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For high signal to noise industrial applications, the Fireline Laser (FL) is a TEC high power Direct Semiconductor pattern generator that offers high reliability and superior beam shaping.
The FL is ideal for high speed applications requiring peak illumination performance, like road and rail inspection, with powers up to 12W in the NIR range. The FL is a plug-and-play solution that is fully integrated with laser beam shaping to produce highly uniform single line and multi-line projections.
Active diode cooling, a DB9 Connector for interface purposes, and safety protocols like a key switch, a mechanical shutter, and an interlock are features Applications of the High Power Line Laser,3D Machine Vision,Outdoor Industrial Inspection, Rail and Road Inspection.
Global fireline laser market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
The FIRELINE MFX100 is a cutting-edge laser and fibre optic based Linear Heat Detection system that offers a quick, adaptable, and extremely robust way to detect fires and safeguard both humans and plants in a variety of dangers.
The technology has a strong track record, and it has already been specified and implemented successfully in a wide range of applications.
The FIRELINE MXF100 provides quick and precise temperature measurement throughout a 2 Km loop of fibre optic cable by combining powerful laser technology and computer processing. A 1.25m precision can be achieved in the detection of sensor cable breaks and fires. T
he MXF100 offers a versatile programmable platform to accommodate a variety of threats and is simple to integrate into the entire fire protection system.
Rapid access to alarm information is provided by the capable and perceptive MXF100 processor. The control unit sends light signals into the optical fibre using a laser light source.
Energy is lost by scattering when pulses move through the fibre. Within the fibre, a portion of the scattered signal is kept. Back-scatter refers to the percentage of this signal that is reflected back along the fibre towards the laser source.
The MXF100 control cabinet is fixed to the wall. In addition to local alarm and fault indications, a PSM800 4A power supply module, field terminals for connection to signalling relays, and a termination box for the fibre optic splice joints to the sensing cable, it is made to receive the MXF100 optics unit. It is also designed to receive the MXF100 optics unit.
