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CSTLS4M19G53-B0
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Product Detailed Parameters
- Description:CERAMIC RES 4.1900MHZ 15PF T/H
- Series:CERALOCK® CSTLS
- Mfr:Murata Electronics
- Package:Bulk
- Type:Ceramic
- Frequency:4.19 MHz
- Frequency Stability:±0.2%
- Frequency Tolerance:±0.5%
- Features:Built in Capacitor
- Operating Temperature:-20°C ~ 80°C
- Mounting Type:Through Hole
- Package / Case:Radial - 3 Lead, 2.50mm Pitch
- Size / Dimension:0.315" L x 0.118" W (8.00mm x 3.00mm)
- Height:0.236" (6.00mm)
- Impedance:30 Ohms
- Capacitance:15 pF
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Buying Guide
Murata Electronics CSTLS4M19G53-B0 is sourced in Resonators category when teams want clear constraints and a repeatable validation path. Key specs include Description (CERAMIC RES 4.1900MHZ 15PF T/H), Series (CERALOCK® CSTLS), Type (Ceramic), Packaging (Bulk), and Temperature (-20°C ~ 80°C).
Selection Notes
- For CSTLS4M19G53-B0, check that the operating frequency (4.19 MHz) aligns with your system clocking plan.
- Confirm the operating temperature range (-20°C ~ 80°C) meets your deployment conditions.
- Make sure Frequency Tolerance (±0.5%) aligns with your design targets and verification plan.
- Make sure the mounting type (Through Hole) matches how the part will be installed and inspected.
Alternates & Substitutions
- For CSTLS4M19G53-B0, candidates that preserve frequency 4.19 MHz and type/output Ceramic are usually the best fit for the same synchronization job.
- For CSTLS4M19G53-B0, candidates that preserve frequency 4.19 MHz and type/output Ceramic together are usually closer to the original part than options that match only one visible specification (key constraints: package Radial - 3 Lead, 2.50mm Pitch, frequency 4.19 MHz).
- For Resonators substitutions, the strongest candidates usually keep the same footprint, interface, and application role before secondary advantages matter.
- Alternates that already match package/case Radial - 3 Lead, 2.50mm Pitch, mounting Through Hole, packaging Bulk are usually the easiest to adopt without mechanical surprises.
FAQ
How do I confirm compatibility for CSTLS4M19G53-B0?
Match mechanical footprint first, then verify electrical limits and operating conditions against your system constraints.
How is CSTLS4M19G53-B0 supplied (packaging)?
Bulk
Can you confirm the Frequency Stability for CSTLS4M19G53-B0?
±0.2%
Which Frequency Tolerance is listed for CSTLS4M19G53-B0?
±0.5%
Application Scenarios
Selecting Murata Electronics CSTLS4M19G53-B0 for Resonators usually comes down to meeting the system constraints that matter most: limits, interfaces, and testability in the real build. In real products, clock behavior is validated against EMI sources, power integrity, and enclosure coupling paths. A solid timing choice keeps margins stable by reducing sensitivity to supply ripple, temperature drift, and routing-induced noise. In high-speed digital designs, well-distributed clocks simplify timing closure and reduce re-spin risk caused by marginal setup/hold windows. In measurement equipment, clean clocks reduce converter spurs and improve repeatability in benchtop instruments used for calibration workflows. In automotive infotainment and camera links, they support high-speed interfaces that must tolerate thermal cycling and vibration without frame errors.
Compatibility Advice
- In Murata Electronics CSTLS4M19G53-B0 integration, validate routing and return paths so coupling does not create spurs or intermittent clock faults in production. This keeps integration from depending on typical-only conditions.
Project Fit
- Murata Electronics CSTLS4M19G53-B0 makes sense in Resonators work when the team can validate startup and sequencing behavior as part of system bring-up.
