CSTCC2M00G53-R0

Murata Electronics

CERAMIC RES 2.0000MHZ 15PF SMD

2297 Pcs New Original In Stock

2 MHz Ceramic Resonator Built in Capacitor 15 pF ±0.3% -20°C ~ 80°C Surface Mount

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5.0 / 5.0 - (82 Ratings)

CSTCC2M00G53-R0

Name: Murata Electronics CSTCC2M00G53-R0
Brand: Murata Electronics
SKU: CSTCC2M00G53R0
Rating: 5.0 (82 reviews)

Product Overview

7146414

DiGi Electronics Part Number

CSTCC2M00G53-R0-DG

Manufacturer

Murata Electronics

Manufacturer Product Number CSTCC2M00G53-R0

Description

CERAMIC RES 2.0000MHZ 15PF SMD

Inventory

2297 Pcs New Original In Stock

Detailed Description 2 MHz Ceramic Resonator Built in Capacitor 15 pF ±0.3% -20°C ~ 80°C Surface Mount

See all Resonators

Datasheet CSTCC2M00G53-R0 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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CSTCC2M00G53-R0 Technical Specifications

Datasheet & Documents

Datasheets

Download CSTCC2M00G53-R0 Product Specification (PDF)

Part Numbering Guide

CERALOCK® Part Numbering

Manuals

CERALOCK® Series Appl Manual

Design Resources

CSTCC2M00G53-R0 SimSurfing Design Tool

HTML Datasheet

CSTCC2M00G53-R0-DG

Environmental & Export Classification

RoHS Status ROHS3 Compliant

Moisture Sensitivity Level (MSL) 1 (Unlimited)

ECCN EAR99

HTSUS 8548.00.0000

Additional Information

Other Names

490-1193-2

490-1193-1

CSTCC2M00G53R0

490-1193-6

CSTCC2.00MG-TC

Standard Package

2,000

Reviews

5.0/5.0-(Show up to 5 Ratings)

부***바람

December 02, 2025

5.0

배송 추적 시스템이 매우 정밀하고 사용하기 쉬워요.

Hori***Haven

December 02, 2025

5.0

Their extensive inventory gives me confidence that I can source all my electronic needs conveniently.

Sunbe***xpress

December 02, 2025

5.0

Their competitive prices make it easy to choose quality without worrying about cost.

Radi***Echo

December 02, 2025

5.0

Customer support at DiGi Electronics goes above and beyond to assist with any inquiries.

Glea***gWave

December 02, 2025

5.0

From browsing to delivery, everything was executed swiftly and efficiently.

Brigh***rizons

December 02, 2025

5.0

Delivery updates were consistent and helped me stay informed without needing to contact support.

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Frequently Asked Questions (FAQ)

What are the key design-in risks when using the CSTCC2M00G53-R0 ceramic resonator in a temperature-varying industrial environment?

When designing the CSTCC2M00G53-R0 into systems exposed to variable temperatures, engineers must account for its ±0.3% frequency stability over -20°C to 80°C. Although suitable for non-critical timing applications, its performance drifts more than quartz crystals—especially near temperature extremes. In industrial controls or motor drives where timing accuracy affects PWM or communications, this could result in UART framing errors or reduced ADC sampling consistency. Mitigate risk by validating timing margins across the full operating range and consider temperature-compensated MCU clock sources if precision exceeds 0.1%.

Can the CSTCC2M00G53-R0 replace an ECS-2V5-200-CN-00 in an existing SMD footprint without circuit modifications?

No, the CSTCC2M00G53-R0 is not a direct footprint or electrical replacement for the ECS-2V5-200-CN-00. While both operate at 2 MHz, the ECS-2V5-200-CN-00 is a quartz crystal requiring external load capacitors, whereas the CSTCC2M00G53-R0 includes integrated 15 pF capacitors. Substituting one for the other changes the oscillator loop dynamics—bypassing or retaining external caps may lead to startup failures or frequency inaccuracy. Additionally, the footprint differs (ECS uses 2.0mm x 1.2mm; CSTCC uses 7.2mm x 3.0mm), making mechanical drop-in impossible without PCB redesign.

How does the built-in 15 pF capacitor in the CSTCC2M00G53-R0 affect oscillator circuit design in microcontroller applications?

The integrated 15 pF capacitors in the CSTCC2M00G53-R0 simplify design by eliminating the need for external load capacitors typically required with discrete ceramic resonators or crystals. This reduces BOM count and layout area, but requires confirming MCU oscillator drive circuit compatibility. Over-compensation can occur if the MCU’s internal capacitance is not negligible, leading to frequency pulling or instability. For reliable operation, simulate or measure startup time and frequency accuracy with the MCU’s specific oscillator module (e.g., Renesas RL78 or NXP Kinetis), and avoid adding external caps unless testing confirms under-damping.

What reliability concerns arise from using the obsolete CSTCC2M00G53-R0 in new long-lifecycle designs?

Using the obsolete CSTCC2M00G53-R0 in new designs poses significant long-term supply chain and field-reliability risks. As a discontinued part, last-time buys may only cover initial production, making repair, field servicing, or future manufacturing runs problematic. Legacy inventory (even 2200 pcs) won't support multi-year deployments. Additionally, end-of-life components often lack updated qualification data or failure rate reports. For designs exceeding 5-year lifespans, transition to active alternatives like the Murata CSTCE2M00V53-R0 or TDK’s CCB2M00G1HCA with similar specs but current status is strongly advised to ensure continuity and traceability.

What are the critical layout considerations when integrating the CSTCC2M00G53-R0 in high-noise automotive PCBs?

In high-noise automotive environments, poor layout around the CSTCC2M00G53-R0 can lead to EMI-induced jitter or oscillator stalling. Route the feedback and output traces away from switching regulators, motor drivers, or CAN lines to minimize coupling. Keep trace lengths short and symmetric—ideally under 10 mm—to prevent parasitic inductance that could affect resonance. Ground the PCB beneath the resonator and avoid splitting the ground plane. Since the CSTCC2M00G53-R0 has a non-standard 7.2mm x 3.0mm footprint, ensure mechanical stability with adequate solder landings to prevent micro-cracking under thermal cycling or vibration, common in automotive under-hood applications.

Quality Assurance (QC)

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