C430C104K1R5TA

KEMET

CAP CER 0.1UF 100V X7R AXIAL

2386 Pcs New Original In Stock

0.1 µF ±10% 100V Ceramic Capacitor X7R Axial

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5.0 / 5.0 - (380 Ratings)

C430C104K1R5TA

Name: KEMET C430C104K1R5TA
Brand: KEMET
SKU: C430C104K1R5TA
Price: 0.3185 USD
Availability: InStock
Rating: 5.0 (380 reviews)

Product Overview

9356605

DiGi Electronics Part Number

C430C104K1R5TA-DG

Manufacturer

KEMET

Manufacturer Product Number C430C104K1R5TA

Description

CAP CER 0.1UF 100V X7R AXIAL

Inventory

2386 Pcs New Original In Stock

Detailed Description 0.1 µF ±10% 100V Ceramic Capacitor X7R Axial

See all Ceramic Capacitors

Datasheet C430C104K1R5TA Datasheet

Quantity
Minimum 1

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Basic cost: USD 70.00

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In-stock items: Ready to ship in 1-2 days

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In Stock (All prices are in USD)

QTY Target Price Total Price
1 0.3185 0.3185
10 0.2116 2.1160
200 0.1257 25.1433
1000 0.0866 86.5834
5000 0.0767 383.2530
10000 0.0714 713.6440

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C430C104K1R5TA Technical Specifications

Datasheet & Documents

Datasheets

Download C430C104K1R5TA Product Specification (PDF)

HTML Datasheet

C430C104K1R5TA-DG

Environmental & Export Classification

RoHS Status ROHS3 Compliant

Moisture Sensitivity Level (MSL) Not Applicable

REACH Status REACH Unaffected

ECCN EAR99

HTSUS 8532.24.0040

Additional Information

Other Names

399-C430C104K1R5TA

Standard Package

200

Reviews

5.0/5.0-(Show up to 5 Ratings)

Wund***ammer

Dec 02, 2025

5.0

Die sorgfältige Verpackung zeigt, wie wichtig DiGi Electronics die Kundenzufriedenheit ist.

星***束

Dec 02, 2025

5.0

会員登録も簡単で、次回からの購入もスムーズに進められるシステムが気に入りました。

Wil***bes

Dec 02, 2025

5.0

Excellent value for money paired with reliable, swift shipping.

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Frequently Asked Questions (FAQ)

What are the key design-in considerations when using the C430C104K1R5TA in high-temperature environments near 125°C?

When designing with the C430C104K1R5TA in environments approaching 125°C, it's critical to account for X7R dielectric behavior—while capacitance stability is specified from -55°C to 125°C, actual capacitance can vary non-linearly near temperature limits. The ±10% tolerance does not cover temperature-induced drift; expect up to ±15% additional variation due to thermal effects. To mitigate risk, verify performance under bias and temperature in-circuit, especially in power supply decoupling applications where stable impedance is essential. Derating voltage to 50–80% of 100V rating improves long-term reliability at elevated temperatures.

How does the axial lead configuration of the C430C104K1R5TA impact PCB layout compared to radial SMD MLCCs in noise-sensitive analog designs?

The axial lead structure of the C430C104K1R5TA introduces higher parasitic inductance than radial SMD MLCCs like the GRM21BR71H104KA01, which can reduce high-frequency noise suppression effectiveness above 10 MHz. In noise-sensitive analog circuits (e.g., precision amplifiers or ADC references), this limits its utility for high-speed decoupling. Use the C430C104K1R5TA for low-frequency filtering or where through-hole mechanical robustness is needed, but pair with localized SMD MLCCs (e.g., 0805 10nF X7R) to handle fast transients. Minimize lead length during installation to reduce loop area and EMI susceptibility.

Can the C430C104K1R5TA be used as a direct drop-in replacement for older polystyrene or tantalum capacitors in legacy timing or filtering circuits?

Replacing polystyrene or tantalum capacitors with the C430C104K1R5TA requires careful evaluation. While the 0.1µF value and 100V rating may match, X7R ceramics exhibit piezoelectric effects and voltage coefficient of capacitance (VCC) absent in polystyrene, potentially distorting timing in RC oscillators or precision filters. Compared to tantalum (e.g., TAJ107K016RNJ), the C430C104K1R5TA lacks inherent leakage current smoothing and is less stable under ripple current. In timing circuits, validate timing accuracy across temperature and voltage; in filtering, confirm impedance profile matches target frequency response.

What are the reliability risks of using the C430C104K1R5TA in vibration-prone industrial applications, and how can mechanical failure be minimized?

The axial lead construction of the C430C104K1R5TA is more susceptible to mechanical fatigue under prolonged vibration than surface-mount MLCCs. In industrial environments with constant mechanical stress, lead fracture or PCB pad cracking can occur over time. To mitigate, secure the body with adhesive (e.g., silicone or epoxy) to dampen movement, and avoid routing leads under tension. Use strain relief bends close to the capacitor body, and consider potting the assembly in high-vibration systems. Avoid frequent mechanical handling during service—through-hole axial parts are less service-durable than SMD equivalents.

How does the C430C104K1R5TA compare to Murata GRM21BR71H104KA01 in terms of ESR and suitability for power rail decoupling in mixed-signal embedded systems?

The C430C104K1R5TA has significantly higher ESR and ESL than the Murata GRM21BR71H104KA01 (0805 X7R SMD MLCC), making it less effective for high-frequency decoupling (above 1–5 MHz) on digital power rails. The axial leads of the C430C104K1R5TA add ~10–15 nH inductance, limiting its response to fast current transients from microprocessors or FPGAs. Use the Murata part for local high-speed decoupling, and reserve the C430C104K1R5TA for bulk or board-level filtering where mechanical mounting benefits outweigh electrical limitations. If required by design for through-hole assembly, parallel the C430C104K1R5TA with a low-ESR 0.01µF SMD ceramic to cover higher frequencies.

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