low-latency HDMI over Ethernet IP video stream converter

Table des matières
Scénarios d'application
This HDMI to IP video stream converter is suitable for a wide range of industries and environments that require efficient, écurie, and high-quality video transmission. Typical applications include:
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Radiodiffusion & Live Events
Used for live streaming concerts, conferences, événements sportifs, et services religieux, delivering high-definition HDMI video over wired or wireless networks. -
Sécurité & Surveillance
Integrates with IP cameras and monitoring platforms to transmit HDMI video from DVRs, NVR, or other security systems for remote surveillance and centralized control. -
Industriel & UAV Video Transmission
Enables real-time HDMI video streaming from unmanned aerial vehicles (drones), robots, or industrial machines for remote inspection, surveillance, et contrôle. -
Medical Imaging & Télémédecine
Supports the transmission of high-definition medical imaging (such as ultrasound or endoscopy) to remote specialists for diagnosis, entraînement, and consultation. -
Éducation & Entraînement
Facilitates video transmission for e-learning, distance education, and training sessions, allowing teachers or trainers to share HDMI content seamlessly with remote participants. -
Government, Militaire & Intervention d'urgence
Provides reliable video transmission in mission-critical environments such as command centers, field operations, intervention en cas de catastrophe, and law enforcement. -
Entreprise & Présentations commerciales
Simplifies video distribution for boardrooms, large displays, and remote meetings by streaming HDMI content directly over wired or wireless networks.
Caractéristiques
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Encodage vidéo avancé
Supports H.265 and H.264 compression standards, delivering high-definition video quality at ultra-low bitrates. -
Flexible Video Input Resolutions
Compatible with multiple resolutions, including 1920×1080 @ 60/50/30/25 fps and 1280×720 @ 60/30/25 fps, ensuring wide adaptability for different video sources. -
Automatic HDMI Source Detection
Automatically recognizes and switches between HDMI video sources for seamless operation. -
Interphone audio bidirectionnel
Built-in support for bi-directional voice communication, enabling interactive monitoring and remote coordination. -
Multiple Protocols Supported
Fully compatible with RTSP, ONVIF, GB28181, MQTT, WebRTC, and other streaming and IoT protocols for easy integration. -
Surveillance à distance & Prise en charge des SDK
Provides real-time remote viewing via mobile phones and PCs, with an open SDK for secondary development and customization. -
Flexible Power Options
Supports DC 6–12V input and Power-over-Ethernet (PoE) for simplified deployment. -
Wired & Wireless Networking
Comes with Ethernet connectivity by default, expandable to Wi-Fi, 4G, or 5G networks depending on application needs. -
Local Storage Capability
Supports TF card recording up to 512GB for local video storage and backup. - Default IP and RTSP address
Adresse IP:192.168.1.182 RTSP address: rsp://192.168.1.188:554/0
Specifications
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Processeur principal
SSC338Q with 0.5T computing power -
Video Conversion Chip
Dedicated HDMI HD video conversion chip -
Traitement vidéo
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Supports H.264 / Encodage H.265
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Bitrate adjustable: 0.1 Mbit/s – 8 Mbit/s
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Frame rate adjustable: 1 – 60 fps
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Sortie vidéo
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Grand public: 1920×1080 à 60 ips, 1280×720 à 60 ips, 1280×1024 à 30 ips
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Sous-flux: D1, VGA, 640×360
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Traitement audio
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G.711 / AAC encoding
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Supports two-way audio intercom
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Capture d'images
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Supports continuous, scheduled, and event-triggered snapshots
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Business Functions
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Superposition OSD
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Détection de mouvement
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Détection de forme humaine
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Algorithmes intelligents personnalisables
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Interfaces
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Bouton de réinitialisation: 1 × hardware reset interface
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Port USB: 1 × USB, supports Wi-Fi / 4G / 5Modules G, fonction UVC personnalisable
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Port réseau: 1 × RJ45 (10/100M adaptatif), with surge and ESD protection
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Audio Port: 1 × 4-pole headphone jack, supports headphone output and microphone input
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Ports série: 2 × TTL, support Beidou / GPS positioning and transparent data transmission for IoT integration
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TF Card Slot: 1 × TF card, up to 256GB
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Protocoles réseau
TCP/IP, IPv4, RTSP, HTTP, DHCP, NTP, RTMP, MQTT, WebRTC -
Surveillance à distance
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Supports mobile phone and PC remote monitoring
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Open SDK for P2P / WebRTC integration with multiple platforms
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Alimentation
DC 5.5V – 24V input or PoE power supply -
Operating Environment
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Température: -20℃ ~ +80℃
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Physical Dimensions
80 × 50 × 12 mm (customized board shapes available)

Options personnalisables
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Encodage vidéo & Processing
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Choice of H.264 / H.265 codec optimization
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Débit réglable, fréquence d'images, and resolution profiles
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Custom intelligent video analytics (détection de mouvement, détection humaine, AI algorithms)
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Video Input & Sortir
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Resolution and frame rate configurations (Main/Sub stream)
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Flexible stream formats to match specific application needs
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Audio Features
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Codec selection (G.711 / CAA)
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Two-way intercom customization and noise reduction algorithms
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Réseau & Protocoles
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Support for additional streaming protocols beyond RTSP, RTMP, ONVIF, GB28181, MQTT, WebRTC
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Private/custom protocol integration for specific platforms
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Interfaces matérielles
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USB interface functions (Wi-Fi, 4G, 5G module integration, UVC customization)
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Serial port expansion and IoT data integration (GPS, Beidou, données du capteur)
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Network port protection and interface type (RJ45 / industrial connectors)
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Alimentation
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Wide voltage input range adjustment
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PoE customization (standard or non-standard)
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Options de stockage
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TF card maximum capacity expansion (beyond 256G, up to 512G if required)
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Recording formats and storage management functions
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Mécanique & Facteur de forme
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Board size and structure customization (80×50×12mm standard, or tailored PCB/metal housing design)
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Heat dissipation and ruggedized design for industrial or UAV applications
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Logiciel & SDK
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Secondary development SDK customization (API, P2P, WebRTC integration)
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Cloud platform docking and mobile app integration
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Transmission sans fil
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Expansion to Wi-Fi, 4G, or 5G modules depending on customer needs
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Antenna options and frequency band customization
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How to test the latency
To evaluate the transmission latency of the HDMI to IP video stream converter, the following test setup and method were used:
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Configuration des tests
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Video Source: A computer running a stopwatch application with millisecond precision.
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Afficher 1 (Reference): The computer monitor directly showing the stopwatch (real-time source).
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Afficher 2 (Test): A video player connected via wired Ethernet, receiving the HDMI-to-IP video stream output from the converter.
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Testing Method
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Play the stopwatch on the computer (source).
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Observe both Display 1 (direct HDMI output) and Display 2 (network video stream playback) simultanément.
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Pause the video at any frame where both stopwatch displays are visible.
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Record the time shown on Display 1 (source) and Display 2 (network playback).
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Subtract the two values to obtain the end-to-end latency of the HDMI to IP video stream.
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Result Interpretation
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The difference in milliseconds represents the actual transmission latency.
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Multiple measurements at different time points should be taken and averaged for higher accuracy.
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This test method is suitable for evaluating real-time streaming performance in applications such as UAV transmission, diffusion en direct, surveillance à distance, and interactive video systems.
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How to test the latency
The following video demonstrates a latency test for converting HDMI video to a network stream. A millisecond-level stopwatch is shown on one computer, whose HDMI output is connected to the converter board. The board encodes the video and transmits it over the network to a second computer. Using an RTSP player, the video stream—including the stopwatch—can be viewed in real time. Playback can be paused at any moment to compare the timestamps on both screens; the difference between them reflects the latency introduced by the HDMI-to-network encoder.


Cartes de modules d'encodeur
Cartes de modules de décodeur
Disponible pour la personnalisation
Nouveaux produits d'encodeurs
| Non. | Nom du produit | Configuration | Principales fonctionnalités | Statut |
|---|---|---|---|---|
| 1 | Encodeur vidéo à lumière visible USB UVC double canal | 2× Entrée USB | Prend en charge l'encodage vidéo de la double caméra USB, et streaming RTSP; sortie CVBS/HDMI locale; modes d'affichage commutables | Production de masse |
| 2 | Encodeur double canal (1× Lumière visible USB + 1× Caméra d'imagerie thermique USB) | 2× Entrée USB | Prend en charge une double caméra USB (visible + thermique) capturer, codage, et streaming RTSP; sortie CVBS/HDMI locale; modes d'affichage commutables | Production de masse |
| 3 | Module d'affichage HDMI/CVBS du décodeur RTSP | HDMI + Sortie CVBS | Prend en charge le décodage de flux RTSP jusqu'à 4 × 1080P à 30 ips; Prise en charge du transfert de protocole de streaming vidéo; Affichage de la sortie HDMI/CVBS | Échantillon disponible |
| 4 | Décodeur RTSP Module d'affichage HDMI/CVBS avec 4.3"/5" Écran LCD | Sortie HDMI + Écran LCD | Prend en charge le décodage de flux RTSP jusqu'à 4 × 1080P à 30 ips; transfert de protocole; Affichage de la sortie HDMI/CVBS | Débogage |
| 5 | Encodeur double canal (1× Lumière visible USB + 1× CVBS analogique) | 1× CVBS + 1× Entrée USB-UVC | Double vidéo (USB + CVBS), encodage et streaming RTSP; sortie CVBS/HDMI locale; modes d'affichage commutables | Débogage |
| 6 | Encodeur double canal (1× USB-UVC + 1× AHD analogique) | 1× AHD + 1× Entrée USB-UVC | Double capture vidéo (USB + AHD), encodage et streaming RTSP; sortie CVBS/HDMI locale; modes d'affichage commutables | Débogage |
| 7 | Encodeur double canal (1× CVBS + 1× Vidéo analogique AHD) | CVBS + AHD 2 entrée vidéo | Double capture vidéo analogique, encodage et streaming RTSP; sortie CVBS/HDMI locale; modes d'affichage commutables | Débogage |
| 8 | Encodeur double canal (1× Caméra CMOS + 1× Caméra d'imagerie thermique USB) | 1×Interface USB | Prend en charge le CMOS + Capture par caméra thermique USB, encodage et streaming RTSP; sortie CVBS/HDMI locale; modes d'affichage commutables | Production de masse |
Pour des solutions de conversion d'entrée/sortie vidéo personnalisées non répertoriées dans nos produits, veuillez nous contacter pour le support OEM/ODM. Nous pouvons développer des produits sur mesure en fonction de vos besoins.




iVcan.com –
I have been using this low-latency HDMI over Ethernet IP video stream converter for several months, and it performs exceptionally well. The video quality is consistently sharp and smooth, with minimal end-to-end latency, making it ideal for UAV video transmission, diffusion en direct, and remote monitoring applications. H.264/H.265 encoding ensures efficient bandwidth usage without sacrificing clarity, and the built-in two-way audio intercom is very convenient for interactive setups. Setup is straightforward via Web UI or SDK, and it supports both wired and wireless networks. Highly reliable and professional-grade for any real-time HDMI streaming application.