Transformer drivers
Compact, customizable and cost-effective transformer drivers
Our small-form-factor push-pull transformer drivers provide a simple power-supply alternative to integrated, isolated power solutions with low electromagnetic interference (EMI). Designed to drive small-form-factor center-tapped transformers, our transformer drivers offer highly efficient, customizable and flexible design options to help reduce system costs and improve reliability, supporting automotive HEV/EV applications that require size-sensitive or low-emission devices and grid infrastructure applications that produce high system noise.
Technical resources
Application brief
How to Isolate Signal and Power for an RS-485 System (Rev. C)
Learn how to make a compact design for signal and power isolation with a 3.3-V or 5-V input and a 12-V or 15-V output.
Application brief
How to Isolate Signal and Power for an RS-485 System (Rev. C)
Explore a variety of methods to isolate signal and power for different RS-485 compact-design solutions.
Resource
HEV/EV traction inverter power stage
Jumpstart your single-phase power-stage design for a traction inverter with this reference design featuring three ways to configure your isolated bias-supply.
Design & development resources
Reference design
HEV/EV traction inverter power stage with 3 types of IGBT/SiC bias-supply solutions reference design
This reference design presents a traction inverter single-phase power stage with three 12-V car battery inputs, 4.2-W bias supply solutions for hybrid electric vehicle and electric vehicle (HEV/EV) systems. All bias-supply solutions accept a wide input range of 4.5 V to 42 V DC from a 12-V car (...)
Reference design
Communication Module Reference Design for Functional Isolated RS-485, CAN and I2C Data Transmission
The TIDA-01281 reference design is low cost, high efficiency, isolated RS-485, I2C & CAN communication module solution intended for use in industrial systems such as Uninterruptable Power Supplies (UPS) and energy storage banks that require isolated communication and isolated power for (...)