Overview
Different from traditional analog light sensor, as Grove - Light Sensor, this digital module features a selectable light spectrum range due to its dual light sensitive diodes: infrared and full spectrum.
You can choose among three detection modes when taking your readings. There is infrared mode, full spectrum and human visible mode. When running under the human visible mode, this sensor will give you readings within the range of light spectrum that the eye can pick up.
Features
-
Selectable detection modes
-
High resolution 16-Bit digital output at 400 kHz I2C Fast-Mode
-
Wide dynamic range: 0.1 - 40,000 LUX
-
Wide operating temperature range: -40°C to 85°C
-
Programmable interrupt function with User-Defined Upper and lower threshold settings
Tech specs
Specifications
Items |
Min |
Typical |
Max |
Unit |
Supply voltage, VDD |
3.3 |
5 |
5.1 |
V |
Operating temperature |
-30 |
\ |
70 |
℃ |
SCL,SDA input low voltage |
-0.5 |
\ |
0.8 |
V |
SCL,SDA input high voltage |
2.3 |
\ |
5.1 |
V |
Get Inspired
Exploring the digital twin synthetic data generation and AI-oriented advancements on real-world shipping operations w/ NVIDIA Omniverse.
The primary appeal of microcontrollers is their versatility. They are, essentially, the embedded equivalent of computers — general purpose devices that can perform a wide range of functions. And to get the most out of a microcontroller, you’ll also want connectivity suitable for your application. That’s why we released the Arduino Nano Matter and YouTuber Mr Innovative has shared a great video illustrating how easy it is to build an energy meter using this new development board. The Nano Matter is based on the powerful Silicon Labs MGM240S, which has an Arm Cortex-M33 processor and support for a number of wireless connectivity options, including 802.15.4 (Zigbee and Thread), Bluetooth® Low Energy 5.3, Bluetooth® Mesh, and Matter. That makes the Nano Matter perfect for smart home and other Internet of Things applications. To demonstrate that, Mr Innovative created an energy meter that would be useful to many people around the world. This unit monitors the power flowing to any device or appliance connected to mains AC power. It displays information about that power consumption on a small OLED screen, and also sends the data over Bluetooth to a connected smartphone for logging. The Nano Matter can’t monitor mains AC voltage directly, so Mr Innovative used a ZMCT103C current transformer for the job. The Arduino receives its power from a 9V battery and the components fit inside a 3D-printed enclosure. A printed sticker label gives that a nice, smooth top finish.