CC1206ZKY5V6BB106

YAGEO

CAP CER 10UF 10V Y5V 1206

84238 Pcs New Original In Stock

10 µF -20%, +80% 10V Ceramic Capacitor Y5V (F) 1206 (3216 Metric)

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5.0 / 5.0 - (44 Ratings)

CC1206ZKY5V6BB106

Name: YAGEO CC1206ZKY5V6BB106
Brand: YAGEO
SKU: CC1206ZKY5V6BB106
Rating: 5.0 (44 reviews)

Product Overview

10861353

DiGi Electronics Part Number

CC1206ZKY5V6BB106-DG

Manufacturer

YAGEO

Manufacturer Product Number CC1206ZKY5V6BB106

Description

CAP CER 10UF 10V Y5V 1206

Inventory

84238 Pcs New Original In Stock

Detailed Description 10 µF -20%, +80% 10V Ceramic Capacitor Y5V (F) 1206 (3216 Metric)

See all Ceramic Capacitors

Datasheet CC1206ZKY5V6BB106 Datasheet

Quantity
Minimum 1

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Basic cost: USD 70.00

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CC1206ZKY5V6BB106 Technical Specifications

Datasheet & Documents

Datasheets

Download CC1206ZKY5V6BB106 Product Specification (PDF)

HTML Datasheet

CC1206ZKY5V6BB106-DG

Environmental & Export Classification

Moisture Sensitivity Level (MSL) 1 (Unlimited)

ECCN EAR99

HTSUS 8532.24.0020

Additional Information

Other Names

13-CC1206ZKY5V6BB106-DG

13-CC1206ZKY5V6BB106

13-CC1206ZKY5V6BB106TR

Standard Package

3,000

Alternative Parts

View Details

PART NUMBER

MANUFACTURER

QUANTITY AVAILABLE

DiGi PART NUMBER

UNIT PRICE

SUBSTITUTE TYPE

C1206C106Z8VAC7800

KEMET

23211

C1206C106Z8VAC7800-DG

0.0308

Similar

CC1206ZRY5V6BB106

YAGEO

2784

CC1206ZRY5V6BB106-DG

0.0171

Parametric Equivalent

Reviews

5.0/5.0-(Show up to 5 Ratings)

무***꿈

грудня 02, 2025

5.0

포장 세공이 정교하고, 배송 진행 상태도 매번 친절하게 안내되어 좋아요.

幸***者

грудня 02, 2025

5.0

DiGi電子在物流上的專業程度非常高，貨物到達時間往往比預期更快。

Celest***Dreams

грудня 02, 2025

5.0

We've experienced incredible reliability with their products across all projects.

Wil***art

грудня 02, 2025

5.0

Impressed by the swift shipping—my order was dispatched almost immediately after purchase.

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Frequently Asked Questions (FAQ)

What are the key design risks when using the CC1206ZKY5V6BB106 ceramic capacitor in a power supply decoupling application near its rated voltage?

When using the CC1206ZKY5V6BB106 in power supply decoupling, a major risk is capacitance loss due to DC bias. At 10V rated voltage, Y5V dielectric can lose over 80% of nominal capacitance under full bias, leaving effective capacitance well below 10 µF. This compromises noise filtering in sensitive analog or digital circuits. To mitigate, consider stacking multiple lower-capacitance X7R devices (e.g., CC1206ZKY5V6BB475) in parallel or use a 16V or 25V-rated capacitor to operate further from voltage limits. Always simulate DC bias effects using YAGEO’s online tools or SPICE models.

Can the CC1206ZKY5V6BB106 replace a C1206C106Z8VAC7800 in an existing design without performance issues?

While the CC1206ZKY5V6BB106 and C1206C106Z8VAC7800 have similar ratings, direct replacement carries risks. Both use Y5V dielectric, but C0G or X7R alternatives offer better stability. The C1206C106Z8VAC7800 has tighter manufacturing control under the C series from KEMET; thus, in temperature-varying environments (-30°C to +85°C), the CC1206ZKY5V6BB106 may exhibit greater capacitance drift (+80%/-20%). If the circuit relies on stable capacitance (e.g., timing filters or impedance matching), avoid substitution. For bulk decoupling where nominal value is not critical, it may suffice with margin testing across temperature and bias.

How does the Y5V dielectric in the CC1206ZKY5V6BB106 affect circuit reliability in industrial temperature environments?

The Y5V dielectric in the CC1206ZKY5V6BB106 has high temperature sensitivity, with capacitance varying up to -82% near -30°C and +22% at +85°C. In industrial applications (e.g., motor controls, sensors), this variability can destabilize RC timing networks or cause power rail ripple exceeding specs. For improved reliability, consider the CC1206ZRY5V6BB106 (same size, Y5V) only if budget-constrained, but prefer X7R alternatives like CC1206ZKX7R6BB106 for <±15% drift. Always derate voltage by at least 50% and validate performance in thermal chambers.

What PCB layout considerations minimize microphonic effects and cracking risks with the CC1206ZKY5V6BB106 in high-vibration environments?

The 1206 case size of the CC1206ZKY5V6BB106 is prone to mechanical cracking under vibration or board flex. To reduce risk, avoid placing the capacitor near board edges or connectors. Use compliant PCB mounting pads with offset termination lands to relieve stress, and orient the long axis parallel to likely flex directions. Avoid via-in-pad and ensure solder fillets are smooth. For high-reliability systems (e.g., automotive, industrial), consider conformal coating or underfill. If possible, use flexible termination versions (if available) or smaller case sizes with lower mechanical stress sensitivity.

Why might the CC1206ZKY5V6BB106 fail prematurely in LED lighting circuits with frequent thermal cycling?

In LED drivers with repetitive thermal cycling, the CC1206ZKY5V6BB106 faces accelerated aging due to coefficient mismatch between the ceramic body and PCB. Repeated expansion/contraction leads to solder joint fatigue or internal capacitor cracking, especially with the thick 0.95mm profile. Additionally, Y5V’s poor DC bias performance may result in insufficient capacitance during peak current transients, increasing ripple voltage stress. To improve reliability, use lower-profile capacitors or place CC1206ZKY5V6BB106 in low-stress zones. Consider replacing with automotive-grade X7R MLCCs (e.g., C2012X7R1H106K085AB) for better thermal cycle endurance and stable capacitance.

Quality Assurance (QC)

DiGi ensures the quality and authenticity of every electronic component through professional inspections and batch sampling, guaranteeing reliable sourcing, stable performance, and compliance with technical specifications, helping customers reduce supply chain risks and confidently use components in production.

Quality Assurance