I2C IIC 8 Channel Logic Level Converter Module Bi-Directional Module Step Up 3.3V To 5V

Hign-concerned Chemical : None Package : DIP

Model Number : 8 Channel Logic Level Converter Module Dissipation Power : 1 Supply Voltage : 1 Application : Computer Type : Voltage Regulator Operating Temperature : -40-+85 Origin : China Condition : New

I2C IIC 8 Channel Logic Level Converter Module Bi-Directional Module For Arduino Step Up 3.3V To 5VDescription: If you've ever tried to connect a 3.3V device to a 5V system, you know what a challenge it can be. The bidirectional logic level converter is a small device that can safely reduce a 5V signal to 3.3V while boosting 3.3V to 5V. This level converter is also suitable for 2.8V and 1.8V devices. The difference between this logic level converter and our previous versions is that you can successfully set high and low voltages and safely raise and lower them on the same channel. Each level converter has the ability to convert 4 pins on the high side to 4 pins on the low side, where two inputs and two outputs are provided for each side The level converter is very easy to use. The board needs to be powered by the two voltage sources used by the system (high voltage and low voltage). High voltage (e.g. 5V) to the "HV" pin, low voltage (e.g. 3.3V) to the "LV", ground from the system to the "GND" pin Compatible with 5-3V systems The VIN is connected to the 5V system power supply 5A connects to the 5V system 5B Connects to the 5V system GND Connects to the GND of the 5V system 3V3 Connects to the 3V system power supply 3A Connects to the 3V system 3B Connect the 3V system GND Connects to the GND of the 3V system Dimensions: 28 x 19mm / 1.1 x 0.74 inches Quantity: 1pc The package includes: 1 x 8 channel IIC I2C logic level converter module

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.