1. Quelle est la résolution clé de cette caméra de chaleur de drones FPV?

La caméra de chaleur du drone FPV dispose d'une résolution de 640 × 512, qui fournit des images thermiques détaillées avec une distinction claire entre les variations de température, Le rendre idéal pour une détection précise. (380X288 et 256×192 est facultatif)

2. Comment la résolution 640 × 512 profite-t-elle à mes opérations de drones FPV?

Une résolution 640 × 512 fournit plus de pixels que les résolutions inférieures (380×288 ou 256×192), resulting in sharper thermal details. This helps identify small objects or temperature anomalies even from a distance during FPV flights.

3. What is the focal length of the lens on this FPV drone heat camera?

The lens has a 4.8mm focal length, optimized for balanced field of view and detail capture in FPV drone applications. (sauf 4.8 lentille MM, we also can offer you 9mm, 15mm, 25mm, 35mm, 50mm or other size lens).

4. What field of view does the 4.8mm lens offer for the FPV drone heat camera?

The 4.8mm lens provides a moderate field of view, perfect for mid-range inspections and tracking, allowing you to cover a decent area while maintaining thermal detail clarity.

5. Can I replace the 4.8mm lens with a different one on this FPV drone heat camera?

This model is designed with a fixed 4.8mm lens for optimal integration with the FPV drone’s balance and thermal performance. Lens replacement is not recommended without professional modification.

6. How does the IP Ethernet video stream output work with this FPV drone heat camera?

The IP Ethernet video stream output transmits thermal footage over a network, enabling real-time viewing on compatible devices (like monitors or laptops) via Ethernet connection, ensuring stable and secure data transfer.

7. What equipment do I need to use the IP Ethernet video stream output of the FPV drone heat camera?

You’ll need an Ethernet cable, a compatible network switch or router, and a device with network capabilities (par ex., a laptop or FPV ground station) to receive and display the video stream from the FPV drone heat camera.

8. Is the IP Ethernet video stream output of this heat camera low-latency for FPV flying?

Oui, the IP Ethernet video stream output is optimized for low latency, critical for FPV operations, ensuring you get real-time thermal feedback without noticeable delays that could affect control.

9. What is the maximum range of the IP Ethernet video stream from the FPV drone heat camera?

The range depends on your network setup, but with a stable Ethernet connection (using extended cables or repeaters), the stream can reach typical FPV flight ranges, making it reliable for most outdoor operations.

10. Can the 640×512 thermal images be streamed via the IP Ethernet output simultaneously with visible light footage?

Oui, the system allows simultaneous streaming of 640×512 thermal images and visible light footage (if equipped) through the IP Ethernet output, giving you dual perspectives during FPV flights.

11. What makes the 640×512 resolution better than lower resolutions in FPV drone heat cameras?

640×512 resolution captures 327,680 pixels, offering 4x more detail than 320×240, making it easier to spot subtle temperature differences during FPV missions like search-and-rescue or inspections.

12. Does the 4.8mm lens work well for close-up inspections with the FPV drone heat camera?

The 4.8mm lens is versatile—while not ultra-wide, it balances close-up detail and wider coverage, making it suitable for inspecting structures, machinerie, or wildlife from a moderate distance with the FPV drone.

13. Comment la caméra de chaleur du drone FPV gère-t-elle différentes conditions d'éclairage avec le capteur 640 × 512?

Le capteur thermique 640 × 512 n'est pas affecté par la lumière visible, donc ça marche aussi bien dans l'obscurité complète, lumière du soleil, ou brouillard, Assurer des performances cohérentes pour les opérations de FPV dans n'importe quel environnement.

14. La sortie du flux vidéo IP Ethernet peut-elle être cryptée pour une transmission sécurisée?

Oui, La sortie du flux vidéo IP Ethernet prend en charge les protocoles de chiffrement, Protéger les images thermiques de votre drone FPV contre l'accès non autorisé pendant la transmission.

15. Quel est le format vidéo du flux IP Ethernet à partir de la caméra de chaleur du drone FPV?

Le flux vidéo IP Ethernet sortira dans des formats standard comme H.264 ou H.265, Assurer la compatibilité avec la plupart des joueurs médiatiques, Stations de sol FPV, et logiciel de gestion de la vidéo.

16. How much bandwidth does the IP Ethernet video stream output of the FPV drone heat camera require?

The bandwidth depends on resolution and frame rate, but typically ranges from 2-5 Mbps for the 640×512 stream, ensuring smooth transmission without overwhelming standard network setups.

17. Is the FPV drone heat camera with 640×512 resolution suitable for industrial inspections?

Absolument. The 640×512 resolution captures fine thermal details, and the 4.8mm lens covers key areas, making it ideal for inspecting electrical panels, pipelines, or roofs—all while streaming via IP Ethernet for real-time analysis.

18. What is the weight of the FPV drone heat camera with the 4.8mm lens and IP Ethernet module?

The total weight is designed to be lightweight 205 grammes, minimizing impact on FPV drone agility and battery life while integrating the 640×512 sensor and Ethernet components.

19. How does the 4.8mm lens affect the minimum focusing distance of the FPV drone heat camera?

The 4.8mm lens has a short minimum focusing distance (usually around 0.5m), allowing the FPV drone to capture clear thermal images of objects close to the camera, useful for detailed inspections.

20. Can I record the IP Ethernet video stream from the FPV drone heat camera directly to a hard drive?

Oui, most network video recorders (NVRS) or software like VLC can record the IP Ethernet stream, letting you save 640×512 thermal footage from your FPV drone missions for later analysis.

21. What is the frame rate of the 640×512 thermal stream from the FPV drone heat camera?

The camera outputs 640×512 thermal footage at up to 30fps, ensuring smooth motion in the IP Ethernet stream—critical for tracking moving objects during FPV flights.

22. Does the 4.8mm lens have any anti-glare features for the FPV drone heat camera?

The lens is coated to reduce glare from reflective surfaces, ensuring the 640×512 thermal images remain clear even when the FPV drone flies over water, métal, or glass.

23. How compatible is the IP Ethernet video stream output with FPV ground control stations?

It’s highly compatible—most modern FPV ground stations support IP-based video inputs, allowing seamless integration of the 640×512 thermal stream for real-time monitoring and control.

24. Can the FPV drone heat camera with 640×512 resolution detect temperature differences as small as 0.1°C?

Oui, this model offers high thermal sensitivity (often <0.05° C), so even with the 640×512 resolution, it can detect tiny temperature variations—ideal for precision tasks like electrical fault detection.

25. What is the advantage of using IP Ethernet over Wi-Fi for video streaming from the FPV drone heat camera?

IP Ethernet provides lower latency, stabilité plus élevée, and longer range than Wi-Fi, ensuring the 640×512 thermal stream from your FPV drone remains uninterrupted, même dans des environnements RF encombrés.

26. How does the 4.8mm lens perform in low-visibility conditions (par ex., smoke or fog) with the FPV drone heat camera?

Imagerie thermique (aided by the 640×512 sensor) penetrates smoke and fog effectively, and the 4.8mm lens maintains a clear view, making the FPV drone valuable for search-and-rescue in harsh weather.

27. Can I adjust the IP Ethernet stream settings (par ex., débit) of the FPV drone heat camera?

Oui, you can adjust bitrate, résolution, and frame rate via the camera’s web interface or companion app, tailoring the IP Ethernet stream to your FPV drone’s network capabilities.

28. Is the 640×512 sensor in the FPV drone heat camera radiometric (measures absolute temperature)?

Oui, it’s radiometric, meaning the 640×512 thermal data includes precise temperature values for each pixel—useful for quantitative analysis during FPV inspections (par ex., measuring equipment temperatures).

29. What materials is the 4.8mm lens made of, and is it durable for FPV drone use?

The lens is made of rugged, impact-resistant glass, designed to withstand vibrations and minor collisions during FPV flights, protecting the 640×512 sensor inside.

30. How do I set up the IP Ethernet connection for the FPV drone heat camera for the first time?

Connect the camera to your drone’s Ethernet port (or a network adapter), configure the IP address via the camera’s settings, and link it to your ground station—detailed guides are included to get the 640×512 stream running quickly.

31. Can the FPV drone heat camera with 640×512 resolution be used for agricultural purposes, like crop health monitoring?

Absolument. The 640×512 resolution captures large crop areas, while thermal imaging identifies water stress or disease—paired with the 4.8mm lens, it’s perfect for covering fields efficiently during FPV flights.

32. What is the maximum cable length for the IP Ethernet video stream from the FPV drone heat camera?

Using Cat5e/Cat6 cables, you can extend the Ethernet connection up to 100m without signal loss, letting your FPV drone fly further while maintaining a stable 640×512 thermal stream.

33. Does the 4.8mm lens cause distortion in the thermal images from the FPV drone heat camera?

Minimal distortion—lens calibration ensures the 640×512 thermal images are geometrically accurate, so measurements (par ex., object size) taken from FPV drone footage are reliable.

34. Can I overlay the 640×512 thermal stream with GPS data from the FPV drone via the IP Ethernet output?

Oui, the camera supports data overlay, so GPS coordinates, altitude, and timestamp can be embedded in the IP Ethernet stream—useful for mapping and documenting FPV mission data.

35. How does the FPV drone’s battery life change when using this heat camera with 640×512 resolution and IP Ethernet?

The camera is energy-efficient, adding only ~5-10% to battery usage. Most FPV drones maintain 15-25 minutes of flight time, even with the 4.8mm lens and Ethernet module.

36. What is the operating temperature range of the FPV drone heat camera with 4.8mm lens?

It operates reliably from -20°C to 60°C, ensuring the 640×512 sensor and IP Ethernet components work in extreme environments—from cold winters to hot deserts.

37. Can the IP Ethernet video stream from the FPV drone heat camera be accessed remotely via the internet?

Oui, with proper network configuration (remise des portes), Vous pouvez accéder au flux thermique 640 × 512 de n'importe où, Autoriser la surveillance à distance des missions de drones FPV.

38. Comment la résolution 640 × 512 se compare-t-elle à 384 × 288 en termes de stockage pour les images de drones FPV?

640× 512 images nécessitent ~ 2x plus de stockage que 384 × 288 à la même fréquence d'images, Mais le détail en vaut la peine: utilisez des cartes SD à haute capacité ou un stockage de réseau pour les enregistrements thermiques de votre drone FPV.

39. Est l'objectif 4,8 mm étanche, Permettre à la caméra de chaleur du drone FPV à voler sous la pluie?

Oui, L'objectif et le corps de la caméra sont classés IP67, Les rendre imperméables et résistants à la poussière - pour les vols de drones FPV sous des conditions de pluie ou humides tout en conservant des performances thermiques de 640 × 512.

40. Quel logiciel est recommandé pour analyser le flux vidéo IP Ethernet à partir de la caméra de chaleur du drone FPV?

Software like FLIR Tools, Thermal Studio, or open-source tools (par ex., QgroundControl) work well—they let you analyze 640×512 thermal data, measure temperatures, and generate reports from FPV drone footage.

41. Can the FPV drone heat camera switch between 640×512 thermal and visible light modes via the IP Ethernet stream?

Oui, if equipped with a dual-sensor setup, you can toggle between thermal (640× 512) and visible light via the stream, giving you flexible viewing options during FPV flights.

42. How does the 4.8mm lens affect the drone’s center of gravity?

The lens is lightweight and centrally mounted, so it doesn’t disrupt the FPV drone’s balance—critical for stable flight when capturing 640×512 thermal footage.

43. What is the latency of the IP Ethernet video stream from the FPV drone heat camera to the ground station?

La latence est généralement <100Mme, which is negligible for FPV flying, ensuring the 640×512 thermal feed matches the drone’s real-time movement.

44. Can the 640×512 thermal images from the FPV drone heat camera be exported in standard formats (par ex., JPEG, CSV)?

Oui, the IP Ethernet stream supports exporting 640×512 images as JPEG and temperature data as CSV, making it easy to share or analyze FPV drone mission results.

45. Does the 4.8mm lens require regular calibration for the FPV drone heat camera?

Non, it’s factory-calibrated, and the camera auto-calibrates periodically, ensuring the 640×512 thermal measurements remain accurate throughout the FPV drone’s lifespan.

46. À quel point la connexion IP Ethernet est-elle sécurisée - Les utilisateurs non autorisés peuvent accéder au flux thermique du drone FPV?

La connexion est sécurisée avec la protection des mots de passe, Cryptage HTTPS, et filtrage mac, Empêcher un accès non autorisé aux données thermiques 640 × 512 de votre drone FPV.

47. Quelle est l'altitude maximale que le drone FPV peut atteindre tout en maintenant un flux vidéo IP Ethernet stable?

Cela dépend des capacités du drone, Mais le flux Ethernet reste stable jusqu'à des altitudes FPV typiques (par ex., 400m), avec l'alimentation thermique 640 × 512 non affectée par la hauteur.

48. La caméra de chaleur du drone FPV peut-elle avec une résolution 640 × 512 suivre automatiquement les objets en mouvement?

Oui, Il dispose de détection et de suivi de mouvement intégrés, using the 4.8mm lens and 640×512 sensor to lock onto moving targets—useful for wildlife monitoring or security patrols.

49. How easy is it to replace the Ethernet cable if it gets damaged on the FPV drone heat camera?

The Ethernet port uses a rugged, detachable connector, making cable replacement simple—no special tools needed to keep the 640×512 thermal stream running.

50. What warranty is included with the FPV drone heat camera (including 640×512 sensor, 4.8lentille MM, and IP Ethernet components)?

It comes with a 2-year warranty covering defects in the 640×512 sensor, 4.8lentille MM, and Ethernet module, ensuring reliable performance for your FPV drone operations.