In applications such as satellite navigation timekeeping, communication synchronization devices, and 5G base stations, 10MHz is the globally recognized standard frequency reference. The YOV2020DP series 10MHz high-stability temperature-controlled crystal oscillator from YXC, with its ultra-low phase noise, wide operating temperature range, and reliable temperature-controlled design, is the ideal clock source for high-end synchronization and timekeeping applications.
1. Exceptional Performance, Defining ppb-level Clock Standards
The YOV2020DP uses a precision temperature control architecture to tackle industry challenges like frequency drift and phase noise under wide temperature variations, meeting international high-end standards.
Key Parameters:
• Frequency: 10MHz
• Package Size: DIP, 20.220.210.0mm
• Temperature Stability: ±0.5ppb (-40~+85℃), effectively suppressing temperature-induced drift
• Operating Voltage: 3.3V, 5.0V, 12.0V
• Waveform Output: Sine Wave / HCMOS
• Phase Noise: -165dBc/Hz @ 1KHz offset (Typ)
• Domestic Materials: Key components are self-developed and domestically sourced, ensuring supply chain control.
2. Four Key Features Addressing Industry Pain Points
Feature 1: Full Temperature Range ppb-Level Stability
Unlike standard oscillators with ppm-level stability, the YOV2020DP employs a self-designed temperature-controlled chamber, achieving a typical temperature stability of ±0.5ppb in the -40℃ to +85℃ range. Even in extreme temperature fluctuations and heavy vibrations, it maintains precise frequency output, ideal for the stringent requirements of 5G base stations and satellite timekeeping systems.
Feature 2: Superior Phase Noise Performance
With ultra-low phase noise of -165dBc/Hz @ 1KHz, the YOV2020DP ensures pure and stable signals. In high-end applications like communication synchronization and satellite timekeeping, excessive phase noise can lead to signal distortion and synchronization loss. The YOV2020DP series minimizes phase noise, ensuring accurate signal transmission and providing high-purity frequency references for communication networks and satellite systems.
Feature 3: High Compatibility, Reducing System Integration Costs
Supporting 3.3V, 5V, and 12V operating voltages and offering both Sine Wave and HCMOS output modes, the YOV2020DP eliminates the need for additional circuit conversions. This flexibility facilitates integration into various system architectures, reducing development time and integration costs.
Feature 4: Domestic Materials and Quick Delivery
Leveraging a domestic supply chain, the YOV2020DP offers significant cost advantages, with abundant stock, efficient production, and fast shipping. It meets the demands of both sample prototyping and bulk orders, accelerating project implementation.
3. Superior Timing Performance for High-End Communication Applications
With its high stability, reliability, ultra-low phase noise, and high compatibility, the YOV2020DP series 10MHz temperature-controlled crystal oscillator is ideally suited for high-end communication applications:
• 5G Base Stations: Providing stable reference clocks for macro and small cells, ensuring accurate synchronization between base stations and core networks.
• Satellite Navigation Timekeeping: Offering high-stability frequency references for BeiDou/GPS timekeeping terminals and satellite ground stations, improving time accuracy and positioning reliability.
• Communication Synchronization Equipment: Compatible with network time synchronization servers and IEEE 1588v2 modules, ensuring network-wide time alignment.
Conclusion:
The YOV2020DP series 10MHz temperature-controlled crystal oscillator from YXC, with its superior stability, ultra-low phase noise, and high compatibility, maintains precise timing output even in harsh environments. It is widely used in communication base stations, satellite navigation, and timekeeping applications, offering a high-reliability, cost-effective domestic clock solution that supports the high-quality development of the communication industry.
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