Difference between revisions of "Hesa"

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== Release Notes ==
 
== Release Notes ==
 +
 +
=== 3.6.0 ===
 +
*added datapoint "log0"
  
 
=== 3.5.1 ===
 
=== 3.5.1 ===

Latest revision as of 10:53, 13 November 2017

Hesa Quaranta panels are multi-area intrusion detection systems.

The integration with HSYCO can be accomplished via direct control through the RS-232 port on the board.

The HESA I/O Server in HSYCO supports the integration of more than one unit within the same HSYCO interface.

Communication

Employ a female-female RS-232 crossed cable to connect the panel directly to HSYCO or to an Ethernet/RS-232 gateway.

RS-232 parameters:

Baud rate 115200 (newer models)
57600 (older models)
Data bits 8
Stop bit 1
Parity even
Flow control none

HSYCO Configuration

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

Communication

  • Comm ID: select the comm port the device is connected to.

High Availability

  • Shutdown when inactive: defaults to true.

Options

ID Default Values Description
gui true true enable support for the UI object, UISET actions and USER commands
false disable UI support
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
logsize 20 n ≥ 0 the number of log lines to display in the UI object
pollinterval 4 n > 0 the data acquisition interval, in seconds
mod Q15 the panel model to control. This option is required
Q50
Q100
pin <code> use the specified user code to perform operations that require user authentication. If this option is not specified it will be required to manually insert the pin every time such operations are performed
pintimeout 10 n > 0 expiration time (in seconds) of pin entered from the GUI object
multicommand false true allow for multiple commands from the GUI object during pin validity time
false require to enter the pin code for each operation from the GUI object

hesa.ini

The hesa.ini file is a specific configuration file located in the root directory.

This file is required to provide the I/O Server with the mapping between the board terminals and the respective zones or outputs when a configuration different from the default one is used.

The default configuration for the Hesa Q15 is shown in the following diagram:

Inim Default 515.png

And here is the default configuration for Hesa Q50 and Q100 (for the Q100 model this diagram must be extended to 100 terminals and 40 expanders):

Inim Default 1050.png

If the hesa.ini file is not created or it does not contain specifications for our I/O server, then the above configurations are used.

If, on the other hand, you are using a custom configuration, then, for each used terminal of the panel, expanders, and keypads you must specify its configuration.

For instance, consider the following configuration on a Q50:

Inim Custom 1050.png

The corresponding configuration in hesa.ini, assuming that the ID of the I/O Server is "hsa", would be the following:

hsa.t1 = z1
hsa.t2 = z2
hsa.t3 = z3
hsa.t4 = z4
hsa.t5 = z5
hsa.t6 = z6,o6
hsa.t7 = z7d
hsa.t8 = z8d
hsa.t9 = z9d

hsa.e1.t1 = o10
hsa.e1.t2 = z11d
hsa.e1.t3 = o12

hsa.k1.t1 = z13

Terminals on the panel itself are referred to using the notation “<ioserver_id>.t<n>” where <n> is the number of the board terminal from left to right. Terminals on expanders are identified by the string “<ioserver_id>.e<m>.t<n>” where <m> is the expander number and <n> the terminal number on the expander board. Finally, the syntax “<ioserver_id>.k<m>.t<n>” is used to identify terminals on keyboards.

When a terminal is configured as a simple zone (Inim Zone.png), it should be assigned the corresponding zone number (e.g. "= z1").

If the terminal is configured as double zone (Inim Double Zone.png) then append “d” to the zone id (e.g. "= z7d"). This configuration allows to have two zones connected to the same terminal, thus the I/O Server will handle these two zones independently: the notation "z<n>" will identify datapoints related to base zones, while "z<n>d" identifies double zones.

If the terminal correspond to an output (Inim Output.png) specify the corresponding output number (e.g. "= o10"), while if the terminal is configured as an IO (Inim IO.png) then it will be seen as a zone as well as an output, so specify both of them (e.g. "= z6,o6").

Further, it is possible to assign a name to a zone terminal to be displayed in the user interface by adding it at the end of the line after an additional “=”. For instance:

hsa.t4 = z4 = door
hsa.t5 = z5 = corridor
hsa.t6 = z6, o6 = alarm point
hsa.e1.t2 = z11d = room 1, room 2

As you can see from the last line, when referring to a double zone you can specify two different names separated by a comma.

Datapoints

ID Value R/W Description
connection online R connection established
offline R HSYCO can't connect to the panel
armed 0 R all areas are disarmed
1 R at least one area is armed


a<n>.armed 0 R area <n> is disarmed
W disarm area <n>
away R area <n> is armed in “away” mode
W arm area <n> in “away” mode
stay R area <n> is armed in “stay” mode
W arm area <n> in “stay” mode
inst R area <n> is armed in “instantaneous” mode
W arm area <n> in “instantaneous” mode
a<n>.alarm 0 R no active alarm on area <n>
1 R alarm on area <n>
a<n>.tamper 0 R no tamper alarm on area <n>
1 R tamper alarm on area <n>
a<n>.alarm.mem 0 R no alarm in memory for area <n>
1 R alarm in memory for area <n>
a<n>.tamper.mem 0 R no tamper alarm in memory for area <n>
1 R tamper alarm in memory for area <n>
a<n>.auto 0 R auto-arming disabled on area <n>
1 R auto-arming enabled on area <n>
a<n>.reset 1 W reset alarms on area <n>
z<n>.state
z<n>d.state
closed R zone <n> (base or double) is closed
open R zone <n> (base or double) is open
tamper R zone <n> (base or double) is tampered
short R zone <n> (base or double) is in short circuit
z<n>.bypassed
z<n>d.bypassed
0 R zone <n> is not bypassed
W unbypass zone <n>
1 R zone <n> is bypassed
W bypass zone <n>
z<n>.test
z<n>d.test
0 R zone <n> is not in test
1 R zone <n> is being tested
z<n>.alarm.mem
z<n>d.alarm.mem
0 R no alarm in memory for zone <n>
1 R alarm in memory for zone <n>
z<n>.tamper.mem
z<n>d.tamper.mem
0 R no terminal tamper alarm in memory for zone <n>
1 R terminal tamper alarm in memory for zone <n>
or 0 R the relay output on the panel is not active
W deactivate the relay output on the panel
1 R the relay output on the panel is active
W activate the relay output on the panel
oc1 0 R the open collector 1 on the panel is not active
W deactivate the open collector 1 on the panel
1 R the open collector 1 on the panel is active
W activate the open collector 1 on the panel
oc2 0 R the open collector 2 on the panel is not active
W deactivate the open collector 2 on the panel
1 R the open collector 2 on the panel is active
W activate the open collector 2 on the panel
o<n>
(if defined in hesa.ini)
0 R output <n> is not active
W deactivate output <n>
1 R output <n> is active
W activate output <n>
fault.fuse.zones 0 R zones fuse OK
1 R fault on zones fuse
fault.fuse.ibus 0 R IBUS fuse OK
1 R fault on IBUS fuse
fault.battery 0 R battery OK
1 R fault on battery
fault.mains 0 R mains OK
1 R panel mains fault
fault.phone 0 R phone line OK
1 R fault on phone line
fault.jamming 0 R no jamming
1 R radio jamming
fault.radio.battery 0 R radio zones battery OK
1 R low battery on radio zone(s)
fault.radio.loss 0 R radio zones OK
1 R loss of radio zone(s)
battery.volts <val> R the voltage value of the battery is <val> Volts
tamper.panel 0 R panel OK
1 R panel tampered
tamper.cover 0 R panel cover OK
1 R panel cover tampered
tamper.reader 0 R readers OK
1 R reader(s) tampered
tamper.keypad 0 R keypads OK
1 R keypad(s) tampered
tamper.expander 0 R FLEX5 expanders OK
1 R FLEX5 expander(s) tampered
reset 0 R communication BUS ready
1 R ongoing reset procedure on communication BUS
internet 0 R “internet access” option disabled
1 R “internet access” option enabled
service 0 R service jumper in “RUN” position
1 R service jumper in “SERV” position (maintenance)
program 0 R panel not in programming mode
1 R ongoing programming via keyboard
voice 0 R no SmartLogos30M voice card detected
1 R SmartLogos30M voice card detected
log0 <text> R reports the latest line of the security log when a new entry is added

User Interface

Hesa Object

The user interface for the control and supervision of one area of the system, the zones and the visualization of the security log:

Inim UI Object 1.png Inim UI Object 2.png Inim UI Object 3.png

The Hesa object is listed in the Project Editor’s new object list only when at least one HESA I/O Server is defined.

Parameters

  • id - the id assigned to the HESA I/O Server in hsyco.ini
  • area - the number of the area to be addressed
  • pos - the object’s position. Use the pixels or rows and columns coordinates format.

Syntax

(hesa <server id>; <area>; <position>)

E.g.

(hesa serverid; area; x10y20)

UISET Actions

ID Attribute Set to
log value latest security log lines (as many as specified by the 'logsize' option)
log0 value latest line of the security log when a new entry is added, set back to blank after a short period
z<n>.name
z<n>d.name
value name assigned to zone <n> (base or double) or its number if no name is defined
connection.label visible true when datapoint connection = offline
false when datapoint connection = online
a<n>.armed.label.0 visible true when area <n> is disarmed
false when area <n> is armed
a<n>.armed.label.away visible true when area <n> is armed in "away" mode
false when area <n> is not armed in "away" mode
a<n>.armed.label.stay visible true when area <n> is armed in "stay" mode
false when area <n> is not armed in "stay" mode
a<n>.armed.label.inst visible true when area <n> is armed in "instantaneous" mode
false when area <n> is not armed in "instantaneous" mode
a<n>.armed.label.1 visible true when area <n> is armed in any mode
false when area <n> is not armed
z<n>.state.label.closed
z<n>d.state.label.closed
visible true when datapoint 'z<n>.state' has value 'closed'
false when datapoint 'z<n>.state' has not value 'closed'
z<n>.state.label.open
z<n>d.state.label.open
visible true when datapoint 'z<n>.state' has value 'open'
false when datapoint 'z<n>.state' has not value 'open'
z<n>.state.label.tamper
z<n>d.state.label.tamper
visible true when datapoint 'z<n>.state' has value 'tamper'
false when datapoint 'z<n>.state' has not value 'tamper'
z<n>.state.label.short
z<n>d.state.label.short
visible true when datapoint 'z<n>.state' has value 'short'
false when datapoint 'z<n>.state' has not value 'short'
<datapoint_id>.label.1 visible true when datapoint with ID <datapoint_id> has value '1'
false when datapoint with ID <datapoint_id> has value '0'
<datapoint_id>.label.0 visible true when datapoint with ID <datapoint_id> has value '0'
false when datapoint with ID <datapoint_id> has value '1'

USER Commands

Name Param Action
a<n>.armed 0 disarm area <n>
stay arm area <n> in "stay" mode
away arm area <n> in "away" mode
inst arm area <n> in "instantaneous" mode
a<n>.reset 1 reset alarms on area <n>
z<n>.bypassed
z<n>d.bypassed
0 unbypass zone <n> (base or double)
1 bypass zone <n> (base or double)
or 0 deactivate the relay output on the panel
1 activate the relay output on the panel
oc1 0 deactivate the open collector 1 on the panel
1 activate the open collector 1 on the panel
oc2 0 deactivate the open collector 2 on the panel
1 activate the open collector 2 on the panel
o<n> 0 deactivate output <n>
1 activate output <n>

To perform any of the above operations it is necessary to enter the user code first. To enter the user code through the user interface use user buttons to create a virtual keypad and assign them name and param values according to this table:

Name Param Action
digit {0 ... 9} append the specified digit to the entered user code
c delete the last entered digit

To visualize the number of entered digits use up to 6 text objects (depending on the number of digits used for user codes) and set their IDs to:

ID Description
pin.<n>
(0 ≤ <n> ≤ 5)
shows the character '*' when the corresponding digit has been entered, shows '_' otherwise

The entered code will be cleared after a short period of inactivity.

Log Files

A permanent detailed record of all the Hesa log messages is saved in a file called security.log in the logs/YYYY directory for the current year. This file is never overwritten or deleted by HSYCO.

Other information related to the HESA I/O Server are saved in the daily message.log files.

Release Notes

3.6.0

  • added datapoint "log0"

3.5.1

  • added possibility to specify pin code with commands
  • bug fix: hesa object not visible in project editor dictionary

3.5.0

  • initial release


Hesa is a registered trademarks of Hesa S.p.A.