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Arducam B0212 OV7251 0.3MP Global Shutter Mono MIPI Camera Module for Jetson Nano
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Arducam B0212 OV7251 0.3MP Global Shutter Mono MIPI Camera Module for Jetson Nano
The Arducam B0212 is a compact 0.3MP monochrome camera module featuring global shutter technology and MIPI CSI-2 interface, specifically designed for NVIDIA Jetson Nano edge computing platforms. Professional roboticists, computer vision engineers, and autonomous systems developers rely on this module for high-speed motion capture and low-light performance in real-time applications. This camera solves the critical challenge of motion blur and temporal distortion in fast-moving robotic systems by employing global shutter architecture, enabling pixel-perfect image capture at frame rates exceeding 200fps.
Product Overview
The Arducam B0212 OV7251 utilizes OmniVision's advanced OV7251 sensor with global shutter technology, which simultaneously exposes all pixels across the entire sensor array. Unlike rolling shutter cameras that scan rows sequentially and introduce motion artifacts, global shutter captures the complete frame instantaneously, making it ideal for high-speed robotics, drone navigation, and industrial machine vision applications. The module integrates a MIPI CSI-2 interface operating at 1 lane configuration, delivering uncompressed raw Bayer data directly to the Jetson Nano's camera interface with minimal latency. The monochrome sensor eliminates the Bayer filter array overhead, providing superior light sensitivity and resolution efficiency for grayscale processing pipelines.
The 0.3MP resolution (640x480 pixels) combined with the OV7251's 1/7-inch optical format delivers exceptional temporal performance, supporting frame rates up to 240fps at full resolution and beyond 1000fps at reduced resolutions. This camera module features a standard Raspberry Pi compatible ribbon cable connector, enabling straightforward integration with Jetson Nano's CSI camera port. The global shutter mechanism eliminates synchronization challenges common in multi-camera setups, making it particularly valuable for stereo vision systems and synchronized capture applications. Power consumption is minimal at approximately 100-150mA, allowing integration into battery-powered autonomous systems without significant power budget impact.
Key Specifications
| Specification | Details |
| Product Type | MIPI CSI-2 Camera Module with Global Shutter |
| Brand | Arducam |
| Model | B0212 |
| Sensor | OmniVision OV7251 |
| Resolution | 0.3MP (640x480 pixels) |
| Color Format | Monochrome (Grayscale) |
| Shutter Type | Global Shutter |
| Interface | MIPI CSI-2 (1-lane) |
| Maximum Frame Rate | 240fps at 640x480, 1000fps+ at reduced resolution |
| Optical Format | 1/7-inch |
| Focal Length | 3.6mm fixed focus |
| Field of View | Approximately 66 degrees |
| Power Supply | 3.3V |
| Power Consumption | 100-150mA typical |
| Connector | 15-pin Raspberry Pi compatible FPC |
| Compatible Platforms | NVIDIA Jetson Nano, Jetson Xavier NX, Raspberry Pi Compute Module |
| Origin | Original/Authentic |
| Warranty | 7 days on manufacturing defects |
| Shipping | 1-5 days from Bengaluru |
| Delivery | 7-8 days across India |
| Support | 24/7 via Email and WhatsApp |
Key Features
- Global Shutter Technology: Eliminates motion blur and rolling distortion, capturing complete frames instantaneously at speeds exceeding 240fps for robotics and autonomous systems
- High-Speed Performance: Delivers frame rates beyond 1000fps at reduced resolutions, enabling slow-motion analysis and precise motion tracking in industrial applications
- Monochrome Sensor: Superior light sensitivity and resolution efficiency without Bayer filter overhead, ideal for computer vision algorithms and edge detection tasks
- MIPI CSI-2 Interface: Direct integration with Jetson Nano camera port with minimal latency, supporting real-time processing pipelines without external converters
- Compact Form Factor: 15-pin FPC connector compatible with Jetson Nano and Raspberry Pi platforms, enabling seamless integration into space-constrained robotic designs
- Low Power Consumption: 100-150mA typical operation, suitable for battery-powered drones, autonomous vehicles, and portable vision systems
- Fixed Focus Optics: Pre-calibrated 3.6mm lens with 66-degree field of view, optimized for medium-range object detection and tracking applications
Applications and Use Cases
- Autonomous Robotics: Global shutter eliminates motion artifacts in fast-moving robot navigation systems, enabling accurate visual odometry and obstacle detection at speeds exceeding 5m/s
- Drone Flight Control: Provides synchronized frame capture for optical flow estimation and terrain-relative navigation without temporal distortion artifacts
- Industrial Machine Vision: Detects high-speed manufacturing defects, quality control inspection, and precision component alignment in production lines operating at 60+ cycles per minute
- Stereo Vision Systems: Global shutter synchronization enables pixel-perfect disparity matching between multiple camera modules without temporal misalignment
- Motion Tracking and Gesture Recognition: Captures rapid hand and body movements with zero motion blur, enabling responsive human-machine interfaces for robotics applications
- Scientific Research: High-speed monochrome imaging for ballistics analysis, fluid dynamics visualization, and biomechanical motion capture at frame rates exceeding 500fps
How to Use
To integrate the Arducam B0212 with your Jetson Nano, first enable the camera interface in the Jetson Nano system configuration by accessing the device tree overlay settings. Connect the 15-pin FPC ribbon cable to the CSI camera port (located between the USB and Ethernet ports), ensuring the blue pull-tab faces outward before firmly seating the connector. The module requires the Arducam driver package, available through their GitHub repository, which includes kernel modules and V4L2 camera interface support. Install dependencies using apt-get, then compile and insert the kernel module to enable camera detection.
Once the driver is loaded, verify camera detection by running gstreamer pipelines or OpenCV capture commands. For optimal performance, use libargus (NVIDIA's camera framework) which provides hardware-accelerated ISP processing and supports the MIPI interface natively. Configure frame rate and resolution parameters through V4L2 control interfaces using tools like v4l2-ctl. For high-speed applications exceeding 120fps, ensure adequate power supply to the Jetson Nano (5V/4A minimum) and disable CPU frequency scaling to maintain consistent frame capture timing. Implement image processing algorithms in CUDA or TensorRT to leverage the Jetson Nano's GPU for real-time computer vision tasks.
Frequently Asked Questions
What is the key difference between global shutter and rolling shutter in this camera module?
Global shutter exposes all pixels simultaneously across the entire sensor array, capturing the complete frame at a single instant in time. This eliminates motion blur and temporal distortion artifacts that occur with rolling shutter cameras, which scan rows sequentially. For robotics applications moving faster than 2m/s or capturing objects with rapid motion, global shutter provides superior image quality and temporal accuracy. Rolling shutter cameras introduce skew, wobble, and ghosting artifacts that degrade computer vision algorithm performance, while global shutter delivers pixel-perfect synchronization essential for stereo matching and motion tracking.
Can the Arducam B0212 achieve 1000fps frame rates on Jetson Nano?
The OV7251 sensor is capable of 1000fps+ at reduced resolutions (typically 320x240 or lower), but Jetson Nano's MIPI CSI-2 interface bandwidth and USB storage limitations may constrain real-world achievable frame rates. At full 640x480 resolution, reliable capture is typically 240fps sustained. To approach higher frame rates, reduce resolution, use high-speed NVMe storage, and implement frame buffering in GPU memory. For applications requiring consistent 1000fps capture, consider Jetson Xavier NX or AGX platforms with higher bandwidth specifications and dedicated camera processing engines.
Is this camera module compatible with Raspberry Pi 4 or only Jetson Nano?
The Arducam B0212 features a 15-pin FPC connector compatible with Raspberry Pi Camera Port v1 and v2 standards, making it physically compatible with Raspberry Pi 4, Pi Zero, and Jetson Nano platforms. However, driver support and performance optimization are specifically validated for Jetson Nano. While Raspberry Pi can detect the camera, achieving full 240fps performance and accessing advanced global shutter features requires Arducam's Jetson-specific driver package. Raspberry Pi users may experience reduced frame rates and limited CSI-2 protocol support depending on their kernel version.
What are the power requirements and can it operate from Jetson Nano's onboard power?
The Arducam B0212 requires 3.3V power supply at 100-150mA typical operation. Jetson Nano's camera port provides 3.3V power, but total system power draw including the module should not exceed the Jetson Nano's 5V/4A power budget. For applications combining high-speed capture (exceeding 120fps) with GPU-intensive processing, use an external 5V/4A power supply to the Jetson Nano rather than relying on USB power. Inadequate power supply causes frame drops, sensor initialization failures, and intermittent camera disconnections.
Does the camera support auto-exposure and auto-focus adjustment?
The Arducam B0212 features a fixed-focus 3.6mm lens optimized for objects 0.3-2 meters away, with manual focus adjustment available through lens rotation. The OV7251 sensor supports programmable exposure control through V4L2 interfaces and Arducam's proprietary control libraries, allowing manual adjustment of exposure time and analog gain. Auto-exposure algorithms must be implemented in user software using feedback from captured frames. For applications requiring autofocus, consider Arducam's motorized focus modules as separate accessories paired with this camera sensor.
When will I receive my order?
Orders are dispatched within 1-5 business days from our Bengaluru warehouse. Delivery takes 7-8 days to most locations across India.
What is your return and warranty policy?
Buy Arducam B0212 OV7251 0.3MP Global Shutter Mono MIPI Camera Module for Jetson Nano Online in India
Purchase the Arducam B0212 OV7251 0.3MP Global Shutter Mono MIPI Camera Module for Jetson Nano online at The Engineer Store, India's trusted source for genuine electronics. We deliver across Bengaluru, Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata, Ahmedabad, Jaipur, and Surat.
Our team in Bengaluru is available 24/7 to support your journey from product selection to project completion.
Arducam B0212 OV7251 0.3MP Global Shutter Mono MIPI Camera Module for Jetson Nano
The Arducam B0212 is a compact 0.3MP monochrome camera module featuring global shutter technology and MIPI CSI-2 interface, specifically designed for NVIDIA Jetson Nano edge computing platforms. Professional roboticists, computer vision engineers, and autonomous systems developers rely on this module for high-speed motion capture and low-light performance in real-time applications. This camera solves the critical challenge of motion blur and temporal distortion in fast-moving robotic systems by employing global shutter architecture, enabling pixel-perfect image capture at frame rates exceeding 200fps.
Product Overview
The Arducam B0212 OV7251 utilizes OmniVision's advanced OV7251 sensor with global shutter technology, which simultaneously exposes all pixels across the entire sensor array. Unlike rolling shutter cameras that scan rows sequentially and introduce motion artifacts, global shutter captures the complete frame instantaneously, making it ideal for high-speed robotics, drone navigation, and industrial machine vision applications. The module integrates a MIPI CSI-2 interface operating at 1 lane configuration, delivering uncompressed raw Bayer data directly to the Jetson Nano's camera interface with minimal latency. The monochrome sensor eliminates the Bayer filter array overhead, providing superior light sensitivity and resolution efficiency for grayscale processing pipelines.
The 0.3MP resolution (640x480 pixels) combined with the OV7251's 1/7-inch optical format delivers exceptional temporal performance, supporting frame rates up to 240fps at full resolution and beyond 1000fps at reduced resolutions. This camera module features a standard Raspberry Pi compatible ribbon cable connector, enabling straightforward integration with Jetson Nano's CSI camera port. The global shutter mechanism eliminates synchronization challenges common in multi-camera setups, making it particularly valuable for stereo vision systems and synchronized capture applications. Power consumption is minimal at approximately 100-150mA, allowing integration into battery-powered autonomous systems without significant power budget impact.
Key Specifications
| Specification | Details |
| Product Type | MIPI CSI-2 Camera Module with Global Shutter |
| Brand | Arducam |
| Model | B0212 |
| Sensor | OmniVision OV7251 |
| Resolution | 0.3MP (640x480 pixels) |
| Color Format | Monochrome (Grayscale) |
| Shutter Type | Global Shutter |
| Interface | MIPI CSI-2 (1-lane) |
| Maximum Frame Rate | 240fps at 640x480, 1000fps+ at reduced resolution |
| Optical Format | 1/7-inch |
| Focal Length | 3.6mm fixed focus |
| Field of View | Approximately 66 degrees |
| Power Supply | 3.3V |
| Power Consumption | 100-150mA typical |
| Connector | 15-pin Raspberry Pi compatible FPC |
| Compatible Platforms | NVIDIA Jetson Nano, Jetson Xavier NX, Raspberry Pi Compute Module |
| Origin | Original/Authentic |
| Warranty | 7 days on manufacturing defects |
| Shipping | 1-5 days from Bengaluru |
| Delivery | 7-8 days across India |
| Support | 24/7 via Email and WhatsApp |
Key Features
- Global Shutter Technology: Eliminates motion blur and rolling distortion, capturing complete frames instantaneously at speeds exceeding 240fps for robotics and autonomous systems
- High-Speed Performance: Delivers frame rates beyond 1000fps at reduced resolutions, enabling slow-motion analysis and precise motion tracking in industrial applications
- Monochrome Sensor: Superior light sensitivity and resolution efficiency without Bayer filter overhead, ideal for computer vision algorithms and edge detection tasks
- MIPI CSI-2 Interface: Direct integration with Jetson Nano camera port with minimal latency, supporting real-time processing pipelines without external converters
- Compact Form Factor: 15-pin FPC connector compatible with Jetson Nano and Raspberry Pi platforms, enabling seamless integration into space-constrained robotic designs
- Low Power Consumption: 100-150mA typical operation, suitable for battery-powered drones, autonomous vehicles, and portable vision systems
- Fixed Focus Optics: Pre-calibrated 3.6mm lens with 66-degree field of view, optimized for medium-range object detection and tracking applications
Applications and Use Cases
- Autonomous Robotics: Global shutter eliminates motion artifacts in fast-moving robot navigation systems, enabling accurate visual odometry and obstacle detection at speeds exceeding 5m/s
- Drone Flight Control: Provides synchronized frame capture for optical flow estimation and terrain-relative navigation without temporal distortion artifacts
- Industrial Machine Vision: Detects high-speed manufacturing defects, quality control inspection, and precision component alignment in production lines operating at 60+ cycles per minute
- Stereo Vision Systems: Global shutter synchronization enables pixel-perfect disparity matching between multiple camera modules without temporal misalignment
- Motion Tracking and Gesture Recognition: Captures rapid hand and body movements with zero motion blur, enabling responsive human-machine interfaces for robotics applications
- Scientific Research: High-speed monochrome imaging for ballistics analysis, fluid dynamics visualization, and biomechanical motion capture at frame rates exceeding 500fps
How to Use
To integrate the Arducam B0212 with your Jetson Nano, first enable the camera interface in the Jetson Nano system configuration by accessing the device tree overlay settings. Connect the 15-pin FPC ribbon cable to the CSI camera port (located between the USB and Ethernet ports), ensuring the blue pull-tab faces outward before firmly seating the connector. The module requires the Arducam driver package, available through their GitHub repository, which includes kernel modules and V4L2 camera interface support. Install dependencies using apt-get, then compile and insert the kernel module to enable camera detection.
Once the driver is loaded, verify camera detection by running gstreamer pipelines or OpenCV capture commands. For optimal performance, use libargus (NVIDIA's camera framework) which provides hardware-accelerated ISP processing and supports the MIPI interface natively. Configure frame rate and resolution parameters through V4L2 control interfaces using tools like v4l2-ctl. For high-speed applications exceeding 120fps, ensure adequate power supply to the Jetson Nano (5V/4A minimum) and disable CPU frequency scaling to maintain consistent frame capture timing. Implement image processing algorithms in CUDA or TensorRT to leverage the Jetson Nano's GPU for real-time computer vision tasks.
Frequently Asked Questions
What is the key difference between global shutter and rolling shutter in this camera module?
Global shutter exposes all pixels simultaneously across the entire sensor array, capturing the complete frame at a single instant in time. This eliminates motion blur and temporal distortion artifacts that occur with rolling shutter cameras, which scan rows sequentially. For robotics applications moving faster than 2m/s or capturing objects with rapid motion, global shutter provides superior image quality and temporal accuracy. Rolling shutter cameras introduce skew, wobble, and ghosting artifacts that degrade computer vision algorithm performance, while global shutter delivers pixel-perfect synchronization essential for stereo matching and motion tracking.
Can the Arducam B0212 achieve 1000fps frame rates on Jetson Nano?
The OV7251 sensor is capable of 1000fps+ at reduced resolutions (typically 320x240 or lower), but Jetson Nano's MIPI CSI-2 interface bandwidth and USB storage limitations may constrain real-world achievable frame rates. At full 640x480 resolution, reliable capture is typically 240fps sustained. To approach higher frame rates, reduce resolution, use high-speed NVMe storage, and implement frame buffering in GPU memory. For applications requiring consistent 1000fps capture, consider Jetson Xavier NX or AGX platforms with higher bandwidth specifications and dedicated camera processing engines.
Is this camera module compatible with Raspberry Pi 4 or only Jetson Nano?
The Arducam B0212 features a 15-pin FPC connector compatible with Raspberry Pi Camera Port v1 and v2 standards, making it physically compatible with Raspberry Pi 4, Pi Zero, and Jetson Nano platforms. However, driver support and performance optimization are specifically validated for Jetson Nano. While Raspberry Pi can detect the camera, achieving full 240fps performance and accessing advanced global shutter features requires Arducam's Jetson-specific driver package. Raspberry Pi users may experience reduced frame rates and limited CSI-2 protocol support depending on their kernel version.
What are the power requirements and can it operate from Jetson Nano's onboard power?
The Arducam B0212 requires 3.3V power supply at 100-150mA typical operation. Jetson Nano's camera port provides 3.3V power, but total system power draw including the module should not exceed the Jetson Nano's 5V/4A power budget. For applications combining high-speed capture (exceeding 120fps) with GPU-intensive processing, use an external 5V/4A power supply to the Jetson Nano rather than relying on USB power. Inadequate power supply causes frame drops, sensor initialization failures, and intermittent camera disconnections.
Does the camera support auto-exposure and auto-focus adjustment?
The Arducam B0212 features a fixed-focus 3.6mm lens optimized for objects 0.3-2 meters away, with manual focus adjustment available through lens rotation. The OV7251 sensor supports programmable exposure control through V4L2 interfaces and Arducam's proprietary control libraries, allowing manual adjustment of exposure time and analog gain. Auto-exposure algorithms must be implemented in user software using feedback from captured frames. For applications requiring autofocus, consider Arducam's motorized focus modules as separate accessories paired with this camera sensor.
When will I receive my order?
Orders are dispatched within 1-5 business days from our Bengaluru warehouse. Delivery takes 7-8 days to most locations across India.
What is your return and warranty policy?
Buy Arducam B0212 OV7251 0.3MP Global Shutter Mono MIPI Camera Module for Jetson Nano Online in India
Purchase the Arducam B0212 OV7251 0.3MP Global Shutter Mono MIPI Camera Module for Jetson Nano online at The Engineer Store, India's trusted source for genuine electronics. We deliver across Bengaluru, Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata, Ahmedabad, Jaipur, and Surat.
Our team in Bengaluru is available 24/7 to support your journey from product selection to project completion.