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User Manual
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Lindab FDS-M, FDS-RB, FDS-S, FDS-DD, FDS-CD User Manual

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User manual
Lindab Fire Damper Steering System
Version 1.2 - August 2018
2
Content
1. Description of the system ............................... 3
2. Components
2.1 FDS-M Master unit ................................................ 5
2.2 FDS-S Slave unit ................................................... 6
3. Installation (up to 4 dampers) - no slave
3.1 Power supply to main unit .................................... 7
3.2 Connect local fire dampers (up to 4) .................... 7
3.3 Connect local smoke detectors (up to 4).............. 8
3.4 Connect slave unit to master unit
and first power supply .......................................... 9
4. Installation with slave units
4.2 Connect fire damper to slave unit ...................... 10
4.3 Connect smoke detector to slave unit ................ 11
4.4 Connect slave unit to slave unit .......................... 12
4.4 Connect signal repeater to slave unit ................. 14
5. External signals
5.1 External incoming alarms ................................... 15
5.2 External outgoing alarms .................................... 15
5.3 Connect "Stop AHU" signal ................................ 16
5.4 Configuration examples ...................................... 16
6. Configuration
6.1 Choose country .................................................. 17
6.2 Access right ........................................................ 18
6.3 Main display tree ................................................. 18
6.4 Status .................................................................. 19
6.5 Commissioning .................................................... 21
6.5.1 Country........................................................... 21
6.5.2 Automatic addressing.................................... 21
6.5.3 Manual addressing ........................................ 22
6.5.4 Add single detector ....................................... 23
6.5.5 Sections ......................................................... 23
6.5.6 Communication ............................................. 24
6.5.7 Activate/Deactivate (system) ......................... 25
6.5.8 Resets ............................................................ 25
6.5.9 Miscellaneous ................................................ 26
6.6 Settings ................................................................ 27
6.7 Event log .............................................................. 29
Click on the text or the page to go to the related section of the manual.
3
1. Description of the system
The Fire Damper System (FDS) allows to feed, monitor and test up to 60 fire dampers. Smoke detectors can be con­nected and monitored, as well. The system is designed to feed only 24V fire dampers.
The system is composed of:
FDS-M FDS-S FDS-P FDS-R FDS-RB FDS-DD FDS-CD WH WK
SDD
Smoke detector
Rökdetektor
Airflow Luftflöde
Airflow Luftflöde
Master
unit
Slave
unit
Power
supply
Signal
repeater
Relay
module
Smoke detectors Fire dampers
Fig. 1. FDS - Operating diagram
230 V
Communication (2 input)
24 V (2 input)
SDD
Smoke detector Rökdetektor
Airflow Luftflöde
Airflow Luftflöde
1 FDS-P 10 FDS-S 10 WH/WK 10 FDS-C D/ DD
If the communication cable is more than 300 m, a signal repeater, FDS-R, is required This is also required if the number of FDS-S exceeds 30.
FDS-R
Signal
repeater
SDD
Smoke detector Rökdetektor
Airflow Luftflöde
Airflow Luftflöde
SDD
Smoke detector Rökdetektor
Airflow Luftflöde
Airflow Luftflöde
SDD
Smoke detector Rökdetektor
Airflow Luftflöde
Airflow Luftflöde
SDD
Smoke detector Rökdetektor
Airflow Luftflöde
Airflow Luftflöde
SDD
Smoke detector Rökdetektor
Airflow Luftflöde
Airflow Luftflöde
SDD
Smoke detector Rökdetektor
Airflow Luftflöde
Airflow Luftflöde
FDS-M
Master unit
4 fire dampers 4 smoke detectors can be connected locally to the master unit.
Communication + 24 V (4 input)
4
2. Components
FDS-M
Master unit
FDS-S
Slave unit
FDS-P
Power supply for FDS-S
FDS-R
Signal repeater
It's the main unit (master unit) of the system. It can communicate with up to a total of 60 fire dampers and 60 smoke detectors. Four fire dampers and four smoke detectors can be connected directly (locally) to FDS-M.
This is the "slave unit" that would be needed if you have more than four dam­pers. It can provide one fire damper and one smoke detector
The Power Supply unit is required when you use slave units, it can provide 10 FDS-S. Depending on cable and lenght.
It is required if more than 30 slave dampers are con­nected to the system or if the communication cable is longer than 300 m.
FDS-RB
Relay module
WH/WK
Fire dampers
FDS-DD/FDS-CD Smoke detectors
Relay module used for:
- Connect "Stop AHU" signal
- Conect External alarms
See installation guides within the FDS manual.
Circular and rectangular fire dampers equipped with 24V actuators
Optical smoke detectors for mounting in all types of premises.
FDS-CD: ceiling smoke detector FDS-DD: duct smoke detector
For more details about each component, click on the image and see related catalogue page.
SDD
Smoke detector
Rökdetektor
Airflow Luftflöde
Airflow Luftflöde
5
C
OK
7
8
2
3
1
1
5
6
4
2.1 FDS-M Master unit
Fig. 2. Master unit FDS-M
1. Up/Down buttons: allows to navigate through menus
2. "Back" button: takes back to the previous page
3. "Enter" button: enter menu page
4. OK button: allows to change value
5. Red alarm LED blinks in case of alarm
6. Yellow write LED blinks when values can be changed on current page
7. Red button: Takes to the alarm acknowledgment page
8. C button: exit value editing
FDS-M master unit is a pre-programmed controller with internal display. The display is backlit and the menus are easy accessible and controlled by pushbuttons on the front together with two LED indicators for alarm and write indication.
Fig. 3. PCB about FDS-M
The PCB at the bottom of the unit allows to easily wire components with no need to open the FDS-M box.
B
A
N
+C
S2 _1
S6_1
+C
S2_2
S6_2
+C
S2_3
S6_3
+C
S2_4
S6_4
AGND
A01
GD0
D01
GD0
D02
GD0
D03
GD0
D04
GD0
D05
D06
D07
+ - + - + - + -
AGND
Pt
GD0
+C
Ext1
Ext2
Ack
1 2 3 4
0-10V
SEF
\ SEF
A S
1 2 3 4
1-2
RS485 Slave unit to A and B
SERVOMOTOR SWITCHES SERVOMOTORS
STOP AHU
ALARM
SMOKE DETECTORS
PRESSURE ALARM
1-2 1-2 1-2
6
2.2 FDS-S Slave unit
FDS-S slave unit is a module controlled by hidden pushbuttons together with one LED.
1.
Steady green: unit is addressed and working. No alarm reported.
2.
Steady orange: service alarm (communication or dirty smoke detector)
3.
Steady red: A (fire) alarm
Fig. 4. Slave unit
Fig. 5. Internal PCB about FDS-S
The internal PCB allows to connect one fire damper power supply, two position switches and one smoke detector. The external quick connector allows to easily link power and communication of slave units together.
1 2 3 4 5 6 7 8
+
S2S1S6
S4
+
-
G
G0
A
B
RS485
24V AC/DC
~
+
-
Servomotor
Supply
Servomotor
Switches
Smoke
Detector
7
3. Installation (up to 4 dampers) - no slave unit
3.1 Power supply to master unit
Provide 230 V power supply to master unit.
3.2 Connect local fire dampers (up to 4)
Connect local fire dampers power supply and position switches to master unit. Maximum 4 fire dampers could be connected directly to the master unit (FDS-M).
FDS-M
L N
G
FDS-M
+C S2_1
Fire damper 1
S4 S2
S6_1
S1 S6
+C S2_2
S4 S2
S6_2
S1 S6
Fire damper 2
+C S2_3 S6_3 +C S2_4 S6_4
FDS-M
L N
FDS-M
G0 D01
G0 D02 G0 D03 G0 D04
Fire damper 1
12
Fire damper 2
FDS-M
+C S2_1
Fire damper 1
S4 S2
S6_1
S1 S6
+C S2_2
S4 S2
S6_2
S1 S6
Fire damper 2
+C S2_3 S6_3 +C S2_4 S6_4
12
G
Fire damper's cables
Supply 24V
Switches
Attention!
Color cables could change depending on motor version. Numbering cables (1-2 for supply 24V, 1 to 6 for switches) stays the same on all motor ver­sions.
+C
S2 _1
S6_1
+C
S2_2
S6_2
+C
S2_3
S6_3
+C
S2_4
S6_4
1 2 3 4
SERVOMOTOR SWITCHES
GD0
D01
GD0
D02
GD0
D03
GD0
D04
\ SEF
SERVOMOTORS
L N
230V AC
Fuse 6,3A
8
3.3 Connect local smoke detectors (up to 4)
Connect local smoke detectors to master unit. Maximum 4 smoke detectors could be connected directly to the master unit (FDS-M).
FDS-M
L N
FDS-M
G0 D01 G0 D02 G0 D03 G0 D04
Fire damper 1
12
Fire damper 2
FDS-M
+C S2_1
Fire damper 1
S4 S2
S6_1
S1 S6
+C S2_2
S4 S2
S6_2
S1 S6
Fire damper 2
+C S2_3 S6_3 +C S2_4 S6_4
12
+
FDS-M
Smoke detector
L1outL1in L2
2,2 k
Ceiling smoke detector
FDS-M
Smoke detector
53 4
2,2 k
Duct smoke detector
12
-+-+-+-
+-+-+-+-
G
FDS-M
+C S2_1
Fire damper 1
S4 S2
S6_1
S1 S6
+C S2_2
S4 S2
S6_2
S1 S6
Fire damper 2
+C S2_3 S6_3 +C S2_4 S6_4
FDS-M
Smoke detector
53 4
2,2 k
Duct smoke detector
12
+-+-+-+-
3
The FDS-M switchboard have four 2.2 kΩ resistors on each smoke detector connection. Remove the resistor if you add a smoke detector and move the resistor to smoke detector. The resistor is still required, see image 2 and 3.
2
+ - + - + - + -
1 2 3 4
1-2
SMOKE DETECTORS
1-2 1-2 1- 2
FDS-CD FDS-DD
9
4.1 Connect slave unit to master unit and first power supply
- Provide 230 V power supply to FDS-M as described in point 3.1 p. 7
- Provide 230 V power supply to transformer FDS-P
- Supply power to the first slave unit through G0 and G pins
- Connect the signal from master unit FDS-M to A and B pins
0
24V
0
230V
4. Installation with slave unit
If in the system there are slave unit (FDS-S) the first slave must be supplied with power supply unit (FDS-P).
Commutication (2 input)
230 V
230 V
24 V (2 input)
0
FDS-P
24V 0B 230VA
G G0
A B
FDS-S
FDS-M
B
A
N
RS485
G
G0
A
B
10
4.2 Connect fire damper to slave unit
One fire damper per slave unit is allowed.
G G0
FDS-S
A B
G G0
FDS-S
A B
1 2
FDS-S
4 53
687
1 2
Fire damper
S1 S6
S2 S4
24 V
Communication (4 input)
1 2 3 4 5 6 7 8
+
S2S1S6
S4
+
-
~
smoke (2 input)
11
1
The FDS-S have one 2.2 kΩ resistors.
Remove the resistor if you add a smoke detec­tor and move the resistor to smoke detector, see image 2 and 3.
4.3 Connect smoke detector to slave unit
One smoke detector per slave unit is allowed.
G G0
FDS-S
AB
G G0
FDS-S
AB
12
FDS-S
453 6 87
12
Fire damper
S1 S6S2 S4
12
FDS-S
45
3 6 8
7
Smoke detector
L1outL1in L2
2,2 k
Ceiling smoke detector
12
FDS-S
45
3 6 8
7
Smoke detector
534
2,2 k
Duct smoke detector
12
12
FDS-S
45
3 6 8
7
Smoke detector
534
2,2 k
Duct smoke detector
12
1 2 3 4 5 6 7 8
+
S2
S1
S6
S4
+
-
~
3
2
FDS-CD FDS-DD
12
4.4 Connect slave unit to slave unit
G G0
FDS-S
AB
G G0
FDS-S
AB
Commutication (2 input)
230 V
230 V
24 V (2 input)
NOTE
For RS485 connection (A and B), it is recommended to use RS485 standard cable, 2-wire shielded twisted pair. Please see next page for cable cross section suggestion. Installer should always verify according to actual installation environment.
RS485
AB N
A
B
A B
FDS-S
G G0
230 VAC
24 VAC
230 V
A B
FDS-S
G G0
TRAFO x x
FDS-M
A B
FDS-S
G G0
230 VAC
24 VAC
230 V
TRAFO x x
A B
FDS-S
G G0
230 V
FDS-R
RS485
Data
- +
RS485
Data
- +
A
B
A
B
A B
FDS-S
G G0 A B
FDS-S
G G0
230 VAC
24 VAC
230 V
TRAFO x x
Max 300 mMax 3 00m
ATTENTION!
The 2-wire shielded twisted pair RS485 cable needs to be connected to G0 in FDS-S every first slave after the transformer as displayed in below wired scheme.
13
Supply cable sizing
The wire size of the supply cable can be determined by calculating the resistance pr meter R. The calculation presupposes that a voltage drop of e.g. 2V is accepted in the supply cable:
R(per m) = U
drop
/ (I * L) [Ω/m]
where: U
drop
is the accepted voltage drop (2V) in the cable [V]
I is the current [A] L is the longest distance of supply cables from transformer to a component [m]
Example:
U
drop
= 2V, I = 4A, L = 20m R (per m) = 2V / (4A * 20m) = 0,025 Ω/m In the diagram a Wire cross section Area of 0,7 mm2 can be read.
0,7
0,6
0,8
0,9
1
1,1
1,2
1,3
1,4
1,5
0
0,1
0,2
0,3
0,4
0,5
0,200,10
0,15
0,050
Wire cross section area as a function of resistance per m for copper wire
Copper resistance [Ω/m]
Wire cross section area [mm
2
]
14
4.5 Connect signal repeater to slave unit
Connect signal repeater (FDS-R)
Commutication (2 input)
230 V
230 V
24 V (2 input)
no.30 FDS-S
230 V
230 V
G G0
FDS-S
B A
G G0
FDS-S
B A
DATA0+ DATA0-
FDS-R
DATA1+ DATA1-
LN
Data+
Data-
FDS-SFDS-S
G G0
AB
G G0
AB
Data+
Data+
Data-
Data-
V+
GND
Output DC 24V 0,5A
Input AC 100-240V
+
L(+) N(-)
-
230V
15
5.1 External incoming alarms
The master unit FDS-M can receive no.2 external alarms (Standard NO contact, possible to change to NC in FDS-M configuration). These alarms can be remotely acknowledged as well.
5. External signals
G G0
FDS-S
B A
G G0
FDS-S
B A
DATA0+ DATA0-
FDS-R
DATA1+ DATA1-
LN
FDS-M
+C
Ext1
Ext2
Ack
5.2 External outgoing alarms
The master unit FDS-M can send no.2 external alarms, a fire alarm (A) and a service alarm (S), through 24V driven relays (relay module FDS-RB, NC contact).
G G0
FDS-S
B A
G G0
FDS-S
B A
DATA0+ DATA0-
FDS-R
DATA1+ DATA1-
LN
FDS-M
+C
Ext1
Ext2
Ack
FDS-M
GD0
A
D06
S
D07
12
13
14
20
30
31
32
33
24V
24V
24V
FDS-M
A
GD0
D06
S
D07
12 Control input relay I 13 Control input relay II 14 Control input relay III 20 Control input common 24 V AC 30 Control input 24 V AC 31 Output relay I 32 Output relay II 33 Output relay III
relay I
relay I I
relay III
+C
Ext1
Ext2
Ack
ALARM
GD0
D05
D06
D07
A S
STOP AHU
ALARM
GD0
D05
D06
D07
A S
STOP AHU
ALARM
16
5.3 Connect “Stop AHU” signal
The master unit can stop an AHU through a 24 V driven relay (relay module FDS-RB).
FDS-M
GD0
STOP-AHU
D05
5.4 Configuration example
If you have... you need...
No. 14 fire dampers:
- 3 dampers connect directly to FDS-M
- 11 connect with slave units FDS-S
+ AHU connection
FDS-M.......
FDS-S.......
FDS-P........
FDS-R.......
FDS-RB.......
1 11 2 0 1
No. 36 fire dampers:
- 2 dampers connect directly to FDS-M
- 34 connect with slave units FDS-S
+ AHU connection + External outgoing fire alarm
FDS-M.......
FDS-S.......
FDS-P........
FDS-R.......
FDS-RB......
......
1 34 4 1
2 if the logic (NO or NC) is different between
connections (AHU and external outgoing alarm)
1 if the logic (NO or NC) is the same for both connections (AHU and external outgoing alarm)
GD0
D05
D06
D07
A S
STOP AHU
ALARM
12 Control input relay I 13 Control input relay II 14 Control input relay III 20 Control input common 24 V AC 30 Control input 24 V AC 31 Output relay I 32 Output relay II 33 Output relay III
12
13
14
20
30
31
32
33
24V
24V
FDS-M
GD0
STOP-AHU
D05
relay I
relay I I
relay III
GD0
D05
D06
D07
A S
STOP AHU
ALARM
17
OK
Press and move to choose the countr y.
Press to confirm.
The MAIN DISPLAY show the status of the system.
Press to see the firmware version and IP adress.
Press again to see the date and time.
Press in order to go back to the main display
6. Configuration
6.1 Choose country
*NOTE The status of the system can be:
- Idle
- Normal operation
- Test procedure
OK
C
OK
view alarms
exit value editing
Yellow LED write indicator
Red LED Alarm indicator
Scroll up
Scroll down
Enter (right)
Confirm
one step back (left)
Display buttons
In the menu, use and to scroll up and down.
To s e l ect, use button.
To go one step back, use button.
Edit, by pressing button, and then use and .
OK
- Lindab FDS Master
Select country:
Not selected
- Lindab FDS Master
A alarms : 0
Service alarms : 0
Idle*
- Lindab FDS Master
Select country: Not selected
18
6.2 Access right
NOTE
Default USER password: 1332
Only read function with access to status, setting and event log menu.
Default SERVICE password: 2132 Access to the complete functions.
Cur. level automatically change status depending on type of password entered.
6.3 Main display tree
After the first LOG IN press to show the main display tree.
Access rig ht
Status
Commissio ning
Settings
Eve nt log
- Lindab FDS Master
A alarms : 0
Service alarms : 0
Idle*
Access rig ht
Log in
- Lindab FDS Master
A alarms : 0
Service alarms : 0
Idle*
Log in
Enter password:xxxx
Cur. level: none
OK
Use to enter password.
19
6.4 Status
Access rig ht
Status
Commissioning
Settings
Fire damper status
Choose fire damper
Da mp er: 1-60
Fire damper: 1
Po sition: In Between
Pos. err or: Yes
Pos. Alar m: Yes
Detector status
Choose detector
Detector: 1-60
Detector: 1
Det. Status: OK
Det. Alar m: No
Section status
DI
I/O
Section status
Se ctio n: 1
Sta tu s: OK
Damp er 1 - 6
DI1:O FF DI5:ON
DI2:ON DI6:OFF
DI3:OFF DI7:OFF
DI4:ON DI8:OFF
UI1:O FF
UI2:ON
UI3:OFF
UI4:ON
DO
DO1:ON DO5:ON
DO2:ON DO 6:OFF
DO3:ON DO7:O FF
DO4:ON
AI
AI1: 0.0 UI1:0.0
AI2:0.0
AI3:0.0
AI4:0.0
In the menu, use and to scroll up and down.
To s e l ect, use button.
To go one step back, use button.
Edit, by pressing button, and then use and .
OK
20
Damp er Durat. Times
Choose damper
un it: 1- 60 - ->
Damp er unit: 1
Du rati on Ti me s:
Close O pen
8 23 sec
Reset detector(s)
Detector #: 0
(# 0 means all)
Reset: NO
Reset detectors
Damp er unit: 1
Orig. Dur. Times:
Close O pen
7 25 sec
AO
AO1:0.0 AO5:0.0
AO2:0.0
AO3:0.0
AO4:0.0
21
6.5 Commissioning
Access rig ht
Status
Commissioning
Settings
Activate/Deactivate
Resets
Misce llane ous
Country
Addr essing
Sections
Communication
6.5.1 Country
OK
Press and move to choose the countr y.
Press to go back.
Country
Country
Other countries
6.5.2 Automatic addressing
Automatic addressing means that number of damper and its IP address are automatically assigned to the system in sequence by pressing the right button in the FDS-S as described below.
ATTENTION!
Dampers connected to the slave units FDS-S can be addressed in AUTOMATIC mode as well as in MANUAL mode.
Dampers connected directly to the master unit FDS-M can be only addressed in MANUAL mode.
Go to the ADDRESSING display on master unit.
Addressing
Automatic
Manual
Add single detector
Automatic addresmode
Address M ode: NO
22
Automatic addresmode
Address M ode: NO
OK
Press and use and to move
ADRESSMODE from NO to YES
Automatic addresmode
Address M ode: YES
Inside each slave unit connected to the system, press the RIGHT BUTTON: units will be assigned the first free address.
Automatic addresmode
Address M ode: YES
OK
Back to the display on master unit.
Press and use and to move
ADRESSMODE from YES to NO
Automatic addresmode
Address M ode: NO
OK
6.5.3 Manual addressing
Manual addressing mode means that number of damper and its IP address are manually assigned to the user by pressing buttons in the FDS-S as described below.
Go to the ADDRESSING display on master unit.
OK
OK
OK
Inside each slave unit connected to the system keep
LEFT BUTTON pressed to edit address and use UP/ DOWN/RIGHT BUTTONS to set the new address.
Addressing
Automatic
Manual
Add single detector
Ch oos e u nit
Unit: 1 -6 0 -->
OK
Unit: 1-60
Ser. no:
Ac tivate ?YES
Co nfi rm?--
OK
23
6.5.4 Add single detector
Addressing
Automatic
Manual
Add single detector
Detector: 1
Ac tivate: YES
Co nfi rm: --
It is possible to connect locally single smoke detector to FDS-M unit without any fire damper.
OK
6.5.5 Sections
Fire dampers/smoke detectors can be grouped into sections.
Sections
Sections divider
Se ction: 1 -->
OK
Section divider: 1
First damper: 0
Last damper: 0
Co nfi rm: --
Clear section:
NO
Co nfi rm:
NO
OK
Press to go back and return to the main display.
24
6.5.6 Communication
Communication
TCP -IP
Mod bus TCP/RTU
TCP-IP
DH CP: YES
Set sta tic IP-->
Runnin g IP:
0 .0 .0 .0
IP: Write -->
192.16 8.1 .23 4
Su bn et Ma sk:
255.25 5.255.0
Running Subnetmask:
0 .0 .0 .0
Running Gateway:
0 .0 .0 .0
Ru nni ng D NS:
0 .0 .0 .0
MainComputer Status:
Not connected
Activate connection
to Main Computer
NO
Activate connection
to Main Computer
NO
TCP por t routin g
to Main Computer
1
EXOline address
PL A: 1
EL A: 241
DNS: W rite -->
0 .0 .0 .0
Default Gateway:
192.16 8.1 .23 4
Write IP co nfig.:
OK
Write IP co nfig.:
OK
In the menu, use and to scroll up and down.
To s e l ect, use button.
To go one step back, use button.
Edit, by pressing button, and then use and .
OK
25
Communication
TCP -IP
Mod bus TCP/RTU
Modbus TCP/RTU
Mod bus TCP/RTU
Slave ad dress: 15
Modbus RTU
Activate: YES
Spe ed: 9 60 0 bps
Par ity: NO
6.5.7 Activate/Deactivate (System)
In ACTIVATE SYSTEM mode:
Ac tivate
Ac tivate sy s:
YES
Co nfi rm: YES
In DEACTIVATE SYSTEM mode:
Deactivate
Deactivate sys: NO
Damp ers: open
Co nfi rm: NO
OK
OK
6.5.8 Resets
Resets
Fabrication Reset:
NO
Co nfi rm:
NO
OK
Ap plication Reset:
NO
Co nfi rm: NO
OK
26
6.5.9 Miscellaneous
Misce llane ous
I/O
OK
DO5 Stat us: NO/N C
DO6 St atus: NO/ NC
DO7 Status: NO/N C
EXT1 Statu s: NO/N C
EXT2 Stat us: NO/N C
OK
Damp er Durat. times
Max du rat. time:
Opening: 180 sec
Closing: 60 sec
Save current times
as orig. times?
Co nfirm: NO
Detector values
OK
OK
Detector Limits
High: 9.5 V
Sm oke: 6.0 V
Dirty: 4.0 V
OK
Synch. parameters
Synchronize: NO
Confirm : NO
OK
NOTE DO5 is for th e interac tion with AHU. If using FD S-B (NC co ntact), set DO5 status on NC. If other re lay (NO con tact) is us ed, set DO5 s tatus on NO.
DO6-DO7 contact set depending on log ic of the system.
In order to c hange se nsitivity of smoke detectors
27
6.6 Settings
In the menu, use and to scroll up and down.
To s e l ect, use button.
To go one step back, use button.
Edit, by pressing button, and then use and .
OK
Access rig ht
Status
Commissioning
Settings
Language
Language:
English
Excecise operation
Interval timer
Tim er: E nabled
Test delay time
Choo sen time: 12.0 0
Due in: 39:22 hh:mm
Test Exercise
Test delay time
We e kly t im e r
Tim er: Disabled
We ek s: 0
Day: Friday
Start s at: 05:0 0
Test delay time:
2 minutes
Test all dam pers
Test all dam pers
Tes t: NO
Co nfirm: N O
Executed command
none
Time left to sta rt:
120 s
28
Test ind. da mper
Test ind. da mper s
Da mp er: 0
Tes t: NO
Co nfirm: N O
Executed command
none
Time left to sta rt:
120 s N A
Test status
A alarm t est
Test A alarm
Co nfirm: N O
Damper test
Test delay time
Test all dam pers
Test ind. da mper
NOTE Please s ee Text Excer cise disp lay on previous page.
Manual operation
Oper. all dampers
Oper. all dampers
Op er: A UTO
Co nfirm: N O
None
Oper. all dampers
Oper. damper 1
Op er: A UTO
Co nfirm: N O NA
None
Date & Time
Date and Time
2018-01-01
13:24
Duratio n Tim es
Save current times
as orig. times?
Co nfirm: NO
29
6.7 Event log
Eve nt log
Alarm events
Use and to scroll up and down the list of
alarm events.
A-alarm (fire alarm) and Service alarm are listed in the
Event log display.
At Lindab, good thinking is a philosophy that gui-
des us in everything we do. We have made it our
mission to create a healthy indoor climate – and
to simplify the construction of sustainable buil-
dings. We do that by designing innovative pro-
ducts and solutions that are easy to use, as well
as offering efficient availability and logistics. We
are also working on ways to reduce our impact on
our environment and climate. We do that by de-
veloping methods to produce our solutions using
a minimum of energy and natural resources, and
by reducing negative effects on the environment.
We use steel in our products. It’s one of few materi-
als that can be recycled an infinite number of times
without losing any of its properties. That means
less carbon emissions in nature and less energy
wasted.
We simplify construction
www.lindab.com
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