Oscillators

Part Number	Description / PDF	Quantity
XNCLH49M152CHJA7P0 TOKO / Murata	CRYSTAL OSCILLATOR TCXO 49.152MH	2000
XTCLH25M000TJJA5P2 TOKO / Murata	XTAL OSC VCTCXO 25.0000MHZ SNWV	137
XTCLH26M000TJJA6P2 TOKO / Murata	XTAL OSC VCTCXO 26.0000MHZ SNWV	100
XTCLH19M200TJJC3P2 TOKO / Murata	XTAL OSC VCTCXO 19.2000MHZ SNWV	100
XTCLH24M576CHJA2P0 TOKO / Murata	XTAL OSC VCTCXO 24.5760MHZ CMOS	0
XNCLH12M800CHJB3P0 TOKO / Murata	CRYSTAL OSCILLATOR TCXO 12.8MHZ	0
XNCLH24M000CHJA3P0 TOKO / Murata	CRYSTAL OSCILLATOR TCXO 24MHZ CM	0
XNCLH24M576CHJA9P0 TOKO / Murata	CRYSTAL OSCILLATOR TCXO 24.576MH	0
HO4001-1 TOKO / Murata	XTAL OSC SO 1.0000GHZ SNWV TH	0
XNCLH25M600CHJA1P0 TOKO / Murata	CRYSTAL OSCILLATOR TCXO 25.6MHZ	0
XNCLH19M440CHJA3P0 TOKO / Murata	CRYSTAL OSCILLATOR TCXO 19.44MHZ	0
XTCLH24M000CHJA2P0 TOKO / Murata	XTAL OSC VCTCXO 24.0000MHZ CMOS	0
XNCLH12M800CJKB2P0 TOKO / Murata	CRYSTAL OSCILLATOR TCXO 12.8MHZ	0
OP4005B1 TOKO / Murata	XTAL OSC VCSO 622.0800MHZ SNWV	0
XNCLH24M000CHJA2P0 TOKO / Murata	CRYSTAL OSCILLATOR TCXO 24MHZ CM	0
XNCLH24M576CHJA8P0 TOKO / Murata	CRYSTAL OSCILLATOR TCXO 24.576MH	0
HO4002-1 TOKO / Murata	XTAL OSC SO 400.0000MHZ SNWV TH	0
XTCLH25M600CHJA0P0 TOKO / Murata	XTAL OSC VCTCXO 25.6000MHZ CMOS	0
XNCLH40M000CHJA4P0 TOKO / Murata	XTAL OSC TCXO 40.0000MHZ CMOS	0
XTC7006 TOKO / Murata	XTAL OSC TCXO 26.0000MHZ SNWV	0

Oscillators

1. Overview

Oscillators are electronic components that generate stable periodic signals, serving as frequency references in electronic systems. Crystals and resonators are core elements that determine frequency stability through mechanical vibration. These components are critical in modern technology for ensuring synchronization, timing accuracy, and signal integrity in applications ranging from consumer electronics to aerospace systems.

2. Main Types and Functional Classification

Type	Functional Characteristics	Application Examples
Crystal Oscillator (XO)	Fixed frequency output, high stability	Microcontrollers, clocks
Voltage-Controlled Crystal Oscillator (VCXO)	Frequency adjustable via control voltage	Telecom networks, phase-locked loops
Temperature-Compensated Crystal Oscillator (TCXO)	Integrated temperature compensation circuit	GPS devices, mobile phones
Oven-Controlled Crystal Oscillator (OCXO)	Heated enclosure for ultra-high stability	Test equipment, military radar
Microwave Resonator	High-frequency operation using dielectric materials	5G base stations, satellite communication

3. Structure and Components

A typical oscillator consists of:

Crystal unit (quartz or ceramic resonator)
Amplification circuit (transistor/IC)
Feedback network (LC/pi-filter)
Power supply regulation
Metal/ceramic hermetic enclosure

Quartz crystals are cut in AT or SC configurations for optimal temperature response. Advanced packages integrate phase noise reduction circuitry and digital control interfaces.

4. Key Technical Specifications

Parameter	Description	Importance
Frequency Range	Operational frequency band (kHz to GHz)	Determines application suitability
Stability (ppm)	Frequency deviation over temperature/time	System reliability indicator
Phase Noise	Short-term frequency fluctuations (dBc/Hz)	Critical for RF communication
Start-up Time	Time to reach stable oscillation	Power-sensitive applications
Operating Temperature	Functional temperature range	Environmental adaptability

5. Application Fields

Telecommunications: 5G base stations, optical transceivers
Consumer Electronics: Smartphones, wearables
Automotive: ADAS sensors, engine control units (ECUs)
Industrial: Test equipment, precision sensors
Aerospace: Satellite navigation systems, flight computers

Case Study

The SiTime SiT5358 MEMS oscillator ( 0.1ppm stability) enables 5G small cells to maintain synchronization within 1588v2 standards. Compared to traditional TCXO solutions, it reduces holdover drift by 80% while maintaining better vibration resistance.

6. Leading Manufacturers and Products

Manufacturer	Representative Product	Key Specifications
Epson	TG-5500	32.768kHz TCXO, 0.03ppm stability
SiTime	SiT8924	0.1ppm MEMS oscillator with 70MHz output
TXC Corporation	7B-26.000MAAJ	26MHz VCXO for Bluetooth modules
Crystek	CFOV-950-100.000	100MHz OCXO with -145dBc/Hz phase noise

7. Selection Guidelines

Determine frequency requirements (fundamental vs overtone mode)
Evaluate stability needs (temperature range, aging tolerance)
Assess phase noise requirements (critical for high-speed ADC/DAC)
Consider package size (common: 2016, 3225, 5032)
Verify power consumption (important for IoT devices)
Select appropriate compensation method (TCXO vs OCXO)

8. Industry Trends

Key developments include:

MEMS oscillators replacing quartz in high-vibration environments
Integration of digital control (I2C programmable oscillators)
Development of sub-ppm stability at consumer price points
Miniaturization to meet wearable device demands
Increased adoption of differential output formats (LVPECL, HCSL)

The market is projected to grow at 6.8% CAGR through 2028, driven by 5G infrastructure and automotive electronics demand.