2016 vs 3215 vs 3225 SMD Quartz Crystal Comparison

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2016 vs 3215 vs 3225 SMD Quartz Crystal Comparison

When selecting an SMD quartz crystal, package size is often the first parameter engineers consider. However, choosing between 2016, 3215, and 3225 packages involves more than mechanical constraints alone. Electrical behavior, frequency range, and application requirements all play a critical role in effective SMD quartz crystal selection.

This article provides a practical SMD quartz crystal comparison to help engineers quickly determine which package is best suited for MCU clock crystal and RTC crystal 32.768kHz applications.

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Why Package Size Matters — and Why It’s Not Enough

Smaller SMD quartz crystal packages help reduce PCB footprint, but they typically introduce higher ESR and tighter oscillator startup margins. Larger packages generally provide improved oscillation stability and greater electrical tolerance. Understanding this trade-off is essential when comparing 2016 vs 3215 vs 3225 SMD quartz crystals.

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2016 vs 3215 vs 3225: Key Differences

Package	Typical Frequency Range	Typical Application	Design Consideration
2016 (2.0 × 1.6 mm)	20–54 MHz	Compact MCU, wireless modules	Higher ESR, reduced startup margin
3215 (3.2 × 1.5 mm)	32.768 kHz	RTC, low-power timekeeping	Tuning fork structure, ultra-low power
3225 (3.2 × 2.5 mm)	12–54 MHz	Industrial MCU, control systems	Lower ESR, stable oscillation

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Which SMD Quartz Crystal Should You Choose?

For MCU clock crystal applications operating in the MHz range, the 3225 package is often preferred when PCB space allows, due to its lower ESR and more stable oscillator startup behavior.

The 2016 package is suitable for highly compact designs but requires careful validation of oscillator conditions, particularly in low-drive MCU circuits.

For real-time clock applications, the 3215 SMD quartz crystal is specifically designed for RTC crystal 32.768kHz operation and should not be substituted with general-purpose MCU crystals.

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Video Reference: Visual Comparison of SMD Quartz Crystals

The following video provides a visual overview of SMD quartz crystal packages and their typical applications, helping engineers quickly identify physical differences between the 2016, 3215, and 3225 packages.

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Explore SMD Quartz Crystal Options

To review detailed specifications or request application support, please visit the Suntan quartz crystal product pages or contact our technical team.

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Compact Polymer Aluminum Electrolytic Capacitors for Power Design | TS13

SUNTAN TECHNOLOGY COMPANY LIMITED · ALL KINDS OF CAPACITORS

In today’s power electronics, board space is often more limited than electrical margin. Compact power supplies, DC-DC converters, and high-density PCBs must balance performance, footprint, and sourcing stability.

TS13 polymer series overview for power supply and DC-DC applications.

Designers typically balance:

• Electrical performance (low ESR, high ripple current)
• Mechanical constraints (component height and footprint)
• Assembly efficiency and sourcing stability

Explore TS13 Series Contact for Sourcing / Design-in

Video: TS13 polymer series overview

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Design Challenges in High-Density Power Circuits

As power density increases, engineers frequently encounter:

• Limited PCB area for bulk and output capacitors
• Thermal constraints near switching devices
• The need for stable performance across load variations
• Pressure to control BOM cost without sacrificing reliability

Traditional electrolytic capacitors may struggle to meet ripple or ESR requirements, while premium polymer options can introduce cost and sourcing risks.

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TS13 Polymer Series: Compact Solutions with Practical Performance

The Suntan TS13 Polymer Aluminum Electrolytic Capacitor series is designed to support compact power designs while maintaining balanced electrical performance and supply flexibility.

Rather than targeting only high-end applications, the TS13 series focuses on:

• Practical form factors familiar to power designers
• Competitive cost structure for volume production
• Stable availability with flexible lead time and MOQ

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Selecting the Right TS13 Model for Compact Power Design

TS13CP: Compact SMD Polymer Capacitors for Space-Constrained PCBs

Designed for high-density layouts where footprint, ESR, and ripple performance matter.

• Compact SMD package
• Low ESR with high ripple current capability
• Compatible with lead-free reflow soldering

Download TS13CP Datasheet (PDF)

TS13EY: Low ESR Polymer Capacitors for Efficient Power Conversion

Optimized for output stability and filtering in efficient DC-DC and power rail designs.

• Super low ESR
• High ripple current capability
• Stable filtering performance

Download TS13EY Datasheet (PDF)

TS13EX: Compact Radial Polymer Capacitors for Thermal Stress Areas

Provides additional thermal margin with a category temperature rating up to 125°C.

• Industrial power modules
• Power stages near MOSFETs or regulators
• Applications requiring long-term thermal stability

Download TS13EX Datasheet (PDF)

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Compact Design Without Compromising Sourcing

Beyond electrical specifications, compact power designs often depend on supply chain predictability. The TS13 polymer series is positioned as a cost-effective, design-friendly alternative when projects require stable availability, MOQ flexibility for prototyping, and competitive pricing for volume builds.

Explore Compact Polymer Capacitors for Power Design

Review TS13 series options and move from evaluation to production with lower risk.

Explore TS13 Polymer Series Contact Us

Always refer to the official Suntan datasheets for detailed ratings, safety notes and design limits.