IMX 675 CMOS Image Censor

Sony Semiconductor Solutions to Release Industry’s First*1 CMOS Image Sensor for Security Cameras That Simultaneously Delivers Full-Pixel Output of Captured Images and High-Speed Output of Regions of Interest

Atsugi, Japan — Sony Semiconductor Solutions Corporation (SSS) today announced the upcoming release of the IMX675, a 1/3-type CMOS image sensor for security cameras with approximately 5.12 megapixels*2 that simultaneously delivers both full-pixel output of the whole captured image and high-speed output of regions of interest.

In an industry first,*1 the new sensor from SSS leverages Dual Speed Streaming technology to output all of the pixels in a captured image at a maximum rate of 40 frames per second while simultaneously outputting specific user-set regions of interest at high speed. Using this image sensor allows a single camera not only to provide comprehensive images of scenes, but also to support high-speed recognition of specific objects at a high level of detail.

The new sensor also employs unique STARVISTM 2 technology from SSS, which delivers high-sensitivity and a wide dynamic range, but with approximately 30% less power consumption than conventional models,*3 thanks to its proprietary stacked structure.

These technologies come together to deliver high-performance, high-quality image capture regardless of usage conditions or time of day, thereby contributing to a safer, more secure society.

*1  Among CMOS image sensors for security camera applications. As of announcement on July 20, 2022.

*2  Based on image sensor effective pixel specification method.

*3  Compared to SSS’s IMX335 1/3-type 5.12 effective megapixel CMOS sensor.

Model name Sample shipment date (planned) Sample price
IMX675 1/3-type (6.53 mm diagonal) approx. 5.21 effective megapixel*2 CMOS image sensor August 2022 USD 10**

**   The price of mass-produced items depends on trading volume and other factors.

■ Dual Speed Streaming Function Sample Video:

The requirements for security cameras vary depending on where and how they are used. At the same time, keeping the number of cameras optimized at a minimum is necessary to keep system costs low.

Thanks to proprietary Dual Speed Streaming technology from SSS, the new sensor can simultaneously output the whole captured image and specific regions of interest at different frame rates, enabling capture of a comprehensive image of the scene while also accurately recognizing quick-moving objects, all with a single camera. This design helps reduce system costs. The new sensor can be used to capture, for example, the whole image of an intersection while recognizing people and cars moving through it, or to capture an overall image of a highway while also capturing the details needed to identify the license plate numbers of cars travelling on it.

Additionally, STARVIS 2, a technology which delivers high sensitivity and a wide dynamic range, but with approximately 30% less energy consumption than conventional models,*3 enables a dynamic range of 78 dB, approximately 2.5 times that of conventional models,*3 when used in a single exposure method. As a result, the new sensor product has potential applications beyond security cameras, for instance in drive recorders and webcams, both of which are seeing increasing demand in recent times.

Image Sensor Diagram

Main Features

Equipped with Dual Speed Streaming for simultaneous full-pixel output of captured images and high-speed output of specific regions of interest

This image sensor is the industry’s first*1 to employ Dual Speed Streaming technology to simultaneously output all pixels in a captured image at a maximum rate of 40 frames per second while also reading specific regions of interest at a high frame rate, a feat made possible by its original readout circuits. The location of the region of interest in the frame can be specified vertically, together with the corresponding frame rate. Depending on the purpose, users can choose to read only the necessary region at high speed to lessen the load on the camera system at a later stage by reducing the amount of data compared to the conventional method of reading all pixels.

Example of frame rate and region of interest vertical specification

IMX675 image sensor diagram

Example 1 All pixels: 40 fps Vertical spec (12.5%): 320 fps Example 2 All pixels: 10 fps Vertical spec (25%): 80 fps Data size drops 50% compared to example 1 Example 3 All pixels: 10 fps Vertical spec (12.5%): 320 fps Data size drops 37.5% compared to example 1

Consumes 30% less power than conventional models*3

This product utilizes a stacked structure, employing a Cu-Cu connection*4 between the pixel unit and circuit unit, to achieve an optimized layout for multiple high-speed signal processing circuits. This results in significantly lower power consumption, approximately 30% lower than conventional models.*3 In many cases, security cameras operate around the clock, creating issues such as power consumption costs, impact on the environment, and camera heat generation. With this new sensor, the number of heatsink components in the camera system can be reduced, lowering the overall system cost and contributing to reducing the impact on the environment.

*4: Technology that provides electrical continuity via connected Cu (copper) pads when stacking the pixel section (top chip) and logic circuits (bottom chip). Compared with through-silicon via (TSV) wiring, where the connection is achieved by electrodes intruded around the circumference of the pixel area, this method gives more freedom in design, improves productivity, allows for a more compact size, and increases performance.

Single exposure method with approximately 2.5 times wider dynamic range than conventional models*3

The new image sensor employs STARVIS 2 technology developed by SSS, which uses unique processing technology to increase the area of the light-receiving unit despite pixel size limitations, resulting in a wide dynamic range in a 1/3-type 5.12 megapixel format. This design delivers a dynamic range approximately 2.5 times wider than conventional models,*3 at 78 dB, thereby enabling high-precision monitoring.

Improved sensitivity in the near-infrared domain delivers high-quality images in dark locations

The new product comes with a proprietary device structure from SSS, where irregularities are incorporated into the incidence planes of the light receiving unit to refract incident light and thereby enhance the absorption rate of invisible near infrared light. This design results in a sensitivity approximately 2.5 times greater than conventional models,*3 making it possible to capture high-quality images even in near infrared situations, which is often used in dark scenes and at night.

Please visit the following websites for further details on CMOS image sensors for security applications.

Product page:

Technology page:

Key Specifications

Model name IMX675
Effective pixels 2608 × 1964 (H x V), approx. 5.12 megapixels
Image size Diagonal 6.53 mm (1/2.8-type)
Unit cell size 2.0 μm × 2.0 μm (H x V)
Frame rate All pixels 10 bit 80 fps, 12 bit 60 fps
Sensitivity 14840 Digit/lx/s
Sensor saturation signal level (minimum value) 3895 Digit
Power supply Analog 3.3 V
Digital 1.1 V
Interface 1.8 V
Main functions Dual speed streaming, Clear HDR,


Output MIPI D-PHY 2/4 lanes
Color filter array Bayer array
Package Ceramic LGA 12.0 mm × 9.3 mm

Note: STARVIS 2 and  are registered trademarks or trademarks of Sony Group Corporation or its affiliated companies.

Media inquiries: Public Relations, Sony Semiconductor Solutions Corporation

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