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CODACA Power Inductors Enable Long-Term Stable Operation of Optical Module Power Management Circuits
As a key passive component in power management circuits, the choice of inductor directly affects the overall transmission performance, power efficiency, and long-term stability of optical modules.
Apr. 27. 2026 -
Key Applications of Power Inductors in Laser Power DC-DC Circuits
This article introduces the working principle and classification of laser power supplies, explores the key technical points in inductor selection, and provides reference suggestions for hardware engineers.
Apr. 27. 2026 -
Noise-free|CODACA Automotive-Grade Common Mode Choke VSTCH1917R Series, Protecting Reliable Operation in Automotive Electronics
As new-energy vehicles and smart connected vehicle technologies develop rapidly, automotive electronics are moving toward higher integration, higher frequency, and higher reliability. Faced with challenges such as strong vibration and severe electrom...
Apr. 27. 2026 -
CODACA VSRUX27 Series Automotive-Grade High Current Power Inductors: Enabling Onboard Power Efficiency and Building a Reliable Foundation for Automotive Electronics
CODACA has launched the vehicle-grade VSRUX27 series of high current power inductors. With low loss, high saturation current, and high reliability, the series provides efficient and stable support for onboard power systems and helps drive high-quality development in automotive electronics.
Apr. 20. 2026 -
Recommended Inductor Selection for Automotive Motor Drive Systems
As a core passive component in motor drive systems, the inductor performs key functions such as energy storage, filtering, choking, and suppressing current spikes. Its selection directly determines conversion efficiency, operating stability, electromagnetic compatibility (EMC), and service life.
Apr. 27. 2026 -
FAQ
Struggling with inductor selection for automotive, PV, or GaN designs? Get actionable answers on Q factor, saturation, AEC-Q200, and EMC — plus free samples & test reports. Request now.
Mar. 31. 2026 -
Peak Efficiency Up to 97%! CODACA CSCF3218 high Current Power Inductor Applied in the Diodes Incorporated AP6ACO5ZCW20-EVM Reference Design
The main inductor used in this reference design is CODACA’s high Current Power Inductor CSCF3218-6R8MC. With core characteristics including high current capability, low core loss, low impedance, and ultra-low DC resistance, it not only supports a wide range of industrial solutions but also directly enables the reference design to achieve outstanding conversion efficiency.
Mar. 25. 2026 -
Powering Breakthrough Performance! CSBA Series Inductors Unlock a New Selection Path for Humanoid Robots
The CSBA high current power inductor series focuses on four core technological strengths: high current capability, low loss, compact structure, and magnetic shielding — comprehensively empowering improved endurance and stable operation.
Mar. 24. 2026 -
CODACA CPAS2222 Series High Current Power Inductors An Ideal Choice for High-Frequency, High-Efficiency Power Supply Design
In industrial power supplies, renewable energy systems, and server power applications, the continuous increase in power density and efficiency requirements has placed stricter demands on inductor components.
Mar. 23. 2026 -
High-Performance High Current Power Inductor Empower Industrial Automation Equipment with Greater Efficiency, Safety, and Stability
High Current Power Inductor, with their strong current handling capability, low DC resistance, and high conversion efficiency, have become core magnetic components for achieving efficient energy conversion and stable power delivery in industrial auto...
Mar. 20. 2026 -
Small-sized molded power inductors help DDR5 achieve high efficiency and low power consumption
With the rapid development of AI technology, the number of CPU cores is increasing, and the demand for data processing is increasing exponentially. DDR5 emerged as a next-generation memory standard, aiming to meet the urgent needs of data centers, hi...
Jan. 05. 2026 -
VSRU automotive-grade high current power inductors: improve the high power density and high reliability for automotive electronics
In automotive electronics applications, the inductor is limited by the performance of the core material, the level of winding technology and the structural design. It is difficult to take into account the needs of "high current bearing, wide temperature range, excellent vibration resistance and stability". In high temperature environments, the inductance performance is easy to decrease and even cause potential safety hazards. Although some inductors have optimized heat dissipation design, the welding points are easy to loosen under the condition of severe mechanical vibration and shock, affecting the long-term reliability.
Jan. 04. 2026