Overview of C4532X5R1E226M250KA by TDK Corporation
The C4532X5R1E226M250KA is a multilayer ceramic capacitor (MLCC) from TDK Corporation, designed for surface mount applications. It features a capacitance of 22µF, with a rated voltage of 25V. The capacitor falls within the size code 1812, measuring 4.5mm in length, 3.2mm in width, and 2.5mm in height. This component is characterized by an X5R dielectric material which offers a stable capacitance across a wide range of temperatures (-55°C to +85°C). Additionally, it maintains a ±20% capacitance tolerance, ensuring performance reliability under varying conditions.
This capacitor is also RoHS compliant, adhering to current environmental regulations regarding the restriction of hazardous substances. Its terminals are finished with matte tin over a nickel barrier, enhancing solderability and resistance to oxidation. The packaging style for this part is a standard SMT (Surface Mount Technology), making it suitable for automated assembly processes. The part is considered active in its lifecycle, indicating ongoing production and availability.
Industry Applications for C4532X5R1E226M250KA
Given its specifications and features, the C4532X5R1E226M250KA can potentially serve a diverse range of applications across various sectors. Here are some conceptual and illustrative industry applications, which would require verification by engineering teams:
- Consumer Electronics: This capacitor might be used in devices such as smartphones and tablets, where stable voltage and capacitance are crucial for the reliability and longevity of the device. The compact size and surface mount design facilitate integration into the densely packed PCBs typical of modern handheld devices.
- Telecommunications: In telecommunications equipment, these capacitors could possibly aid in signal processing applications due to their stable dielectric characteristics. The wide operating temperature range makes them suitable for use in environments with fluctuating temperatures.
- Computing and Data Storage: Servers and storage devices might utilize these capacitors to manage power supply fluctuations efficiently, thereby ensuring stable operations. The high capacitance value and compact footprint are particularly beneficial for space-constrained server motherboards.
- Industrial Automation: Automation machinery and robotics might integrate these capacitors into their control systems for noise suppression and smoothing voltage transitions, which are critical for precision operations.
- Audio and Video Systems: Given their stable capacitive properties, these capacitors might be ideally suited for applications within audio and video processing equipment, potentially ensuring clear signal integrity and preventing power supply issues.
Note that these potential applications are conceptual and require thorough analysis to confirm their suitability based on industry standards and specific device requirements.
About TDK Corporation
TDK Corporation is a prominent manufacturer in the electronic components industry, known for producing a wide variety of capacitive solutions, including Ceramic Capacitors. TDK’s expertise in developing MLCCs reflects their commitment to innovation and quality. Their capacitors, including the C4532X5R1E226M250KA, are integral in numerous high-reliability applications due to their performance stability and durability. TDK Corporation continuously invests in research and development to advance the technology behind capacitors, ensuring they meet the evolving needs of the electronics industry.
Where to Find C4532X5R1E226M250KA by TDK Corporation
To purchase the C4532X5R1E226M250KA, it is recommended to search on FindChips.com. This site allows users to compare current stock levels and pricing from various distributors. Historically, this part has been available through distributors such as New Advantage Corporation, Mouser Electronics, DigiKey, and Newark. Checking on FindChips will also provide information on alternate Ceramic Capacitors from TDK Corporation or other manufacturers, which might suit different application needs or availability concerns.