Description:
The 8-channel Bi-Directional Logic Level Converter Module is an essential tool for seamlessly interfacing devices operating at different logic voltage levels. This compact module facilitates safe and reliable voltage translation, enabling communication between 5V systems and lower voltage devices such as those operating at 3.3V, 2.8V, or 1.8V. Unlike traditional level converters, this module boasts true bi-directional functionality, allowing simultaneous step-down and step-up conversions on the same channel.
This eliminates the need for complex wiring and simplifies integration into mixed-voltage systems. Featuring eight independent channels, each capable of converting four high-side pins to four low-side pins, this module provides ample capacity for complex projects. Each channel includes dedicated high-voltage (HV) and low-voltage (LV) inputs, along with corresponding ground (GND) connections, ensuring straightforward setup.
Powering the module is simple: connect your high-voltage source (e.g., 5V) to the ‘HV’ pin, your low-voltage source (e.g., 3.3V) to the ‘LV’ pin, and your system ground to the ‘GND’ pin. This module is ideal for applications involving I2C, SPI, and other serial communication protocols, ensuring robust and error-free data transfer.
Specifications:
- No. of Channels: 8
- Material: Plastic and Metal
- Input Voltage (V): 3.3 ~ 5
Features:
- Colour: Red and Yellow.
- Portable, small, easy to use.
- Comes with 2 rows of 6 pin, unsoldered.
- A compatible breadboard can be directly inserted into the breadboard.
- It can bidirectionally transfer with 8 channels between high logic voltage and low logic voltage.
Note:
- For example High voltage: 5V, low voltage: 3.3V
- HV connect 5V power supply
- LV connects a 3.3V power supply
- GND connects negative, two power supply commons
- LVx input and output are 3.3V TTL, HVx input and output are 5V TTL, LVx and TVx bidirectional transfers.
Package Includes:
- 1 x 8 Channel Bi-Directional Logic Level Converter Module.
- 2 x 1x10 pin Burg Connector.