perimeter protection
TRANSCRIPT
PERIMETER PROTECTION
© 2015 GPS Standard SpA, All right reserved 2
INVISIBLE PROTECTION
Invisible perimeter protection systems are installed below ground level and therefore
they can not be sabotaged, as they cannot be seen, nor be tampered with.
They ensure protection without altering the aesthetic appearance of the site.
GPS Plus, pressure difference-based system
PPS, system with detection of the crossing point
RFC, radiofrequency system
CHAIN, radiofrequency system
DPS, dual-technology system
DPP, dual-technology system with detection of the crossing point
MILES, fibre optic system for pipeline and buried
Perimeter Protection
© 2015 GPS Standard SpA, All right reserved 3
FENCE MOUNTED PROTECTION
The perimeter protection systems associated with fences require a supporting
structure; they detect the stress developed in the supporting structure caused by an
attempted intrusion.
CPS Plus, microphonic cable system
SNAKE, fibre optic System
MILES, fibre optic system for fences
Perimeter Protection
© 2015 GPS Standard SpA, All right reserved 4
FREE-STANDING PROTECTION
This type of system does not require the installation of any specific structures, it can
be integrated into existing structures or may form a self-standing protective
structure.
WPS, sensitive wire system
TPS, taut-wire system
IPS, infrared system
SUN, fibre optic system for solar and photovoltaic panels
RADAR BLADE, electromagnetic waves system
Perimeter Protection
GPS PLUS
© 2015 GPS Standard SpA, All right reserved 6
GPS PLUS, pressure difference-based system
Each sensor is able to manage a maximum length of 100m.
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- GPS Plus 2 tubes: protection of 3 m- GPS Plus 4 tubes: protection of 6 m
GPS PLUS, pressure difference-based system
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Integration with video surveillance systems and use of SCS software.
Images of Pre/Post alarm will be immediately sent to the operator of the Control Center.
GPS PLUS, pressure difference-based system
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It doesn’t make difference that the intruder crosses the sensitive area walking, running, jumping or with any other type of movement.
GPS PLUS, pressure difference-based system
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The area to be protected can have many different types of ground.
GPS PLUS, pressure difference-based system
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GPS PLUS, pressure difference-based system
The area to be protected can have many different types of ground.
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GPS Plus
Is based on the detection of a difference in pressure
between two tubes laid down and buried along the
perimeter to be protected, then filled with a liquid that
allows operation even at low temperatures
(antifreeze) and properly pressurized.
GPS PLUS, pressure difference-based system
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© 2015 GPS Standard SpA, All right reserved 13
Operation
Crossing the sensitive strip generates a pressure difference in the tubes; this is detectedby a special transducer and the signal thus obtained is analysed by the processor, whichwill identify the alarm conditions and send them to the control centre.
The tubes are around 1.3m apart and 25cm deep,which can vary based on the type of ground.
The pressure on the tubes, created by anapproaching intruder, is not the same on eachtube and this difference in pressure is thedetected by the diaphragm.
GPS PLUS, pressure difference-based system
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GPS Tube
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The tubes are filled with fluid, via the valve
The fluid is then pressurised
The tubes are joined at one end by a Compensating Valve
And at the other end by a Pressure Sensitive
Diaphragm
Tube 1
Tube 2
GPS PLUS, pressure difference-based system
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Basic configuration of GPS Plus
© 2015 GPS Standard SpA, All right reserved
GPS PLUS, pressure difference-based system
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Each GPS Plus peripheral can therefore monitor two transducers and protect 200m of theperimeter.
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200m max.
The GPS Plus transducers are connected to a local peripheral unit that receives and analyses the detected signals.
GPS PLUS, pressure difference-based system
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Configuration of GPS Plus 4 tubes
GPS PLUS, pressure difference-based system
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Which is then connected toa central communicationsprocessor (MIND), locatedwithin the secure area ofthe site.
This unit (MIND) can controlup to 64 peripherals on thesame, single cable bus.
For large sites there may bemany peripherals around theperimeter, each monitoring upto 200m of the total length.
These can be connected to a common,data/power bus cable (no other fieldcabling or power supplies are necessary).
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GPS PLUS, pressure difference-based system
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This allows us to configure all theindividual operating parameters, monitordetected signals and record informationfor future analysis, without physicallyvisiting the unit in the field.
If a computer is connected to the communications processor (MIND) we can communicate with any ofthe peripherals connected to it.
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GPS PLUS, pressure difference-based system
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A special peripheral is provided that canconnect to up to 4 transducers.
Each of which can monitor up to 100m ofthe perimeter and be located up to 800mfrom the peripheral.
For smaller sites a special version of the GPS Plus system is available.
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GPS PLUS, pressure difference-based system
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GPS PLUS, système à différence de pression
© 2015 GPS Standard SpA, All right reserved
After a short time the system becomes virtually undetectable to the naked eye.
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After a short time the system becomes virtually undetectable to the naked eye.
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GPS PLUS, pressure difference-based system
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Characteristics
• Signal processing in the time domain
• Signal processing in the frequency domain
• Combined frequency-time processing
• Use of masks to characterize and recognize signals sent by sensors
• Detection of signal energy levels (spectrum analysis)
• Listing per category of signal energy matrixes
• 2 local inputs and 2 relay outputs available (underground version)
• 8 local inputs and 8 relay outputs available (optional) in the outdoor analyser version
• Local recording
• Self-calibration
GPS PLUS, pressure difference-based system
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© 2015 GPS Standard SpA, All right reserved 24
PLUS
-Resistant to weather conditions, such as rain, snow, hail, etc., because it worksusing differential signal analysis
-Very low percentage of false alarms due to unwanted vibrations (a train passingby, highway in the vicinity, etc..)
-Invisible: the installation does not compromise the appearance of the site
-Passive: it is not detectable by any instrument (metal detector or other)
-Flexible: the system can follow the contours and shape of the site
-Adaptable: it works under virtually any surface, so there is no need for any physicalbarrier
GPS PLUS, pressure difference-based system
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PLUS
-Reliable: thousands of systems installed all over the world in over 30 years
-Maintenance: the only maintenance required is periodic inspection of tube pressure;any reduction is automatically reported by the system
-Cost effective: half price compared to RF systems
-Local interface: with other systems via serial data port, e.g. to speed dome, sirens,light, etc.
-It allows connection, via auxiliary inputs, of other stand-alone sensors installednearby
-It can be integrated with other perimeter protection technologies, by usingthe same communication BUS, creating mixed systems from the various perimetersolutions provided by GPS Standard
GPS PLUS, pressure difference-based system
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PPS
© 2015 GPS Standard SpA, All right reserved 27
PPS, system with detection of the crossing point
PPS
Represents the evolution of the traditional GPS
Plus system. This is also based on pressure
difference detection. The innovative feature of
PPS™ system is the ability to determine the
crossing point of the protected strip with a
maximum resolution of ±5 m.
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© 2015 GPS Standard SpA, All right reserved 28
Operation
Crossing the sensitive strip generates a pressure difference between the tubes; this is
detected by a special transducer and the signal thus obtained is analysed; any alarm
condition is sent to the control centre.
PPS, system with detection of the crossing point
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Characteristics
• Signal processing in the time domain
• Signal processing in the frequency domain
• Combined frequency-time processing
• Use of masks to characterize and recognize signals sent by sensors
• Detection of signal energy levels (spectrum analysis)
• Listing per category of signal energy matrixes
• 2 local inputs and 2 relay outputs available (underground version)
• Identification of the crossing point (Cross Point)
• Local recording
• Self-calibration
© 2015 GPS Standard SpA, All right reserved 29
PPS, system with detection of the crossing point
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© 2015 GPS Standard SpA, All right reserved
PLUS
-PPS is based on detection of a difference in pressure between two parallelrubber tubes, buried along the perimeter to be protected
-Is resistant to weather conditions
-Very low percentage of false alarms due to unwanted vibrations
-Detection of the crossing point (Cross Technology) with an accuracy of ± 5mt
-Invisible: the installation does not compromise the appearance of the site
-Passive: it is not detectable by any instrument
-Flexible: the system can follow the contours and shape of the site
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PPS, system with detection of the crossing point
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© 2015 GPS Standard SpA, All right reserved
PLUS
-Adaptable: it works under virtually any surface, so there is no need for any physicalbarrier
-Reliable: thousands of systems installed all over the world in over 30 years
-Maintenance: he only maintenance required is periodic inspection of tube pressure; anyreduction is automatically reported by the system
-Cost effective: half price compared to RF systems
-Local interface with other systems via serial data port
-It allows connection, via auxiliary inputs, of other stand-alone sensors installed nearby
-It can be integrated with other perimeter protection technologies, by using the samecommunication BUS
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PPS, system with detection of the crossing point
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RFC
© 2015 GPS Standard SpA, All right reserved 33
RFC, radiofrequency system
RFC
Is an invisible radiofrequency security system; using
two cables buried at 15-20 cm depth, one of which is
the receiver and the other the transmitter, 1.10-1.20
mt apart, it creates an electromagnetic field sensitive
to target movement in the protected area.
The system is modular and allows the protection of
perimeters of any length; it is particularly suitable for
sites that require a high levels of protection.
© 2015 GPS Standard SpA, All right reserved 34
Operation
RFC detects the change of the
electromagnetic field generated by
people or objects crossing the sensitive
area.
The change of the electromagnetic field
recorded by the mixer, by comparing
the transmitted and received
electromagnetic energy, generates
signals that, properly processed and
analysed, allow correct determination
of system alarm conditions.
The real alarm signals are then sent to
the control centre.
RFC, radiofrequency system
RFC cables
Electromagnetic field
1.2 m15 cm
Electromagnetic field
RFC Cables
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A radio frequency signal is passed along one of the cables, which acts as a transmitter.
The transmitted signal is detected by the second cable, which acts as a receiver.
This effect creates a field of radio frequency energy around the two cables, some ofwhich is above ground if the cables are buried at the correct distance and depth.
© 2015 GPS Standard SpA, All right reserved
RFC, radiofrequency system
Transmitter cable Receiver cable
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If an intruder approaches and enters the field a disturbance is created in the radiofrequency signal received by the receiver cable.
© 2015 GPS Standard SpA, All right reserved
Using a special sensor connected to the end of the cable this disturbance can be detected andanalysed to see if it really is an intruder.
RFC, radiofrequency system
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RFC system.
© 2015 GPS Standard SpA, All right reserved
The Mixer is connected to a signalprocessor/communications unit, called aperipheral or concentrator.
The Mixer detects differences in thereceived signal and passes the informationto the Peripheral.
The Peripheral analyses the signals andcommunicates any alarms either locally,using relay contacts.
RFC, radiofrequency system
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Which is then connected to acentral communications processor(MIND), located within the securearea of the site.
MIND can control upto 64 peripherals onthe same, singlecable bus.
For large sites there may be manyperipherals around the perimeter,each monitoring up to 300m of thetotal length.
These can be connected to acommon, data/power bus cable(no other field cabling or powersupplies are necessary).
© 2015 GPS Standard SpA, All right reserved
RFC, radiofrequency system
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If a computer is connected to the communications processor (MIND) we cancommunicate with any of the peripherals connected to it.
This allows us to configure all the individualoperating parameters, monitor detectedsignals and record information for futureanalysis, without physically visiting the unitin the field.
RFC, radiofrequency system
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Characteristics
• Signal processing in the time domain
• Signal processing in the frequency domain
• Combined frequency-time processing
• Use of masks to characterize and recognize signals sent by sensors
• Detection of signal energy levels (spectrum analysis)
• Listing per category of signal energy matrixes
• 8 local inputs and 8 relay outputs available (optional)
• Local recording, self-calibration
© 2015 GPS Standard SpA, All right reserved
RFC, radiofrequency system
© 2015 GPS Standard SpA, All right reserved 41
PLUS
-Interchangeable sensors: all sensors work with the same frequency as they usetransmission time multiplexing, which allows all the sensors to be programmed thesame way, but they can be used on different zones.
-Flexibility in cable installation and maintenance
-Resistant to weather conditions such as rain, snow, hail
-Very low percentage of false alarms due to unwanted vibrations
-Invisible: the installation does not compromise the appearance of the site
-Flexible: the system can follow the contours and shape of the site
RFC, radiofrequency system
© 2015 GPS Standard SpA, All right reserved 42
PLUS
-Adaptable: it works under virtually any surface
-Local interface with other systems via serial data port
-It can be integrated with other perimeter protection technologies, by using thesame communication BUS
RFC, radiofrequency system
DPS
© 2015 GPS Standard SpA, All right reserved 44
DPS, Dual-technology system
DPS is a dual-technology system created by the combination of two invisiblesystems:
“GPS PLUS”, detecting pressure difference and ”RFC” detecting changes in anelectromagnetic field.
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DPS, Dual-technology system
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GPS Tubes RFC Tubes
TX RX
Electromagnetic Field
GPS Plus | Differential pressure RFC | Radiofrequency
DPS | Dual Technology
Electromagnetic field
© 2015 GPS Standard SpA, All right reserved 46
DPS
The changes in pressure and electromagnetic field
generate signals that, properly processed and analysed,
allow the correct determination of system alarm
conditions. The alarm signals obtained this way are
then sent to the control centre.
DPS, Dual-technology system
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Operation
Crossing of the sensitive stripgenerates a significantchange of pressure in thetubes, which is detected byan appropriate transducer. Italso generates a change ofthe electromagnetic field,which is detected by the RCFsystem Mixer.The signals thus obtained areanalyzed by the DSP andtranslated into warning oralarm signals.
DPS, Dual-technology system
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DPS, Dual-technology system
© 2015 GPS Standard SpA, All right reserved
After a short time the system becomes virtually undetectable to the naked eye.
PAT EN T ED
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© 2015 GPS Standard SpA, All right reserved 49
Characteristics
• Signal processing in the time domain
• Signal processing in the frequency domain
• Combined frequency-time processing
• Use of masks to characterize and recognize signals sent by sensors
• Detection of signal energy levels (spectrum analysis)
• Listing per category of signal energy matrixes
• 8 local inputs and 8 relay outputs available (optional)
• Local recording, self-calibration
DPS, Dual-technology system
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© 2015 GPS Standard SpA, All right reserved
PLUS
-DPS uses two perimeter control technologies, thus ensuring high sensitivity andminimizing the percentage of unwanted alarms
-It is based on detection of the difference in pressure between two parallel tubesin rubber, buried along the perimeter to be protected
-Interchangeable RFC sensors
-The sensitive cable is of fixed geometry and it guarantees easy installation andmaintenance
-Non-sensitive cables used to connect the sensitive cables to the mixer are of standardtype and of any length
-It is resistant to weather conditions
-Very low percentage of false alarms
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DPS, Dual-technology system
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© 2015 GPS Standard SpA, All right reserved
PLUS
-Invisible: the installation does not compromise the appearance of the site
-Flexible: the system can follow the contours and shape of the site
-Adaptable: it works under virtually any surface, so there is no need for any physicalbarrier
-Maintenance: the only maintenance required is periodic inspection of tube pressure; anyreduction is automatically reported by the system
-Local interface with other systems via serial data port
-It can be integrated with other perimeter protection technologies, by using thesame communication BUS
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DPS, Dual-technology system
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DPP
© 2015 GPS Standard SpA, All right reserved 53
DPP, Dual-technology System with detection of the crossing point
DPP
Is a dual-technology system created by the
combination of invisible systems: PPS™,
detecting the pressure difference with
identification of the crossing point, and RFC™
detecting changes in an electromagnetic field.
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© 2015 GPS Standard SpA, All right reserved 54
Operation
PPS detects the pressuredifferences created bypeople or objects on theground, passing over thesensitive area. RFC™detects the changes in theelectromagnetic fieldgenerated by people orobjects crossing thesensitive area
DPP, Dual-technology System with detection of the crossing point
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Characteristics
• Signal processing in the time domain
• Signal processing in the frequency domain
• Combined frequency-time processing
• Use of masks to characterize and recognize signals sent by sensors
• Detection of signal energy levels (spectrum analysis)
• Listing per category of signal energy matrixes
• 8 local inputs and 8 relay outputs available (optional)
• Identification of the crossing point (Cross Point)
• Local recording, self-calibration
DPP, Dual-technology System with detection of the crossing point
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© 2015 GPS Standard SpA, All right reserved 56
PLUS
-DPP uses two perimeter detection technologies, thus ensuring high sensitivityand minimizing the percentage of unwanted alarms
-Is based on detection of the difference in pressure between two parallel rubbertubes, buried along the perimeter to be protected
-Interchangeable sensors.
-The sensitive cable is of fixed geometry and guarantees easy installation andmaintenance
-Non-sensitive cables used to connect the different cables to the control unit are ofstandard type and of any length
-It is resistant to weather conditions
-Very low percentage of false alarms
DPP, Dual-technology System with detection of the crossing point
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PLUS
-Invisible: the installation does not compromise the appearance of the site
-Flexible: the system can follow the contours and shape of the site
-Adaptable: it works under virtually any surface, so there is no need for any physicalbarrier
-Maintenance: the only maintenance required is periodic inspection of tube pressure; anyreduction is automatically reported by the system
-Local interface with other systems via serial data port
-It can be integrated with other perimeter protection technologies, by using thesame communication BUS
DPP, Dual-technology System with detection of the crossing point
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CPS PLUS
© 2015 GPS Standard SpA, All right reserved 59
CPS Plus, microphonic cable system
For fences less than 2 m high, the system is installed with a single cable for maximum length of 300m.
© 2015 GPS Standard SpA, All right reserved 60
For fences over 2 m, however, the system is installed with a double cable that manage to cover up to 150m.
CPS Plus, microphonic cable system
© 2015 GPS Standard SpA, All right reserved 61
CPS Plus, microphonic cable system
© 2015 GPS Standard SpA, All right reserved 62
CPS Plus, microphonic cable system
Integration with video surveillance systems and use of SCS software.
Images of Pre/Post alarm will be immediately sent to the operator of the Control Center.
© 2015 GPS Standard SpA, All right reserved 63
CPS Plus
Is based on a microprocessor with DSP
technology analyzing the signals in the time and
frequency domain highly accurately.
CPS Plus, microphonic cable system
© 2015 GPS Standard SpA, All right reserved 64
Operation
CPS™ Plus is based on the detection, by the microphonic cable, of all the mechanicalstresses produced by an attempted intrusion such as climbing, lifting or cutting thefence.These stresses produce deformation of the microphonic cable itself, which, due to apiezoelectric effect, converts them into electrical signals.The DSP signal analyser continuously analysed the electrical signal present on themicrophonic cable, with a maximum length of 300 m for each of two areas. If thisexceeds the predetermined threshold, after subsequent comparisons with the pre-setsystem parameters, it generates an alarm or a warning.
CPS Plus, microphonic cable system
© 2015 GPS Standard SpA, All right reserved 65
System configuration CPS Plus.
The lengths of the sensitive zones are 300m each.
CPS Plus, microphonic cable system
300 meters 300 meters
PCU-4000 / PCU-4003
PCU-4202 / PCU-4201
h=
> 2
mete
rs
© 2015 GPS Standard SpA, All right reserved 66
System configuration CPS Plus.
However, if the zones are sequential then the maximum length of the zones will be 150 metres.
CPS Plus, microphonic cable system
150 meters
PCPS321/2= Joint KitRG59
Non sensitive cable
h=
up t
o 2
mete
rs
150 meters 150 meters
PCPS321/2= Joint KitRG59
Non sensitive cable
h=
up t
o 2
mete
rs
150 meters
PCU-4000 / PCU-4003
PCU-4202 / PCU-4201
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The CPS Plus system process the signals in time domain and in frequency domain, todiscriminate environmental noise from cut and climbing fence attack.
© 2015 GPS Standard SpA, All right reserved
CPS Plus, microphonic cable system
Tempo
Volt
A disturbance on the fence will cause a signal to be generated in the sensitivecable.
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The shape, size and duration of the signal will be different for different types ofdisturbance.
© 2015 GPS Standard SpA, All right reserved
CPS Plus, microphonic cable system
F 1
F 2
F 3
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Consider three different simple signals, each with a different frequency and size.
© 2015 GPS Standard SpA, All right reserved
CPS Plus, microphonic cable system
Per semplicità consideriamo soltanto il segnale sopra la lineaTempo
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We now look at a combination of these three signals:
We can now see that the combination of these three, different signals creates the complex signal generated by the cable on the fence.
© 2015 GPS Standard SpA, All right reserved
CPS Plus, microphonic cable system
F 1 F 2
F 3
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Using an advanced mathematical technique called Fourier transformation, breaks it down into the simple component parts, identified by frequency and size.
© 2015 GPS Standard SpA, All right reserved
CPS Plus, microphonic cable system
The top window shows the complexanalogue signal generated over a periodof time
The bottom window shows thefrequency analysis of the same signal forthe period between the two verticalwhite markers
The processor calculates the average value for each of 16 separate frequency groups andcompares these values with pre-set threshold values.
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CPS Plus, microphonic cable system
Separate frequency groups are available for Channel 1 cutting or climbing…
… and Channel 2 cutting or climbing
Multiple detection masks are also available forboth channels..
All of which creates the most comprehensive, accurate signal analysis system available.
…as well as for both types of attack…
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CPS Plus, microphonic cable system
The CPS Plus also has a local recording function where a number of analogue signals can be stored locally, within the sensor.
The initiation of this recording can be based on various criteria.
With separate settings for each channel.
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CPS Plus, microphonic cable system
Once an external event triggers a local recording it will be indicated when interrogating the sensor.
The recordings can then be selected and downloaded to the PC.
75© 2015 GPS Standard SpA, All right reserved
CPS Plus, microphonic cable system
When the file is downloaded it can be viewed and analysed using various tools available in the software.
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CPS Plus, microphonic cable system
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Characteristics
• Signal processing in the time domain
• Signal processing in the frequency domain
• Combined frequency-time processing
• Use of masks to characterize and recognize signals sent by sensors
• Detection of signal energy levels (spectrum analysis)
• Listing per category of signal energy matrixes
• 8 local inputs and 8 relay outputs available (optional)
• Local recording, self-calibration
© 2015 GPS Standard SpA, All right reserved
CPS Plus, microphonic cable system
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PLUS
-CPS Plus is resistant
-Very low percentage of false alarms due to unwanted vibrations (a train passing by,highway in the proximity, etc...)
-Local interface with other systems via serial data port
-The calibration is carried out when the system is installed (in real operatingconditions), to “simulate” the type of detection desired, thus ensuring very high immunityto unwanted alarms
-It allows connection, via auxiliary inputs, of other stand-alone sensors installednearby
-It can be integrated with other perimeter protection technologies, by using the samecommunication BUS
© 2015 GPS Standard SpA, All right reserved
CPS Plus, microphonic cable system
SNAKE
© 2015 GPS Standard SpA, All right reserved 80
SNAKE, fibre optic system
SNAKE
Is a perimeter protection system using
fibre optic, for indoor and outdoor
applications.
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Operation
It uses opto-phonic technology to detect, in the case of outdoor applications, all the
intrusion attempts such as climbing, cutting or the breaking through a fence; in case of
indoor application, it warns against potential attempts to break through or penetrate the
wall.
SNAKE, fibre optic system
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At the end of sensible zone the sensible FO come back andis joint with a second no sensible fiber optic.
The No sensible fiber optic come backat the Snake analyzer.
SNAKE, fibre optic system
The sensing element is the fibre optic, through which a laser beampasses. This undergoes changes directly related to physicalchanges induced on the fibre by the attempted intrusion and thesurrounding environment.
The DSP analyser processes the signals generated by thedifferences between the transmitted and received light beamsusing sophisticated software algorithms, discriminating any naturalevent such as wind, rain, hail, etc., from the actual intrusionattempts, bypassing or breakage.
Using simulation of events that must be detected, the detectionparameters can be optimized, thus dramatically reducing anyunwanted alarms.
SNAKE™ can manage up to four sensitive areas.
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SNAKE, fibre optic system
SNAKE is available as a Stand-Aloneversion (single channel, two-channel andfour-channel), for maximum protection of8.000 mt (four zones of 2,000 mt each), andin Multiplex version (two-channel and four-channel), for maximum protection of 512 Km,with a single perimeter control unit (MIND).
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SNAKE, fibre optic system
Installed on a metallic fence Installed on roof or wall
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SNAKE, fibre optic system
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Characteristics
• Signal processing in the time domain
• Signal processing in the frequency domain
• Combined frequency-time processing
• Use of masks to characterize and recognize signals sent by sensors
• Detection of signal energy levels (spectrum analysis)
• Listing per category of signal energy matrixes
• Local recording, self-calibration
SNAKE, fibre optic system
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PLUS
-Is resistant to weather conditions
-Very low percentage of false alarms due to unwanted vibrations (a trainpassing by, highway in the vicinity, etc ...)
-Immune to electromagnetic disturbance
-The calibration is carried out when the system is installed (in real operatingconditions), to “simulate” the type of detection desired, thus ensuring very highimmunity to unwanted alarms
-It can be integrated with other perimeter protection technologies, by using thesame communication BUS
SNAKE, fibre optic system
MILES
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MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
Mechanical stress, caused by pressure, vibration and motion, changes thetransmission characteristics of the light inside the fibre.
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MILES
Is a protection system for fences,
pipelines and buried.
It uses a fibre optic cable and has a veryhigh detection capability, being totallyimmune to electromagnetic interferenceand atmospheric conditions.
The fibre optic cable requires no power inthe field and, therefore, power supplyunits along the protected perimeterprotected are not required.
MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
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The fiber optic is the sensitive part of
the MILES system, as it is particularly
sensitive to mechanical stress
produced during attempted sabotage.
MILES can use an existing fiber optic.
MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
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Analysis Parameter Setting
The MILES system can use 4 different types ofanalysis simultaneously, or analysis of the acquiredsignals with different observation times, thresholds,number of events to be detected and masks forgenerating intrusion alarms.
The High Frequency signals acquired are made upof 100msec parts, each of which is processed byFFT (Fast Fourier Transform). The result is theenergy level of each frequency (spectrographicanalysis) that makes up that “part” of signal. Theresult of each analysis is then compared withcomparison “Masks” that relate to real intrusionattempts that were memorised during calibration(Auto-calibration).
For the Low Frequency signals the FFT is performedover the entire acquisition time and are comparedwith the comparison “Mask” memorised duringcalibration (Auto-calibration).
MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
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Monitoringit is possible to use the “Monitoring” page to display, in real time, the signals acquired by the systemand also the events detected by the system.
At the top there are also “leds” whichindicate “Pre-alarm”, “Alarm”, as well as“Laser”status “Faults”, mimicking the leds present onthe front panel of the MILES processor.
All the events are also stored in detectedevent Logs, allowing an analysis of what hasoccurred at any time (see “View Log”section).
The “Clear” push button will erase the list ofevents displayed, while the “Parameters”push button will open the “ParameterSetting” page directly.
MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
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Zone Configuration
After setting the total length of the sensitivefibres (previously measured while verifyingthe attenuation of the SMR 9/125 fibre opticusing the OTDR), set the “Start” and “Stop”distances relating to each zone (expressed inKm). It is also possible to enter a“description” of the zone, which will appearon the “Monitoring” page (and also in theevent Logs) when the system detects anintrusion attempt. Each zone can be enabledor disabled using the “Activate” check box.
MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
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System configuration MILES – Pipeline version
MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
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System configuration MILES – Fence version
MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
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MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
MILES System, fence version.
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System configuration MILES – Buried version
MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
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MILESMILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
MILES System, buried version.
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Characteristics
• Signal processing in the time domain
• Signal processing in the frequency domain
• Combined frequency-time processing
• Use of masks to characterize and recognize signals sent by sensors
• Detection of signal energy levels (spectrum analysis)
• Listing per category of signal energy matrixes
• Local recording, self-calibration
MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
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PLUS
-Is resistant to weather conditions, such as rain, snow, hail, etc., because it workswith spectrum analysis of signals.
-Very low percentage of false alarms due to disturbances such as wind, vibrationcaused by heavy loads passing nearby, etc.
-Immune to electromagnetic disturbances
-Calibration is carried out when the system is installed (in real operatingconditions), to “simulate” the type of detection desired, thus ensuring very highimmunity to any interference.
MILES, fibre optic system for FENCE, PIPELINE & BURIED DETECTION
RADAR BLADE
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RADAR BLADE, microwave volumetric system
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RADAR BLADE, microwave volumetric system
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RADAR BLADE
Perimeter protection system realized with microwave volumetric
sensors based on CHIRP RADAR effect with high performances.
By using the electromagnetic waves provided along the
protected perimeter it create a invisible barrier.
RADAR BLADE, microwave volumetric system
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RADAR BLADE, with the Cross Technology, is
able to detect any kind of crossing of its
sensitivity area and it can also indicate exactly
the crossing point with a 1 meter of accuracy in
any weather or light conditions.
RADAR BLADE, microwave volumetric system
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OPERATION
The RADAR BLADE electronics is realized with a DSP microprocessor, with exceptionalprocessing power and signal analysis.
Thanks to these characteristics the capability of Radar to distinguish a real intrusionfrom the environmental noise become fool proof, offering an extraordinary detectioncapability, accompanied by an equally great capacity for rejection of false alarms.
The system can detect with a probability greater than 99% >20kg human intrudersthat crossing the protected area with any movement and with a speed between 0,02and 18m/sec.
RADAR BLADE, microwave volumetric system
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RADAR BLADE, microwave volumetric system
Sensitive Lobe
Effective Lobe
The effective lobe is calculated according to a level of sensitivity enough to detect aperson of average height that crosses the lobe.
Vertical lobe
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RADAR BLADE, microwave volumetric system
Sensitive Lobe
Effective Lobe
The barrier is very narrow with a width of the detection beam of about four meters in thehorizontal plane with a 1 meter warning to the right and 1 meter to the left with respect tothe midline of the beam and the detection of the crossing effective alarm of the median line ofthe beam.
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RADAR BLADE, microwave volumetric system
Horizontal lobe
Divisible in zone
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RADAR BLADE, microwave volumetric system
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RADAR BLADE, microwave volumetric systemsurface installation
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RADAR BLADE, microwave volumetric system top fence installation
Advantages:
Detection up to 10 m in height (left and right)Approach detection <1 meterAlarm generation when overcoming the fenceMore tolerant of small animalsLess sensitive to tall grassAlarm band (hysteresis) adjustable Shade ground area of 6m @ 3m height
Metal fence or concrete panel
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RADAR BLADE, microwave volumetric system
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PLUS
-Modern and elegant design: it is able to be perfectly integrate to the surroundingenvironment as a light fixture.
-Particularly suitable for public and private contexts need to preserve certainaesthetic.
-It is possible to create a radar sensors network to meet all installation requirements.
-Able to detect any kind of crossing of its sensitivity area and indicate it can also indicateexactly the crossing point with a 1 meter of accuracy in any weather or light condition(Cross Technology).
-To assure a zero false alarm rate the Radar uses an algorithm to eliminate theresidual noise. This is called multiple detection and adopts two windowing procedures,one in the position variable and one in the time variable.
RADAR BLADE, microwave volumetric system
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RADAR BLADE, microwave volumetric system
PLUS
-A new concept of anti-masking.
Based on the automatic learningenvironment, a few minutes after the activation ,the system is able to discriminate the maskingof an intrusion by identifying the precisepoint (in meters).This analysis allows to maintain the security of theperimeter between the object of masking and theradar.
Moreover, if the inserted object in the detectionzone is desired, the radar can be learned manuallyfor the new environment.
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RADAR BLADE, microwave volumetric system
Settings
Display info in real time
Transformed Display info in real time
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RADAR BLADE, microwave volumetric system
Antenna calibration
Auto calibration zone
Settings
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RADAR BLADE, microwave volumetric system
Calibration area
Length and enable area
Settings
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RADAR BLADE, microwave volumetric system
Enabling and crossing management
Recall Scenario by dry contact:
Enabling zones, crossing direction, sensitivity of the
area (H and M)
Scenario settings
IPS
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IPS, infrared system
IPS
Is an infrared perimeter protection used for both internal
and external applications.
It is based on micrometrics mechanics, allowing maximum
precision in the alignment of beams.
All information and setting are managed by a USB
connection with software MPX2000.
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Characteristics
• Time multiplexing - elimination of interference using “one by one” beam switching
• Micrometric orientation (horizontal/vertical)
• Alignment executed by one person
• Audio&visual report of the alignment in both columns
• Automatic Gain Control
• Automatic power control
• Range 100 meters outdoors, 200 meters indoors (single cell)
• Range 200 meters outdoors, 250 meters indoors (double cell)
• Crossing times can be programmed for each individual beam
• 16 cells or groups of 16 cells configurable
• Stand-alone version with USB parameterization
• Connection to serial bus COM115 “Concentrator/ UCP”
• Cable Synchronization
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IPS, infrared system
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IPS, infrared system
TXRX
Dual Beam, simultaneous interruption, range 200 meter
Single Beam, range 100 meters
Mono and double cells models
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IPS, infrared system
TX
RX
Micrometer Alignment
Each cell single or double, has a graduated scale on the horizontal and vertical plane, but it is sufficient to align the first cell and report the values on all the remaining cells.
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IPS, infrared system
• Automatic control of the transmission power to level of cells• Automatic control of the signal received on three thresholds
Automatic control of the received signal for each cellAny reflection problem
Any problem of reflection near of reflection sources.The two controls combined on the single cell formed an exceptional automatic compensation very effective in case of fog, heavy rain and snow.
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IPS, infrared system
♪
•Double report with audiovisual alignment information for
both concentrator and synchronizer.
•Sends anti-tampering signals of the TX column through the
sync cable.
•USB port for configuration via software MPX2000
•Backup of the last 255 alarm events at the level of the
cells
♪
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IPS, infrared system
Single, double, triple detection
The concentrator can manage up to a maximum of 16 individual cells or 8 double beams.The beams can be managed in three methods:
MONO: single cellDOUBLE: two cells in ANDTRIPLE: Three cells in AND
Each cell or group of cells, may be given a different crossing time.The illustration shows a typical arrangement highlighting the first beam operated with longer lead times.
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Operation
The concentrator, which can beconnected up to a maximum of 8double-beam receivers, sendscommands, via the sync cable, to turnon the transmitters connected to theSynchronizer.
Simultaneously, it enables the receivercorresponding to a particular transmitter.The concentrator processes the lightpulses received from the variousconnected cells.
If there is an interruption of the lightbeam between TX and RX, for thecrossing of the set time, it generates analarm signal.
IPS, infrared system
Concentratore #00
Concentratore #01
Concentratore #62
Concentratore #63
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PLUS
-Easy maintenance without opening the column (also on stand alone version). By using the USBconnection and the software MPX2000 every parameter, power supply, battery capacity, etc... canbe easily checked.
-Total absence of interference between beams in the same or adjacent columns
-Detection of beam masking: the concentrator turns on the Rx and, before turning on the TX,checks that there is no interfering light signal due to deliberate interference. If a light signal isdetected, it generates a warning signal
-Differentiated programming of alarm threshold
-Elimination of false alarms due to fog, snow, rain using the automatic gain control anddisqualification circuit
-Local interface with other systems via serial data port
-It allows connection, via auxiliary inputs, of other stand-alone sensors installed nearby
-It can be integrated with other perimeter protection technologies, by using the samecommunication BUS
© 2015 GPS Standard SpA, All right reserved
IPS, infrared system
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IPS, infrared system
Display info in real time
Groups, time et directionBuzzer and tamper management
Settings
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IPS, infrared system
Management Cells
Management cells/group
Settings
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IPS, infrared system
Maintenance parameter
Maintenance and monitoring battery capacity
Settings
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IPS, infrared system
Enable data recording
Alarm memory
Settings
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IPS, infrared system
Input output
Settings
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IPS, infrared system
ACCESSORIES
Alignment kit: PIPS-360.
Gasket joint PIPS-354
Kit for wall mounting
Base plate for surface PIPS-AB3.
Stainless steel sleeve for
underground PIPS-311.
Double Base plate for surface
PIPS-AB6.
Reinforced bar for
windy condition
TPS
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TPS, taut-wire system
TPS
Is a self-standing pole structure, constituting a
real physical barrier, sensitive to any stress
generated by attempted intrusion.
Electronic TPS
Mechanical TPS
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System configuration.
TPS, taut-wire system
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The electronic TPS pole sensor detects any movement of
the taut wire as a result of mechanical stress via the
sensitive component, which is a microphonic cable.
Operation
Dependent on the separation force applied to the taut
wires, a signal is generated which, after appropriate
amplification stages, is sent to the concentrator. This, in
turn, examines and translates the signal into warning or
alarm signals. The threshold is tailored to the needs of
each individual installation.
Electronic TPS
TPS, taut-wire system
The Electronic TPS use a sensor pole. The taut barbed wire are connected inside the sensor pole at a sensible wire.
TPS
SENSOR
Max 60 m
The minimum distance between the barbed wire can be 8 cm.
Each sensor pole can manage a maximum of 60 meters zone length.
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TPS, taut-wire system
Concentrator
The sensor pole are connected to a concentrator. It can manageup to 8 poles sensor. This allow to protect any perimeter length.
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TPS, taut-wire system
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The mechanical TPS pole sensorhouses the mechanical sensors(joystick), mechanically connected tothe wires.
Operation
A movement of the wire during theintrusion attempt, moves the joystickthat mechanically acts on a switch,generating the alarm condition.
Mechanical TPS
TPS, taut-wire system
The TPS mechanicalsystem use a sensorpole.
The barbed wiresare connected insidethe sensor pole to aJoystick sensors.
Max 60 m
The minimum distance between the barbed wire can be 12 cm.
Each sensor pole can manage a maximum 60 meters zone length.
The TPS “Joystick” sensor give directly on a terminalboard the N.O. alarm contact.
The sensitivity setting can be regulate with the screw onthe “Joystick”.
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TPS, taut-wire system
Set-up PC
MIND
Concentratore #00
Concentratore #01
Concentratore #62
Concentratore #63
Up to 64 concentrators, on a single cable, with the Multiplex 2000
Management system
More concentrators can be connected to a Perimeter Control Unit (MIND) via a communication and power supply bus cable.
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TPS, taut-wire system
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Characteristics
•Modular system
•Detection of mechanical stress
•Differential analysis of signals
•Sensibility calibration per leg (60m)
•Constituting a real physical barrier
TPS, taut-wire system
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PLUS
-TPS uses sensor poles to alarm taut wires, while forming a physical barrier
-Very low percentage of false alarms
-If a similar signal is detected on adjacent zones, the alarm threshold is increased by avalue equal to the minimum value of the signal detected on all zones monitored by thesingle analyser (in electronic version)
-Local interface with other systems via serial data port
-It allows connection, via auxiliary inputs, of other stand-alone sensors installednearby
-It can be integrated with other perimeter protection technologies, by usingthe same communication BUS
TPS, taut-wire system
WPS
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WPS, applications
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WPS, sensitive wire system
WPS
Is a real perimeter barrier consisting of sensitive wires,
positioned about 15 cm apart, supported by support
poles placed along the entire route about 2.5 to 3.0 mt
apart, fastened to 2 terminal poles.
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Operation
WPS is based on the electro-constriction property and is sensitive at every point of its
length.
The active part is a cable with steel central core. Its special characteristics make it
sensitive to any act of sabotage.
As a result of mechanical stress, the cable generates an electrical signal due to the
motion between the cable core and the dielectric; this signal is pre-amplified locally
and transmitted to a control unit that analysed it intelligently, with a resulting alarm
signal.
The microprocessor unit can discriminate any signals due to weather events - such as
wind, hail, rain, thermal effects - from alarms generated by a real intrusion.
WPS, sensitive wire system
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WPS, sensitive wire system
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System configuration.
WPS
SENSOR
15 cm
50 m
WPS uses a wire that is sensitive to movement. The wire is run from a sensor unit along the fence line and back to the sensor.
Up to 300 metres of sensitive wire can be connected to a single sensor.
Therefore the number of times the wire can run along the fence will depend on the length of the zone
For 50m zones the number of runs for a single sensor could be up to 6.
WPS, sensitive wire system
15 cm
50 m
15 cm
50 m
1 2
Concentrator
Two zone processing is provided by using multiple sensors, with each sensor configured as shown in the picture.
The sensors are linked to a Concentrator, which can control up to 8 sensors. This allows different fence heights to be catered for.
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WPS, sensitive wire system
15 cm
15 cm
15 cm
15 cm
15 cm
15 cm
90 cm
50 m
The height of the protected zone is only dependent on the number of runs, the number of sensors used and the spacing between the runs.
One sensor with a 50m zone and 15cm spacing can give protection up to 90cm
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WPS, sensitive wire system
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WPS, sensitive wire system
Mechanical diagram
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WPS, sensitive wire system
Mechanical diagram
Set-up PC
MIND
Concentratore #01
Concentratore #62
Concentratore #63
Up to 64 concentrators, all on a single cable, using the Multiplex 2000 system
Management system
Multiple Concentrators can be connected to the Analyser (MIND) by a common, bus cable.
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WPS, sensitive wire system
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Characteristics
• Modular system
• Max 300 meter long wire per area
• Real physical barrier
• Detection of mechanical stress
• It can be installed also over or behind pre-existing fencing or walls
• Resistant to low temperatures
• Customized sensitivity calibration per zone
WPS, sensitive wire system
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PLUS
-WPS is the only system using a wire sensitive to stretching and at the sametime, forming a physical barrier
-Very low percentage of false alarms
-Local interface with other systems via serial data port
-It allows connection, via auxiliary inputs, of other stand-alone sensors installednearby
-It can be integrated with other perimeter protection technologies, by usingthe same communication BUS
WPS, sensitive wire system
Thanks!