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CC0603GRNPO9BN130
YAGEO
CAP CER 13PF 50V C0G/NPO 0603
10110 Pcs New Original In Stock
13 pF ±2% 50V Ceramic Capacitor C0G, NP0 0603 (1608 Metric)
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5.0 / 5.0
- (56 Ratings)
CC0603GRNPO9BN130
Product Overview
3576514
DiGi Electronics Part Number
CC0603GRNPO9BN130-DGManufacturer
YAGEO
CC0603GRNPO9BN130
Description
CAP CER 13PF 50V C0G/NPO 0603Inventory
10110 Pcs New Original In Stock
13 pF ±2% 50V Ceramic Capacitor C0G, NP0 0603 (1608 Metric)
Quantity
Minimum 1
Minimum 1
Purchase and inquiry
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CC0603GRNPO9BN130 Technical Specifications
Category
Ceramic Capacitors
Packaging
Cut Tape (CT) & Digi-Reel®
Series
CC
Product Status
Active
Capacitance
13 pF
Tolerance
±2%
Voltage - Rated
50V
Temperature Coefficient
C0G, NP0
Operating Temperature
-55°C ~ 125°C
Features
-
Ratings
-
Applications
General Purpose
Failure Rate
-
Mounting Type
Surface Mount, MLCC
Package / Case
0603 (1608 Metric)
Size / Dimension
0.063" L x 0.031" W (1.60mm x 0.80mm)
Height - Seated (Max)
-
Thickness (Max)
0.035" (0.90mm)
Lead Spacing
-
Lead Style
-
Datasheet & Documents
Part Numbering Guide
Product Selection, Ordering Guide
HTML Datasheet
CC0603GRNPO9BN130-DG
Environmental & Export Classification
RoHS Status
ROHS3 Compliant
Moisture Sensitivity Level (MSL)
1 (Unlimited)
REACH Status
REACH Unaffected
ECCN
EAR99
HTSUS
8532.24.0020
Additional Information
Other Names
CC0603GRNPO9BN130-DG
311-3919-1
311-3919-2
311-3919-6
Standard Package
4,000
Alternative Parts
PART NUMBER
MANUFACTURER
QUANTITY AVAILABLE
DiGi PART NUMBER
UNIT PRICE
SUBSTITUTE TYPE
Reviews
5.0/5.0-(Show up to 5 Ratings)
грудня 02, 2025
物流の対応が迅速で、急ぎのプロジェクトにも対応してもらえました。非常に頼もしい企業です。
грудня 02, 2025
DiGi Electronics’ website makes finding the best deals effortless with its organized layout.
грудня 02, 2025
Excellent support service that is both friendly and efficient.
грудня 02, 2025
Their commitment to after-sales service makes them a preferred partner.
грудня 02, 2025
The cost-effectiveness of DiGi Electronics makes it my go-to choice for quality tech.
грудня 02, 2025
DiGi’s after-sales service adds great value to their products.
грудня 02, 2025
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Frequently Asked Questions (FAQ)
Can the CC0603GRNPO9BN130 be used as a direct replacement for a 12 pF C0G capacitor in a 2.4 GHz RF matching network, and what are the risks of capacitance mismatch in this application?
While the CC0603GRNPO9BN130 (13 pF ±2%) is close in value to a 12 pF C0G capacitor, substituting it in a 2.4 GHz RF matching network introduces impedance mismatch risks due to the 8.3% higher nominal capacitance. Even within tolerance, this can shift resonant frequency and degrade return loss (S11). For precision RF designs, always verify performance with network analyzer measurements or simulation. If tight impedance control is critical, consider tuning with a trimmer or selecting a capacitor with tighter tolerance (e.g., ±1%) or exact value. The CC0603GRNPO9BN130’s C0G/NPO stability over temperature (-55°C to 125°C) is excellent, but value accuracy at GHz frequencies is paramount.
Is the CC0603GRNPO9BN130 suitable for high-reliability aerospace applications where long-term stability under thermal cycling is required, and how does its MSL 1 rating impact assembly?
The CC0603GRNPO9BN130 is well-suited for high-reliability applications due to its C0G/NPO dielectric, which exhibits near-zero drift over time and temperature, and its MSL 1 (unlimited floor life) rating eliminates moisture-related popcorning risks during reflow. However, in aerospace environments with extreme thermal cycling, mechanical stress from CTE mismatch between the ceramic component and PCB can lead to solder joint fatigue. To mitigate this, use a stress-relieving pad stackup, avoid placing the capacitor near board edges or large copper pours, and consider underfill if subjected to vibration. While the part itself is reliable, system-level integration practices are critical for long-term survivability.
How does the CC0603GRNPO9BN130 compare to the Murata GRM1885C1H130JA01D in terms of ESL, aging, and suitability for high-speed digital decoupling near a 500 MHz processor?
Both the CC0603GRNPO9BN130 (YAGEO) and Murata GRM1885C1H130JA01D are 13 pF C0G 0603 capacitors with similar ESL (~0.5 nH typical), making them suitable for high-speed decoupling. However, the Murata part may have marginally better high-frequency performance due to tighter internal electrode control, which can reduce anti-resonance peaks when combined with bulk capacitors. Aging is negligible for both since C0G/NPO dielectrics do not age significantly. For 500 MHz decoupling, either part works, but if your design is sensitive to impedance profile above 1 GHz, prototype with both and measure PDN impedance. The CC0603GRNPO9BN130 offers a cost-effective alternative without sacrificing critical performance in most digital systems.
What are the potential failure modes of the CC0603GRNPO9BN130 when used in a 48V automotive power supply filter, and how can layout prevent premature cracking?
Although rated for 50V, using the CC0603GRNPO9BN130 in a 48V automotive system leaves minimal voltage margin, especially under load dump transients that can exceed 60V. This risks dielectric breakdown over time. Additionally, the 0603 package is prone to flex cracking if mounted over PCB bend zones or uneven pad surfaces. To prevent failure: maintain at least 20% voltage derating (ideally use a 100V-rated cap for 48V systems), avoid placement near mounting holes or connectors, use symmetrical pad designs, and ensure PCB thickness ≥1.6 mm to reduce flexure. If space allows, consider upgrading to a 0805 C0G capacitor for better mechanical robustness.
Can I use the CC0603GRNPO9BN130 in a crystal oscillator load capacitor role for a 16 MHz MCU, and how do I calculate the correct load capacitance considering stray capacitance?
Yes, the CC0603GRNPO9BN130 can serve as a load capacitor in a 16 MHz crystal oscillator, but you must account for stray capacitance (typically 3–5 pF) from traces and MCU pins. The total load capacitance (CL) is calculated as: CL = (C1 × C2)/(C1 + C2) + Cstray. If your crystal requires 12 pF load, using two CC0603GRNPO9BN130 capacitors (13 pF each) yields an effective CL of ~6.5 pF + Cstray ≈ 9.5–11.5 pF—slightly low. To hit 12 pF, consider 15 pF capacitors or reduce trace length to minimize Cstray. Always validate oscillator startup and frequency accuracy on the final PCB, as marginal designs may fail under temperature extremes or supply noise.
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CC0603GRNPO9BN130 CAD Models
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