Buy Power Management ICs Online At Best Price In India
Empower your electronics with precision and control, utilizing Evelta's extensive range of power management ICs (PMIC). These industry-leading chips optimize every stage of power delivery, delivering impeccable efficiency, unwavering stability, and a streamlined design process.
From compact DC-DC converters to feature-rich multi-rail PMICs, Evelta caters to every project's demands. Whether you're crafting next-generation wearables, building robust industrial solutions, or pushing the boundaries of embedded systems, our PMICs offer:
- Unmatched Component Density: Reduce size and complexity, unlocking valuable PCB real estate.
- Exceptional Power Optimization: Extend battery life and minimize thermal footprint.
- Granular Voltage Control: Ensure reliable operation and protect sensitive components.
- Advanced Functionality and Configuration: Tailor power delivery for peak performance.
Explore our curated PMIC selection from the world's leading manufacturers, including Texas Instruments, Analog Devices, and Maxim Integrated. We offer a comprehensive range to match your precise needs, encompassing:
- Boost, buck, buck-boost, and multi-output DC-DC converters.
- High-performance linear regulators and LDOs.
- Efficient load switches and dedicated battery chargers.
- Comprehensive supervisory circuits and real-time clocks.
Eliminate power management bottlenecks and unlock the full potential of your designs. Evelta's PMICs empower engineers to innovate with confidence.
Browse now and unleash the power of control.
Q: What is the difference between a boost converter and a buck converter?
A: A boost converter increases voltage output, while a buck converter decreases it. Boost raises voltage, buck lowers voltage.
Q: How do I calculate the power requirements for my project?
A: Calculate power by multiplying voltage and current. Power (W) = Voltage (V) x Current (A). Consider efficiency and safety margins in your calculation.
Q: What are the best PMICs for battery-powered devices?
A: Select PMICs with low power consumption, high efficiency, and features like dynamic voltage scaling.
Q: How can I reduce the heat generated by my power ICs?
A: Improve efficiency, choose ICs with lower dropout voltage, and use proper heatsinking. Ensure your power supply operates within specified temperature limits.
Q: What features should I look for in a PMIC for a wearable device?
A: Prioritize small form factor, low power consumption, multiple power rails, and features like power sequencing and voltage scaling for optimal wearable device performance.
Q: How do I design a power supply for a high-power microcontroller?
A: Consider the microcontroller's voltage and current requirements. Choose a regulator with sufficient output capacity and stability, ensuring it meets the microcontroller's specifications.
Q: What are the safety considerations when using power management ICs?
A: Follow datasheet guidelines, adhere to voltage and current limits, implement overcurrent and overvoltage protection, and comply with safety standards to ensure safe operation.
Q: How can I implement wireless charging in my project?
A: Select a wireless charging IC compatible with your device, ensure proper coil alignment, and consider factors like charging efficiency and communication protocols such as Qi standard.
Q: What is the best way to optimize the cost of my power management solution?
A: Evaluate your project's power requirements precisely, consider the trade-offs between efficiency and cost, and explore cost-effective PMIC options that meet your specific needs.