4K Mini Dual-Sensor Gimbal Drone Camera
Engineered for seamless integration with professional unmanned aerial systems (UAS), the ZT6 is a compact, lightweight dual-sensor payload designed to deliver exceptional imaging performance across visible and thermal spectra. Weighing in at just 177g with dimensions optimized for minimal aerodynamic impact, this advanced gimbal combines a 640×512 high-resolution thermal sensor with a 1/2.8″ Sony CMOS capable of 4K video recording and photography, enabling synchronized day/night operations with unmatched clarity. Its optional AI-powered object detection and tracking capabilities provide real-time situational awareness and automated target following, while a 540° continuous yaw rotation ensures unobstructed coverage in any operational scenario.
Featuring an open architecture design, the ZT6 seamlessly integrates with both datalinks and third-party communication systems, offering unparalleled flexibility for diverse mission requirements. High-precision control algorithms stabilize the payload during flight, ensuring steady, vibration-free imaging even in turbulent conditions or high-speed maneuvers. Whether deployed on multirotor platforms for close-range inspections, VTOL aircraft for extended surveillance missions, fixed-wing drones for wide-area mapping, or robotic systems for ground-based operations, the ZT6 sets a new standard for reliability and performance in demanding professional environments. Its modular design and robust construction make it the ideal choice for industrial inspections, search and rescue operations, border security, environmental monitoring, and other critical applications where precision and dependability are paramount.
Dual-Sensor Integration | Ultra-Lightweight Design
Weighing just 177g, the ZT6 seamlessly integrates a 640×512 high-resolution thermal sensor with a 1/2.8″ Sony 4K visible-light camera. This dual-sensor fusion enables day-night continuous operation—delivering crystal-clear visuals in daylight and precise heat signature detection in low-light conditions. The compact design minimizes drone payload impact, optimizing flight endurance across multirotor, VTOL, and fixed-wing platforms.
High-Resolution Thermal Imaging | Comprehensive Temperature Analysis
Equipped with a 13mm focal-length thermal module and 30fps frame rate, the ZT6 supports global/spot/area temperature measurement across -20°C to 550°C. Its 640×512 resolution with digital zoom pinpoints temperature differentials as small as 0.1°C, ideal for industrial inspections (pipeline leaks, equipment overheating) and search operations (heat source localization). Non-contact temperature sensing reduces operational risks and accelerates fault detection by 300%+.
AI-Powered Tracking | Autonomous Target Lock
The optional AI module leverages proprietary algorithms for real-time target recognition, tracking, and auto-reacquisition. When the target is temporarily obstructed, the system resumes tracking within 0.5 seconds upon reappearance. Dual-sensor ensures synchronized zooming on both cameras, enhancing situational awareness. Visible and thermal feeds are dynamically aligned for side-by-side comparison, enabling faster decision-making.
Hybrid Imaging System | Four-Dimensional Visual Intelligence
4K Ultra HD
6x digital zoom delivers crisp long-range details.
Dual-Sensor Zoom
Thermal and visible cameras zoom in tandem, maintaining visual context.
Video Stitching
Real-time fusion of thermal and visible feeds for comprehensive analysis.
HDR Enhancement
Preserves details in high-contrast environments.
Applications
Power line inspections (thermal anomaly + visible asset verification), environmental monitoring (heat mapping + terrain visualization).
540° Omnidirectional Gimbal | Unobstructed Field of View
Mechanical Excellence
540° continuous yaw rotation and -90°~25° pitch range, combined with industrial-grade 3-axis stabilization, ensure seamless 360° surveillance. Whether mounted on fixed-wing drones for wide-area scans or multirotors for close-range inspections, the gimbal maintains rock-steady imaging.
Installation Flexibility
Head-up mode (for VTOL aircraft), inverted mode (for ground/sea vehicles), and customizable mounting options.
Protocol-Agnostic Control | Open Ecosystem Integration
Physical Connectivity
S.Bus remote control, Ethernet (ground station touchscreen), Micro-HDMI/CVBS video outputs.
Protocol Support
Proprietary SDK, ArduPilot/PX4 (Mavlink) compatibility, UDP/TCP for custom development.
Data Integration
Real-time attitude data (pitch/roll/yaw) for seamless integration with drone flight controllers.
Plug-and-play compatibility with major drone platforms and industry software solutions.
Industrial-Grade Stabilization Algorithms | Reliable Performance in Dynamic Environments
IMU Calibration
Compensates for temperature drift (-40°C~70°C) and vibration interference, maintaining accuracy in extreme conditions.
Attitude Fusion
Combines accelerometer/gyro data for precise 3D orientation calculation, improving disturbance resistance by 80%.
FOC Motor Control
Brushless motor decoupling reduces image jitter to ≤0.1°, ensuring stable footage during high-speed maneuvers.
Validation
Tested to industrial standards (5~2000Hz vibration resistance), proven reliable in mountainous/marine environments.
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More Information About 4K Mini Dual-Sensor Gimbal Drone Camera
When a target is obstructed, the AI module uses multi-frame motion prediction algorithms to maintain tracking logic, automatically reacquiring the target within 0.5 seconds of reappearance (tested in typical industrial scenarios). The system supports customization via the SDK, enabling industry-specific model training—for example, optimizing recognition of “insulators” or “cable joints” for power utilities, or thermal leak patterns for oil & gas. The anti-loss mechanism fuses dual-sensor data, ensuring continuous tracking even if visible-light feeds are compromised, with thermal channels providing redundant positioning.
The ZT6 supports compatibility with many mainstream industrial drones via S.Bus and Mavlink (PX4/ArduPilot) protocols, as well as third-party flight controllers through the Wingtra SDK. Gimbal interfaces (HDMI/CVBS video + UDP/TCP commands) enable plug-and-play integration with ground stations, with typical debugging (camera parameter setup, gimbal calibration) taking ~15 minutes. For specialized platforms like VTOL fixed-wing aircraft, head-up and inverted mounting modes support tool-free installation, ensuring seamless integration with drones, UGVs, and robotic dogs—minimizing integration overhead.