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Even big customers build their products based on our Arducam Chip solution and reference design. Our customers use them with Cortex-M series ARM, TI MSP430, and Altera/Xilinx FPGA as well. We also ported this camera for use on the ESP8266 and ESP32 platforms. In addition to the Arduino platform, the Arducam SPI cameras can be used with any processor, such as MCU,ARM,DSP or FPGA etc. The image sensor full resolution frame rate is fairly low, so to prevent blurring, the camera must be held still when taking an image, and not of a fast-moving scene. The cameras are basically designed for still images, but they also support short video clip recordings for few seconds based on the on-board big frame buffer. Safe) in this case, our cameras makes video security possible with a veryĭue to the SPI bandwidth and micro-controller processing power limitation, there are some limitations. News, I don’t think so …” – he really believes what he sees is accurate (and One of our customers says “No news is good
Periodic intervals, others install camera modules to their battery poweredĭevice for wildlife photography (even adding more cameras to one controller to IoT personal projects – some send pets images to their twitter account at Thanks to the flexibility of the SPI bus, it extends the usefulness of the SPI camera – it allows users to add multiple cameras to a single micro controller and take photos simultaneously.
These SPI cameras are general-purpose solutions, not limited to the Arduino platform, but can be used on any hardware platforms that have the SPI and I2C interfaces. Since then, the ArduCam SPI cameras fill the gaps missing in the Arduino camera community. The Arducam team invented the world’s first high resolution SPI camera solution for Arduino in 2012.