보호안전분야 보안시스템 감시모니터링의 글로벌리더 SENSTAR 를 소개합니다

 

안녕하세요 TIATIP 입니다. 오늘 이시간에는 보안시스템 감시모니터링 분야의 세계적인 연구개발 공급업체인 센스타(Senstar)를 소개드리고자 합니다.

지난 국내 전시회를 통해 전기전력부문의 애플리케이션 이외에도 육상 및 해상플랜트에서도 많은 니즈가 반영되어, 주요 사회기반시설을 비롯해 새롭게 업데이트된 라인업으로 내년에 열릴 전시회를 벌써부터 기대하게 만들고 있습니다. 보다 구체적인 제안자료에 대해서는 추후 포스팅하기로 하고, 오늘 이 시간에는 여러분들에게 Senstar 센스타에 대해 간략히 소개하는 첫 시간을 갖도록 하겠습니다.

 

 

 

 

About Senstar, Products & Markets

Senstar, the trusted innovator safeguarding people, places and property, has been manufacturing, selling and supporting the world’s largest portfolio of perimeter intrusion detection sensor technologies for more than 30 years. Senstar is also a leading provider of life safety / emergency call solutions, cyber security solutions that protect security networks against threats, and a cellular detection and location solution

 

Senstar manufactures, sells and supports the world’s largest portfolio of perimeter intrusion detection sensor technologies, including fence and wall-mounted sensors, buried sensors, pipeline protection, microwaves, fiber optic sensors, electrostatic sensors, and barrier sensors. Senstar is also a leading provider of life safety / emergency call products, as well as of a new line of products that protect security networks against cyber threats.

 

Senstar products can be found protecting assets for the following markets: transportation, energy, commercial, VIP, borders, ports, military and law enforcement, correctional facilities and institutions, and other critical infrastructure.

 

 

주요 적용사이트로는 발전소, 변전소, 교통시설, 공항시설, 항공시설, 철도시설, 물류시설, 항만시설, 국방시설, 방위시설, 무기기지, 군부대, 미군부대, 교도소, 도로시설, 터널, 주요시설의 울타리, VIP시설, 특화작물부지, 각종 보호시설, 산업플랜트, 석유화학공장 등이며, 주로 주요 국가기반시설과 산업시설에 대해 외부 테러 및 침입등으로부터 보호 대상 및 시설물을 안전하게 유지관리하기 위한 보호안전의 목적으로 보안시스템 감시모니터링을 통해 경계, 경보, 대응, 보완할 수 있는 시스템이자 솔루션입니다.

 

 

하기는 Senstar 에서 취급하고 있는 제품군으로 링크를 통해 자료검토를 하실 수 있습니다

 

 

Fence, Gate & Wall-Mounted Sensors

 

FlexZone

Ranging fence-mounted intrusion detection sensor

 

FlexZone is Senstar’s latest generation ranging fence-mounted sensor. FlexZone detects and locates any attempt to cut, climb or otherwise break through the fence. It accurately locates intrusions even when there are multiple simultaneous intrusions and in the presence of background environmental noise.

 

FlexZone can detect and locate perimeter intrusions over a distance of up to 600 metres (1,968 feet) per sensor processor, and within 3 meters (or 10 feet) of accuracy. One processor can support up to 60 distinct, customizable zones. Both power and data can run over the sensor cables, minimizing infrastructure requirements. Advanced Digital Signal Processing (DSP) enables FlexZone to adapt to a wide variety of fence types. FlexZone builds upon Senstar’s 30 plus years of perimeter security experience to deliver a sensor that is simple to install, provides networking capability for remote configuration and alarm reporting, and works reliably in the most harsh environments.

 

 

FlexZone Wireless Gate Sensor

A simplified intrusion detection solution for sliding and swinging gates

 

The FlexZone Wireless Gate Sensor is designed to secure sliding and swinging gates and complements the coverage of the FlexZone fence-mounted sensor.

An accelerometer-based device, it detects attempts to open, cut, climb or break through a gate. The small, all-weather sensor module is attached directly to the gate fabric and sends alarms over an encrypted RF link to a nearby FlexZone processor.

 

FiberPatrol-PR

Point-reporting intrusion detection system

 

Fiber Optic Sensors for Fences
FiberPatrol-PR’s advanced fiber-optic technology provides up to 24 km (14.9 mi) of protection per processor. No powered or conductive items are required in the field, making the sensor completely immune to EMI and lightning and intrinsically safe in the presence of explosive atmospheres.

 

 

FiberPatrol-ZR

Zone-reporting intrusion detection system

 

Fiber Optic Fence-Mounted Sensor (formerly FP1400)
FiberPatrol-ZR’s advanced fiber-optic technology provides up to 2.5 km (1.6 mi.) of perimeter protection. No powered or conductive items are required in the field, making the sensor completely immune to EMI and lightning and intrinsically safe in the presence of explosive atmospheres.

 

 

FlexPS™

Microphonic cable intrusion detection sensor

 

FlexPS™ is Senstar’s fence-mounted sensor providing assured detection of any attempt to cut, climb or otherwise break through the fence. Advanced digital signal processing allows it to adapt to a wide variety of fence types. FlexPS builds upon Senstar’s wealth of experience with its Intelli-FLEX™ and FPS fence sensors to deliver a sensor that is simple to install, provides networking capability for remote alarm reporting and configuration, and works reliably in the most extreme environments.

 

 

FlexPI™

Low cost protection for building interiors

 

The FlexPI™ is an intrusion detection sensor used to protect unsupervised building interiors. It adapts Senstar’s proven microphonic cable technology to the specialized requirements of indoor security applications. FlexPI can function with a wide range of surfaces and materials when protecting structures such as walls, ceilings, roofs, stock cages, floors and pipes. It is easily integrated into most existing alarm systems.

 

 

 

Intelli-FLEX™

Fence-mounted cable intrusion detection sensor

 

Intelli-FLEX™ is a microphonic cable intrusion detection sensor and proven fence-mounted system for outdoor perimeter security applications. Serving a range of markets, Intelli-FLEX detects intruders cutting through, climbing on or lifting the fence fabric.

 

 

IntelliFIBER™

Fiber optic cable intrusion detection sensor

 

This unique fiber optic cable intrusion detection sensor is used in outdoor, fence-mounted perimeter security applications. This sensor will detect an intruder cutting through, climbing on or lifting the fence fabric by analyzing the signals generated by flexing the cable.

 

 

 

Pipeline Protection

FiberPatrol - PL

Third-Party Interference Detection System for Pipelines

 

Third-Party Interference (TPI), including unauthorized excavation in a pipeline’s right-of-way, is a leading cause of pipeline accidents and loss. A single pipeline incident can have devastating effects, causing property destruction, service interruptions, environmental damage and death – all of which can cost pipeline operators millions of dollars in financial losses. Further, incidents involving oil theft can have a significant economic impact by going unnoticed for long periods of time.

 

Senstar’s FiberPatrol-PL is an advanced TPI detection system specifically designed to promote the physical security of buried pipelines. The system uses fiber optic cable buried along the pipeline to detect and locate ground vibrations and acoustic signatures associated with TPI activity.

 

FiberPatrol-PL detects TPI activity that threatens pipeline integrity: machine or manual digging, heavy machinery operating nearby, and even people walking in the vicinity of the pipeline. The system’s advanced detection algoritms optimize the detection of TPI activity while rejecting nuisance alarms. It can also reject vibrations caused by traffic on roads and railways running parallel or perpendicular to the pipeline.

 

 

Fiber Optic Sensors

 

 

Barrier Sensors

Taut Wire / Decorative Fence / Sensor Grid

Exceptional performance

 

Taut Wire

Senstar offers a line of taut wire perimeter intrusion detection systems designed to prevent unauthorized access into high security sites. These physical intrusion barriers have no environmental limitations and a very high Probability of detection (Pd). In addition, Senstar also offers an innocent decorative fence barrier with an integrated fiber optic sensor that is ideally suited for high security sites where appearance, choice of colour and heights are important.

 

Decorative Fence

Senstar also offers a “covert” intrusion detection system with the Decorative Fence PIDS solution. An innocent looking, decorative fence barrier with an integrated fiber optic sensor that is non-obtrusive. Senstar’s Decorative Fence is designed primarily for high security sites where appearance, choice of color and heights are important. It offers high security with a pleasing appearance.

 

Sensor Grid

Sensor Grid is a combination of a physical grid with an embedded detection sensor. The detection technology can be either opti-grid (fiber optic) or cast wire, both of which are optimized to detect cutting or bending of the structure. The heavy-gauge steel grid is very robust and will sustain heavy water flow. It remains operational even when completely submerged under water for many years. Each Sensor Grid segment is carefully tailored to the specific size and nature of the opening. Based on the application (water pass, window grid, etc.), each segment can be either fixed or removable on a pivot or rail. For example, a sliding rail for a gate can be designed for water passage, to automatically raise the “guillotine” like grid, when water levels reach a certain height. Sensor Grid typically complements a larger PIDS application. The communication system should be integrated with other sensors, feeding a synchronized data stream into the Command & Control system.

 

 

 

Smart Fence

Highly Rugged. Extremely Reliable.

 

Smart Fence is a physical barrier combined with performance sensors and is the most sophisticated and robust solution for perimeter intrusion detection. Smart Fence physically prevents intrusions into high security sites by unauthorized personnel; it has no environmental limitations and delivers a very high and guaranteed Probability of Detection (Pd) with minimal false and nuisance alarm rates (FAR / NAR).

The technology of Smart Fence incorporates a single detector per zone, which collects and aggregates signals from many wires. It is therefore, a very cost effective solution for fences where multiple barbed wires are required (for example – high posts and / or densely populated fences used in prisons).

The design and materials used for Smart Fence make it the premier choice for installations located near the sea in salty climates and other corrosive environments. Many Smart Fence installations are operational in hundreds of sites near sea shores around the world with literally no corrosion.

 

 

System Integration & Management

StarNet2

Security Management System

 

ultraLink Sensor Integration

Flexible integration for Senstar sensors

 

Part of μltraLink is Senstar’s μltraLink Sensor Integration Components, a powerful IP-based alarm reporting system for Senstar’s sensors. Senstar’s perimeter intrusion detection systems (PIDS) including OmniTrax®, XField®, μltraWave™ and FlexPS™ have an integrated sensor networking capability that provides a two-way communication channel between sensors and the control room. The software provides a common interface through which third party head-end security management systems (SMS) perform communication to the sensors.

 

ultraLink Input / Output Modules

Flexible input / output modules for system integration

 

Senstar’s μltraLink Input / Output (I/O) modules are hardware components that form an integral part of Senstar’s system integration capability. μltraLink I/O modules attach to Senstar’s Silver Network and provide a range of I/O types including outputs (relay, open-collector), and supervised dry-contact inputs. μltraLink outputs can be used to transmit alarms from Senstar’s family of networked sensors using only Senstar’s Network Manager Service software (NMS).

 

UltraLink Rugged Controller

Remote management with local fall-back for Senstar sensors

 

The UltraLink Rugged Controller is a ruggedized, embedded controller for unmanned sites that enables remote management of Senstar security sensors and provides local control of security functions.

The UltraLink Rugged Controller connects to a site’s Senstar sensors and I/O devices and provides a standard Ethernet/IP-based interface for communication with the Security Management System (SMS) using the facility’s own WAN/SCADA network. This provides a common network access point from which all configuration and calibration can be done, and event log data can be viewed. Maintenance visits to sites are reduced, as is the need to access individual sensors when site visits are required.

The Controller can be programmed to activate video recording and deterrence devices (lights, sirens, etc.) in response to sensor alarms or diagnostic events. Alarm response actions will occur even if network connection to the central Security Management System (SMS) is temporarily lost.

 

 

StarNeT 1000

Security Management System (SMS)

 

Senstar’s StarNeT™ 1000 is a Windows®-based multi-functional software package offering three important capabilities:

  • Security Management System (SMS)
  • Out-of-the-box integration with a broad range of Senstar products
  • Set-up and configuration tool for Senstar’s Perimitrax®, Intelli-FLEX™ and IntelliFIBER™

Senstar’s StarNeT 1000 is a field-proven package with hundreds of installations world-wide that are protecting a wide-range of critical facilities from threats to human safety and property.

 

CrossFire

Network input / output transponders

 

Crossfire network input / output transponders are a set of modules that provide a reliable, secure means to accept input points and to control output points.

 

 

Buried Sensors

OmniTrax®

Ranging buried cable detection sensor

 

OmniTrax® is the fifth generation, covert outdoor perimeter security intrusion detection sensor that generates an invisible radar detection field around buried sensor cables. If an intruder disturbs the field, an alarm is declared and the location of the intrusion is determined.

 

 

Microwave Sensors

ultraWave™

Microwave intrusion detection system

 

μltraWave™ is Senstar’s newest generation of volumetric perimeter intrusion detection system consisting of an all digital transmitter and receiver that create an invisible detection zone that alerts when unwanted intrusions occur. μltraWave works reliably in extreme environments and provides networking for remote alarm reporting and configuration common to other Senstar sensors such as OmniTrax®, FlexPS™ and X-Field®.

 

 

Electrostatic Sensors

XField®

Terrain-following volumetric sensor

 

The XField® sensor is a terrain-following volumetric sensor that creates an electrostatic field around a set of 4 or 8 parallel field and sense wires that causes its processor to sense changes when events, such as intruders penetrating the wires, take place.

 

 

Life Safety - Emergency Call

Flare®

Personal emergency locating system

 

To help keep personnel working in high-threat environments safe, the Flare® emergency alarm system instantly sends a call for help at the touch of a button. Flare informs security personnel of the precise location of the emergency. When a user raises an alarm by activating his / her Personal Protection Device (PPD) the PPD emits an RF signal that is picked up by Flare sensors installed in walls or ceilings. The Flare sensors signal the alarm condition to the central control computer running user-interface software which displays the alarm, its location and the PPD identification number. Flare is ideal for individuals who work in an environment where their safety could be threatened by physical assault, sudden illness or an accident.

 

Flash™

Personal emergency alarm system

 

To help keep personnel working in high-threat environments safe, the Flash™ emergency alarm system instantly sends a call for help at the touch of a button. When a user causes an alarm by activating his / her Personal Protection Device (PPD) the PPD emits an RF signal that is picked up by Flash sensors installed in wall or ceiling spaces. The Flash sensors in turn signal the alarm condition to the central control computer running Flash user-interface software. The alarm and PPD is displayed to security personnel. Flash is ideal for individuals who work in an environment where their safety could be threatened by physical assault, sudden illness or an accident.

 

PAS

Personal alarm system for emergency response

 

PAS (Personal Alarm System) is an ultrasonic emergency notification / communication system.  The exact location of an individual moving throughout a facility is immediately determined when he or she activates their Personal Alarm Transmitter (PAT) device.  Through integration with an overall security management system, the location of the individual requiring assistance can be graphically represented on a map-type display at a central location.  One or more receivers are installed in each room or hallway that the system is required to cover.  A microphone on the receiver can forward audio to the central control.

 

 

Cyber Security

Tungsten

Cyber Security Appliance

 

Tungsten is specifically designed to protect physical security networks, SCADA-based systems and safe-city applications. It provides iron-clad security with full control and customizable networking capabilities. Cutting-edge hardware, combined with network intelligence and policy enforcement software engines, create an effective tool for securing sites and installations.

 

Rubidium

Centralized Monitoring System

 

Rubidium, Senstar’s centralized monitoring system for cyber security, is a unique combination of a network management system (NMS) and an all-source cyber security situation awareness apparatus with the enhanced ability to facilitate operational responses to perceived threats.

Equipped with hassle-free, automated status collection from multiple sources, it provides wide-angle visibility of both operational and security status through a single console that displays “who, what and when”. Complex Event Processing (CEP) technology is used to perform sophisticated correlation analysis of system- and network-wide symptoms to reduce false positives. Rubidium provides:

  • Out-of-the-box online views and reports, which can be customized on the fly
  • Real-time alerts, to potential faults and security threats as they happen
  • Notification of unusual or suspicious network activity

Rubidium can also be seen as a workflow enabling the delivery of best practices that support compliance initiatives. Designed with security in mind, it uses well-know and proven methodologies to “defend the defender” and features an intuitive user interface supporting PCs , tablets and smart phones.

 

 

 

Cellular Detection

Gallium-PDS

Passive Cellular Detection System

 

 

 

 

Previous Generation Products

Senstar continually reviews its product portfolio to ensure we are offering products that are in line with current technologies and are meeting the needs of our customers. As such, a number of our previous generation products have been identified to be retired.

 

Fence and Wall-Mounted Sensors

 

Buried Sensors

 

System Integration and Management

 

Microwave Sensors

 

Electrostatic Sensors

 

Life afety / Emergency Call

 

 

 

Technical Data

Senstar, 센스타, 쎈스타, 보안시스템, 보호시스템, 안전시스템, 침입감시, 감시시스템, 모니터링시스템, 보안감시, Safety, Security, StarNet, FiberPatrol, FiberPatrol-PR, FiberPatrol-ZR, FiberPatrol-PL, FlexPS, Flex PI, Intelli-FLEX, IntelliFIBER, Senstar FlexZone, OmniTrax, ultraWave, ultraLink, ultraLink Sensor Integration, Decorative Fence, Perimeter Intrustion Detection Systems, PIDS, XField, Taut Wire, Decorative Fence, Sensor Grid, Smart Fence, StarNet2, StarNeT1000, CrossFire, Tungsten, Rubidium, Gallium-PDS, E-Flex II, E-Flex 3i, FPS-2-2M, FPS-2-2M-AP, FPS-2-2R, FPS-2-PAK, FPS-4-PAK, FPS-3, MX-5300, FPS-5, FPS-EX, G-Line, Intelli-FLEX, Panther II, Perimitrax, Sentrax, Crossfire, DCU, Miniplex III, Miniplex IIIA, MX-5300, FPS-3, MX-5000, MXF-5500, MX Transponders, Senstar100, Flash Flare CEbus Equipment, PROX-WATCH, Intelli-FIELD, E-Field, MPS 4100, MPS 14000, MPS 16000, MPS 24000

Note : Specifications are subject to change without notice.

Always up-to-date, always available to you. Here you'll find everything on our products, solutions and service: www.senstar.com

소개된 제품 시스템의 사양, 재질, 치수, 기타 기재 내용은 제조공급사의 사정이나, 성능향상을 위해 예고 없이 단종, 대체되거나 변경되는 경우가 있으므로 양해를 부탁 드립니다. 기타 문의 상담은 하기 전문점을 통해 진행해 주시기 바랍니다. 

 

 

 

국내 상담문의 및 기술지원

CUSTOMER SUCCESS IDK

deric@jadongwha.com

www.tiatip.com

 

 

저작자 표시
신고
Posted by TIATIP TIATIP

댓글을 달아주세요:: 네티켓은 기본, 스팸은 사절

안녕하세요 TIATIP 입니다.

 

오늘은 DTS시스템에 대한  첫번째 시간으로 DTS Basic을 살펴보겠습니다.

 

전체적인 개념으로는 DMS(Distributed Monitoring System)에 속하는 개념으로서

DTS는 Distributed Temperature Sensing 또는 Distributed Temperature System으로 불리우며 주로 154kV이상의 Power Cable의 온도모니터링(DTS)과 동적허용전류산출과 같은 DRS개념으로의 Smart Grid(스마트그리드)사업에 응용되고 있습니다.  때로는 DTMS(Distributed Temperature Monitoring System)으로 알려져있기도 합니다. 또한 산업플랜트환경에서는 LDMS(Leakage Detection Monitoring System)으로도 활용되고 있습니다.

이처럼 기본적인 원리를 바탕으로 다양한 애플리케이션이 가능한 시스템이며, DTS, DTS, LDMS 이외에도 FBG, DAS 등 다양한 확장 응용이 가능하다 하겠습니다.

 

 

 

 

DTS Basic

 

The fiber optic Distributed Temperature Sensing (DTS) method using the Raman-effect was developed at the beginning of the 1980s at Southampton University in England, UK.

 

The DTS method is based on Optical Time-Domain Reflectometer (OTDR) technology and uses a technique derived from telecommunication cable testing.

 

The fiber optic-based DTS method measures temperature using optical fiber instead of thermocouples or thermistors, as has typically been the case in the past. DTS systems represent a cost-effective method for obtaining thousands of accurate, high-resolution temperature measurements.

 

Fiber optic-based distributed temperature monitoring is of a particular advantage in several common situations:

 

 

 

지중선로 및 지하공동구 접속공사

 

 

 

 

1. When there are a large number of sensors to be placed.

If it is necessary to place a lot of temperature sensors for complete monitoring, then the ease of installation of fiber optic DTS becomes apparent. A single optical fiber can replace many point sensors, so all that is necessary is to route the fiber so that it provides the necessary measurement coverage and density.

 

2. When there is no a priori knowledge of sensor placement.

When the preliminary engineering is performed on a project, it is not always possible to determine the correct location for temperature sensors. The high spatial resolution and long range of a fiber optic sensor allows the operator to select which parts of the fiber to monitor after the project is complete.

 

3. When electrical temperature monitoring is impractical.

In a situation where there is a large amount of electromagnetic noise, the data being read from thermocouples and thermistors can be corrupted. However, the data being read by the DTS is purely optical and thus immune to contamination in this kind of environment.

 

4. When electrical temperature monitoring is unsafe.

There is a risk of sparking inherent in all electrical systems. If the atmosphere in the area being monitored is in danger of becoming volatile, then the fact that a fiber optic DTS does not present a spark hazard can be a significant safety advantage.

 

 

 

 

해당 측정 및 연산을 통해 다음과 같은 결과차트가 생성됩니다.

 

 

 

이 같은 결과차트를 DB로 구축하고 시각화(Visualization) 또는

GUI(Graphic User Interface) 작업을 하여 사용자편의성을 갖추게 됩니다.

 

 

 

DTS Technique Described

 

In the DTS technique, a pulsed laser is coupled to an optical fiber through a directional coupler. Light is backscattered as the pulse propagates through the fiber, owing to changes in density and composition as well as to molecular and bulk vibrations. In a homogeneous fiber, the intensity of the backscattered light decays exponentially with time.

 

Because the velocity of light propagation in the optical fiber is well known, the distance can be determined from the time-of-flight of the returning backscattered light. The backscattered light consists of different spectral components due to different interaction mechanisms between the propagating light pulse and the optical fiber.

 

These backscattered spectral components include Rayleigh, Brillouin, and Raman peaks or bands. The Rayleigh backscattering component is the strongest due to density and composition fluctuations and has the same wavelength as the primary laser pulse. The Rayleigh component controls the main slope of the intensity decay curve and may be used to identify the breaks and heterogeneities along the fiber. The Rayleigh component is not sensitive to temperature.

 

The Brillouin backscattering components are caused by lattice vibrations from the propagating light pulse. However, these peaks are spectrally so close to the primary laser pulse that it is difficult to separate the Brillouin components from the Rayleigh signal.

 

The Raman backscattering components are caused by thermally influenced molecular vibrations from the propagating light pulse. Thus, their intensity depends on temperature. The Raman backscattered light has two components that lie symmetric to the Rayleigh peak: the Stokes peak and Anti-Stokes peak.

 

The intensity of the Anti-Stokes peak is lower than that of the Stokes peak, but is strongly related to temperature; whereas the intensity of the Stokes peak is only weakly related to temperature. By calculating a ratio of the Anti-Stokes to Stokes signal intensities, an accurate temperature measurement can be obtained. Combining this temperature measurement technique with distance measurement through time-of-flight of light, the DTS provides temperature measurements incrementally along the entire length of the fiber.

 

   

 파워케이블에 온도모니터링에 활용되고 있는 광복합케이블

 

 

     

파이프라인의 누수감시에 활용되고 있는 DTS시스템

 

 

     

산업플랜트분야에서 더욱 강화되고 있는 모니터링시스템

 

 

 

국내 기술지원 및 상담구매처

CUSTOMER SUCCESS IDK

www.jadongwha.com or www.tiatip.com

 

 

저작자 표시
신고
Posted by TIATIP TIATIP

댓글을 달아주세요:: 네티켓은 기본, 스팸은 사절


BLOG main image
공장자동화 공정자동화 오토메이션 전장 계장 통합자동화 통합전기전력 by TIATIP

카테고리

TI Story (959)
TIA (92)
TIP (194)
TIEx (603)
TIS (36)
TIO (23)
TiNoTe (10)
The OtherS (1)