A power management integrated circuit (PMIC) is used to manage power on an electronic devices or in modules on devices that may have a range of voltages. The PMIC manages battery power charging and sleep modes, DC-to-DC conversion, scaling of voltages down or up, among others. Low-dropout regulators (LDO), pulse-frequency modulation (PFM), pulse-width modulation (PWM), power FETs, and real-time clocks (RTC) may be found on PMICs.
Price Unit: 1000 PCS (1 KPCS)
PMIC holds the role of the “voltage converter” that converts voltage from the battery or power source. It adjusts, coordinates, and distributes suitable voltage power to each component of the electrical circuit.
PMIC handles the voltage sequencing of the power system, provides power to various loads, and protects against overvoltage, undervoltage, overcurrent, or other thermal issues. Thus, the PMIC chip enhances higher efficiency in energy management, limiting damages, and extending batteries’s lifespan in electronic devices.
PMIC’s power management scope is relatively broad, including power conversion (DC-DC, AC-DC, DC-AC), distribution and detection of power voltage, battery protection and charging, LED control, etc. Therefore, PMIC is classified into various types based on their applications and functions.
An electronic system can be powered directly from an alternating current (AC) source powered by a battery.
The implementation of Power Management Integrated Circuit (PMIC) in this modern day is highly flexible, serving multiple or even all voltage regulation, functions with just a single PMIC chip. These versatile PMICs are created by connecting standardized regulators/IPs, flexibly adjusted to suit various applications. This allows for saving design costs and reducing time to market.
Furthermore, along with the driving trends of going green, consumers and businesses are now demanding for energy-saving products, minimizing environmental impact, and reducing carbon emissions. In other words, this also means that the demand for energy-efficient electronic products is predicted to increase rapidly, making optimal energy management an important and sought-after factor in the semiconductor industry.
With the advancements in this ever-changing technology industry, PMIC chips are becoming smaller and smaller, more energy-efficient, and integrating more functions. Various semiconductor enterprises are now focusing on researching and developing advanced chip lines to meet the growing global market demand.
Price Unit: 1000 PCS (1 KPCS)
PMIC holds the role of the “voltage converter” that converts voltage from the battery or power source. It adjusts, coordinates, and distributes suitable voltage power to each component of the electrical circuit.
PMIC handles the voltage sequencing of the power system, provides power to various loads, and protects against overvoltage, undervoltage, overcurrent, or other thermal issues. Thus, the PMIC chip enhances higher efficiency in energy management, limiting damages, and extending batteries’s lifespan in electronic devices.
PMIC’s power management scope is relatively broad, including power conversion (DC-DC, AC-DC, DC-AC), distribution and detection of power voltage, battery protection and charging, LED control, etc. Therefore, PMIC is classified into various types based on their applications and functions.
An electronic system can be powered directly from an alternating current (AC) source powered by a battery.
The implementation of Power Management Integrated Circuit (PMIC) in this modern day is highly flexible, serving multiple or even all voltage regulation, functions with just a single PMIC chip. These versatile PMICs are created by connecting standardized regulators/IPs, flexibly adjusted to suit various applications. This allows for saving design costs and reducing time to market.
Furthermore, along with the driving trends of going green, consumers and businesses are now demanding for energy-saving products, minimizing environmental impact, and reducing carbon emissions. In other words, this also means that the demand for energy-efficient electronic products is predicted to increase rapidly, making optimal energy management an important and sought-after factor in the semiconductor industry.
With the advancements in this ever-changing technology industry, PMIC chips are becoming smaller and smaller, more energy-efficient, and integrating more functions. Various semiconductor enterprises are now focusing on researching and developing advanced chip lines to meet the growing global market demand.