NVIDIA AGX Orin Cameras
Supported Platforms,
Overview
The e-CAM121_CUOAGX is an advanced 12MP MIPI CSI-2 ultra-low light camera module featuring the Sony® Starvis™ IMX412 back-illuminated and stacked CMOS image sensor. This camera module is capable of delivering high-quality images at a frame rate of 12MP@60 fps and 4K@60fps. With its MIPI CSI-2 interface, it seamlessly integrates with the NVIDIA® Jetson AGX Orin™ development kit. The small pixel size of 1.55 μm x 1.55 μm ensures detailed and sharp image capture.
The e-CAM121_CUOAGX is an ideal solution for various applications, including in-vitro diagnostic (IVD) devices, automated microscopy, fluorescence imaging, autonomous mobile robots, UAVs, smart city, smart surveillance, and traffic monitoring systems, that demand superior imaging performance and compatibility with the powerful Jetson platform.
Refer Datasheet for complete frame rate details.
Specifications
Key features:
Frame Rate:
12MP @ 60 fps, 4K @ 60fps and Full HD @ 240fps Refer Datasheet for complete frame rate details.
High-speed 4-lane MIPI CSI-2 interface to connect with the CPU
Uses NVIDIA® Internal Image Signal Processor (ISP) for image processing
Standard M12 lens holder for use with customized optics or lenses for various applications
Lightweight, versatile, and portable design
Interface:
Interface: MIPI CSI-2
Connector: Micro coaxial cable with I-PEX (CN2) connector
Cable Length: 30cm
Module features:
Sensor: IMX412 from Sony® Starvis
Focus Type: Fixed focus
Sensor Resolution: 12.3MP
Chroma: Color
Shutter Type: Electronic Rolling Shutter
Optical Format: 1/2.3"
Output Format: RAW 10-bit / 12-bit
Pixel Size: 1.55 μm x 1.55 μm
Sensor Active Area: 4056H x 3040V
Array Size: 4072H x 3176V
Holder: M12 (S-Mount)
FOV: 82°(D), 72°(H), 56°(V) (with the lens provided by e-con)
Electrical & Mechanical:
Operating Voltage: 3.3V +/- 5%
Operating Temperature Range: -20°C to +60°C
Typical power consumption: 567.6mW
Size in mm (l x b): 30mm x 30mm
Miscellaneous:
Compliance: RoHS
Launched on:
NVIDIA AGX Orin Cameras
Supported Platforms,
Overview
The e-CAM121_CUOAGX is an advanced 12MP MIPI CSI-2 ultra-low light camera module featuring the Sony® Starvis™ IMX412 back-illuminated and stacked CMOS image sensor. This camera module is capable of delivering high-quality images at a frame rate of 12MP@60 fps and 4K@60fps. With its MIPI CSI-2 interface, it seamlessly integrates with the NVIDIA® Jetson AGX Orin™ development kit. The small pixel size of 1.55 μm x 1.55 μm ensures detailed and sharp image capture.
The e-CAM121_CUOAGX is an ideal solution for various applications, including in-vitro diagnostic (IVD) devices, automated microscopy, fluorescence imaging, autonomous mobile robots, UAVs, smart city, smart surveillance, and traffic monitoring systems, that demand superior imaging performance and compatibility with the powerful Jetson platform.
Refer Datasheet for complete frame rate details.
Specifications
- Key features:
- Frame Rate:
- 12MP @ 60 fps, 4K @ 60fps and Full HD @ 240fps
Refer Datasheet for complete frame rate details.
- High-speed 4-lane MIPI CSI-2 interface to connect with the CPU
- Uses NVIDIA® Internal Image Signal Processor (ISP) for image processing
- Standard M12 lens holder for use with customized optics or lenses for various applications
- Lightweight, versatile, and portable design
- Interface:
- Interface: MIPI CSI-2
- Connector: Micro coaxial cable with I-PEX (CN2) connector
- Cable Length: 30cm
- Module features:
- Sensor: IMX412 from Sony® Starvis
- Focus Type: Fixed focus
- Sensor Resolution: 12.3MP
- Chroma: Color
- Shutter Type: Electronic Rolling Shutter
- Optical Format: 1/2.3"
- Output Format: RAW 10-bit / 12-bit
- Pixel Size: 1.55 μm x 1.55 μm
- Sensor Active Area: 4056H x 3040V
- Array Size: 4072H x 3176V
- Holder: M12 (S-Mount)
- FOV: 82°(D), 72°(H), 56°(V) (with the lens provided by e-con)
- Electrical & Mechanical:
- Operating Voltage: 3.3V +/- 5%
- Operating Temperature Range: -20°C to +60°C
- Typical power consumption: 567.6mW
- Size in mm (l x b): 30mm x 30mm
- Miscellaneous:
- Launched on: