坐8919BE-82-33E-125.000000

Datasheet
Five industry standard footprints as small as 2016 for all frequencies, voltages, and stabilities

坐8919BE-82-33E-125.000000

Device Type Automotive & High Temp Oscillators
Frequency
125 MHz
Frequency Stability (ppm)
25
Operating Temp. Range (°C)
-40 to 105
Output Type
LVCMOS
Supply Voltage (V)
3.30
Package Size (mm x mm)
7.0x5.0
Package Height (mm)
0.90
Output Drive Strength*
Default
Feature Pin
Output Enable
Pull Range (PPM PR)
n/a
Spread Percentage
n/a
Swing Select
n/a
DC-Coupled Output VOL or AC Swing
n/a
DC-Coupled Output VOH
n/a
RoHS
Yes

*See datasheet for details

Tape & Reel Options

T = 3,000 ct
X = 1,500 ct
Y = 250 ct
  • Five industry standard footprints as small as 2016 for all frequencies, voltages, and stabilities
    enlarge

    Five industry standard footprints as small as 2016 for all frequencies, voltages, and stabilities

  • 坐8919 pin assignments
    enlarge

    坐8919 pin assignments

  • 坐8919 block diagram
    enlarge

    坐8919 block diagram

Unique combination of

  • High frequency (115 to 137 MHz)
  • ±20 ppm
  • automotive temp. (-40 to 125 °C)
  • Smallest package (2.0 x 1.6 mmxmm)
    • Better timing margin ideal for space-constrained, outdoor and high-temp. operating environment

0.1 ppb/glowg-sensitivity

  • Improved system performance under vibration
  • Simpler carrier drop-test compliance

70gvibration and 50,000gshock

  • Best system reliability in harsh environments

FlexEdge™ drive strength

  • Slower rise/fall time that minimizes EMI from the oscillator
  • Lower cost by driving multiple loads and eliminate additional timing components

5 industry-standard packages

  • 100% drop-in replacement of quartz XO

Ultra-fast lead time (4 to 6 weeks)

  • Reduce inventory overhead
  • Mitigate shortage risks

  • Industrial sensors
  • Servo motors
  • Industrial control systems
  • High-temp. networking gears
  • Medical video CAM
  • Asset tracking
  • Precision GNSS
  • GPS/GNSS modules

Narrow By:

Document Name Type
4L-QFN Package Composition Report (SiT160X, SiT800X, SiT1618, SiT89XX) Composition Reports
Electronics Industry Citizen Coalition Template Other Quality Documents
Manufacturing Notes for SiTime Products Other Quality Documents
坐ime Conflict Metal Declaration Other Quality Documents
坐ime Environmental Policy Other Quality Documents
坐ime Warranty on Date Code Other Quality Documents
Conflict Minerals Reporting Template Other Quality Documents
坐ime Oscillator Reliability Report (0.18 micron CMOS process products) Reliability Reports
4L-QFN Package Qualification Report - UTAC Reliability Reports
4L-QFN Package Qualification Report - ASE Reliability Reports
4L-QFN Package Qualification Report - Carsem Reliability Reports
坐16XX, SiT89XX High Temp Product Qualification Report Reliability Reports
TSMC Wafer SGS Report RoHS/Reach/Green Certificates
Tower Jazz Wafer SGS Report RoHS/Reach/Green Certificates
4L/6L-QFN Package Homogeneous Materials and SGS Report RoHS/Reach/Green Certificates
BOSCH Wafer SGS Report RoHS/Reach/Green Certificates
WLCSP Package Homogeneous Materials and SGS Report RoHS/Reach/Green Certificates
坐ime Environmental Compliance Declaration RoHS/Reach/Green Certificates
Certificate of Compliance-EU RoHS Declaration RoHS/Reach/Green Certificates

Eval Boards(Contact SiTime)– SiT6095 (2016) | SiT6081 (2520) | SiT6082 (3225) | SiT6083 (5032) | SiT6084 (7050)

Frequency Slope (dF/dT) Calculator– Calculate frequency slope over temperature

Time Machine II Programmer– Program frequency, voltage, stability & more

Reliability Calculator– Get FIT/MTBF data for various operating conditions

2016 4-Pins|2520 4-Pins|3225 4-Pins|5032 4-Pins|7050 4-Pins– Preview packages with QFN 3D step models

Narrow By:

Resource Name Type
坐8919 125MHz LVCMOS Freq. Test Reports
坐8919 133MHz LVCMOS Freq. Test Reports
坐8919 (LVCMOS, 1.8 V) IBIS Models
坐8919 (LVCMOS, 2.5 V) IBIS Models
坐8919 (LVCMOS, 2.8 V) IBIS Models
坐8919 (LVCMOS, 3.0 V) IBIS Models
坐8919 (LVCMOS, 3.3 V) IBIS Models
坐8919 (LVCMOS, 2.25 to 3.63 V) IBIS Models
Silicon MEMS Reliability and Resilience Presentations
Performance Comparison: Silicon MEMS Verses Quartz Oscillators Presentations
MEMS Oscillators Enhance Clock Performance in Industrial and Hi-Reliability Applications Presentations
How to Measure Clock Jitter in Precision Timing Applications Presentations
How to Measure Phase Jitter and Phase Noise in Precision Timing Applications Presentations
How to Get Instant Oscillators with SiTime's New Field Programmer Presentations
Silicon MEMS vs Quartz Supply Chain Presentations
Enhance Performance of Industrial Equipment with High-temperature, Ultra Robust MEMS Oscillators White Papers
Silicon MEMS Oscillators Provide Benefits for LED Lighting White Papers
MEMS Timing Solutions Improve Touchscreen Devices White Papers
Field Programmable Timing Solutions for Medical Applications White Papers
Ultra-robust MEMS timing solutions improve performance and reliability in meter applications White Papers
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
Field Programmable Oscillators Datasheet Datasheets
坐8919 Datasheet Datasheets
Time Machine II MEMS Oscillator Programmer Product Briefs
J-AN10002 シングルエンド発振器の推奨終端方法 Application Notes
AN10002 Termination Recommendations for Single-ended Oscillator Driving Single or Multiple Loads Application Notes
J-AN10006 発振器のPCBデザインのガイドライン Application Notes
AN10006 Best Design and Layout Practices Application Notes
AN10007 Clock Jitter Definitions and Measurement Methods Application Notes
J-AN10007 クロックジッタの定義と測定方法 Application Notes
坐ime発振器の信頼性計算方法 Technology Papers
AN10025 Reliability Calculations for SiTime Oscillators Application Notes
J-AN10028 プローブを使用した発振器の出力波形計測方法 Application Notes
AN10028 Probing Oscillator Output Application Notes
MEMSおよび水晶ベース発振器の電磁場感受率の比較 Technology Papers
Electromagnetic Susceptibility Comparison of MEMS and Quartz-based Oscillators Technology Papers
MEMS発振器と水晶発振器の性能比較(耐衝撃と耐振動) Technology Papers
Shock and Vibration Comparison of MEMS and Quartz-based Oscillators Technology Papers
J-AN10033 発振器の周波数測定ガイドライン Application Notes
AN10033 Frequency Measurement Guidelines for Oscillators Application Notes
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
坐imeの MEMS First™ プロセス技術 Technology Papers
坐ime's MEMS First™ and EpiSeal™ Processes Technology Papers
The top 8 reasons to use an oscillator instead of a crystal resonator White 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
SC-AN10007 时钟抖动定义与测量方法 Application Notes
SC-AN10033 振荡器频率测量指南 Application Notes
Phase Noise Measurement Tutorial Videos
PCI Express Refclk Jitter Compliance using a Phase Noise Analyzer Presentations
Advantages of MEMS Timing - Parameters Videos
坐ime MEMS Oscillators - Revolutionizing the Timing Market Videos
坐ime's Time Machine II - Part 1: How to Install Oscillator Programming Software Videos
坐ime's Time Machine II - Part 2: How to Program Field Programmable Oscillators Videos
QFN 2016 4-Pins 3D Step Models
QFN 2520 4-Pins 3D Step Models
QFN 3225 4-Pins 3D Step Models
QFN 5032 4-Pins 3D Step Models
QFN 7050 4-Pins 3D Step Models
Timing Solutions for Industrial Brochures/Fliers
SiTime MEMS第一工艺 Technology Papers
AN10073 How to Setup a Real-time Oscilloscope to Measure Jitter Application Notes
AN10071 Computing TIE Crest Factors for Telecom Applications Application Notes
AN10070 Computing TIE Crest Factors for Non-telecom Applications Application Notes
AN10072 Determine the Dominant Source of Phase Noise, by Inspection Application Notes
AN10074 Removing Oscilloscope Noise from RMS Jitter Measurements Application Notes

Subscribe to news and updates