4K MIPI FPC Camera Module Series for Compact Embedded Imaging Devices
Explore SincereFirst 4K MIPI FPC camera modules with RAW output, 4K@30fps and 4K@60fps options, Fixed Focus and autofocus, wide FOV, Raspberry Pi support, and project-level optical evaluation.

4K MIPI FPC Camera Module Series for Compact Embedded Imaging Devices
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4K MIPI FPC Camera Module Series for Compact Embedded Imaging Devices
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Introduction
SincereFirst 4K MIPI FPC Camera Module Series is designed for embedded devices that place the camera module inside the final product and process image data on the host. The series includes 8MP and 13MP sensors, 4K@30fps and 4K@60fps directions, RAW10 and RAW12 output, Fixed Focus and VCM Autofocus, wide-FOV options, IR-Cut configurations, Raspberry Pi support, and D200° or wider lens evaluation on selected models. Host MIPI compatibility and the final optical structure must be confirmed before sampling.
Applications in Real Devices
Embedded AI Imaging Devices
MIPI FPC modules can provide RAW image data for host-side ISP processing, AI analysis, scene understanding, or high-detail recording inside compact products.
Robotic Vision Systems
The series includes 4K@60fps and wide-angle directions for robots that need environmental image input, subject to host bandwidth, ISP, exposure, motion, and enclosure validation.
Portable and Smart Imaging Devices
13MP, autofocus, IR-Cut, and closer working-distance directions can support devices that capture subjects across different distances and lighting conditions.
Raspberry Pi Development Systems
The IMX219 model provides Raspberry Pi support and multiple focus configurations for prototype, educational, and embedded development workflows.
How to Choose the Integration Direction
Confirm the Host MIPI and ISP Pipeline
Check the processor, lane configuration, pin definition, RAW10/RAW12 support, driver, sensor mode, and ISP before selecting a sample.
Choose Frame Rate and Sensor Direction
The series includes 4K@30fps and 4K@60fps models with different sensor formats, pixel sizes, and optical roles.
Match Focus and Field of View
Choose between wide Fixed Focus, VCM Autofocus, Raspberry Pi focus options, low-distortion optics, and D200° or wider lens evaluation.
Validate the Mechanical Integration
FPC routing, connector, module height, enclosure opening, mounting angle, and thermal conditions should be confirmed with the final device.
Featured Models
Model | Sensor | Product Direction | Reason to Consider |
SF3X678BA V1.0 | IMX678 | Embedded AI imaging with wide scene coverage | Choose it for 4K@30fps RAW input, a larger 1/1.8-inch format, 2μm pixels, and standard D133° coverage; D200° or wider optics can be evaluated. |
SF-X41521BA V1.0 | IMX415 | High-frame-rate robotic vision | Choose it when 4K@60fps RAW output and H129° horizontal coverage are more important than autofocus or close-range imaging. |
SF-X31721BA V1.0 | IMX317 | High-frame-rate wide-angle embedded vision | Choose it for 4K@60fps RAW output, F1.8 optics, H116° coverage, and project-level D200° or wider lens evaluation. |
SF3X219BA-RP V1.0 | IMX219 | Raspberry Pi vision development | Choose it for Raspberry Pi-oriented MIPI integration and the availability of VCM Autofocus, Fixed Focus, or Fixed Focus telephoto versions. |
SF-OCIMX458-P2-B V1.0 | IMX458 | Portable imaging and recording devices | Choose it for 13MP capture, 4K@30fps RAW output, H117° coverage, a 10cm-to-Infinity range, and a standard IR-Cut Switcher. |
SF-R1335BA V1.0 | AR1335 | Variable-distance smart imaging | Choose it for 13MP RAW10 output, VCM Autofocus, D78.4° low-distortion optics, 10cm-to-Infinity capture, and a standard IR-Cut Switcher. |
SincereFirst Customization
Lens and FOV
Standard and project-level optical directions can be evaluated, including D200° or wider options on the confirmed models.
Focus Configuration
Fixed Focus, VCM Autofocus, and Raspberry Pi autofocus / telephoto directions can be matched to the working distance.
FPC and Connector
FPC layout, 25Pin or 30Pin interfaces, BTB or gold-finger connectors, and module-side structure can be evaluated.
MIPI and RAW Modes
MIPI lanes, sensor modes, RAW10/RAW12, host ISP, and applicable HDR or NIR conditions can be reviewed with the target platform.
FAQ
When should I choose a 4K MIPI FPC module?
Choose this direction when the camera is integrated inside the device, the host supports MIPI, and RAW or host-side ISP processing is required.
Which models support 4K@60fps?
SF-X41521BA V1.0 and SF-X31721BA V1.0 are the confirmed 4K@60fps MIPI FPC directions.
Can a D200° lens be supplied as standard?
No. D200° or wider is an evaluation direction on selected models and must be confirmed against the enclosure, distortion, and target scene.
What information is required?
Provide the host processor, MIPI definition, RAW mode, target frame rate, FOV, working distance, focus type, enclosure, and quantity.
Evaluate a 4K MIPI FPC Module
Share the host platform, MIPI definition, target mode, optics, working distance, and enclosure for evaluation before sampling.
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Description:
The Sony IMX678 is an advanced CMOS image sensor designed primarily for security and surveillance applications. It boasts an 8.4 MP resolution with a pixel pitch of 2.0 µm, offering high-quality imaging performance. Built on the STARVIS 2 platform, it integrates cutting-edge technologies such as DOL HDR, Clear HDR, and NIR Enhanced to enhance image clarity in various lighting conditions.
This 1/1.8-inch format sensor measures 8.86 mm diagonally and provides a square pixel array with 8.40 million effective pixels. Its efficient power consumption is supported by a triple power supply configuration, which includes analog 3.3 V, digital 1.1 V, and interface 1.8 V. This setup ensures optimal performance while minimizing energy use.
Incorporating these technologies, the IMX678 is ideal for high-performance MIPI camera module applications, especially in scenarios demanding clear and stable images. Its capability to function effectively at 60fps makes it a perfect fit for 8MP camera modules and surveillance systems that require fast frame rates. Additionally, its low power consumption makes it a suitable option for long-term surveillance applications.
With its ability to deliver outstanding image quality even under challenging conditions, the Sony IMX678 sensor also supports higher-end solutions such as 4K camera modules, making it a versatile choice for both basic and advanced security systems. This sensor’s combination of high resolution, powerful HDR capabilities, and low power requirements positions it as a premium option for modern surveillance and imaging solutions.
key features:
High Resolution: The Sony IMX678 features an 8.4 MP resolution with a 2.0 µm pixel pitch
Imaging Technologies: It incorporates DOL HDR, Clear HDR, and NIR Enhanced technologies, even in low light environments also clear.
Power Consumption: The sensor operates with a triple power supply (3.3 V analog, 1.1 V digital, 1.8 V interface) and maintains low power usage.
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FAQ
Q1: Are you factory or trade company? A1: We are factory and have our own production line with 10 levels of dust-free workshops professional trained production workers.
Q2: What can you customize with our camera module? A2: FPC length, module shape, module head size, lens holder, imaging direction, pinout, connector, VCM, lens, Firmware and so on.
Q3: What is your camera module custom requirements flow? A3: Camera module / Board camera customized process insight With hundreds of camera module application, the standard camera modules can’t meet each specific requirement, so customization process comes with necessity and popularity, the hardware and firmware modification, including module dimension, lens view angle, auto/fixed focus type and lens filter, to empower the innovation. Non-recurring engineering completely covers the research, development, design for producing a new product. For saving the developing time and cost, SINCERE FIRST provides the custom camera module service based on our standard camera module solution. · Customized requirements flow 1. You can provide drawings or samples, as well as request documentation and developed by our engineering staff. 2.Communication or Meeting 3. We will communicate with you in detail to determine somewhat product you need and try to set the most suitable product for you according to your needs. 4.Sample Development 5.Determine the details of the development sample and the delivery time. Communicate at any time to ensure smooth progress. 6. Sample Testing 7. Test and age on your application, feedback test results, no need to modify, mass production.
Q4: What operating system does your camera module support? A4: Our camera module can support Windows, Mac-IOS, Android and Self-developed Software.
Q5: Which software / development platform do your camera modules support? A5: Arduino, ESP32, Raspberry Pi, NVIDIA, Ambarella, RK(Rockchip), MTK(MediaTek Inc.), Qualcomm, ATI Q6: How long does it take to develop a new camera module? A6: Typically around 7–10 days from start date.
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