DTH I2C (InT, InHum - short run, no light cover) - Link4 Corporation

The DTH I2C sensor is a compact and versatile device designed for temperature and humidity monitoring. It offers a space-efficient solution for integration into various systems and environments. This sensor supports a wide voltage range from 2.4V to 5.5V, ensuring compatibility with different setups. Additionally, its high-speed communication capability of up to 1 MHz facilitates efficient data transfer. With superior signal processing, the sensor provides accurate and reliable data for precise temperature and humidity measurements. Its compact design allows for easy installation in tight spaces, optimizing spatial constraints in applications where space is limited. Its compatibility and high-speed communication make it suitable for a wide range of systems and applications. The sensor's ability to deliver real-time, accurate data contributes to improved system performance, efficiency, and productivity.

Specifications:

• Part Number: 990-0001-I2C
• Product Name: DTH I2C (InT, InHum -- short run, no light cover)
• Type: Sensor
• Inputs: 1x input, I2C

Features:

• The sensor boasts a compact footprint of 2.5 x 2.5 mm and a height of 0.9 mm, allowing for space-efficient installation.
• With support for voltages ranging from 2.4V to 5.5V, the sensor ensures compatibility with a variety of systems and applications.
• Capable of high-speed communication up to 1 MHz, facilitating efficient and rapid data transfer.
• Delivers precise and reliable data, ensuring accuracy in temperature and humidity monitoring tasks.
• Offers the flexibility of two user-selectable I2C addresses, allowing for customization and ease of integration.
• Seamlessly integrates into diverse systems and applications, making it an adaptable solution for modern sensing requirements.

This sensor is suitable for a wide range of applications where accurate temperature and humidity monitoring is essential. Its compact design, wide voltage range, and high-speed communication capabilities make it an efficient and reliable choice for diverse sensing requirements.