The Phase Shifted Full Bridge (PSFB) has always been considered the best design for high power DC/DC conversion. However, a newer technology called Full Bridge LLC (FB-LLC) has recently been used and accepted for high power DC/DC conversion. In this 3 part series, we will go in-depth in discussing the pros and cons of both the PSFB and FB-LLC. We will then compare the basic problems between the PSFB and FB-LLC and give ideas on how to choose between the two given a certain application. Lastly, we will review some Reference Designs.
In this 3 part series, we will discuss PCB Layouts for Switched Mode Power Supplies. The purpose of these videos will be to give the designer some insight into the issues that need to be considered when laying out a PCB. Topics that will be discussed in these videos include schematic diagrams, parasitic components formed in a PCB layout, effects on EMI, and examples of real TI reference designs.
Watch this video to hear from Akio Nishida, Power Module expert from Murata and Tomomasa Emoto, GaN technology expert from Texas Instruments - on how GaN is enabling the future of power electronics.
Learn common design applications, as well as previous obstacles faced in GaN design that are now being addressed. To start your design, visit ti.com/GaN.
DC/DC Power Modules are best known for being compact, highly-integrated power supply design options. This training series examines some of the lesser-known advantages of TI power modules:
- How do Power Modules simplify power supply design?
- Inductor withstand voltage
- High temperature storage testing
Download presentation and view recorded sessions from 2018 Battery Management Deep Dive technical training.
The topics will cover system design issue and solution for Building Automation, Power Delivery and Test & Measurement. TI experts introduce the latest technology and innovation system reference design. Discover ways to enhance the time-to-market and create safer and efficient industrial systems.
This is a qualitative overview of the control of Switched Mode Power Supplies.
Engineer It is an educational, “how-to” video series where TI experts provide customers with fundamental knowledge and solutions to overcome design challenges. Here, you can learn how to spin your motor in minutes, avoid amplifier input/output swing limitations, test and isolate power supplies and more from industry experts.
There are quite a bit of system considerations to design a wearable display. We designed this training based on the questions that product development managers, product marketing managers, and systems engineers are asking themselves about this attractive application.
Series discusses provides an introduction and subsequent details on how to power the PMBUS.
TI has a variety of both analog and digital sequencers and system health monitors used in a wide variety of applications. Our analog LM388X sequencers are simple to use and easy to design with, to ensure systems consisting of 3 to 9 rails are powered up and powered down in the proper order. The UCD90XXX family of PMBus / I2C addressable digital power supply sequencers are for more complex systems, and enable sequencing up to 32 rails (or more when devices are cascaded).
EMI (electromagnetic interference) mitigation is a critical step in the design process in most electronic systems, and especially so in the automotive world. In many cases, automotive OEM emissions requirements are even more stringent than both national and international standards bodies like the FCC. Unfortunately, by their nature, switching regulators are sources of EMI; but, in order to keep power supply designs small and efficient, switchers are a critical component. So how can you reap the benefits of a switching regulator while still meeting challenging EMI requirements?
Battery life cycle is a key for high-cell-count battery pack-based end-equipment. Low quiescent current (Iq) consumption of DC-DC converters is a major feature that helps achieve longer battery life cycles. TI’s latest buck converters boast low Iq consumption as they maintain high efficiency in the active mode (heavy loads) as well as extend battery life during standby modes. This training will cover an overview of battery powered industrial applications and the specific power consumption requirements for these end equipments.