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Home > Products > Capacitors > Ceramic Capacitors > 08053C683JAT2A
KYOCERA AVX
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08053C683JAT2A

In Stock 2801 pcs Reference Price(In US Dollars)
4000+
$0.0593
Manufacturer Part Number:
08053C683JAT2A
Manufacturer / Brand
KYOCERA AVX
Part of Description:
CAP CER 0.068UF 25V X7R 0805
Datasheets:
08053C683JAT2A(1).pdf08053C683JAT2A(2).pdf08053C683JAT2A(3).pdf
Lead Free Status / RoHS Status:
ROHS3 Compliant
Stock Condition:
New original, 2801 pcs Stock Available.
ECAD Model:
Ship From:
Hong Kong
Shipment Way:
DHL/Fedex/TNT/UPS

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Part Number 08053C683JAT2A
Manufacturer / Brand KYOCERA AVX
Stock Quantity 2801 pcs Stock
Category Capacitors > Ceramic Capacitors
Description CAP CER 0.068UF 25V X7R 0805
Lead Free Status / RoHS Status: ROHS3 Compliant
RFQ 08053C683JAT2A Datasheets 08053C683JAT2A Details PDF
08053C683JAT2A Details PDF for FR.pdf
08053C683JAT2A Details PDF for IT.pdf
08053C683JAT2A Details PDF for DE.pdf
08053C683JAT2A Details PDF for ES.pdf
08053C683JAT2A Details PDF for KR.pdf
Voltage - Rated 25V
Tolerance ±5%
Thickness (Max) 0.037" (0.94mm)
Temperature Coefficient X7R
Size / Dimension 0.079" L x 0.049" W (2.01mm x 1.25mm)
Series -
Ratings -
Package / Case 0805 (2012 Metric)
Package Tape & Reel (TR)
Operating Temperature -55°C ~ 125°C
Mounting Type Surface Mount, MLCC
Lead Style -
Lead Spacing -
Height - Seated (Max) -
Features -
Failure Rate -
Capacitance 0.068 µF
Applications General Purpose

Packaging & ESD

Industry-standard static shielding packaging is used for electronic components.Anti-static, light-transparent materials allow easy identification of ICs and PCB assemblies.
The packaging structure provides electrostatic protection based on Faraday cage principles.This helps protect sensitive components from static discharge during handling and transportation.


All products are packed in ESD-safe anti-static packaging. Outer packaging labels include part number, brand, and quantity for clear identification. Goods are inspected prior to shipment to ensure proper condition and authenticity.

ESD protection is maintained throughout packing, handling, and global transportation. Secure packaging provides reliable sealing and resistance during transit. Additional cushioning materials are applied when required to protect sensitive components.

QC(Part Testing by IC Components)Quality Warranty

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Shipment charges: (Reference DHL and FedEX)
Weight(KG): 0.00kg-1.00kg Price(USD$) : USD$60.00
Weight(KG): 1.00kg-2.00kg Price(USD$) : USD$80.00
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08053C683JAT2A Product Details:

The AVX (KYOCERA AVX) 08053C683JAT2A is a high-performance ceramic multilayer capacitor (MLCC) designed for versatile electronic applications. This compact surface-mount component offers robust electrical characteristics suitable for general-purpose circuit design across various electronic systems.

With a precise capacitance of 0.068µF and rated at 25V, this ceramic capacitor provides reliable electrical performance within a wide operating temperature range of -55°C to 125°C. Its X7R temperature coefficient ensures stable capacitance performance across different environmental conditions, making it ideal for demanding electronic applications that require consistent electrical characteristics.

The capacitor's miniature 0805 (2012 Metric) package measures just 2.01mm x 1.25mm, with a maximum thickness of 0.94mm, enabling dense and space-efficient circuit board designs. Its ±5% tolerance ensures predictable electrical behavior, while the surface-mount mounting type facilitates easy integration into modern electronic assemblies.

Key advantages include excellent reliability, compact form factor, and compatibility with standard manufacturing processes. The component is RoHS compliant, indicating environmental responsibility and adherence to global electronic manufacturing standards. Its tape and reel packaging supports automated assembly processes, enhancing manufacturing efficiency.

Typical application areas include consumer electronics, telecommunications equipment, automotive electronics, industrial control systems, and general electronic circuitry requiring stable, compact capacitive elements. The device's robust design makes it suitable for applications demanding consistent performance across varied temperature ranges and electrical environments.

While specific equivalent models are not detailed in the provided specifications, similar MLCC capacitors from manufacturers like Murata, Samsung Electro-Mechanics, and TDK would likely offer comparable electrical and physical characteristics in the 0805 form factor.

08053C683JAT2A Key Technical Attributes

08053C683JAT2A

0.068µF, 25V, X7R, MLCC, ±5% tolerance, Surface Mount

08053C683JAT2A Packing Size

Tape & Reel (TR) type, surface mount MLCC package in 0805 (2012 metric); dimensions are 0.079" L x 0.049" W (2.01mm x 1.25mm), maximum thickness 0.037" (0.94mm); 8140 encapsulation; RoHS compliance and inventory status by request; pin configuration is standard for 0805 SMD components, supporting automated placement; excellent thermal stability provided by ceramic X7R dielectric material.

08053C683JAT2A Application

Primarily used for general purpose electronic circuits where reliable bypass, decoupling, and signal filtering are required. Suited for a wide range of devices including power management modules, consumer electronics, industrial controls, automotive subsystems, instrumentation, and communication equipment.

08053C683JAT2A Features

Manufactured by AVX (KYOCERA AVX), this MLCC (Multilayer Ceramic Capacitor) offers a stable capacitance value of 0.068µF (68nF) and is rated up to 25V. It uses the X7R temperature characteristic, ensuring reliable performance across a broad temperature range (-55°C to +125°C) and minimal capacitance change under varying environmental conditions. The ±5% tolerance allows for tight design control, making it ideal for precision circuits. Compact 0805 case size (2012 metric) enables high-density PCB layouts. The robust ceramic construction provides high mechanical strength and low ESR (Equivalent Series Resistance), supporting high-frequency and pulsed signal applications. Its surface mount design (SMD/SMT) is suitable for automated assembly and reflow soldering, enhancing production efficiency. Standard packaging in tape & reel minimizes production downtime and protects components during transport.

08053C683JAT2A Quality and Safety Features

All capacitors from AVX (KYOCERA AVX) undergo stringent quality control checks, ensuring reliability, longevity, and safety in demanding applications. RoHS compliance makes this product suitable for eco-friendly and lead-free manufacturing processes. High dielectric withstand voltage and stable dielectric properties across rated temperature, voltage, and humidity ensure enhanced safety margins and consistent performance over the device’s lifecycle.

08053C683JAT2A Compatibility

This component is compatible with a wide range of surface-mount PCB designs, particularly suited for applications requiring 0805 (2012 metric) footprints. It is fully interoperable with most automated pick-and-place equipment and reflow soldering processes and integrates seamlessly into both legacy and new generation designs requiring standard X7R ceramic capacitors.

08053C683JAT2A Datasheet PDF

For comprehensive and authoritative technical information, customers are strongly encouraged to download the official datasheet for the 08053C683JAT2A capacitor directly from our website. Our platform provides the most up-to-date and accurate data sheet resources for this model—ensure your design references are current by accessing the download link on this page.

Quality Distributor

IC-Components is an authorized premium distributor of AVX (KYOCERA AVX) products. We offer only genuine, traceable stock with full supplier warranties and technical support. Take advantage of our competitive pricing, fast delivery options, and expert service—get an instant quote for AVX (KYOCERA AVX) 08053C683JAT2A directly on our website today!

Frequently Asked Questions

When designing a compact 25V power filtering circuit for a noisy microcontroller, is the AVX 08053C683JAT2A suitable for bypassing high-frequency noise effectively, and what are the potential limitations of its X7R temperature coefficient in extreme industrial environments?
The AVX 08053C683JAT2A, a 0.068µF 25V X7R MLCC, is generally suitable for general-purpose bypassing applications where noise frequencies are within its effective range. However, the X7R dielectric exhibits a capacitance change of ±15% over its rated temperature range of -55°C to 125°C. In extreme industrial environments with significant temperature fluctuations, this variation might impact the precise filtering characteristics, potentially requiring cascaded filters or capacitors with a more stable dielectric like C0G/NP0 if tighter tolerances are critical. The 0805 footprint and 25V rating are well-suited for many embedded systems.
I'm considering replacing a deprecated TDK 0805C683J5GZT 0.068µF 50V X7R capacitor with the AVX 08053C683JAT2A. What are the key design implications and potential risks associated with this direct component substitution, specifically regarding voltage derating and board space?
Replacing a 50V rated capacitor with the AVX 08053C683JAT2A (rated for 25V) necessitates a thorough review of your circuit's actual operating voltage. If the circuit operates significantly below 25V, the substitution may be acceptable. However, if the original TDK part was used with substantial voltage margin, reducing the rating to 25V could introduce a significant reliability risk and potential failure under transient overvoltage conditions. While both are 0805 packages, always verify the dimensions and land patterns for precise mechanical compatibility, although typically 0805 components are interchangeable. The primary risk is overvoltage failure due to the lower rated voltage of the AVX 08053C683JAT2A.
For a portable IoT device requiring a stable decoupling capacitor with a tight ripple voltage requirement, would the AVX 08053C683JAT2A be a good choice, or are there concerns about its ±5% tolerance and X7R temperature coefficient affecting critical DC-DC converter performance?
The AVX 08053C683JAT2A, with its ±5% tolerance and X7R dielectric, may present challenges for applications demanding extremely stable decoupling, especially in DC-DC converters where precise ripple voltage is crucial. The ±15% capacitance variation of X7R over temperature, combined with the initial ±5% tolerance, could lead to a total capacitance deviation of up to 20%. For applications where ripple voltage stability is paramount, a capacitor with a more stable dielectric like C0G/NP0 or a higher capacitance value might be more appropriate, even if it requires a larger package size or a higher voltage rating than the 08053C683JAT2A.
When integrating the AVX 08053C683JAT2A into a high-temperature automotive application, what are the expected performance degradations, and are there any specific concerns regarding its long-term reliability under continuous operation at 100°C or above?
The AVX 08053C683JAT2A is rated for operation up to 125°C. In a high-temperature automotive application, continuous operation at 100°C or above will subject the X7R dielectric to its upper operating temperature range. While the capacitor is designed for this, you can expect some degradation in performance. The X7R dielectric's capacitance will decrease as it approaches its rated temperature limit. Additionally, long-term reliability, while generally good for MLCCs, can be influenced by factors like humidity and applied voltage stress at elevated temperatures. For critical automotive applications, it is always advisable to consult AVX's application notes or reliability data specifically for X7R dielectrics under prolonged high-temperature stress conditions and consider derating the operating voltage.
I'm designing a multi-layer ceramic capacitor array for an audio signal path, and I need a small-value capacitor with good linearity. Is the AVX 08053C683JAT2A suitable for this, or would its X7R characteristics introduce unacceptable harmonic distortion or signal coloration?
For audio signal paths where linearity and minimal signal coloration are critical, the AVX 08053C683JAT2A with its X7R dielectric is generally not the ideal choice. X7R dielectrics are known to exhibit non-linear behavior, particularly at higher frequencies or when subjected to AC voltage swings, which can lead to harmonic distortion. For sensitive audio circuits, a capacitor with a Class 1 dielectric such as C0G/NP0 is strongly recommended due to its superior linearity and stability, even though it typically offers lower capacitance values in the same package size as the 08053C683JAT2A.
What are the key considerations when migrating an existing design that uses a KEMET 0805YC683KAT2A (0.068µF 16V X7R) to the AVX 08053C683JAT2A, specifically concerning voltage rating headroom and potential sourcing issues?
Migrating from a KEMET 0805YC683KAT2A (16V rating) to the AVX 08053C683JAT2A (25V rating) offers increased voltage headroom, which is generally beneficial for reliability. This substitution should be electrically compatible in terms of capacitance and dielectric type (both X7R), and the 0805 package size is standard. However, it's crucial to verify that the original design did not operate close to the 16V limit of the KEMET part, as the increased voltage rating of the AVX 08053C683JAT2A provides a safety margin. Sourcing differences between KEMET and AVX are primarily logistical; ensure you have robust supply chain management for both manufacturers if you plan to use them concurrently or as alternatives.
For a low-power sensor interface where precise capacitance is needed for impedance matching, would the AVX 08053C683JAT2A’s ±5% tolerance be sufficient, or is a more precise capacitor required for stable sensor readings over varying operating temperatures?
The AVX 08053C683JAT2A, with its ±5% tolerance and X7R dielectric, may not be sufficiently precise for impedance matching in low-power sensor interfaces, especially if stable readings are required across varying operating temperatures. The X7R dielectric's inherent ±15% capacitance change with temperature, combined with the initial ±5% tolerance, could result in significant impedance drift. For critical impedance matching, a capacitor with a more stable dielectric like C0G/NP0 and tighter tolerances is highly recommended to ensure consistent sensor performance.
When designing a USB 2.0 data line filter, what are the key performance metrics to evaluate for the AVX 08053C683JAT2A, and are there any specific concerns regarding its impedance at USB frequencies or its tolerance for signal integrity in this application?
For USB 2.0 data line filtering, the AVX 08053C683JAT2A's primary function would be bypassing. Key performance metrics include its Equivalent Series Resistance (ESR) and self-resonant frequency (SRF), which affect its impedance at USB frequencies. While MLCCs generally have low ESR, the specific values for the 08053C683JAT2A should be reviewed. The ±5% tolerance and X7R temperature coefficient could impact signal integrity if the filter's impedance characteristics drift significantly with temperature, potentially affecting data transmission reliability. For critical high-speed data lines, it's essential to ensure the capacitor's impedance profile is well-matched to the required filtering characteristics across the expected operating temperature range.
I'm looking to replace an obsolete Murata GRM188R71E683KA01D (0.068µF 25V X7R) with the AVX 08053C683JAT2A. Are there any known practical differences in terms of performance or reliability that I should be aware of beyond the manufacturer change?
While both the Murata GRM188R71E683KA01D and the AVX 08053C683JAT2A are 0.068µF 25V X7R capacitors in an 0805 package, direct replacement is usually straightforward. However, subtle differences in manufacturing processes and dielectric formulations between Murata and AVX can sometimes lead to minor variations in parameters like ESR, dielectric loss, and long-term aging rates. It is always prudent to test a sample of the AVX 08053C683JAT2A in your specific application to confirm that its performance characteristics meet your design requirements, especially if the original Murata part was used in a highly sensitive circuit.
What are the implications of using the AVX 08053C683JAT2A as a bulk decoupling capacitor in a moderate power switching application, and how does its 0.068µF capacitance value compare to typical requirements for stabilizing voltage rails below 25V?
The AVX 08053C683JAT2A provides 0.068µF of capacitance, which is generally considered a small value for *bulk* decoupling in moderate power switching applications. Bulk decoupling typically aims to absorb transient current demands and smooth out larger voltage ripple, often requiring capacitance values in the microfarad range or higher. While the 08053C683JAT2A can contribute to higher frequency decoupling, it is unlikely to be sufficient as the sole bulk capacitor. For effective stabilization of voltage rails below 25V in switching applications, a combination of capacitors, including larger electrolytic or tantalum capacitors for bulk decoupling and smaller ceramic capacitors like the 08053C683JAT2A for high-frequency bypassing, is usually necessary.

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