X1E0000210132 TSX-3225 25 MHZ 9.0PF Epson Timing Crystal or Oscillator (Other) In Stock
X1E0000210132 TSX-3225 25 MHZ 9.0PF from Epson Timing is a crystal or oscillator for clock generation, timing references, communications, and microcontroller support. Key specifications include 25MHZ, 9.0PF, 9PF, 4 pins, supporting reliable selection for OEM maintenance, prototyping, and production BOMs.
- Manufacturer
- Epson Timing
- Package
- Other
- Pin Count
- 4
- Lifecycle
- ACTIVE
- Category
- Crystal or Oscillator
- RoHS
- Compliant
- Lead Time
- 3–7 business days
- Shipping
- DHL Express · Worldwide
Key Features
- 25MHZ rating/value supports defined circuit selection for this crystal or oscillator
- 9.0PF specification provides an additional quantitative design check
- 4-pin configuration helps confirm footprint, routing, and connector compatibility
- Epson Timing sourcing identity supports BOM traceability and authorized-equivalent review
Applications
X1E0000210132 TSX-3225 25 MHZ 9.0PF is commonly considered for clock generation, timing references, communications, and microcontroller support where designers need a crystal or oscillator with 25MHZ, 9.0PF, 9PF, 4 pins. It is suitable for OEM BOM refresh, maintenance sourcing, prototype builds, and production assemblies that require traceable component selection.
Compliance & Regulatory
| RoHS Status | Compliant |
| Lead-Free | Yes (Pb-Free) |
Alternate & Equivalent Parts
No known alternates. Submit an RFQ and our team can suggest alternatives.
Frequently Asked Questions
Which designs are a good fit for X1E0000210132 TSX-3225 25 MHZ 9.0PF when 25MHZ is required?
X1E0000210132 TSX-3225 25 MHZ 9.0PF is a crystal or oscillator from Epson Timing for clock generation, timing references, communications, and microcontroller support. The 25MHZ specification helps engineers confirm electrical margin before adding it to a production BOM.
How should engineers check the footprint before placing X1E0000210132 TSX-3225 25 MHZ 9.0PF on a PCB?
Review the Other package information together with 4 pins before layout release. That check reduces substitution risk when matching land pattern, assembly process, and approved vendor data.
When would procurement choose X1E0000210132 TSX-3225 25 MHZ 9.0PF instead of a nearby alternate?
Buyers should keep X1E0000210132 TSX-3225 25 MHZ 9.0PF when the approved design depends on 9.0PF and Other compatibility. Alternate reviews should verify at least 1 matching electrical rating and footprint constraint.
Related Guides
CL31A107MQHNNNE 1206 100 uF MLCC Selection Guide
How to choose CL31A107MQHNNNE and related 1206 MLCCs for low-voltage bulk capacitance and regulator stability.
Jul 2, 2026
CL05B103KB5NNNC 0402 10 nF X7R MLCC Selection Guide
How to choose CL05B103KB5NNNC and related 0402 MLCCs for bypassing, filtering, voltage derating, and sourcing.
Jul 2, 2026
ADAQ7768-1 Design Guide for Precision Vibration and Dynamic Signal Measurement
Design ADAQ7768-1 precision data acquisition channels for vibration and dynamic sensing with the right bandwidth, reference, clock, and layout choices.
Jun 30, 2026
AD5204BRZ10 Design Guide for SPI-Controlled Gain and Offset Calibration
Design AD5204BRZ10 digital potentiometer calibration loops with bounded trim span, safe wiper current, clean SPI routing, and reliable startup codes.
Jun 30, 2026
Why Buy from FindMyChip
About Epson Timing
Epson Timing is a leading electronic component manufacturer. FindMyChip sources Epson Timing ICs directly from authorized China distributors, offering competitive pricing and reliable stock.
More from Epson Timing
MA-406 12.0000M-G0: ROHS
Other
Crystal or Oscillator
SG-3030JF 32.7680KB3: ROHS
Other
Crystal or Oscillator
SG-3030LC 32.7680KB0, PURE SN
Other
Crystal or Oscillator
SG-531P 8.0000MC: PURE SN
Dual-In-Line Packages
Crystal or Oscillator
Q22FA1280014312
Other
Crystal or Oscillator
FA-20H 25.0000MF20X-K3
Other
Crystal or Oscillator
In Stock · 24h Response · Worldwide Shipping
Response within 24 hours · Worldwide shipping
“Their engineering team helped us find a pin-compatible alternative when our original MCU went EOL.”