PMIC for system in package multicore processors

December 09, 2019 //By Nick Flaherty
The STPMIC1 includes four DC-DC buck converters, a boost DC-DC converter and six low-dropout regulators (LDOs) for the ST32MP1 application processors from STMicroelectronics.
The STPMIC1 includes four DC-DC buck converters, a boost DC-DC converter and six low-dropout regulators (LDOs) for a system-in-package with the ST32MP1 application processors from STMicroelectronics.

STMIcroelectronics has launched a power management IC (PMIC) for multiple cores in its latest microprocessors.  

The STPMIC1 PMIC includes four DC-C buck converters, a boost DC-DC converter and six low-dropout regulators (LDOs) to power the single or dual Arm Cortex-A7 and Cortex-M4 cores, 3D graphics processing unit and rich digital and analogue peripherals in the ST32MP1 application processors.

As well as saving board space and BOM cost compared to arranging the same number of power rails using discrete components, the PMIC also provides power-rail monitoring and protection, handles power-up/down sequencing, and meets the ST32MP1 accuracy and settling-time specifications.

THis has allowed ST partner Octavo Systems to use the STM32MP1 and STPMIC1 to create the OSD32MP1x family of microprocessor system-in-package (SiP) devices, which occupy a footprint up to 64 percent smaller than an equivalent system implemented with discrete components. “The STPMIC1 is the perfect power-manageent solution for the OSD32MP1x family of system-in-package devices. With a single power input and 14 output rails including a 5V boost, it provides all the power needed for the STM32MP1 microprocessor while still providing plenty of options to power the rest of the system giving our SiP, which is packed in a tiny 18mm x 18mm package, the flexibility to support a wide range of applications,” said Greg Sheridan, VP of Strategy at Octavo Systems.

In addition to supplying power rails for the microprocessor unit (MPU) and external system components, the STPMIC1 also provides a DDR memory reference voltage, a 500mA USB OTG power switch, and a general-purpose power switch. An I2C interface and additional pins allow the MPU to manage the PMIC.

The four buck converters in the PMIC are designed for fast transient response and precise output-voltage control to handle a wide range of operating conditions. A pulse-frequency modulation mode boosts energy efficiency at low loads. During normal operation, pulse-width modulation (PWM) synchronization minimizes electro-magnetic interference (EMI). The boost converter, with bypass-mode capability, can power up to two USB ports and ensures smooth regulation either


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