Mini double light micro Gimbal
(Model# MIV-01pro)
The Mini Double Light Micro universal joint is a cutting-edge drone universal joint that features a compact integrated design, quick disassembly structure, and convenient installation. The quick release port of the 10X universal joint allows users to easily connect the universal joint to the drone. The 10X optical zoom EO camera with a three-axis structure makes the optical payload very suitable for customers who need lightweight and better image stability universal joint cameras.
- IR SEEN
- China
- 20 working days
- 300
- Information
- Video
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Product highlights:
1.10x continuous optical zoom+24mm infrared camera: Use 10x optical zoom and infrared camera to capture stunning visual effects, ensuring excellent image quality and clarity during the day and night.
2. High precision laser ranging: This universal joint uses high-precision laser positioning technology to experience precise target positioning. Easily achieve precise and accurate measurements.
3. Human vehicle recognition: The Mini Double Light Micro Gimbal is equipped with advanced human vehicle recognition features, helping you easily identify the vehicle and track its movement.
4. 360 ° infinite cycle rotation: Use the 360 ° infinite cycle rotation function of this universal joint to enjoy unlimited freedom of movement and rotation. Take high-definition panoramic photos with an optical zoom camera.
5. Small size and light weight: This miniature universal joint has a compact and lightweight design, and its compact appearance allows you to easily integrate with drones without affecting performance.
6. Low power consumption: This universal joint has low power consumption and can maximize usage time.
Parameters
MODEL | MIV-01pro | |
System specification | System type | Gyro stability |
Weight | 430g | |
Stable system | Platform type | Tri-axis |
Azimuth | 360°rotation | |
Pitch | -100°~+100° | |
Roll | -45°~+45° | |
Maximum search angular velocity | ≥100°/s | |
Stability accuracy | 0.1mrad(1°/2HZ) | |
Angular position accuracy | ≤0.3° | |
Resolution and frame rate | 1920×1080 @60fps | |
FOV | 61.3°X36.9°~6.8°X3.9° | |
Infrared camera | Resolution and frame rate | 640×480@60fps |
FOV | 18.1°×13.6°(24mm prime lens) | |
Tracking module | Frame rate | 60Hz |
Tracking speed | ±48 Pixel/frame | |
System external interface | Control | RS232、NET |
Video output | NET | |
Power supply | Power | 12~28V |
Power consumption | Av≤10W,Max≤20W | |
Environmental conditions | Operating temperature | -20℃~+50℃ |
Storage temperature | -40℃~+60℃ |
Dimensions
How it works:
The design of the Mini Double Light Micro universal joint allows for easy connection to drones through its quick release port. After installation, you can remotely control the universal joint and its camera to capture stunning visual effects from various angles and perspectives. The combination of optical payload and triaxial structure ensures excellent image stability, making it very suitable for customers who require lightweight but high-quality universal joint cameras.
Frequently asked questions:
Q: Can I use this universal joint with any drone?
A: This type of universal joint is compatible with most drones that support universal joint integration. However, it is recommended to check the compatibility of the drone before purchasing.
Q: Does the universal joint have a camera?
A: Yes, this universal joint includes a 10x optical zoom EO camera and a 24mm infrared camera, providing you with multifunctional imaging options.
Q: What is the power supply for the universal joint?
A: The universal joint can be powered by the drone's battery or external power source, depending on your settings.
NETD is the noise equivalent temperature difference of the infrared camera, which is one of the main indicators of infrared detectors. NETD is an objective evaluation index for the sensitivity of a thermal imaging system and can be used to predict the detection distance of a small temperature difference point target. The NETD value of the ZXIR infrared camera is less than 50mk. The smaller the NET...more
