logo
OpenMV
Home Cam
Applications
Store
AI
Sales Channels
Support

OpenMV N6 Intelligent AI Camera

产品信息

产品描述

600× AI computing power boost, 480+ FPS colour global shutter, 120+ FPS YOLO object detection, 200+ FPS FOMO object detection!

The 2026 latest-model OpenMV N6 high-performance AI intelligent image recognition camera is now officially on sale!

  • Supports AI large models and agent collaboration;
  • Standard with 480 FPS megapixel colour global shutter – captures and recognises ultra-high-speed moving objects;
  • 120+ FPS YOLO object detection for high-speed execution of complex AI algorithms, with voice recognition support;
  • Built-in Wi-Fi, Bluetooth 5.1, Ethernet, microphone, and IMU;
  • Built-in H.264 and JPEG hardware encoding acceleration; supports MP4 recording and network streaming;
  • Includes official robot kits (robotic arm, drone, smart car, gimbal, etc.) – copy the code and run with one click!
Slide 1
Slide 2
Slide 3
Slide 4
Slide 5

OpenMV N6

product

product

The OpenMV N6 is a compact, low-power microcontroller board that enables you to easily implement real-world machine vision applications. You program the OpenMV N6 using high-level Python scripts (courtesy of theMicroPythonOperating System) instead of C/C++. This makes it easier to handle the complex outputs of machine vision algorithms and work with high-level data structures. However, you still have full control over your OpenMV N6 and its I/O pins in Python. You can easily trigger image and video capture on external events or execute machine vision algorithms to determine how to control your I/O pins.

The OpenMV N6 features:

  • TheSTM32N6ARM Cortex-M55 vector-accelerated processor capable of up to eight operations per clock cycle at 800 MHz (6.4 gigaops), with 64 MB SDRAM, 4.2 MB SRAM, and 32 MB program/storage flash memory. The processor features a 1 GHz NPU offering600 gigaops of AI/ML compute for running models—enabling you to run YOLO object detection algorithms onboard at 30 fps, an Image Signal Processor capable of handling up to 5 MP RAW BAYER Camera Modules, a GPU for graphics acceleration that can accelerate image scaling and 3D image rotation, and onboardH.264 encoding (up to 1080p)and JPEG encode/decode support hardware acceleration. All I/O pins output 3.3 V and are 3.3 V tolerant. The processor has the following I/O interfaces:
    • A high-speed USB-C (480 Mbps) interface to your computer. Your OpenMV Cam will appear as a virtual COM port and a USB flash drive when connected.
      • 1.5 A current-limited.
      • With EMI filtering and TVS protection.
    • A microSD card socket capable of 104 MB/s read/write speeds, enabling your OpenMV Cam to capture images and easily retrieve machine vision assets from the microSD card.
      • With EMI filtering and TVS protection.
    • Two SPI buses capable of operating at up to 100 Mb/s, enabling straightforward streaming of image data from the system to either the LCD Shield or another microcontroller.
      • And one I2S bus for an audio codec.
    • An I2C bus (up to 1 Mb/s), an I3C bus (up to 10 Mb/s), two CAN buses (up to 8 Mb/s), and three asynchronous serial buses (TX/RX, up to 12.5 Mb/s) for interfacing with other microcontrollers and sensors.
    • A 12-bit ADC (3.3 V tolerant).
    • Three I/O pins for servo control.
    • One I/O pin for frame synchronisation/triggering (or servo control).
    • Two I/O pins for low-power wake-up.
      • One shared with a button.
    • Interrupts on all I/O pins (there are 18 I/O pins on the board).
    • An onboard real-time clock (RTC) that continues operating when the system is in low-power mode.
      • With 8 KB of backup RAM.
      • With a dedicated backup battery connection.
    • A user-controllable/dimmable RGB LED.
    • A user button.
    • Another RGB LED for charging, USB power, and VIN power indication.
    • 64 MB of external 16-bit SDRAM clocked at 200 MHz DDR for 800 MB/s of bandwidth.
    • 32 MB of program/storage octal flash clocked at 200 MHz in 8-bit DDR mode for 400 MB/s of bandwidth (read speed).
    • An IMU (accelerometer and gyroscope) centred beneath the camera module.
    • A microphone for recording audio and for sound detection and processing.
    • Onboard Wi-Fi (a/b/g/n – 11/54/65 Mb/s) and Bluetooth (v5.1 – BR/EDR/BLE) module with a chip antenna.
      • Option to use a U.FL antenna instead.
    • Onboard 10/100/1000 Mb/s Ethernet
      • Ethernet jack with PoE support via an external shield.
  • A removable camera module system, with support for MIPI CSI and 8-bit parallel, enabling the OpenMV N6 to interface with different sensors:
  • A LiPo battery connector compatible with 3.7 V LiPo batteries commonly sold online for hobbyist robotic applications, with battery charging support via USB.
    • 500 mA fast charge current
    • With TVS protection.
    • With ADC for reading the battery voltage.
  • An ARM 10-pin JTAG header compatible with SEGGER J-Link devices for debugging and programming.
    • With EMI filtering and TVS protection.
    • BOOT1 switch for debugging.
  • External 5 V VIN with reverse supply protection.
    • With TVS protection.
Specifications

PLEASE NOTE THAT THE I/O PINS OF THE N6 ARE NOT 5 V TOLERANT! DO NOT CONNECT THE DEVICE DIRECTLY TO A 5 V MCU SUCH AS THE ARDUINO MEGA.

You must power the N6 using VIN. The 3.3 V pins are outputs only. VIN has a maximum voltage input of 5.7 V. If you need to supply a voltage higher than 5.7 V, please use one of our new shields with 6 V–36 V switching regulator inputs.

Processor:

  • ARM® 32-bit Cortex®-M55 CPU with double-precision FPU
    with ARM® MVE Helium™ technology (128-bit SIMD)
  • 800 MHz (1280 DMIPS)
  • Core Mark Score: 3616 (compared with Raspberry Pi 3: 3800)

Camera Info:

  • PAG7936 1 MP Colour Global Shutter Sensor
    1280 × 800 at 120 FPS
    640 × 400 @ 240 Hz
    320 × 200 @ 480 fps
  • Optical Format: 1/4
  • Pixel size: 3 µm × 3 µm
  • CRA: 20°
  • SNR: 36 dB
  • Dynamic Range: 64 dB

Lens Information:

  • Maximum image circle diameter: 6.7 mm
  • Focal Length: 2.8 mm
  • Aperture: f/2.0
  • Optical/Mechanical TTL: 17.50
  • Back Focal Length: 5.37 mm
  • Flange Focal Length: 4.53 mm
  • TV Distortion: <-24%
  • Relative illumination: >70%
  • CRA: 14°
  • Storage/Operating Temperature: –40°C to 85°C
  • Format: 1/3
  • Mount: M12 × 0.5
  • IR Cut Filter: 650 nm
    @420 nm–600 nm: Tavg > 90%
    @650 nm ± 10 nm: T = 50%
  • Dust Level: IP4X
  • Structure: 6G + 1BG

Actual FoV with PAG7936 image sensor:

  • D78.0° H68.8° V46.4°

Electrical information:

All pins are 3.3 V tolerant with 3.3 V output. All pins can sink or source up to 20 mA. VIN may be between 4.7 V and 5.7 V. Do not draw more than 250 mA from your OpenMV Cam’s 3.3 V rail.

Performance Specifications:

  • Power-on to inference result (connected to PC): ~2.5 s
  • Power-on to inference result (stand-alone): ~1.5 s
  • Wake up from deep sleep to inference result (connected to PC): ~2.5 s
  • Wake-up from deep sleep to inference result (stand-alone): ~1.5 s
  • Bypass bootloader, power-on/wakeup to inference result (connected to PC): ~1.5 s
  • Bypass bootloader, power-on/wakeup to inference result (stand-alone): ~0.5 s
  • Bypass bootloader, power-on/wakeup to inference/image-save (attached to PC): ~4 s
    (PC slows down the system while reading from mass storage)
  • Bypass bootloader, power-on/wakeup to inference/image-save (stand-alone): ~0.75 s
Power consumption

Full Power: 150 mA @ 5 V(0.75 W)
Deep Sleep: 1.6 mA @ 3.7 V (~6 mW, via BAT connector)

Dimensions
  • Length: 45 mm
  • Width: 35 mm
  • Height: 30 mm
Temperature range
  • Storage temperature: –25 °C to +70 °C
  • Operating Temperature: –25 °C to +70 °C

Language and Region
Copyright © 2025 星瞳科技SingTown
粤ICP备17045162号