SGEA001A
December 2019 – April 2021
SN74LVC1G125-Q1
Trademarks
1
Block Diagram
2
Optimizing Gate Driver Control and MCU Communication
3
Logic and Translation Use Cases
3.1
Logic Use Cases
3.1.1
Increase Drive Strength
3.1.2
Gate Driver Control
3.1.3
Low-Power CAN Wake
3.2
Voltage Translation Use Cases
3.2.1
Non-Isolated SPI Communication
3.2.2
Non-Isolated UART Communication
4
Recommended Logic and Translation Families for On-Board and Wireless Chargers
4.1
LVC: Low-Voltage CMOS Logic and Translation
4.2
HCS: Schmitt-Trigger Integrated High-Speed CMOS Logic
5
Revision History
3.2.2
Non-Isolated UART Communication
Figure 3-5
Using Voltage Translation with UART Communication
Enable communication when devices have mismatched logic voltage levels
Prevent damage to devices that cannot support higher voltage inputs
Improve data rates over discrete translation solutions
Protect the controller while peripheral is not connected
See
online parametric search tool
to find the right voltage level translator