| Quantity: | |
|---|---|
SF-C50USB-D2.0
SINCEREFIRST
As a leading manufacturer and supplier of precision imaging solutions, we present the OCHFA10 CMOS Sensor 2.0mm Diameter USB2.0 UVC Driver Free Wide Angle Endoscope Camera Module. Engineered for extreme spatial constraints, this imaging unit delivers exceptional clarity in tight environments, ensuring your diagnostic and inspection systems operate at peak performance.
Navigating the complexities of micro-inspection requires optical equipment that seamlessly blends miniaturization with uncompromising visual fidelity. The OCHFA10 CMOS Sensor 2.0mm Diameter USB2.0 UVC Driver Free Wide Angle Endoscope Camera Module is meticulously crafted to serve as the visual core for advanced diagnostic and inspection systems. When handling the module, the precision engineering is immediately apparent in the smooth, resilient finish of the micro-probe, designed to glide effortlessly through restrictive channels without snagging or causing friction damage. The integrated 1.5-meter connecting line feels robust yet highly flexible, offering a tactile reassurance of durability during complex physical maneuvers.
Illuminated by four meticulously calibrated 0402 LED fill lights, the module pierces through the darkest of micro-cavities, casting a clean, uniform glow that reveals intricate surface textures and minute structural anomalies. The optical lens, encased within the ultra-slim 2.0mm housing, captures light with remarkable efficiency, translating it into crisp, high-contrast imagery devoid of the hazy artifacts common in lesser miniature cameras. Every component is sealed to industrial-grade IP68 standards, ensuring that whether submerged in fluid-filled pipes or subjected to the intense heat and pressure of steam sterilization, the module maintains its structural integrity and flawless performance.
This device is not merely a camera; it is a vital extension of your diagnostic capabilities. By eliminating the traditional barriers of size and compatibility, it empowers operators to capture critical visual data instantly. The plug-and-play architecture significantly reduces deployment times, allowing professionals to focus entirely on analysis rather than equipment troubleshooting, ultimately driving efficiency and precision in every task.
| Product Name | Medical Endoscope Camera Module |
| Image Sensor | OCHFA10 CMOS Sensor |
| Probe Diameter | 2.0±0.05mm |
| Pixel | 1MP |
| Field of View (FOV) | 86°×86° Symmetric FOV |
| Focusing Range | 5-50mm (Close-Range) / 10-100mm |
| Focal Length | 0.418mm |
| F NO | 5.0 |
| TV Distortion | <-11% |
| Illumination | 4 Integrated 0402 LED Fill Lights |
| Interface | Micro USB 5P (USB 2.0) |
| Protocol | UVC Driver-Free (Plug-and-play) |
| Power Supply | USB 5V |
| Cable Length | 1.5 Meters (Standard) / 10-30 Meters (Customizable for industrial pipelines) |
| Waterproof Rating | IP68 |
| Sterilization | 134°C Steam Sterilization Compatible |
| Cable Material | Anti-bending with metal braid reinforcements / Kevlar tensile layer (Optional) |
| Certification | RoHS Compliant |
Integrating high-performance imaging into confined spaces demands more than just a small footprint; it requires a thoughtful synthesis of optics, illumination, and data transmission. This module is engineered to elevate your diagnostic accuracy while significantly reducing the time required for equipment setup and maintenance.
To fully appreciate the operational impact of this imaging solution, it is essential to examine the specific engineering dimensions that make it a transformative tool for complex inspection tasks. Each aspect has been optimized to resolve the most persistent challenges faced during micro-visual exploration.
Gaining visual access to restrictive environments is often the primary bottleneck in diagnostic procedures. The ultra-micro 2.0±0.05mm probe diameter is meticulously engineered to bypass these physical limitations. This exceptionally slender profile ensures high-reach penetration into ultra-thin industrial channels, delicate micro-cavities, and intricate internal structures where conventional imaging equipment simply cannot enter, drastically reducing the need for destructive dismantling.
Visual data is only as valuable as its clarity. Powered by the advanced OCHFA10 CMOS sensor, this module captures 1MP high-definition imagery that leaves no detail obscured. The dedicated 5-50mm close-range focusing capability is specifically calibrated for micro-distances, ensuring that textures and structural nuances are rendered with razor-sharp precision, providing the definitive visual evidence required for critical assessments.
Time spent configuring software is time lost. By utilizing a Micro USB 5P interface combined with the universal UVC driver-free protocol, this module eliminates complex installation procedures. It offers instantaneous recognition across a multitude of operating systems and hardware platforms, allowing equipment integrators and operators to deploy the camera immediately, accelerating project timelines and reducing technical overhead.
Equipment failure in the field disrupts operations and inflates costs. Built to endure harsh conditions, the module boasts an IP68 waterproof rating and is fully compatible with 134°C steam sterilization processes. Furthermore, the availability of anti-bending cables fortified with metal braid reinforcements and optional Kevlar tensile layers guarantees exceptional resistance to mechanical stress, ensuring a long, reliable service life even under rigorous daily use.
Versatility is a hallmark of superior design. This module serves as the critical visual engine across diverse demanding sectors. It excels in micro-pipeline internal defect detection, precise non-destructive inspection of chip solder joints, and acts as the indispensable imaging core for portable, handheld micro-detection equipment, adapting seamlessly to the specific diagnostic requirements of your operational environment.
Standard solutions rarely fit highly specialized requirements. We provide extensive customization options, including adaptable cable lengths ranging from 1.5 meters up to 30 meters for deep-channel exploration, alongside tailored LED configurations. Coupled with strict adherence to RoHS environmental and safety standards, this module integrates flawlessly into your proprietary systems while maintaining full regulatory compliance and building strong supply chain trust.
Selecting the right manufacturing partner for precision optical components is a critical decision that impacts the overall success and reliability of your final diagnostic systems. We are committed to delivering not just a product, but a comprehensive imaging advantage that enhances your operational capabilities and market competitiveness.
A standard rectangular field of view often clips the edges of circular pipes or requires the operator to constantly rotate the probe to see the full perimeter. The 86°×86° symmetric FOV creates a square imaging frame, which naturally encompasses more of the internal surface area in a single glance. This reduces the time spent maneuvering the probe and significantly minimizes the risk of missing critical defects hidden in peripheral blind spots.
Transmitting high-definition video data over long distances without latency or signal loss requires specialized cable architecture. For extended lengths, we utilize heavily shielded internal wiring to prevent electromagnetic interference. Additionally, the integration of premium conductive materials and optimized signal amplification protocols ensures that the 1MP video feed remains crisp, stable, and real-time, even at the maximum 30-meter distance.
Yes, the module is engineered for high environmental resilience. Beyond its IP68 waterproof rating, the external housing and the protective sheathing of the connecting cables are constructed from chemically inert polymers. This robust material selection prevents degradation, swelling, or embrittlement when exposed to common industrial lubricants, mild solvents, and corrosive fluids frequently encountered during deep-channel inspections.
The module is constructed using specialized high-temperature-resistant adhesives and thermally stable optical glass. The internal CMOS sensor is hermetically sealed within a protective chamber that isolates it from extreme moisture and pressure fluctuations. This meticulous engineering ensures that repeated cycles of 134°C steam sterilization do not cause lens fogging, sensor degradation, or structural warping, maintaining long-term imaging fidelity.
While the module provides a consistent, high-quality illumination baseline via the USB 5V power supply, dynamic brightness control can be easily achieved by integrating a standard PWM (Pulse Width Modulation) controller into your overarching system hardware. This allows operators to seamlessly dim or intensify the LED output in real-time, preventing glare on highly reflective metallic surfaces and optimizing contrast for different inspection environments.
