Code/Card Reactions And Section Assignment; Enrollment By Keying In Production Codes; Automatic Setting/Unsetting Schedule; Changing The Service Code - jablotron OASiS JA-82KRC Installation Manual

7 Set Sets its own section of the system
8 PG The value of the s parameter determines which
output PG output is controlled: s= 1= PGX, s=2=PGY
control or s=3=PGX & PGY. To use this function the
PG output involved has to be programmed to
the ON/OFF or pulse functions.
If the reaction is triggered by:
a code (card) – the PG output changes its
state (ON,OFF,ON,OFF......) or a pulsed
switching event is generated after a valid code
or card is used. If a code or card is
programmed this way, it cannot be used for
setting (arming) control. Many different codes
can be programmed to operate PG outputs, if
desired.
a keyfob – one button in a pair is used to
switch a PG output ON, the second one to
switch it off or each of them generates a pulsed
switching event. If a keyfob is programmed this
way, it cannot be used for setting (arming)
control. Each PG output can have as many
associated keyfobs as desired. If both buttons
of the remote control are pressed
simultaneously, they will trigger a panic alarm
a detector – the PG output copies the status of
the detector or it generates a pulsed switching
event when the detector is triggered. The
detector also effects the control panel which
responds with a natural reaction. Only one
detector should be programmed to a PG output
ON/OFF reaction and should not be combined
with keyfob or keypad control as the detector
repeats its status every 9 minutes and it would
override the signal from the keypad or keyfob.
9 Set/unset Toggles the system status
SET,UNSET,SET,UNSET etc

12.41. Code/card reactions and section assignment

The following sequence programs the features of access codes
or cards:
a Unsplit system
0 No event
1 Set all (ABC)
2 Unset all (ABC) *
3 Set A**
4 Set AB**
5 Unset all (ABC) *
6 Unset all (ABC) *
62 nn r s
where:
nn is the user position from 01 to 50
r is the reaction index from 0 to 9 – see Table 2
s is the section 1 = A, 2 = B, 3 = C (only has an
effect in a split system – except for the PG
output control reaction).
Guidance on assigning codes or cards to sections:
• In partial setting (arming) mode assigning codes or cards to
sections has no effect (except for the PG output control
reaction). If anything in the system is set and a card/code is
used, the system will then be unset, and if all sections are
unset then the whole system will be set by a card/code.
Partial setting keys A and B on the keypad can be
programmed to be followed by a valid access code if required
(see 12.13).
• For a split system, a code assigned to section:
o A controls section A
o B controls section B
o C controls section A, B and C.
• If the system is not split then the assignment of codes/cards
to sections has no effect, but the s parameter must be
entered in the programming section. Enter s=3 if splitting is
not desired.
Guidance on code/card reactions:
Installation manual: OASiS security system JA-82KRC
Split system
No event
Set all (ABC)
Unset all (ABC)
Set A
Set B
Unset A
Unset B
17 / 21
• If a code/card has a natural reaction, i.e. r=1, then its reaction
is set,unset,set etc. (the same as reaction r=9 in table 2).
• A code/card can also have an alarm reaction designated to it,
similar to detectors.
Factory default setting: all codes/cards from 01 to 50 have a
natural reaction (set/unset) and are assigned to section C.

12.42. Enrollment by keying in production codes

This sequence allow the enrollment of devices by keying in
their production codes:
60 nn xx..x
where:
nn is the address of the device from 01 to 50
xx...x is the production code of the device (the last
eight digits of the bar code, see the label on the
PCB inside the device)
Notes:
• If the address nn is already occupied, the current device will be
erased, and the new device will then be enrolled instead.
• If a device with production code xx...x has already been enrolled to
another address in the past, and if the device is now enrolled to a
new address, then it will be moved to the new address, releasing the
old address.
• If you enter nn = 01 or 04 (14), the device will enroll instead of the
corresponding hard-wired input in the control panel (the terminal will
be disabled).
•
If eight zeros are entered as a production code, the device already
assigned to the address nn will be erased

12.43. Automatic setting/unsetting schedule

This can be used to program an automatic sequence of daily
setting/unsetting events. Up to 10 daily events can be
programmed. Events will occur every day of the week:
64 n a hh mm
where:
n is the event number from 0 to 9
a is the type of event from 0 to 6 (see the following
table)
hh hours (time of event)
mm minutes (time of event)
Erase the automatic schedule setting by: 64 n 0
* the same event in an unsplit system
** only possible if partial setting (arming) is programmed (see 12.24)
Notes:
• The automatic setting/unsetting event schedule can also be
programmed in maintenance mode.
• If automatic event scheduling is not used for setting/unsetting control
and the system is not split, then it can be programmed as a daily
timer to switch equipment connected to the PGY output on and off at
the desired daily times. To do this, split the system (see 12.24) but do
not enroll any detectors to section B (keeping this section empty).
Then program the PGY output to be triggered by the setting (arming)
of section B (see 12.5) and program the automatic daily event
schedule (with a=4) to set/unset the empty section B which will then
switch the PGY output on and off at the required times every day.
Factory default setting: All automatic events switched off.

12.44. Changing the service code.

To change the service code enter:
5 NC NC
where:
NC new code (4 digits), the new code has to be
entered twice.
Example: The code 1276 can be programmed by entering: 5
1276 1276
Factory default setting: 8080
MKH51100_OS2