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Fire Sentry Corporation
2 Stage Electro-Optical
Fire Detectors
for
Semiconductor Wet Benches
Prevent Costly Clean Room Fire Damage and
Business Interruptions
“World Leader in Electro-Optical Fire Detection Technology”
Fires Cause Major Losses to
Semiconductor Fabs
Over 1,000 semiconductor fabs worldwide totaling $1 Trillion US dollars in assets
are at risk due to fire in tools constructed of combustible materials using flammable
solvents and gasses.
Business disruption losses due to these fires can be more costly than property
damage.
In the USA, the average is 2 to 8 weeks production downtime resulting in business
interruption.
In the USA, property damage costs from fire range from $2 million to $60 million
US dollars.
Two recent international semiconductor fabs were severely damaged due to
catastrophic fires resulting in $1 Billion US dollars in property damages and
unrecoverable production downtimes.
In the USA during 1995, there was one fire loss for every 10 insured fabs with an
average loss in excess of $8 Million US dollars.
Property Damage and Business
Interruptions are due to:
Fire itself.
Black smoke caused by the fire.
Corrosive by-products of smoke caused by
fire.
Fire Hazards
Wet Benches manufactured from Polypropylene or
PVC
Flammable chemicals such as isopropyl alcohol
(IPA), acetone, etc.
Flammable gasses, such as Silane and Hydrogen
Wet Benches and tools manufactured from nonburn materials but using flammable gases and
chemicals
Fire Hazards
Semiconductor tools constructed of plastic
combustible materials that may present a serious fire
threat in the clean room are:
1. Steppers
2. Plating benches.
3. Spray acid tools.
4. Ion Implanters.
5. Spray Coaters.
Cleaning equipment using flammable chemicals such
as IPA and acetone
Fire Hazards
Silane & Hydrogen gas cylinder cabinets.
Valve manifold boxes that regulate flammable
gasses.
Outdoor bulk gas storage and distribution areas
for silane, hydrogen and other flammable gasses
Central Chemical Supply Systems
Chemical Storage Areas
Traditional Fire Detection Apparatus
Heat-Activated Sprinklers
Heat-activated sprinklers alone are inadequate to prevent extensive
damage to wet benches because they are slow to react to a fire.
Once a tool, such as a wet bench, constructed of plastic,
(i.e., polypropylene, PVC, etc.), catches on fire, the fire burns with
such intensity that heat-activated overhead sprinklers CANNOT
contain the fire damage. The resulting black, corrosive smoke
permeates the clean room contaminating costly product, processing
equipment, and the clean room surface environment.
Wet benches have enclosed hidden compartments and obstructions
which typically are not protected by sprinklers.
Overhead sprinklers do not meet the business needs of the
Semiconductor Industry and the Insurance Companies.
Smoke, Aspirating Smoke, and Heat Detectors
High air flow in wet benches prevents fast detection, therefore the
response time is too slow for wet bench fire detection.
By the time smoke or heat detectors do respond, the polypropylene
is fully burning and releasing black smoke into the clean room and
it may not possible to extinguish the fire.
Smoke and heat detectors are not sealed in leak-proof and
corrosion-proof housings, and should not be installed inside the
plenum and on the surface areas of wet benches.
Electro-Optical Fire Detectors
Electro-Optical Fire Detectors provide
Fast Detection of Wet Bench Fires
Electro-Optical Fire Detectors with a Two-Stage Alarm respond before
damaging black, corrosive smoke, (from a fully burning polypropylene
fire), is released and permeates the Clean Room.
Each detection stage level is based on the radiant heat output of the
fire, not the time period of the fire, which only the Fire Sentry
Multi-Spectral Wide Band IR™ fire sensing technology can provide,
(detects over 88% of the fire’s spectral radiant energy).
A Two-Stage fire response approach avoids costly destruction of inprocess product while providing early warning that a fire exists in the
bench.
Infrared Sensor Wavebands
Near Band
Infrared
0.7 to 1.1
Microns
0.7 1.1
3.5
4.3
1st Stage Response - Alert
Alert condition, (4kw fire), energizes a relay for external audible
and visual alarms to notify operators of the Fire Early Warning
condition.
Alert provides time for operators to select the following actions to
deal with the fire condition:
1. Wait to finish the chip production batch if a fire is non-threatening and
appears to be retreating and may self-extinguish on its own.
2. Apply a localized suppression agent with a portable extinguisher.
3. Manually shut off electrical power to the wet bench, which potentially
could be the ignition source.
TM
4. Download FirePic which records 8 seconds of Detector spectral data
preceding the fire, to enable a postulation of the cause of the fire.
2nd Stage Response - Alarm
If the fire still exists and grows to the Factory Mutual specified
heat level criteria of 13 kW*, the following occurs:
1. Energize relays for remote annunciation
notifying operators of the Fire ALARM
condition, and signal for suppression release.
2. Automatically shut off electrical power to the
wet bench.
3. FirePic data stored in the detector’s non-volatile
memory.
* 13kW is the equivalent of a 8” polypropylene fire 8 feet from the detector. This
level of energy will not ignite polypropylene
Two-Stage Early Warning
Electro-Optical Fire Detection
May also be used for:
Plating Benches
Steppers
Ion Implanters
Spray Coaters
Spray Acid Tools
Gas Cabinets
FSC Electro-Optical Fire Detection
Advantages & Benefits
1.
Wide Band IRTM (0.7 to 3.5 microns) sees all hydrocarbon & non-hydrocarbon fires,
(i.e., polypropylene, IPA, acetone, silane, hydrogen, etc.)
2.
Wide Band IR sees through smoke, gasses, fumes, chemical vapors, as well as
fire suppression agents such as water mist, FM200, and CO2, (should the fire reflash).
3.
Wide Band IR provides an accurate measure of Factory Mutual’s 13 kW fire alarm
criteria.
4.
No false alarms which could cause product loss and production downtime.
5.
No Ultraviolet sensors, as UV is easily blinded by smoke, acetone, suppression
agents, etc. UV is susceptible to false alarms.
6.
Two-Stage response to fire provides an early warning that a fire exists.
FSC Electro-Optical Fire Detection
Advantages & Benefits
7.
Solid-state Wide Band Infrared, Near Band Infrared and Visible sensors,
and digital electronics for stability, long-life, and reliability.
8.
Automatic electro-optical test source to assure Detector
operational readiness at all times.
9.
Wide 120 degree field-of-view
10. Built-in temperature compensation using temperature transducer & software
11. Leak-proof, heat-sealed, corrosion-proof housing rated for IP67 with corrosionproof cabling, enables the Fire Detectors to be installed in plenum areas.
12. Ease of Installation using Detector snap slide mounting brackets
FSC Electro-Optical Fire Detection
Advantages & Benefits
13. FirePic™ stores in detector’s non-volatile memory Alert and Alarm Fire data
for up to six 8 second fire events.
14. User-friendly PC software for monitoring:
a. Graph on a PC screen in real-time what the installed Detector “sees”.
b. Display and save FirePic Alert and Alarm fire data for up to
six 8 second fire events.
c. Event Log downloads a Controller’s and/or Detector’s event history.
d. Documented Certification provides hard-copy of system configuration data.
15. Proven track record with large installed user base worldwide.
16. FM Approved family of stand alone detectors and detector/controller
combinations for all types of applications.
Fire Sentry Fire Detectors for
Semiconductor Applications
Wet Benches and Tools
Model FS7-2173 Fire Detector, used with:
- Model FS7-130-SX Controller (12 Detectors)
- Model S7-2175 Controller (22 Detectors)
- Model FSWB-1 Wall Mount Controller (7 Detectors)
Model FS7-2173-2RP Stand Alone Fire Detector with
Alert, Alarm and Fault relays
Fire Sentry Controllers
Model FS7-130-SX Controller (12 Detectors)
- designed to work with new or existing Fire control panels
- 4 programmable zones
Fire Sentry Controllers
Model S7-2175 Controller (22 Detectors)
- 24 hour battery back up
- Single Zone
Fire Sentry Controllers
Model FSWB-1 Wall Mount Controller (7 Detectors)
- 24 hour battery back up
- Single Zone
- Outputs for Suppression Release and Annunciators
- Inputs for smoke, heat & gas detection
Fire Sentry Fire Detectors for
Semiconductor Applications
Silane Gas Cabinets and Silane Bulk Storage
Model SS4-A UV/IR Fire Detector
- Explosion-proof
- Fire Alarm, Verified Fire Alarm
& Fault Relays
- use unitized or with CM1-A Wallmount
Controller
FSC Electro-Optical Fire Detection
Review
Overhead Heat-Activated Sprinklers are too slow.
Ionization and Photoelectric Smoke Detectors, Aspirating Smoke Detection
Systems, and Heat Detectors are too slow.
Fire Sentry’s Electro-Optical Fire Detectors are fast. The fire is caught
BEFORE fire damage and smoke permeation.
No false alarms due to Digital Signal Processing and Wide Band IR
Technology
Thousands of proven detector operating hours. Used by all major
semiconductor manufacturers. The worldwide industry standard.
Application and Installation
of Electro-Optical
Fire Detection
for Semiconductor Wet Benches
Inverse Square Law
As a fire event is located closer to a Detector, the Detector’s ALARM activation
threshold is correspondingly reduced by the “Inverse Square Law”
13 kW
1.6 kW
8ft
7ft
6ft
5ft
4ft
3ft
2ft
Distance
FS7-2173 Fire Detector will ALARM to a 13 kW fire at 8 ft,
which is the equivalent of:
a 1.6 kW fire at 2 ft
or
a 0.4 kW fire at 1 ft
0.4 kW
1ft
Model FS7-217
Electro-Optical
Fire Detector
Potential Fire Ignition Sources
Heaters
Transformers
Terminal Blocks
Power Cable Connections
Static Electricity
Chemical Reactions
Flammable liquids in Plastic Heated Modules
Fire Control Panel Actions
Audible and Visual Warnings via Horn/Strobe
mounted on Wet Bench or in immediate area
Wet Bench Electrical Shutdown, in ALARM response,
via Power Control Module, (Emergency Off)
Notify Facility Alarm System of fire, via Control Panel
outputs
Location of Electro-Optical Fire Detectors
in a typical 34 ft Wet Bench
Head Case
Surface Area detection, includ
robot deck area across
Process Tanks
Plenum Area under Process Tanks
Robot Wafer Load and Unload Area
Equipment Area behind Wet Bench
Typical location of Fire Detectors, Control Panel, Manual
Pull Station and Horn/Strobe in a 34 ft Wet Bench
Model S7-2175 Control Panel Horn/Strobe
with Model S7-2177-2
24 hour Battery Back-Up Panel
Note:
Model FS7-2173 has a
120 Degree Field of View
Manual Pull
Station
FS7-2173 Electro-Optical
Fire Detector
Headcase
FS7-2173 Electro-Optical
Fire Detector
Working SurfaceEquipment
Area
Robot
Area
Process
Tank
Plenum
Side View
Fire Detection System Schematic for 34 ft
Wet Benches
Emergency Off (EMO)
Alarm Output
to Plant Facilities
FS7-2173
Fire Detector
FS7-2173
Fire Detector
FS7-2173
Fire Detector
Model S7-2178
Power Control Module
Horn/Strobe
Manual Pull
Station
FS7-2173
Fire Detector
Model
S7-2175
Control
Panel
S72179
JB
S72179
JB
Up to total of 22
FS7-2173 Fire
Detectors
S72179
JB
24VDC
Model S7-2177-2
Battery Back-Up
Panel
120VAC
FS7-2173
FS7-2173
Fire Detector Fire Detector
FS7-2173
Fire Detector
Typical location of FS7-2173 Fire Detectors in a
Small Wet Bench - Front View
Headcase
Headcase
Working Surface
Model FS7-2173
Fire Detectors
Note: Detector has a 120
Degree Field of View
Field of View
Field of View
Plenum
Front View
Typical location of FS7-2173 Electro-Optical Fire
Detectors in a Small Wet Bench - Side View
FS7-2173
Fire Detectors
Note: Detector has a 120 Degree
Field of View
Field of View
Process
Tank
Plenum
Equipment
Area
FS7-2173
Fire Detectors
Side View
Typical Location and Quantities of FS7-2173 Fire
Detectors in Different Size Wet Benches
No. of FS7-2173 Fire Detectors
8 foot Wet Bench
Description of Detector Location
34 foot Wet Bench
Plenum Areas Underneath the Process Tanks
2
5
Surface Area, including Robot Deck Area across Process Tanks
1
5
Equipment Area behind Wet Bench
2
5
N/A
2
1
2
Robot Load and Unload Areas
Head Case Area
___________________________
Total
7
22
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“World Leader in Electro-Optical Fire Detection Technology”