AVS Electronics BF100 A User manual
- 1 - IST0649V1/0
IST0649V1/0
BF100 ABF100 A
BF100 ABF100 A
BF100 A
SmokSmok
SmokSmok
Smokee
ee
e
detectiondetection
detectiondetection
detection
beambeam
beambeam
beam
AA
AA
AVS ELECTRVS ELECTR
VS ELECTRVS ELECTR
VS ELECTRONICSONICS
ONICSONICS
ONICS
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CurCur
Curtartar
tartar
tarolo (Polo (P
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vselectronicsonics
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onics.com.com
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.com
In conformity to EN54 norms
CERTIFIED
QUALITY SYSTEM
ISO9001
- 2 - IST0649V1/0
GENERAL FEATURES
-Smoke detection beam made of a Transmitter and a Receiver, capable to detect and
determine the quantity of smoke which is present in the protected area.
-The board is equipped with a view-finder, placed on one side, allowing a rough alignement
with the reflector given within.
-The beam is equipped with a device (Led/display module) to use for calibration and check of
signal received.
-At first supplying, the board makes a self-calibration which will be repeated every 2 hours in
order to compensate masking caused by dust on lenses and reflector.
-Adjustable sensitivity to get a better intervention threshold according to distance.
-The beam has alarm outputs as well as fault condition and consumption-alarm outputs,
which allow connection to standard fire control units.
-Thebeamhasaserialinterfaceinordertoconnectupto4unitstotheremotepanel(BR100)
showing the same indications as shown by led/display module and leds.
RX
6
ALLARME
S7
NO
NC
LD3
LD4
LD2 S3S2
321
ON
3
2
1
4
5
B
S8
NO
GUASTO +F
C
NC
COUT +-A
S4
S9
S6
S5
4
8
7
TX
S2
321
ON
+-
S6
S5
4
-+
LED
ROSSO
- 3 - IST0649V1/0
LED/DISPLAY
MODULE
BF TEST
(NOT GIVEN WITHIN)
TRASMITTER
COVER
BR100 (OPTIONAL)
RECEIVER
COVER
BF TEST
(NOT GIVEN WITHIN)
- 4 - IST0649V1/0
RECEIVER
A-B
C
GUASTOALLARME
S7
NC C
NO NC
NO
S8
OUT
+F +
S6
Theterminalboardismadeof
two separate groups: the one
on the left concerns alarm
and fault-condition output
whilst the one on the right
concerns supplying input and
serial door.
ON/CN MRALA .yalerMRALAfoegnahcxE .detcetedneebsahekomsretfasdnoces04tuobaevitcasitI .ON/CroCN/Cegnahcxeehttesotredroni7SrepmujnotcA
ON/CN TLUAF -OITIDNOC N
.yalerTLUAFfoegnahcxE neddusadetcetedsahmaebehtretfaetunim1tuobaevitcas'tI .levelmuminimehtrednulangisehtfoesaerced .ON/CroCN/Cegnahcxeehttesot8SrepmujnotcA
C
F+TUO fonoitcennoctceridehtswollatuptuosihT.yalermralaehtsasetavitcatI ehtmralagniruD.tinulortnoceriflanoitnevnocfoenilenootmaebeht .mho086siegrahcecnetsiser
+)V8,72xam/V5,11.nim(V42roV21evitisopgniylppuS
-evitagengniylppuS
A001RBeludomlanoitpootnoitcennocrofroodlaireS
B
Signalling Led
Module to visualize the signal:
–during normal working, the display will visualize the unit values while
the Led bar will visualize the decimanl values of the signal received.
–during alarm condition the letter A is visualized.
–during fault condition the letter F is visualized.
-during calibration the display visualizes the unit values whilst the Leds
bar visualizes the decimal values of signal received.
Module for visualization of detector condition:
EDOMNOITARBILAC
DER 2DL FFO
NEERG 3DL detcetedtonsirettimsnarTehtfolangisehtfi:FFO detcetedsilangisrevieceRehtfi:NO
WOLLEY 4DL FFO
EDOMLAMRON
DER 2DL FFONO noitidnoclamroN mralA
NEERG 3DL gnihsalfwolS gnihsalfkciuQ )sdnoces2yreve(noitidnoclamroN dlohserhtmralaehtgnideecxeekomshtiW
WOLLEY 4DL FFO gnihsalfkciuQNO
noitidnoclamroN mrala-erpnoitidnoctluaf(muminimrednulevellangiS )
noitavitcayalertluaffoemitemasehttA
S7 S8
1 2 3 4
S2 S3 S4
ON S1
LD3
LD4
2
3
4
5
6
7
8
LD2
1
- 5 - IST0649V1/0
Jumper
1S )repmuj-eriW( ylnoesuyrotcaf,tuctonoD
2S 001RBeludometomerhtiweugolaidrofnoitcelessserddA
3S 001RBeludometomerhtiweugolaidrofnoitcelessserddA
4S 001RBeludometomerhtiweugolaidrofnoitcelessserddA
5S rotaunettA )repmuj-eriW( desolC nepO rotcelferdnamaebneewteb.tm001ot53morfecnatsidroF rotcelferdnamaebneewteb.tm53ot5morfecnatsidroF
6S gniylppuS )repmuj-eriW( desolC nepO gniylppusV21 gniylppusV42
7S yalerMRALA tcatnocCN:2-1noitisopnI tcatnocON:3-2noitisopnI
8S yalerTLUAF tcatnocCN:2-1noitisopnI tcatnocON:3-2noitisopnI
9S MRALA TESER
desolC
nepO
lortnoceriflanoitnevnocafoenilehtotdetcennocF+tuptuofiylnO gnillangismralarofdesusitinu sedomnoitcennocrehtollanI
Dip switch
1levelytivitisnesfognitteS
2levelytivitisnesfognitteS
3FFO NO gnikrowlamronfoedoM gnikrownoitarbilacfoedoM
4desutoN
ON
1 2 3 4
S1
S7 S8
S2 S3
S9
S4
S6
S5
ON
1 2 3
S1
4
- 6 - IST0649V1/0
Terminal board
TRANSMITTER
Jumper e Dip Switch
2S desolC nepO )ffodeLdeR(noitarbilaC )nodeLdeR(gnikrowlamroN
5S ecnatsiD noitceleS )repmuJ(
desolC
nepO
53neewtebdedulcnireviecerdnarettimsnartneewtebecnatsidroF .sretem001dna 5neewtebdedulcnireviecerdnarettimsnartneewtebecnatsidroF sretem53dna
6S gniylppuS desolC nepO gniylppuSV21 gniylppuSV42
+-
1PID 2PID 3PID 4PID EGNAR )5Snepohtiw( EGNAR )5Sdesolchtiw(
0 0 0 0 5 tm83
10 0 0 51 tm55
010 0 02 tm86
1 1 0 0 32 tm87
0010 72 tm78
1 0 10 03 tm69
01 1 0 33 tm501
1 1 1 0 73 tm311
Trimmer
Trimmer RV1 for trimming the
emitted signal.
It increases clockwise.
-+
For a correct
adjustment of the
beam signal it is also
necessary to set the
distance between
receiver and
transmitter by use of
dip-switch.
RV1
S2
321
ON
S6
S5
4
LED
ROSSO
+)V8,72xam/V5,11.nim(V42roV21evitisoPgniylppuS
-evitageNgniylppuS
It shows the presence of the supplyng
RED
LED
- 7 - IST0649V1/0
H
1/2D 1/2 DD D
TX/RX
TX/RX TX/RX
D
D
1/2 D
1 mt
TX/RX
TX/RX
TX/RX
1/2 D D
TX/RX TX/RX
INSTALLATION RULES
Thebeam andthe reflectormust beinstalledonplanewall, notsubject tovibrations ordeformation.
Please keep in mind these basic rules:
-In order to obtain total coverage,
thedistance (D)between more
TX/RX couples must not
exceed 15 meters.
-distance from the walls
must be about the half
of the distance between
two beams (1/2 D).
-distancefromthe ceiling (H)
mustbebetween min. 40 cm.
and max 1 meter.
-check the possibility of installing
reflectors in axis with beams.
In case of inclination of the roof, install the first beam at about 1
meter from the highest wall and at Hdistance from the
ceiling.
Install other beams maintaining distance D
between them and distance Hfrom the
ceiling.
Check to have max 1/2 D
distance between the beam
and the lowest side of the
wall from the ceiling.
Check that Receiver and
Transmitters can be
installedon thesame axis.
In case of sloping roofs, install the first beam at H
distance from the highest side of the roof.
Install other beams maintaining distance D
betweenthem anddistanceHfromthe ceiling.
Check to have the max distance of 1/2D
betweenthebeamandthe wall from the
lowest side of the roof.
Check that Receiver and
Transmitterscan beinstalled on
the same axis.
H
- 8 - IST0649V1/0
INSTALLATION
Alignment hole
Fixing holes
Insert the calibration accessory BF TEST
(necessaryfor acorrect calibration) inthe proper
openings, as shown on the drawing on the side,
keeping the alignment hole on the top.
Install the Receiver in the chosen point and keep it in axis
to the Transmitter as much as possible
For installation onto the wall either reflector and beam need flat cylindrical-head
screws.
Check not to have reflecting bodies, such as glasses, mirrors etc. possibly affecting
the signal, in the area nearby.
MIN 5 MT
MAX 100 MT
Alignment hole
Fixing holes
Insert the calibration accessory BF
TEST (necessary for a correct calibration)
in the proper openings, as shown on the
drawing on the side, keeping the alignment hole
on the top.
Install the Transmitter in the chosen point and keep it in axis to
the Receiver as much as possible
- 9 - IST0649V1/0
WORKING MODE “CALIBRATION”
VERTICAL
ADJUSTER HORIZONTAL
ADJUSTER
REFLECTOR
SX
UP
- In order to make a first rough alignement, use optical
view-finder, visualizing the centre of the concerned
reflector in the centre of the framed area. In order to
move orientation towards right, rotate the horizontal
adjuster clockwise, in order to move orientation
towards left, rotate the horizontal adjuster
counter-clockwise.
- To move orientation upwards rotate the
vertical adjuster counter-clockwise, to move
it downwards rotate the adjuster
clockwise.
- Make the same with the Transmitter
-Before supplying the beam check
jumper S6 condition:
• keep it closed for 12V supplying
• cut it for 24 V supplying
- Before supplying the beam units, check S6
jumper in both Receiver and Transmitter:
• cut jumper for distance from 5 to 35 meters.
• keep jumper closed for distance from 35 to 100 meters.
- Set properly dip switch 1 - 2 - 3 in the Transmitter according to the distance from Receiver as
shown in chart on page 6
- At firs supplying, the beam is blocked for about 30 seconds. Wait before following step.
- At power up, the beam units remain inhibited for about 30 seconds. Wait for this delay before
proceeding to following step.
- Close S2 jumper in the Transmitter in order to get the beam units to Calibration mode.
• the green Led in the Receiver will remain on if the signal is received from Transmitter
• the display/Led module will visualize the recived signal
- During calibration process avoid the visualized value exceeding 7,1V (7 display - 1 led).
Should this occur, act on the trimmer RV1 to decrease the signal under the threshold.
- Adjust both Receiver and Transmitter until obtaining the max signal value on the display/Led
module in the Receiver.
- Act on Transmitter RV1 Trimmer until obtaining the value of 6,5 V on the display/led module
(6 display and 5 Leds on) of the Receiver.
- Considering that the longer is the range, the longer is the beam, it is necessary to set the
sensitivity level in the Receiver according to the distance between Receiver and Transmitter,
following the rules below:
At the end of calibration, open jumper S2 in the Transmitter and take away the BF Test small
glasses before inserting the covers.
The 4 fixing screws of the covers can be “hidden” by using the screw-covers given within, just for
esthaetical reasons.
DX
leveL foegatnecreP gniksam dnamaebneewtebecnatsiD rotcelfer 1PID 2PID
1 %02 sretem53ot5morF NO NO
2%52 sretem05ot01morF FFO NO
3 %03 sretem07ot02morF NO FFO
4%53 sretem001ot03morF FFO FFO
- 10 - IST0649V1/0
WORKING MODE “NORMAL”
Here are the indications given by the three Leds on the left:
–during normal working: green Led flashes about every 2 seconds, red Led is off, yellow
Led is off.
–during alarm: as soon as the beam detects presence of smoke, green Led will flash quickly,
red Led and yellow Led will be off. After about 40 seconds if the event causing the alarm
continues, green Led will keep on flashing quickly, red Led will be on and alarm relay will be
activated, yellow Led will be off.
Whenthe event causingthealarm isover,green Ledwillstart again flashingevery2 seconds,
red Led will remain on and alarm relay will remain activated.
The alarm signalling is reset:
–if the output +F connected to a conventional fire control unit (Jumper S9 closed)
has been used for the alarm signalling, the reset will be automatic resetting the
control unit.
–For all other connection modes (Jumper S9 opened), the reset is made taking off
supplying from barrier for few seconds.
–In any case, if the module BR100 is used, reset can also be made by use of the
mechanical key on board.
–In case of fault condition: as soon as the beam detects a sudden drop of signal, green Led
will flash quickly, red Led will be off, yellow Led will flash quickly. After about 1 minute, if the
the event causing it persists, green Led will keep on flashing quickly, yellow Led will be fix on
and concerned relay is activated.
–Fault signalling is automatically reset as soon as the event stops. The beam is automatically
back in condition of “normal working”.
You can use the display/Led module both keeping it in its position inside the Transmitter or
inserting it inside the remote panel BR100. In any case you can have to following additional
indications:
During normal working:
DISPLAY
-it shows the value of 6 corresponding to the signal received
LED BAR
-N° led on: 5 (or value shown during adjustment)
In case of alarm:
DISPLAY
-shows letter “A”
LED BAR
-not relevant (depending on signal received)
In case of faulty unit:
DISPLAY
-shows letter “F”
LED BAR
-not relevant (depending on signal received)
1
3
2
5
4
7
6
8
1
3
2
5
4
7
6
8
1
3
2
5
4
7
6
8
- 11 - IST0649V1/0
LD3
LD4
LD2
4321
ON S1
S8
+F
OUT
NO
ALLARME
NO GUASTO
C
NC C
NC
S4S3
S6
S2
S7
+-BA
S5
LD3
LD4
LD2
4321
ON S1
S8
+F
OUT
NO
ALLARME
NO GUASTO
C
NC C
NC
S4S3
S6
S2
S7
+-BA
S5
LD3
LD4
LD2
4321
ON S1
S8
+F
OUT
NO
ALLARME
NO GUASTO
C
NC C
NC
S4S3
S6
S2
S7
+-BA
S5
LD3
LD4
LD2
4321
ON S1
S8
+F
OUT
NO
ALLARME
NO GUASTO
C
NC C
NC
S4S3
S6
S2
S7
+-BA
S5
BR100
In order to obtain signal visualizatioin in real time, it is possible to remote the display/led module
of any single beam, locating it in remote panel BR100. Any BR100 remote panel can locate
up to 4 display/Led modules.
Dialogue between the remote panel and the beam occurs
thanks to a serial connection as shown on side drawing.
Connect A and B terminals of beam to concerned A and
B terminals on BR100 remote panel.
BR100 supplying must be separate from beams
supplyingas apossible short-circuitin remotepanel
supplying may cause a cut in beams supplying
(EN54-12 norm). To this purpose use 500 mA fuse
together with its fuse-holder given within BR100 panel.
Single beams connected to BR100 must be addressed using
Jumpers S2, S3 and S4 on board (see chapter JUMPER), in
the following way: +-
REIRRAB 1 2 3 4
2S DESOLC NEPO NEPO NEPO
3S NEPO DESOLC NEPO NEPO
4S NEPO NEPO DESOLC NEPO
Supplying
Fuse
AB+-
noisnetlanimoN V8,72-5,11
noitpmusnoC Am011xam
esuF V052LA5.0F
TECHNICAL FEATURES
RESET: it makes a reset of alarm
condition.
NORMAL: during normal working of
beams.
TEST: not used
BR100 Connection
1S :nepO :desolC gniylppusV42 gniylppusV21
- 12 - IST0649V1/0
ALLARME
NO
NC
+FGUASTO
C
NO
NC
COUT +-BA
R1
CONNECTIONS TO CONTROL UNITS
BF100R beam is equipped with:
ALLARME
NO
NC
+F
GUASTO
C
NO
NC
COUT
R1
R2
In both cases, if module BR100 is used, reset can be done through mechanical key on board.
-Relay ALARM output.
Contacts of this output can be C/NC or C/
NO according to setting of jumper S7 (see
chapter JUMPER).
In order to reset the beam from alarm
condition,it isnecessaryto takeoff supplying
from the beam for a few seconds (Jumper
S9 open).
An example of connection using these contacts is
shown on side-drawing where ALARM contact is
set on C/NO and FAULT relay is set on C/NC.
R1 is the end-line resistence which is usually given
within control unit.
R2 isthealarm resistence (for AVS control units
the value of this resistence is 680/1000 ohm –
3W) (not included).
-OUT + F for direct connection to
AVS conventional fire control units
(charge of 680 ohm during alarm).
In order to reset the beam from
alarm condition, simply make a
reset operation on control unit
(Jumper S9 closed).
Side-drawing shows an example
of connection using these
contacts: R1 is the end-line
resistance usually given with
control unit. FAULT contact is set
on C/NC.
- 13 - IST0649V1/0
- 14 - IST0649V1/0
- 15 - IST0649V1/0
Indice
GENERAL FEATURES.................................................................................................pag. 2
RECEIVER....................................................................................................................pag. 4
Signalling Led.......................................................................................................pag. 4
Jumper ..................................................................................................................pag. 5
Dip switch .............................................................................................................pag. 5
TRANSMITTER ............................................................................................................pag. 6
Terminal board......................................................................................................pag. 6
Jumper e Dip Switch ............................................................................................pag. 6
Trimmer .................................................................................................................pag. 6
INSTALLATION RULES ...............................................................................................pag. 7
INSTALLATION ............................................................................................................pag. 8
WORKING MODE “CALIBRATION”............................................................................pag. 9
WORKING MODE “NORMAL” ..................................................................................pag. 10
BR100 Connection .................................................................................................... pag. 11
BR100......................................................................................................................... pag. 11
CONNECTIONS TO CONTROL UNITS .....................................................................pag. 12
TECHNICAL FEATURES...........................................................................................pag. 16
- 16 - IST0649V1/0
AA
AA
AVS ELECTRVS ELECTR
VS ELECTRVS ELECTR
VS ELECTRONICS SONICS S
ONICS SONICS S
ONICS S.p.p
.p.p
.p.A..A.
.A..A.
.A.
Via Valsugana, 63Via Valsugana, 63
Via Valsugana, 63Via Valsugana, 63
Via Valsugana, 63
35010 (Padova) ITALY35010 (Padova) ITALY
35010 (Padova) ITALY35010 (Padova) ITALY
35010 (Padova) ITALY
Tel. 049 9698 411 / Fax. 049 9698 407Tel. 049 9698 411 / Fax. 049 9698 407
Tel. 049 9698 411 / Fax. 049 9698 407Tel. 049 9698 411 / Fax. 049 9698 407
Tel. 049 9698 411 / Fax. 049 9698 407
www.avselectronics.comwww.avselectronics.com
www.avselectronics.comwww.avselectronics.com
www.avselectronics.com
Assistenza Tecnica: 049 9698 444Assistenza Tecnica: 049 9698 444
Assistenza Tecnica: 049 9698 444Assistenza Tecnica: 049 9698 444
Assistenza Tecnica: 049 9698 444
AVS ELECTRONICS S.p.A. reserves the right to modify the technical and esthetical characteristic of the products at any time.
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gniylppuS tloV8,72ot5,11morf
noitpmusnoCXT eludomhtiwV21htiw- Am32
eludomhtiwV42htiw- Am6,32
noitpmusnoCXR eludomV21htiwnoitidnocteiuq- Am94
eludomV21htiwnoitidnocmrala- Am96
eludomV42htiwnoitidnocteiuq- Am35
eludomV42htiwnoitidnocmrala- Am87
rabdeL/eludomyalpsid- Am51
:stuptuO yalermrala- V21taAm005
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stinulortnoceriflanoitnevnocotnoitcennoctcerid- lenapetomerotnoitcennocrofroodlaires-
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The product is in conformity to CE directives for electro-magnetic compatibility.
Power to this device must come from a SELV type power supply having characteristics of
current limitation and fuse protected output. (ref. EN 60950)
INSTALLATION MUST BE PERFORMED BY QUALIFIED PERSONNEL
TECHNICAL FEATURES
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