🔍 The Problem :

Many SMPS units are designed for medium-to-high loads. But when the load drops—like during standby or in low-power IoT devices—they often become inefficient. This inefficiency is due to fixed switching losses and idle power consumption, even when your circuit draws just a few milliamps.

🛠️ The Solution :

To fix this, choose SMPS modules that support burst mode, pulse-skipping, or auto-eco modes. These modes reduce switching frequency at low loads to cut losses. Alternatively, use ultra-low quiescent current LDOs after the SMPS to improve total system efficiency in always-on circuits.

💡 Practical Example :

Say you’re powering a wireless temperature sensor drawing only 1mA using a 12V-to-3.3V SMPS. A standard converter may still consume 40–60mW at idle! Replacing it with a MP1584-based buck converter (which supports burst mode) drastically lowers idle power usage—perfect for battery-powered or solar IoT systems.

✏️ Sample Calculation :

If the SMPS uses 50mW idle power, and your circuit draws 1mA at 3.3V:

With burst-mode converters, idle draw drops to ~10mW → Efficiency rises to 33%!

🛒 Product Suggestion :

Search for ‘MP1584 buck converter’ or ‘low power SMPS’:

👉 Shop MP1584 Buck Converter

👉 Shop Low Power SMPS

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