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Electro-Optical Systems and Trenton's 3U BAM XRS Server
Electro-Optical Systems and Trenton's 3U BAM XRS Server
When our soldiers are on the battlefield they need to be able to detect and engage enemy threats regardless of day or night.electro-optical systems That is why EO/IR (Electro-Optical/Infrared) systems are such an important component in the military. Using Trenton’s new 3U BAM XRS server, our warfighters are able to stay vigilant and engage any enemy threats that may arise, even in poor lighting conditions. This blog will take a closer look at what EO/IR is, how it works and how it helps our troops to stay safe and secure.
Electro-optical systems are imaging systems that combine both optical and infrared sensors with computing architectures to enable situational awareness.electro-optical systems Spanning the visible and infrared wavelengths, EO/IR systems can provide a complete picture of the battlefield to ensure that our soldiers are able to detect, track, and engage any threat.
An optical sensor is a light sensor that converts physical photons of a certain polarisation into electronic signals that can be read by a device.electro-optical systems These light sensors can be intrinsic or extrinsic to a system. When a light beam arrives at an optical sensor and the change in the light signal is detected, an electrical trigger within the system reacts and the process repeats itself.
Optical sensors can also be used to measure distances and position objects.electro-optical systems Often, they are used in conjunction with lasers to determine the precise position of an object. This information is then used to calculate the velocity of the object, so that a target can be attacked. In other applications, such as oil and gas, optical sensors are used to monitor structures such as power lines, pipelines and wind turbines.
These sensors are able to work well at a decent range which is a huge benefit to the military. In addition, they are not sensitive to electromagnetic interference which is a big plus in terms of their reliability and versatility.
The sensitivity of an optical sensor is a very important aspect to consider when designing one. Generally speaking, the lower the sensitivity of the sensor, the less light it can see and the more background noise it will have. There are several factors that influence this such as:
The resolution of an optical sensor is another very important aspect to consider when designing one. In general, the higher the resolution of an optical sensor, the better it will be able to see and identify targets.
Lastly, the type of optics that is used in an optical sensor can make a huge difference. There are several different types of optics, from simple lenses to more complex mirrors and prisms. Different optical designs can lead to different levels of performance, so it is essential to find the right one for a particular application.
An example of a good optical design would be the use of a polariser. Polarisers can help to remove certain polarisations of the light that is being transmitted or reflected by a surface, reducing background noise and allowing more energy to reach the sensor.
Tags:electrical optical systems | electro optical infrared sensor systems | electro optical infrared systems
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