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SF-C50USB-D1.5(Bare module)
SINCEREFIRST
| This is the D1.5mm 0.49MP CMOS Sensor OCHFA10 USB2.0 Micro Endoscope Camera Module, specifically designed for high-precision medical examination and industrial micro-scale observation. At its core is the OmniVision OCHFA10 CMOS image sensor, which incorporates PureCel®Plus-S sensing technology to deliver 0.49MP high-definition imaging. The module features a separate bare module design, connected stably to the DSP board via wire bonding. It is equipped with a practical USB2.0 Micro 5PIN interface and a 4-channel MIPI signal transmission interface. Supporting the UVC protocol, it enables quick adaptation to mainstream devices without complex debugging. In terms of hardware specifications, the module excels in ultra-miniaturization: the overall diameter is only 1.5mm, with a rigid distal length of 3.6mm, paired with a 1/18" optical system, allowing it to be easily integrated into space-constrained equipment. The fixed focal length is 0.418mm, with a focus range covering 5-50mm, enabling precise capture of minute target details at close distances. The combination of an F5.0 aperture and an 86° horizontal field of view, along with a distortion rate below 11%, provides a wide imaging field with high-fidelity image reproduction. Regarding imaging performance, it supports dual-mode output: a frame rate of up to 60fps at 700×700 resolution, and 90fps at 400×400 resolution, meeting real-time observation needs for different scenarios. With an ultra-low illumination performance of 0.4 lux, it can output clear images even in dim environments. It also supports dual modes of YUY uncompressed raw data stream and MJPEG compression format. In electrical and environmental adaptability, the module supports a wide voltage supply range of 3-5V, with a power consumption of only 82.2mW and an operating temperature rise below 2°C, effectively preventing overheating from affecting device performance. In production, the module is manufactured in a Class 100 cleanroom using AA (Active Alignment) process. It has passed multiple international certifications including CE, FCC, RoHS, and Reach, ensuring both quality and compliance. |  |
Mini Invasive Ultra-Micro Diameter: The extreme 1.5mm outer diameter significantly reduces invasive trauma, making it suitable for observation within narrow lumens and precision instruments, thereby minimizing patient discomfort and tissue damage risk.
Dual-Mode Data Output: YUY format preserves complete raw data to meet medical imaging archiving requirements, while MJPEG format enhances compression for transmission efficiency, adapting to the needs of remote consultations and multi-screen teaching.
Plug-and-Play System Integration: The standard UVC protocol eliminates the need for dedicated driver installation and supports Windows, Linux, macOS, and Android systems, reducing medical device development cycles by over 50%.
Advanced Manufacturing Process: The Active Alignment (AA) process controls optical axis deviation within ±5μm, ensuring full-field imaging consistency. The SMT (Surface-Mount Technology) process enables long-term stable operation of the module.
ENT Examination Equipment: Integrated into sinus endoscopes and otoscopes for outpatient diagnosis of chronic sinusitis and otitis media.
Dental Treatment Instruments: Adapted for dental endoscopes and root canal microscopes, assisting in caries detection and visualization of root canal treatments.
Urological Endoscopes: Applied in cystoscopes and ureteroscopes (rigid/flexible), supporting bladder tumor screening and stone lithotripsy navigation.
Sports Medicine Arthroscopes: Used in knee and shoulder arthroscopy surgeries, enabling precise imaging for meniscus repair and ligament reconstruction.
Industrial Non-Destructive Testing: Loaded into borescopes for aircraft engines and gas turbine inspection systems to examine blade cracks and combustion chamber carbon deposits.
Pipeline Engineering Inspection: Deployed in pipeline crawling robots and municipal sewer inspection endoscopes to identify pipeline corrosion and weld defects.
Scientific Research & Teaching Equipment: Connected to biological microscopes and material analysis endoscope systems, supporting microstructure observation and experiment recording.
Product Name | Micro Endoscope Camera Module |
Image Sensor | OCHFA10 |
Focal length | 0.418mm |
Focusing Range | 5~50mm |
Interface | USB 5Pin |
F NO | 5.0 |
Power Supply | 3-5V |
Distortion | <-11% |
FOV | D86°*H86° |
Feature | OCHFA10 Endoscope Camera Module |
FAQ
Yes, it supports dual-mode high-frame-rate output up to 90fps, meeting real-time observation demands.
The module supports PC operating systems such as Windows and macOS, and is also compatible with mainstream Android smartphones and tablets for flexible device connectivity.
It has passed international testing and certifications including CE, FCC, RoHS, and Reach, and also complies with the ISO 10993-5 biocompatibility standard.
Yes, the product typically supports OEM/ODM services. We can customize specific cable lengths, different LED lighting configurations, and lens focal lengths to meet your specific equipment needs.
You can consult SincereFull to obtain detailed specifications, which include critical information such as electrical characteristics, interface definitions, and mechanical dimension drawings.
| This is the D1.5mm 0.49MP CMOS Sensor OCHFA10 USB2.0 Micro Endoscope Camera Module, specifically designed for high-precision medical examination and industrial micro-scale observation. At its core is the OmniVision OCHFA10 CMOS image sensor, which incorporates PureCel®Plus-S sensing technology to deliver 0.49MP high-definition imaging. The module features a separate bare module design, connected stably to the DSP board via wire bonding. It is equipped with a practical USB2.0 Micro 5PIN interface and a 4-channel MIPI signal transmission interface. Supporting the UVC protocol, it enables quick adaptation to mainstream devices without complex debugging. In terms of hardware specifications, the module excels in ultra-miniaturization: the overall diameter is only 1.5mm, with a rigid distal length of 3.6mm, paired with a 1/18" optical system, allowing it to be easily integrated into space-constrained equipment. The fixed focal length is 0.418mm, with a focus range covering 5-50mm, enabling precise capture of minute target details at close distances. The combination of an F5.0 aperture and an 86° horizontal field of view, along with a distortion rate below 11%, provides a wide imaging field with high-fidelity image reproduction. Regarding imaging performance, it supports dual-mode output: a frame rate of up to 60fps at 700×700 resolution, and 90fps at 400×400 resolution, meeting real-time observation needs for different scenarios. With an ultra-low illumination performance of 0.4 lux, it can output clear images even in dim environments. It also supports dual modes of YUY uncompressed raw data stream and MJPEG compression format. In electrical and environmental adaptability, the module supports a wide voltage supply range of 3-5V, with a power consumption of only 82.2mW and an operating temperature rise below 2°C, effectively preventing overheating from affecting device performance. In production, the module is manufactured in a Class 100 cleanroom using AA (Active Alignment) process. It has passed multiple international certifications including CE, FCC, RoHS, and Reach, ensuring both quality and compliance. | |
Mini Invasive Ultra-Micro Diameter: The extreme 1.5mm outer diameter significantly reduces invasive trauma, making it suitable for observation within narrow lumens and precision instruments, thereby minimizing patient discomfort and tissue damage risk.
Dual-Mode Data Output: YUY format preserves complete raw data to meet medical imaging archiving requirements, while MJPEG format enhances compression for transmission efficiency, adapting to the needs of remote consultations and multi-screen teaching.
Plug-and-Play System Integration: The standard UVC protocol eliminates the need for dedicated driver installation and supports Windows, Linux, macOS, and Android systems, reducing medical device development cycles by over 50%.
Advanced Manufacturing Process: The Active Alignment (AA) process controls optical axis deviation within ±5μm, ensuring full-field imaging consistency. The SMT (Surface-Mount Technology) process enables long-term stable operation of the module.
ENT Examination Equipment: Integrated into sinus endoscopes and otoscopes for outpatient diagnosis of chronic sinusitis and otitis media.
Dental Treatment Instruments: Adapted for dental endoscopes and root canal microscopes, assisting in caries detection and visualization of root canal treatments.
Urological Endoscopes: Applied in cystoscopes and ureteroscopes (rigid/flexible), supporting bladder tumor screening and stone lithotripsy navigation.
Sports Medicine Arthroscopes: Used in knee and shoulder arthroscopy surgeries, enabling precise imaging for meniscus repair and ligament reconstruction.
Industrial Non-Destructive Testing: Loaded into borescopes for aircraft engines and gas turbine inspection systems to examine blade cracks and combustion chamber carbon deposits.
Pipeline Engineering Inspection: Deployed in pipeline crawling robots and municipal sewer inspection endoscopes to identify pipeline corrosion and weld defects.
Scientific Research & Teaching Equipment: Connected to biological microscopes and material analysis endoscope systems, supporting microstructure observation and experiment recording.
Product Name | Micro Endoscope Camera Module |
Image Sensor | OCHFA10 |
Focal length | 0.418mm |
Focusing Range | 5~50mm |
Interface | USB 5Pin |
F NO | 5.0 |
Power Supply | 3-5V |
Distortion | <-11% |
FOV | D86°*H86° |
Feature | OCHFA10 Endoscope Camera Module |
FAQ
Yes, it supports dual-mode high-frame-rate output up to 90fps, meeting real-time observation demands.
The module supports PC operating systems such as Windows and macOS, and is also compatible with mainstream Android smartphones and tablets for flexible device connectivity.
It has passed international testing and certifications including CE, FCC, RoHS, and Reach, and also complies with the ISO 10993-5 biocompatibility standard.
Yes, the product typically supports OEM/ODM services. We can customize specific cable lengths, different LED lighting configurations, and lens focal lengths to meet your specific equipment needs.
You can consult SincereFull to obtain detailed specifications, which include critical information such as electrical characteristics, interface definitions, and mechanical dimension drawings.
