Make power easy. TI's power modules integrate both active and passive components of a power design into a single package. The integration of these functions allows our power modules to be simpler and more efficient than standard discrete solutions, while still capable of delivering plenty of power.
Why choose our power modules
Low noise and reduced EMI
Our portfolio of reduced-noise power modules help enable easier EMI compliance, accelerate time-to-market and deliver cleaner, more reliable system performance.
System efficiency
TI's advanced packaging technology improves thermal performance, reducing power losses and extending product lifespan.
Easy to use
Enhanced integration reduces component count and delivers a full system-in-package, simplifying your design.
Smaller solution size
Power modules with smaller footprints and higher power density than discrete solutions free up board space without sacrificing performance.
View our broad portfolio of power modules
The simplest and smallest option for DC/DC voltage conversion
TI's broad portfolio of power modules with integrated inductors and innovative packaging technology, like those that utilize our MagPack™ package, help solve board space constraints while delivering high performance.
- Reduce overall solution size with component integration to maximize power density.
- Simplify the design process with easy-to-use, highly integrated devices.
- Enable lower EMI levels for cleaner, more reliable performance.
Exploring the value of power modules
MagPack™ technology: Four benefits of new power modules that can help you pack more power in less space
Power module package types and their benefits
Featured products for DC/DC power modules
Integrated isolation for safer power delivery
Our new portfolio of isolated power modules using the proprietary IsoShield™ technology packs up to three times the power density of discrete solutions. This enables more compact and robust power supply designs for automotive and industrial applications requiring basic or reinforced isolation.
- Reduce footprint size to maximize power density for isolated designs.
- Attain higher levels of safety, reliability, and system robustness.
- Improve efficiency and reduce temperature rise compared to existing modules.
- Cut design time with highly integrated devices.
Power Through the Isolation Barrier: The Landscape of Isolated DC/DC Bias Power (Rev. A)
Time-Saving and Cost-Effective Innovations for EMI Reduction (Rev. A)
Addressing High-Volt Design Challenges w/ Reliable and Affordable Isolation Tech (Rev. C)
Featured products for isolated power modules
Powering the latest processors for data centers
TI’s latest addition to the multiphase power portfolio helps address the rapid increase in processing power required by modern data centers, driven by the growing computational demands of AI. These power modules integrate power stages and inductors into a single solution to deliver higher power density.
- Maximize power density compared to discrete power stage and inductor based solutions.
- Follows the industry common footprint to support multisourcing.
- Integrated trans-inductor voltage regulator (TLVR) options available for improved transient performance.
Featured products for multiphase power modules
Maximize power density and efficiency with GaN
Integrated GaN power modules deliver greater than 99% inverter efficiency, significantly enhancing thermal performance and minimizing power loss.
- Advanced integration and increased power density enable a smaller solution footprint and reduce system-level costs.
- Minimize dead time and propagation delay to limit current harmonics and support more precise current sensing.
- Zero-reverse recovery and comprehensive protection features optimize power efficiency, boosting system reliability.
How Three-Phase Integrated GaN Technology Maximizes Motor-Drive Performance
48v 1kw robot joint motor control with industrial communication reference design
Innovations
Power modules
package
The industry's smallest isolated bias supply solution
IsoShield multichip packaging technology delivers up to three times the power density of discrete solutions, enabling more compact system designs. Its high-performance architecture paired with integrated isolation ensures enhanced safety and robustness in demanding applications. Multiple isolation options provide flexibility to meet diverse regulatory and operational requirements.
Industry's first integrated GaN FET IPM for motor control applications
Our integrated GaN technology delivers more than 99% inverter efficiency, improving thermal performance and minimizing power loss. Advanced integration enables a smaller footprint and reduces system costs. Additionally, ultra-low dead time improves acoustic performance and current sensing while maximizing efficiency and extending motor-drive lifetimes.
technology
Pioneering new integrated inductor packaging
Power modules with MagPack technology are up to 50% smaller than previous generations and further reduce EMI. This enables best-in-class power density and improved performance, all made possible by a magnetic packaging architecture that integrates a power inductor with proprietary engineered material.
Find answers to common questions
Where are TI's power modules manufactured?
Our power modules are manufactured and assembled in-house across the world, from Texas to the Phillipines. Through owning the entire manufacturing process, we help ensure a stable and certified supply of power modules you can rely on for your next project.
How is a power module different from a discrete power solution?
Power modules integrate different variations of components generally found in full discrete solutions. These components include a controller, MOSFETs, and other key passives like resistors, capacitors, inductors and transformers. By integrating many of these into a single pre-optimized device, power modules reduce component count and layout tuning, streamlining your design.
Which applications benefit most from power modules?
TI power modules are optimized for systems that demand highly dense and efficient power delivery. These applications include AI data centers, automotive traction inverters, household appliances, test and measurement devices, energy infrastructure equipment and more.
Can TI's power modules support multirail systems?
Yes, many of our power modules have multiple output rails. This alongside a simplified layout makes these devices highly capable for complex systems with various voltage requirements.
How do power modules improve structural reliability?
Integrated designs reduce solder joints, routing parasitics, and component mismatch - increasing robustness and long-term system stability.