Jablotron DAVID GD-04 User manual - page 5
GD-04 DAVID
8
MKS51203
responded to by an SMS report about input activation (a connection to GND). Pressing the B
button is responded to by an SMS report about input deactivation (a disconnection from GND).
•
For single-button controls (such as the RC-87 or RC-89), pressing the button is responded to
by an SMS report about input activation.
•
Enrolled JA-8x detectors work with the following logic:
o Input activation is reported by SMS in response to detector triggering (body movement,
door opening, breaking glass, fire, tamper...)
o Input deactivation is reported by SMS in response to panic signals or to the de-triggering
of state-providing detectors (JA-8xM)
•
Wireless devices can also be assigned by entering their production code using the LRN
instruction.
•
An input terminal with a wireless device assigned to it can be configured (see Optional functions,
DIP parameter g) so that connection to GND disables the reception of wireless signals. This
feature allows the setting/unsetting of enrolled detectors.
11.3.3.
Controlling the outputs using an RC-8x wireless button unit
Each X or Y output
can have four OASiS wireless button units assigned to it.
1.
Press and hold the XY button on the GD-04R module
2.
Entering enrollment mode is indicated after 5 seconds by flashing of the LED on the
GD-04R module – release the button.
3.
Enroll up to 4 wireless button units to the X output (send enrollment signals to the
module). Press the XY button again to allow enrolling to the Y output. A change of
flashing rate indicates this. Wireless button units are enrolled by pressing them.
Enrollment is confirmed by a long flash of the LED on the GD-04R. Important: Enrolling
the first device erases all the previously enrolled devices. Thus all the desired
devices should be enrolled in a single enrollment session.
4.
Exit enrollment mode by pressing the XY button (enrollment is automatically terminated
after the fourth device has been assigned or after 40 seconds).
5.
After enrollment mode termination, the LED on the module lights for approx. 5 seconds to
indicate enrollment data storage.
6.
It is possible to enroll a wireless button unit with two buttons by pressing any button(s)
(A, B or A+B). Button A switches on an output, button B switches off an output and A+B
changes (toggles) the status of an output (switch on – switch off). A wireless button unit
with one button (RC-87 or RC-89), changes the status of an output (switch on – switch
off).
To delete all enrolled items, press and hold buttons XY and ABCD until two long flashes
occur on the red LED.
11.3.4.
Using David for heating operation and status reporting
Each input A–D can have a wireless thermostat of the TP-8x series assigned to it (see 11.3.2).
•
Enroll a thermostat to any of the A, B, C or D inputs to get reports about exceeding the
maximum/minimum allowable temperature limits in your house:
o Exceeding the upper temperature limit (e.g. 60°C) is responded to by an SMS report about
input activation.
o Dropping under the lower temperature limit (e.g. 3°C) is responded to by an SMS report
about input de-activation.
•
Enroll a thermostat to one of the A or B inputs to take control of the temperature in your
house. An A-assigned thermostat controls relay X, a B-assigned thermostat controls relay Y.
This way heating control is established, supplemented by the reporting described above.
Thermostats enrolled to C or D inputs only provide reporting.
GD-04 DAVID
5
MKS51203
8. The use of accented characters is not recommended.
9. After an SMS message has been received, David switches off both the X and Y relays.
10. See table 1 for a brief instruction list.
7. Remote operation via SMS instructions
When using texts which have been programmed for David SMS operation (relay control, status
interrogation) the following conditions apply:
•
David does not distinguish between authorized and unauthorized phones when processing
operational SMS instructions. Instructions can be sent from any phones, but the texts must match the
texts which have been pre-programmed (except the lowercase/UPPERCASE attribute).
•
Access codes are NOT part of operational SMSes.
•
A single SMS message can contain multiple instructions separated by commas, e.g.
HEATING ON, LIGHTS OFF, STATUS
•
David can be so configured that every instruction performance is reported by SMS.
•
Received SMSes with unrecognised instructions can be forwarded to the so called service
number (see table 1).
•
If you are not sure whether any other text will be automatically added to the SMS on its way to David
(for example, when using an SMS internet gate) type the message like this: %instructions%%.
Example: The SMS text “1/1 www: %heating on%%” is interpreted as heating on.
8. Remote operation via dialling-in
David allows you to control the X and Y relays via dialling-in from pre-authorised phones. If a
call is made to David from a pre-programmed number, the call is rejected and the relay reacts as
follows:
o If a limit is set to the relay switch-on period then the relay switches on for the limit period.
o If no limit is set (zero value is set for the limit) then the relay switches on permanently -
until a switch-off SMS instruction or another dialling-in event occurs.
Notes:
•
Up to 50 tel. numbers can be programmed for each relay.
•
Each tel. number can have a limit to the number of calls so that any further calls are ignored.
•
This feature is not applicable to phones with withheld numbers.
•
Dialling-in relay control can be reported by SMS.
9. Using prepaid SIM cards
Prepaid SIM cards are NOT recommended for use in David, because they increase the risk
of David malfunctioning due to a possible credit balance under-run or expiration of the time limit.
If you still decide to use a prepaid SIM card, you can configure David for periodic balance
interrogation. If the reported credit balance is lower than the set limit, the credit balance
message will be automatically sent to the service phone numbers. To program this feature you
need to know some data specific to the GSM provider (see the SIM card documentation). The
programming instruction is of the following form:
PC, CRD, xxxx, dd, hhh, pp
where:
PC
is the access code
CRD
is the name of the instruction for credit balance interrogation
xxxx
is the command string to ascertain the credit (GSM network specific, e.g. *104#)
dd
is the auto-interrogation frequency in days
hhh
is the minimum acceptable credit balance