Crystals

Part Number	Description / PDF	Quantity
FA-238 50.0000ME10F-W0 Epson	CRYSTAL 50.0000MHZ 12PF SMD	0
FA-128 54.0000MF15Z-E3 Epson	CRYSTAL 54.0000MHZ 6PF SMD	0
MC-306 32.7680K-AG3: ROHS Epson	CRYSTAL 32.7680KHZ 12.5PF SMD	0
FA-128 48.0000MB30Z-AJ3 Epson	CRYSTAL 48.0000MHZ 8PF SMD	0
TSX-3225 20.0000MF15P-AC0 Epson	CRYSTAL 20.0000MHZ 9PF SMD	0
TSX-3225 27.0000MF10P-C3 Epson	CRYSTAL 27.0000MHZ 18PF SMD	0
MC-146 32.7680KA-C: ROHS Epson	CRYSTAL 32.7680KHZ 18PF SMD	0
FA-128 27.1200MA10V-C0 Epson	CRYSTAL 27.1200MHZ 18PF SMD	0
FA-20H 38.4000MF10Z-AS3 Epson	CRYSTAL 38.4000MHZ 8.5PF SMD	43
FA-20H 16.0000MF12Z-AC Epson	CRYSTAL 16.0000MHZ 9PF SMD	0
MC-146 32.7680KA-E3:ROHS Epson	CRYSTAL 32.7680KHZ 6PF SMD	155
MA-505 24.0000M-C0:ROHS Epson	CRYSTAL 24.0000MHZ 18PF SMD	298
FA-128 37.4000MF10Y-AC5 Epson	CRYSTAL 37.4000MHZ 9PF SMD	0
FA-238V 13.8240MF10P-G5 Epson	CRYSTAL 13.8240MHZ 20PF SMD	0
MA-505 11.0000M-C3:PURE SN Epson	CRYSTAL 11.0000MHZ 18PF SMD	0
FA2016AA 25.00M-N0AAbbJ80RGB Epson	CRYSTAL 25.00MHZ 20PF SMD	0
FA-128 38.4000MF10Z-K0 Epson	CRYSTAL 38.4000MHZ 10PF SMD	0
FA-238 16.0000MB-AG3 Epson	CRYSTAL 16.0000MHZ 7PF SMD	0
TSX-3225 32.0000MF10Z-AC6 Epson	CRYSTAL 32.0000MHZ 9PF SMD	0
FA-128S 38.4000MF10Y-K0 Epson	CRYSTAL 38.4000MHZ 10PF SMD	0

Crystals

1. Overview

Crystals, oscillators, and resonators are passive electronic components that generate stable frequency signals for timing and synchronization in electronic systems. Crystals (e.g., quartz) utilize piezoelectric properties to produce precise oscillations. Oscillators integrate active circuitry to generate periodic signals, while resonators provide frequency-selective feedback. These components are critical in communication systems, computing devices, industrial controls, and consumer electronics.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Quartz Crystals	High frequency stability, low phase noise	Microprocessors, GPS modules, RF transceivers
Ceramic Resonators	Lower cost, moderate stability	Remote controls, toys, low-precision sensors
MEMS Resonators	Miniaturized, shock-resistant	IoT devices, wearables, automotive sensors
Crystal Oscillators (XO)	Integrated driver circuitry	Network switches, test equipment, precision clocks

3. Structure and Composition

A typical quartz crystal consists of a precision-cut piezoelectric wafer (AT-cut or SC-cut), metallized electrodes (silver or gold), and a hermetically sealed package (glass or ceramic). MEMS resonators use silicon-based microstructures with electrostatic or piezoelectric transducers. Ceramic resonators employ zirconium titanate (PZT) materials with printed electrodes.

4. Key Technical Specifications

Parameter	Description	Importance
Frequency Range	Operating frequency band (kHz-MHz)	Determines circuit timing resolution
Frequency Tolerance	Initial accuracy at 25 C (ppm)	Impacts system synchronization
Temperature Stability	Frequency drift over temperature (ppm/ C)	Critical for harsh environments
Equivalent Series Resistance (ESR)	Internal resistance affecting startup time	Impacts oscillator reliability
Aging Rate	Long-term frequency shift (ppm/year)	System longevity consideration

5. Application Fields

Key industries include:

Telecommunications: 5G base stations, optical transceivers
Industrial Automation: PLCs, robotics controllers
Consumer Electronics: Smartphones, smartwatches
Automotive: ECUs, tire pressure sensors
Medical Devices: Pacemakers, diagnostic equipment

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Features
Epson	SG-8003	32.768 kHz TCXO for real-time clocks
Murata	XRCGB32M000F	32 MHz ceramic resonator
SiTime	SiT8924	MEMS-based automotive-grade oscillator
TXC Corporation	9B-26.000MHZ	26 MHz quartz crystal for Bluetooth modules

7. Selection Guidelines

Key considerations:

Required frequency and stability (temperature/vibration)
Power consumption constraints
Environmental operating conditions
Package size and mounting type
Cost vs. precision trade-offs

Example: For IoT edge devices, prioritize MEMS resonators with low power (<10 A) and 50 ppm stability.

8. Industry Trends

Emerging trends include:

Miniaturization: 0.4x0.2 mm MEMS devices for wearable integration
Higher frequency adoption: 100+ MHz crystals for 5G infrastructure
Integrated solutions: Oscillators with built-in frequency modulation
Automotive-grade reliability: AEC-Q100 qualified components for EVs
AI-driven testing: Machine learning for crystal defect detection