We applaud the high efficiency and energy savings brought by GaN and SiC, but often overlook the fact that without matching “energy guardians,” even the most powerful semiconductors cannot truly empower various scenarios.
Imagine this:
An electric vehicle is fast charging, but overheats and throttles due to capacitors in the power module failing to withstand the high-frequency switching—at this moment, YMIN’s silent high-frequency protector quietly steps in;
A photovoltaic power station outputs energy under the scorching sun, but suddenly becomes unstable due to capacitors in the energy storage system experiencing lifespan degradation at high temperatures—at this moment, YMIN’s high-temperature guardian silently protects it;
An AI server is computing at full speed, but its computing power drops due to power supply noise… YMIN’s energy guardian is already in place.
The high-frequency, high-voltage, and high-temperature characteristics of third-generation semiconductors (GaN/SiC) are like a powerful racehorse, but without matching “reins and saddle”—YMIN’s high-performance capacitors—it still struggles to run steadily in real-world scenarios.
Why does the “high-efficiency legend” of GaN/SiC require the “extreme matching” of capacitors?
GaN/SiC devices enable smaller, lighter, and more efficient power supplies, but their “operating habits” are also extremely demanding:
High-Frequency Switching Challenge
Millions of switching operations per second bring strong current fluctuations and noise, requiring YMIN capacitors to have “ultra-fast response” and “high-frequency filtering” capabilities to prevent computing power from being hampered by power supply limitations.
High-Temperature Environment Challenge
In scenarios such as electric drives for new energy vehicles and industrial motors, temperatures are extremely high. YMIN capacitors must be “heat-resistant and do not degrade,” providing stable protection throughout and preventing system failures at critical moments.
High-Voltage Challenge
With the voltage escalating in photovoltaic inverters and charging piles, YMIN capacitors must be “voltage-resistant and not breakdown-proof” to ensure system safety and prevent data loss at the last second.
Space Limit Challenge
Robot and server power supplies demand “every inch counts.” YMIN capacitors must “store energy without sacrificing performance” within millimeters, overcoming the challenges of space-constrained design.
YMIN capacitors were born to accompany third-generation semiconductors through the final stages of their deployment.
ymin’s Energy Partner Family: Equipping Every Scenarios with the Most Suitable “Guardian”
At ymin, we offer not just one type of capacitor, but an entire “Energy Partner Family,” each member possessing unique expertise:
Aluminum Electrolytic Family – Experts in All Scenarios
From delicate leaded and surface-mount types to robust horn and bolt types, ymin aluminum electrolytic capacitors cover the needs of all scenarios, from wearable devices to industrial power grids, providing stability behind chips.
Polymer Elite – Leader in the High-Frequency Track
Solid-state, hybrid, and multilayer designs – ymin polymer capacitors are like “sprinters” in the capacitor world, reacting extremely quickly and effectively eliminating various high-frequency “noise,” preventing performance degradation.
Special Forces – Conquerors of Extreme Conditions
Tantalum capacitors, film capacitors, supercapacitors, ceramic capacitors… ymin’s specialized capacitors each possess unique capabilities. Some excel at high temperatures, some can store vast amounts of energy, and some boast immense power in a tiny form, addressing the risk of system failure.
Whatever challenges your GaN/SiC system faces, ymin always has a capacitor that can precisely match: Need high-frequency filtering? ymin polymer solid-state capacitors are ready; require high-power support? ymin horn-shaped aluminum electrolytic capacitors are always on standby; extremely limited space? ymin multilayer ceramic capacitors are prepared within millimeters.
More Than Just Components: A Collaborative Revolution of “Semiconductors + Capacitors”
Our anticipated collaboration involves considering together from the very beginning of your GaN/SiC solution design:
How to make ymin capacitors better fit high-frequency topologies?
How to maintain the consistency of ymin capacitor lifespan with the system at high temperatures?
How to achieve optimal energy distribution of ymin capacitors within a small space?
ymin aspires to be your technical partner on your “path to implementation,” not just a component supplier. From AI chips running at full speed to automotive systems operating in extreme cold, from slimmer wearable device designs to data recovery during power outages—ymin Collaborative Experts are always there for you.
We invite you to co-write the reliable future of third-generation semiconductors.
If you are bringing GaN/SiC technology to new energy vehicles, photovoltaic energy storage, industrial power supplies, or AI data centers, ymin’s complete capacitor product matrix is ready to provide the most suitable “energy partner” for every innovative idea.
When computing devices are operating at full speed, when energy storage systems are running for extended periods, and when fast charging systems face high-frequency challenges—ymin capacitors are the stabilizing force, ensuring that every energy revolution truly takes root through stability.
Post time: Dec-08-2025