VESDA-E VEP is a new aspirating smoke detection system that introduces several improvements over previous VESDA systems. It features the new Flair detection chamber that provides 1.5 times greater sensitivity and 3 times better dust rejection compared to earlier technologies. VESDA-E VEP also introduces StaX modules that allow for flexible expansion and introduce capabilities like automatic pipe cleaning. The system is designed to lower total cost of ownership through ease of installation, commissioning, monitoring and maintenance compared to older VESDA systems.
The document discusses smoke detection solutions for challenging environments. It describes trade-offs between optimizing protection, detection capabilities, and costs. Challenging environments can complicate achieving protection due to conditions that cause false alarms or reduce detector longevity. Newer technologies like open-area smoke imaging detection and industrial very early warning smoke detection can help address challenges by improving sensitivity, resistance to environmental factors, and reducing false alarms. The document provides examples of how these technologies have been applied successfully in difficult environments like industrial sites, metro stations, and farms.
SenseTek supplies the technical manual of the older aspirating system manufactured by Kidde Airsense. also the filters #30072. For Kidde Airsense Stratos HSSD, Chubb Atmosfire
The document provides installation and operation instructions for the ModuLaser Modular Aspirating Smoke Detector, including an overview of the system components, module types, installation procedures, electrical connections, configuration options, maintenance instructions, and technical specifications. It describes the minimum, standard, and command display modules, the detector module, and how to install them along with piping and electrical connections to integrate the detector into a fire alarm system.
Stratos is a multi-channel aspirating smoke detection system that uses a modular design to make installation, maintenance, and expansion easier compared to traditional air sampling detectors. It has separate detector modules that can each monitor up to 100 meters of piping, for a total of up to 800 meters across 8 zones. This efficient layout reduces costs. Stratos is suitable for a wide range of applications due to its resistance to dust and dirt, its ability to avoid nuisance alarms, and its scalable design that allows detectors to be placed in more accessible locations away from the protected area.
SenseTek support the stratos HSSD master-slave systems although they aren`t manufactured anymore. for filters 30072 or other spare parts call sensetek.nl
This document summarizes a high level interface that allows Simplex fire alarm control panels to communicate with and receive status information from VESDA air aspiration smoke detection systems. The interface allows the fire panel to monitor multiple VESDA detectors and receive early warnings of low-level smoke detection. It is suited for mission critical facilities that require very early detection of smoke to minimize downtime or damage.
The Stratos-Micra 100 is a small, low-cost aspirating smoke detector that uses laser-based light scatter detection for early warning. It has two sampling pipes up to 100m total and ClassiFire artificial intelligence that adjusts operating parameters for changes in the environment. Unwanted alarms from dust are avoided using a laser dust discrimination system. It is designed to fit in a docking station for easy installation and protection.
VESDA-E VEP is a new aspirating smoke detection system that introduces several improvements over previous VESDA systems. It features the new Flair detection chamber that provides 1.5 times greater sensitivity and 3 times better dust rejection compared to earlier technologies. VESDA-E VEP also introduces StaX modules that allow for flexible expansion and introduce capabilities like automatic pipe cleaning. The system is designed to lower total cost of ownership through ease of installation, commissioning, monitoring and maintenance compared to older VESDA systems.
The document discusses smoke detection solutions for challenging environments. It describes trade-offs between optimizing protection, detection capabilities, and costs. Challenging environments can complicate achieving protection due to conditions that cause false alarms or reduce detector longevity. Newer technologies like open-area smoke imaging detection and industrial very early warning smoke detection can help address challenges by improving sensitivity, resistance to environmental factors, and reducing false alarms. The document provides examples of how these technologies have been applied successfully in difficult environments like industrial sites, metro stations, and farms.
SenseTek supplies the technical manual of the older aspirating system manufactured by Kidde Airsense. also the filters #30072. For Kidde Airsense Stratos HSSD, Chubb Atmosfire
The document provides installation and operation instructions for the ModuLaser Modular Aspirating Smoke Detector, including an overview of the system components, module types, installation procedures, electrical connections, configuration options, maintenance instructions, and technical specifications. It describes the minimum, standard, and command display modules, the detector module, and how to install them along with piping and electrical connections to integrate the detector into a fire alarm system.
Stratos is a multi-channel aspirating smoke detection system that uses a modular design to make installation, maintenance, and expansion easier compared to traditional air sampling detectors. It has separate detector modules that can each monitor up to 100 meters of piping, for a total of up to 800 meters across 8 zones. This efficient layout reduces costs. Stratos is suitable for a wide range of applications due to its resistance to dust and dirt, its ability to avoid nuisance alarms, and its scalable design that allows detectors to be placed in more accessible locations away from the protected area.
SenseTek support the stratos HSSD master-slave systems although they aren`t manufactured anymore. for filters 30072 or other spare parts call sensetek.nl
This document summarizes a high level interface that allows Simplex fire alarm control panels to communicate with and receive status information from VESDA air aspiration smoke detection systems. The interface allows the fire panel to monitor multiple VESDA detectors and receive early warnings of low-level smoke detection. It is suited for mission critical facilities that require very early detection of smoke to minimize downtime or damage.
The Stratos-Micra 100 is a small, low-cost aspirating smoke detector that uses laser-based light scatter detection for early warning. It has two sampling pipes up to 100m total and ClassiFire artificial intelligence that adjusts operating parameters for changes in the environment. Unwanted alarms from dust are avoided using a laser dust discrimination system. It is designed to fit in a docking station for easy installation and protection.
This document is the safety manual for the Dräger Pulsar 7000 Series gas detection system. It outlines the assumptions and requirements for using the system in a safety instrumented system (SIS) in accordance with IEC 61508 standards. The key assumptions include following installation, operation, and maintenance instructions; performing regular calibrations and proof tests; using approved accessories; and configuring the system within specified parameters. The safety function of the gas detection system is to continuously monitor gas concentrations and output a 4-20 mA current signal accordingly.
The Dräger Pulsar 7700/7900 is a stationary open-path gas detector that can detect potentially explosive hydrocarbons like methane and propane from up to 200 meters away within two seconds. It has a robust stainless steel design and fast-responding sensor that make it reliable for use in the oil, gas, and chemical industries. The system includes a transmitter that emits a signal, a receiver that detects the signal, and accessories like a weather guard and handheld terminal for alignment and diagnostics. It provides reliable detection even in adverse weather and can continuously self-test for safety.
The Stratos-HSSD is a high sensitivity aspirating smoke detector that can detect smoke and particles as small as 0.003μ. It uses laser-based light scattering and patented dust discrimination to provide early warning with minimal nuisance alarms. It has 4 sampling pipes that can extend up to 250m total length. The detector automatically adjusts its sensitivity using artificial intelligence to optimize performance for the environment. It is suitable for applications like computer rooms, clean rooms, casinos, and more.
This document provides installation instructions for the Stratos-Quadra aspirating smoke detection system. It describes how to install sampling pipes to draw air samples from protected areas into the detector unit for analysis. It also covers electrical connections to the terminal board and programming the internal controls. Installation requires routing sampling pipes with inlet ports to the detection areas and exhaust ports returning air to the same pressure zone. The detector cabinet mounts to a wall and connects to a fire alarm panel via the terminal board.
De Stratos HSSD 2 aspiratiedetector biedt een gevoeligheidspotentieel dat zijn gelijke niet kent en biedt de vroegst mogelijke alarmering waarbij de kans op ongewenste meldingen tot een minimum beperkt blijft.
De Stratos HSSD 2 detector bevat vele unieke functies die de werking te optimaliseren en zorgen voor een veel hogere betrouwbaarheid dan aspiratiesystemen van andere fabricaten. De detector bevat het gepatenteerde kunstmatige intelligente systeem Classifire dat er voor zorgt dat de detector altijd met een optimale gevoeligheid voor de te bewaken ruimte functioneert.
Tijdens het inschakelen van de detector configureert Classifire de detector automatisch. Tevens zorgt het systeem ervoor dat de detector zich gedurende zijn volledige levensduur blijft optimaliseren waardoor deze ook optimaal blijft functioneren wanneer eventuele veranderingen in het te bewaken gebied optreden.
SenseTek
Brandbeveiliging | Apiratiesystemen | Thermische kabelsystemen | Beamdetectie | Vlamdetectie | Vloeistofdetectie | Voedingen | Proefbrandmateriaal
Draeger X-act 7000 lets you precisely measure gases in the low parts per billion (ppb) range on site. It's easy to use, simply insert the Draeger MicroTubes, begin measuring, results are displayed on the display. Gas detectable are Benzene, 1,3 Butadiene, Ethylene Oxide, Formaldehyde & finally Mercury for the first time.
Orion Instruments Jupiter Magnetostrictive Level TransmitterMiller Energy, Inc.
The Jupiter JM4 Magnetostrictive level transmitter from Orion Instruments is the newest and most advanced level instrument to date. The JM4 is available as a direct insertion option, as well as an external mount on any Orion magnetic level indicator (MLI) or modular instrumentation bridle. With an improved design, unparalleled performance, and a collection of new and innovative features, the JM4 provides safer, simpler, and smarter measurement in total and interface level applications.
The Dräger X-am 7000 is a modular and rugged gas detection instrument that can continuously monitor up to 5 gases simultaneously. It features intuitive software, various sensor options to detect over 100 gases, and is water-tight and durable design to withstand harsh industrial environments. An integrated pump allows for sampling of gases through long hoses. Alarms and data logging capabilities provide safety and record keeping.
The document describes the Fire-Lite InnovairFlex D355PL(A) and DNRW intelligent non-relay photoelectric duct smoke detectors. The detectors feature a pivoting housing that fits both square and rectangular ducts and can mount to round or rectangular ducts. The DNRW model has a NEMA-4 rating making it watertight and UV resistant for extreme environments. The detectors operate in airflows from 100-4000 feet per minute, temperatures from -4°F to 158°F, and humidity from 0-95%. Accessories include remote test stations and accessories for visible and audible annunciation.
Adt advertorial-jed-rz-x4-print final-v2Jerlin Lee
The document discusses using commercial vector signal generators and software to test radar warning receivers. It describes how:
1) The R&S SMW200A generator can simulate complex radar scenarios by streaming high speeds of pulse descriptor words and generating various pulse types including FMCW and modulated pulses.
2) The R&S Pulse Sequencer software allows defining multi-emitter scenarios and optimizing test cases using 3D visualization and fast results.
3) Coupled R&S SMW200A generators can simulate angle of arrival of signals and overlap pulses to test receivers in realistic conditions.
The document describes an open-path gas detection system called SafEye 700S. It uses xenon flash technology to detect gas leaks over long distances without needing detectors placed directly in the area. The system can detect leaks over paths of up to 460 feet and provides accurate readings of gas concentration in LEL-meters. It is designed for harsh industrial environments and offshore oil and gas facilities to detect flammable gas leaks.
ModuLaser is a scalable aspirating smoke detection solution that makes installation easier, monitoring and control more flexible and maintenance faster. It does this by compartmentalizing detection equipment and status display and control equipment into
separate housings. This division of components results in a unique modular design that
overcomes many of the wiring and piping pitfalls associated with air aspirating equipment
Draeger cataloger for fire & gas detection solution in region Australia, New Zealand, PNG & Pacific Islands. Please contact us for any further information.
The document describes the Altair 5X Multigas Detector, which features advanced MSA X-Cell sensor technology. The detector provides reliable gas detection through durable construction and sensors with extended life spans. It offers configurable options to monitor up to six gases simultaneously. The detector is compatible with MSA's testing and monitoring systems for comprehensive safety solutions.
www.sensetek.nl
Branddetectie | Aspiratiesystemen | Thermische kabelsystemen | Beamdetectie | Vlamdetectie | Vloeistofdetectie | Voedingen | Proefbrandmateriaal
Specificaties voor het kleinste ASD systeem van Kidde Airsense. Stratos Nano aspiratiedetectie. Bel voor informatie naar de adviseurs van SenseTek. of kijk op de website
The document discusses codes and standards related to aspirating smoke detection systems. It outlines requirements from NFPA 72, 75, and 76 regarding detector spacing, area coverage, sensitivity levels, transport times, and other design considerations for very early warning fire detection (VEWFD) and early warning fire detection (EWFD) systems. Key points include reduced spacing for aspirating systems compared to spot-type detectors, sensitivity levels of 0.2%/ft for alert and 1.0%/ft for alarm in VEWFD systems, and maximum transport times of 60 seconds for VEWFD and 90 seconds for EWFD systems.
Raritan Environment Sensors for Data CentersRaritan
Environment sensors are an easy to install, cost-effective way to reduce energy costs, improve reliability,
and increase capacity for future data center growth. By using environmental sensors you can optimize your
data center ecosystem to ensure that you are meeting equipment guidelines, reducing operational costs,
deferring capital investments, and improving your power usage effectiveness (PUE).
The Thermo Scientific NextGuard x-ray detection system provides cost-effective and sensitive detection of foreign objects in packaged food products. It uses a unique non-linear x-ray detector design that eliminates inspection blind spots and ensures 100% detection for any product size or shape. The system offers options for customization, easy maintenance, and is designed for use in compliance with worldwide food safety standards.
This document is the safety manual for the Dräger Pulsar 7000 Series gas detection system. It outlines the assumptions and requirements for using the system in a safety instrumented system (SIS) in accordance with IEC 61508 standards. The key assumptions include following installation, operation, and maintenance instructions; performing regular calibrations and proof tests; using approved accessories; and configuring the system within specified parameters. The safety function of the gas detection system is to continuously monitor gas concentrations and output a 4-20 mA current signal accordingly.
The Dräger Pulsar 7700/7900 is a stationary open-path gas detector that can detect potentially explosive hydrocarbons like methane and propane from up to 200 meters away within two seconds. It has a robust stainless steel design and fast-responding sensor that make it reliable for use in the oil, gas, and chemical industries. The system includes a transmitter that emits a signal, a receiver that detects the signal, and accessories like a weather guard and handheld terminal for alignment and diagnostics. It provides reliable detection even in adverse weather and can continuously self-test for safety.
The Stratos-HSSD is a high sensitivity aspirating smoke detector that can detect smoke and particles as small as 0.003μ. It uses laser-based light scattering and patented dust discrimination to provide early warning with minimal nuisance alarms. It has 4 sampling pipes that can extend up to 250m total length. The detector automatically adjusts its sensitivity using artificial intelligence to optimize performance for the environment. It is suitable for applications like computer rooms, clean rooms, casinos, and more.
This document provides installation instructions for the Stratos-Quadra aspirating smoke detection system. It describes how to install sampling pipes to draw air samples from protected areas into the detector unit for analysis. It also covers electrical connections to the terminal board and programming the internal controls. Installation requires routing sampling pipes with inlet ports to the detection areas and exhaust ports returning air to the same pressure zone. The detector cabinet mounts to a wall and connects to a fire alarm panel via the terminal board.
De Stratos HSSD 2 aspiratiedetector biedt een gevoeligheidspotentieel dat zijn gelijke niet kent en biedt de vroegst mogelijke alarmering waarbij de kans op ongewenste meldingen tot een minimum beperkt blijft.
De Stratos HSSD 2 detector bevat vele unieke functies die de werking te optimaliseren en zorgen voor een veel hogere betrouwbaarheid dan aspiratiesystemen van andere fabricaten. De detector bevat het gepatenteerde kunstmatige intelligente systeem Classifire dat er voor zorgt dat de detector altijd met een optimale gevoeligheid voor de te bewaken ruimte functioneert.
Tijdens het inschakelen van de detector configureert Classifire de detector automatisch. Tevens zorgt het systeem ervoor dat de detector zich gedurende zijn volledige levensduur blijft optimaliseren waardoor deze ook optimaal blijft functioneren wanneer eventuele veranderingen in het te bewaken gebied optreden.
SenseTek
Brandbeveiliging | Apiratiesystemen | Thermische kabelsystemen | Beamdetectie | Vlamdetectie | Vloeistofdetectie | Voedingen | Proefbrandmateriaal
Draeger X-act 7000 lets you precisely measure gases in the low parts per billion (ppb) range on site. It's easy to use, simply insert the Draeger MicroTubes, begin measuring, results are displayed on the display. Gas detectable are Benzene, 1,3 Butadiene, Ethylene Oxide, Formaldehyde & finally Mercury for the first time.
Orion Instruments Jupiter Magnetostrictive Level TransmitterMiller Energy, Inc.
The Jupiter JM4 Magnetostrictive level transmitter from Orion Instruments is the newest and most advanced level instrument to date. The JM4 is available as a direct insertion option, as well as an external mount on any Orion magnetic level indicator (MLI) or modular instrumentation bridle. With an improved design, unparalleled performance, and a collection of new and innovative features, the JM4 provides safer, simpler, and smarter measurement in total and interface level applications.
The Dräger X-am 7000 is a modular and rugged gas detection instrument that can continuously monitor up to 5 gases simultaneously. It features intuitive software, various sensor options to detect over 100 gases, and is water-tight and durable design to withstand harsh industrial environments. An integrated pump allows for sampling of gases through long hoses. Alarms and data logging capabilities provide safety and record keeping.
The document describes the Fire-Lite InnovairFlex D355PL(A) and DNRW intelligent non-relay photoelectric duct smoke detectors. The detectors feature a pivoting housing that fits both square and rectangular ducts and can mount to round or rectangular ducts. The DNRW model has a NEMA-4 rating making it watertight and UV resistant for extreme environments. The detectors operate in airflows from 100-4000 feet per minute, temperatures from -4°F to 158°F, and humidity from 0-95%. Accessories include remote test stations and accessories for visible and audible annunciation.
Adt advertorial-jed-rz-x4-print final-v2Jerlin Lee
The document discusses using commercial vector signal generators and software to test radar warning receivers. It describes how:
1) The R&S SMW200A generator can simulate complex radar scenarios by streaming high speeds of pulse descriptor words and generating various pulse types including FMCW and modulated pulses.
2) The R&S Pulse Sequencer software allows defining multi-emitter scenarios and optimizing test cases using 3D visualization and fast results.
3) Coupled R&S SMW200A generators can simulate angle of arrival of signals and overlap pulses to test receivers in realistic conditions.
The document describes an open-path gas detection system called SafEye 700S. It uses xenon flash technology to detect gas leaks over long distances without needing detectors placed directly in the area. The system can detect leaks over paths of up to 460 feet and provides accurate readings of gas concentration in LEL-meters. It is designed for harsh industrial environments and offshore oil and gas facilities to detect flammable gas leaks.
ModuLaser is a scalable aspirating smoke detection solution that makes installation easier, monitoring and control more flexible and maintenance faster. It does this by compartmentalizing detection equipment and status display and control equipment into
separate housings. This division of components results in a unique modular design that
overcomes many of the wiring and piping pitfalls associated with air aspirating equipment
Draeger cataloger for fire & gas detection solution in region Australia, New Zealand, PNG & Pacific Islands. Please contact us for any further information.
The document describes the Altair 5X Multigas Detector, which features advanced MSA X-Cell sensor technology. The detector provides reliable gas detection through durable construction and sensors with extended life spans. It offers configurable options to monitor up to six gases simultaneously. The detector is compatible with MSA's testing and monitoring systems for comprehensive safety solutions.
www.sensetek.nl
Branddetectie | Aspiratiesystemen | Thermische kabelsystemen | Beamdetectie | Vlamdetectie | Vloeistofdetectie | Voedingen | Proefbrandmateriaal
Specificaties voor het kleinste ASD systeem van Kidde Airsense. Stratos Nano aspiratiedetectie. Bel voor informatie naar de adviseurs van SenseTek. of kijk op de website
The document discusses codes and standards related to aspirating smoke detection systems. It outlines requirements from NFPA 72, 75, and 76 regarding detector spacing, area coverage, sensitivity levels, transport times, and other design considerations for very early warning fire detection (VEWFD) and early warning fire detection (EWFD) systems. Key points include reduced spacing for aspirating systems compared to spot-type detectors, sensitivity levels of 0.2%/ft for alert and 1.0%/ft for alarm in VEWFD systems, and maximum transport times of 60 seconds for VEWFD and 90 seconds for EWFD systems.
Raritan Environment Sensors for Data CentersRaritan
Environment sensors are an easy to install, cost-effective way to reduce energy costs, improve reliability,
and increase capacity for future data center growth. By using environmental sensors you can optimize your
data center ecosystem to ensure that you are meeting equipment guidelines, reducing operational costs,
deferring capital investments, and improving your power usage effectiveness (PUE).
The Thermo Scientific NextGuard x-ray detection system provides cost-effective and sensitive detection of foreign objects in packaged food products. It uses a unique non-linear x-ray detector design that eliminates inspection blind spots and ensures 100% detection for any product size or shape. The system offers options for customization, easy maintenance, and is designed for use in compliance with worldwide food safety standards.
The Cloud Point test cell is first flushed through with a fresh sample. A small amount of sample is then isolated in the cell and allowed to settle for a predetermined period to allow any air bubbles or solids to separate. The sample cell is then cooled at a controlled rate by a Peltier cooler with excess heat being removed by a coolant. An optical detector senses when the sample is starting to become cloudy as waxy components start to precipitate. The temperature at which this occurs is taken as the cloud point
#Stratos_Micra_10 A30725 is het nieuwe aspiratiesysteem in de Airsense Stratos lijn. SenseTek kan u als distributeur adviseren welke toepassingen bij uitstek geschikt zijn voor de Micra 10. Bel of kijk op de website voor meer informatie.
This document provides information about TST Flaw Detection Technology Co., Ltd., including:
- They design, manufacture, and market flaw detection systems for wire ropes and conveyor belts.
- Their portfolio includes portable, real-time wire rope, and real-time conveyor belt detection systems (TST FDSysTM line), as well as customized solutions (TST FDSolTM line).
- They have installed hundreds of systems worldwide and help customers enhance safety, efficiency, and cost management.
The document describes the DrägerSensor IR, an infrared optical sensor for detecting combustible gases. It can replace existing pellistor or catalytic bead sensors without needing to adapt the control system or wiring. It provides reliable measurements across a wide temperature and humidity range. The sensor can detect various target gases and its signal emulation allows it to work with most control units. It has advantages such as failsafe operation and immunity to poisoning.
Drager Fixed Gas Detector - At The Heart Of Gas Detection Systems BrochureThorne & Derrick UK
This document discusses gas detection systems and focuses on electrochemical and catalytic gas sensors. It provides details on how electrochemical sensors use a chemical reaction between electrodes to detect gases. Catalytic sensors detect flammable gases by measuring the temperature increase caused by their catalytic oxidation. The document emphasizes that Dräger sensors are intelligently designed to work reliably with gas detectors to quickly and accurately identify hazards through stored sensor data and testing.
Bandweaver_Glasvezel loodsen en pakhuizen LHD.pdfHans Bronkhorst
Bandweaver fabrikant van glasvezelkabel wat gebruikt wordt voor thermische detectie in combinatie met de FireLaser controller heeft een case study gepresenteerd met daarin de voordelen van LHD in warehouses, magazijnen en loodsen. het gebruik van thermische detectie middels glasvezel is een veel beproefde manier om snel temperatuurstijging te meten in grote gebouwen zoals loodsen of magazijnen. Vanwege het aanwezig stof en vuil is rook detectie vaak geen optie. Door de jaren heen heeft SenseTek, distributeur van de glasvezel, veel ervaring opgedaan met thermische lint detectie. De sensorkabel is een veel gebruikte methode maar is voor loodsen en magazijnen een lastige kabel om te monteren vanwege het gewicht, dikte en stugheid. De glasvezelkabel is dun, licht en flexibel en daarom eenvoudig te monteren tussen stellingen of aan het plafond. Voor lengtes langer dan 1.000meter is de glasvezelkabel tevens een goedkopere oplossing dan de sensorkabel. De glasvezelkabel kent vele toepassingen zoals de magazijnen of loodsen maar ook zeker in parkeergarages is de glasvezelkabel de beste keuze voor de erkende branddetectie bedrijven als ook voor de eindgebruiker. SenseTek is specialist op het gebied van vroegtijdige branddetectie en kan u adviseren bij uw specifieke projecten als het gaat om brandbeveiliging. bekijk de site van sensetek op https://www.sensetek.nl/producten/glasvezelkabel
www.envimart.vn - ĐT: 028 77727979 - sales@envimart.vn - Nền tảng cung cấp thiết bị, vật tư ngành nước và môi trường. Chuyên cung cấp vật tư cho dự án xử lý nước sạch, nước thải và môi trường. Envimart luôn đồng hành, tin cậy với đối tác nhà thầu, nhà tích hợp và người sử dụng.
The document discusses ProTrac, a radiation-based process instrumentation system from VEGA for measuring level, density, and mass flow under difficult process conditions. It can provide reliable measurements in extreme temperatures, pressures, or with problematic media. ProTrac uses different detector types, including flexible plastic detectors, PVT rod detectors, and compact detectors, allowing flexibility for various applications. It has integrated safety and self-monitoring features and is developed to SIL2 standards. The document provides examples of ProTrac applications in cement production, polyester melt processes, flue gas desulfurization, and clinker conveyor belts.
The ChemDAQ Steri-Trac gas monitoring system provides toxic gas detection and workplace safety. It features a modular design that allows for custom configurations, and a sensor exchange program that reduces operating costs by replacing sensors every 4 months without requiring on-site calibration. The system monitors ethylene oxide, hydrogen peroxide, ozone, and peracetic acid, and provides trend analysis and early warnings via software.
The document describes the GE VaporTracer, a handheld device that can detect microscopic traces of explosives and narcotics in seconds using ion trap mobility spectrometer (ITMS) technology. It was developed with support from the U.S. Counter-Drug Technology Development Program to help agencies like Customs and Border Protection. The VaporTracer can perform both particle and vapor sampling for flexibility and has applications in places like airports, government buildings, and prisons.
The Sensepoint Pro is a fixed gas detector that provides comprehensive monitoring of flammable, toxic, and oxygen gas hazards both indoors and outdoors. It can be configured and adjusted remotely without opening the unit using an intrinsically safe remote control. This enables one-person, non-intrusive operation and reduces maintenance time and costs. The Sensepoint Pro comes with all necessary accessories for easy installation and is suitable for wall or pole mounting.
The retractable housings are intended solely for measurement tasks in conjunction with the specified METTLER TOLEDO electrodes/sensors, namely pH and redox (ORP) combined electrodes as well as dissolved oxygen (DO) or conductivity sensors.
Designed to provide thorough, continuous monitoring of many hazardous gases, the indoor/outdoor Ultima X Series Gas Monitors offer excellent performance and MSA quality craftsmanship. DuraSource™ Technology offers extended sensor life, while HART provides convenient setup, calibration and diagnostics. HART also allows for existing component install and wiring to be used. A single circuit board increases reliability, while our patented sensor disconnect-underpower feature allows all sensors to be replaced in hazardous areas without area declassification. The units are crafted from either stainless steel or polycarbonate, and the interchangeable smart sensors eliminate the need for reconfiguration. Our scrolling LCD screen display sensor reading and gas type, while the calibration process includes date stamping and the ability to calibrate locally or remotely.
Designing, implementing and maintaining a truly universal approach to gas detection.
Protecting your people and your physical plant, while ensuring business continuity, are the most important functions of a xed gas detection solution. Engineering a reliable, high-performance sys- tem that makes it easier and more cost effective to meet this challenge is the driving force behind a truly universal approach to gas detection.
This white paper is about the evolution and bene ts of designing, implementing and maintaining a truly universal approach to gas detection. Our intention is to help you use this information, based on “universal truths,” to evaluate your current system and project the impact of next-generation gas detection on your organization’s safety and productivity in a global economy.
Similar to Stratos hssd master slave brochure senseTek-nl (20)
De nieuwe meldertester van DetectorTesters is vanaf januari 2024 verkrijgbaar bij SenseTek de #XTR2 is sneller effectiever en werkt in de cloud om de gebruiker beter te assisteren bij het testen van de puntmelders. De XTR2 staat momenteel naast de Testifire 1001 maar deze zal op termijn geheel vervangen worden door de XTR2. de Testifire 2000 welke de mogelijkheid heeft om ook CO te testen zal blijven bestaan. De XTR2 is puur rook en thermisch uitgevoerd. Heeft u vragen over de werking of de mogelijkheden van deze nieuwe testunit van DectorTesters neemt u dan vrijblijvend contact op met SenseTek Fire & Security Solutions in Amsterdam via telefoonnummer 0020-6131611 of kijk even op de website naar www.sensetek.nl
De nieuwe Testifire XTR2 van DetectorTesters gaat een stap verder dan de bestaande TF1000 namelijk direct in de cloud rapportages opslaan van de melders die getest zijn. Uiteraard zijn er meer voordelen welke te vinden zijn in de brochure. voor vragen kijk even op de website
https://www.sensetek.nl/producten/detectortesters
SenseTek is distributeur van detectorTesters in Nederland en levert de materialen direct uit voorraad
De nieuwe Testifire XTR2 is geïntroduceerd en met enthousiasme ontvangen op oa de FIREX. Deze Testifire biedt veel voordelen ten opzichte van de reeds bestaande maar uitstekend werkende Testifire 1000. SenseTek verwacht de nieuwe XTR2 rond Q3 2023 te kunnen gaan leveren. Uiteraard houden wij u op de hoogte van de ontwikkelingen rond de XTR2. Uiteraard kunt u ook zelf even contact met ons opnemen op +31(0)20-6131611 of www.sensetek.nl
In parkeergarages is de norm thermische detectie waarbij steeds meer gekozen wordt voor de glasvezelkabel. de argumenten hiervoor zijn overtuigend. de glasvezelkabel is licht van gewicht en flexibel tijdens montage. ook is de kabel hermetisch afgesloten en vandalisme vriendelijk. Maar hoe werkt de temperatuur meting? dat leggen wij u hierbij uit. heeft u verder vragen dan horen wij dat graag.
In combinatie met de controller de Firelaser werkt deze glasvezelkabel als thermische lintdetectie. Lintdetectie of lijndetectie wordt vaak toegepast in parkeergarages voor de brandbeveiligheid. Op verzoek van gemeente, verzekering of brandweer worden de tegenwoordige parkeergarages voorzien van snelle branddetectie. Hoe eerder een brand wordt gedetecteerd hoe groter de kans is dat de schade beperkt kan blijven. Een vroege signalering is dus van groot belang in brandbeveiliging. Glasvezelkabel is een uitstekende vorm om snelle maar vooral ook precieze metingen van temperatuur te kunnen doen. Zo kan een beginnende brand in een parkeergarages snel worden opgemerkt en tevens worden gelokaliseerd. Wel zo veilig voor brandweer en bezoekers. De glasvezelkabel is eenvoudig in montage vanwege het gewicht en flexibiliteit in vergelijking met bijvoorbeeld de sensorkabel. Uiteraard is prijs ook een belangrijk onderdeel van de enorme toename in het gebruik van glasvezelkabel als thermische detectie. In vergelijk tot andere methode is zeker voor de grotere parkeergarages de glasvezelkabel het betere alternatief. Veel erkende branddetectiebedrijven werken, projecteren en adviseren al de thermische detectiekabel van Bandweaver vanwege de uitstekende eigenschappen. SenseTek levert de kabel als distributeur in Nederland doorgaans direct uit voorraad wat enorm kan schelen in uw offerte traject waarbij snelheid geboden is. SenseTek kan u adviseren, helpen bij de inbedrijfstelling maar ook bij oplevering en een proefbrand inclusief rapportage aanbieden. neem vrijblijvend contact op met SenseTek voor extra informatie #glasvezel #brandbeveiliging #brandweer # parkeergarages
SenseTek, distributeur van de glasvezelkabel van Bandweaver, is de specialist op gebied van thermische detectie in parkeergarages. Samen met onze partners, de erkende branddetectie bedrijven, beveiligen we parkeergarages met LHD. Lineaire Hitte Detectie is de meest betrouwbare manier van brandbeveiliging in open parkeergarages. Voor thermische lint detectie wordt ook wel de sensorkabel gebruikt. Echter glasvezelkabel biedt vele voordelen ten opzichte van de kabel met sensors. SenseTek kan u uitleggen wat de belangrijkste voordelen zijn van de glasvezelkabel ten opzichte van andere soorten kabel zoals de Kidde Alarmline. Bel met SenseTek 020-6131611 of mail sensetek@sensetek.nl
Zonnepalen beveiligen met glasvezelkabel .pdfHans Bronkhorst
Er zijn een aantal risico's verbonden aan zonnepanelen die kunnen leiden tot oververhitting, en mogelijk brand. Deze risico's omvatten kortsluiting, slechte installatie (verkeerd gespecificeerd), defecte componenten (omvormers & DC-schakelaars) en natuurlijke gevaren (vogelnesten, gebladerte). Met betrekking tot traditionele branddetectie zijn er niet veel oplossingen beschikbaar en in de meeste gevallen worden branden zelfs visueel gemeld door voorbijgangers. In de afgelopen tien jaar is het gebruik van PV technologie met behulp van zonnepanelen voor stroomopwekking met meer dan 40% per jaar gegroeid. Zonne-energie is echt hernieuwbare energie en is zeer veelzijdig en kan zowel op kleine schaal (daken van woningen) als op grote schaal (industriële zonneparken) worden ingezet. De onderhoudskosten zijn relatief laag, waarbij de belangrijkste focus ligt op het schoonhouden van het paneel om de efficiëntie te maximaliseren.
Zoals bij elk systeem moet de uitbater echter rekening houden met zowel brandpreventie als veiligheidsoverwegingen in het algemeen.
De glasvezelkabel oplossing van Bandweaver kunnen op beide gebieden effectieve oplossingen bieden.
Glasvezel LHD-systemen (Lineair Hitte Detectie kunnen een zeer effectieve manier zijn om vroegtijdig brand te detecteren bij de installatie van zonnepanelen, omdat ze verschillende belangrijke voordelen hebben.
Volledige dekking van alle panelen. Met meetpunten om de 1 m over de volledige lengte van de kabel kan elk paneel binnen de installatie veilig worden bewaakt door de glasvezeldetectiekabel.
Slimme alarmen. Met de geavanceerde slimme alarmen kan het systeem branden veel eerder detecteren dan met conventionele op koper gebaseerde LHD-systemen.
Kostenbesparende installatie. De glasvezeldetectiekabel is gebaseerd op vrijwel de standaard glasvezelkabel en er zijn dus geen specifieke detectiepunten vereist. Dit maakt het uiterst kosteneffectief voor systeemontwerp en installatie.
Immuun voor elektromagnetische interferentie. Glasvezel wordt niet beïnvloed door elektromagnetische interferentie en zal dus ook niet worden beïnvloed door de potentieel hoge niveaus als gevolg van de stroomopwekking.
Hoge betrouwbaarheid. De glasvezeldetectiekabels zijn volledig inert en niet gevoelig voor corrosie en kunnen zonder bewegende delen of openingen in bepaalde omgevingen meer dan 30 jaar meegaan.
SenseTek heeft al verschillende dergelijke projecten met erkende branddetectiebedrijven uitgevoerd. De ervaring die SenseTek heeft op gedaan met de glasvezelkabel als branddetectie oplossing geeft u een voorsprong op de concurrentie. Het specialisme van SenseTek is uw voordeel! Bel vrijblijvend voor meer informatie. Bel 020-6131611 of stuur een email naar sales@sensetek.nl
Firelaser Datasheet van Bandweaver. Bandweaver is de fabrikant van de glasvezel kabel en de controller welke door SenseTek Fire & Security Solutions wordt ingezet als de meest effectieve oplossing voor thermische detectie in oa parkeergarages. thermische detectie wordt veelal als lintdetectie aangeboden of als sensorkabel. Lineaire Hitte Detectie (LHD) is de meest betrouwbare manier van temperatuurmeting in parkeergarages. De glasvezelkabel is hermetisch afgesloten daardoor vrij van stof en vocht. de kabel is eenvoudig te monteren doordat de kabel licht van gewicht is en makkelijk te buigen. de kabel wordt op kleine kabelhaspels geleverd en is dus eenvoudig te vervoeren. SenseTek kan u bijstaan van het begin tot het einde van het project. te denken valt aan een projectbezoek, projectering, de inbedrijfstelling tot aan de proefbrand inclusief rapportage. Wilt u weten wat SenseTek voor u kan betekenen neemt u dan contact op via info@sensetek.nl of kijk op de site https://www.sensetek.nl/producten/glasvezelkabel
De nieuwe prijslijst en catalogus van SenseTek is beschikbaar. SenseTek is distributeur voor wereldmarktleiders op het gebied van branddetectie. SenseTek levert veelal direct uitvoorraad als het gaat om Stratos Aspiratie, Bandweaver Glasvezel kabel of de List Sensorkabel. Maar ook testmaterialen van Solo, Testifire als Solo A5, Solo A10 en de SmokeSabre zijn direct uit voorraad leverbaar. De voedingen van Elmdene zijn in ruime mate op voorraad als ook proefbrandmaterialen voor de NEN 2535 zoals de brandbak, beukenhouten blokjes of Ethyl alcohol. De glasvezelkabel wordt ingezet voor branddetectie in oa parkeergarages. thermische detectie in parkeergarages is een belangrijk onderdeel van de brandbeveiliging in parkeergarages. SenseTek heeft vele parkeergarages in Nederland, in samenwerking met erkende branddetectiebedrijven, mogen uitvoeren met de glasvezelkabel als vroegtijdige branddetectie. Lint detectie is een bekend begrijp zoals de sensorkabel en LHD. Bel vrijblijvend voor de catalogus, stuur een email of kijk op www.sensetek.nl
Due to the constrained nature and construction of tunnels, they tend to have limited escape scenarios and restricted ventilation, it is key to have an effective fire detection system for early detection to enable fire control and to prevent loss of life. SenseTek gained a lot of experience during the last couple of years as the distributor for Bandweaver in The Netherlands. SenseTek offers a wide range of products for fire detection but is specialist in road tunnels and parking garages. Call us for information how we can help you with your project. check our website https://www.sensetek.nl/producten/glasvezelkabel
SenseTek is distributeur van Bandweaver Fire Optics. Middels DTS is thermische detectie de meest effectieve manier van detecteren. Voor parkeergarages is detecteren met glasvezelkabel de goedkoopste manier om te beveiligen. Vroegtijdige detectie is van essentieel belang om een brand te voorkomen. Brandweer, gemeente en verzekeraars eisen doorgaans een snelle manier van branddetectie. De List Sensorkabel is een veel gebruikte optie. Echter Glasvezelkabel biedt u nog meer voordelen. SenseTek heeft de afgelopen jaren al vele verschillende parkeergarages voorzien van thermische detectie met de glasvezelkabel in combinatie met erkende branddetectie bedrijven. Vraag SenseTek naar de mogelijkheden en de voordelen van thermische detectie middels de glasvezelkabel van Bandweaver en bel 020-6131611
Het FireLaser thermisch glasvezelkabelsysteem is een zeer hoogwaardig thermisch detectiesysteem dat gebruik
maakt van een volledig gesloten glasvezelkabel met dubbele ber. De kabel wordt aangesloten op een 19”
stuureenheid welke periodiek de temperatuur van de aangesloten kabel opvraagt en deze vergelijkt met eerdere
metingen. Zo kan een ontwikkelende brand op basis van de temperatuurstijging in een vroegtijdig stadium
worden waargenomen. Naast deze thermodifferentiaalmeting beschikt het systeem tevens over een maximaalmeting
waarmee het systeem ook bij een zeer langzame temperatuurstijging een alarm zal genereren bij het
overschrijden van de maximaal toegestane temperatuur. Tevens kan het systeem een alarm genereren wanneer
een deel van de kabel een temperatuur heeft die te veel afwijkt van de gemiddelde temperatuur van de aangesloten
kabel in die detectiezone
Doordat het systeem met een nauwkeurigheid van 0,1°C vrij programmeerbaar is en beschikt over diverse logfuncties,
kan het geheel afgestemd worden aan de omgevingsvariabelen van de te bewaken ruimte(s).
Het FireLaser thermisch kabelsysteem beschikt over een door VdS afgegeven EN54-22 certicaat G216015 en is
daardoor probleemloos inzetbaar in gecerticeerde brandmeldinstallaties.
De FireLaser stuureenheid is beschikbaar in verschillende uitvoeringen met twee of vier kabelaansluitingen. Op
iedere aansluiting kan, afhankelijk van de versie van de stuureenheid, maximaal 2, 5 of 10 kilometer kabel aangesloten
worden. Wanneer een kabel aan twee zijden op de stuureenheid aangesloten wordt, dan wordt een
redundante lus bereikt, waardoor het mogelijk is om de stuureenheid verschillende detectiezones te laten bewaken
(zogenaamde kabelredundantie). Wanneer een kabel verbonden wordt met twee stuureenheden, dan
wordt een volledige systeemredundantie bereikt.
Controller voor het aansluiten en uitlezen van maximaal 4 x 10.000 meter glasvezelkabel als
steekleiding of 2 x 10.000 meter als redundante ringlus. Voorzien van 44 programmeerbare
alarmrelais en een 6-tal storingsrelais (algemene storing, laserstoring en 4 kabelstoringen, 1
per aansluiting). Differentiaal– en maximaaltemperatuurmeting en alarmering.
Meetresolutie 0,1°C. Gecerticeerd volgens EN54-22, klasse A1N, A2N en BN.
De controller is voorzien van een ingebouwd touchscreen display waarop de status van de
installatie zichtbaar is en waarmee de installatie te programmeren is. Het programmeren is
ook mogelijk via de meegeleverde FireLaser-software.
De controller is geschikt voor het plaatsen in een 19” kast.
Aansluitspanning 24Vdc. Opgenomen vermogen 20W (gemiddeld). Afmetingen 3U
131x431x384 mm (hxbxd). Beschermingsklasse IP40.
A case study with the Liniear Heat Detection from Bandweaver in a harsh environment. A continuous temperature monitoring system based on Fibre Optic Cable system. The Bandweaver`s Firelaser carries international approvals and comply with EN54-22. SenseTek is Bandweaver`s distributor in the Netherlands. Call the guys from SenseTek to get to know how this system works for you. call +31(0)20 6131611 or email to sensetek@sensetek.nl
check our website https://www.sensetek.nl/en/products/fibre-optical-thermal-detection
Voor de maand november 2020 biedt SenseTek een onderhoudsactie aan voor een Testifire tegen zeer interessante prijzen. Bel SenseTek voor prijzen! +31(0)20 6131611
Lineair heat detection can come in many ways. One of the solutions is to meassure temperatures with fiber optic sensing cable. The technology is called Distributed Temperature Sensing. Bandweaver offers a wide range of solution for different situations like with escalators. fire detection with a fiber optic cable is low in maintenance, low cost of ownership and high reliability. SenseTek is a strategic partner for the fiber optic solution in the Netherlands and is specialist in special fire detection. send an email to sensetek@sensetek.nl
SenseTek Bandweaver Road Tunnels Linear Heat Detection-dtsHans Bronkhorst
with the FireLaser DTS Distributed Temperature Sensing Technology you have the solution for high reliability and effective fire detection in road tunnel infrastructure. SenseTek is a specialized partner for Bandweaver in the Netherlands and can offer full support on the fiber optic thermal detection. email to sensetek@senstek.nl
SenseTek DTS Distributed Temperature Sensing Bandweaver EN54-22Hans Bronkhorst
How DTS Distributed Temperature Sensing works with the fiber optic cable to have a high quality thermal detection solution for parking garages in The Netherlands. SenseTek is partner for Bandweaver and specialist in special fire detection.
SenseTek is de specialist in Nederland op het gebied van branddetectie. Als distributeur van Bandweaver glasvezel thermische detectie kan SenseTek u ondersteunen bij brandbeveiligheid. Bel vrijblijvend voor informatie naar +31(0)20 6131611
Approving Bandweaver Linear Heat Detection System for use in car parks in the Netherlands.
Proefbrand met glasvezel thermische detectie in parkeergarages. Het systeem voldoet aan de EN54-22 norm en is zeer competitief aan het List Sensorkabelsysteem. voor vragen over de proefbrand neemt u contact op met SenseTek op +31(0)20 613 1611
Datasheet van de Glasvezelkabel tbv lineaire warmtedetectie. in combinatie met de FireLaser is dit systeem tot een max lengte van 5km to pp een meter nauwkeurig in te stellen. Uiteraard voldoet het systeem aan de EN54-22 norm. voor vragen kunt u bellen naar 020-6131611 of mail naar sales@sensetek.nl
De FireLaser is het hart van het branddetectiesysteem. Glasvezeltechniek kent een grote vlucht in brandbeveiliging. SenseTek is de distributeur van Bandweaver glasvezel branddetectie. Het systeem voldoet aan de Nederlandse wetgevingen en eisen. Het systeem heeft dan ook de EN54-22 keur. Juist voor grotere projecten alsook parkeergarages is deze glasvezeltechniek een efficiënte oplossing. SenseTek is specialist op het gebied van branddetectie. vraag vrijblijvend naar de voordelen van glasvezel. www.sensetek.nl sales@sensetek.nl of 020-6131611
Observability Concepts EVERY Developer Should Know -- DeveloperWeek Europe.pdfPaige Cruz
Monitoring and observability aren’t traditionally found in software curriculums and many of us cobble this knowledge together from whatever vendor or ecosystem we were first introduced to and whatever is a part of your current company’s observability stack.
While the dev and ops silo continues to crumble….many organizations still relegate monitoring & observability as the purview of ops, infra and SRE teams. This is a mistake - achieving a highly observable system requires collaboration up and down the stack.
I, a former op, would like to extend an invitation to all application developers to join the observability party will share these foundational concepts to build on:
GraphSummit Singapore | The Art of the Possible with Graph - Q2 2024Neo4j
Neha Bajwa, Vice President of Product Marketing, Neo4j
Join us as we explore breakthrough innovations enabled by interconnected data and AI. Discover firsthand how organizations use relationships in data to uncover contextual insights and solve our most pressing challenges – from optimizing supply chains, detecting fraud, and improving customer experiences to accelerating drug discoveries.
A tale of scale & speed: How the US Navy is enabling software delivery from l...sonjaschweigert1
Rapid and secure feature delivery is a goal across every application team and every branch of the DoD. The Navy’s DevSecOps platform, Party Barge, has achieved:
- Reduction in onboarding time from 5 weeks to 1 day
- Improved developer experience and productivity through actionable findings and reduction of false positives
- Maintenance of superior security standards and inherent policy enforcement with Authorization to Operate (ATO)
Development teams can ship efficiently and ensure applications are cyber ready for Navy Authorizing Officials (AOs). In this webinar, Sigma Defense and Anchore will give attendees a look behind the scenes and demo secure pipeline automation and security artifacts that speed up application ATO and time to production.
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Building RAG with self-deployed Milvus vector database and Snowpark Container...Zilliz
This talk will give hands-on advice on building RAG applications with an open-source Milvus database deployed as a docker container. We will also introduce the integration of Milvus with Snowpark Container Services.
Enchancing adoption of Open Source Libraries. A case study on Albumentations.AIVladimir Iglovikov, Ph.D.
Presented by Vladimir Iglovikov:
- https://www.linkedin.com/in/iglovikov/
- https://x.com/viglovikov
- https://www.instagram.com/ternaus/
This presentation delves into the journey of Albumentations.ai, a highly successful open-source library for data augmentation.
Created out of a necessity for superior performance in Kaggle competitions, Albumentations has grown to become a widely used tool among data scientists and machine learning practitioners.
This case study covers various aspects, including:
People: The contributors and community that have supported Albumentations.
Metrics: The success indicators such as downloads, daily active users, GitHub stars, and financial contributions.
Challenges: The hurdles in monetizing open-source projects and measuring user engagement.
Development Practices: Best practices for creating, maintaining, and scaling open-source libraries, including code hygiene, CI/CD, and fast iteration.
Community Building: Strategies for making adoption easy, iterating quickly, and fostering a vibrant, engaged community.
Marketing: Both online and offline marketing tactics, focusing on real, impactful interactions and collaborations.
Mental Health: Maintaining balance and not feeling pressured by user demands.
Key insights include the importance of automation, making the adoption process seamless, and leveraging offline interactions for marketing. The presentation also emphasizes the need for continuous small improvements and building a friendly, inclusive community that contributes to the project's growth.
Vladimir Iglovikov brings his extensive experience as a Kaggle Grandmaster, ex-Staff ML Engineer at Lyft, sharing valuable lessons and practical advice for anyone looking to enhance the adoption of their open-source projects.
Explore more about Albumentations and join the community at:
GitHub: https://github.com/albumentations-team/albumentations
Website: https://albumentations.ai/
LinkedIn: https://www.linkedin.com/company/100504475
Twitter: https://x.com/albumentations
How to Get CNIC Information System with Paksim Ga.pptxdanishmna97
Pakdata Cf is a groundbreaking system designed to streamline and facilitate access to CNIC information. This innovative platform leverages advanced technology to provide users with efficient and secure access to their CNIC details.
Goodbye Windows 11: Make Way for Nitrux Linux 3.5.0!SOFTTECHHUB
As the digital landscape continually evolves, operating systems play a critical role in shaping user experiences and productivity. The launch of Nitrux Linux 3.5.0 marks a significant milestone, offering a robust alternative to traditional systems such as Windows 11. This article delves into the essence of Nitrux Linux 3.5.0, exploring its unique features, advantages, and how it stands as a compelling choice for both casual users and tech enthusiasts.
GraphSummit Singapore | The Future of Agility: Supercharging Digital Transfor...Neo4j
Leonard Jayamohan, Partner & Generative AI Lead, Deloitte
This keynote will reveal how Deloitte leverages Neo4j’s graph power for groundbreaking digital twin solutions, achieving a staggering 100x performance boost. Discover the essential role knowledge graphs play in successful generative AI implementations. Plus, get an exclusive look at an innovative Neo4j + Generative AI solution Deloitte is developing in-house.
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
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Communications Mining Series - Zero to Hero - Session 1DianaGray10
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• Demo on Platform overview
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Alt. GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using ...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
Speakers:
Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
Gopinath Rebala
Gopinath Rebala is the CTO of OpsMx, where he has overall responsibility for the machine learning and data processing architectures for Secure Software Delivery. Gopi also has a strong connection with our customers, leading design and architecture for strategic implementations. Gopi is a frequent speaker and well-known leader in continuous delivery and integrating security into software delivery.
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In this presentation, van Emden covers the basics of scaling edge AI solutions using the Nx tool kit. He emphasizes the process of developing AI models and deploying them globally. He also showcases the conversion of AI models and the creation of effective edge AI pipelines, with a focus on pre-processing, model conversion, selecting the appropriate inference engine for the target hardware and post-processing.
van Emden shows how Nx can simplify the developer’s life and facilitate a rapid transition from concept to production-ready applications.He provides valuable insights into developing scalable and efficient edge AI solutions, with a strong focus on practical implementation.
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
“An Outlook of the Ongoing and Future Relationship between Blockchain Technologies and Process-aware Information Systems.” Invited talk at the joint workshop on Blockchain for Information Systems (BC4IS) and Blockchain for Trusted Data Sharing (B4TDS), co-located with with the 36th International Conference on Advanced Information Systems Engineering (CAiSE), 3 June 2024, Limassol, Cyprus.
1. H I G H S E N S I T I V I T Y S M O K E D E T E C T O R
TM
ISOLATE
TEST
RESET
S M O K E D E N S I T Y
AUX FIREPRE-
ALARM
RENEW
OK
FAULT
OK
ISOL.
ON
FAULT
OK
HIGH
OK
LOW 1 2 3 4
Ref.
AirFlow
1 2 3 4 5 6 7 8 9 10
Detector
Power
Separator
Artificial Intelligence
With
S L A V E D E T E C T O R SMASTER
S L A V E D E T E C T O R
TM
SenseTek BV
Abberdaan 162• 1046AB
Amsterdam • Nederland
Tel: +31 (0)20-6131611
Fax: +31 (0)20-6132212
e-mail: info@sensetek.nl
In line with continuous product improvement AirSense Technology Ltd reserves the right to modify or update specifications without notice.
Stratos, AirSense, ClassiFire and FastLearn are trade marks of AirSense Technology Ltd. HSSD is a Registered trademark.
Master Detector
Slave Detector
(Reference Detector)
S P E C I F I C A T I O N
Mains supply voltage 195 - 265 V. AC. RMS.
Size (MASTER Stratos) 418 x 297 x 155
Size (SLAVE Stratos) 418 x 297 x 150
Weight (MASTER Stratos) 11.5 kg.
Weight (SLAVE Stratos) 9.2 kg.
Operating temperature range -10 to +60° C
Operating humidity range 0 - 90% Non Condensing
Sensitivity range (Obsc./Metre) Min.= 4% Max.= 0.04% FSD
Maximum sensitivity resolution 0.004% Obsc./Metre
Detection principle Laser Light Scattering
Mass Detection
Particle sensitivity range 0.0003µ to 10µ
Dust discrimination principle Paired Pulse amplitude type
Current consumption 100mA. @ 230V. RMS.
470mA. @ 24V. DC.
600mA. @ 12V. DC.
Battery charge Voltage 13.6 V. @ 20° C.
High
Sensitivity
Smoke
Detector
focus on performance
Battery charge current 3 Amp. Maximum
Standby period Min. = 0 Hrs. Max. = 72 Hrs.
Maximum sampling pipe length 200 Metres total.
Sampling pipe internal diameter 15 - 25 mm.
Chamber service intervals greater than 5 Years
Dust separator service intervals greater than 5 Years
(depending on environment)
Theoretical laser life greater than 1,000 YEARS
Programming of unit On-board programmer or PC.
Data bus cable 4 core screened 1.5 mm2
Maximum data bus length 200 Metres
IP Ratings package option A Master IP30
Slave IP50
IP Ratings package option B Master IP50
Slave IP50
Stratos-HSSD master
detectors are provided
with a serial port
which allows
connection to a PC
which, among other
facilities may be used
to display ClassiFire™
operating in 'real time'
as shown.
Approved by internationally recognised organisations worldwide.
QUEEN’S AWARD
FOR TECHNOLOGICAL
ACHEIVEMENT
Ref. 0B4A3.AY
The illustration below shows how the smoke
‘distribution pattern’ or ‘histogram’ for a protected
environment is built up over time. The upper
distribution is from a typical ‘smoky’ environment
such as a warehouse or office, while the lower is from
‘clean’ area such as a computer or clean
room. Notice that although the same
ClassiFire alarm factor is used in each
case, the alarm thresholds are in differ-
ent positions thus giving the optimum
degree of protection for each area.
ClassiFire uses a powerful Intel
microprocessor from the same family
as those used in modern Personal
Computers. It continually
processes statistical formulae
and calculates and adjusts
the sensitivity and alarm
thresholds for a pre-determined
maximum acceptable nuisance alarm rate. This rate
may be programmed for a theoretical value between
2 to 5,000 years. The system also discriminates
between 'dirty' and 'clean' operating periods such as
day and night, automatically substituting the
appropriate sensitivity and alarm thresholds for the
environment.
What is ClassiFire™
ClassiFire is a patented 'artificial intelligence' system
which continually adjusts the system to maximise
sensitivity and performance for any environment.
Until the advent of ClassiFire, the setting of High
Sensitivity Smoke Detection systems
was usually undertaken manual-
ly. At best, other systems employ
simple ‘ratchet’ type automatic
learning principles. After a short
‘learn’ period these systems lock
the detector to a fixed sensitivity
setting. This is undesirable
because, unlike Stratos, they can-
not ensure that a constant level
of protection is provided by vary-
ing the system operating para-
meters to suit normal fluctuations
in the environment.
Stratos-HSSD does not require
regular and costly calibration as the detection cham-
ber is designed to be immune to dust or dirt build-
up. The ClassiFire system continually calibrates the
laser chamber, so that in the unlikely event of the
detector becoming unacceptably contaminated, a
fault warning is given long before system response is
adversely effected.
Quality system cert. no. 404
Assessed to ISO 9001
Stratos brochure UK for pdf 28/9/99 5:42 pm Page 1
2. irSense Technology has a team of product specialists with
over 175 man-years experience in the field of air sampling
High Sensitivity Smoke Detection. This unequalled experience
was called upon to produce Stratos-HSSD®
. The product
embodies many unique features to maximise performance and
increase reliability compared to other aspirating systems.
Stratos-HSSD embodies innovative features which depart
from accepted techniques for detectors which operate at very
high sensitivity. Perhaps the most important feature of the
system is the adoption of a patented 'artificial intelligence'
known as ClassiFire™. This controls all aspects of system
operation. ClassiFire ensures that Stratos-HSSD operates at
maximum SAFE sensitivity to give warning of problems earlier
than previously considered possible.
ClassiFire is the most comprehensive intelligence found in
any smoke detection system. Not only does it determine
maximum reliable sensitivity for any environment, but
ClassiFire also controls dust filter monitoring to stop partial
clogging reducing system performance.
Stratos-HSSD is the only optical high sensitivity system which
is routinely applied to the protection of very dirty and dusty
environments. This is achieved by combining Laser Dust
Discrimination (LDD™) with a patented dust management and
Typical Alarm System Connection
ALaser Forward Scattering System
The detection principle used in Stratos is known as ‘Forward Light
Scattering’ where the laser beam is diffracted at a small angle by smoke
particles. This principle not only offers high sensitivity, but sensitivity to a
wide range of particle sizes.
A patented feature of the system is that compensation is made for any
contamination, ensuring a long and trouble free life. The laser assembly is
guaranteed for a minimum of 5 years operation.
1. To Control System
2. Air Flow Monitor
3. Laser Assembly
4. Light Receiver array
5. Air Flow
6. Laser Beam
7. Forward Scattered Light
8. Reflective Plane
9. Detector Body
10. Smoke Particles
11. Vent Disc
12. Beam Dump
Master Stratos Detector
Sampling Pipes
Sampling Points
Slave Stratos Detector
Applications Include:
Control rooms
Production areas
Paper mills
Historic buildings
Industrial areas
Dirty areas
Computer rooms
Telecom areas
Warehouses
Cold stores
Correctional institutions
Flight simulators
Power distribution areas
Archives
Atrium buildings
Museums
Places of worship
2
3
4
5
6
7
8
9
10
11
12
1
Air flow
separation system. These features have greatly extended
separator life service intervals compared to alternative
products. At the other extreme, Stratos is capable of
providing the very highest levels of sensitivity in
environments such as computer areas and clean rooms. In
these applications it is able to give warning to the very
slightest trace of smoke.
Stratos is supplied with comprehensive diagnostic and
programming facilities as standard. Simply connecting a PC to
the detector serial port gives access to diagnostic menus which
provide fault finding down to individual component level.
ClassiFire may be viewed working in real time, complete with
the statistical probability of nuisance alarm. It is also possible to
view detailed chart recordings of historical smoke levels
showing: date, time and alarm thresholds.
Stratos uses the latest microelectronic components and
semiconductor laser in its manufacture. This enables the
system to be supplied at a significantly lower whole-life cost
than alternative high sensitivity systems.
For multi-detector systems, Stratos offers the option
of unique ‘Slave’ detectors which are controlled by
the ‘Master’ unit. This offers further cost advan-
tages, without compromising performance or
reliability (see illustration opposite).
Master
Detector 2
Detector 3 Detector 4
Reference
(Stratos can be connected to any conventional or addressable system)
The sensitive answer to aspirating smoke detection
Stratos brochure UK for pdf 28/9/99 5:43 pm Page 2