Sensors are the main battleground in the camera industry, and Gpixel’s newest seems to be effectively conscious of that truth. The corporate has created a 49-megapixel, HDR, backside-illuminated, stacked sensor able to as much as 8K at 120 frames per second.
Gpixel has been producing sensors for the safety and industrial purposes area since 2012, however within the final 12 months it has produced no less than three sensors that look extraordinarily promising for the patron imaging area. In August, the corporate mentioned it had developed a brand new global shutter 4/3-inch 10-megapixel sensor that it claims shall be able to taking pictures 4K video at up to 2,000 frames per second. In September, it launched what it billed because the world’s highest-resolution international shutter sensor: 152-megapixels.
Extra lately, Gpixel announced what it calls a next-generation sensor: a full-frame, backside-illuminated (BSI), stacked sensor designed particularly for images and cinematography. Whereas not a world shutter design, that’s nonetheless an impressive-looking sensor.
The GCINE4349 is the primary in what Gpixel says shall be a flagship household of sensors and includes a 49-megapixel (35.2 x 25.8 mm) full-frame picture sensor with 4.3 μm2 BSI pixels. It has a most decision of 8,192 by 6,000 pixels and a number of other readout modes that may assist 8K or binned 4K with most body charges of as much as 120 frames per second at 8K decision and as much as 240 frames per second at binned 4K resolutions, all with a pixel bit depth of as much as 16 bit/pixel interfaced over 64 sub LVDS channels at 1.2 Gbps/channel.
In full-frame, Gpixel says the sensor supplies full 8K DCI widescreen (8,192 pixels), but in addition helps 2.4:1 8K extensive or scope format, 8K open gate, and varied different artistic imaging codecs. The native 8K decision at its 3:2 side ratio permits filmmakers to shoot oversampled in a method that ideally suits a completed 6K or 4K movie.
“GCINE4349 is developed utilizing a two-wafer degree stacked BSI structure. The highest layer consists of a BSI pixel array with 49M 4.3 um pixels reaching a most QE of as much as 75% at 525 nm. The underside digital CMOS layer consists of an array of core cells every together with 16-bit ADC blocks and SRAM reminiscence blocks that are used to sum and retailer as much as 4 subsequent sub-frames with seamless publicity, enabling an in-pixel full effectively cost of as much as 160k e- for a dynamic vary of 80 dB,” Gpixel explains.
The structure permits for 2 HDR modes that Gpixel says permits it to attain glorious picture high quality in a wide range of lighting situations. The primary is a proprietary “Variable Slope Excessive Dynamic Vary” technique that the corporate says lets the sensor obtain 110 dB of dynamic vary (what it says is “exceptionally excessive”). The second is a traditional twin achieve learn out that achieves as much as 87 dB of dynamic vary. Gpixel additionally has a devoted nonetheless digital camera mode with low noise readout and a devoted shutter controller.
Gpixel’s GCINE4349 appears, on paper, to be one of many extra spectacular high-resolution, low noise sensors to be developed, however it’s unclear who the corporate intends to promote its product to. Sony and Canon make their very own sensors, and Nikon usually works with Sony to supply the sensors in its cameras. Nonetheless, hopefully, Gpixel’s continued funding within the area will end in continued positive aspects in efficiency, and even perhaps extra spectacular capabilities are to return to the subsequent era of cameras.