Overview :
The OAK-D Pro PoE is an upgraded version of OAK-D-PoE, featuring IR laser dot projector (active stereo) and IR illumination LED (for night-vision). It’s also smaller and lighter than the OAK-D-PoE.
It also has industrial M12 PoE connector (instead of RJ45) and additionally features M8 connector for IO connectivity; USB2 (D+, D-), camera IOs (FSIN, STROBE), power, and one auxiliary GPIO.
Hardware specifications :
This OAK camera uses Power-over-Ethernet (PoE) for communication and power. It offers full 802.3af and Class 3 PoE compliance with 1000BASE-T speeds (1 Gbps). A PoE injector/switch is required to power the device.
Sensor specifications :
Auto Focus (AF) :
For the normal FOV version you can select either FF or AF color camera.
Camera Specs |
Color camera |
Stereo pair |
---|---|---|
Sensor |
IMX378 |
OV9282 |
Shutter |
rolling |
global |
FOV (D/H/V) |
78°/66°/54 |
89.5°/80°/55° |
Resolution |
12MP (4032x3040) |
1MP (1280x800) |
Focus |
AF: 8cm - ∞ |
FF: 19.6cm - ∞ |
Max Framerate |
60 FPS |
120 FPS |
Pixel size |
1.55µm x 1.55µm |
3µm x 3µm |
Lens size |
1/2.3 inch |
1/4 inch |
How it works :
This OAK model doesn’t have an IR filter on mono cameras (the production version will have notch IR filters at 940nm), which allows only visible light and IR light from illumination LED/laser dot projector to the camera.
Laser dot projector projects many small dots in front of the device, which helps with disparity matching, especially for low-visual-interest surfaces (blank surfaces with little to no texture), such as a wall or floor. The technique that we use is called ASV- conventional active stereo vision - as stereo matching is performed on the device the same way as on OAK-D (passive stereo).
On the image below there’s a blank wall with no texture. Without the dot projector, (passive) depth perception is poor. With dot projector set to ~200mA the (active) depth perception looks much better. If you look closely at the bottom left frame, you can see little dots all around the wall.
Blanket IR LED illumination allows perceiving low-light and no-light environments. You can run your AI/CV processes on frames that are illuminated by the IR LED. Note that the color camera doesn’t perceive IR light, so you would need to use a mono camera stream for your AI/CV processes.
Getting started :
To get started with this OAK model, you first need to install depthai library version 2.15 or above. You can set IR laser dot projector and illumination LED via the API as below.
with dai.Device(pipeline) as device: device.setIrLaserDotProjectorBrightness(100) # in mA, 0..1200 device.setIrFloodLightBrightness(0) # in mA, 0..1500
You can set these two parameters in DepthAI Demo in the Depth tab:
Projector specifications :
Projector Specs |
Value |
---|---|
Dot projector |
Ams Belago1.1 Dot-Pattern Infrared Illuminator |
Number of dots |
4700 |
HFOI* 50% |
78 ± 7% |
VFOI* 50% |
61° ± 7% |
VSCEL wavelength |
940nm |
Operating temperature |
10°C to ~60°C |
Temperature absolute limits |
0°C to ~80°C |
FOI = Field of illumination. Also note that in datasheet, HFOI and VFOI are switched, that’s because we mount the Belago1.1 rotated as we want greater horizontal field, to match field of cameras.
Myriad X inside :
This OAK device has on-board Myriad X VPU ,
Main features:
4 TOPS of processing power (1.4 TOPS for AI)
Run any AI model, even custom architectured/built ones - models need to be converted.
Encoding: H.264, H.265, MJPEG - 4K/30FPS, 1080P/60FPS
Computer vision: warp/dewarp, resize, crop via Image manip node, edge detection,feature tracking. You can also run custom CV Functions.
Stereo depth perception with filtering, post-processing, RGB-depth alignment, and high configurability
Object tracking: 2D and 3D tracking with Object Tracker node
Auxiliary M8 connector :
Pin |
Function |
Additional information |
---|---|---|
1 |
AUX GPIO 3V3 |
3V3 auxiliary GPIO. Pull this pin high with 10k resistor at startup for USB boot. |
2 |
FSYNC ISO |
Isolated Frame synchronization input signal for cameras |
3 |
USB D+ |
USB 2.0 interface used as a host to control external devices. Could be used to connect to the device (eg. reflash), if USB boot is enabled (via GPIO 0). |
4 |
USB D- |
USB 2.0 interface used as a host to control external devices. Could be used to connect to the device (eg. reflash), if USB boot is enabled (via GPIO 0). |
5 |
VBUSIN |
This pin is used for sourcing 5V power to accessory devices connected to the M8 connector. If trying to boot the device in USB boot mode, this pin can also sink current. |
6 |
Strobe ISO |
Isolated Strobe output signal for cameras |
7 |
Isolated GND |
Isolated ground for Strobe/FSYNC |
8 |
GND |
Ground. |
Cameras also include an M8 connector cap for waterproofing in case the M8 connector wouldn’t be used.
Depth perception :
This OAK camera has a baseline of 7.5cm - the distance between left and right stereo camera. Minimal and maximal depth perception depends on camera FOV, resolution, and baseline.
Min perceivable distance: ~20cm (400P, extended), ~35cm (400P OR 800P, extended), ~70cm (800P)
Max perceivable distance: ~35 meters
Extended means that StereoDepth node has Extended disparity mode enabled.
Laser safety :
This product is classified as a Class 1 Laser Product under the EN/IEC 60825-1, Edition 3 (2014) internationally.
Do not power on the product if any external damage was observed.
Do not attempt to open any portion of this laser product.
Invisible laser radiation when opened. Avoid direct exposure to the beam.
There are no user serviceable parts with this laser product.
Modification or service of the stereo module, specifically the infrared projector, may cause the emissions to exceed Class 1.
No magnifying optical elements, such as eye loupes and magnifiers, are allowed.
Do not try to update camera firmware that is not officially released for specific camera module and revision.
Link related to OAK-D Pro PoE Auto Focus : Datasheet