FishFinder, It can be defined as devices that help to see the distance, size and similar data of objects using sound waves. By making use of the propagation of sounds under water, sonar devices provide navigation under and above water, object detection and communication with acoustic signal processing.
The multi-beam imaging sonar range has a durable, compact form. The dual frequency nature of these systems, which provides a unique image quality, is also an important feature. Multi-beam sonar systems are frequently requested devices used as underwater imaging tools.
Blueprint Oculus multi-beam imaging sonar systems operate in the low and high frequency range needed. The operating range of these systems is from 0,1 m to 200 m. The fact that the operating range is so much shows how functional the devices are.
Sonar systems provide great convenience in terms of imaging. These systems provide angular resolution up to 0,25 degrees. At the same time, a range resolution of up to 2 mm is among the current features of the devices.
Key features of Blueprint Oculus multi-beam imaging sonar;
Multi-beam and imaging sonar systems drive the work of mini, inspection classes, and large working classes of ROVs.
Multi-beam sonar systems have been developed for every difficulty level. Intuitive and simple operator software supports easy use of the systems.
Ultra-resolution scanner feature and rock structure of multi-beam sonar systems increase the image quality. The systems' superior resolution transmits clearly images of rock structure or fish at distances of up to 200 meters or more.
The easy installation of sonar systems provides a great advantage. Some sonar systems have a structure that can be connected to the network. Sonar systems that work with a scanner system, on the other hand, give better results in terms of clarity and detail.
The working principle of multi-beam and imaging sonar systems is based on sound and navigation. In addition, the systems also provide image transmission.
The environment map is created to find the objects in the environment. In this method, sound waves are used. When the systems start to work, the sound wave clusters head towards the medium.
The working principle of visual sonar systems is provided by activating transmitters and receivers. It provides instantaneous transmission from the transmitter at the moment of an impulse. This transmission is converted into sound wave by the converter.
When the incoming sound wave hits the object, the sound returns. Next, the echo amplifies the sound by the receiver. This power is converted by an electrical pulse. The data is reflected on the screen, then the transducer and helps to detect and transmit sound waves.
Usage areas of sonar systems;