Ness IVY Installation Manual

Page 1
Innovative Electronic Solutions
Ness IVY
Self-Powered Siren for Outdoor Use
INSTALLATION & PROGRAMMING MANUAL
Page 2
2
Table of contents
Table of contents. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Chapter 1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . 3
1-1 Manufacturer’s Details . . . . . . . . . . . . . . . . . . . . . . . . . 3
1-2 Manual details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
1-3 Product description and models . . . . . . . . . . . . . . . . . . . 4
1-4 Box contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
1-5 Technical description . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Chapter 2 Installation . . . . . . . . . . . . . . . . . . . . . . . . . 7
2-1 Installation guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . 7
2-2 Wiring the device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
2-3 Battery connections . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Chapter 3 Activation methods . . . . . . . . . . . . . . . . . . . 10
3-1 Types of signal. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
3-2 Managing multi-alarm conditions . . . . . . . . . . . . . . . . . . 11
Chapter 4 Signalling . . . . . . . . . . . . . . . . . . . . . . . . . . 12
4-1 Types of signalling . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
4-2 Tamper memory and fault signalling . . . . . . . . . . . . . . . . 13
Chapter 5 Programming . . . . . . . . . . . . . . . . . . . . . . . 14
5-1 The Programming steps . . . . . . . . . . . . . . . . . . . . . . . . 14
5-2 Programming Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
5-3 Programming from a PC . . . . . . . . . . . . . . . . . . . . . . . . 17
Appendix A Order codes . . . . . . . . . . . . . . . . . . . . . . . . 20
Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Limited warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Copyright . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Directive 2004/108/CE (EMC) compliance. . . . . . . . . . . . . . 23
Page 3
All rights reserved. No part of this publication may be reproduced, transmitted or stored in a retrieval system in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of Ness.
Ness reserves the right to make changes to features and specications at any time without prior notication in
the interest of ongoing product development and improvement.
© 2014 Ness Corporation Pty Ltd ABN 28 069 984 372
3
IVY SIREN Installation & Programming Manual
Document Part Number: 890-450
www.nesscorporation.com
National Customer Service Centre Ph: 1300 551 991 customerservice@ness.com.au
Page 4
Overview 3
Installation and Programming manual
Chapter 1
OVERVIEW
The IVY series offers a range of self-powered sounder/flashers especially designed to allow maximum outdoor-installation flexibility.
The on-board microprocessor monitors the device parameters and assures high-reliability and first-rate performance. A voltage-free­relay manages tamper signals and allows full-integration with every type of system, while a fault output allows remote-management of fault conditions.
Optimized flexibility allows you to choose the most suitable wiring method (activation and signalling using 2 or 3 wires, etc.), and ready-to-go factory settings (refer to Table 7 "Programming Menu") ensure fast and easy installation with few or even no setting adjustments.
Ness Corporation also offers Ivy unit units which can be connected to SmartLiving intrusion control panels via I-BUS (for remote programming and management purposes), thus providing first rate security-system customization capabilities.
1-1Suppliers Details
Suppliers: Ness Corporation Address: 4/167 Prospect Hwy
Seven Hills, NSW, 2147, Australia
Tel.: +61 2 8825 9222
e-mail: customerservice@ne
ss.com.au
Web: www.nesscorporation.com
ATTENTION!
Any persons authorized by the manufacturer to repair or replace any part of this device hold authorization to work on Ness
Corporation devices only.
1-2Manual details
Issue: 2.70 Month and year: March 2014 Code: DCMIINE0IVY
Page 5
4 Overview
Installation and Programming manual
1-3Product description and
models
Description: Self-powered outdoor sounder/flasher Year of production: 2014 Applied Normative: CEI 79-2:1998+Ab:2000 (level 2) Certification agency: IMQ
1-4Box contents
Inside the box you will find:
IVY Sounder/Flasher
2 securing screws for the metal guard
Table 1:
Models
Name Description
Ivy-F Standard model with foam-tamper protection
Ivy-BF BUS connectable model with foam-tamper protection
Table 2:
Operating features
Features
Ivy-FIvy-
BF
Power and alarm input
* *
Programmable input-polarity (
START/STOP
)
*
Programmable ancillary-signal input (
LED
)
* *
Signal output with programmable polarity (
FAULT
)
* *
Tamper signal relay with programmable polarity
* *
Super bright LED-technology flasher with high-power driver
circuit
* *
Blow torch protection
* *
Magneto-dynamic horn with automatic function control
* *
Dislodgement and Open-casing protection
* *
Metal guard inside
* *
4 tone sounder
* *
“Squawk” tone
*
Programmable sound-output time
*
Programmable volume
*
Programmable flasher sequence
* *
Programmable flasher time
*
Backup battery with test circuit
* *
Houses 12V, 2.1 Ah backup battery
* *
IP34 Rated
* *
CEI 79-2:1998 and 79-2/Ab:2000 compliant (level 2)
* *
Foam protection
* *
Chrome-look casing
Ancillary alarm input (
START
)
*
Stop alarm and alarm-immunity input (
STOP
)
*
Inputs D and S for I-BUS connection
*
Direct control via SmartLiving intrusion-control panel*
*
SmartLiving intrusion-control panel activation of
LEDs:
STATUS
and
PRG
*
SmartLiving intrusion-control panel activation of
outputs:
TAMPER
and
FAULT
*
Page 6
Overview 5
Installation and Programming manual
2 securing screws for the plastic casing
5 wall plugs for mounting the backplate and tamper bracket
Drilling pattern
Installation and Programming manual
Programming Table
1-5Technical description
Table 3:
Description of parts
A Programming button (PAGE) B Programming button (SEL) C Magneto-dynamic horn D Battery housing E Battery wires F Terminal board G LED flasher - left group H LED flasher - right group
I Foam protection
J Blow-torch protection K Dislodgement/Open tamper protection L Wire entry
M Wall-plug locations N Tamper-screw location O Metal-guard screw locations
P External-casing screw locations
Q STATUS LED - Red LED
R PRG LED - Green LED S Magneto-dynamic horn connector T External casing in plastic
U Casing hinges
V Metal guard
Table 4:
Terminal board
no.
icon/ name
Description
1 +
Positive power terminal supports 13.8V
2 -
Negative power terminal
3
START
D
Ancillary terminal with programmable polarity
for alarm activation
Input D for I-BUS
4
STOP
S
"Stop Alarm" terminal, with programmable
polarity for alarm deactivation.
Input S for I-BUS
5 LED
Input for audible/visual signalling activation
6 FAULT
Open-collector output for fault signalling
I max = 100 mA
7
TAMPER
Voltage-free terminals of the relay
8
E
Q G H R
B
F
J
K
S
A
I I I
Page 7
6 Overview
Installation and Programming manual
CEI 79-2 LEVEL 2 CERTIFICATION
The compliance with CEI 79-2 level 2 is valid only if the installer does as it follows:
the siren is installed as indicated in this manual
the alarm sound is set to “Sound 1”, at the maximum volume
the alarm status is activated by mains failure, or by a START input signal, positive or negative removed, or by alarm signal via bus (this option is possible only for bus versions).
C
D
G H
I
K
L
M
M
M
M
N
O
O
P
P
U
U
Table 5:
Technical specifications
Operating voltage
nominal
13.8 V
maximum
14.0 V
minim
13.2 V
Minimum current draw
15 mA
Maximum current draw from panel
150 mA
Maximum current draw from
battery
900 mA
Sounder output (l=3m)
104 dB(A)
Carrier frequency
1148 Hz
Flash rate per minute
(programmable)
36 - 46 - 56
Maximum alarm-time
(programmable)
3 - 6 - 9 min
Protection class
IP34
Performance level (CEI 79-2)
2
Operating temperature
-25 to +55 °C
Backup battery
12V - 2.1Ah
Dimensions (W x H x D)
21 x 29 x 9.5 cm
Weight (without battery)
2.2 Kg
G
H
O
O
P
P
P
T
P
V
U
U
Page 8
Installation 7
Installation and Programming manual
Chapter 2
INSTALLATION
The Ivy unit should be mounted high up on a smooth surface, in such way that it is out of reach but on view and, therefore, may serve as a visible deterrent against break-in.
2-1Installation guidelines
1. Remove all electrical power.
2. Open the bottom-hinged casing (Table 3, U).
3. Remove the metal guard (Table 3, V).
4. Pull the connection wires through the cable entry (Table 3, L).
5. Using the wall plugs, attach the plastic backplate to the wall (Table 3, M). The wall plug locations are clearly marked on the drilling-pattern (included).
6. Insert the tamper-protection screw into its location (Table 3, N).
7. Locate the battery in its housing (Table 3, D), then connect it by means of the battery wires (Table 3, E). Ensure that the battery polarity is correct.
8. Complete the device wiring. During this phase, the STATUS LED will blink at 1 second intervals.
9. Configure the device.
Note
If the factory default settings suit the installation requirements, device configuration will be unnecessary.
10. Replace the metal guard and the plastic casing. The STATUS LED will blink at 0.5 second intervals.
11. Powerup the device. The STATUS LED will go On (solid) for 10 seconds. The LED will go Off when the Ivy unit enters the ope­rating phase (standby). If the Ivy unit is connected via I-BUS, the PRG LED will signal the BUS status for 60 seconds:
- LED On solid = the BUS is not connected.
- LED blinking at 1 second intervals = the I-BUS is working but the Ivy unit has not been enrolled on the intrusion control panel.
- LED blinking at 0.2 second intervals = the I-BUS is working and the Ivy unit has been enrolled on the intrusion control panel.
2-2Wiring the device
The following paragraphs describe the various ways of connecting the Ivy unit to an intrusion control panel (in particular to a Ness SmartLiving intrusion-control panel as supplied by Ness Corporation
All connections involve the terminals on the motherboard (Table 3, F). Each terminal can be configured separately during the programming phase.
Page 9
8 Installation
Installation and Programming manual
2 WIRE CONNECTION
This standard wiring method activates the alarm signal by means of a positive-power-removed signal.
4 WIRE CONNECTION
This wiring method activates signalling via the START terminal and deactivates it via the STOP terminal. The polarity of both inputs is programmable.
The sounder/flasher is activated by an open-collector output (on the intrusion control panel). By means of a second open-collector output, you can deactivate alarm signals and disable (block) the sounder/flasher from the intrusion control panel, for example, during maintenance sessions.
I-BUS CONNECTION
Only the Ivy-BF, can be connected to the I-BUS connections on the Ness SmartLiving Series panels. This connection allows you to program the device and activate alarm-signalling directly from the panel.
In addition, connection of the I-BUS wire to terminal "+", provides a power source which enables the Ivy unit to activate alarm-signalling (in accordance with its programmed parameters) in the event of wire-cutting tamper.
Each time the SmartLiving panel resets the BUS and restarts the connected peripherals, the Ivy unit will run a 60-second status check on the BUS, as described in paragraph 2-1 Installation guidelines.
Page 10
Installation 9
Installation and Programming manual
EXTRA CONNECTIONS
Connection of the LED terminal to an open-collector output, will allow management of the STATUS and PRG LEDs, flasher and horn directly from the intrusion-control panel (as programmed).
Connection of the FAULT and TAMPER outputs to a terminal on the intrusion control panel allows signalling of the associated events. This function allows fault and tamper signals to be transmitted without activating the visual-signalling components.
2-3Battery connections
This device requires a 12V, 2.1Ah battery (not included), which must be connected by means of the respective wires (Table 3, E) . Take care to respect the battery polarity during the installation phase (red=positive; black=negative).
The battery-efficiency test will run 60 minutes after installation and every 10 minutes thereafter. In the event of an alarm, the battery test will be delayed by 60 minutes.
Failure of the battery-efficiency test will generate the respective signal (Table 6, Battery inefficient). If the battery voltage drops below 11V during an alarm event, the horn will deactivate automatically, however, all other signalling will continue until the voltage drops below 10V.
All functions will be re-established when the battery voltage restores to 12V.
Page 11
10 Activation methods
Installation and Programming manual
Chapter 3
ACTIVATION METHODS
The Ivy unit can be triggered by signals from the panel, depending on the wiring method used and also by events generated by the Ivy unit itself.
signalling will cease when one of the following conditions occurs:
the alarm condition clears;
the maximum alarm time expires (in this case, only the audible signalling will cease);
the STOP signal activates.
If, during an active alarm, the maximum audible-alarm time expires (Table 7, Max. duration of audible signalling), audible signalling will cease but visual signalling will continue until the trigger condition clears.
3-1Types of signal
SOUNDER/ FLASHER EVENTS
The Ivy unit processes the signals it picks up and then generates the respective events (which can be associated with one or more signals).
The Ivy unit can generate the following events:
Power failure
Low battery
Battery inefficient
Open casing
Device dislodgement
Foam tamper (or similar) in the horn
Blow torch tamper
Horn damage
I-BUS loss
Note
The audible and visual signalling triggered by “open casing”, “foam tamper” and “blow torch tamper” events will clear after 30s, or immediately on receiving the STOP signal.
Note
The event "Open casing" of a Ivy connected by BUS unit does not trigger audible signalling when the connected anti-intrusion control panel is in "Programming" mode.
MAINS FAILURE
This signalling method is widely applied as it ensures intrinsic protection against wire-cutting. This activation method triggers audible and visual signals (sounder and flasher) when the primary mains power fails.
Page 12
Activation methods 11
Installation and Programming manual
START INPUT
The START ancillary input is completely programmable, therefore, it can activate the sounder/flasher by means of either positive signals (Applied/Removed) or negative signals (Applied/Removed).
STOP INPUT
The STOP signal allows you to force the Ivy unit to standby status thus blocking all signalling. Once this signal is removed, the device will restart the evaluation process and if the alarm conditions are still active, it will trigger the respective signals.
Note
Although the STOP input is fully programmable, the manufacturer strongly recommends an “applied” signal configuration rather than a “removed” signal configuration, in order to avoid the risk of disablement in the event of wire cutting.
LED INPUT
This input (activates when connected to negative) operates as an ancillary channel which the panel can use to activate any type of signal, in accordance with the configuration of the Ivy unit.
I-BUS
All I-BUS related activations must be programmed via the intrusion
-control panel. Panel events are capable of generating signalling
directly on the sounder/flasher, without activating terminals or outputs.
Each event is capable of sending 8 programmable patterns to one or more Ivy-B sounderflashers configured in the control panel “Outputs” or “Other outputs”.
Ivy-B sounderflashers can be deactivated from the control panel using the previously mentioned conditions and also by means of the “Stop alarms” shortcut, when the control panel is in maintenance status with the appropriate disarm scenarios, or with the events associated with the 5 possible “Causes of cut off” (refer to paragraph 5-3 Programming from a PC).
3-2Managing multi-alarm
conditions
There is no priority amongst the various signals. If the Ivy unit detects signals, it will activate the programmed signalling cycle and, in the event of concurrent activations, add on the respective signals.
Restoral of a detected signal annuls the respective alarm cycle automatically, but it does not annul alarm cycles relating to other signals. The Ivy unit will restore to standby status when all alarm conditions cease.
Page 13
12 Signalling
Installation and Programming manual
Chapter 4
SIGNALLING
The Ivy unit provides various signals: audible, visual, activation of the FAULT and TAMPER outputs (connectible to the intrusion-control panel).
Each signal type can be programmed separately, combined with other signals, or deactivated.
4-1Types of signalling
VISUAL SIGNALLING
The super-bright flasher uses new-generation Light Emitting Diode technology which provides maximum visual-signal clarity with extra­low power consumption. The flasher circuit is divided into two groups, the left group (Table 3, G) and the right group (Table 3, H). This type of circuitry allows you to select the options on the Programming menus.
STATUS LED PRG LED
The two ancillary LEDs, reveal the device status and guide you through the programming operations (STATUS LED - Table 3, Q; PRG LED - Table 3, R). These can be activated by the control panel events, using SmartLeague software programme (refer to paragraph 5-3 Programming from a PC).
These two LEDs, if suitably programmed, will signal device faults and tamper events, for details refer to paragraph 4-2 Tamper memory and fault signalling.
AUDIBLE SIGNALLING
The magneto-dynamic horn provides a choice of 4-tones, which can be programmed with a maximum alarm time and assigned to indicate different alarm types.
Ivy units, connected via I-BUS to the intrusion-control panel, provide a choice of 5 tones with programmable duration and volume options.
FAULT OUTPUT
Open-collector output with 100mA maximum current draw capacity. During the programming phase, it is possible to select the standby status (Normally open or Normally closed) and assign the events.
TAMPER OUTPUT
The voltage-free relay can be used to signal tamper conditions to external devices. During the programming phase, it is possible to select the standby status (Normally open or Normally closed) and assign the events.
Page 14
Signalling 13
Installation and Programming manual
4-2Tamper memory and
fault signalling
The STATUS and PRG LEDs provide visual signalling of horn faults and tamper memory by emitting a series of fast blinks (at 0.5 second intervals). This visual signalling phase lasts for approximately 5 seconds after which, the LEDs emit slow blinks (duration of 1 second) which signal the type of fault or tamper.
If several conditions are detected simultaneously, both LEDs are capable of signalling the events consecutively.
The following table shows the various event types and how they are signalled on the LEDs (the number of slow blinks which signal the type of event concerned and the related Programming-menu option which will allow you to enable/disable the respective signalling capacities:
Fault signalling will stop automatically when the cause of the fault clears.
Tamper memory signalling will clear only after two consecutive alarm events.
Table 6:
Fault and tamper signalling
LED
Number of
blinks
Event
Menu options
Number Option
STATUS
1
Faults
Horn trouble 13
2 Low battery 14
3 Battery inefficient 14
PRG
1
Tamper memory
Power failure 9
2 Open casing 10
3 Foam tamper 11
4 Blow torch tamper 12
3 2 1 0
3 2 1 0
3 2 1 0
3 2 1 0
3 2 1 0
3 2 1 0
3 2 1 0
Page 15
14 Programming
Installation and Programming manual
Chapter 5
PROGRAMMING
The programming session cannot begin until after first startup, therefore, it is necessary to ensure that:
all power sources to the Ivy unit (mains and battery) are disconnected;
the tamper protection is open;
the Intrusion control panel will allow you to work on the Ivy unit without generating alarms (for example; put the intrusion­control panel in Programming status).
The Programming menu allows you to program and change the device configuration. Access to programming is indicated by blinking on the LEDs (STATUS LED , left flasher, right flasher and PRG LED). The PAGE button (Table 3, A) allows you to access the menus.
5-1The Programming steps
1. Remove the cover.
2. Powerup the device; the STATUS LED will blink at 1 second intervals. The device will exit the programming phase and step back to this point if no command is received within the allowed time.
3. Press and hold the PAGE button until the STATUS LED goes Off.
4. Use the PAGE button to move to the different options on the menu The LED combination (the LEDs which blink) identifies the option concerned.
5. Press the SEL button (Table 3, B), to select the required option. The LED combination (the LEDs which are On solid) indicates the current setting of the option concerned.
6. To change a setting, press the SEL button again until the LED combination indicates the desired setting.
7. The PAGE button will allow you to select the desired menu.
8. To exit the Programming session, wait 20 seconds (do not press any buttons); the LEDs will blink to signal that the ses­sion has ended. If you wish to exit without saving, select “0” from the menu.
9. To complete the installation phase, work through the steps indicated in paragraph 2-1 Installation guidelines from point
10.
3
Visual signalling
2 1 0
left right
LED
STATUS
LED
PRG
Page 16
Programming 15
Installation and Programming manual
5-2Programming Menu
The following table shows, under the caption “Menu”, all the options on the Programming menu and their respective LED combinations:
*: Options present on I-BUS- connectable Ivy models only **: When this option is enabled, the STATUS LED becomes ON solid
Table 7:
Programming Menu
Menu Options
Num.
LED
combinations
Options
0
Exit without
saving
/ / / / Exit
Address *
+ 8 + 4 + 2 + 1 /
1
START Input
Negative
applied
Positive
applied
Negative removed
Positive
removed
Deactivated
Signal loss
duration
I-BUS *
+ 8 minutes + 4 minutes + 2 minutes + 1 minutes Deactivated
2
STOP Input
Negative
applied
Positive
applied
Negative removed
Positive
removed
Deactivated
I-BUS
lost *
FAULT
Output
TAMPER
Output
Visual
signalling
Sounder Deactivated
3
Audible
signalling
Tone 4 Tone 3 Tone 2 Tone 1 /
4
Max. duration
of audible signalling
** 9 minutes 6 minutes 3 minutes /
5
Flashes
Blinking on
the LEDs of
the LED Input
50 flashes/
minute
42 flashes/
minute
33 flashes/
minute
/
6
Outputs:
TAMPER and
FAULT
TAMPER
normally
closed
TAMPER
normally
open
FAULT
normally
closed
FAULT
normally
open
/
7
Activation of
the START
input
LED
STATUS
LED PRG
Visual
signalling
Sounder Deactivated
(empty) *
/ / / / /
8
Activation of
the LED input
LED
STATUS
LED PRG
Visual
signalling
Sounder Deactivated
9
Power failure
FAULT
Output
TAMPER Output
PRG LED
Visual
signalling
Sounder Deactivated
10
Open-casing
signal
FAULT
Output
TAMPER Output
PRG LED
Visual
signalling
Sounder Deactivated
11
Foam tamper
signal
FAULT
Output
TAMPER Output
PRG LED
Visual
signalling
Sounder Deactivated
12
Blow-torch
tamper signal
FAULT
Output
TAMPER Output
PRG LED
Visual
signalling
Sounder Deactivated
13
Horn trouble
FAULT
Output
TAMPER
Output
/ STATUS LED Deactivated
14
Battery fault
FAULT
Output
TAMPER
Output
STATUS LED
(low battery)
STATUS LED
(battery
inefficient)
Deactivated
15
Restore
default
Default
Exit
3 2 1 0
3 2 1 0
3 2 1 0
3 2 1 0
3 2 1 0
3 2 1 0
Page 17
16 Programming
Installation and Programming manual
0 - PRG LED
1 - Right LEDs on flasher circuit
2 - Left LEDs on flasher circuit
3 - STATUS LED
- LED Off
- LED On solid
- LED blinking
Instead (under the caption “Options”), the programmable settings for each item, highlighted on a grey background ( ) are the options enabled at default.
The following section describes the menu options.
0 -
Exit without saving
; when you come to this option, wait 20 seconds for the device to exit the programming phase without saving.
-
Sounderflasher address on BUS; the following table shows the correlation between the LED combinations and the soun­derflasher address:
1 -
START input
; allows you to select the polarity of the START
input.
-
I-BUS Loss delay; allows you to select the time (15 minutes at default) which must pass before the loss of the I-BUS is signaled.
2 -
STOP input; allows you to select the polarity of the STOP input.
-
BUS Loss; allows you to select the type of signalling associa­ted with the loss of the I-BUS.
3 -
Audible signalling; allows you to select the type of sound emitted by the horn.
4 -
Maximum audible-signal time; allows you to select the maximum time the horn will sound for, after which only other types of signalling will continue until the Ivy unit restores to standby.
5 -
Visual signals; the first option allows blinking on the STATUS and PRG LEDs activated by the LED input; the other options allow you to select the visual signal on the flasher.
6 -
TAMPER and FAULT Outputs
; allows you to select the type of contact (normally open or normally closed) of the outputs during standby status.
7/8 -
START/LED Input Activation; allows you to select the signalling associated with the activation of this input.
9/14 -
Power failure; Open-casing tamper; Foam tamper,
Blow-torch tamper; Horn damage; Battery fault; allows
you to select the signalling associated with the event.
15 -
Restore Default / Address; if you select the option with "all LEDs On solid", the current programming will restore to fac­tory default settings. Selection of the BUS Address is achieved by the summing the value corresponding to each LED On solid (max. 10); restoral to default does not change the assigned address.
Table 8:
LED combinations
Address Address Address
1 4 7
2 5 8
3 6 9
10
3 2 1 0
3 2 1 0
3 2 1 0
Page 18
Programming 17
Installation and Programming manual
5-3Programming from a PC
Only BUS-connectable Ivy units can be programmed via PC. The SmartLeague software will allow you to program/change the previously mentioned parameters/settings of the Ivy unit.
PATTERN
Additionally, the software application allows you to program the “patterns”, that is to say, the type of signalling, duration and volume of the audible signals.
Using the SmartLeague software programme, open a “SmartLiving” solution, select the Sounderflasher option from the control panel layout (on the right side of the page) then, access the “Programming” section (on the left side of the page) which contains the parameters of each pattern:
Pattern description - 16 character description of the pattern
Activate sounder - enables/disables sounderflasher activation
Duration (sounder) - sounder activation time, expressed in seconds (from 1 to 125) or in minutes (from 1 to 125)
Sound type - the sound of the audible signal; 5 tones available
Volume - 17 volume levels available
Activate flasher - enable/disable flasher activation
Duration (flasher) - flasher activation time, expressed in seconds, minutes or “ Endless”. If “ Endless” is selected, the flasher will signal continuously or at least until receives a cut-off pattern signal. If the event that triggers the “ Endless” signalling mode is a zone alarm, terminal tamper, partition alarm, partition tamper the flasher will be cut-off by memory reset operations.
Flash mode - 4 visual signals are available.
- 1=36 flash/min
- 2=46 flash/min
- 3=56 flash/min
- 4=On solid
Activate STATUS LED - enable/disable activation of the STATUS LED
Activate PRG LED - enable/disable activation of the PRG LED
Activate TAMPER output - enable/disable activation of the TAMPER output
Activate FAULT output - enable/disable activation of the FAULT output
Page 19
18 Programming
Installation and Programming manual
The 8 available types/patterns, preset at default, are programmed as indicated in the table:
Select a sounderflasher from the control panel layout (on the right side of the page), then access the “Programming” section (on the left side of the page) where you will find the following 5 sections:
REAL TIME
Press the “Real time” button to view the current values of the following sounderflasher options:
Battery voltage - internal battery voltage of the sounderflasher
Line voltage - voltage measured of terminals 1 and 2
Temperature - internal temperature value measured by the heat gauge (Table 3, J)
Left/Right foam detector - value detected by the foam­tamper protection device (Table 3, I)
Tamper - condition detected by the tamper protection sensor (Table 3, K)
SOUNDER/ FLASHER PARAMETERS
The “Read device” and “Write device” buttons will allow you to download and set the device parameters listed in this section, which coincide with those describe in paragraph 5-2 Programming Menu.
Additionally, the device provides the “IBUS monitor” parameter which, when activated after control panel reset, monitors the BUS for one minute. The BUS status is indicated on the PRG LED:
On solid - BUS disconnected
1 blink per second - BUS connected and sounderflasher not enrolled
2 blinks per second - BUS connected and sounderflasher enrolled
Table 9:
Pattern - default
n
Description
of pattern
Activate sounder
Sounder
duration
(seconds)
Sound
type
Volume
Activate
flasher
Flasher
duration
(seconds)
Flash mode
(flash/min)
Activate
STATUS LED
PRG LED
TAMPER
output
FAULT output
1 Burgulary ON 180 Tone 1 16 ON 180 56 OFF
2
Low-
volume
burgulary
ON 180 Tone 1 6 ON 180 56 OFF
3 Fire ON 180 Tone 3 16 ON 180 56 OFF
4 Tamper ON 180 Tone 1 16 ON 180 36 OFF
5 Prealarm ON 30 Tone 1 0 ON 30 36 OFF
6 Automation ON 3 Tone 1 6 OFF OFF
7 Squack ON 1 Tone 5 0 ON 3 On solid OFF
8 Chime ON 3 Tone 4 0 ON 3 On solid OFF
A Cut-off pattern can be:
Total cut off OFF i
ninfluent OFF ininfluent OFF
Page 20
Programming 19
Installation and Programming manual
TEMPERATURE DETECTED
If the temperature inside the sounderflasher indicated in the “Real time” is inaccurate, you can use this section to set the real value of the temperature adjusting the "Temperature detected" gauge to the real vaule and by pressing “Offset”.
LED ACTIVATION EVENTS
This section allows you to programme the PRG and STATUS LEDs of each sounderflasher. Each LED can be activated by up to 5 control panel events.
If the “Invert” option is disabled, LED activation occurs when the respective event is active. If the “Invert” option is enabled, LED activation occurs when the respective event is not active.
Note
If the assigned event is a “pulse” event, the Off status of the LED will occur only when you exit the control panel programming session.
SOUNDER/ FLASHER CUT OFF EVENTS
In this final section, you can select up to 5 control panel events which cut-off the sounder and flasher.
If the “Invert” option is disabled, the sounder and flasher will cut­off when the respective event activates. If the “Invert” option is enabled, the sounder and flasher will cut-off when the respective event deactivates.
Note
If the assigned event is a “pulse” event, its inversion is unable to trigger sounder and flasher cut-off.
Page 21
20 Programming
Installation and Programming manual
Loading...