Siemens Vanderbilt Edp

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Siemens / Vanderbilt is a family of security panels compatible with the control protocol EDP. This driver has been developed following the EDP protocol specification rev 2.2, 2012-11-12

The integration with HSYCO can be accomplished with a TCP/IP network connection.

Siemens / Vanderbilt Configuration

Login in the panel web configuration page using a Engineer account.

You should see something like this in the upper right corner of the web page:

Vanderbilt01.png

Select "Configuration" then "Reporting" then "EDP". You must configure 2 different receivers, one for the command session, one for the event session.

Vanderbilt02.png

Let's take a look in detail at the configuration of these receivers. The events receiver is configured as "Primary receiver".

Vanderbilt03.png

Unflag "Primary receiver" for the command receiver. The "IP port" parameter must be different from the one of the event receiver. Set the "Receiver Id" to 1.

Vanderbilt04.png

Flag "Always connected" on both the receivers. Select protocol version 2 on both. The "Receiver IP Address" is the IP address of the HSYCO server that you want to communicate with. Set the "Receiver Id" to 2.

The "Polling Time" is a very crucial parameter. In the event receiver configuration 8 seconds should be fine because every change of status is sent in asynchronous way by the panel and the polling time only represent the interval between one polling ack and the next one. In the command receiver configuration set 2 seconds, this time, by empirical methods, it's the best one to ensure the connection stability.

HSYCO Configuration

Add a SIEMENS EDP TCP I/O Server in the I/O Servers section of the Settings and set its parameters:

Communication

  • IP Address: Leave empty
  • IP Port: Leave empty

High Availability

  • Shutdown when inactive: defaults to true.

Options

ID Default Values Description
eventsport 50000 number the TCP/IP port specified in the event receiver of the panel
commandsport 50001 number the TCP/IP port specified in the command receiver of the panel
eventsaddress 1 number the event receiver id address
commandsaddress 2 number the command receiver id address
startupevents true 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 generate uisets
false disable uisets
eventspolling 8000 number the event receiver polling time in ms
commandspolling 2000 number the command receiver polling time in ms

Datapoints

ID Value R/W Description
connection online R connection established
offline R connection failed
log0 <text> R latest line of the security log when a new entry is added
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
o<n>.name[Note] <text> R output name
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>.short 1 R input is in short status
0 R input is not in short status
i<n>.tamper 1 R input is in tamper status
0 R input is not in tamper status
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
i<n>.name[Note] <text> R input name
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>.short 1 R trouble input is in short status
0 R trouble input is not in short status
ti<n>.tamper 1 R trouble input is in tamper status
0 R trouble input is not in tamper status
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
ti<n>.name[Note] <text> R trouble input name
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
d<n>.name[Note] <text> R door name
a<n> arm W arm area
armforce W arm area in force mode
armstay W arm area in stay mode
arminstant W arm area in instant mode
disarm W disarm area
disarm24h W disarm area
disarmall W disarm all area
o<n> on W output on
off W output off
ontimed-<seconds> W output on for a number of seconds equals to <seconds> E.G. o.ontimed-7, means on for 7 seconds.
i<n> removebypass W remove bypass input
tempbypass W temporary bypass input
bypass W bypass for input
ti<n> removebypass W remove bypass trouble input
tempbypass W temporary bypass trouble input
bypass W bypass for trouble input
d<n> lock W lock door
unlock W unlock door
unlocklatched W unlock latched door
v<n> get W get the the value of the variable with index <n>. The value of variabile will be written in a datapoint v<n> = <value>
v<n> value-<value> W set the the value of the variable with index <n>.