| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
Silicon Labs |
XTAL OSC PROG XO CMOS 1.8V 50PPM |
0 |
|
 |
Epson |
XTAL OSC PROG XO CMOS DWN SPRD |
1019 |
|
 |
Cardinal Components |
OSC PROG CMOS 3.3V 50PPM EN/DS |
161 |
|
 |
Abracon |
XTAL OSC PROG VCTCXO LVPECL 3.3V |
59 |
|
 |
Silicon Labs |
XTAL OSC PROG XO HCSL 3.3V 50PPM |
0 |
|
 |
Epson |
XTAL OSC PROG XO CMOS CTR SPRD |
112 |
|
 |
Abracon |
MEMS OSC PROG BLANK 1MHZ-150MHZ |
0 |
|
 |
Epson |
XTAL OSC PROG XO CMOS CTR SPRD |
386 |
|
 |
Epson |
XTAL OSC PROG XO CMOS DWN SPRD |
1019 |
|
 |
Epson |
XTAL OSC PROG XO CMOS CTR SPRD |
180 |
|
 |
Silicon Labs |
XTAL OSC PROG XO CML 3.3V 7PPM |
0 |
|
 |
Epson |
XTAL OSC PROG XO CMOS CTR SPRD |
1019 |
|
 |
Silicon Labs |
XTAL OSC PROG XO HCSL 1.8V 25PPM |
0 |
|
 |
Epson |
XTAL OSC PROG BLANK 50MHZ-800MHZ |
0 |
|
 |
Epson |
XTAL OSC PROG XO CMOS CTR SPRD |
386 |
|
 |
Epson |
XTAL OSC PROG XO CMOS DWN SPRD |
112 |
|
 |
Epson |
XTAL OSC PROG XO CMOS DWN SPRD |
112 |
|
 |
Epson |
XTAL OSC PROG XO CMOS CTR SPRD |
386 |
|
 |
Epson |
XTAL OSC PROG XO CMOS CTR SPRD |
112 |
|
 |
Silicon Labs |
XTAL OSC PROG XO HCSL 3.3V 50PPM |
0 |
|
Programmable oscillators are frequency generation devices that allow dynamic adjustment of output frequency through digital control. Unlike fixed-frequency crystals or resonators, these oscillators use phase-locked loop (PLL) circuits or direct digital synthesis (DDS) to achieve precise frequency tuning. Their adaptability makes them critical components in modern communication systems, industrial automation, and high-speed computing equipment where frequency agility and phase noise optimization are required.
| Type | Functional Features | Application Examples |
|---|---|---|
| Phase-Locked Loop (PLL) Oscillators | Frequency synthesis through feedback control, offers high stability | Wireless base stations, frequency converters |
| Direct Digital Synthesis (DDS) | Programmable frequency resolution down to micro-Hertz levels | Test equipment, medical imaging systems |
| Temperature-Compensated Oscillators (TCXO) | Embedded temperature sensors for stability in varying environments | GPS receivers, automotive navigation systems |
| Voltage-Controlled Crystal Oscillators (VCXO) | Analog frequency adjustment via control voltage | Telecom transceivers, precision timing devices |
Typical programmable oscillator architecture includes: 1) Quartz crystal or MEMS resonator for base frequency reference 2) PLL/DDS circuit with programmable dividers 3) Digital control interface (I2C/SPI) 4) Voltage-controlled oscillator core 5) Output buffer amplifier 6) Temperature compensation module (for TCXO variants) Advanced packages integrate EEPROM for storing configuration profiles and phase noise optimization algorithms.
| Parameter | Importance | Typical Values |
|---|---|---|
| Frequency Range | Determines application suitability | 10 MHz - 1.5 GHz |
| Phase Noise | Critical for signal integrity | -150 to -165 dBc/Hz @ 1kHz offset |
| Tuning Resolution | Affects precision capability | 0.1 Hz - 10 kHz |
| Power Consumption | Key for portable devices | 50-300 mA |
| Temperature Stability | Impacts long-term reliability | 0.5 to 2.5 ppm |
| Startup Time | Determines system response speed | 1-10 ms |
| Manufacturer | Product Series | Key Features |
|---|---|---|
| SiTime | SiT8924 | MEMS-based, 20 ppm stability, 10-110 MHz range |
| Texas Instruments | LMX2594 | 15 GHz PLL with integrated VCO, <35 fs jitter |
| Analog Devices | AD9914 | 125 MHz DDS with 48-bit tuning word |
| STMicroelectronics | VL53L3CX | Time-of-flight sensor with integrated oscillator |
Key development directions include: - Integration of AI-based frequency prediction algorithms - MEMS resonator adoption enabling higher shock resistance - Sub-100 femtosecond jitter performance through advanced PLL architectures - System-on-Chip (SoC) integration reducing external component requirements - Expansion into millimeter-wave frequency bands (above 30 GHz) - Energy harvesting capabilities for IoT applications