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CSTCE10M0G52A-R0
Murata Electronics
CERAMIC RES 10.0000MHZ 10PF SMD
16063 Pcs New Original In Stock
10 MHz Ceramic Resonator Built in Capacitor 10 pF ±0.2% -40°C ~ 125°C Surface Mount
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5.0 / 5.0
- (294 Ratings)
CSTCE10M0G52A-R0
Product Overview
7147167
DiGi Electronics Part Number
CSTCE10M0G52A-R0-DGManufacturer
Murata Electronics
CSTCE10M0G52A-R0
Description
CERAMIC RES 10.0000MHZ 10PF SMDInventory
16063 Pcs New Original In Stock
10 MHz Ceramic Resonator Built in Capacitor 10 pF ±0.2% -40°C ~ 125°C Surface Mount
Quantity
Minimum 1
Minimum 1
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CSTCE10M0G52A-R0 Technical Specifications
Category
Resonators
Packaging
Tape & Reel (TR)
Series
CERALOCK® CSTCE
Product Status
Obsolete
Type
Ceramic
Frequency
10 MHz
Frequency Stability
±0.2%
Frequency Tolerance
±0.5%
Features
Built in Capacitor
Capacitance
10 pF
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
3-SMD, Non-Standard
Size / Dimension
0.126" L x 0.051" W (3.20mm x 1.30mm)
Height
0.031" (0.79mm)
Base Product Number
CSTCE
Datasheet & Documents
Part Numbering Guide
CERALOCK® Part Numbering
Manuals
CERALOCK® Series Appl Manual
Design Resources
CSTCE10M0G52A-R0 SimSurfing Design Tool
HTML Datasheet
CSTCE10M0G52A-R0-DG
Environmental & Export Classification
Moisture Sensitivity Level (MSL)
1 (Unlimited)
ECCN
EAR99
HTSUS
8548.00.0000
Additional Information
Other Names
490-11063-6
490-11063-2
490-11063-1
CSTCE10M0G52A-R0-DG
Standard Package
3,000
Alternative Parts
View DetailsPART NUMBER
MANUFACTURER
QUANTITY AVAILABLE
DiGi PART NUMBER
UNIT PRICE
SUBSTITUTE TYPE
Reviews
5.0/5.0-(Show up to 5 Ratings)
December 02, 2025
收到商品的速度很快,產品的質量也非常一流,讓我非常滿意!
December 02, 2025
Le délai d’expédition est très court, ce qui est parfait pour mes besoins urgents.
December 02, 2025
納期管理がしっかりしており、必要な時に確実に届く安心感があります。
December 02, 2025
I highly recommend DiGi Electronics for their reliable, on-time shipping and durable electronic components.
December 02, 2025
Their packaging quality exceeds expectations, making handling and storage very convenient.
December 02, 2025
I find their website very user-centric, easy to understand and utilize.
December 02, 2025
The quick dispatch and delivery process is a huge plus for busy shoppers.
December 02, 2025
Their commitment to providing value is visible in every product.
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Frequently Asked Questions (FAQ)
What are the key design-in risks when using the CSTCE10M0G52A-R0 ceramic resonator in a high-temperature industrial application near 125°C?
When designing with the CSTCE10M0G52A-R0 in high-temperature environments, such as industrial controls operating near 125°C, engineers must consider potential frequency drift due to aging and thermal hysteresis, even within the specified ±0.2% stability range. Although the resonator supports operation up to 125°C, prolonged exposure may accelerate aging effects. To mitigate risk, design in margin for timing-critical circuits and validate performance under extended thermal cycling. Since the device has built-in 10 pF load capacitors, ensure PCB stray capacitance doesn't further shift effective load, especially as temperature alters substrate dielectric properties. Use tight layout practices and consider operating slightly below maximum ratings for improved long-term reliability.
How does the built-in capacitor in the CSTCE10M0G52A-R0 affect oscillator circuit design compared to discrete resonators?
The integrated 10 pF capacitors in the CSTCE10M0G52A-R0 eliminate the need for external load capacitors in standard Pierce oscillator configurations, simplifying BOM and reducing PCB footprint. However, this fixed capacitance limits tuning flexibility—engineers cannot adjust load capacitance to fine-tune frequency or compensate for board-level parasitics. This can be problematic when replacing discrete resonators in legacy designs where external capacitors were optimized. Always verify oscillator start-up time and stability across voltage and temperature with your specific MCU or driver IC, as insufficient gain margin may occur if the internal capacitance doesn’t match the IC’s oscillator design assumptions.
Can the obsolete CSTCE10M0G52A-R0 be reliably substituted with CSTNE10M0G52A000R0 in existing production designs?
While the CSTNE10M0G52A000R0 is listed as a potential substitute for the obsolete CSTCE10M0G52A-R0, direct replacement requires caution. The CSTNE variant has similar electrical specs (10 MHz, ±0.5% tolerance, 10 pF built-in caps) but differs in package footprint and internal construction. Mechanical dimensions and pad layout may not be identical, risking reflow soldering defects or reduced mechanical robustness. Conduct a head-to-head validation of oscillator stability, EMI performance, and thermal resilience. Additionally, confirm availability and lifecycle status of the CSTNE part to avoid future obsolescence issues. Redesign and requalification are recommended over drop-in replacement.
What are the reliability concerns when using the CSTCE10M0G52A-R0 in automotive applications with wide thermal cycling?
Although the CSTCE10M0G52A-R0 specifies an operating range of -40°C to 125°C, suitability for automotive use depends on application context. Automotive environments impose severe thermal cycling, vibration, and humidity risks. While the resonator’s MSL 1 rating supports unlimited floor life and reflow robustness, the non-standard 3-SMD package may be prone to mechanical stress fractures under sustained vibration. Ceramic resonators also exhibit lower Q-factor than crystals, increasing susceptibility to noise and startup failures in cold cranking scenarios. For safety-critical systems, consider qualified AEC-Q200 components instead. If using CSTCE10M0G52A-R0, add conformal coating and validate with extended environmental testing.
Why might the CSTCE10M0G52A-R0 fail to start reliably in low-power microcontroller circuits, and how can this be fixed?
The CSTCE10M0G52A-R0 may fail to start in low-power MCU applications due to insufficient drive level or marginal negative resistance in the oscillator circuit. The built-in 10 pF capacitors increase capacitive loading, raising the gain requirement for reliable start-up, especially at low Vdd or cold temperatures. To resolve this, ensure the oscillator’s negative resistance (measured using series resistor method) exceeds the resonator’s ESR by at least 5x. Avoid over-damping with excessive external series resistance. If problems persist, consider increasing the external feedback resistor (typically 1–10 MΩ) or selecting a resonator with lower internal capacitance. Confirm compatibility with the MCU’s oscillator driver strength—some ultra-low-power cores have weaker drive capabilities.
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.
CSTCE10M0G52A-R0 CAD Models
Murata Electronics CSTCE10M0G52A-R0 PCB symbols & footprints
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