This chip has a 64bit RISC-V Dual Core CPU. The heart of the HuskyLens is the powerful Kendryte K210 microcontroller. The HuskyLens comes with a silicone cover (with “Husky ears”) and a mounting bracket. The microSD card can be used to store images, it can also store The HuskyLens also has a microSD card slot. If both power sources are connected, the USB power will be used. Power for the HuskyLens can be provided through either the two power pins on the 4-pin JST connector or with a microUSB connector. The 4-pin JST connector on the board is used for both protocols, and the device can either be set for one or can auto-detect the protocol on its own.ĭFRobot provides a JST cable with four female DuPont pins on the other end, to simplify connecting the HuskyLens to a microcontroller or microcomputer.
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The HuskyLens can communicate with your microcontroller or microcomputer using either I2C or a serial UART connection. The module itself measures 52mm x 44.5mm. The display on the HuskyLens is a 2-inch IPS screen with a resolution of 320 x 240 pixels. At 3.3-volts they consume an average of 320mA, whereas operation under 5-volts consumes 230ma (both figures quoted in face recognition mode). The devices can be used with either 3.3-volt or 5-volt power. Features & Specificationsīoth models of the HuskyLens have similar specifications. The HuskyLens that I am using is the 2 MP camera model. The HuskyLens is available in two versions, the only difference between the two is the video sensor, which determines the resolution of the camera: It is now for sale on the DFRobot website, as well as through many electronics distributors (I purchased mine at DigiKey). HuskyLens was brought to life as a Kickstarter campaign in 2020. This device is ideal for a number of image recognition and tracking applications.
It has both a camera and a small color display and can be used as a stand-alone product or as a peripheral for a microcontroller or microcomputer. The board we are going to examine today, the HuskyLens, is similar to the Pix圜am, but much more powerful. This little board has an onboard camera and was capable of simple image recognition and line following, among other features. We have already looked at a machine vision product, the Pix圜am. I have a few of those solutions to share with you and the first one, which is presented here today, is a very cool product from DFRobot called the HuskyLens.
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