Comparing Pivariety Camera and Raspberry Pi Camera.Arducam 64MP Synchronized Quad Camera-Troubleshooting.How To Use Arducam 64MP Camera On Rapberry Pi.Controlling Raspberry Pi Cameras with Your Smartphone (Android).Solution Of Using Autofocus Camera On OctoPrint.How To Use Arducam 16MP Camera On Rapberry Pi.Picamera2 with Arducam V1/V2/HQ/16MP-AF/64MP-AF/Pivariety Cameras (Guide).Introduction to Arducam for Raspberry Pi.Do you have any of these cameras? What do you think? Post a comment down below. We hope this information helps you chose the best camera and setup for your projects. In this post Julian compared several cameras for the Raspberry Pi. You will need to use an adaptor cable if you use it for the Raspberry Pi Zero. It is available in standard and IR versions. The Raspberry Pi camera V2 module is very good indeed. Additionally, the more pixels the better. If you do not need wide angle (fisheye) then IR flood lighting may suffice for your application. So if you need wide angle you will need conventional flood lighting at night. Unfortunately it seems to be a trade off as there don’t seem to be any wide angle (fisheye) cameras with the IR filter removed. ConclusionsĪll the cameras performed better than expected. The best results were obtained with the 10W white floodlight, following the 5W IR floodlight. The best result was for the RPi Camera V2 Noir – picture shown below.Ĭonclusion: trying to see anything further than 5 meters at night with any camera will be a challenge and require significant artificial lighting. With the 10W white floodlight turned on, the IR cams picked up a small 5x5cm flag at 10m away, at the center. All cameras performed awfully in this test. The best result was for the RPi Camera V2 Noir – picture shown below. With just the 4W IR floodlight turned on, the IR cams picked up some vague detail 3-4m away. All cameras performed awfully in this test. With no artificial lighting and with a bright moon overhead, the cameras picked up nothing. The following figure is the control picture, taken during the day. The tiny white dot in centre is 10 meters away. The figure below shows the test lighting setup – the 4W IR floodlight at the right, and the 10W white floodlight at the left. with a 10W white floodlight. The moon was half lit and overhead to help. I just wanted to see how far the cameras would work under various lighting conditions at night: 1. ZeroCam Noir Night Vision in Several Light Conditions Here are the results for the night vision: All cameras are mounted 1 meter away from the test card.įor this test I used the same test card distanced at 1 meter, but in complete darkness except for a 4W IR floodlight reflecting into a white ceiling to give an IR glow, as the one shown in the figure below. Raspberry Pi compatible Fisheye camera from eBay In this test, all cameras are mounted 1 meter away from the test card. It features a 5 MP OmniVision OV5647 sensor. The Raspberry Pi Camera 1.3 is the predecessor of the V2 module. This means it is the perfect camera to see in the dark with infrared light. The Raspberry Pi Camera V2 Noir has all the features of the V2 module, but it has no infrared filter. If you want to learn how to use the Raspberry Pi Camera V2 module, you can read our guide here. The camera is compatible with all Raspberry Pi boards, but if you want to use it with the Pi Zero, you need an adapter cable. The Raspberry Pi Camera V2 features an 8 megapixel Sony IMX219 image sensor with fixed focus lens, it is capable of 3280×2464 pixel static images and supports 1080p30, 720p60, and 640×480p90 video. This is a Raspberry Pi compatible camera from eBay. Raspberry Pi compatible fisheye camera from ebay This camera is also made for the Pi Zero or Pi Zero W, so to use it with another Pi board, you need an adapter cable. This is the Fisheye version of the ZeroCam, which means it has a wide angle image – read “Field of View Comparison” section to compare the pictures. dimensions of circuit and camera: 60 x 11.4 x 5.1mm
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