing Andrew Peterson Driver Design peciricauon Contents CONTENTS 1 TARGET DEVICE S AND PROTOCOL 1 1 Introduction 1 2 Target Platform 1 3 Schlage SE 8045 808S Access Control Units 1 8 1 1 3 2 1 3 3 1 3 4 1 3 5 Device Manufacturer Device Definition Model numbering Communications Method Communications Hardware Configuration 1 4 Configuration Files 1 4 1 1 4 2 1 4 3 1 4 4 1 4 5 1 4 6 1 4 7 1 4 8 1 4 9 1 4 10 1 4 11 1 4 12 1 4 13 1 4 14 1 4 15 1 4 16 Date Time Field DTF Format Time Interval Record TIR Generation Report Numbering Access Code Numbering CSV File Format Limits REPORT TXT DOOR TXT HOLIDAY TXT MODEM TXT MONITOR TXT ACCESS TXT KEY TXT DELETE TXT SYSTEM TXT USER TXT FEEDBACK DBF 1 5 Event Lo
28. MALE A more detailed wiring scheme for R1200C panels DB25 RS485 can be found in drawing AP 009 Rev 2 on p22 4 of the document Malloch Digital Series 150 Grade 2 Alarm Panel Programming Instructions Issue No 6 B 1 October 1992 1 3 5 5 VO Device Settings All sensor and monitor point inputs are connected along the right hand edge of the 808 series ACUs All lock control outputs are connected along the left hand edge Note that sensors are generally associated with the lock output contacts having the same number 1 3 5 6 Software Setup The Schlage 804 808 ACUs require no special user software to operate correctly Note however that the baud rate must be set correctly according to section 1 3 5 The user should be aware that to operate the Access Alarm mode of an R1200C sector remotely using the OPEN and CLOSE commands the sector must be set to Access Level 28 To set a sector to access level 28 use the 2 command from the front panel and then enter 28 To toggle the assignment of a sector to access level 28 press the keys 1 to 8 to control sectors 1 to 8 respectively To move on to controlling the next row of sectors press the 0 key A sector s Access LED will flash if it is assigned to access level 28 The user should also be aware that to open or close a lock relay on an R1200C panel the relay must be placed in Host Control Mode using the 7_0_1 command 1 4 Configuration Files The SCHLAGE driver supports full remote
29. RAL ALARM MES SAGE GENERAL ALARM MES SAGE FLAG LIMIT LOCK x STATUS MSM x y LOGGED MSM x y STATUS OPERATOR POWER STRING STRING NT NT NT NT NT NT NT NT NT N 7 NT NT NT NT 7 T Driver Design peciricauon Writing any value to this address triggers the driver to set the building 804 8S SN SX R1200C mode to closed in the ACU A read from this tag will always return a value of 0 Writing any value to this address triggers the driver to delete all keys 804 8S SN SX in the ACU s memory A read from this tag will always return a value of 0 0 False 804 85 SN SX R1200C 1 True 804 85 5 5 SN SX Read only 0 Door OK 804 8S SN 804 85 5 5 1 Door open too long or forced Read only 804 85 SN SX 804 85 5 5 7 Shunt Read only A write to this address triggers the driver to delete a count of records 804 85 SN SX from feedback dbf as indicated by the value written to the tag A read from this tag will always return a value of 0 Writing any value to this address triggers the driver to reset forgive 804 8S SN SX all anti passback states A read from this tag will always return a String containing a general message that can be displayed in an 804 8S SN SX R1200C value of 0 Alarm page of the Citect project Log messages directed here include KEY TRACE ATTEMP TO CLOSE BLDG SHOULD BE 804 85 SN SX R1200C 804 85 SN SX CLOSED and ALARM SILENCE Flag set b
30. ame specified in the IO devices form The following example sets the poll count to 20 The minimum poll count is 1 and the maximum is 2 81 Values outside this range will be set to 1 This parameter can be set per unit lt unit gt EventLogPollCount 20 Lou Driver Design peciricauon 2 9 3 5 Map Log Codes The driver can map 800 series ACU log codes 1 to 80 to the nearest 700 series log code This feature is disabled by default but can be enabled by setting MapLogCodesToS700 to 1 in CITECT INI The example below enables the log code mapping This parameter applies globally to all units SCHLAGE MapLogCodesToS700 1 2 9 3 6 Alarm If Not Initialised The driver provides caching for certain information extrapolated from event log records returned by an ACU An example of this is the information read from the LOCK x STATUS address Information at these addresses cannot be read directly by the driver and may never be initialised if a corresponding event log message is not received To prevent Citect reading invalid status information if the address has not yet been initialised the driver will raise a hardware alarm for these addresses if a read is attempted This hardware alarm can be overridden by setting the AlarmlfNotlnit parameter to 0 in CITECT INI When set to zero no hardware alarm will be raised and a value of 1 integer types or NOT INITIALISED string types will be read from these addresses until they are
31. base page Driver Design peciricauon 0x55 Too many TIRs required to span DTFs Specify 64 or less time periods Out of TIRs more than 64 time in the CSV files periods were specified SCHLAGE808 SCHLAGE808 inoperable if this occurs checksum checksum differs from expected download the key database checksum differs from expected SCHLAGE808 SCHLAGE808 SCHLAGE808 SCHLAGE808 SCHLAGE808 1 message 0x5A Access alarm overflow 2 7 1 SetDisableOverflowAlarm 2 9 3 2 parameter if the alarm flag is not used 0 5 General alarm overflow 2 7 Set DisableOverflowAlarm 2 9 3 2 parameter if the alarm flag is not used 0 5 Invalid model number 2 5 2 the model number A unit will not be put online specified in the IO devices form unless a valid model number is Address field specified Invalid CSV file path 5 2 Check the path specified in the This error can only occur after 10 devices form Address field BATCH tag is written to id unit address 5 Check the unit address specified in the 10 devices form Address field Check the combination of model type and protocol SCHLAGE808 SCHLAGE808 SCHLAGE808 SCHLAGE808 Invalid protocol SCHLAGE808 Cannot find DRIVER DBF The file DRIVER DBF in the BIN directory could not be found The DRIVER DBF file is used to format DCBs for error reporting SCHLAGE808 Cannot open file The driver failed to open a required data
32. blank by default RAW 80 ASCII String A complete copy of the raw logged message as received by the driver 1 6 Log Cache File To enhance the inbuilt support for R1200C alarm panels the MSM x y LOGGED addresses provide information on the status of monitor points as reported by the ACU via Log Messages These addresses allow the status of up to 128 monitor points to be retrieved from the driver and are generated independently of information provided in the Schlage Status message The system is provided because of the extended addressing capability of R1200C units 128 inputs in comparison to SE804 16 inputs or SE808 ACUs 32 inputs Because backward compatibility with the SE808S protocol must be maintained R1200C units cannot provide realtime status for monitor points beyond 32 using Status messages due to the fixed format of Status messages The information can be retrieved however using Log Messages and the R1200C generates a log message for each change of state for a monitor point from active to inactive or shunted to unshunted and vice versa The driver provides a facility to trap messages relating to monitor point status as they are read from the unit and store the changes of state in a local memory cache For example if monitor point 87 were to become active an R1200C would generate a log record with event code 14 MONITOR ACTIVE and the number 87 in byte 5 of the log message Upon receipt of this message
33. corresponding record is 00 00 24 00 11111111 1 4 8 Report Numbering Several fields in the configuration files are required to specify a report number for an event type Up to 15 reports can be defined in an 800 series ACU numbered 1 to 15 Report numbers 0 and 1 are preset If report 0 which cannot be altered is specified no data log is printed no alarms are activated and no report is output to the Host port The default settings for report 1 which can be altered specify that a data log is to be printed but alarms are not to be activated and no report is to be output to the Host port If no reporting is desired report number 0 should be specified 1 4 4 Access Code Numbering Access codes 0 and 1 are pre programmed in the 800 series ACUs Access code 0 allows no access and cannot be altered Access code 1 which allows access at all doors at all times can be redefined For temporarily denying access to specific keys access code 0 can be used as an alternative to deleting the keys from memory 1 4 5 CSV File Format Limits The user should be aware of the following limits imposed on CSV files Maximum record length 80 characters Maximum number of fields per record 32 fields 1 4 6 REPORT TXT In order to simplify the configuration of event action control the ACUs implement a system of report definitions Particular events such as changes to MSM status points or key card activity are linked to a particular report def
34. d set this number to O 7 The sensor type specifies the building modes during which the sensor will operate Enter NORMAL if the sensor is to be always active Enter STATION if this is a station sensor 8 Enter NONE if anti passback control is not used at this door Enter ENTRY or EXIT to prevent passback access when entering or leaving respectively If ENTRY or EXIT is specified as the passback control method then the passback type HARD will cause a data log to be printed and passage denied if anti passback is violated Passback type SOFT will print a data log but still allow passage switch number of 0 0 indicates that no switch is used A switch number of 0 0 indicates that no switch is used La 7 Driver Design peciricauon 1 4 8 HOLIDAY TXT Field name Description Range Default value 8045 8045N 8045X 8085 808SN 808SX R129096 NUMBER Holiday number 1 to 30 1 to 30 1 to 30 1 to 30 DAY The day of the month for the holiday 01031 0t031 01031 0t031 MONTH The month of the year for the holiday J AN FEBetc JAN JAN JAN JAN YEAR The 4 digit year of the holiday 1985 9999 3 1985 1985 1985 1985 1 4 9 MODEM TXT The MODEM TXT file defines the operation of modem dial out through the Host port Field name Description Range Default value 8045 8045N 8045X 8085 808SN 8085 R129096 BLDGID1 Line 1 sign on message to identify build
35. d for the sensor on door x return a value of 0 iting any value to this address triggers the driver to send a mmand for the tamper sensor A read from this tag will a it is address triggers the dri er sensor read from Ways shunt ways ver to send a this tag will a is address triggers the dri read from shunt Ways turn a value of 0 OK This dummy address allows the driver to hold a remote IO device 804 8S SN connection It is required if the ACU is configured as a remote IO device S S S 804 85 S N S SN S S 804 85 S N S X X X X 804 85 SN SX X X X X re Writing any value to this address triggers the driver to send a silence 804 8S SN S command to the ACU A read from this tag will always return a value 804 85 SN SX R 1200C Writing any value to this address triggers the driver to send an unlock 804 8S SN SX R 1200C command to all doors A read from this tag will always return a value Writing any value to this address triggers the driver to send an unlock 804 85 SN SX R 1200C command to door x A read from this tag will always return a value of 0 A write to this address triggers the driver to synchronise the time and date in ACU with the local IO server using a Date Time message A read from this tag will always return a value of 0 Writing any value to this address triggers the driver to send an 804 85 SN SX R 1200C Writing any value to th
36. e 800 series ACU models 804S 804SN 804SX 808S 808SN 808SX Access codes 15 120 120 15 120 120 Unnamed key holders 5200 6000 11000 5200 6000 11000 Event log buffer 100 1600 4000 100 1600 4000 The R1200C security panel does not provide named or unnamed key code database storage The model numbering for Malloch panels in the following table is provided for identification purposes only Only the R1200C running in Schlage emulation mode will be supported by the driver R1200 R1200C R1200CX Malloch panel series Unknown 100 150 200 Security level Grade 1 Grade2 Grade 2 Digital inputs Unknown 128 24 Digital outputs Unknown 128 24 Event log buffer Unknown Unknown Unknown 1 3 3 1 Door Numbering Scheme The access control functions in an 804 or 808 ACU are organised by door number The 804 supports 4 doors and the 808 supports 8 doors A door may be assigned both a door switch and a REX switch from 1 of 32 monitor points Each door has a corresponding sensor port along the right hand edge of the ACU and it is generally assumed that the door switch and REX switch for a door come from the MSM attached to the sensor port for that door however this is not required Each door also has a lock contact output in the sensor port area Contact 1 is always the lock contact for door 1 etc Each door is identified by a single digit number 1 to 4 for the 804 and 1 to
37. e file to allow the 4 time intervals for each of the 8 doors for that ACN to be defined If an ACN record is omitted or not complete i e not all 8 doors are specified the access times for each unspecified door are set to 0 Field name Description Range Default value 8045 804SN 8045X 8085 808SN 8085X ACN The access code number 1to15 1to15 1to15 1to15 DOOR The door number 1to4 1to4 1to8 1to8 DTF1 DTF interval 1 unused unused unused lt unused gt DTF2 DTF interval 2 unused unused unused unused DTF3 DTF interval 3 unused unused unused lt unused gt DTF4 DTF interval 4 lt unused gt unused lt unused gt lt unused gt 1 4 12 KEY TXT The KEY TXT file adds or changes key code information in the ACU Field name Description Range Default value 8045 8045N 8045X 8085 808SN 8085 R129096 NUMBER The command key number up to 8 digits 14 15 amp rrer number number number number Bookmark not defined 12 f the day of the month is set to 0 the driver marks the holiday as not used in the ACU and the remaining fields in the file are ignored 13 The valid year range for model SN ACUs is 1991 to 2006 14 This field must not be blank There is no default for this field 15 The key number must specify all applicable fields for the key type For example if a 1040 key is used the facility
38. e file for the target unit 1 7 Special Requirements Schlage electronics recommends the following hardware list when bench testing a new 804 or 808 system A bench test is recommended but not a requirement when commissioning a new 804 or 808 system 1 One sensor module model 2714 2715 2814 or 2815 2 A6foot 1 83m coaxial cable with an F 56 connector on each end 3 One command key model 1030 1040 or 1050 Driver Design peciricauon Optional test equipment includes 1 One model 774 MSM and an additional coaxial cable 2 Four toggle switches 3 Four 36k resistors The bench test procedure is outlined in the SE 8045 808S User s Manual 1 8 Maximum Request Length The maximum request length is 2048 bits Note that due to the unusual tag addressing format used by the driver blocking is unlikely to be effective 82 Driver Design peciricauon 2 User Interface 2 1 Introduction This section defines how the user will see the driver This relates directly to how the Citect forms need to be filled out and any special INI options For the kernel the debug trace messages and the Stats Special counters are documented 2 2 Driver Name SCHLAGE 2 3 Boards Form The SCHLAGE driver uses the standard Citect serial drivers Refer to the Citect help documentation for information on how to configure a standard serial board 2 3 1 Board Type COMX 2 3 2 Address 0 2 3 3 IO Port Blank 2 3 4 Inte
39. e new set of configuration files An obvious consequence of this is that the bulk of information in the configuration files will not change at all between downloads If the configuration files do not contain information about all ACU parameters the missing parameters will be generated automatically by the driver and set to blank null or 0 as appropriate This may cause unexpected results when the ACU resumes operation if important information is accidentally omitted in the configuration files The user should therefore take particular care when generating these files The configuration files also differ significantly across the various ACU models The main reason for this is the extended storage capacity of later model ACUs The sections below indicate clearly which ACU the listed formats apply to The configuration files are stored in CSV format without column headers The field names specified in the sections below are descriptive only and do not appear in the configuration files The order of fields in each line of the file is the same as the order of fields top to bottom given in the tables below 1 4 1 Date Time Field DTF Format Several fields in the configuration files require a date and time range to be specified The range is specified in terms of a start hour and minute and a stop hour and minute Hours are specified in 24 hour format with leading O s if required In addition a range can be limited to certain days of the week by
40. file Check that the file exists and no locks are held by other applications SCHLAGE808 Bad unit state An unexpected sequence of messages was encountered Report this condition to CiT SCHLAGE808 File 1 0 Error A general file 1 0 error was encountered Check that all required files exist and are not locked by other applications SCHLAGE808 Unsolicited response An unsolicited response was received SCHLAGE808 Channel locked 2 12 3 SCHLAGE1200 Protocol PROTOCOL MASK ERROR MESSAGE REF ACTION COMMENT SCHLAGE1200 0 0 50 returned unrecognised response Check the model number b O SCHLAGE1200 ACU returned unrecognised log code The channel is locked against write requests Check the model number SCHLAGE1200 0 5 Access alarm overflow 2 7 1 SetDisableOverflowAlarm 2 9 3 2 parameter if the alarm flag is not used SCHLAGE1200 0x5B General alarm overflow 2 7 1 SetDisableOverflowAlarm 2 9 3 2 parameter if the alarm flag is not used SCHLAGE1200 0x5C Invalid ACU model number Another unit on the channel is performing a database download The log code is undocumented 2 5 Check the model number A unit will not be put online specified in the IO devices form unless a valid model number is specified pee opum e a 10 devices form Address field startup SCHLAGE1200 Ox5E Invalid unit address 2 5 Check the unit address specified in the 10
41. file be made before importing or accessing it and that the copy be used for all reading writing operations This will prevent a persistent file lock conflict if the driver attempts to access it at the same time 7 8 5H Driver Design peciricauon lt unit gt dbf where unit is the name of the IO device set in the Citect IO devices form The format of the file is defined as follows Field name Length Type Description EVENT NO 10 ASCII String A sequential count of the records received The data type is ULONG and will roll over at a count of 2 32 IODEVICE 32 ASCII String The name to identify the site and particular IO device ITEM 20 ASCII String The item door monitor point sensor coax etc address Note that only the address is logged not the name DATE TIME 20 ASCII String The date and time stamp from the event message formatted as dd MMM yyyy hh nn ss EVENT 4 ASCII String The code of the log event 700 or 800 series Log event codes are enumerated in section Error Reference source not found DESC 32 ASCII String The text description of the event as indicated in section Error Reference source not found KEY 20 ASCII String The key number recorded against the logged event if applicable otherwise blank OPERATOR 32 ASCII String The name of the operator currently logged into Citect This value is passed from Citect to the driver using the pseudo address OPERATOR and is
42. g File 1 6 Log Cache File 1 7 Special Requirements 1 8 Maximum Request Length 2 USERINTERFACE 2 1 Introduction 2 2 Driver Name 0 o o oc 2 BR A A A 10 10 10 12 12 12 12 12 13 13 13 13 13 15 15 16 17 17 17 Lo 08 Driver Design peciricauon 2 3 Boards Form 17 2 3 4 Board Type 17 2 3 2 Address 17 2 8 8 10 Port 17 2 3 4 Interrupt 17 2 3 5 Special Opt 17 2 4 Ports Form 17 2 4 4 Baud Rate 17 2 4 2 Data Bits 17 2 4 3 Stop Bits 17 2 4 4 Parity 18 2 4 5 Special Opt 18 2 5 O Devices Form 18 2 5 1 Protocol 18 2 5 2 Address 18 2 6 Pull down lists Help 19 2 7 10 Device Variable Types 19 2 7 1 Formats and types 19 2 7 2 Compiler DBF Entries 22 2 8 PROTDIR DBF 24 2 9 Parameters and INI options 24 2 9 1 Standard Parameters 24 2 9 2 Client Parameters 25 2 9 3 Driver Specific Parameters 26 2 9 4 Status Poll Time 28 2 10 Remapping 29 2 11 Driver Specific Errors 29 2 12 Driver Error Help 29 2 12 1 SCHLAGE804 Protocol 29 2 12 2 SCHLAGES808 Protocol 30 2 12 3 SCHLAGE1200 Protocol 31 2 13 Debug Messages 32 2 14 Stats Special Counters 32 2 15 Hints and Tips 32 3 REFERENCES 33 3 4 References 33 Driver Design peciricauon 1 Target Device s and Protocol 1 1 Introduction This section defines the types of I O Devices that are targeted by this driver 1 2 Target Platform The SCHLAGE driver will be specifically tested on the following platforms 1 Windows NT
43. ices form Address field SCHLAGE804 Invalid protocol Check the combination of model type and protocol SCHLAGE804 Cannot find DRIVER DBF The file DRIVER DBF inthe The DRIVER DBF file is used to BIN directory could not be format DCBs for error reporting found SCHLAGE804 Cannot open file The driver failed to open a Check that the file exists and no required data file locks are held by other applications SCHLAGE804 Bad unit state An unexpected sequence of Report this condition to CiT messages was encountered SCHLAGE804 File 1 0 Error A general file 1 0 error was Check that all required files exist encountered and are not locked by other applications SCHLAGE804 Unsolicited response An unsolicited response was received SCHLAGE804 Channel locked The channel is locked against Another unit on the channel is write requests performing a database download 2 12 2 SCHLAGE808 Protocol PROTOCOL MASK ERROR MESSAGE REF ACTION COMMENT SCHLAGE808 o 0x50 ACU returned unrecognised response JChecktheACU modelnumer SCHLAGE808 ACU returned unrecognised log code Check the ACU model number The log code is undocumented SCHLAGE808 Jo 0x52 BadCSV file format Checktheformatof CSV fies SY SCHLAGE808 0x53 ACU could not attach database The ACU may become inoperable if this occurs SCHLAGE808 NE ACU failed to store database page EH Check the ACU model number The ACU rejected a data
44. ing 72 chars lt blank gt lt blank gt lt blank gt lt blank gt BLDGID2 Line 2 sign on message to identify building 72 chars lt blank gt lt blank gt lt blank gt lt blank gt BLDGID3 Line 3 sign on message to identify building 72 chars lt blank gt lt blank gt lt blank gt lt blank gt PHONE1 Line 1 phone number to dial superseded unused unused unused unused PHONE2 Line 2 phone number to dial superseded unused unused unused unused PHONE3 Line 3 phone number to dial superseded unused unused unused unused RETRY The number of times to try calling 1to 10 1010 1to 10 1to 10 OVERRIDE The operator override report number 0to15 0015 0to15 0015 1 4 10 MONITOR TXT The MONITOR TXT file defines the name and reporting mode of a sensor monitor point Field name Description Range Default value 8045 8045N 8045X 8085 808SN 808SX R1200C MONITOR The monitor point number 1144 L144 1184 1 1 8 4 NAME The monitor point name 24 chars blank blank blank blank REPORT The report number for the monitor point 0t015 0015 0t015 0015 1 4 11 ACCESS TXT The ACCESS TXT file defines the set of time intervals for each door for each access code number Refer to footnote Error Bookmark not defined for more information Note that a given ACN may appear up to 8 times in the sam
45. initialised The example below disables the hardware alarm This parameter applies globally to all units and is set to 1 by default SCHLAGE AlarmlfNotlnit 0 2 9 3 7 Local Cache Time The driver provides a limited amount of caching for status information returned by the ACU as a compromise between Citect s request blocking and the need for distinct UnitTypes for each type of status information The need for caching arises because requests for information at several addresses can be satisfied by a single ACU Status message returned by the ACU The local cache time is designed to be very small so that it does not interfere with the real time retrieval of data The cache time can be changed by setting the LocalCacheTime parameter in CITECT INI to the desired cache time in milliseconds The default value for the cache time is 2000ms The minimum value for the cache time is Oms If LocalCacheTime is set to 0 caching will be disabled and all requests will generate comms traffic The example below sets the cache time to 1 5 seconds This parameter applies globally to all units SCHLAGE LocalCacheTime 1500 2 9 3 8 Base Year The Schlage protocol limits the setting of the current year with a Date Time message to a range of 16 years spanning 1985 to 2000 inclusive To extend the range of years useable with an SE804 808 or R1200C the driver allows the base year to be shifted forward giving 16 years of useable dates after the specified ba
46. inition number The definition for that report number acts as a simple filter and can decide under what conditions outputs are activated and how events are communicated or printed The REPORT TXT CSV file contains the report definition for up to 15 reports each with a unique report number To link to a particular report event definitions elsewhere in the database specify a particular report number The default value for a field is shown in bold The default value is automatically applied by the driver when field or record is not specified Field name Description Range Default value 8045 8045N 8045 8085 808SN 808SX R129096 REPORT The report number 100 15 1to15 100 15 100 15 OHO Output to Host port when building is Open Y or N Y or N Y or N Y or N OHL Output to Host port when building is Limited YorN YorN YorN YorN OHC Output to Host port when building is Closed YorN YorN YorN YorN OHDTF1 Limit output to host to DTF interval 1 unused unused unused unused OHDTF2 Limit output to host to DTF interval 2 unused unused unused unused OHDTF3 Limit output to host to DTF interval 3 unused unused unused unused CLCO Close latched contact when building is Open YorN YorN YorN YorN CLCL Close latched contact when building is Limited YorN YorN YorN YorN CLCC Close latched contact when building is Closed YorN YorN YorN YorN CL
47. is address triggers the driver to send an 804 8S SN SX unshunt command for the coax on door x A read from this tag will always return a value of 0 i i SX unshunt command for door x A read from this tag will always return a value of 0 804 85 SN 21 The use of these addresses requires a significant proportion of the available channel bandwidth to complete The addresses are provided as a utility function only and result in the transmission of 4 8 or 32 individual door unlock or relock commands to the ACU The time to complete the command at 9600 baud with an R1200C 32 locks is around 8 seconds The user should be aware of this time delay and it is not advisable to repeatedly and continuously send unlock then relock commands on the same channel as this will significantly reduce Citect s overall response time Section 2 9 1 provides more information on setting the driver timing parameters for lower channel baud rates Lom 8 Driver Design peciricauon iting any value to this address triggers the driver to send an 804 8S SN SX R1200C hunt command for monitor point x y read from this tag will ys return a value of 0 X A iting any value to this address triggers the driver to send an 804 8S SN SX R 1200C hunt command for the power sensor A read from this tag will ys return a value of 0 UNSHUNT SENSOR x INT iting any value to this address triggers the driver to send an 804 8S SN SX hunt command for the sensor on do
48. man interaction It is possible to fully program the ACU using only a simple terminal VDU connected to the Terminal port Driver communication however uses a binary protocol through the Host port There are two versions of the Host port an RS 232 25D version and an RS 422 4 wire current loop version The two Host ports are mutually exclusive and only one can be used at atime The RS 422 connection can be used to network ACUs together The Host port is also used if a modem is to be connected to the ACU since the ACU can be programmed to use the Hayes command set to dial the modem Driver Design peciricauon 1 3 5 2 H1200C Communications Configuration Before using an R1200C panel with the SCHLAGE driver the communication parameters of the serial port must be initialised The communication parameters are set from the panel s front keypad as follows With the panel in normal operating mode AUTH LED not lit press to clear the light if required enter the six digit master code The default master code is 654321 The AUTH LED will flash Set the baud rate Press the 6 key The display will read SYSM Press the 3 key The display will indicate the current baud rate Press the 0 key until the desired baud rate is shown A baud rate of 9600 is recommended The available options are 300 600 1200 2400 4800 and 9600 baud Press the key to accept Note pressing the key will cancel however the operating mode can only be set
49. o that door key operation and hence are only updated when the driver sees a new event message The information relating to monitor point status is also logged to disk for internal use by the driver so that the previous status of each point can be retrieved after a shutdown restart This information must be logged to disk so that the data can be considered current immediately on Citect startup The same issue does not apply to the ACCESS x XXXX addresses since the ACCESS x FLAG address is used to indicate whether the other addresses are valid and by default ACCESS x FLAG is false on startup The second method generates a parallel set of building door and monitor point statuses by directly interrogating the ACU Since this information is polled it is always current and does not rely on external events to occur before status can be determined For R1200C panels however this live status information is available for only the first 8 doors and the first 32 monitor points The third method for accessing 800 series ACU event log information is to externally read the event log file the driver generates for each configured IO device The event log file is a DBF file that contains the raw information for every logged event retrieved by the driver one event per record The file resides in the same directory as the configuration files discussed in section 1 4 as set by the IO device s address field The file may be used for import into a database system o
50. on Request to Exit YorN YorN YorN YorN VREXDTF1 Valid REX DTF period 1 unused unused unused unused VREXDTF2 Valid REX DTF period 2 unused unused unused unused VREXDTF3 Valid REX DTF period 3 unused unused unused unused VREXDTF4 Valid REX DTF period 4 lt unused gt lt unused gt lt unused gt lt unused gt AULKDTF1 Auto unlock DTF period 1 lt unused gt lt unused gt lt unused gt lt unused gt AULKDTF2 Auto unlock DTF period 2 lt unused gt lt unused gt lt unused gt lt unused gt AULKDTF3 Auto unlock DTF period 3 lt unused gt lt unused gt lt unused gt lt unused gt AULKDTF4 Auto unlock DTF period 4 lt unused gt lt unused gt lt unused gt lt unused gt READKEY Allow read key while door open YorN YorN YorN YorN 3 Output contacts 1 to 8 on the Ann C module Output contacts 9 to 12 or 9 to 16 are the lock output contacts 1 to 4 for 804 or 1 to 8 for 808 Use a lock output contact only if it is not used to control a door lock Output contacts 1 to 8 are on the Ann C module Output contacts 9 to 12 or 9 to 16 are the lock output contacts 1 to 4 for 804 or 1 to 8 for 808 Use a lock output contact only if it is not used to control a door lock The asterisk character is used to indicate an alarm type event on 5795A Dataloggers Note that in contrast to the S764CMD OP drivers this field is required by the SCHLAGE driver If the MSM fail report is not use
51. or x A read from this tag will ys return a value of 0 UNSHUNT TAMPER INT iting any value to this address triggers the driver to send an 804 8S SN SX unshunt command for the tamper sensor A read from this tag will always return a value of 0 iting any value to this address triggers the driver to send an 804 8S SN S hunt command for MSM x A read from this tag will always return alue of 0 Where X Is a door number 1 to 4 in the 804 1 to 8 in the 808 and 1 to 8 or 1 to 32 in the R1200C Y Is a point number 1 to 4 2 7 2 Compiler DBF Entries The UNIT TYPE value ranges indicate the following basic functions Range start Range end Primary use 0x0000 OxOOFF Integer Write 0x0100 0x01FF Integer Read 0x0200 Ox02FF String Write 0x0300 OxOSFF String Read 2 7 2 1 SE804 DBF ACCESS WU L14 FLAG 000 1 e 0 fo Access flag ACCESS NU LLAKEY 0030 f7 p fo Access key number ACCESS NU LLA STATUS X011 1 e fo fo Access status ACCESS NU LLA TIME 7 po fo 0 Access time BATCH 0 0 0000 e JO fo Download batch files IBULDINGSTATUS 0012 421 e 0 fo Building staus close 0 oo e Jo fo Close icing 0x001A fe o Delete all keys IDOOR A amp U LLA CTS UNLOCK
52. ormat is 7 bit word length Odd parity 1 stop bit Communication with an R1200C panel is performed through the 9 pin serial port located on the Power Commms board This port can be configured with DIP switch LK1 to use either RS 232 or RS 485 communication The serial data format is user programmable from the panel s front keypad The specified communications parameters must match the parameters used by Citect 1 3 5 Communications Hardware Configuration 1 3 5 1 804S 8088 Communications Configuration Before using an 8048 808S ACU with the SCHLAGE driver the communication parameters of the host and terminal ports must be initialised Note that these settings cannot be initialised through the Host port The ACU must be pre configured via the Terminal port The communication parameters are set as part of the SYSTEM command from the terminal port interface Command SYSTEM lt CR gt The ACU will respond with a series of questions about the system setup parameters The questions of interest relating to the communication parameters are Response HOST BAUD RATE 300 Command 9600 lt CR gt This sets the host baud rate to 9600 Response TERMINAL BAUD RATE 300 Command 9600 lt CR gt This sets the terminal baud rate to 9600 Once the baud rate is changed the power on the ACU must be cycled before the new rate becomes active 1 The Terminal port is reserved for use with a text based protocol designed to allow easy hu
53. provide a facility for internally logging changes in the state of any monitor point input These state changes are date time stamped and logged as events and can be buffered by the ACU security panel for pick up later by an external host When enabled the ACU will issue a report whenever this command key is presented at doors where key trace is enabled 7 This field is ignored by the driver for 1050 key types 18 The IODEVICE field is provided for human readability only The driver does not copy the model type and CSV file path used with 800 series ACU into this field Driver Design peciricauon computer The logged events provide a complete chronological history of activity for all doors and security devices PIRs etc monitored by the ACUs panels The events are retrieved by a host computer one by one using the 800 series protocol until the event buffer is empty The ACU must be continually polled by the driver for new events The SCHLAGE driver provides three means for accessing status information relating to 800 series ACU door access control The first method generates a set of addresses that contain the date time key code and status granted denied for the last known access attempt at each door and the state of each monitor point These values can be read in Citect at any time and displayed on a graphics screen These value in each tag is set as appropriate by the driver on reception of a log event relating t
54. r accessed directly For R1200C security panels the set of realtime access status tags do not exist since the security panel does not provide per door access control and cannot read key codes etc An event log file of the same format as the 800 series ACUs is still generated however and contains event records for changes in monitor point status power fail etc The file also resides in the directory specified in the IO devices form address field Note that the event log file for each IO device must be unique The same file cannot be used by two IO devices There are several events that may be logged by the driver in addition to log records received from an IO device e The CITECT START event will be logged once for each unit on startup of Citect runtime e For R1200C units e The MANUAL UNLOCK event will be logged upon successful completion of a manual unlock direct command e The MANUAL RELOCK event will be logged upon successful completion of a manual relock direct command e The BUILDING OPEN event will be logged when the building status received in a Status message changes to Open e The BUILDING LIMITED event will be logged when the building status received in a Status message changes to Limited e The BUILDING CLOSED event will be logged when the building status received in a Status message changes to Closed The name of the event log file is generated by the driver as 19 It is recommended that a copy of the event log
55. river will look for the configuration files in the directory given For both 800 series ACUs and R1200C security panels the driver will look for the feedback file lt unit gt dbf in the directory given Some examples of address fields are 04 S C CITECT USER B7 SX COMPUTER SHARE CA C FATEMPA The user should be aware of the following length limits for each of the components of a configuration path 20 A fully qualified path name FQPN includes domain computer share and directory information and uniquely identifies a single directory globally on a computer network On TCP IP networks the computer and domain names are specified in terms of fully qualified domain names FQDNs or DNS style addresses e g an FQPN on the internet would be postie cit com au share directory UNC is a strict subset of FQPN Lam 08 Driver Design peciricauon Drive name 3 characters Path name 64 characters File name 16 characters File extension 8 characters The user should also be aware of the following limits on the ACU network configuration Maximum channels per IO server 32 Maximum units per channel 32 2 6 Pull down lists Help The following entries should be included in the Citect HELP DBF spec file TYPE DATA FILTER PROTOCOL SCHLAGE804 dl PROTOCOL SCHLAGE808 PROTOCOL SCHLAGE1200 I CiT Specific To place these protocol names in the protocol pull down list on the IO device form Go to the Start Menu gt Run and enter G
56. rrupt Blank 2 3 5 Special Opt Blank 2 4 Ports Form The configuration of the Citect ports form must match the user programmed setting in the ACU The RS232 format used with the 800 series Host port is fixed at 7 bits Odd parity 1 stop bit The RS232 format used with the R1200C is programmable Refer to section 1 3 5 for information on how to set the baud rate for each device The settings shown can apply equally to 800 series ACUs and R1200C panels 2 4 4 Baud Rate The Schlage 800 series ACU and R1200 panels support 300 1200 2400 4800 and 9600 baud at the Host Serial port The rate specified here must match the user programmed setting for the Host port 9600 baud is recommended 2 4 2 Data Bits 7 2 4 3 Stop Bits 1 Driver Design peciricauon 2 4 4 Parity ODD P 2 4 5 Special Opt There are no special options required This field should be left blank on the Ports form 2 5 10 Devices Form 2 5 1 Protocol The protocol name specified in the IO devices form is used to indicate to the driver whether the unit is an 804 808 or R1200 series ACU Combined with the model number specified in the Address field this determines the command set and address ranges the driver will use when communicating with the IO device Target Device Protocol Name Driver DLL Name Driver DBF Name SE 804S SN SX SCHLAGE804 SCHLAGE DLL SE804 DBF SE 808S SN SX SCHLAGE808 SCHLAGE DLL SE808 DBF R1
57. se year The base year is normally defined as 1985 in the Schlage protocol specification however the base year used with the driver can be assigned any year value after 1900 by setting the BaseYear parameter in Citect INI The default value for the base year is 1985 The driver will not accept a base year less than 1900 to prevent specifying two digit style dates and will revert to using the default value if a year less than 1900 is specified The example below sets the base year to 1999 giving a useable date range of 1999 to 2014 Note that changing the base year to a value other than 1985 will obviously cause the real time year to be reported incorrectly by the ACU e g on the front panel of the R1200C This display issue will not affect the year in the timestamp of logged records which will be logged correctly by the driver This parameter applies globally to all units SCHLAGE BaseYear 1999 Lau 08 Driver Design peciricauon A further issue with changing the base year to values other than 1985 is the preservation of leap year synchronisation If the current real time year is a leap year but the value chosen for the base year results in the ACU year being set to a non leap year the date changeover on 28 February will not be correct in the ACU It is recommended that the base year only be set to one of the following values Real time year Use base year Compliant until the end of 1999 2002
58. specifying a string of eight 1 or 0 values each digit corresponding to a day of the week plus holiday A 1 value against a particular day indicates that the time range is to be active on that day A 0 value indicates that it is not When specifying date and time ranges in configuration files the following format is adopted hh nn hh nn xxxxxxxx where the first hh nn specifies the start time the second hh nn specifies the stop time and the XXXXxxxx represents eight 0 or 1 characters indicating the validity of the time range on the days SUN MON TUE WED THU FRI SAT HOL respectively A space separates each of the three fields If a DTF field is not required it may be set to null i e empty as in in the CSV file The driver will take this to mean unsused and set all bytes associated with the DTF record to zero or choose a null TIR as required 1 4 2 Time Interval Record TIR Generation When communicating with an 800 series ACU through the Terminal port the user enters text information in response to a series of questions In particular when configuring doors or reports etc the user enters dates and times in terms of start and stop hours and minutes and valid days of the week The ACU then interprets this date time information and stores it in its internal database When using the binary protocol though the Host port however date and time information must be provided to the ACU in
59. t power fail Unshunt door sensor JUNSHUNT TAMPER 10009 ff nshunt tamper 2 7 2 2 SE808 DBF ACCESS U L1 8 FLAG ooo 1 Gd Access flag ACCESS NU LLS KEY 0xx0 P 104 0 0 Access key number ACCESS U 1 1 8 STATUS oom e o fo Access status ACCESS U 1 1 8 TIME ooo 7 poa 0 fo Access time BATCH qoo fe Jo fo Download batch files BUILDING STATUS qox2 t6 Jo fo Building status CLOSE jx Jo 0 Cose buiding 0x001A 6 Jo o Dekltealkeys DOOR amp U 1 1 8 CTS UNLOCK jx0n03 te o fo Doorcont unlock status DOOR amp U LLS FORCED 0x04 i6 fo fo jDoorfocedstatus DOOR U L1 8 MSM Jooos e o fo Door MSM status DOOR U 1 1 8 SENSOR ooms fo fo jDoorsensorstatus DOOR amp U LLS STATUS 0x017 e fo fo jDoorswichstatus DOOR J amp U LLS COAX 018 0 jDoorcoaxstatus BPURGE jJopc J fo o Purge feedback files FORGIVE o2 0 Forgive anti passback 1024 0 General alarm message IGENERALALARM MESSAGE FLAG 10009 i6 Jo fo Genalarm message flag MIT _ 6 0 LOCK U L1 8 STATUS Ox1
60. te to this address triggers the driver to delete a count of log records from lt unit gt dbf as indicated by the value written to the tag A read from this tag will always return a value of 0 Driver Design specification 804 85 SN SX R1200C Writing any value to this address triggers the driver to send a relock 804 8S SN SX R1200C command to all doors A read from this tag will always return a value of 0 Writing any value to this address triggers the driver to send a relock 804 8S SN SX R1200C command to door x A read from this tag will always return a value of 0 1 Not initialised 0 Access granted 1 Access denied 804 85 S N ad only Time of last access taken from log message 804 8S SN Read only ver to send a shunt this tag will always Writing any value to this address triggers the dri command for the coax return a value of 0 ue to th oor x A on door x A read from ver to send a shunt s tag will always return a value of iting any va mand for d is address triggers the dri read from thi iting any value to this address triggers the driver to send a shunt mand for monitor point x y A read from this tag will always return ue of 0 iting any value to this address triggers the dri mand for MSM x A read from this tag will a ver to send a shunt ways return a value ver to send a shunt this tag will a iting any value to th mand for the pow return a value of 0 iting any value to th comman
61. terms of TIR record ID numbers A TIR is basically a direct translation of a DTF record into the ACU s native format The approach used in the ACU is to store the TIRs themselves in a separate table and reference them where required by their ID numbers 1 to 64 Date and time information in the CSV configuration files however is always stored as actual DTF records with full start and stop hours and minutes etc The driver must translate the DTFs into a set TIR records store the TIR records in the appropriate memory addresses and substitute the original DTF field with the ID numbers of the TIR records generated To this end the driver parses DTF records and will generate up to 64 TIRs as needed If a particular DTF is used in two or more places a new TIR is not required and the ID of the previously generated TIR will be used for all Loi 7 Driver Design peciricauon occurrences of this DTF In this way the driver will always generate the minimum sized spanning set of TIRs for the given configuration files The driver will generate a new set of TIR records each time a database download is to be performed disregarding all previously transmitted TIR information TIR numbering will start from 1 each time If translating the DTF records requires more than 64 TIRs to cover the intervals a hardware alarm will be raised If not all TIRs are required for a given set of configuration files the record will be set to always for which the
62. the driver updates the local cache data and sets the value for monitor point 87 to 1 ACTIVE This value can then be read via the address MSM 21 3 LOGGED Note that if a monitor point is shunted the active clear status cannot be read until the monitor point is unshunted i e an unshunt log message is received for that monitor point To preserve the status of monitor points between shutdown and startup of Citect a cache file is maintained in the same directory as lt unit gt dbf The cache file is a binary format file representing a memory dump of the memory based cache to disk and has the extension SLC Schlage Log Cache The file is re written in its entirety every time a monitor point status changes and is read on startup by the driver to retrieve any previous states The driver will destroy the file if a corruption occurs and attempt to re write it If the file cannot be read or written a hardware alarm is raised The cache file is also used to commit the sequential ID of the last logged event record in the unit dbf file This value needs to be cached because it must remain independent of the status of the lt unit gt dbf file itself and must retain its value during shutdown even if the lt unit gt dbf file is deleted or emptied The last logged event ID is retrieved when a unit is initialised If the log cache file cannot be found the last logged event ID is initialised to zero To reset the last logged event ID delete the log cach
63. y driver after GENERAL ALARM MESSAGE is updated If 804 85 5 5 8041855559 1200C 7 Shunt Read only the flag is already set a hardware alarm is raised since the Citect project has missed the previous GENERAL ALARM MESSAGE Writing any value to this address triggers the driver to set the building mode to limited in the ACU Write only 1 Not Initialised 0 Locked 1 Auto unloc 2 Manual un This status is generated by interrogating the unit with a STATUS 804 8S SN SX R1200C message 0 Clear 1 Active 7 Shunt Read only Writing any value to this address triggers the driver to set the building 804 8S SN S X R 1200C mode to open in the ACU A read from this tag will always return a value of 0 7 Shunt 804 85 SN SX R1200C 1 Sensor fail 7 Shunt Read only 0 Closed 1 Forced 2 Open too long 7 Shunt Read only 0 Coax OK 1 2 Coax fail ock Note that if the parameter AlarmlfNotlnit is set a bad data hardware alarm will be raised if the address is not initialised Read only This status is generated from information in received Log Messages 0 Clear 1 Active Used to set the name of the current Citect operator in the Driver The operator name is used when writing to the event log file 0 0 1 Fail 7 Shunt Read only PURGE REQ X TIME EQ SHUN HU HU HU SHUNT SENSOR X SHUNT TAMPER SILENCE STRING A wri
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