220到725 MHz, Ultra-low Jitter Differential XO

The SiT9367 ultra-low-jitter differential oscillator supports any frequency from 220.000001 to 725 MHz in 1 Hz increments. Based on SiTime's unique Elite Platform™, this device delivers exceptional dynamic performance of 0.23 ps jitter (typ.) and ±10 ppm in the presence of common environmental hazards, such as shock, vibration, power supply noise, EMI, and board bending.

除了7.0 x 5.0 mm封装外,SIT9367还提供最小的3.2 x 2.5 mm差分包。该设备支持所有流行的输出亚博电竞信令类型,包括LVPECL,LVDS和HCSL,其中任何电压在2.5到3.3 V之间。

View related products:1 to 60 MHz|70 fs jitter|200 fs jitter|Ruggedized|XO lineup

Small industry standard package enables small form-factor system with stringent jitter requirement
Oscillator Type XO-DE
Frequency 220到725 MHz
频率稳定性(PPM) ±10, ±20, ±25, ±50
阶段抖动(RMS) 0.23 PS.
输出类型 LVPECL, LVDS, HCSL
工作温度范围(°C) -20至+70,-40至+85,-40至+105
Voltage Supply (V) 2.5,2.8,3,3.3
Package Type (mm²) 3.2x2.5, 5.0x3.2, 7.0x5.0
Features 超低抖动
Availability Production

Exceptional dynamic performance in real-life operating conditions

  • 0.23 PS.jitter (typ.)
  • ±10 ppm: Ensures best system performance in hostile environments;

20x better vibration sensitivity

  • 最大限度地减少高振动环境中的数据包丢失

0.05 ps/mV power supply noise rejection (PSNR)

  • 简化电源设计

3.2 x 2.5 mm package

  • Enables small form-factor system with stringent jitter requirement

Flexible programmable features

  • 220到725 MHz
  • 2.25 to 3.63 V
  • LVPECL, LVDS, HCSL: Customized oscillator specifications for optimal system performance;

优越的可靠性

  • 1 billion hours MTBF
  • Lifetime warranty: Reduces field failures due to clock components and associated repair costs
  • 10G to 100G Ethernet
  • Optical modules
  • PCIe
  • FPGA
  • SATA/SAS
  • Fibre channel
  • 系统时钟
  • Serial-data links
  • Wireless & backhaul
  • 光纤,电缆,DSL
  • 安全设备
  • 数据中心

狭窄:

狭窄:

资源名称 Type
硅MEMS可靠性和弹性 Presentations
Performance Comparison: Silicon MEMS Verses Quartz Oscillators Presentations
如何测量精密定时应用中的时钟抖动 Presentations
How to Measure Phase Jitter and Phase Noise in Precision Timing Applications Presentations
Silicon MEMS vs Quartz Supply Chain Presentations
Elite Platform MEMS Super-TCXOs and Oscillators FAQs (S. Chinese) 常见问题解答
Elite平台MEMS Super-TCXO和振荡器常见问题解答(T.中文) 常见问题解答
Elite Platform MEMS Super-TCXOs and Oscillators FAQs (Korean) 常见问题解答
Elite Platform MEMS Super-TCXOs and Oscillators FAQs 常见问题解答
Elite Platform - Transforming the Telecom and Networking Timing Market (Korean) Presentations
Elite Platform - Transforming the Telecom and Networking Timing Market (S. Chinese) Presentations
Elite Platform - Transforming the Telecom and Networking Timing Market (T. Chinese) Presentations
Elite Platform - Transforming the Telecom and Networking Timing Market Presentations
Elite Precision Super-TCXOs for 5G, Small Cell and Time Synchronization (Chinese) Product Briefs
Elite Precision Super-TCXOs for 5G, Small Cell and Time Synchronization (Japanese) Product Briefs
MEMS oscillators improve reliability and system performance in motor control applications White Papers
MEMS-Based Resonators and Oscillators are Now Replacing Quartz Presentations
Getting In Touch with MEMS: The Electromechanical Interface Presentations
SiT9367 Datasheet 数据表s
J-AN10006 発振器のPCBデザインのガイドライン 申请笔记
AN10007 Clock Jitter Definitions and Measurement Methods 申请笔记
J-AN10007 クロックジッタの定義と測定方法 申请笔记
SiTime発振器の信頼性計算方法 Technology Papers
J-AN10028プローブプローブ使使使しししたのの波形波形计测方法 申请笔记
MEMSおよび水晶ベース発振器の電磁場感受率の比較 Technology Papers
基于MEMS和石英振荡器的电磁敏感性比较 Technology Papers
MEMS発振器材と水晶仪器のの比较(耐冲撃と移动) Technology Papers
基于MEMS和石英振荡器的冲击和振动比较 Technology Papers
J-AN10033 発振器の周波数測定ガイドライン 申请笔记
シリコンMEMS発振器の耐性および信頼性 Technology Papers
Resilience and Reliability of Silicon MEMS Oscillators Technology Papers
SITIMEのMEMS FIRST™プロセス技术 Technology Papers
MEMS Resonator Advantages - How MEMS Resonators Work Part 2 Presentations
How to Measure Long-term Jitter and Cycle-to-cycle Jitter in Precision Timing Applications Presentations
Silicon MEMS Oscillator Frequency Characteristics and Measurement Techniques Presentations
SiT9367 250MHz HCSL 弗里克。测试报告
SiT9367 300MHz HCSL 弗里克。测试报告
SIT9367 322.265625MHz HCSL 弗里克。测试报告
SiT9367 325MHz HCSL 弗里克。测试报告
SIT9367 250MHz LVDS 弗里克。测试报告
SiT9367 300MHz LVDS 弗里克。测试报告
SiT9367 322.265625MHz LVDS 弗里克。测试报告
SIT9367 325MHz LVDS. 弗里克。测试报告
SiT9367 250MHz LVPECL 弗里克。测试报告
SiT9367 300MHz LVPECL 弗里克。测试报告
SiT9367 322.265625MHz LVPECL 弗里克。测试报告
SIT9367 325MHz LVPECL. 弗里克。测试报告
AN10029差分振荡器的输出端接 申请笔记
Elite Precision Super-TCXOs for 5G, Small Cell and Time Synchronization Product Briefs
DualMEMS and TurboCompensation Temperature Sensing Technology Technology Papers
AN10061 Inphi PAM4 Performance when Driving Shared Reference Clocks 申请笔记
SC-AN10007 时钟抖动定义与测量方法 申请笔记
通信与企业时序解决方案 Brochures/Fliers
SiT9367 (HCSL, 3.3 V) Ibis模型
SiT9367 (HCSL, 2.5 V) Ibis模型
SIT9367(LVDS,3.3 V) Ibis模型
SiT9367 (LVDS, 2.5 V) Ibis模型
SiT9367 (LVPECL, 3.3 V) Ibis模型
SIT9367(LVPECL,2.5 V) Ibis模型
MEMS时序的优点 - 参数(下载MP4视频) Videos
SiTime MEMS Oscillators - Revolutionizing the Timing Market (Download MP4 Video) Videos
Electronics Summit的环境MEMS振荡器yabo体育手机版和时钟发生器(下载MP4视频) Videos
抖动第1部分:期间抖动概述的原则和实践(Download MP4 Video) Videos
抖动第2部分:相位噪声和相位抖动(下载MP4视频) Videos
抖动第3部分:C2C抖动和长期抖动(下载MP4视频) Videos
抖动第1部分:期间抖动概述的原则和实践 Videos
Jitter Part 2: Phase Noise and Phase Jitter Videos
Jitter Part 3: C2C Jitter and Long Term Jitter Videos
qfn 3225 6-pins 3D步骤模型
QFN 5032 6-PIN带CP 3D步骤模型
QFN 7050 6-Pins with CP 3D步骤模型
AN10066 LVDS Output with 600 mV to 1200 mV Swing 申请笔记
工业时序解决方案 Brochures/Fliers
Smart Network Interface Card (NIC) and IEEE1588 申请简报
100克/ 200克/ 400克/ 800G Optical Modules 申请简报
SiTime MEMS Timing Solutions for Optical Module Videos
Fronthaul and IP RAN Switches 申请简报
光学模块的环境MEMS定时解决方案(下载MP4视频) Videos
SiTime MEMS Timing Solutions for Servers Videos
SiTime MEMS First 工艺 Technology Papers