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Bra Proxinet 36-76-192 Installation manual
Bra Proxinet 36-76-192 is a powerful and versatile security alarm control unit that can be used to protect your home or business. With its advanced features and easy-to-use interface, the Bra Proxinet 36-76-192 is the perfect solution for anyone who wants to keep their property safe and secure. The RS-485 bus connection can connect up to 255 devices. Keep peripherals powered for as long as 48 hours or indefinitely with the optional backup kit. With its voltage protection of each loop, Bra Proxinet 36-76-192 provides high reliability. The Bra Proxinet 36-76-192 is the perfect solution for anyone who wants to keep their property safe and secure.
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SECURITY ALARM CONTROL UNIT
36-76-192
INSTALLATION MANUAL
English
EN
Index
1 Symbols and glossary
This symbol means the parts which describe safety issues.
●
This symbol shows parts which must be read with care.
Permanently on warning light.
Warning light off.
Rapidly flashing warning light.
INSTALLER: any person or business responsible for designing and installing the system.
USER: any persons using the security alarm system.
2 Terms of use
2.1 Intended use
The security alarm control unit of the PROXINET series (Proxinet 36, Proxinet 76, Proxinet 192) are designed to enhance security in both homes and service-sector businesses.
Any installation and use other than that specified in this manual is forbidden.
2.2 Warranty and limits to liability
Our product warranty refers to restoring compliance to the products through repairs or free replacement of any materials found to be non compliant due to defect resulting from errors in the manufacturing process, including any expenses incurred due to the any replacement actions (job orders, shipping, etc...).
Sellers of BPT S.p.A. products are directly liable to consumers of said products, and have the function of upholding this right of warranty in favour of said consumers. Consumers must address the seller, and only the seller, when upholding this right, and clearly communicate any product flaws or shortcomings within two months of noticing.
The warranty loses validity is any user fails to communicate any flaws within the above mentioned terms. Any claim is no grounds for customers to cancel or reduce orders, nor for reimbursements of sorts on our part. Our warranty is void if any of the parts as flawed are tampered with or repaired.
BPT S.p.A. cannot be held liable in case of damage caused by improper use of its products. Given that it’s the installers that design and install the intrusion alarm system using BPT S.p.A original parts and third-party parts, our company cannot therefore vouch for the reliability of the security alarm system. BPT S.p.A. denies any liability for claims made by users, installers or any third parties as concerns use and installation of our products.
3 Important for SAFETY
If properly designed, the security alarm system provides high levels of safety to the areas it is meant to protect and to the consumers that use it. To ensure this, certain rules must be followed:
•
•
•
•
The installation must be carried out by qualified, expert staff and in full compliance with applicable laws.
Check main power source connections and relative ground connections.
Once the system is up and running, make sure users have changed the Factory User Code (123456).
Maintenance on the system must only be carried out by qualified personnel; do not try to tamper with the system, you risk compromising its proper working order, and risk electrocution due to the voltage.
4 System installation
4.1 System wiring
RS-232 PC
Connection
PXLAN-PXWEB
PXGSM
Antenna GSM
PX8I
PXV64-PXV256
230 Vac
Power supply 230 Vac
+ -
12 V
NTC
Battery
150 ohm
Bus branching
Back up powersupply unit
13,8 Vdc
PXKWD
X
150 ohm
Telephone
PSTN Telephone line
Tamper
+
PX8OR
1 2 3 4
ON
OFF
+
+
PX8IR
1 2 3 4
ON
OFF
Relay
NC
C
NA
NC
C
NA
NC
C
NA
NC
C
NA
Siren
+
4,7 kohm
Siren with onboard power supply.
Siren
Single balancing input
NC input
Sensor with double balanced input
+ - TC
TAMPER ALARM
4,7 kohm
4,7 kohm
Single balancing input
4.2 Wiring bus RS-485
If remote devices are properly installed, all bus communication LEDs featured on each device should be flashing. If some are not flashing, this means installation or programming was wrong (check cabling, AIMING and programming in control unit).
TRADITIONAL CABLING (enter - output)
BRANCHED-OUT CABLING
Branching out consists of a cable with three pairs two of which are twisted (each pair is made up of conductors A and B).
An analysis of this circuit shows that the structure of the RS-485 bus continues to be linear (enter-output).
DOUBLE-BRANCH CABLING
BUS AMPLIFIER CABLING
APPLICATIVE NOTES ON CABLING OF THE RS-485 BUS
Cabling of the bus connecting the control unit to the remote modules, inserters, and keypads must follow the rules dictated by the RS-485.
Only use a screened and twisted cable with section of at least:
• 2x0.5 mm² for power supply and 2x0.22 mm² twisted for data.
• 2x0.5 mm² for power supply and 2x2x0.22 mm² twisted for data
(used to perform branching).
The sock must always be continuous and connected to the control unit’s negative (-) terminal.
The maximum length of the cable (max stretches of 800 m) and the conductor sections depend on the number of modules and from the overall draw on the different stretches of bus. When power draw increases the voltage drop increases on the cables and so reduces the power supply current to the devices on bus.
The voltage at all + and - terminals of the devices on bus (keypads, inserters, modules, ...) must not fall below 12 V DC.
If less, add an auxiliary power source and disconnect the positive while keeping the negative mutual.
Greater than 12 Vdc
In case of long stretches of bus always install 150 ohm resistors among terminals A and B at both ends of the bus.
Always carry out cabling of the bus in “enter and output” mode. Do not cable the bus when in star configuration.
If you need this configuration follow the directions in this chapter.
YES
CHOOSING THE CABLE SECTION FOR THE RS-485 BUS
For the RS-485 bus we suggest using the following cable:
• Twisted and grade 4-screened cable (600/1000 V).
• A twisted pair for data with section 2x0.22 mm².
• One pair to power the 2x0.5 mm2 or greater section depending on distances and voltages (check table below).
Below is the table for calculating the section of power cables with distance variances and power draws.
NO
Any drops in power voltage must not exceed 1.4 V (voltage measured on terminals of the power source and those of the devices with remotest bus).
MAXIMUM CABLE LENGTH BUS RS-485
0,5 mm
0,75 mm
1 mm
1,5 mm
2
2
2
2
0,1 A
175 m
262 m
350 m
525 m
POWER DRAW
0,25 A
70 m
105 m
140 m
210 m
0,5 A
35 m
52 m
70 m
105 m
If a cable does not have the proper section additional auxiliary power sources must be added.
1 A
17 m
26 m
35 m
52 m
Example:
Let’s say we have:
• Proxinet 36
• PXKWD (max consumption 60 mA)
• PX8IR (max consumption 40 mA)
• Sensors connected to the remote input expansion (total consumption 150 mA)
• Connection distance 200 m.
With max consumption of 250 mA in this case we either use a 1.5 mm2 section cable, or a 0.5 mm2 cable plus an auxiliary power source at the end of the line as shown below:
CABLE RS-485
Screened 2x1,5mm² + 2x0,22mm² twisted
CABLE RS-485
Screened 2x0,5mm² + 2x0,22mm² twisted
Control unit Device on bus Control unit
Back-up powersupply
Device on bus
Maximum communication performance is guaranteed by using the specified cable (PXC75). Maximum communication speed between peripherals is 115,200 baud. If not using the cable specified or if there are problems at installation, the control unit transfer speed can be decreased (38,400, 9,600, 4,800 and 2,400 baud). The speed of the peripherals will automatically set.
4.3 Wiring the inputs
I bilanciamenti si effettuano con resistenze da 4,7 kohm.
(NO) NORMALLY OPEN
Yellow 4
Violet 7
Red x100
Gold 5%
CONNECTING INPUTS
4.7 kohm 5% resistor
(NC) NORMALLY CLOSED
(SB) SINGLE BALANCING (DB) DOUBLE BALANCING
(CI) IMPULSE OR INERTIAL COUNTER (DB) DOUBLE BALANCING SENSOR
(DB) DOUBLE BALANCING SENSOR WITH MICROWAVE BLOCK WHEN CONTORL UNIT IS OFF (TC)
The U1 output gives a positive when output is active (ON =12, 8Vdc) The U1 output is factory-programmed as TC (active output with system shut down, non active during the output time and when at least one are is turned on).
5 Installing the control unit
5.1 Features
GENERAL CHARACTERISTICS
Power supply voltage
Power source
Transformer
Card power draw (excluding battery recharge)
Battery
Working temperature
Relative humidity
Max safety rating
Environmental Class
Dimensions (HxLxD)
IP
Weight: (without battery)
Proxinet 36
1 A
20 VA
70 mA
7,2 Ah
0° - 40° C
I
2
IP30
2,70 Kg
Proxinet 76
230 Vac - 15% + 10% 50/60 Hz
1,5 A
38 VA
70 mA
7,2 Ah or 15 Ah
0° - 40°
25% - 75% without condensation
2
I
380 x 260x 25 mm
IP30
4,50 Kg
Proxinet 192
2,5 A
52 VA
71 mA
15 Ah
0° - 40°
2
I
IP30
5,95 Kg
Following are the technical features of the control units (optional component means one that can be purchased separately).
TECHNICAL SPECIFICATIONS
Area
Scenarios
Total inputs
Wire inputs
Radio inputs
Inputs in control unit
Types of inputs in control unit
Types of inputs on BUS
On board relay outputs
Total programmable outputs
Programmable control unit outputs
Programmable bus outputs
Inputs expansion module in control unit
Inputs expansion modules on bus
Output expansion modules on bus
Radio concentration modules on bus
Inserters
Keypads
Transponder keys
Installer’s codes
User code
Radio commands
Timer
Events
BUS 485
PSTN Combiner
GSM Combiner
Voice synthesis
Telephone numbers
CONTACT-ID
FW control unit reprogramming
LAN
Control by SMS
Controlling by VOICE
Programming and Assistance Remote LAN
Programming and Assistance Remote PSTN
Programming and Assistance Remote GSM
RTC + buffer battery
Proxinet 36
20
16
12
4
32
36
NC, NA, SB, DB, CI
NC, NA, SB, DB, CI
1
20
1
1
4
16
2
2
4
4
20 (99 with PXV 256)
1
20 (99 with PXV 256)
8
Daily / Weekly
200 (999 with PXV 256)
1
Yes
Optional
Optional
8
Yes
Yes
Optional
Yes (with GSM)
Yes (with PXV xxx)
Yes (with LAN)
Yes
Yes (with GSM)
No
Proxinet 76
36
40
12
8
32
76
NC, NA, SB, DB, CI
NC, NA, SB, DB, CI
2
36
1
3
4
32
4
8
8
8
50 (999 with PXV 256)
1
50 (999 with PXV 256)
32
Daily / Weekly
999 (9999 with PXV 256)
1
Yes
Optional
Optional
16
Yes
Yes
Optional
Yes (with GSM)
Yes (with PXV xxx)
Yes (with LAN)
Yes
Yes (with GSM)
No
Proxinet 192
128
64
16
16
32
192
NC, NA, SB, DB, CI
NC, NA, SB, DB, CI
3
128
8
120
1
14
15
16
16
16
50 (999 with PXV 256)
1
50 (999 with PXV 256)
32
Daily / Weekly
999 (9999 with PXV 256)
2
Yes
Optional
Optional
16
Yes
Yes
Optional
Yes (with GSM)
Yes (with PXV xxx)
Yes (with LAN)
Yes
Yes (with GSM)
Yes
5.2 Components of the control unit
Proxinet 36 - Proxinet 76 - Proxinet 192
1
2
3
4
5
6
7
DESCRIPTION
230 Vac grid connection terminals.
Careful! High Voltage.
Fastom / ground connector terminal.
Connector cable for grounding the cover.
47 kohm temperature gauge (optional) PXSTB
Battery connection cables.
Respect the polarities (red = +, black = -).
Central tamper.
Line fuse.
for Proxinet 36: no fuse, the transformer is fitted with a 130°- rated heat protector.
for Proxinet 76: no fuse, the transformer is fitted with a 130°- rated heat protector.
For Proxinet 192: glass fuse T 500 mA.
5.3 Card description
Proxinet 36 Proxinet 76 Proxinet 192
1
DESCRIPTION
Bus RS-485 for connecting keypads, remote modules and inserters.
[+,-] power supply to bus.
[A,B] data.
[F6] for Proxinet 36: NO fuse.
[F6] for Proxinet 76: self-restoring fuse 1,35 A.
[F6] for Proxinet 192: self-restoring fuse 1,35 A.
2
3
4 / 5
6
7
8
9
10
11
12
13
14
15
16 / 17
18
19
Control unit input terminals, can be of the NA, NC, SB, DB, CI types.
[+,-] power supply.
[1,2,3,4] inputs 49..56. Negative reference.
[F3] for Proxinet 36: NO fuse.
[F3] for Proxinet 76: self-restoring fuse 1,35 A.
[F3] For Proxinet 192: self-restoring fuse 1,35 A.
Control unit output terminals.
[AUX +, -] power supply available via self-restoring-fuse protected output F5.
[U1]
[U2] positive programmable output protected by 100 ohm resitor (ON=13.8 Vdc, OFF=NA).
for the Proxinet 192 it is a C-NA relay output, for the others it’s an open collector output which is negative programmable and protected by a 100 ohm resitor (ON=0 Vdc, OFF=NA).
open collector outputs which are negative programmable and protected by 100 ohm resistor (ON=0 Vdc, OFF=NA).
[U3, U4]
[NO, C, NC] clean-contacts general alarm relay (ony one for the Proxinet 36).
[F5]
[F5]
[F5] for Proxinet 36: NO fuse.
for Proxinet 76: self-restoring fuse 1,35 A.
for Proxinet 192: self-restoring fuse 1,35 A.
A short circuit with open collector output activated for an extended time may lead to breaking of the protecting resitor.
[T, +] terminals for connecting the control unit tamper.
[JP3] bridge to activate / deactivate the tamper (position C deactivates the control unit tamper, and position O activates it).
[PE] grounding terminal.
[L, L] input terminal for PSTN external telephone line.
[T, T] output terminals for PSTN telephone line outgoing to telephone or control unit.
[CN2] connector for GSM module.
[F4] for Proxinet 36: NO fuse.
[F4] for Proxinet 76: self-restoring fuse 1,35 A.
[F4] For Proxinet 192: self-restoring fuse 1,35 A.
Dip switch 1 serves to switch the control unit from operational to maintenance mode (ON=Maintenance,
OFF= Operational).
Dip Switch 2 serves to restore the factory codes.
Dip Switch 3 is unused.
DipSwitch 4 serves to reprogram the control unit firmware.
[P1] button to relaunch control unit (not required for restoring parameters; does not alter configuration).
[CN3] connector for the PXV64/PXV256 voice guide and language card.
[CN1] RS-232 socket for connecting to OC (via RS-23w straight male/female cable) or to Ethernet interface.
[F4] for Proxinet 36: NO fuse.
[F4] for Proxinet 76: self-restoring fuse 1,35 A.
[F4] For Proxinet 192: self-restoring fuse 1,35 A.
[JP2] bridge to power Ethernet interface linked up to the CN1 connector (activates the 12 Vdc on connector CN1
(RS-232) in pin 9). A position = enable 12 Vdc; B position = disables 12 Vdc.
[F1] for Proxinet 36: glass T fuse 3,15 A.
[F1] for Proxinet 76: glass T fuse 3,15 A.
[F1] For Proxinet 192: glass T fuse 3,5 A.
[Vac] terminals to connect to transformer.
[CN7] battery connector.
[F2] for Proxinet 36: self-restoring fuse 1,6 A.
[F2] for Proxinet 76: self-restoring fuse 2,5 A.
[F2] For Proxinet 192: self-restoring fuse 3 A.
If installed, the PXSTB is temperature probe that optimises battery recharges.
[PXSTB] connector for PXSTB probe.
[JP1] bridge to activate (PXSTB and bridge not present) or disable (no PXSTB nor bridge present) the PXSTB probe.
[CN5] connector for input expansion in control unit.
[F3] for Proxinet 36: NO.
[F3] for Proxinet 76: self-restoring fuse 1,35 A.
[F3] For Proxinet 192: self-restoring fuse 1,35 A.
[+, U5, U6, U7, U8, -] CN6 connector for open collector outputs which are negative programmable and protected by 100 ohm resitor ((ON=0 Vdc, OFF=NA).
5.4 Wall mounting
Proxinet 36 - Proxinet 76 - Proxinet 192
Install the control unit far from access points and so it is hard to find.
Secure onto a suitable wall that can permanently hold up the control unit.
Set it up to have holes and channels for the initial installation cables to pass through.
Use the specific four holes for securing to the wall.
5.5 Cabling
230 Vac
Set up a suitable bipolar cut-off device (magnetothermic switch), with distances greater than 3 mm between contacts, wit sectioned power source.
Proxinet 36 Proxinet 76 Proxinet 192
– Cut off the magnetothermic switch linked to the control unit before the network 230 Vac and for the entire time the control unit is open.
– Handling the 230 Vac main power supply cables is hazardous; risk of electrecution.
– Connect the ground via a Faston to the appposite connector (Proxinet 36, Proxinet 76), or to the PE terminal (Proxinet
192). Connecting the ground must be done in compliance with current regulations.
– Connect the Line cable and the Neutral of thr 230 Vac to the transformer terminals.
– Block the 230 Vac power supply cable in the container so that it cannot move even if the terminals are disconneted.
– Before closing the control unit check that all of the metal parts are connected to the ground (control unit and cover).
– Re-attach the magnetothermic switch associated with the control unit only once internal cabling of the control unit.
BATTERY
The battery works as secondary power source to the security alarm unit. To optimise recharging and duration over time, we suggest installing the PXSTB, a temperature probe which allows to regulate the battery recharge depending on the temperature itself.
Installation of the PXSTB probe without opening jumper JP1 lowers battery charge voltage by 1 Volt thus impeding recharge.
Respect battery polarities while connecting.
PXSTB installed PXSTB not installed
The JP1 jumper needs to be open (unbridged).
Make contact between the PXSTB and battery.
TAMPER
CONTROL UNIT TAMPER IS ACTIVATED
The JP1 jumper needs to be closed (bridged).
CONTROL UNIT TAMPER IS DEACTIVATED
Tamper is activated (JP3 on O).
Not using the unit tamper annuls the safety level of the system.
ANTI-OPENING TAMPER
Tamper is deactivated (JP3 on C).
ANTI-OPENING AND TEARING TAMPER
1) Using a steel drill bit, perforate the right side of the controlunit container so you can then secure the tamper horizontally using the short screw.
2) Secure the tamper to the right side of the control unit using the second short screw.
1) Using a proper drill bit, perforate the wall at the same height as the tamper hole.
2) insert the apposite long screw into the hole on the right side of the control unit, tighten the washer and secure with the locking nut. The tamper must be able to rotate.
3) Ajust the height of the plug screw so that when closing the cover the small tamper-lever can also close.
BUS RS-485
For cabling to the RS-485 bus see chapter 4.2.
INPUTS
To cable the inputs see chapter 4.3.
U1 PROGRAMMABLE OUTPUT (positive)
A short circuit to the GND with active output for an extended time may lead to breakage of the protective resistor.
U1 is freely-programmable output that supplies a positive when activated:
• U1 ON = 13,8 Vdc
• U1 OFF = not connected
It is factory-programmed as a TC to abate microwaves when system is switched off (U1 = OFF if at least one area is on during out times; U1 = ON is the system is completely switched off.
The output is protected by a 100 ohm resitor.
It may also be used to command sirens or other roles.
U2, U3, U4 (Open Collector) PROGRAMMABLE OUTPUTS
A 12 V DC short circuit with active output for an extended time may lead to breakage fo the protective resistor.
Siren requiring power supply
In the Proxinet 192 control unit the U2 output is a relay with C-NA terminals.
U2, U3, U4 are freely-programmable Open connector outputs that provide a negative when activated:
• U2, U3, U4 ON = 0 V DC
• U2, U3, U4 OFF = not connected
The outputs are protected by 100 ohm resistors.
If you wish to command a relay via an Open Collector output or relay output you will need to add the 1N4007 diode parallel to the relay coil.
GENERAL ALARM RELAY OUTPUTS RELAY 1 - RELAY 2
These relay outputs are for general alarm and are not programmable. They follow the general state of alarm and stay active for the time programmed.
SA10L
APF22
Siren requiring power supply
PSTN TELEPHONE LINE
Siren with on-board power supply
The PSTN telephone line needs to be connected to terminals
[L, L] and in output, to terminals [T, T] for switch-boxes or telephones.
So-called simulated phone lines like ADSL ones can disturb CONTACT-ID digital communications with Security Firms.
LANGUAGE UPDATE BOARD PXLNG for control unit
A
ACTUAL LANGUAGE:
ITALIANO
SELECT LANGUAGE:
ITALIANO
C
D
B
LOADING LANGUAGE
WAIT FOR RESTART
E
For modifying the control unit language and firmware update. A language board is available for each type of control unit.
Update is available from version 1.0.16 of control unit.
At least a PXKWD keyboard must be connected (by default at address 1) for the language selection.
Change language by:
A inserting the board;
B resetting the control unit by pressing the button;
C the keypad shows the current language: press the button ;
D select the language to install using the keys / ;
A standby message is displayed during installation;
C The current language is displayed after the update is over;
B remove the board and re-start the control unit by pressing the button.
6 PXKWD Keypad
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
6.1 Features
Power supply voltage
Max power draw
Working temperature
Relative humidity
Dimensions (HxLxD)
IP
GENERAL CHARACTERISTICS
6.2 Card description
PXKWD
12 Vdc - 15 Vdc
60 mA
0° - 40° C
25% - 75% senza condensa
180x120 x 28 (a muro)
IP40
PXKWD
B
C
E
A
1
PXKWD DESCRIPTION
Bus RS-485 for connecting keypads, remote modules and inserters.
[+,-] power supply to bus.
[A,B] data.
2 [SW1] Anti opening / tearing tamper.
3 [JP1] Jumper to activate / deactivate the tamper (Jumper on = Tamper deactivated).
4 BUZZER Keypad buzzer
5 DL18 BUS communication.
D
6.3 User interface
KEYPAD DISPLAY
0 8:2 4 16 /05 / 1 0
#####UUUP- - -
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
The display is consists of two lines of 16 graphic characters. When idle the keypad goes into “Energy Saving” mode and reduces the light intensity after a preset time.
Below the display there are 16 numbers that facilitate interpretation of the second line of display.
#
U
= area on.
= area in switching on phase (output time) without open inputs.
X
P
= area in switching on phase (output time) but not ready for adding presence of open inputs.
= area partially on (there is at least one temporarily excluded input associated to the area).
-
= area off.
= area not managed by the keypad.
Example:
Referring to the above shown display:
• Areas under management: 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12
• Areas not under management: 13, 14, 15, 16
• Areas switched-on: 1, 2, 3, 4, 5
• Areas being switched-on: 6, 7, 8, 9
• Areas switched-off: 10, 11, 12
LIGHT WARNINGS
LED STATUS LEGEND OF LIGHT SIGNALS
●
●
When off it means there are open inputs. Alarm is raised when a scenario is brought up. Check open inputs when starting up scenarios.
Steadily on means there are NO open inputs. The system can be switched on without any problems.
●
When off it means that the areas are switched off (system switched off).
●
When on it means that all of the areas are switched on (system switched on entirely).
When flashing it means that at least one area is switched on (system switched on partially).
●
When off it means that the areas are NOT in alarm mode.
●
When on it means that at least one area is in alarm mode (system in alarm mode).
When flashing is means that the system has detected a silenced alarm. See event history for alarm list. To remove notice see chapter on managing the system.
●
When off it means that there are faults in the system.
Steadily on it means the 230 Vac main power supply is absent.
(
●
always on,
●
flashing on,
When flashing it means that the control unit battery is not working.
●
off).
ALPHANUMERIC KEYPAD
KEY
1
4
7
,
2
,
3
,
5
,
6
,
8
,
9
0
*
,
#
,
▲
,
▼
+
,
-
*
A
,
B
,
C
D
MEANING OF KEY
The alphanumeric keys let you insert access codes, as well as let you select areas during the switch-on stage and change parameters.
Menu navigation and selection keys.
Parameter change keys.
After inserting the code, allows access to the User Menu.
If pressed and held down for five seconds, allows access to the keypad menu.
Scenario start up keys.
System off key.
6.4 Keypad menu
The Keypad Menu is independent of the control unit menu, and allows the user to:
• Set the keypad language
• Set the address
• Adjust the contrast
• Activate / Deactivate the buzzer
▲
▼
▲
▼
08:23 16/05/10
KEY IN CODE
*
#
*
LANGUAGE MENU
LANGUAGE
ITALIAN
LANGUAGE
ENGLISH
#
*
ADDRESS MENU
ADDRESS
01
+ -
+ -
+ -
▲
▼
#
*
CONTRAST MENU
CONTRAST
[XXXX ]
▼ ▲
+ -
To access the Keypad Menu, press and hold down the
*
seconds.
key for at least 5
KEYPAD LANGUAGE
Changing the keypad menu language does not change the control unit language.
If you want to change the keypad menu:
1. Press and hold down the
2. Using
▲ ▼
select
*
key for at least 5 seconds.
LANGUAGE MENU
and press
*
.
3. Use the
+ -
keys, set the desired language.
4. Press
#
to exit and return to the previous menus.
ADDRESS
If you want to change the keypad address:
1. Press and hold down the
2. Using
▲ ▼
select
*
key for at least 5 seconds.
ADDRESS MENU
and press
*
.
3.
4.
Use the
+ -
keys to change the keypad address.
Press
#
to exit and return to the previous menus.
Changing the keypad address does not change the control unit programming. Remember to enable any added keypads.
CONTRAST
If you wish to increase or decrease the contrast of the keypad display:
1. Press and hold down the
2. Using
▲ ▼
select
*
key for at least 5 seconds.
CONTRAST MENU
and press
*
.
3.
4.
Use the
+ -
keys to adjust the contrast.
Press
#
to exit and return to the previous menus.
▲
▼
#
*
BUZZER MENU
BUZZER
ON
▼ ▲
+ -
BUZZER
If you want to enable or disable the keypad buzzer:
1. Press and hold down the
2. Using
▲ ▼
select
*
key for at least 5 seconds.
BUZZER MENU
and press
*
.
3.
4.
Use the
+ -
keys to enable or disable the buzzer.
Press
#
to exit and return to the previous menus.
Changing the keypad address does not change the control unit programming. Remember to enable any added keypads.
The “address” menu is displayed only for the first 3 minutes after control unit has been switched on.
7 PXITxxxx inserters
The inserters must be mounted so as to be protected from any breaking-in attempts or in an area guarded by the system
- contrarily, the reference regulation becomes unappliccable.
7.1 Features
GENERAL CHARACTERISTICS
Power supply voltage
Max power draw
Working temperature
Relative humidity
Dimensions
IP
7.2 Card description
12 Vdc - 15 Vdc
40 mA (min) - 70 mA (max)
0° - 40° C
25% - 75% without condensation
Positioned on a plug of an embedded box
IP40
DESCRIPTION a
1
Bus RS-485 for connecting keypads, remote modules and inserters.
[+,-] power supply to bus.
[A,B] data.
7.3 User interface
The transponder inserter makes it possible to:
• Begin switching on and off scenarios.
• Switch system off.
• Visually check the state of system alarm and operation.
Sensitive area for transponder key
(see the System Management chapter)
Each key is recognised univocally inside the control unit and event history.
System-status luminous notifications
LIGHT WARNINGS
LED status scenario 1 status scenario 2 status scenario 3 status system
STATUS correspond with that of scenario 1).
LEGEND OF LIGHT SIGNALS
●
When off it means that scenario 1 is not active ( the switching on / switching off status of the areas does not
●
When steadily on it means that scenario 1 is activated (the switching on / switching off status of the areas does not correspond with that of scenario 1).
When flashing it means:
- in case of alarms there is at least one area of scenario 1 which is in alarm mode.
- during going out time it means that at least one input associated to scenario 1 is open.
●
When off it means that scenario 2 is not active ( the switching on / switching off status of the areas does not correspond with that of scenario 2).
●
When steadily on it means that scenario 2 is activated (the switching on / switching off status of the areas does not correspond with that of scenario 2).
When flashing it means:
- in case of alarms there is at least one area of scenario 2 which is in alarm mode.
- during going out time it means that at least one input associated to scenario 2 is open.
●
When off it means that scenario 3 is not active ( the switching on / switching off status of the areas does not correspond with that of scenario 3).
●
When steadily on it means that scenario 3 is activated (the switching on / switching off status of the areas does not correspond with that of scenario 3).
●
When off it means that the associated areas are switched off (system switched off).
●
●
When flashing it means:
- in case of alarms there is at least one area of scenario 3 which is in alarm mode.
- during going out time it means that at least one input associated to scenario 3 is open.
When steadily on it means that at least one associated area is switched on (system switched on or partialised).
When flashing rapidly it means that the associated system has detected an alarm. See event history for alarm list. To remove notice see chapter on managing the system.
When slowly flashing it means that the system is in alarm mode. See event log for alarm list. To remove notice see chapter on managing the system.
7.4 Aiming
The inserter address is assigned by the control unit during the AIMING phase. To assign address see chapter 10.4.
7.5 KEYT Key
All transponder keys are made with their own univocal security code. The key needs to be accepted by the control unit in the switching-on phase or by subsequent changes, before being able to manage switching system on and off modes.
ACCEPTANCE
For key acceptance see chapter 10.11.
CHECK KEY
If you have an unknown key, you can check the User Menu to find its assignee.
*
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
KEYS 17
*
#
123456
222222
▼ ▲
CHECK KEYS
READING KEY ...
▼ ▲
KEY XXX [#]
DESCRIPTION XXX
To indentify a key you need to:
1. Enter user code in keypad (if less than 6 characters confirm with
*
).
2. Enter technical code in keypad (if less than 6 characters confirm with
*
).
3. With
▲ ▼
select
KEYS
and press
4. With
▲ ▼
select
KEY CHECK
*
.
and press
*
.
5. The LEDs on the inserters will start to flash.
6. Approach the key until flashing stops.
7. Display now shows index and key description. If it is not of the system, the following will appear la scritta
KEY NOT VALID
.
8. Press
#
to output and return to the previous menus.
8 Expansion modules
Input and output expansion modules are available to allow control units to meet changing system requirements.
8.1 PX8I (expansion of 8 inputs in control unit)
FEATURES
GENERAL CHARACTERISTICS
Power supply voltage
Max power draw
Working temperature
Relative humidity
CARD DESCRIPTION
12 Vdc - 15 Vdc
20 mA
0° - 40° C
25% - 75% without condensation
DESCRIPTION
1
Input terminals, can of the NA, NC. SB, DB and CI types.
[+,-]
[9,..0.16] inputs 49..56. Negative reference.
[Fuse] power supply.
the same on used in the control unit to protect inputs.
2 Connector to install card on control unit.
INSTALLING
8.2 PX8IR (8-input expansion on bus)
FEATURES
GENERAL CHARACTERISTICS
Power supply voltage
Max power draw
Working temperature
Relative humidity
Dimensions
IP
All interface insertion and removal operations must be made when main power supply is cut off to control unit.
Use the four supplied plastic spacers to secure the input expander to the control unit card.
No dipswitch settings needed. The associated inputs are: inputs from 5 to 12 for control units Proxinet 36 e Proxinet 76 inputs from 9 to 16 for control unit Proxinet 192
12 Vdc - 15 Vdc
40 mA
0° - 40° C
25% - 75% without condensation
22 x 90 x 55 mm
IP20
CARD DESCRIPTION
b a f d e c a
1
2
3
4
5
6
DESCRIPTION
Input terminals, can of the NA, NC. SB, DB and CI types.
[+,-]
[9,..0.16] inputs 49..56. Negative reference.
[Fuse] power supply.
the same on used in the control unit to protect inputs.
Bus RS-485 for connecting keypads, remote modules and inserters.
[+,-] power supply to bus.
[A,B] data.
[JP1] bridge for outer tamper (when bridged tamper is closed). If needing an outer tamper, remove the bridge and connect outer tamper to the two connectors.
[DL9]
[SW1]
[JP2]
Red LED light for bus communication signalling. If flashing it means that the module is communicating with the control unit.
4 dipswitches for setting module addressess.
If removed allows to disconnect the bus + terminal from the input terminal + s.
ADDRESSING
SW1
=ON
=OFF
ADDRESS
Proxinet
36
Proxinet
76
Proxinet
192
SW1
=ON
=OFF
ADDRESS
Proxinet
36
Proxinet
76
Proxinet
192
0 not valid not valid not valid
1
2
3
4
5
6
7
Inputs
5..12 (*)
Inputs
13..20
Inputs
5..12 (*)
Inputs
13..20
Inputs
25..32
Inputs
33..40
Inputs
9..16 (*)
Inputs
17..24
Inputs
25..32
Inputs
33..40
Inputs
41..48
Inputs
49..56
Inputs
57..64
(*) NOT USED because the PX8I card is supplied as standard.
8.3 PX80R (8-input expansion)
FEATURES
GENERAL CHARACTERISTICS
Power supply voltage
Max power draw
Working temperature
Relative humidity
Maximun voltage on relay outputs (resistance load)
Maximun volatage on open collector outputs
Dimensions
IP
8
9
10
11
12
13
14
15
12 Vdc - 15 Vdc
26 mA (min) - 83 mA (max)
0° - 40° C
25% - 75% without condensation
0,3 A - 125 Vac / 0,5 A - 60 Vac / 1A - 30 Vac
Max 50mA (Protective resistor on 100 ohm outputs)
A short circuit with active output for an extended time may lead to breakage of the protective resistor.
22 x 90 x 55 mm
IP20
Inputs
65..72
Inputs
73..80
Inputs
81..88
Inputs
89..96
Inputs
97..104
Inputs
105..112
Inputs
113..120
Inputs
121..128
CARD DESCRIPTION
c b f e g d a
1
2
DESCRIPTION
Relay output terminals, depending on the JP1,..., JP4 jumper setting they can be NA or NC.
Open collector output terminals. If active they yield a negative.
A short circuit with active output for an extended time may lead to breakage of the protective resistor.
3
4
5
Bus RS-485 for connecting keypads, remote modules and inserters.
[+,-] power supply to bus.
[A,B] data.
[JP]
[DL] bridge for outer tamper (when bridged tamper is closed). If needing an outer tamper, remove the bridge and connect outer tamper to the two connectors.
Red LED light for bus communication signalling. If flashing it means that the module is communicating with the control unit
6 [SW]
7
4 dipswitches for setting module addressess.
[JP1..JP4] 4 bridges each associated to the 4 relay outputs, let you set the NA or NC output. The bridge on the right selects the NC exchange, the bridge on the left selects the NA one.
ADDRESSING
SW1
=ON
=OFF
ADDRESS
Proxinet
36
0
1
2
3
4
5
6
7
Proxinet
76
Proxinet
192 not valid not valid not valid
Outputs
5..12
Outputs
13..20
Outputs
5..12
Outputs
13..20
Outputs
21..32
Outputs
33..40
Outputs
9..16
Outputs
17..24
Outputs
25..32
Outputs
33..40
Outputs
41..48
Outputs
49..56
Outputs
57..64
8.4 PXWRX (radio receiver module)
FEATURES
GENERAL CHARACTERISTICS
Power supply voltage
Max power draw
Working temperature
Relative humidity
Operating frequencies
Dimensions
IP
SW1
=ON
=OFF
ADDRESS
Proxinet
36
8
9
10
11
12
13
14
15
Proxinet
76
Proxinet
192
Outputs
97..104
Outputs
105..112
Outputs
113..120
Outputs
121..128
Outputs
65..72
Outputs
73..80
Outputs
81..88
Outputs
89..96
12 Vdc - 15 Vdc
100 mA
0° - 40°C
25% - 75% without condensation
868 MHz and 433 MHz
110 x 80 x 30 mm
IP20
DESCRIPTION OF BOARD
DESCRIPTION
1
RS-485 bus terminals for connecting keypads, remote modules and inserters.
[+,-] power supply to bus.
[A,B] data.
2 [BUS]
3 [ERR]
4 [OK] red LED light for bus communication signaling. If flashing it means that the module is communicating with the control unit. red LED light for error in received wireless communication. green LED light for correct wireless communication received or nonassociated peripheral.
6
[SW1]
7 [R]
8 [M]
9 [SW2]
10 [SW3]
8 dipswitch for:
[1..4] setting the module address.
[5] if set to ON it activates the LED lights
[6.7] unused.
[8] if set to ON it disables the tamperproof anti-rip out receiver restart button (for example, after a change in addressing). unused button. anti-opening tamperproof. tamperproof rip-out resistant.
ADDRESSING
SW1
=ON
=OFF
ADDRESS
1
2
3
4
5
6
7
8
Proxinet
36
X
X
Proxinet
76
X
X
X
X
X
X
X
X
Proxinet
192
X
X
X
X
X
X
X
X
SW1
=ON
=OFF
ADDRESS
15
16
13
14
11
12
9
10
Proxinet
36
Proxinet
76
Proxinet
192
9 Accessories
9.1 PXV64 - PXV256
Installing the PXVxxx board allows the following control unit functions to be expanded:
Vocal Guide
User codes
Transponder keys
Events memory
FUNCTION board without speech synthesis
Proxint36
No
20
20
200
Proxint76/192
No
50
50
999
Proxint36
Yes
20
20
200
PXV64
Proxint76/192
Yes
50
50
999
Proxint36
Yes
99
99
999
PXV256
Proxint76/192
Yes
999
999
9999*
* Displaying over 1000 events is not available on the keypad but only with a PC (download events) or a touch screen.
X
X
X
X
X
X
X
X
GENERAL CHARACTERISTICS
Power supply voltage
Maximum power drawn
Operating temperature
Relative humidity
Memory
PXV64
64 Mbit
3,3 Vdc
10 mA
0° - 40° C
25% - 75% without condensation
PXV256
256 Mbit
INSTALLATION
All the board insertion and removal operations must be performed with the control unit’s power supply switched off.
The PXVxxx board should be inserted in the relative slot as shown in the figure.
9.2 IGSM
GENERAL CHARACTERISTICS
Power supply voltage
Max power draw
Working temperature
Relative humidity
CARD DESCRIPTION
12 Vdc
100 mA
0° - 40° C
25% - 75% without condensation
2
3
DESCRIPTION
1 Connector for connecting with control unit card.
Slot for SIM.
All SIM card insertion and removal operations must be done after cutting of the main power supply.
[DL1] Green LED light signalling that GSM is working.
●
●
0.3 s ON / 2.7 s OFF
GSM module is off or not present.
Active GSM call (incoming or outgoing)
GSM dialler not registered with GSM network.
GSM dialler is properly registered with GSM network.
4 Connector for GSM antenna.
INSTALLING
●
0.3 s ON / 2.7 s OFF
All interface insertion and removal operations must be made when main power supply is cut off to control unit.
Use all four of the supplied plastic spacers to secure the card to the control unit card.
On the top part of the metal container there is a pre-cut to facilitate securing of the
GSM antenna. Use a screwdriver to open the hole and secure the antenna.
Connect antenna to GSM card.
Power up control unit only after connecting the anteanna and inserting the
SIM card.
After powering up the control unit, let at least one minute elapse, check that the
GSM’s green DL1 LED signals proper SIM registration.
10 Starting up the system
This chapter aims to describe how to start up a system in a “easy” way, with no particular configurations. It shows how to install all of the components and programming of the basic functions (areas, scenarios, inputs, outputs, telephone warnings).
Before starting up system, do the following:
• Laying of RS485 control unit bus.
• Cabling inputs.
• Cabling outputs.
• Cabling the control unit.
• Cabling keypads, inserters, accessories, …
Below is an explanation of how to start up the system.
10.1 First start up
PRELIMINARY CHECKS
Check connections to ground and 230 Vac main power supply.
SYSTEM UNDERGOING MAINTENANCE / OPERATIONAL
To prevent accidental calls or sirens up when system undergoes maintenace jobs, setting the system to MAINTENANCE mode will disable said warning functions.
The deactivated control unit under maintenance:
• Telephone calls and SMS text messages.
• Activating the alarm outputs.
The User Menu can be used to test any disabled functions.
To change maintenance / operational, operate on switch [SW1.1] in maintenace
Visualising the state of maintenance can only be done on LCD keypads.
SYSTEM IN MAINTENANCE
IN MAINTENACE
ENTER CODE
First line of the display reading
“in maintenance” message
SYSTEM UP AND OPERATIONAL
08:23 16/05/10
ENTER CODE
First line of the display with time and date of the control unit
CHANGE CONTROL UNIT LANGUAGE
The control unit can support the management of multiple languages through the PXLNG interface which allows installation of the desired language.
To change the language, please refer to the manual included with the PXLNG board.
Updating the language makes it possible to update the firmware as well.
CONTROL UNIT POWER ON
• Power up the control unit with 230 Vac and connected the battery.
• When first switched on the control unit follows the configuration of the POWER ON CENTRALE parameter which is normally set to TOTAL ON .
• Switch off the system by keying in user code 123456 followed by the switching off button
D
.
OPENING/CLOSING THE CONTROL UNIT
If the control unit tamper is properly installed, when the control unit door is opened the sabotage- allarm will sound immediately.
For alarm not to sound, access technical menu via keypad.
08:23 16/05/10
ENTER CODE
COMMAND WAITIG
*=USER MENU
123456
222222
operational
1.
2.
3.
STEP 1: Opening the control unit
Enter user code (if less than 6 characters confirm with
*
).
Enter technical code to access technical menu.
Open the control unit by loosening the apposite screws.
STEP 2: Placing the control unit in maintenance
To prevent alarms from being raised due to control unit tamper or due to possible programming errors, we suggest placing the control unit into maintenance mode.
1. Place the control unit into maintenance mode by raising microswitch 1.
STEP 3: Maintenance
This setting allows you to operate without worrying about accidental activating any sirens or telephone calls.
STEP 4: Making operational and shutting down the control unit
Once maintenance is finished restore the system to operational mode.
1. Place the control unit into operational mode lowering microswitch 1.
2. Close the control unit within 30”before the control unit’s tamper alarm is triggered.
10.2 Using the LCD keypad
ALPHANUMERIC KEYPAD
TASTO
1
4
7
,
2
,
3
,
5
,
6
,
8
,
9
0
*
,
#
,
▲
,
▼
+
,
-
*
A
,
B
,
C
D
KEY LEGEND
The alphanumeric keys allow your to enter access codes select areas when staring up, change some parameters like telephone numbers and code descriptions.
Menu navigation and selection keys.
Edit parameters keys.
After inserting the code it lets you access the User Menu.
Scenario launching key.
System shut off button.
ACCESSING THE TECHNICAL MENU
Depending on the parameter
TEC MENU ACCESS
(
CODES
-> menu may be either preceeeded or not by the User code.
INSTALLER’S TECHNICAL CODE
Simultaneously accessing the technical menu or user from multiple keypads is not allowed.
), access to the technical
ACCESS AFTER USER CODE
To access the technical menu eneter the user code followed by the technical code. If the codes are less than the 6 digits confirm code insertion with
*
.
DIRECT ACCESS
To access the technical menu the system needs to be shut down, then enter the technical code. If the code is less than the
6 digits confirm code insertion with
*
.
08:23 16/05/10
ENTER CODE
123456 08:23 16/05/10
ENTER CODE
222222
COMMAND WAITING
*=USER MENU
222222
SELECTING NUMBERS GREATER THAN 9
Some parameters require pressing number key between 10 and 16 which are not physically present on the keypad. To do this select the “tens” by pressing 0.
Example: to press 13 do the following: press key
0
and
3
sequentially.
10.3 Programming mode (EASY, NORMAL, ADVANCED)
To simplify programming of the system for even non highly skilled installers or where simple systems are being installed, use the
PROGRAMMING MODE
parameter. This parameter simplifies (by reducing or pre-setting) the parameters that will be used in case of simple systems, or to otherwise have more extensive control when skilled installing technicians are involved.
08:23 16/05/10
ENTER CODE
123456
*
COMMAND WAITING
*=USER MENU
PROGRAMMING 01
MODE
222222
▼ ▲
SIMPLE PROGRAMM.
MODE
+ -
Programming mode:
EASY
only base parameters for simple systems are available.
NORMAL
only simple strandard system parameters are available.
ADVANCED
all configurable parameters are available.
Passing from Advanced to Easy means automatic reconfiguring of the parameters which will be hidden.
Following are the main differences among the three types:
EASY MODE
The simple programming mode lets you quickly and simply start up low-comploutputy systems or is used with non highly skilled installing technicians.
The pre-configured settings are the following:
INDEX
1
2
DAY AREA
NIGHT AREA
AREA DESCRIPTION INDEX
3
AREA DESCRIPTION
PERIMETER AREA
INDEX
1
2
3
KEYPADS
SCENARIO DESCRIPTION
GOING OUT
GOING TO BED
STAYING INDOORS
ALL KEYPADS
ASSOCIATED SCENARIOS
A GOING OUT
B GOING TO BED
C STAYING INDOORS
INDEX
U1
U2
RELE’
OUTPUT DESCRIPTION
TC output to disinhibit the detectors’ microwave when system is off (associated to the NIGHT TIME area).
From a positive with BEDING area switched off.
System status, yields a negative is at least one area is switched on.
Relays 1 and 2, is activated during the alarm time.
ASSOCIATED AREAS
1, 2, 3
1, 3
3
INSERTERS
ALL INSERTERS
INDEX
U3
U4
PROPRIETA’
TURN ON+OFF.EXACT
TURN ON+OFF.EXACT
TURN ON+OFF.EXACT
ASSOCIATED SCENARIOS
L1 GOING OUT
L2 GOING TO BED
L3 STAYING INDOORS
OUTPUT DESCRIPTION
Yields a negative when something is out of order.
Technical, yieds a negative when at least one technical alarm is switched on.
CODES all
CODE PROPERTIES
TURNING ON + TURNING OFF of all areas.
KEYS all
DESCRIPTION OF PROPERTIES
TURNING ON + TURNING OFF of all areas.
TELEPHONE
NUMBER
DESCRIPTION TYPE
1..7
8..14
15
16
Telephone 1..7
Telephone 8..14
Security firm
Technical
NORMAL MODE
Same setting of the EASY mode plus:
VOICE
SMS
CONTACT-ID
SMS
ATTEMPTS
1
1
2
1 x x x x x x x x x x x x x x x x x x x x x x x
• Customise scenarios.
• Cusomtised Keyborads, inserters, codes, keys, ...
• Customised telehone calls.
• Restore default parameters and codes separately.
ADVANCED MODE
Same settings of the EASY AND NORMAL mode plus:
• Cusomtise keypad-specific voice messages.
• Advanced programming of radio, inputs, codes, keys, telephones, telephone options, special functions.
• Advanced programming of telephone functions.
• Time, calendar scheduler.
• Past Events print-out.
10.4 AIMING and acquiring periferals
ACQUIRING KEYPADS
The system cannot have keypads with the same addresses.
All of the keypads are made with address 1 and the control units are factory activated for keypad 1. For keypad 1 there is no need to program any AIMING and acquisitions.
To address and acquire a new keypad from the control unit you need ( example of added keypad 2):
• For the other keypads follow the steps in order.
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
123456
222222
SYSTEM 02
▼ ▲
*
*
*
EDIT
SYSTEM
AIMING
KEYPADS
▼ ▲
ON KEYPAD 02
PRESS * and #
▼ ▲
▼ ▲
*
#
KEYPAD 02 OK
*=TO CONTINUE
*
STEP 1: Keypad addressing
1.
2.
From a properly bought keypad (usually keypad 1).
Enter user code (if less than 6 characters confirm with
*
).
3.
5.
Enter technical code to access technical menu.
4. With
▲ ▼
select
SYSTEM
and press
*
With
▲ ▼
select
.
6. With
▲ ▼
ADDRESSING KEYPADS
and press
*
.
select the index of the keypad you wish to acquire
7.
8.
(example keypad 2:
ON KEYPAD 02
).
Go to the keypad you wish to address and simultaneously press the
*
and
#
keys and wait fo the confirmation beep on the keyboard.
The LCD keypad will read
KEYPAD 02 OK
. Press
*
to finish.
*
EDIT
SYSTEM
KEYPADS
#-----------------
▼ ▲
▼ ▲
2
KEYPADS
##----------------
#
STEP 2: Activating keypad in control unit
1.
2.
3.
4.
5.
6.
7.
From a properly bought keypad (usually keypad 1).
Enter user code (if less than 6 characters confirm with
*
).
Enter technical code to access technical menu.
With
▲ ▼
select
SYSTEM
and press
*
With
▲ ▼
select
EDIT SYSTEM
.
and press
*
.
With
▲ ▼
select
KEYPADS
.
Use the number keys to select and activate (# = activated, - deactivated).
8. Press
#
to return to previous menu.
ACQUIRING INSERTERS
The system cannot have inserters with the same address.
All of the inserters are made with address 1 and have no factory-activated inserter.
To address and acquire a new inserter from the control unit you need (example of added inserter 2):
*
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
SYSTEM 02
123456
222222
▼ ▲
4.
5.
6.
1.
2.
3.
STEP 1: Activating inserters in the control unit
7.
Enter user code (if less than 6 characters confirm with
*
).
Enter technical code to access technical menu.
With
▲ ▼
select
SYSTEM
and press
*
With
▲ ▼
select
EDIT SYSTEM
.
and press
*
.
With
▲ ▼
select
INSERTERS
.
Use the number keys to select and activate inserter (# = activated , - disactivated).
Press
#
to return to previous menu.
*
EDIT
SYSTEM
▼ ▲
INSERTERS
#-----------------
▼ ▲
2
INSERTERS
##----------------
#
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
SYSTEM 02
123456
222222
▼ ▲
*
*
ADDRESSING
INSERTERS
ON INSERTER 02
APPROACH KEY
▼ ▲
▼ ▲
STEP 2: Addressing the inserter
To assign an address to an inserter you need to:
1.
2.
3.
4.
Staying inside the
SYSTEM
With
▲ ▼
menu.
select
ADDRESSING INSERTERS
and press
*
.
The displays shows the inserter address which was not found on bus and which needs to be addressed.
Using a key (even one that you have not bought) approach the inserter to which you wish to assign the address which appears on the display
5.
6. and wait for the LED lights to flash slowly and for the buzzer to sound.
The display will show
INSERTER 02 OK
. Press
*
to continue.
If there are other inserters to address the procedure would restart from the beginning.
7. Press
#
to output and return to the previous menus.
*
INSERTER OK
PRESS */OK
ACQUIRING THE EXPANISION MODULE IN THE CONTROL UNIT
The input expansion module has, at a local level, address number 1 and the control units have no factory-activated expansions.
To set up control unit for expansion you need:
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
SYSTEM 02
123456
222222
▼ ▲
*
*
EDIT
SYSTEM
▼ ▲
INPUTS MODULES
------------------
INPUTS MODULES
#-----------------
#
▼ ▲
1
STEP 1: Activate input expansion in control unit
1. Enter user code (if less than 6 characters confirm with
*
).
2.
3.
4.
5.
Enter technical code to access technical menu.
With
With
▲
▲
▼
▼
select
SYSTEM
and press
*
select
EDIT SYSTEM
With
▲ ▼
select
INPUTS MODULE
.
.
and press
*
.
6. Press
1
to activate the expansion and add # on position 1 (# = activated, - deactivated).
7. Press
#
to output and return to the previous menus.
Address 1 is reserved for the control unit expansion module.
ACQUIRING INPUT EXPANSION MODULES ON BUS
The system cannot have input expansion modules on bus with same address.
All expansion modules are made with address 2 and the control units have no factory-activated expansion.
To set up control unit for expansion, you need to:
2.
STEP 1: Addressing the expansion
1. On the address you wish to assign set the expansion by acting on the
4 microswitches (Example address 2: ).
Address 1 is reserved for the control unit expansion module (PX8I).
Cut off and then restore power supply to the module.
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
SYSTEM 02
123456
222222
▼ ▲
*
*
EDIT
SYSTEM
▼ ▲
INPUTS MODULES
------------------
▼ ▲
2
INPUTS MODULES
-#----------------
#
STEP 2: Activating input expansion on bus
1. Enter user code (if less than 6 characters confirm with
*
).
2.
3.
4.
5.
Enter technical code to access technical menu.
With
With
▲
▲
▼
▼
select
SYSTEM
and press
*
select
EDIT SYSTEM
.
and press
*
.
With
▲ ▼
select
INPUTS MODULE
.
Press the number key for the expansion address which you need to 6. activate by adding
#
(# = activated. - deactivated).
7. Press
#
to output and return to the previous menus.
8. The communication LED light on the module bus starts flashing.
ACQUIRING OUTPUT EXPANSION MODULES ON BUS
The system cannot have output expansion modules on bus with the same address.
All expansions are made with address 1 and the control units have no factory-activated expansion.
To set up control unit for expansion, you need to:
STEP 1: Addressing the expansion
1.
2.
On the address you wish to assign set the expansion by acting on the
4 microswitches (Example address 1: ).
Cut off and then restore power supply to the module.
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
SYSTEM 02
123456
222222
▼ ▲
*
*
EDIT
SYSTEM
▼ ▲
OUTPUTS MODULES
------------------
▼ ▲
1
OUTPUTS MODULES
#-----------------
#
STEP 2: Activating input expansion on bus
1. Enter user code (if less than 6 characters confirm with
*
).
2.
3.
4.
5.
Enter technical code to access technical menu.
With
With
▲
▲
▼
▼
select
SYSTEM
and press
*
select
EDIT SYSTEM
.
and press
*
.
With
▲ ▼
select
OUTPUTS MODULE
.
Press the number key for the expansion address which you need to 6. activate by adding
#
(# = activated. - deactivated).
7. Press
#
to output and return to the previous menus.
8. The communication LED light on the module bus starts flashing.
ON BUS RADIO RECEIVER MODULE ACQUISITION
The system cannot have on bus radio receiver modules with the same addresses.
All expansions are made with address 1 and the control units have no factory-activated expansion.
To set up control unit for expansion, you need to:
STEP 1: Addressing the expansion
1.
2.
On the expansion, set the address that you want to assign by pressing the four microswitches (Example address 1: ).
Press the R button or cut off and then give back the power supply.
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
123456
222222
SYSTEM 02
▼ ▲
*
*
EDIT
SYSTEM
▼ ▲
RADIO MODULES
------------------
▼ ▲
1
RADIO MODULES
#-----------------
#
STEP 2: Enabling an on bus radio receiver
1. Enter user code (if less than 6 characters confirm with
*
).
2. Enter technical code to access technical menu.
3. With
4. With
▲
▲
▼
▼
select
SYSTEM
and press
*
select
MODIFY SYSTEM
.
and press
6. and add
#
(# = enabled, - disabled).
7. Press
#
to exit and return to previous menus
*
.
5. With
▲ ▼
select
RADIO MODULES
.
Press the number key for the expansion address you want to enable
8. The communication LED light on the module bus starts flashing.
10.5 Definition of system areas
The areas are integral parts of the system and that’s why they must be defined when programming.
Defining the areas serves to manage the state of “total start up” even using only three areas.
*
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
SYSTEM 02
EDIT
SYSTEM
123456
222222
▼ ▲
▼ ▲
STEP 1: Activating the areas
1. Enter user code (if less than 6 characters confirm with
*
).
2.
3.
4.
5.
Enter technical code to access technical menu.
With
With
▲
▲
▼
▼
select
SYSTEM
and press
*
select
EDIT SYSTEM
.
and press
*
.
With
▲ ▼
select
MANAGED AREAS
.
Press the number key for the area which you need to activate by 6. adding
#
(# = activated. - deactivated).
7. Press
#
to output and return to the previous menus.
*
MANAGED AREAS
##----------------
▼ ▲
3
MANAGED AREAS
###---------------
#
AREAS 04
▼ ▲
*
*
EDIT AREA 01
AREA 01
DESCRIPTION 01
AREA 01
▼ ▲
▼ ▲
* AREA 01
+=OK #=ESC
STEP 2: Modify description of areas
1.
2.
3.
4.
Staying within the Technical Menu.
With
▲ ▼
select
AREAS
and press
*
With
▲ ▼
select the
EDIT AREA 01
.
area and press
With
▲ ▼
select
DESCRIPTION
.
*
.
5. Use the alphanumeric keys ...
...
to edit text.
6. Press
*
to confirm and return to previous menus. Press
#
to cancel the change.
*
DAYTIME AREA
+=OK #=ESC
Example:
If you want to set up a system with three areas:
• Area 1 = DAY AREA
• Area 2 = BEDING AREA
You need:
*
EDIT
SYSTEM
MANAGED AREAS
##----------------
▼ ▲
EDIT AREA 01
AREA 01
▼ ▲
*
*
DESCRIPTION 01
AREA 01
AREA 01
+=OK #=ESC
▼ ▲
*
DAYTIME AREA
+=OK #=ESC
*
EDIT AREA 02
AREA 02
DESCRIPTION 02
AREA 02
▼ ▲
▼ ▲
*
AREA 02
+=OK #=ESC
*
NIGHTTIME AREA
+=OK #=ESC
10.6 Programming scenarios
Scenarios are collections of actions set by the installer which let Users, via keypad, inserter or telephone to:
• switch on/off areas
• activate / deactivate outputs
There are already some pre-configured factory-made scenarios (see chapter 10.3).
CREATING SCENARIOS
There is no need to create the same scenarios for each keypad or inserter. It is sufficient to create a single scenario and then associate it to various command organs.
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
222222
SCENARIOS 03
▼ ▲
1.
2.
3.
4.
STEP 1: Select scenario
Enter user code (if less than 6 characters confirm with
*
).
Enter technical code to access technical menu.
With
▲ ▼
select
SCENARIOS
and press
*
.
With
▲ ▼
select the scenario to create / edit
EDIT SCEN.XX means the scenario index) and press
*
.
(
XX
*
*
EDIT SCEN. XX
SCENARIO XX
▼ ▲
ACT. ON AREAS XX
TURN ON+OFF.EXACT
▲ ▼
+ -
STEP 2: Action on areas (not available on EASY mode)
Defines the action you want on the areas (switching on / off).
1.
2.
3.
Staying within the Scenarios Menu.
With
▲ ▼
select
ACTION ON AREAS
.
With
+ -
set the parameter to
TURN ON+OFF.EXACT
. It is the classic scenario we will use; lets you set the switching-on status on the control unit “exactly” as described by
ASSOCIATED AREAS
.
The selected areas will turn on and those deselected will turn off.
ASSOC. AREAS XX
------------------
ASSOC. AREAS XX
###---------------
▲ ▼
ACT ON OUTPUT XX
RESTRICTED
▲ ▼
ASSOC. OUTPUT XX
NO
▲ ▼
1 2 3
STEP 3: Associated areas
1.
2.
With
▲ ▼
select
ASSOCIATED AREAS
.
Press the numerical key for the address of the area you wish to set, then adding
#
(# = activated, - deactivated).
STEP 4: Actions on outputs (unavailable on EASY mode)
It defines the action on output (on / off) when scenario is brought up.
1.
2.
3.
Staying within the Scenarios Menu.
With
▲ ▼
select
ACTION ON OUTPUT
.
With
+ -
set the parameter to
DEACTIVATED
. Normally the scenarios comprise only three areas, if you need to activate an output, do the following: a. Set
ACT ON OUTPUT
to
ON
.
b. With c.
▲ ▼
select
ASSOC. OUTPUT
.
With
+ -
set the output you wish to activate.
*
DESCRIPTION XX
SCENARIO XX
SCENARIO XX
+=OK #=ESC
*
GOING OUT
+=OK #=ESC
STEP 5: Scenario description
1. Staying within the Scenarios Menu.
2. With
▲ ▼
select
DESCRIPTION
and press
*
3.
4.
.
Use the alphanumeric keys ...
... to edit text.
Press
*
to confirm and return to previous menus. Press
#
to cancel the change.
To create the
GOING OUT
scenario which then inserts all of the areas:
• Area 1 = DAY AREA
• Area 2 = NIGHT AREA
• Area 3 = PERIMETER
You need:
EDIT SCEN. 01
GOING OUT
*
AREAS ACTION 01
ON+OFF EXACT
ASSOC. AREAS 01
###
ACT ON OUTPUT 01
RESTRICTED
DESCRIPTION 01
GOING OUT
ASSOCIATING SCENARIO VIA KEYPAD
Each keypad can handle up to a maximum of 16 scenarios by using the i
A
,
B
,
C
keys (see user manual).
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
A
Key Scenario
B
Key Scenario
C
Key Scenario
Key 04 scenario
...
Key 16 scenario
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
123456
222222
KEYPADS 05
▼ ▲
* EDIT KEYPAD 01
KEYPAD 01
▼ ▲
*
*
SCENARIOS 01
*=EDIT LIST
SCENARIO A
GOING OUT
▼ ▲
+ -
SCENARIO B
GOING TO BED
▼ ▲
+ -
Setting a Keypad’ key to a (not available on SIMPLE programming mode)
1. Enter user code (if less than 6 characters confirm with
*
).
2.
3.
4.
5.
6.
7.
Enter technical code to access technical menu.
With
▲ ▼
select
KEYPADS
and press
*
.
.
With
▲ ▼
select the telephone to set and then press
*
.
With
▲ ▼
select
SCENAROS
and press
*
With
▲ ▼
select the
SCENARIO
key you wish to associate the scenario to.
With
+ -
you can set the scenario to launch (
NO
to deactivated the key).
8. Press
#
to output and return to the previous menus.
Example:
If you wish to set the following scenarios to keypad 1:
A
B
=
GOING OUT
Scenario (Area 1, Area 2 and Area 3)
• Key =
GOING TO BED
Scenario (Area 1 and Area 3)
C
= No scenario
You need to initially set the two
GOING OUT e
GOING TO BED scenarios ; then you need to associated the two scenarios to the keypad:
*
EDIT SCEN. 01
GOING OUT
AREAS ACTION 01
ON+OFF EXACT
*
EDIT SCEN. 02
GOING TO BED
AREAS ACTION 01
ON+OFF EXACT
*
EDIT KEYPADS 01
KEYPAD 01
SCENARIOS 01
*=EDIT LIST
▼ ▲
▼ ▲
ASSOC. AREAS 01
###
ASSOC. AREAS 01
#-#---------------
*
ACT ON OUTPUT 01
RESTRICTED
DESCRIPTION 01
GOING OUT
ACT ON OUTPUT 01
RESTRICTED
DESCRIPTION 01
GOING TO BED
SCENARIO A
GOING OUT
+ -
SCENARIO B
GOING TO BED
▼ ▲
+ -
SCENARIO C
NO
▼ ▲
+ -
ASSOCIATING SCENARIOS AND INSERTERS
Each inserter can handle up to a maximum of 3 scenarios - it selects, while switching on, one of the three LEDs (see user manual).
Scenario Led 3
Scenario Led 1
Scenario Led 2
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
123456
222222
INSERTERS 06
▼ ▲
*
*
EDIT INSERT. 01
INSERITORE 01
▼ ▲
SCENARIO L1 01
NO
+ -
SCENARIO L1 01
GOING OUT
▼ ▲
Associating inserter LED to scenario (unavailable on EASY mode)
1. Enter user code (if less than 6 characters confirm with
*
).
2.
3.
4.
5.
Enter technical code to access technical menu.
With
▲ ▼
select
INSERTERS
and press
*
.
With
▲ ▼
select the input to set and press
*
.
With
▲ ▼
select
SCENARIO L1
to set the scenario you wish to associate to LED 1 (otherwise select LED 2 or LED 3).
With
+ -
you set the scenario to launch (
NO
6.
to disable the LED light).
7. Press
#
to output and return to the previous menus.
Example:
If you wish to set one of the following scenarios to the inserter:
• Led 1 =
GOING OUT
scenario (Area 1, Area 2 and Area 3)
• Led 2 =
GOING TO BED
scenario (Area 1 and Area 3)
• Led 3 = no scenario
You need to initially set the two scenarios
GOING OUT inserter:
e
GOING TO BED
; then you need to associate the two scenarios to the
*
EDIT SCEN. 01
GOING OUT
AREAS ACTION 01
ON+OFF EXACT
ASSOC. AREAS 01
###
ACT ON OUTPUT 01
RESTRICTED
DESCRIPTION 01
GOING OUT
*
EDIT SCEN. 02
GOING TO BED
AREAS ACTION 01
ON+OFF EXACT
ASSOC. AREAS 01
#-#---------------
ACT ON OUTPUT 01
RESTRICTED
DESCRIPTION 01
GOING TO BED
EDIT INSERT. 01
INSERTER 01
▼ ▲
*
SCENARIO L1 01
GOING OUT
+ -
SCENARIO L2 01
GOING TO BED
▼ ▲
+ -
SCENARIO L3 01
NO
▼ ▲
+ -
10.7 Programming Inputs
08:23 16/05/10
ENTER CODE
123456
COMMAND WAITING
*=USER MENU
222222
INPUTS 11
▼ ▲
*
*
EDIT INPUTS XXX
INPUT XXX
▼ ▲
STATUS XXX
INSERTED
▼ ▲
+ -
+ -
TYPE XXX
ISTANTANEOUS
▼ ▲
BALANCING XXX
SINGLE BALANCE
▼ ▲
+ -
+ -
AREAS XXX
###---------------
▼ ▲
DESCRIPTION XXX
INPUT XXX
* SCENARIO XX
*=OK #=ESC
Basic input parameters
1.
2.
3.
4.
5.
6.
7.
8.
Enter user code (if less than 6 characters confirm with
*
).
Enter technical code to access technical menu.
With
With
▲
▲
▼
▼
select
INPUTS
and press
*
select
STATUS
to set with
+
.
With
▲ ▼
select the input to set and press
*
.
-
use of the
INSERTED input (or: excluded, in test).
With
▲ ▼
select
TYPE
to set with
+ -
the type of input
INSTANTANEOUS
(or: delayed, …).
With
▲ ▼
select
BALANCING
to set with
+ -
the type of balancing
With
▲ ▼
SINGLE BALANCE select
(or: NA, NC, …).
AREAS
to set the areas associated to the input
(use the numeric keys to select the areas; # =activated, -
9.
10. deactivated.
With
▲ ▼
select
DESCRIPTION
and, using the alphanumeric keys
▲ ▼
(right – left) you can edit the description.
With
▲ ▼
select
DESCRIPTION
and press
*
.
11. Use the alphanumeric keys ...
... to edit text.
12. Press
*
to confirm and return to previous menus. Press
#
to cancel the change.
13. Press
#
to output and return to the previous menus.
*
GOING OUT
*=OK #=ESC
Example:
Let’s say we have the following system with 5 inputs (one of which consists of shutters). In particular, we want to have the input to the house delayed and the input radar instantaeous is delayed only when the front door is opened.
Area 1 = DAY AREA
Area 2 = NIGHT AREA
Area 3 = PERIMETER
Kitchen shutter contact (Perimetral, istantaneous, shutter)
Bedroom radar
(Night area, istantaneous)
Living room radar
(Day area, istantaneous)
Front door cantact
(Perimetral, delayed)
EDIT ING. 005
KITCHEN WINDOW
*
STATUS 005
ENGAGED
Front door radar
(Day area, path)
EDIT ING. 001
BEDROOM RADAR
*
STATUS 001
ENGAGED
EDIT ING. 002
FRONT DOOR RADAR
*
STATUS 002
ENGAGED
TYPE 001
ISTANTANEOUS
BALANCING 001
SINGLE BALANC.
TYPE 002
PATH
BALANCING 002
SINGLE BALANC.
EDIT ING. 003
FRONT DOOR
STATUS 003
ENGAGED
TYPE 003
DELAYED 1
BALANCING 003
SINGLE BALANC.
*
EDIT ING. 004
LIVING ROOM RAD.
STATUS 004
ENGAGED
TYPE 004
ISTANTANEOUS
BALANCING 004
SINGLE BALANC.
*
TYPE 005
ISTANTANEOUS
BALANCING 005
SHUTTER
IMPULS.NUMB. 005
[1..15]NUMBER 02
IMPUL.INTERV. 005
[1..255] SEC 002
AREAS 001
-#-
DESCRIPTION 001
BEDROOM RADAR
AREAS 002
#--
DESCRIPTION 002
FRONT DOOR RADAR
AREAS 003
--#
DESCRIPTION 003
FRONT DOOR
AREAS 004
#--
DESCRIPTION 004
LIVING ROOM RAD.
AREAS 005
#--
DESCRIZIONE 005
KITCHEN SHUTTER
10.8 Learning radio inputs
08:23 16/05/10
ENTER CODE
WAITING COMMAND
*=USER MENU
123456
222222
*
INPUTS 11
▼ ▲
MODIFY INPUT XXX
INPUT XXX
*
▼ ▲
LEARN XXX
*=OK #=ESC
*
PRESS BUTTON
▼ ▲
STEP 1: Acquiring a new radio input
1. Enter user code (if less than 6 characters confirm with
*
).
2.
6.
Enter technical code to access technical menu.
3. With
5. With
▲
▲
▼
▼
select select
ENTRANCES
LEARN
and press
and press
*
.
4. With
▲ ▼
select which radio input to acquire and press
*
.
*
.
6. With the radio transmitter running on battery power press
7.
8. the learning button (see device manual).
7. The control unit memorises the new radio device (one was acquired previously, the new one supersedes the older one).
For multi-channel radio devices, you will need to define a channel to associate to the input (example: the radio contact features three channels: input 1, input 2 and magnetic contact). See device manual for available channels.
OK PRESS *
RADIO CHANNEL XXX
[1..03] NUMBER 01
▼ ▲
Example:
Installing a magnetic radio contact onto a window.
In sequence:
- Install a radio receiver module.
- Access to: Technical Menu ->
ENTRANCES
.
- Select which radio input to acquire (the order is first the wire inputs followed by the radio inputs).
- Select item
LEARN
and, by pressing the learning button, complete the acquisition. With already acquired receivers, the pressing the key activates the field intensity (on the receiver LED lights)
- If you wish to assign the magnetic contact’s radio channel to the input, select 3 on
RADIO CHANNEL
- Proceed to set the subsequent general parameters of the input.
.
10.9 Programming outputs
The four, control unit factory-set outputs are already programmed as follows:
INDEX
U1
U2
OUTPUT DESCRIPTION
TC output to abate the microwaves of the detectors when system is shut down, from a positive with partially shut down system or completely switched on.
System status, yields a negative is at least one area is switched on.
INDEX
U3
U4
RELE’
Relays 1 and 2 (relay 2 available only for
PROXINET 192), is activated during the alarm time.
OUTPUT DESCRIPTION
System ready, yields a negative if all inputs are closed.
Yields a negative when something is out of order.
If you need to change settings see output parameters in the technical menu.
10.10 Programming Telephone calls and SMS text messages (PSTN/GSM)
To set up the telephone calls, you need to:
• Program call priority.
• Program the numbers to call.
• Record the common message and that for any areas or inputs.
PROGRAMMING THE PSTN - GSM PRIORITY
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
123456
222222
OPTIONS 20
TELEPHONE
*
LINE PRIORITY
PSTN
▼ ▲
▼ ▲
To set in case of YES voice calls choose PSTN or GSM, do the following:
1. Enter user code (if less than 6 characters confirm with
*
).
2.
4.
Enter technical code to access technical menu.
3. With
▲ ▼
select
TELEPHONE OPTIONS
and press
*
With
▲ ▼
select
LINE PRIORITY
.
.
5. With
+ -
6. Press
#
select
GSM
or
PSTN
to show the chosen priority.
to output and return to the previous menus.
PROGRAMMING THE TELEPHONE NUMBERS
The following is the factory-setting for telephone numbers; simply program the telephone number to activate outgoing voice calls,
SMSs or to security.
Below, the factory settings (may be modified).
TELEPHONE
NUMBER
TYPE REPETITIONS
TYPE:
1..7
8..14
15
16
REPETITIONS:
ALARM:
SABOTAGE:
TECHNICAL:
BURGLARY:
ACC. / SPEGN.:
OUT OF ORDER:
CODES:
KEY:
VARIOUS:
COMMON MESSAGE:
VOICE
SMS
CONTACT-ID
CONTACT-ID
2
1
1
1 x x x x x x x x x x x x x x x x x x x
1
1
1
1 means whether the associated number will be reached by VOICE call, SMS text or or whether it is the security firm.
means the number of VOICE call attempts (press 5 on phone to interrupt or 0 to get the voice guide).
security alarm events.
sabotage attempts (tampering, breaking into, ...).
technical jobs.
burglary alarm events.
system switching on and off events.
malfunction events.
code entry events.
key insertion events.
generic events (see Technical Menu).
each voice call can be associated to one of the available messages (example: Rossi Family 21 National
Street, Milan.
To change events see the Technical Menu.
08:23 16/05/10
ENTER CODE
123456
COMMAND WAITING
*=USER MENU
222222
TELEPHONES 19
▼ ▲
*
*
TELEPHONE 01
TELEPHONE 01
▼ ▲
NUMERO TELEF. 01
▼ ▲
Per impostare i numeri telefonici occorre:
1.
2.
3.
4.
5.
6.
Enter user code (if less than 6 characters confirm with
*
).
Enter technical code to access technical menu.
With
With
▲
▲
▼
▼
select
TELEPHONES
and press
*
select
.
With
▲ ▼
select the telephone to set and then press
*
.
TELEPH. NUMBER
and press
*
.
Use the alphanumeric keys to edit the telephone number (
#
to cancel backwards).
7. Press
*
to confirm and return to previous menus.
8. Press
#
to output and return to the previous menus.
*
*=OK #=ESC
348xxxxxxx
*=OK #=ESC
*
TEL. NUMBER 01
348xxxxxxx
Example:
With the GSM interface you wish to set the telephone calls in the following way with PSTN priority:
• Dad 348xxxxxx1: make VOICE call due to sabotage alarm events; send SMS due to malfunctions
• Mom 348xxxxxx2: make a VOICE call due to sabotage alarm events.
• Security 049xxxxxxxx3 Security firm
If the factory settings are sufficient all you need to do is set:
*
OPTIONS 20
TELEPHONE
LINE PRIORITY
PSTN
▼ ▲
▼ ▲ *
TELEPHONE 01
DAD’S TEL. (VOICE)
TEL. NUMBER 01
348xxxxxx1
FORMAT 01
VOICE
▼ ▲
▼ ▲ *
TELEPHONE 08
PAPA’ (SMS)
TEL. NUMBER 08
348xxxxxx1
▼ ▲
FORMAT 08
SMS
▼ ▲
*
TELEPHONE 02
MOM’S
TEL. NUMBER 02
348xxxxxx2
▼ ▲
▼ ▲
FORMAT 02
VOICE
*
TELEPHONE 15
SECUTITY
TEL. NUMBER 15
049xxxxxx3
▼ ▲
▼ ▲
FORMAT 15
CONTACT-ID
RECORD COMMON VOICE MESSAGE FROM PC
To create a common message from PC you need to:
1.
2.
3.
Select “Common messages”.
Write out the text of the common message. If the text plays out greater than the limit, an error message is displayed and the text is coloured red.
Press play to check out audio of text; some words can be converted wrongly and words with wrong accents need to be corrected (for example the play out of the word “resumè” would be wrong, it should be re-written as “resume” without the accent.
RECORD VOICE MESSAGES ASSOCIATED WITH INPUTS, AREAS, OUTPUTS AND SCENARIOS FROM PC
To create a voice message associated to an input (similar procedure also for areas, outputs and scenarios from a PC, you need to:
1.
2.
3.
Select “inputs”.
Write out the text of the common message. If the text plays out greater than the limit, an error message is displayed and the text is coloured red.
Press play to check out audio of text; some words can be converted wrongly and words with wrong accents need to be corrected (for example the play out of the word “resumè” would be wrong, it should be re-written as “resume” without the accent.
SEND VOICE MESSAGES
To send modified voice messages to the control unit, you need to:
1.
2.
3.
4.
5.
The control unit must be completely shut down.
Open the programming window for the control unit.
Check the “Voice messages” item
Starting programming.
If parameter PROGRAMMING FROM PC is:
• WITH CONTROL UNIT OFF, launch programming.
• AFTER USER CODE, before strating programming you need to enter the user code.
10.11 Creating User Codes
The factory set 001 User Code is enabled and the password is 123456.
Below, the main factory settings (may be modified).
CODES STATUS
AREAS
ASSOCIATED
AUTHORISATION
1
2 ... n
ACTIVATED
DEACTIVATED
ALL
ALL
SWITCHING ON +
SWITCHING OFF
SWITCHING ON +
SWITCHING OFF
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
123456
222222
*
CODE 16
*
▼ ▲
USER CODE
▼ ▲
CODE 001 [#]
CODE 001
▼ ▲
CODE 002 [-]
CODE 002
*
▼ ▲
STATUS 002
DEACTIVATED
+
▼ ▲
STATUS 002
ACTIVATED
TELE CONTROL
FROM REMOTE
ACTIVATED
ACTIVATED
ACCESS USER
MENU
ACTIVATED
ACTIVATED
STEP 1: Enable new code
1. Enter user code (if less than 6 characters confirm with
*
).
2.
3. With
4.
5.
Enter technical code to access technical menu.
With
▲
▲
▼
▼
With
▲ ▼
select
CODES
and press
*
.
select
USER CODES
and press
*
.
6.
7.
With
▲ ▼
select the
USER CODE
to set and press
*
=activated,
[-]
=deactivated.
select
STATUS
.
The
+
activates it and the
–
deactivates it.
;
[#]
CODE 002 [#]
CODE 002
*
EDIT 002
USER CODE
*
▼ ▲
NEW CODE
******
▼ ▲
CONFIRM CODE
******
STEP 2: Set password
1. Remaining within the Code menu.
2. With
▲ ▼
select
CHANGE USER CODE
and press
*
3.
.
Enter the
NEW CODE using the numerical keypad (the code must be at least four characters) and press
*
to confirm.
4. If the code already exists the following text will appear
CODE UNACCEPTED
.
5. Repeat password to
CONFIRM CODE
using the numerical keypad
(the code must be at least four characters) and press
*
to confirm.
Example:
Following is a programming example depending on the User type.
Application example
AREAS
ASSOCIATED
AUTHORISATION
TELE CONTROL
FROM REMOTE
Owners
Employees
Cleaning firm
Access control
ALL
ALL
ALL
NO
SWITCHING ON +
SWITCHING OFF
SWITCHING ON +
SWITCHING OFF
SWITCHING ON ONLY
SWITCHING ON ONLY
ACTIVATED
NO
NO
NO
Passwords having the same number will not be accepted. Example 111111, 333333,....
10.12 Acquiring Keys
Because the keys are univocal from the factory there are no activated keys in the control unit.
Below, the main factory settings (may be modified).
KEYS
1..n
STATUS
DEACTIVATED
AREAS ASSOCIATED
ALL
ACCESS
USER MENU
ACTIVATED
ACTIVATED
NO
NO
AUTHORISATION
SWITCHING ON +
SWITCHING OFF
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
123456
222222
*
KEYS 17
▼ ▲
*
SELECT KEY
▼ ▲
*
KEY 001
KEY 001
LEARN CH. 001
*=OK #=ESC
#
KEY READING
PROCESSING ...
ACQUIRED
KEY
▼ ▲
*
STEP 1: Acquiring a new key
1. Enter user code (if less than 6 characters confirm with
*
).
2.
4.
5.
6.
7.
Enter technical code to access technical menu.
3. With
With
▲ ▼
.
With
▲ ▼
select the key you wish to acquire and press
*
.
With
▲
▲
▼
▼
select
KEYS
and press
*
select the
NEW KEY
and press
*
select
USER CODES
and press
*
.
.
Place the key to be read on inserter and wait for the LED to blink in confirmation of successful acquisition.
8. The keyboard shows the message
#
to continue.
ACQUIRED KEY
buzzer sound active. Press
9. Press
#
to output and return to the previous menus.
with
#
Example:
Following is the acquisition of two keys:
• key 001 with description KEY 001
• key 002 with description KEY 002
Once in the
TEHCNICAL MENU
go to
KEYS
, in
LEARNING KEY
and then select
KEY 001
.
Go to the inserter and start acquiring one at the time beginning from 001: first key
Following is a programming example depending on the User type.
Application example
Owners/employees
Cleaning firm
Access control
AREAS
ASSOCIATED
ALL
ALL
NO
AUTHORISATION
SWITCHING ON +
SWITCHING OFF
SWITCHING ON ONLY
SWITCHING ON ONLY second key
10.14 System test
FROM KEYPAD
It is important to test the system to prevent false alarms or unwanted malfunctions.
123456 08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
222222
SYSTEM 02
▼ ▲
* SYSTEM
TEST
▼ ▲
#
* INPUTS TEST
*=LAUNCH TEST
▼ ▲
TAMP.CENTR. TEST
*=LAUNCH TEST
▼ ▲
▼ ▲
BATTERY TEST XX
*=LAUNCH TEST
▼ ▲
SIRENS TEST
*=LAUNCH TEST
▼ ▲
BATT.CENTR. TEST
*=LAUNCH TEST
OUTPUTS TEST
*=LAUNCH TEST
INPUTS CLOSED
#=ESC
TAMPER CLOSED
#=ESC
CENTR.BATTERY OK
#=ESC
ALARM BATTERY OK
#=ESC
ALARM OUTPUTS
-OFF- *=ON #=ESC
OUTPUTS DESCR.
-OFF- *=ON #=ESC
ALARM OUTPUTS
>ON< *=OFF #=ESC
OUTPUTS DESCR.
>ON< *=OFF #=ESC
System test
1. Enter user code (if less than 6 characters confirm with
*
).
2. Enter technical code to access technical menu.
3. With
▲ ▼
select
SYSTEM
and press
*
.
4. With
▲ ▼
select
SYSTEM TEST and press
*
.
5. With
▲ ▼
select the parts of the system you wish check and press
*
.
6. Press
#
to output and return to the previous menus.
11 PC – Contol unit connection
Once finished with the system components definition part (previous chapters) you can move on to programing the control unit from either the keypad or the PC via direct or remote connection.
11.1 Locally Programming the RS-232
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
123456
222222
1.
2.
3.
STEP 1: Opening the control unit
Enter user code (if less than 6 characters confirm with
*
).
Enter technical code to access technical menu.
Open the control unit by loosening the apposite screws.
STEP 2: Placing the control unit in maintenance
To prevent alarms from being raised due to control unit tamper or due to possible programming errors, we suggest placing the control unit into maintenance mode.
1. Place the control unit into maintenance mode microswitch 1.
by raising
STEP 3: Connecting the to PC the control unit
1.
2.
Install the control unit programming software onto your PC.
Connect the control unit to the PC via a RS-232 standard cable
(direct male-female) or via a USB-RS232 cable.
STEP 4: PC setting (to do only once)
1.
2.
Set the control unit access password on the PC (the same as the technical 2222222 password which is already factory-set).
Set the serial communications COM.
08:23 16/05/10
ENTER CODE
COMMAND WAITING
*=USER MENU
123456
222222
CODES 16
▼ ▲
*
*
INSTALLER’S
TECHNICAL CODE
PROGRAM. FROM PC
WITH CENTR. OFF
▼ ▲
▼ ▲
STEP 5: Control unit setting (to do only once)
There are two ways to program the control unit:
• With control unit shut down.
• With control unit shut down after entering user code.
To set one of the two modes you need to:
1. Enter user code (if less than 6 characters confirm with
*
).
2.
4.
5.
6.
Enter technical code to access technical menu.
3. With
With
▲
▲
▼
▼
With
▲ ▼
select
CODES
and press
*
.
select
INSTALLER’S TECHNICAL CODE
and press
*
select
PROGRAM. FROM PC
.
With
+
and
–
edit the parameter:
.
•
WITH CONTROL UNIT OFF
, direct programming without entering user code with control unit off.
AFTER USER CODE
, programming only after entering • user code and with control unit shut down.
7. Press
#
to output and return to the previous menus.
STEP 6: Starting up programming
1.
2.
3.
The control unit must be completely shut down.
If parameter
PROGRAMMING FROM PC
is:
•
WITH CONTROL UNI OFF
, launch programming.
•
AFTER USER CODE
, before starting programming you need to enter the user code.
Open the programming window, select the parameters you want to use and press launch writing.
Warning: the control unit is running in Autobauding and could require several seconds to synchronise.
STEP 7: Making operational and shutting down the control unit
Once maintenance is finished restore the system to operational mode.
1. Enter the technical menu.
2. Place the control unit into operational mode by lowering microswitch 1.
3.
4.
Shut down the control unit.
Exit the technical menu.
12 Restore system
Restoring parameters is irreversible and cancels the entire programming.
Restoring paramenters does not erase events from memory.
restore the control unit completely you need to do both factory settings as well as restore the codes.
12.1 Restoring codes and keys
Factory settings for codes and keys is:
CODES
1
2 ... n
STATUS
ACTIVATED
DEACTIVATED
PASSWORD
123456
Undefined
AREAS
ASSOCIATED
ALL
ALL
AUTHORISATION
SWITCHING ON +
SWITCHING OFF
SWITCHING ON +
SWITCHING OFF
Tutti i codici vengono resettati; il codice 1 viene impostato a: 123456
KEYS
1 ... n
STATUS
DEACTIVATED
AREAS ASSOCIATED
ALL
TELE CONTROL
FROM REMOTE
ACTIVATED
ACTIVATED
ACCESS USER
MENU
ACTIVATED
ACTIVATED
AUTHORISATION
SWITCHING ON + SWITCHING
OFF
All keys are reset.
To restore factory settings codes, you need to:
STEP 1: Setting the micro switches
1. Set micro switch 2 to ON.
12.2 Factory settings
08:23 16/05/10
ENTER CODE
STANDING BY
*=USER MENU
123456
222222
DEFAULT 26
PARAMETERS
*
DEFAULT PARAM.?
*=YES #=ESC
▼ ▲
ARE YOU SURE?
A=YES #=ESC
DEFAULT PARAMET.?
RUNNING
A
*
RESTORE CODES?
*=YES #=ESC
ARE YOU SURE?
A=YES #=ESC
RESTORE CODES
EXECUTING
A
* RESTORE KEYS?
*=YES #=ESC
ARE YOU SURE?
A=YES #=ESC
RESTORE KEYS
EXECUTING
A
INITIALIZATION
INITIALIZATION
RUNNING
STEP 2: start up the control unit again
1.
2.
Press the small P1 button for start up again the control unit.
On keypad appares
INITIALIZATION
(remaining on display for
10”).
STEP 3: Restoring the micro switch
1.
2.
3.
Set micro switch 2 to OFF.
On keypad appares system status.
INITIALIZATION RUNNING
.
Once start up is finished the control unit goes back to seeing the default parameters don’t delete codes or keys already in memory. To delete this items it’s necessary to enter in the specific menu.
To set all the devices to the default parameters do as follow:
1. Enter user code (if less than 6 characters confirm with
*
).
2. Enter technical code to access technical menu.
3. With
▲ ▼
select
DEFAULT PARAMETERS
and press
*
.
4. Con
A
confirm or
#
to cancel.
Notes
13 Declaration
MANUFACTURER’S STATEMENT
As per Low Voltage Directive 2006/95/CE
BPT SpA a socio unico
Head and Registered Office
Via Cornia, 1/b – 33079 – Sesto al Reghena (PN) - Italy http://www.bpt.it – mailto:[email protected]
Declares under its own responsibility that the following products for security alarm units:
PROXINET 36 - PROXINET 76 - PROXINET 192
… comply with essential requisites and dispositions, given by the following Directives and applicable Regulations listed below.
--- DIRECTIVES---
2006/95/CE
2004/108/CE
1999/05/EC
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Key Features
- Connect up to 255 devices via RS-485 bus
- Optional backup kit can power peripherals for 48 hours or indefinitely
- Voltage protection for each loop, enhancing system reliability
- Wall mountable for easy installation
- Easy-to-use interface for quick setup and operation
- Compatible with a wide range of security devices, including sensors, detectors, and alarms
- Expandable system allows you to add additional devices as needed
- Programmable to meet your specific security needs
Frequently Answers and Questions
How many devices can I connect to the Bra Proxinet 36-76-192?
Can I use the Bra Proxinet 36-76-192 to power my security devices?
Is the Bra Proxinet 36-76-192 easy to install?
Related manuals
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Table of contents
- 6 TRADITIONAL CABLING (enter - output)
- 6 BRANCHED-OUT CABLING
- 7 DOUBLE-BRANCH CABLING
- 8 BUS AMPLIFIER CABLING
- 9 APPLICATIVE NOTES ON CABLING OF THE RS-485 BUS
- 9 CHOOSING THE CABLE SECTION FOR THE RS-485 BUS
- 15 230 Vac
- 16 BATTERY
- 16 TAMPER
- 17 BUS RS-485
- 17 INPUTS
- 17 U1 PROGRAMMABLE OUTPUT (positive)
- 17 U2, U3, U4 (Open Collector) PROGRAMMABLE OUTPUTS
- 18 GENERAL ALARM RELAY OUTPUTS RELAY 1 - RELAY 2
- 18 PSTN TELEPHONE LINE
- 18 LANGUAGE UPDATE BOARD PXLNG for control unit
- 20 KEYPAD DISPLAY
- 20 LIGHT WARNINGS
- 21 ALPHANUMERIC KEYPAD
- 23 LIGHT WARNINGS
- 23 ACCEPTANCE
- 23 CHECK KEY
- 24 FEATURES
- 24 CARD DESCRIPTION
- 24 INSTALLING
- 24 FEATURES
- 25 CARD DESCRIPTION
- 25 ADDRESSING
- 25 FEATURES
- 26 CARD DESCRIPTION
- 26 ADDRESSING
- 26 FEATURES
- 27 DESCRIPTION OF BOARD
- 27 ADDRESSING
- 28 INSTALLATION
- 28 CARD DESCRIPTION
- 28 INSTALLING
- 29 PRELIMINARY CHECKS
- 29 SYSTEM UNDERGOING MAINTENANCE / OPERATIONAL
- 29 CHANGE CONTROL UNIT LANGUAGE
- 29 CONTROL UNIT POWER ON
- 29 OPENING/CLOSING THE CONTROL UNIT
- 30 ALPHANUMERIC KEYPAD
- 30 ACCESSING THE TECHNICAL MENU
- 30 SELECTING NUMBERS GREATER THAN 9
- 31 EASY MODE
- 31 NORMAL MODE
- 32 ADVANCED MODE
- 32 ACQUIRING KEYPADS
- 33 ACQUIRING INSERTERS
- 33 ACQUIRING THE EXPANISION MODULE IN THE CONTROL UNIT
- 34 ACQUIRING INPUT EXPANSION MODULES ON BUS
- 35 ACQUIRING OUTPUT EXPANSION MODULES ON BUS
- 36 ON BUS RADIO RECEIVER MODULE ACQUISITION
- 38 CREATING SCENARIOS
- 40 ASSOCIATING SCENARIO VIA KEYPAD
- 41 ASSOCIATING SCENARIOS AND INSERTERS
- 44 PROGRAMMING THE PSTN - GSM PRIORITY
- 44 PROGRAMMING THE TELEPHONE NUMBERS
- 45 RECORD COMMON VOICE MESSAGE FROM PC
- 46 RECORD VOICE MESSAGES ASSOCIATED WITH INPUTS, AREAS, OUTPUTS AND SCENARIOS FROM PC
- 46 SEND VOICE MESSAGES
- 49 FROM KEYPAD