DJI FPV by SZ DJI TECHNOLOGY CO., LTD. (FCC ID SS3-FGDB282006): Specs, Wireless Analysis, and Regulatory Insights

Introduction

The DJI FPV system from SZ DJI TECHNOLOGY CO., LTD. stands at the forefront of immersive drone flight, blending high-octane performance with intuitive controls for both seasoned pilots and ambitious newcomers. Engineered for first-person view (FPV) experiences, this integrated system—comprising the aircraft (Model: FD1W4K), goggles (Model: FGDB28), and remote controller (Model: FC7BGC)—delivers ultra-responsive flight, real-time HD video transmission, and robust safety features.

Crucially, the DJI FPV is certified under FCC ID SS3-FGDB282006, signifying its compliance with stringent U.S. radio frequency (RF) emission standards. This certification not only ensures the device’s legality for sale and operation in the United States but also attests to its adherence to electromagnetic compatibility and safety regulations.

In this expert analysis, we’ll deep-dive into the DJI FPV’s key features and technical specifications, examine its wireless technology and operating frequencies, and discuss the regulatory framework underpinning its FCC approval. Whether you’re an FPV enthusiast, a tech analyst, or an engineering professional, this comprehensive breakdown offers valuable insights into the architecture, wireless performance, and compliance profile of the DJI FPV system.

Key Features & Specifications

The DJI FPV is a high-performance, all-in-one system designed to offer breathtaking aerial perspectives through advanced imaging, responsive controls, and reliable wireless connectivity. Below, we detail its standout features and technical specifications, highlighting the practical benefits each brings to the user experience.

Key Features

• High-Performance Gimbal and Camera
• Captures ultra-smooth, stabilized 4K footage at up to 60fps.
• Wide 150° field of view (FOV) for immersive video.
• Intuitive Power Button
• Simplifies startup and shutdown for quick deployment.
• Dedicated Shutter/Record Button on Remote Controller
• Enables instant photo or video capture without taking your hands off the controls.
• Advanced Downward Vision System
• Assists with precise hovering and landing, enhancing safety and flight stability.
• Lanyard Attachment on Remote Controller
• Provides added convenience for extended flying sessions.
• Low Latency Mode on Goggles
• Supports 810p video at 120fps, ensuring real-time transmission for split-second maneuvering.
• Lock/Unlock Button (M Mode)
• Offers manual flight mode for experienced pilots seeking full control.
• Intelligent Flight Battery
• Optimized for longevity and rapid recharging, supporting up to 20 minutes of continuous flight.

Technical Specifications

Camera & Imaging:
– Sensor: 1/2.3’’ CMOS, 12MP effective pixels
– Max Image Size: 3840×2160
– Video Resolution:
– 4K: 3840×2160 @ 50/60p
– FHD: 1920×1080 @ 50/60/100/120/200p
– Electronic Shutter Speed: 1/8000–1/60 s
– Lens FOV: 150°

Wireless & Connectivity:
– Wi-Fi Bands: 2.400–2.4835 GHz, 5.725–5.850 GHz
– Bluetooth: Present (detailed version not specified)
– Operating Frequencies:
– 2.400–2.4835 GHz
– 5.725–5.850 GHz

Display & Controls:
– Goggles Screen Size: Dual 2-inch displays
– Low Latency Video: 810p @ 120fps (Goggles)

Battery & Power:
– Aircraft Battery: 2000 mAh LiPo 6S
– Goggles Battery: 2600 mAh
– Charging Temperature: 0° to 45°C
– Max Flight Time: 20 minutes

Physical Characteristics:
– Aircraft Dimensions:
– 184×122×110 mm (antennas excluded)
– 202×126×110 mm (antennas included)

Benefits & Real-World Impact

• Cinematic Aerial Video: Capture dynamic, stabilized 4K video for content creation or FPV racing.
• Responsive Flight Controls: Low latency and robust wireless links mean precise handling and real-time feedback.
• Extended Flight Sessions: Intelligent batteries and ergonomic controls support longer, more comfortable flying experiences.
• Regulatory Confidence: FCC certification (ID: SS3-FGDB282006) ensures the system can be legally operated in the U.S., free from interference concerns.

Operating Frequencies

The DJI FPV system, under FCC ID SS3-FGDB282006, operates across several RF bands, each with specific output power and regulatory designations. These frequencies are critical for understanding its wireless reach, video link robustness, and compliance with U.S. regulations:

These bands cover both traditional Wi-Fi frequencies (2.4 GHz, 5.8 GHz) and additional sub-bands utilized for low-latency video transmission and robust remote control links. The varying output power levels reflect the system’s adaptation for different transmission needs—balancing range, video quality, and interference mitigation.

Technology Deep Dive

The DJI FPV leverages a suite of advanced wireless technologies to deliver its hallmark low-latency, high-resolution video transmission and responsive remote control. Primarily, the system operates on dual-band Wi-Fi frequencies (2.4 GHz and 5.8 GHz), which are standard for high-throughput, low-latency communication—essential for real-time FPV flight. The presence of Bluetooth further supports streamlined device pairing and potential accessory integration, although specific Bluetooth version details are not detailed in available documentation.

The operating frequencies, as detailed in the FCC filing, enable the DJI FPV to dynamically select optimal channels, reducing interference from crowded environments and enhancing transmission reliability. Higher output power in some sub-bands supports extended range and stable connections, even in challenging RF environments. This is especially vital for FPV drones, where signal integrity directly impacts flight safety and video quality.

From a performance standpoint, these technologies translate to:
– Long-Range, Low-Interference Links: Robust connections for both control and video, minimizing dropouts.
– High Data Rate Video Streaming: Supports 4K video at high frame rates with minimal latency.
– Efficient Power Management: Output power levels are balanced to maximize range while preserving battery life.

Test reports referenced in the FCC documentation confirm the system’s compliance with RF exposure and emission standards, further validating its safe and legal operation in the U.S. market.

In-Depth Internal Component Analysis / Teardown

No suitable internal component photographs were available or analyzed for a detailed teardown of the DJI FPV system. As such, an in-depth breakdown of PCB layout, chipsets, or antenna structures cannot be provided in this article. Should future documentation or official teardowns become available, a more granular analysis of the internal architecture and component selection will be possible.

Regulatory Insights & FCC Filing

The FCC ID SS3-FGDB282006 certifies that the DJI FPV system from SZ DJI TECHNOLOGY CO., LTD. meets all relevant U.S. electromagnetic compatibility and RF emission standards. This certification is essential for legal sale, import, and operation of the device within the United States, providing assurance to users and regulators alike that the system will not cause harmful interference with other wireless equipment.

Registered by: FCC.gov

FCC filings for the DJI FPV typically include a comprehensive suite of documentation:
– Test Reports: Validate RF exposure, emissions, and susceptibility.
– User Manuals: Detail system setup, safety instructions, and operational guidelines.
– Schematics & Block Diagrams: Illustrate internal circuitry and signal flow.
– Component Photographs: Document external and (when available) internal device construction.

Insights from the user manual and internal documentation reveal that the DJI FPV is a tightly integrated system, with each component—aircraft, goggles, remote controller—engineered for seamless operation. The manual provides detailed setup procedures, linking instructions, and safety guidance, reflecting DJI’s emphasis on user experience and regulatory compliance.

The FCC filing process ensures that the DJI FPV not only meets technical standards for RF emissions but also adheres to robust safety and interoperability criteria, further bolstering its position in the competitive drone market.

Potential Use Cases & Target Audience

The DJI FPV system’s advanced features, robust wireless specs, and FCC-certified compliance make it an ideal choice for several user scenarios:

• Aerial Cinematography and Content Creation:
  Filmmakers, vloggers, and creative professionals can leverage the system’s stabilized 4K video and immersive FPV perspective to capture dynamic, cinematic shots previously unattainable with conventional drones.
• FPV Racing and High-Speed Flight Training:
  Enthusiasts and competitive pilots benefit from the low-latency video transmission and manual flight (M mode), enabling precise control, rapid maneuvering, and an adrenaline-fueled racing experience.
• STEM Education and Robotics Programs:
  Educational institutions and STEM clubs can utilize the DJI FPV’s advanced sensors, wireless technology, and user-friendly controls to introduce students to drone technology, robotics, and safe flight practices.

The system’s ease of use, combined with professional-grade capabilities, broadens its appeal—from creators seeking next-level footage to hobbyists and educators exploring the cutting edge of drone technology.

Conclusion

The DJI FPV by SZ DJI TECHNOLOGY CO., LTD. (Model: FD1W4K, FGDB28, FC7BGC) is a standout in the FPV drone arena, delivering a compelling blend of high-performance imaging, responsive controls, and robust wireless technology. Its certification under FCC ID SS3-FGDB282006 underscores its compliance with U.S. RF emission standards, ensuring both legal operation and reliable performance.

With its advanced features, immersive flight experience, and rigorous regulatory pedigree, the DJI FPV system remains a top choice for those seeking the ultimate in aerial innovation and FPV excitement. Whether for creative, competitive, or educational applications, this device sets a high bar for what’s possible in next-generation drone technology.

Related Documents

• User Manual
• Fcc Label Revised