Precise details:

Eachine Sphere link

Transform your digital FPV experience with the OpenIPC/RubyFPV 5.8G Digital FPV HDMI Receiver -- a compact, powerful SBC-based solution designed for ultra-low latency 1080P@90FPS streaming, seamless integration with VR glasses (via HDMI-to-C adapter), and versatile compatibility with OpenIPC/RubyFPV systems. Engineered for FPV enthusiasts, content creators, and professional developers, this receiver delivers pro-grade performance in an all-in-one package, solving core pain points like signal lag, limited compatibility, and cumbersome setup. Trusted by the FPV community for its robust open-source support and industrial-grade design, this receiver balances high-speed wireless connectivity, flexible power options, and intuitive controls -- making it the perfect upgrade for your digital FPV drone, VR headset, or ground station setup.

Features 1. Ultra-Low Latency Streaming – Real-Time FPV & VR Immersion The heart of this receiver is its 40-50ms latency paired with high-frame-rate output, delivering a seamless, lag-free experience critical for competitive FPV and immersive VR use: - 720P@120FPS / 1080P@90FPS Output: Delivers buttery-smooth video with minimal motion blur--perfect for high-speed racing, freestyle tricks, and cinematic FPV filming. - 1080P@60FPS Default: Pre-configured for stable, crisp streaming right out of the box, ensuring you' re ready to fly in minutes. - Low-Latency Design: Eliminates the "delay lag" common in basic FPV receivers, keeping your drone/VR experience responsive and intuitive.

2. Universal VR Glasses Compatibility (With Adapter) While the receiver features an HDMI interface (not Type-C), it works seamlessly with popular XR glasses (Viture, Rayneo, Xreal) with a simple HDMI-to-Type-C adapter cable (not included): - Direct HDMI Output: No complex software or drivers required--just connect the HDMI-to-C adapter, plug into your glasses, and stream crisp FPV footage directly to your headset. - No Direct Connection Needed: Clarifies compatibility for users, avoiding confusion about port mismatches.

3. Dual System Compatibility – OpenIPC & RubyFPV, Pre-Flashed or Custom Engineered for flexibility, this receiver supports two leading open-source FPV platforms, with options for pre-flashed or custom firmware: - Plug-and-Play Pre-Flashed Version (1G RAM + 32GB SD): Comes pre-loaded with OpenIPC firmware -- simply power on, connect HDMI/display, and adjust settings via the built-in ground station menu. No technical setup required! - Customizable Base Version (1G RAM): Use BalenaEtcher (free software) to burn OpenIPC/RubyFPV firmware to an 8GB+ microSD card, tailoring the system to your specific needs (e.g., telemetry, DVR, or custom controls). - Wiki & Firmware Support: Access detailed guides via GitHub, RubyFPV, and BalenaEtcher for easy flashing, configuration, and troubleshooting.

4. Versatile Power Options – Fly Anywhere, Anytime Designed for portability and drone integration, the receiver offers flexible power solutionss for field use, home setup, and in-flight deployment: - 5V USB OTG: Power via portable power banks, USB chargers, or drone USB ports for on-the-go use. - 7-26V DC Input: Directly power from 3S-6S LiPo batteries (3S recommended) via the 5.5x2.1mm DC port -- ideal for mounting directly on FPV drones or ground stations. - 3.5W Low Power Draw: Efficient power usage minimizes battery strain, extending flight time or operational duration for extended missions.

5. All-in-One Utility – DVR, AP Mode, Ground Station Menu Beyond streaming, the receiver packs a suite of practical features to enhance your FPV workflow: - Built-In DVR: Record 1080P/720P flight footage for post-flight review, content creation, or race analysis. Access recordings via: - SD Card: Insert the microSD into a PC to find the /dvr folder. - AP Mode: Connect to the receiver' s WIFI hotspot (SSID: OpenIPC GS, Password: openipcgs) and stream/download via http://radxa-zero3.local. - Home Network: Access via Sambaa client (credentials: root/root or radxa/radxa) for seamless file sharing. - AP Mode (WIFI): Create a local WIFI hotspot to connect your PC/phone for real-time monitoring, firmware updates, or quick adjustments—no internet required. - Ground Station Menu: Intuitive on-screen menu for modifying air/ground settings, channel selection, and DVR controls. Button Functions: CH+/CH-: Navigate menu items / switch channels. BACK/QA3/OK: Adjust values / confirm selections. AP: Toggle AP mode (OpenIPC) / Quick Action 2 (RubyFPV). REC: Start/stop recording (OpenIPC) / Quick Action 1 (RubyFPV).

6. Rugged, Compact Design – FPV Drone & Industrial Ready At just 75g (with antenna) and 80×40×24mm, the receiver is built for durability and space-saving integration: - Lightweight Payload: Adds minimal weight to your drone, preserving speed, agilityy, and maneuverability. - Dust-Resistant (IP4X): Protects against dust ingress, ensuring reliable performance in dusty racing tracks or industrial environments. - Wide Temperature Range: Operates from -10°C to 50°C, making it suitable for cold winter flights or hot summer days. - Expandable RF: Upgrade to a dual 8812EU/8812AU adapter setup for stronger signal coverage (note: higher operating temperature with dual adapters).

Why Choose This OpenIPC/RubyFPV Receiver? * Ultra-Low Latency: 40-50ms delay for real-time FPV control and VR immersion.

* VR Glasses Ready: Works with Viture/Rayneo/Xreal via HDMI-to-C adapter (adapter sold separately).

* Dual Platform Support: Pre-flashed OpenIPC or customizable RubyFPV for flexibility.

* All-in-One Features: Built-in DVR, AP mode, and ground station menu for complete workflow control.

* Flexible Power: USB OTG and 7-26V DC input for drone, portable, and home use.

* Compact & Durablee: Lightweight 75g design with IP4X dust resistance for harsh environments.

* Community Support: Wiki, GitHub, and RubyFPV resources for easy setup and troubleshooting.

Description:

Firmware Update & Setup Guide Updating Firmware 1.Download the latest runcam_wifilink_sdcard.img firmware from the provided links (GitHub, RubyFPV, or BalenaEtcher). 2.For the 1G RAM Base Version: Use BalenaEtcher to burn the image to an 8GB+ Class 10 microSD card. 3. For the 1G RAM + 32GB SD Version: The firmware is pre-installed—simply power on to use the latest OpenIPC build. 4. Insert the SD card into the receiver, power on, and the system will automatically flash/update the firmware.

If you want to update firmware，as following
Steps to use:
1) download this file https://github.com/OpenIPC/sbc-groundstations/releases/download/buildroot-snapshot/runcam_wifilink_sdcard.img
2) flash it to an SD card. Use Win32DiskImager or Balena.
3) Insert it into the Eachine VRX and boot up the system. 

 Quick Start (Pre-Flashed Version) 1. Insert a microSD card (32GB pre-installed) into the receiver. 2. Connect the HDMI output to your FPV goggles (via HDMI-to-C adapter) or monitor. 3. Power the receiver via 5V USB OTG or 7-26V DC (3S LiPo recommended). 4. Use the ground station menu to adjust channel, resolution, and DVR settings. 5. Start streaming and recording—your digital FPV system is ready!

Package Included:

1 x 5.8GHz Eachine Sphere link FPV Receiver  2 x Cables