news

Three Axis 30x Electro Optical Pod

  • Monday, 16 December 2024
  • 0
  • 21
  • 0

Three Axis 30x Electro Optical Pod

A three axis 30x electro optical pod is a sophisticated imaging device that uses a combination of high magnification capabilities and three-axis stabilization, commonly mounted on drones or other unmanned aerial vehicles for detailed visual observations from a distance.three axis 30x electro optical pod This kind of device can be used in a variety of applications, including military surveillance, border security, environmental monitoring, and infrastructure inspection.

A wide-angle lens on the three-axis gimbal allows the camera to capture the surrounding area in high resolution, while the stabilized system compensates for movement and vibration, allowing operators to capture clear images even when the device is zooming.three axis 30x electro optical pod This feature makes the device ideal for use in various environments, even those with changing weather conditions such as heavy rain or fog.

The device is also highly versatile and can be used for both day and night operations. The IR illuminator is useful for spotting objects in low-light conditions, while the high-definition video recording capability enables operators to clearly see details on the object. Additionally, the ability to track a moving object can be used in applications such as search and rescue missions, where the operator needs to follow a person or an object over long distances.

One of the biggest challenges with using a three-axis 30x optical zoom camera is maintaining stability, particularly when operating at high magnification. The mechanical structure of the device is complex, and any vibrations or movements will be magnified, making stabilization critical for accurate imaging. The gimbal incorporates leading technology to provide stability within +-0.008deg, and can be remotely controlled.

While the three-axis 30x electro optical pod is incredibly powerful, it can be difficult to use effectively without specialized training. This is because the device offers a variety of features and controls that must be learned in order to operate it effectively. Regular maintenance is also important, such as cleaning the lens and ensuring that the stabilizer mechanisms are working properly.

SIYI's ZT30 four-sensor optical pod carries both an EO and a MWIR sensor, enabling it to record both thermal and visible light images at the same time. This dual-sensor approach enables users to observe the scene in any condition, and can help identify heat sources that might be dangerous or indicative of a problem with the device. The thermal image is crisp and clear, allowing operators to respond quickly to any abnormalities.

This manuscript focuses on the design of the coarse-fine composite mechatronic system of a UAV multi-gimbal electro-optical pod using USM-VCM mechatronic design and Euler dynamics modeling. First, the hall effect electromagnetic circuit and the USM-VCM drive acquisition circuit are designed. Then the coarse-fine composite mechanical model is optimized to achieve a balance between stability and LOS (line of sight) control. The final control scheme is compared with PID and the DOB suppression is improved by up to 90%.

The dSPACE control system box outputs the three adjustment signals of amplitude frequency phase, which are converted to drive motor control signal by the USM-VCM drive acquisition circuit and received by the FPGA module. The control signal then generates three two-phase parameters to adjust the sinusoidal disturbance. This mechanism can suppress the motion coupling between the coarse-fine composite mechatronic systems and stabilize the UAV gimbal.

Tags:airborne electro optical pod

0users like this.

You May Also Like

    Leave a Reply