Post on 05-Oct-2018
La nueva Generación
de Detectores de
Humo…
Disponibles hoy
Denis Leal Nascimento
Open-area Smoke Image Detection
2012 Poznan International Fair Gold Medal
ASIS 2011 Accolades
New Product Innovation Award in Fire & Life Safety -
North America, 2011 awarded to Xtralis based on
analysis on OSID by Xtralis
2011 Fire Excellence Awards - Best Detection and
Alarm Product Award
2011 New Product Showcase (NPS) -Judge’s Choice
Award at the ISC West
2010 Hot Technology by Network Products Guide
Premios y Reconocimientos
Americas
─ Alexandria Police Station – atrium
─ Mars pet food – warehouse (60 detectors)
─ Clarke County Ampitheatre
─ Waterman hospital – atrium
─ Georgia Tech – indoor football facility
─ Ontario Power Generation – warehouse
─ ALDI Food – warehouse (24 detectors)
─ Patron Tequila - warehouse
─ Texas Performing Arts – auditorium (5 detectors)
─ Boise train station – Main hall
─ HP/EDS - Plano, Texas (80+ detectors)
─ NBA Arena - Oklahoma City (12+ detectors)
─ Oklahoma State Arena (12+ detectors)
─ LA Convention Centre
─ Lockheed Martin
─ etc
Instalaciones en una amplia variedad de aplicaciones con OSID
Stanford University Palasport Verona
Burberry ─ Iconic British Luxury Brand Est. 1856Protected by Xtralis VESDA & OSID
© Xtralis Pty. Ltd. ─ Confidential Information 6
Burberry’s flagship store at 121 Regent Street in London, opened in 2012
44,000 square-foot space is divided into rooms themed as Bespoke, Acoustic & Experiences
Housed in a Grade II listed building, originally created in 1820, the store was renovated by
British craftsmen, from stonemasons to cabinet-makers, highlighting the building's old features
VESDA VFT-15 Smoke
Detectors protect front and
customer retail areas
OSID Open Area Smoke Imaging
Detectors protect large and imressive
atrium
Detect
Minimal to no damage
Local to General damage
Total loss
Incre
asin
g t
hre
at
Respond
VerifyDetect Watch it burn
Respond
VerifyDetect Respond
Verify
Verify
Very early warning Standard sensitivity After flame…
Detect
Activity disruption to Local damage
No damage
Prevención de Fuego
Large
spaces
Mission
critical
structures
Lost
spaces
Las ventajas con respecto a los detectores de haz de luz
tradicionales obedece a cuatro mejoras de diseño:
Emisión de Frecuencia Dual IR y UV
Imagen Digital vs. photodiodos
Innovador Método de Alineamiento
Algoritmos inteligentes
Por qué es mejor la Tecnología Dual IR y UV?
Units mounted opposite one another
Optically aligned for maximum received signal
(manually or with software controlled motor-
drives)
Single IR frequency
Use IR led to transmit and photo diode to receive
Infra-red light beam dims with smoke or partial
blockage
If received signal falls below a threshold for a
delay period then a fire alarm is signaled
Nuisance blockages are recognized when the
signal falls suddenly (e.g. 90% within 5 seconds)
Individual transmitter-receiver
Integrated transmitter-receiver
using reflector
Pictures and diagram courtesy of Fire Fighting Enterprises
Principio de funcionamiento del beam tradicional
Challenges with traditional beam detectors
Reflections Some beams require alternating TX-RX to avoid cross talk
Challenges with traditional beam detectors
Reflections Some beams require alternating TX-RX to avoid cross talk
Pictures and diagram courtesy of Fire Fighting Enterprises
0,6°
0,6°
Ø
6,5ft
(2 m)
330 ft/00 m
Diagram courtesy of Fire Fighting Enterprises
Flexión del Edificio / movimientos 1° flexión = 1,75 mts de divergencia del rebote a 100m
Maxima tolerancia de error de desalineamiento de 0.3°- 0.6°
Problemática de alineamiento del beam tradicional
Reflejos, Luz natural a través de Ventanas, Luz Artificial False returned signal coming from obstacle or window, mirror,
shiny surfaces, …
Problemas con reflejos, luz natural o artificial del beam tradicional
Emitter
Obstruction
Dust
Smoke Imager
UV beam
IR beam
Active emitter LEDs transmit wide beam IR
and UV to the Imager
─ IR and UV have differing wavelengths
─ Respond differently to smoke
Relative strengths of the UV & IR are
compared
─ Detect smoke
─ Discriminate against particulates that cause
nuisance alarms on traditional beams
Software locates illuminated pixels on the
CMOS imager
─ Each emitter is uniquely coded
Imager software tracks building movement
─ No controlled motor drives
Tecnología Dual vs. Beam de un solo haz IR
Distancia de Cobertura
(*) Emitters come both battery
powered or externally wired
ImagersEmitters (*)
NúmeroMax. de Emitters
Campo de
detección
Horizontal Vertical
Standard Power
(min.)
Standard Power
(max.)
High
Power
10° 5° 30m (98 ft) 150 m (492ft) - 1
45° 20° 11m (36 ft) 60 m (197 ft) 130 m 7
90° 40° 6m (20 ft) 34 m (111 ft) 70 m 7
(El beam tradicional tiene una distancia de cobertura de
70mts y requiere un “amplificador” para llegar a max 100 mts )
Como ubicar múltiples Emisores en áreas irregulares
Cut out of a piece of paper a
rectangle of the size
corresponding to beam
width and length
Respect the scale and
dimensions.
X = Beam length, both allowed by local codes and within the
emitter range specs
Y = Beam coverage, width allowed by local codes
OSID Opción de colocar Multi-Emitters
Reflections Some beams require alternating TX-RX to avoid cross talk
OSID Opción de colocar Multi-Emitters
OSID Opción de colocar Multi-Emitters
Multiples coberturas
Imagers can be configured with various
lenses, 10°, 45° and 90° field of view
Multiple Emitters with wide beam LEDs are
placed on the opposing wall and aligned
Up to 7 emitters may be used at the same
time with a 45° and 90° imager. The
10° FOV imager caters for 1 emitter
Emitters can be positioned on multiple
planes
Emitters flash in pseudo-random sequence
to avoid timing collisions
Emitters communicate to the imager by
data encoded on the LED pulses to report
status, including battery condition long
before replacement is needed
Strictly confidential
Como ubicar múltiples Emisores en áreas irregulares
Cut out of a piece of paper a
rectangle of the size
corresponding to beam
width and length
Respect the scale and
dimensions.
X = Beam length, both allowed by local codes and within the
emitter range specs
Y = Beam coverage, width allowed by local codes
Emisores
Vista actual de un IMAGER 45 grados con 4
Emisores dentro de un area de 1,350 m2
Imager versus photodiodo
La Imagen es igual a
100,000 photodiodos
El IMAGER localiza y
rastrea, a nivel de pixeles, la
posición de los Emisores
en donde quiera que se
localicen en su campo de
vista
Puede funcionar sin
problema bajo cualquier
condición de iluminación;
brillo de luz artificial / luz
solar hasta en total
obscuridad
Beneficios Notables
Inicializacion Terminada
• The image will now show the location of
the various emitters with a green icon
and a number
• Numbering of the emitters is from left to
right from the position of the imager
• If any faults now occur, the Emitter
icon(s) will be yellow. Type of fault will
show top right of screen and next to the
Emitter # n location
• For demo purposes, a fault can be
forced by blocking the beam
•For a new image click ‘Acquire’ button,
the image does not refresh automatically
• Now you are OK to demo
Imager alignment could have been better!
Fault descriptions, if any
Mayor Sensibilidad = Detection mas Rápida
UV es la frecuencia de
detección principal
20% obsc para 150 mts
UV es 50% mas
sensible que IR para
detectar fuegos con
flama
Prueba de Humo
Alarma de Humo
A Filter is included in the demo kit
3rd party filters might alarm – but
don’t bank on it
The filter will highlight the alarm
mechanism
I.e., the larger the difference
between IR and UV the faster the
alarm will be accepted and detected
There is always more UV than IR
signal
UV detects smaller particles than IR
The detector will remain in alarm for
a short while after the alarm is gone
(hysteresis)
Obstrucción de Objetos
IR and UV are both fully
obscured. IR signal ‘hidden’
behind UV. UV or IR is selectable
Fault signal but no alarm
Obscuration needs to last, around
9 sec for 3+ emitters and around
30 sec for a single emitter, to
have a fault signal
When obscuration is removed
signal will drop back to normal
Movimientos de la Estructura
Make sure the Large Particle Alarm
(Dust rejection) Dip sw. 7 is set to
“on”
Insert the laser screwdriver in any
emitter as if you were aligning it.
With the laser turned on, rotate the
emitter +/- 1° out of its normal
alignment in one direction
Wait 30s and give it another 1°and so on until about 5 °
You will see a ‘step function’ as in
this graph
Stop at 5 °. Point made!
Luz Reflejada
Use torch lamp, camera flash,
laser screw driver, laser
pointer,…
Shine into the imager from a
distance
You should register no change
and no faults
You can bring the light source
close(r) to the imager provided
you do not ‘blind’ the imager.
Watch the graphs
With the light source on you can
demo an alarm with the filter
Partículas de Polvo
Blow/spray talcum powder in the
beam path – but test first
You will need ‘a lot’ to get to some
reasonable peak
There will be no alarm
Invite customer to have a go – fun
but messy !
Insectos (Arañas, Telarañas)
Los Beams normales se ponen
muy fácilmente en alarma con
insectos como arañas ya que este
patrón es muy similar a la alarma
del IR que utilizan.
Make (or tame!) a spider
Bits of string work well
Wave it around in front of the Imager
lens
You will get ‘spikes’
Alarm should not occur.
Vapor de Agua
Spray fine water droplets in front
of the imager in the beam path
It is not a problem if some of the
droplets hit the imager (see
picture)
The result is similar to dust – no
alarm
BUT – keep an eye on the UV &
IR trend
Ejemplos de Aplicaciones
Beams reemplazados por OSID
70% reduction on installation time
No false alarms since…
Aspectos Críticos:
Almacén con ventanas
que causan refracción de
luz
Cientos de falsas alarmas
y problemas diariamente
Enormes Movimientos del
Edificio causando fallas
Tienda de Distribución de Alimentos en Texas (Beam tradicional)
Distancias muy Largas
Deteccion con fiabilidad a 150 mt
Permite calibracion 20% a 150 mt
Alineamiento a través de la
estructura metálica del techo
37
Sitio Industrial
38
6”/15 cm
El usuario estuvo
considerando el cable sensor
térmico para “controlar”
colapso del edifico por fuego...
Desafíos para la Detección
Desafíos para a Detección
Salas de Cómputos
Galpones e Almacenes
Cámaras Frías
Áreas Estéticas
TEQUILA PATRON MEXICO
OSID en Tequila Patrón
OSID ‘ TEQUILA PATRON
Vapor en las áreas, VESDA y OSID
3-D arrangement may be
configured to protect
many large, open spaces
Centros Comerciales y Atrios
Empresa de Impresiónde Cartón
-10
0
10
20
30
40
50
60
Problema Crítico:
Vapor de agua
Almacén Semi-abierto
5,85 “/15 cm
Problema Crítico:
Condensación
Luz Solar
Planta de ReciclajeÑ
5,85 “/15 cm
Tiempo Estimado para
limpieza de lentes:1 mes
47
Reflejos por luz solar
– Los beams tradicionales son afectados por reflejos de
la luz solar y otras fuentes de emision de luz en la
industria, como lamparas, candelabros, etc.
Luz Natural, iluminación Artificial y otras Fuentes de Luz
Emisión directa de luz Natural (sol)
5,85 “/15 cm
Descartar por completo la
recomendación de instalación con
orientación East – West, la tecnología
dual evita lña condición de falla
cuando es expuesta directamente por
un periodo largo a la luz del sol.
49
When fully exposed to the
sun.... will only give a fault
Alta Resistencia al Polvo, Humedad, Vapores, etc (No falsas alarmas)
OSID’s 2 wavelengths provide a comfort zone of +90% for nuisance rejection
Single wavelength IR beams have a < 1% comfort zone for nuisance
rejection
Particle size0.01 µm 6 µm 100 µm
1 µm
Smoke Dust/fog/sprays
Comfort zone dual wavelength OSIDPotential
Nuisance
Comfort zone single
wavelength IR
Estratificación
STRATIFICATION
The effect which occurs when smoke,
which is hotter than the surrounding air,
rises until equal to the temperature of the
surrounding air, causing the smoke to stop
rising.
This typically happens in atria covered
with windows where the air is heated by
the sun
Adding extra emitters at lower level will
result in a faster detection of smoke
Estratificación – Malla de Detección
Detection grid
Using 2 sets of OSID create a grid that
allows for early and cost-effective detection
at all levels of the atrium, at ground level as
well as at the top level.
The grid uses OSID’s horizontal and vertical
spatial performance to crate a full coverage
with minimum wiring costs
Difficult & Time Consuming to Align & Install
─ Use of ball and socket housing and unique laser alignment tool reduce time of install up to
70%
Large particle obscuration rejection
─ Use of UV & IR in specific wavelengths assist in evaluating whether obscuration is caused
by small particles in the physical size resembling smoke or from larger particle (i.e. dust,
steam, insects, fork-lift, ladders, etc.)
Tolerance to building shift and vibration
─ The multiple pixels of a CMOS imaging chip as opposed to a photodiode along with the
uniquely coded light beam from an emitter provides the ability to track the position and
tolerate movement
Foreign light intrusion
─ The Imager is fitted with a dyed glass filter, designed to be almost opaque except to all but
two wavelengths of interest
Superando los Retos Tradicionales
Instalación y Comisionamiento
ORConventional
Beam Setup
Montaje
Mounted using bracket
─ Use Mounting Bracket Drilling template
─ Mount straight and flush on the surface
Mounted Directly
─ Use Rear Assembly Drilling Template
Alineamiento
Align the Imager first then each emitter
The Laser Alignment screwdriver is inserted into the alignment
hole (2).
Adjust the optical sphere (1) until the laser beam from the
pointer is aligned.
─ Angle adjustment ±60° horizontal and ±15° vertical
Rotate the Laser Alignment tool to lock optical sphere in place.
Locking the sphere activates the emitter
Calculos Geométricos de Cobertura
La distancia de cobertura vertical
(FOV) es típicamente la mitad de
la horizontal
Calculos Geométricos de Cobertura Vertical90° Imager: 80° FOV
Vertical plane
Cálculos Geométricos de Cobertura Horizontal90° Imager: 80° FOV
Horizontal plane
D max = 34 m
Cubierta Protectora─ Designed to not interfere with the operation
of the protected unit
─ Fast and easy installation
─ Simple removal for servicing the units
─ Constructed from 9 gauge galvanized steel
rod
─ Plastic coated for durability and use in harsh
environments
─ Protects against vandalism or accidental
damage
OSID-WG
Housing to be used in wet, dusty, corrosive
and cold environments─ IP65 with glass window
─ Imager housing with glass for LED visualisation
─ Mounting plate with screws for fixed mounting
─ Competitively priced
─ Minimal loss of beam distance
Gabinetes para diferentes ambientes
Min (m)
Max (m)
HP Min (m)
HP Max (m)
OSI-10 25 125 - -
OSI-45 13 50 25 100
OSI-90 5 28 10 57
OSI-90 corners - 23 - 45
Next steps─ IP65 with thermo-controlled heater
─ (IP65 with cooler ?)
Detección más rápida que los beams tradicionales que solo tienen señal IR
Detección Extremadamente Fiable
Instalación, comisionamiento y mantenimiento muy sencillos y fáciles de hacer
Amplio Rango de Detección (hasta 150 mts)
Altísima Tolerancia contra Vibración y Movimientos Estructurales del Area
Alta Resistencia a polvo, humedad, vapores, reflejos de luz artificial y
obstrucción de objetos (montacargas, anuncios publicitarios, cartéles, etc)
Alta resistencia a reflejos por la luz natural
Estetica y amplia cobertura 3D
Que Beneficios Reales Tenemos Entonces con OSID la Detección de Tecnología Dual?