DJI Phantom 4 Pro+ V2.0 (Model: Phantom 4 Pro+ V2.0) – In-Depth Specs, Teardown & FCC ID SS3-GL300K1801 Analysis

Introduction

The DJI Phantom 4 Pro+ V2.0 stands as a flagship in the realm of prosumer drones, seamlessly bridging the gap between professional-grade aerial imaging and accessible, intuitive operation. Designed for creators, surveyors, and technology enthusiasts, this advanced quadcopter is engineered to deliver stunning 4K video and high-resolution stills from the sky—all while ensuring robust flight stability and intelligent safety features.

A critical factor in its legal sale and operation in the United States is its FCC certification under FCC ID SS3-GL300K1801. This certification confirms that the Phantom 4 Pro+ V2.0 meets stringent RF emission and electromagnetic interference standards set by the Federal Communications Commission, ensuring both user safety and compatibility with other wireless devices.

In this comprehensive analysis, we’ll dissect the Phantom 4 Pro+ V2.0’s standout features and technical specifications, explore its wireless transmission technologies, examine internal components through teardown photographs, and provide expert insights into its regulatory compliance. Whether you’re a drone enthusiast, a professional content creator, or an engineer seeking technical depth, this article offers an authoritative overview of what makes the Phantom 4 Pro+ V2.0 a benchmark in aerial innovation.

Key Features & Specifications

The Phantom 4 Pro+ V2.0 by DJI is engineered for high-performance aerial imaging, combining cutting-edge flight technology with professional-grade camera capabilities. Below, we detail its standout features and technical specifications—each contributing to its reputation as a top-tier prosumer drone.

Key Features

• OcuSync Long-Range Transmission Technology
• Provides robust, low-latency HD video transmission up to 4.3 miles (7 km), enabling reliable long-distance control and real-time monitoring.
• Return-to-Home (RTH) Function
• Automatically brings the drone back to its takeoff point in case of signal loss or low battery, enhancing safety for both the aircraft and surrounding environment.
• Physical Buttons and Dials
• Dedicated controls for exposure, camera tilt, photo capture, and video recording, allowing seamless adjustments without navigating complex menus.
• Obstacle Avoidance in Four Directions
• Utilizes advanced vision sensors to detect and avoid obstacles from the front, rear, left, and right, reducing collision risk during complex maneuvers.
• Mechanical and Electronic Shutter
• Minimizes distortion and rolling shutter effects, critical for high-speed aerial photography and mapping applications.
• Intelligent Flight Pause Button
• Instantly halts all movement, offering precise control during critical moments or emergency scenarios.
• Remote Controller with Integrated Display
• Features a built-in 5.5-inch ultra-bright display, eliminating the need for a separate mobile device and ensuring clear visibility even in direct sunlight.
• High-Efficiency Antenna Design
• External dual-band antennas optimize transmission quality and extend operational range.

Technical Specifications

• Vision System Obstacle Sensory Range: 2 – 98 ft (0.7 – 30 m)
• Camera Maximum Image Size:
• 3:2 Aspect Ratio: 5472 × 3648
• 4:3 Aspect Ratio: 4864 × 3648
• 16:9 Aspect Ratio: 5472 × 3078
• Supported SD Cards: Micro SD, Max Capacity: 128 GB (Class 10 or UHS-1 rating required)
• Photo Formats: JPEG, RAW (DNG), JPEG + RAW
• Mechanical Shutter Speed: 8 – 1/2000 s
• Maximum Flight Time: Approximately 30 minutes (under optimal conditions)
• Weight (with Battery & Propellers): 1375 g
• Video Recording Modes: Up to 4K/60fps at 100 Mbps bitrate
• Camera Sensor: 1-inch CMOS, delivering 20MP still images
• Battery: High-capacity LiPo, supporting extended flight and robust power delivery
• Bluetooth: Present (details not specified in public documentation)
• Remote Controller Transmission Range: Up to 4.3 mi (7 km), leveraging OcuSync technology
• Wireless Connectivity: Wi-Fi and Bluetooth supported (details on Bluetooth version not specified)

Practical Benefits

• Professional Imaging: The large 1-inch CMOS sensor and high-bitrate 4K video capture make the Phantom 4 Pro+ V2.0 suitable for commercial photography, cinematography, and mapping.
• Flight Safety: Multi-directional obstacle avoidance and intelligent RTH features significantly reduce crash risk and operational uncertainty.
• Operational Efficiency: Extended range, built-in display, and intuitive controls streamline field operations—ideal for demanding environments or rapid deployment scenarios.
• Storage Flexibility: Support for high-capacity SD cards and RAW formats ensures maximum post-production potential.

Operating Frequencies

The DJI Phantom 4 Pro+ V2.0 (FCC ID SS3-GL300K1801) operates across a range of frequencies to support its advanced wireless functions. The table below summarizes the authorized frequency ranges, output power, and corresponding FCC rule parts:

These frequencies enable the Phantom 4 Pro+ V2.0 to deliver robust video streaming, responsive control, and reliable telemetry, all while adhering to strict regulatory guidelines for radio frequency emissions.

Technology Deep Dive

The Phantom 4 Pro+ V2.0 leverages a suite of wireless technologies to achieve its impressive range, low-latency video, and seamless device integration. Its primary communication is handled via Wi-Fi and proprietary OcuSync protocols, both operating within the 2.4GHz and 5.8GHz bands—common spectra for high-bandwidth, low-latency transmission in consumer and prosumer drones. The inclusion of Bluetooth, as indicated in the technical documentation, points to support for auxiliary connectivity, such as device pairing or controller configuration, though specifics are not detailed.

Operating across these bands allows for dynamic frequency selection, minimizing interference from crowded environments and optimizing signal clarity for both control and live video feeds. The output power levels—ranging from 31 mW up to 750 mW—are carefully regulated to balance range, battery efficiency, and compliance with FCC Part 15 rules. The device’s design, featuring robust external antennas and EMI shielding, further enhances wireless performance by reducing susceptibility to interference and signal degradation.

From a practical standpoint, these technologies ensure consistent, high-quality video transmission even at extended distances, while maintaining low latency essential for real-time FPV (first-person view) operations. The regulatory-compliant RF design, as validated by comprehensive FCC test reports, guarantees that the Phantom 4 Pro+ V2.0 operates safely and reliably in diverse environments, from urban landscapes to remote outdoor locations.

In-Depth Internal Component Analysis / Teardown

A closer look at the internal hardware of the Phantom 4 Pro+ V2.0 reveals the sophisticated engineering underpinning its performance and reliability. The following analyses, based on detailed component photographs, highlight the technical prowess invested in both controller and onboard electronics.

The internal view of the Phantom 4 Pro+ V2.0 remote controller showcases a meticulously engineered PCB densely populated with high-performance components. Prominently, several integrated circuits are positioned near antenna connectors and beneath a substantial metal shield, signifying their roles in RF transmission and processing. The external dual-band antenna, connected via coaxial cabling, is optimized for both 2.4GHz and 5.8GHz bands, ensuring long-range, low-latency communication. The large metal shield doubles as a heatsink, providing both effective EMI containment and thermal management—a necessity given the presence of a cooling fan, which is rare among remote controllers. This suggests significant heat output from a high-performance SoC or RF power amplifier. Multiple modular connectors, including FPC/FFC types, facilitate connections to the integrated display, buttons, and other internal modules, underscoring a design focused on serviceability. The robust grounding strategy, shielded PCB architecture, and test points for diagnostics reflect an emphasis on reliability, EMI mitigation, and high data throughput. Overall, the build quality is exemplary, supporting the controller’s demanding role in delivering stable, long-range video and control for the Phantom 4 Pro+ V2.0 system.

Examining the internal PCB assembly of the Phantom 4 Pro+ V2.0 reveals a compact, multi-layered board designed for high-speed signal integrity and robust EMI management. The most striking feature is the substantial EMI shield, which likely houses critical RF and processing components such as the main SoC and wireless transceivers. Surrounding the shielded area, a variety of unshielded ICs, power management components, and large capacitors manage local regulation and filtering, ensuring stable operation even under high load. The PCB’s dark soldermask and dense population of components—especially around connectors—attest to its advanced engineering, with numerous vias and ground pours reinforcing signal integrity and thermal dissipation. Multiple connectors, including a large FPC interface and USB ports, enable modular assembly and straightforward servicing, while the presence of crystals indicates precise clock management for RF and processing subsystems. Altogether, this assembly embodies the intersection of miniaturization, performance, and reliability required for high-end UAV applications, supporting the Phantom 4 Pro+ V2.0’s advanced imaging, navigation, and communication features.

Regulatory Insights & FCC Filing

The FCC certification of the DJI Phantom 4 Pro+ V2.0 under FCC ID SS3-GL300K1801 serves as a testament to its compliance with stringent U.S. electromagnetic interference and radio frequency emission standards. This certification, issued and registered by the FCC, is not merely a legal formality—it ensures the device can be marketed, sold, and operated safely within the United States without causing harmful interference to other wireless systems.

FCC filings for products like the Phantom 4 Pro+ V2.0 typically include a comprehensive suite of documentation: detailed test reports for RF exposure and electromagnetic compatibility, internal and external photographs, user manuals, block diagrams, and schematics. These documents collectively demonstrate that the device adheres to required safety limits, spectral efficiency, and operational guidelines.

Insights from the user manual and supporting documentation confirm the Phantom 4 Pro+ V2.0’s status as a smart prosumer drone, equipped with a 1-inch CMOS sensor for 4K/60fps video and 20MP still images. Its advanced obstacle avoidance, OcuSync long-range transmission, and intelligent flight features are all backed by rigorous testing and validation, as reflected in the FCC filing materials. This regulatory compliance not only assures end-users of operational safety but also underscores DJI’s commitment to engineering excellence and market legitimacy.

Potential Use Cases & Target Audience

Designed for the discerning prosumer, the Phantom 4 Pro+ V2.0 is tailored to a variety of demanding applications where aerial imaging and operational reliability are paramount:

• Professional Content Creation: Filmmakers, photographers, and media professionals will benefit from the drone’s 4K/60fps video, RAW image capture, and mechanical shutter—enabling cinematic shots with minimal distortion and maximum dynamic range.
• Surveying and Mapping: The high-resolution camera, precise obstacle avoidance, and extended flight time make it ideal for land surveying, construction monitoring, and 3D mapping, where accuracy and reliability are essential.
• Immersive FPV and Live Broadcast: With OcuSync technology and compatibility with DJI Goggles, users can experience real-time, low-latency FPV flights, making it suitable for live event coverage, inspections, or immersive drone racing experiences.

The integrated 5.5-inch display and intuitive control layout further position the Phantom 4 Pro+ V2.0 as a versatile tool for both seasoned professionals and advanced hobbyists seeking uncompromising performance.

Conclusion

The DJI Phantom 4 Pro+ V2.0, certified under FCC ID SS3-GL300K1801, exemplifies the convergence of advanced engineering, regulatory compliance, and user-centric design. Its robust wireless architecture, intelligent flight systems, and professional-grade camera capabilities make it a standout choice in the prosumer drone segment. With meticulous attention to internal hardware detail and adherence to FCC standards, it offers both peace of mind and cutting-edge performance. Whether deployed for high-end content creation, industrial applications, or immersive FPV experiences, the Phantom 4 Pro+ V2.0 sets a benchmark for what a modern aerial platform can achieve.

Related Documents

• Users Manual
• Int Photos
• Ext Photos
• Fcc Id Label