Oscillators384 Products
| Image | Part Number | Manufacturer | Description | Availability | Actions | |
|---|---|---|---|---|---|---|
 PDF | TSM21-H50CT18ST-33.333M | Transko Electronics, Inc. | XTAL OSC XO 33.3330MHZ HCMOS SMD | In Stock | MOQ: 1 Hover to quote | |
 PDF | OX-B-5E3MQ-10.000M | Transko Electronics, Inc. | XTAL OSC OCXO 10.0000MHZ SNWV TH | In Stock | MOQ: 1 Hover to quote | |
 PDF | TG32-L25CQ33T1-300.000M-TR | Transko Electronics, Inc. | XTAL OSC XO 300.0000MHZ 6PAD SMD | In Stock | MOQ: 1 Hover to quote | |
 PDF | TSM22-H50CQ33ST-14.31818M | Transko Electronics, Inc. | XTAL OSC XO 14.31818MHZ HCMOS | In Stock | MOQ: 1 Hover to quote | |
 PDF | TX3-L25NR-40.000M | Transko Electronics, Inc. | XTAL OSC TCXO 40.0000MHZ CMOS | In Stock | MOQ: 1 Hover to quote | |
PDF | TG32-L25CQ33T2-270.000M-TR | Transko Electronics, Inc. | XTAL OSC XO 270.0000MHZ 6PAD SMD | In Stock | MOQ: 1 Hover to quote | |
 PDF | TP53A-L25CQ33T1-148.425824M-TR | Transko Electronics, Inc. | XTAL OSC XO 148.425824MHZ 6PAD | In Stock | MOQ: 1 Hover to quote | |
 PDF | TSM53-H50HM33ST-8.192M-TR | Transko Electronics, Inc. | XTAL OSC XO 8.1920MHZ HCMOS SMD | In Stock | MOQ: 1 Hover to quote | |
PDF | TG32-L25CQ25T1-161.1328M-TR | Transko Electronics, Inc. | XTAL OSC XO 161.1328MHZ 6PAD SMD | In Stock | MOQ: 1 Hover to quote | |
PDF | TG32-L25CQ33T2-100.000M-TR | Transko Electronics, Inc. | XTAL OSC XO 100.0000MHZ 6PAD SMD | In Stock | MOQ: 1 Hover to quote | |
 PDF | TSMV-H50CQ33STC2C-35.328M | Transko Electronics, Inc. | 35.328MHz VCXO, 5x7mm, 50ppm, 3. | In Stock | MOQ: 1 Hover to quote | |
 PDF | TX-T30-15JR-19.440M | Transko Electronics, Inc. | XTAL OSC TCXO 19.4400MHZ CMOS | In Stock | MOQ: 1 Hover to quote | |
 PDF | TP75A-L25CQ33T1-122.880M-TR | Transko Electronics, Inc. | XTAL OSC XO 122.8800MHZ 6PAD | In Stock | MOQ: 1 Hover to quote | |
PDF | TP53A-L25CQ33T1-148.3516M-TR | Transko Electronics, Inc. | XTAL OSC XO 148.3516MHZ 6PAD SMD | In Stock | MOQ: 1 Hover to quote | |
PDF | TG32-L25CQ25T1-148.500M-TR | Transko Electronics, Inc. | XTAL OSC XO 148.5000MHZ 6PAD | In Stock | MOQ: 1 Hover to quote | |
PDF | TG32-L25CQ33T1-148.500M-TR | Transko Electronics, Inc. | XTAL OSC XO 148.5000MHZ 6PAD | In Stock | MOQ: 1 Hover to quote | |
PDF | TP53A-L25CQ25T2-125.000M-TR | Transko Electronics, Inc. | XTAL OSC XO 125.0000MHZ 6PAD | In Stock | MOQ: 1 Hover to quote | |
PDF | TP53A-L25CQ25T2-270.000M-TR | Transko Electronics, Inc. | XTAL OSC XO 270.0000MHZ 6PAD | In Stock | MOQ: 1 Hover to quote | |
 PDF | TSM32-H50CQ25ST-33.333M | Transko Electronics, Inc. | XTAL OSC XO 33.3330MHZ HCMOS SMD | In Stock | MOQ: 1 Hover to quote | |
PDF | TSM21-H50HQ18ST-40.000M | Transko Electronics, Inc. | XTAL OSC XO 40.0000MHZ HCMOS SMD | In Stock | MOQ: 1 Hover to quote |
Crystals, Oscillators, and Resonators serve as critical components in frequency control applications, each offering unique characteristics that make them suitable for different electronic design requirements. Crystals, typically crafted from precision-cut quartz, represent the foundational frequency-generating element, providing stability and precise frequency references with low aging rates and minimal temperature drift. Unlike standalone components, crystals require external oscillator circuitry to generate a usable clock signal, which can be both an advantage and limitation in circuit design. Oscillators build upon crystal technology by integrating the crystal with supporting circuitry, creating a self-contained frequency source that eliminates the need for additional external components. This integration offers advantages in complexity reduction and reliability. Advanced oscillator variants like TCXOs (Temperature-Compensated Crystal Oscillators) and VCXO (Voltage Controlled Crystal Oscillator) further enhance frequency stability through temperature compensation mechanisms, making them ideal for high-precision applications such as telecommunications, GPS systems, and network timing infrastructure. Resonators, in contrast, represent a more cost-effective alternative, typically manufactured from ceramic or Surface Acoustic Wave (SAW) materials. While inherently less precise than quartz crystals, resonators excel in applications prioritizing size, cost, and durability over extreme frequency accuracy. Their compact form factor and design make them particularly attractive for consumer electronics, automotive systems, and microcontroller-based designs where moderate frequency stability is acceptable. Resonators typically offer frequency tolerances in the range of ±0.5% to ±0.1%, compared to crystals' remarkable ±0.005% to ±0.05% precision. The selection between these components ultimately depends on a nuanced evaluation of application-specific requirements. Designers must carefully balance factors including frequency accuracy, temperature stability, power consumption, physical size, environmental resilience, and total system cost. For mission-critical systems demanding exceptional precision, quartz crystals and high-grade oscillators remain irreplaceable. Conversely, for cost-sensitive, less demanding applications, ceramic resonators provide an elegant and economical solution. For questions and further information on Crystals, Oscillators, or Resonators visit the Tech Forum. Some common frequencies are: 32.768 kHz – Used in real-time clocks (RTCs) and low-power timing applications. 32768Hz is 215 Hz. Allows binary division for 1 second intervals. 1.8432 MHz – Common for UART baud rate communication in microcontrollers. 1.8342MHz can be divided easily to create standard rates: 115,200 = 1843200/16, 57,600 =1843200/32, etc 16.000 MHz – Frequently used with microcontrollers such as the ATmega328P (Arduino), Zigbee, and Bluetooth BLE. 19.200 MHz – Found in wireless communication devices, such as mobile phones. Used as a reference clock for CDMA/GSM 23.104 MHz – Used for a reference clock for some GPS systems.