As industrial and automotive processor power requirements evolve each year, the demand for system adaptability and higher performance is greatly increasing. Applications, such as factory automation,building automation, advanced driver assistance system (ADAS), and infotainment and cluster require high-performance power solutions. In addition, next generation processors require designers to select optimized PMICs to meet specific power and sequencing requirements. Often times, these requirements change throughout the design cycle so it is important to have a power solution that is flexible and scalable. TI's portfolio of FlexPower, multiphase PMICs provide an adaptable and robust solution.

programmed to power application-specific processors, such as, but not limited to, Jacinto™ processors, AWR/IWR radar sensors, and SitaraTM processors. In scenarios where custom application-specific settings need to be programmed into one-time programmable (OTP) default memory, contact your TI representative for more information on this programmability option. Since the FlexPower PMICs are smaller (2–4 rail) PMICs, they can be interfaced and combined with other FlexPower PMICs to expand the power rail count to the user's needed specifications, creating a distributed power solution. By being low rail count PMICs, FlexPower PMICs easily provide optimized solutions due to having no unused regulators.

What is FlexPower? 

FlexPower PMICs are flexible due to their ability to combine output buck converters to achieve higher output currents. Multiple FlexPower PMICs can also be stacked together to increase power-rail coverage, as shown in Figure 2. Each multi-phase FlexPower PMIC contains a pre-configured phase configuration with varying number of output rails to correspond with given voltage and current specifications. The phases of the LP8756x-Q1 can be combined to generate five different output combinations as shown in Figure 1.

With the I2C configurable versions of the FlexPower devices, output settings can be configured at start-up via I2C. These devices, such as the LP873x-Q1 and LP8756x-Q1 families, are programmed with output rails initially disabled and are software configurable through I2C interface. As a result, customers can select a phase configuration that best matches customer requirements, then program the output voltages, current limits, and power-up and powerdown sequence through the I2C communication at the device power using a local MCU. In addition to the I2C configurable option, TI released versions that are pre

Multiphase and Distributed Power Advantages 

Due to the multi-phase capability of the DC/DC regulators and the smaller rail count of each device, FlexPower PMICs enable designers to adapt to their changing requirements by combining or separating various FlexPower PMICs depending on the application requirements. This reduces the potential of having unused regulators, ensuring a cost-optimized solution, no matter what the power requirements are. Multiple FlexPower PMICs can be combined to meet the exact needs of a SoC power requirement, without the need to implement an external sequencer or external fault monitor.

By providing a distributed power solution, FlexPower PMICs help distribute thermals on the board. Traditional PMICs are highly integrated and, therefore, dissipate the heat of six or more regulators in the same package. In this case, the concentrated thermal dissipation may conflict with neighboring components, potentially hindering the overall system performance or capability. FlexPower PMICs resolve