Customers evaluating the SF-C1011USB-D3.3-720P60 usually care about practical project questions, not only the model number. They want to know whether the D3.3 camera head can fit their device, whether 60fps improves live viewing, whether 95° or 130° FOV is better, whether the focus range matches their working distance, whether they need to design their own lighting, and whether the module can support their cable and board layout.
This FAQ answers the questions OEM buyers commonly ask before requesting samples or starting project evaluation.
The SF-C1011USB-D3.3-720P60 is a D3.3 bare USB endoscope camera module using the OH01A10 sensor. It supports YUV / MJPEG output at 1280×800@60fps and is designed for compact OEM visualization device integration.
The biggest feature is the combination of D3.3 compact size and 1280×800@60fps output.
It is suitable for customers who need a small camera head and smoother real-time image feedback.
60fps helps make live video smoother when the probe is moving.
In real endoscope use, the operator often adjusts the camera position. A higher frame rate can make the image feel more comfortable and responsive compared with lower-frame-rate modules.
Not necessarily.
60fps means smoother motion. Image quality also depends on sensor, lens, lighting, focus distance, FOV, software and final device structure.
It uses the OH01A10 sensor.
This sensor supports 1MP-class imaging for compact endoscope visualization applications.
The module supports 1280×800@60fps.
This is suitable for smooth close-range visualization, but customers who need 1080P, 5MP or 12MP detail should evaluate other models.
The camera head diameter is D3.3.
This makes the module suitable for compact device structures where larger modules may not fit.
No. It is a bare camera module.
Customers need to design the final housing, lighting, protection, cable routing and device structure according to their product requirements.
No. The catalog marks LED as No.
Customers who need illumination should design external lighting, device-level LED structure or evaluate another model with built-in LEDs.
Some OEM customers prefer to design their own lighting system.
This can help avoid reflection, uneven lighting, heat issues or mechanical conflicts caused by standard built-in LEDs.
The catalog marks dimming as Yes, but because the standard module has no built-in LEDs, dimming should be confirmed based on the customer’s actual lighting design.
Customers should not assume standard LED dimming without project confirmation.
No. The catalog marks IP67 as No.
If the final device needs waterproof performance, customers should either design a sealed structure around the module or evaluate another IP67-supported module.
It may be used as an internal imaging core inside a customer-designed waterproof device, but final waterproof performance depends on the complete product structure.
Housing, sealing, cable exit, connector protection and assembly process all affect the final result.
The module supports 95° and 130° FOV options.
The 95° option is more focused, while the 130° option provides a wider viewing area.
Choose 95° if the application needs a more focused image of the target area.
Choose 130° if the user needs to see more surrounding context in a narrow space. The best choice should be confirmed through sample testing at the real working distance.
The module supports 4–10mm, 5–50mm and 10–100mm focusing range options.
This allows customers to select the optical configuration based on the actual observation distance.
Choose 4–10mm for very close inspection.
Choose 5–50mm for general close-range observation.
Choose 10–100mm if the target is usually farther from the camera head.
The best choice depends on the final use environment and should be verified through testing.
The front length is 5mm.
This helps support compact device integration where the camera head space is limited.
The catalog lists a plastic lens.
Customers should evaluate whether the lens structure meets their optical, cost and application requirements.
The standard cable length is 1m.
Customers should check whether this length fits their prototype and final device structure.
The maximum cable length listed in the catalog is 5m.
If customers need a longer cable, they should test signal stability and image performance in the actual device environment.
The main board size is 40×15mm.
OEM customers should confirm whether this board can fit inside their handle, control box or device housing.
The front connector is bonding wire, and the back connector is Micro USB.
Customers should confirm whether this connection method matches their assembly process and host system.
It is a USB camera module, but actual compatibility depends on the host system, software, driver support and connection design.
Customers should test it with their intended host device before final confirmation.
It can be evaluated as an imaging component for compact medical visualization device development.
Final medical compliance, safety validation, cleaning method and certification should be handled according to the complete device and target market.
It may be evaluated for dental or oral inspection devices if the D3.3 diameter, selected FOV, focus range and lighting design match the application.
If the customer needs built-in LEDs or higher image detail, another model may be more suitable.
Yes, it can be evaluated for compact veterinary visualization devices.
The final choice should depend on target use, working distance, lighting design, waterproof requirement and device structure.
Yes, it can be evaluated for industrial cavity inspection, compact borescope tools and narrow-space observation systems.
Industrial customers should confirm lighting, mechanical protection, cable durability and waterproof requirements separately.
It is generally not the first choice for AI inspection or measurement-level defect detection.
For AI recognition, customers usually need higher resolution, controlled lighting and stable image conditions.
Customers should test:
Image smoothness during movement
Selected FOV in the real scene
Focus clarity at actual working distance
External lighting design
Cable length and signal stability
Board placement
Host compatibility
Mechanical protection
Waterproof structure if required
The most common mistake is choosing it only because it is D3.3 and supports 60fps.
Customers should also confirm lighting, FOV, focus range, cable length, board space, connector layout and waterproof requirements.
Project-level customization or alternative module evaluation can be discussed based on diameter, lens, FOV, lighting, cable, connector and mechanical structure requirements.
Any change affecting image performance, signal stability, waterproof design or production feasibility should be reviewed before confirmation.
Please provide:
Application scenario
Medical, dental, veterinary or industrial use
Required diameter
Frame rate requirement
Working distance
FOV preference
Lighting method
Need for dimming
Waterproof requirement
Cable length
Board space
Connector layout
Host device
Sample quantity
Estimated production volume
Mechanical drawing if available
Complete information helps SincereFull recommend the right model faster.
Choose SF-C1011USB-D3.3-720P60 if your project needs a compact D3.3 bare USB imaging core, 1280×800@60fps output, selectable FOV, flexible focus range and custom lighting integration.
Choose another model if your project needs built-in LEDs, confirmed IP67 waterproof structure, higher resolution, finished device design or stronger integrated illumination.
The SF-C1011USB-D3.3-720P60 is a compact 60fps bare USB endoscope camera module for OEM customers who need smooth live viewing, flexible FOV selection and custom device integration.
It is a strong fit for the right compact project, but customers should confirm lighting design, focus distance, FOV, cable layout, board placement and waterproof needs before sample approval or mass production.