HM01B0 QVGA Monochrome DVP Camera Module for Arduino GIGA R1 WiFi Board
Low light sensitive, ultralow power consumption, simple interface, compatibility with Arduino libraries, suitable for battery-powered and energy-efficient applications.
Overview
This camera is based on HM01B0 QVGA monochrome rolling shutter image sensor. The sensor is an Ultra Low Power Image Sensor designed for Always-on vision devices and applications. With high light sensitivity and on-chip self oscillator, you can get better image quality under diifferent light conditions.
The low power consumption camera module is equipped with a 60°(D) stock Lens. It supports RAW6/8 output format. The standrad operating temperature is between -30~85℃, with the stable Image temp. between 0~50℃.
It is fully compatible with Arduino GIGA R1 WiFi board, a professional-grade microcontroller development board recently launched by Arduino. Seamlessly integrates with our camera module, unlocking versatile image capture and processing capabilities. Harness the power of Arduino GIGA R1 WiFi and gain a competitive edge in your projects.
Features:
- Cost-Effective: Affordable solution for implementing visual capabilities in cost-sensitive projects.
- Compact Size: Compact form factor enables integration into space-constrained applications.
- Simplify Embedded Vision for All: Easy to set up and operate. Making it possible to add machine vision to your GIGA R1 board without much effort at all.
- High Sensitivity: High low-light sensitivity 3.6µ BrightSenseTM pixel technology. With on-chip self oscillator.
- Ultralow Power Consumption: Efficient power usage, making it suitable for battery-powered and energy-efficient applications.
Tech specs
Image Sensor | HM01B0 |
Resolution | QVGA |
Optical Size | 1/11” |
Number of effective pixels | 320(H) × 320(V) |
Pixel Size | 3.6μm × 3.6μm |
Support Platform | Arduino GIGA R1 WiFi Board |
Shutter Type | Electronic Rolling Shutter |
Color Filter Array | Monochrome |
Frame Rate | 320×240/160×120@30fps |
Output Format | RAW8 |
F.NO | 2.8±5% |
Focus Type | Fixed Focus |
Focal Length | 1.47mm |
Field of View(FOV) | 60°(D) |
Power Supply | AVDD: 2.8V; DOVDD: 1.8V; DVDD: 1.5V |
Operating Temperature | -30~85℃ |
Camera Board Size | 30.5mm x 30.5mm |
Documentation
Get Inspired
A simple BlueTooth (BLE) remote controller for the Arduino Alvik robot, implemented in MicroPyhton
The brand new Nano Screw Terminal Adapter turns up the speed on your prototyping efforts by giving you a fast, reliable way to hook up your boards. This awesome add-on is exactly what seasoned makers have been crying out for, and is now available from the Arduino Store. Let’s take a look at this mini mechanical marvel. A solderless solution With a finished project, you’re likely to make permanent connections to your Nano by soldering it. Even if you’re connecting it using a header strip, the wires, components, sensors and accessories will be soldered, crimped or attached in a permanent way to the controller side of your project. It makes perfect sense to do this, when you’re looking for a reliable connection. The trouble with permanent connections like this is that they’re… well, permanent! Soldering and de-soldering during the design and prototyping stage can become a real chore. And it’s not good for the components or the board itself, either. The Screw Terminal Adapter is what you need. It’s something we’ve been asked for a lot, giving people a way to make robust, fast, easy connections that can be changed just as easily. Easy access to all I/Os The Nano Screw Terminal Adapter features a double row of headers. The Nano drops into the two inner rows, giving you a second, outer set that lets you connecting using jumpers, wires or what have you. Then you have a third row of connectors on either side of the adapter with a screw terminal for each pin. The perfect way to connect wires or components in a reliable, but easily changeable way. It’s never been easier to develop and design a project that with these connection options. There’s even a 9x8 prototyping area with through plated holes for adding extra components, connections or accessories. Of course, this doesn’t have to only be for prototyping. The screw terminal is a long-established, trusted connection option, so there’s no reason it can’t become a