Hign-concerned Chemical : None
Package : DIY Module
Model Number : AHT10
Dissipation Power : ...
Supply Voltage : 1.8 - 6.0 V
Application : Computer
Type : Module
Operating Temperature : -40℃~+80℃
Origin : China
Condition : New
Functions : Electronic Module
Range of application : Switch And Sensor For Arduino STM
After receiving this module, please place it in an environment with humidity greater than 80% for 12 hours to ensure accuracy recovery.
Aarduinos library file: https://github.com/Thinary/AHT10
Specifications and code links: https://pan.baidu.com/s/1fqoUHHdF3yRc56LOpkKlDg extraction code: PGSF
The AHT10, a new generation of temperature and humidity sensors, sets a new standard in terms of size and intelligence: it is embedded in a two-row flat pin-less SMD package suitable for reflow, with a base of 4 x 5mm and a height of 1.6mm. The sensor outputs a calibrated digital signal in standard I 2C format. With a newly designed ASIC dedicated chip, an improved MEMS semiconductor capacitive humidity sensor and a standard on-chip temperature sensor, the AHT10's performance has greatly improved and even exceeded the reliability level of the previous generation of sensors, and the new generation of temperature and humidity sensors have been improved to provide more stable performance in harsh environments.
Features:
1. Module size: 16*11 mm
2. Interface type: I2C
3. Working voltage: 1.8-6.0V
4. Interface size: 4*2.54mm spacing
5. Humidity accuracy: typical ±2%
6. Humidity resolution: 0.024%
7. Temperature accuracy: typical ±0.3℃
8. Temperature resolution: typical 0.01℃
9. Working temperature: -40℃--85℃
The line layout is compact and regular, with good electrical insulation and mechanical stability, and can maintain stable performance under different temperature and humidity environments to ensure accuracy and reliability.
In circuit design, carefully planned lines are like precision transportation networks, and lines of different widths and spacings undertake different currents and signals transmission tasks respectively. The key signal lines are impedance matching processing, which greatly reduces signal reflection and attenuation and ensures the stable transmission of high-frequency signals.
All kinds of electronic components are soldered on the circuit board, and the solder joints are full, round, and firm and reliable. Core components like chips are perfectly connected to the circuit board through fine packaging processes to achieve high-speed data processing and interaction.
This circuit board has a wide range of responses in many fields. Whether in the industrial control field that requires extremely high stability or consumer electronics field that pursues extreme performance, it can provide solid guarantees for the stable operation of the equipment with its excellent design and reliable performance, and help various electronic devices play a powerful role.
