Tech IDIntroduction
The Mavic 2 Pro from SZ DJI TECHNOLOGY CO., LTD. stands at the forefront of consumer drone technology, catering to aerial photographers, videographers, and advanced drone enthusiasts. Renowned for its robust flight capabilities and professional-grade camera system, the Mavic 2 Pro is engineered for users who demand superior imaging, reliable long-range control, and intelligent flight features.
A critical milestone in the Mavic 2 Pro’s journey to market is its FCC certification under FCC ID SS3-RC1A1805. This certification is not just a regulatory formality—it affirms that the device meets strict U.S. standards for radio frequency (RF) emissions and electromagnetic compatibility (EMC). As a result, the Mavic 2 Pro is cleared for legal sale and operation within the United States, providing assurance to consumers and professionals alike regarding its wireless performance and safety.
In this article, we deliver a comprehensive exploration of the Mavic 2 Pro by SZ DJI TECHNOLOGY CO., LTD., focusing on its key specifications, breakthrough technologies, internal hardware, and regulatory compliance. Whether you’re evaluating its technical prowess, seeking teardown insights, or verifying its regulatory status, this guide offers an expert-level perspective on one of the most advanced drones available today.
Key Features & Specifications
The Mavic 2 Pro (Model: L1P) is meticulously designed to deliver best-in-class flight, imaging, and control. Here’s an in-depth look at its standout features and technical specifications:
Key Features
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Maximum Flight Speed: 44.7 mph (72 kph)
Experience rapid deployment and agile maneuvering, essential for tracking fast-moving subjects or covering expansive landscapes. -
Fully Stabilized 3-Axis Gimbal:
Ensures buttery-smooth video and razor-sharp photos by actively compensating for drone movement, even in windy conditions. -
Maximum Transmission Range: 5 mi (8 km)
Supported by DJI’s advanced OCUSYNC 2.0, this extended range allows pilots to maintain a robust HD video feed and control link over vast distances. -
OCUSYNC 2.0 Long-Range Transmission:
Delivers ultra-reliable, low-latency digital video and command signals, minimizing interference and maximizing image quality. -
Obstacle Avoidance & Omnidirectional Sensing:
Multi-directional sensors detect and help avoid obstacles in all flight directions, enhancing safety and enabling intelligent flight modes. -
Maximum Flight Time: 31 minutes
Optimized battery and propulsion design allow for extended creative sessions without frequent landings. -
Detachable Control Sticks:
The remote controller features removable sticks for streamlined storage and portability.
Technical Specifications
Camera and Imaging:
– Sensor: 1” CMOS, Effective Pixels: 20MP
– Lens FOV: Approx. 77°
– Video Recording:
– 4K: 3840×2160 24/25/30p
– 2.7K: 2688×1512 24/25/30/48/50/60p
– FHD: 1920×1080 24/25/30/48/50/60/120p
– Max Image Size: 5472×3648
– ISO Range:
– Video: 100-6400
– Photo: 100-3200 (auto); 100-12800 (manual)
– Still Photography Modes:
– Single shot
– Burst: 3/5 frames
– AEB: 3/5 bracketed frames at 0.7 EV Bias
– Interval shooting
Wireless & Transmission:
– Remote Controller Max Transmission Distance:
– FCC: 8 km
– CE/SRRC: 5 km
– Operating Frequency:
– 2.4-2.4835 GHz
– 5.725-5.850 GHz
– Wi-Fi: Dual-band support for robust connectivity
– Bluetooth: Present (details not specified)
Battery & Power:
– Drone Intelligent Flight Battery: 3850 mAh
– Remote Controller Battery: 3950 mAh, up to 2 hours 15 minutes runtime
– Charger Voltage: 17.6±0.1 V
– Max Charging Power: 80 W
Flight & Environmental:
– Max Service Ceiling Above Sea Level: 19685 ft (6000 m)
– Obstacle Sensing: Omnidirectional
– Operating Temperature Range: (Not specified in provided data)
Build & Design:
– Detachable Control Sticks: For compact transport
– Robust, modular construction: Ensures durability and ease of repair
These specifications underscore the Mavic 2 Pro’s capability to deliver cinematic-quality imaging, exceptional flight endurance, and professional-grade reliability—making it a top choice for content creators and demanding drone pilots.
Operating Frequencies
The Mavic 2 Pro, as detailed in its FCC filing under FCC ID SS3-RC1A1805, operates across several critical frequency bands with precisely regulated output power. This ensures both optimal wireless performance and strict adherence to regulatory requirements.
| Frequency Range (GHz) | Output Power (mW) | FCC Rule Part |
|---|---|---|
| 2.4035–2.4775 | 136.5 | 15CCC1.12.4055 |
| 2.4725 | 63.1 | 15CCC1.35.7285 |
| 2.4775 | 57.8 | 15CCC1.22.4105 |
| 5.8395 | 138.7 | 15ECC2.3 |
| 5.8445 | 150 | 15ECC2.25.7355 |
| 5.8465 | 144.5 | 15ECC2.15.7305 |
These bands and power levels are foundational for the drone’s long-range control, real-time video transmission, and robust connectivity in diverse environments.
Technology Deep Dive
The Mavic 2 Pro leverages a sophisticated suite of wireless technologies centered around dual-band Wi-Fi (2.4 GHz and 5.8 GHz) and Bluetooth (specifications undisclosed in provided documentation). The use of both 2.4 GHz and 5.8 GHz frequencies enables adaptive channel selection, reducing interference from crowded wireless environments and maximizing transmission reliability and range.
This dual-band strategy, combined with DJI’s OCUSYNC 2.0 technology, ensures low-latency, high-definition video streaming and responsive remote control—even in RF-congested areas. The FCC-authorized power levels strike a balance between extended range and compliance with regulatory emission limits, supporting up to 8 km (FCC region) of robust, interference-resistant operation.
Bluetooth functionality, while less detailed in the available documentation, likely supports device pairing and quick setup, further streamlining the user experience. The absence of cellular connectivity (as indicated by the equipment class) simplifies RF design and minimizes power consumption, allowing for longer flight times and reduced electromagnetic complexity.
Test reports in the FCC filing confirm that the Mavic 2 Pro’s RF emissions, spurious output, and frequency stability all meet or exceed regulatory thresholds, ensuring safe and interference-free operation in both consumer and professional environments.
In-Depth Internal Component Analysis / Teardown
A detailed analysis of the Mavic 2 Pro’s internal hardware reveals the high level of engineering underpinning its performance and reliability. Below, we examine seven key internal views, each highlighting different aspects of the device’s sophisticated architecture.
The internal view of the Mavic 2 Pro remote controller exposes a densely populated PCB, meticulously engineered for compactness and RF performance. Major integrated circuits—likely including the main microcontroller or SoC and RF transceivers—are strategically placed near antenna feedlines, optimizing signal integrity. Dual external antennas, connected via coaxial cables, are designed for high-gain dual-band operation, ensuring robust communication with the drone. The presence of multiple FPC and wire-to-board connectors supports modular assembly, interfacing with the display, buttons, and power circuits. Ground pours, stitching vias, and extensive metal shielding over sensitive areas demonstrate a concerted focus on EMI mitigation. Local power regulation is handled by visible capacitors and inductors, while crystal oscillators provide precise clocking. The overall build quality is exemplary, reflecting DJI’s commitment to reliability, low-latency control, and user-friendly maintenance.
A close examination of the drone’s core PCB assembly reveals a sophisticated multi-layer design, finished in black ENIG for optimal signal integrity and durability. Two substantial metal shield cans—one featuring machined heatsink fins—cover the main processing and RF sections, indicating the presence of high-power SoCs and wireless transceivers beneath. The board’s high via density and evidence of differential pair routing underscore the complexity necessary for high-speed USB and RF communications. Prominent connectors—USB, FPC, and edge-mounted test points—facilitate modular integration with camera, sensor, and transmission modules. The attention to EMI containment, robust power regulation, and thermal management is indicative of a high-performance embedded system built for sustained, real-time video and telemetry processing.
Another internal PCB showcases a dense, irregularly shaped layout housing major processing components. A Xilinx FPGA (or SoC), ARM microcontroller, and an ALLACORE-branded controller suggest powerful onboard computation for real-time video, sensor fusion, and flight control. Multiple connectors, including USB and FPC types, support integration with external modules, while numerous shielded sections protect sensitive RF and high-speed digital circuits. The board’s multi-layer construction, via stitching, and controlled impedance traces ensure signal fidelity and minimize electromagnetic interference. The presence of a rotary encoder or MEMS sensor hints at advanced stabilization features, while large inductors and capacitors provide reliable power under demanding flight conditions. This board exemplifies advanced embedded system design, balancing processing, RF, and mechanical integration within a compact footprint.
A further internal PCB view highlights extensive EMI shielding and a high-density component layout. Most major integrated circuits, including the main SoC, wireless transceivers, and memory, are protected beneath metal shields—a necessity for preventing cross-talk in RF-heavy environments. Multiple FPC connectors and edge-mounted board-to-board interfaces facilitate modular assembly, while local power regulation components (capacitors, inductors) ensure stable operation. The PCB’s compact, irregular design is tailored to fit within the drone’s chassis, maximizing functionality per square millimeter. Crystals and test points support precise timing and manufacturability. This board is a testament to the Mavic 2 Pro’s engineering, marrying RF performance, high-speed data processing, and robust power delivery in a form factor optimized for aerial applications.
An analysis of a specialized PCB reveals a peripheral or sensor interface board, distinct from the main processing modules. This compact, irregularly shaped black PCB features several small ICs—likely for LED driving, button control, or sensor input—without the presence of large SoCs or RF chips. Multiple FPC connectors support integration with user interface elements or internal sensors, while tactile switches and LEDs provide direct user feedback or calibration functions. The absence of metal shielding and high-power components suggests low electromagnetic susceptibility and minimal power consumption. The board’s clean routing and modular design underscore DJI’s attention to detail, ensuring ease of assembly and service within the drone’s compact frame.
A minor internal component, this slim PCB is designed for interface or interconnect duties within the drone. Lacking major ICs or power management circuits, it features a micro-USB (or similar) connector for data transfer, firmware updates, or diagnostics. Gold-plated test points and mounting holes further support manufacturing and serviceability. The absence of shielding and antennas indicates its non-RF, low-power role. Despite its simplicity, the board’s precise construction and modularity reflect the high standards maintained throughout the Mavic 2 Pro’s internal architecture.
Regulatory Insights & FCC Filing
The FCC ID SS3-RC1A1805 is a testament to the Mavic 2 Pro’s compliance with stringent U.S. electromagnetic interference and RF emission standards. This certification, registered by FCC.gov, is essential for legal sale and operation within the United States, ensuring the device does not cause harmful interference or exceed exposure limits.
FCC filings for the Mavic 2 Pro typically include comprehensive test reports (covering RF exposure and EMC), high-resolution internal and external photographs, user manuals, block diagrams, and schematics. These documents confirm that the drone’s wireless systems operate within authorized frequency bands and maintain output power levels that safeguard both users and neighboring electronic devices.
Insights from internal documentation and the user manual highlight the Mavic 2 Pro’s advanced features: omnidirectional obstacle sensing, a stabilized 3-axis gimbal, a 1” CMOS sensor camera capable of 4K video and 20MP stills, and intelligent flight modes. The FCC test reports further validate that the device’s RF emissions, spurious output, and operational stability meet or exceed legal thresholds. Collectively, this regulatory compliance not only protects users but also reinforces DJI’s reputation for engineering excellence and market readiness.
Potential Use Cases & Target Audience
Given its advanced feature set and robust engineering, the Mavic 2 Pro is ideally suited for the following scenarios:
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Professional Aerial Photography and Cinematography:
The 1” CMOS sensor camera, 3-axis gimbal, and 4K video capability make the Mavic 2 Pro a top choice for filmmakers, real estate professionals, and content creators seeking high dynamic range, sharp imagery, and buttery-smooth footage. -
Surveying, Mapping, and Inspection:
With a maximum flight time of 31 minutes and omnidirectional obstacle sensing, the drone excels in industrial applications—enabling safe, efficient inspection of infrastructure, agricultural mapping, and land surveying where precision and reliability are paramount. -
Enthusiast and Recreational Flying:
Drone hobbyists and advanced users benefit from the extended transmission range, intelligent flight modes, and robust obstacle avoidance, allowing for creative exploration and safe operation even in complex environments.
These use cases underscore the Mavic 2 Pro’s versatility and appeal to anyone demanding professional results in a portable, user-friendly package.
Conclusion
The Mavic 2 Pro by SZ DJI TECHNOLOGY CO., LTD. (Model: L1P) stands as a benchmark in the drone industry, seamlessly integrating professional-grade imaging, intelligent flight features, and robust wireless performance. Its FCC certification under FCC ID SS3-RC1A1805 assures users of regulatory compliance, safe operation, and reliable connectivity. From its meticulously engineered internals to its advanced camera and flight capabilities, the Mavic 2 Pro is a compelling choice for aerial photographers, professionals, and enthusiasts seeking the very best in drone technology. As both a technical marvel and a regulatory exemplar, it continues to set the standard for what’s possible in the skies.
