Difference between revisions of "Protege"
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| + | ;Note: Names of areas, inputs, trouble inputs, outputs, doors are imported from a configuration file as described later in this application note. | ||
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Revision as of 10:38, 14 August 2019
Protege is a server based architecture enabling you to securely manage, control and monitor a number of users, doors, areas, and other devices. The integration with HSYCO can be accomplished with a TCP/IP network connection.
- ProtegeGXServer needs to be configured to accept a connection on a defined TCP/IP port with the ICT Automation and Control Service protocol.
- A PIN must be set (4 to 6 digits)
- Disable encryption and checksum
- Select Little Endian format
- Enable Login Block after PIN error
HSYCO Configuration
Add a PROTEGE I/O Server in the I/O Servers section of the Settings and set its parameters:
Communication
- IP Address: the ICT Protege Server panel address
- IP Port: TCP/IP port enabled on the ICT Protege Server
High Availability
- Shutdown when inactive: defaults to true.
Options
| ID | Default | Values | Description |
|---|---|---|---|
| pin | pin | the user PIN that the driver uses when sending commands to the Protege system. It must be a valid user code, able to engage and disengage the panel. | |
| startupevents | false | true | generate IO events also during the driver’s start-up phase |
| false | start generating events only after HSYCO is aligned with the current status of the system | ||
| gui | true | true | enable support of the tecnoalarm Web interface object |
| false | disable support of the tecnoalarm Web interface object | ||
| debug | false | true | generates additional logs that can be viewed in verbose mode |
| false | debug logging disabled | ||
| areaslist | string | list of all the areas that are declared on the panel. Areas could not be consecutive and special characters "-" and ";" are used for intervals definition. E.G. 0-3;5-9 means areas from 0 to 3, from 5 to 9. E.G. 4;15 means area number 4 and number 15 | |
| inputslist | string | list of all the inputs that are declared on the panel. Inputs could not be consecutive and special characters "-" and ";" are used for intervals definition. E.G. 0-3;5-9 means inputs from 0 to 3, from 5 to 9. E.G. 4;15 means input number 4 and input 15 | |
| outputslist | string | list of all the outputs that are declared on the panel. Outputs could not be consecutive and special characters "-" and ";" are used for intervals definition. E.G. 0-3;5-9 means outputs from 0 to 3, from 5 to 9. E.G. 4;15 means output number 4 and output 15 | |
| doorslist | string | list of all the doors that are declared on the panel. Doors could not be consecutive and special characters "-" and ";" are used for intervals definition. E.G. 0-3;5-9 means doors from 0 to 3, from 5 to 9. E.G. 4;15 means door number 4 and door 15 | |
| troubleinputslist | string | list of all the trouble inputs that are declared on the panel. Trouble inputs could not be consecutive and special characters "-" and ";" are used for intervals definition. E.G. 0-3;5-9 means trouble inputs from 0 to 3, from 5 to 9. E.G. 4;15 means trouble input number 4 and trouble input 15 |
Datapoints
| ID | Value | R/W | Description |
|---|---|---|---|
| connection | online | R | connection established |
| offline | R | connection failed | |
| panel.firmware.build | <text> | R | firmware build of the panel |
| panel.firmware.type | <text> | R | firmware type of the panel |
| panel.firmware.version | <text> | R | firmware version of the panel |
| panel.hardware.version | <text> | R | hardware version of the panel |
| panel.serial.number | <text> | R | serial number of the panel |
| a<n>.armed | 1 | R | area is armed |
| 0 | R | area is disarmed | |
| a<n>.state | armed | R | area is armed |
| disarmed | R | area is disarmed | |
| inputsopen | R | area is in inputs open state | |
| trouble | R | area is in trouble state | |
| bypasserror | R | area is in bypass error state | |
| bypasswarning | R | area is in bypass warning state | |
| usercountnotzero | R | area is in user count not zero state | |
| exitdelay | R | area is in exit delay state | |
| entrydelay | R | area is in entry delay state | |
| disarmdelay | R | area is in disarm delay state | |
| codedelay | R | area is in code delay state | |
| a<n>.tamper.state | armed | R | area tamper is armed |
| disarmed | R | area tamper is disarmed | |
| busy | R | area tamper is busy | |
| a<n>.state.flags.alarm.activated | 1 | R | area alarm activated |
| 0 | R | area alarm is not active | |
| a<n>.state.flags.siren.activated | 1 | R | area siren activated |
| 0 | R | area siren is not active | |
| a<n>.state.flags.alarms.in.memory | 1 | R | at least one area alarm in memory |
| 0 | R | no area alarms in memory | |
| a<n>.state.flags.remote.armed | 1 | R | area remotely armed |
| 0 | R | alarm is not remotely armed | |
| a<n>.state.flags.force.armed | 1 | R | area forced armed |
| 0 | R | alarm is not forced armed | |
| a<n>.state.flags.instant.armed | 1 | R | area instant armed |
| 0 | R | alarm is not instant armed | |
| a<n>.state.flags.partial.armed | 1 | R | area partially armed |
| 0 | R | alarm is not partially armed | |
| a<n>.name[Note] | <text> | R | area name |
| o<n>.state | off | R | output is off |
| on | R | output is on | |
| onpulsed | R | output is in on pulsed state | |
| ontimed | R | output is in on timed state | |
| onpulsedtimed | R | output is in on pulsed timed state | |
| o<n>.ascii | <text> | R | output label in ascii format |
| i<n>.state | closed | R | input is closed |
| open | R | input in open | |
| short | R | input is in shortcut state | |
| tamper | R | input is in tamper state | |
| i<n>.closed | 1 | R | input is closed |
| 0 | R | input is open | |
| i<n>.ascii | <text> | R | input label in ascii format |
| i<n>.bypass.state.bypassed | 1 | R | input is bypassed |
| 0 | R | input is not bypassed | |
| i<n>.bypass.state.bypasslatched | 1 | R | input is bypass latched |
| 0 | R | input is not bypass latched | |
| i<n>.bypass.state.sirenlockout | 1 | R | input is siren lockout state |
| 0 | R | input is not in siren lockout state | |
| ti<n>.state | closed | R | trouble input is closed |
| open | R | trouble input in open | |
| short | R | trouble input is in shortcut state | |
| tamper | R | trouble input is in tamper state | |
| ti<n>.closed | 1 | R | trouble input is closed |
| 0 | R | trouble input is open | |
| ti<n>.ascii | <text> | R | trouble input label in ascii format |
| ti<n>.bypass.state.bypassed | 1 | R | trouble input is bypassed |
| 0 | R | trouble input is not bypassed | |
| ti<n>.bypass.state.bypasslatched | 1 | R | trouble input is bypass latched |
| 0 | R | trouble input is not bypass latched | |
| ti<n>.bypass.state.sirenlockout | 1 | R | trouble input is siren lockout state |
| 0 | R | trouble input is not in siren lockout state | |
| d<n>.lock.state | locked | R | door is locked |
| unlockedbyuseraccess | R | door is unlocked by user access | |
| unlockedbyschedule | R | door is unlocked by schedule | |
| unlockedbyusertimed | R | door is unlocked by user timed | |
| unlockedbyandlatched | R | door is unlocked by and latched | |
| unlockedbyrex | R | door is unlocked by rex | |
| unlockedbyren | R | door is unlocked by ren | |
| unlockedbykeypadmenu | R | door is unlocked by keypad menu | |
| unlockedbyarea | R | door is unlocked by area | |
| unlockedbyfirealarm | R | door is unlocked by fire alarm | |
| d<n>.locked | 1 | R | door is locked |
| 0 | R | door is unlocked | |
| d<n>.state | closed | R | door is closed |
| open | R | door is open | |
| openalert | R | door is open alert state | |
| leftopen | R | door is left open state | |
| forcedopen | R | door is forced open state |
- Note
- Names of areas, inputs, trouble inputs, outputs, doors are imported from a configuration file as described later in this application note.
