Solutions
- Solutions Overview
vip亚博 APP亚博娱乐 Request Samples
Products
- Products Overview
APP亚博娱乐
- 坐95145
- 坐95147
- 坐95148
- 坐95141
- 坐95143
- 坐9120
- 坐9121
- 坐9122
- 坐9365
- 坐9366
- 坐9367
- 坐9501
- 坐9375
- 坐1602
- 坐2001
- 坐2002
- 坐8008
- 坐8009
- 坐8208
- 坐8209
- 坐1618
- SiT2018
- 坐2019
- 坐2020
- 坐2021
- 坐2024
- 坐2025
- SiT8918
- 坐8919
- 坐8920
- 坐8921
- 坐8924
- 坐8925
- SIT9386
- 坐9387
- 坐9025
- 坐9002
- 坐9003
- 坐9005
- 坐3372
- 坐3373
- 坐3807
- 坐3808
- 坐3809
- 坐3907
- 坐3921
- 坐3922
- 坐3521
- 坐3522
- 坐5711
- 坐5721
- 坐5155
- 坐5156
- 坐5157
- 坐5356
- 坐5357
- 坐5359
- 坐5358
- 坐5021
- 坐5022
- 坐5008
- 坐5186
- 坐5187
- 坐5386
- 坐5387
- 坐5146
- 坐5147
- 坐5346
- 坐5348
- 坐5349
- 坐5347
- 坐2045
- 坐2044
- 坐8945
- 坐8944
- 坐9045
- 坐9346
- 坐9347
- 坐3541
- 坐3542
- 坐3343
- 坐3342
- 坐1580
- 坐1581
- 坐1532
- 坐1533
- 坐1572
- 坐1630
- 坐1573
- 坐1552
- 坐1566
- 坐1568
- 坐1534
- 坐1569
- 坐1576
- 坐1579
- 坐8021
- 坐1252 Embedded MEMS kHz Resonator
- 坐11XX
- Description:
  Low Jitter, 10-output MEMS Jitter Cleaner
- Description:
  Low Jitter, 8-output MEMS Network Synchronizer
- Description:
  Low Jitter, 11-output MEMS Network Synchronizer
- Description:
  Low Jitter, 10-output MEMS Clock Generator
- Description:
  Low Jitter, 11-output MEMS Clock Generator
- Description:
  Standard Frequency ±10 to ±50 ppm Differential XO
- Description:
  1 to 220 MHz, ±10 to ±50 ppm Differential XO
- Description:
  220 to 625 MHz, ±10 to ±50 ppm Differential XO
- Description:
  Standard Frequency Ultra-low Jitter Differential XO
- Description:
  1 to 220 MHz, Ultra-low Jitter Differential XO
- Description:
  220 to 725 MHz, Ultra-low Jitter Differential XO
- Description:
  Ultra-low Jitter Differential XO for Standard Networking Frequencies
- Description:
  Low Jitter Differential XO for Standard Networking Frequencies
- Description:
  3.57 to 77.76 MHz, Low Power Oscillator
- Description:
  1 to 110 MHz, SOT23 Oscillator
- Description:
  115 to 137 MHz, SOT23 Oscillator
- Description:
  1 to 110 MHz, Low Power Oscillator
- Description:
  115 to 137 MHz, Low Power Oscillator
- Description:
  1 to 80 MHz, ±10 to ±50 ppm Oscillator
- Description:
  80 to 220 MHz, ±10 to ±50 ppm Oscillator
- Description:
  Standard Frequency, High Temperature Oscillator
- Description:
  1 to 110 MHz, High Temperature (-40 to +125°C) SOT23 Oscillator
- Description:
  115 to 137 MHz, High Temperature (-40 to +125°C) SOT23 Oscillator
- Description:
  1 to 110 MHz, Wide Temperature (-55 to +125°C) SOT23 Oscillator
- Description:
  119到137 MHz,宽Temperature (-55 to +125°C) SOT23 Oscillator
- Description:
  1 to 110 MHz, Wide Temperature AEC-Q100 SOT23 Oscillator
- Description:
  115 to 137 MHz, Wide Temperature AEC-Q100 SOT23 Oscillator
- Description:
  1 to 110 MHz, High Temperature Oscillator (-40 to +125°C)
- Description:
  115 to 137 MHz, High Temperature Oscillator (-40 to +125°C)
- Description:
  1 to 110 MHz, Wide Temperature Oscillator (-55 to +125°C)
- Description:
  119到137 MHz,宽Temperature Oscillator (-55 to +125°C)
- Description:
  1 to 110 MHz, Wide Temperature AEC-Q100 Oscillator (-55 to +125°C)
- Description:
  115 to 137 MHz, Wide Temperature AEC-Q100 Oscillator (-55 to +125°C)
- Description:
  1 to 220 MHz, AEC-Q100 Ultra-low Jitter Differential XO
- Description:
  220 to 725 MHz, AEC-Q100 Ultra-low Jitter Differential XO
- Description:
  1 to 150 MHz, AEC-Q100 Spread-spectrum Oscillator
- Description:
  1 to 220 MHz, Differential Spread-spectrum Oscillator
- Description:
  1 to 110 MHz, Low Power Spread-spectrum Oscillator
- Description:
  1 to 141 MHz, Spread-spectrum Oscillator
- Description:
  1 to 220 MHz Ultra-low Jitter Differential VCXO
- Description:
  220 to 725 MHz Ultra-low Jitter Differential VCXO
- Description:
  Standard Frequency VCXO
- Description:
  1 to 80 MHz, ±10 to ±50 ppm VCXO
- Description:
  80 to 220 MHz, ±10 to ±50 ppm VCXO
- Description:
  1 to 220 MHz, ±10 to ±50 ppm Digitally-controlled XO
- Description:
  1 to 220 MHz, Differential Digitally-controlled XO
- Description:
  220 to 625 MHz, Differential Digitally-controlled XO
- Description:
  1 to 340 MHz I2C/SPI Programmable Oscillator
- Description:
  340 to 725 MHz I2C/SPI Programmable Oscillator
- Description:
  1 to 60 MHz, Stratum 3E OCXO
- Description:
  1 to 60 MHz, Stratum 3E DCOCXO
- Description:
  ±0.5 ppm Super-TCXO for GNSS/GPS
- Description:
  1 to 60 MHz, ±0.5 to ±2.5 ppm Super-TCXO
- Description:
  60 to 220 MHz, ±0.5 to ±2.5 ppm Super-TCXO
- Description:
  1 to 60 MHz, Stratum 3 Super-TCXO
- Description:
  60 to 220 MHz, Stratum 3 Super-TCXO
- Description:
  60 to 220 MHz, ±50 ppb Super-TCXO
- Description:
  1 to 60 MHz, ±50 ppb Super-TCXO
- Description:
  1 to 220 MHz, ±5 ppm Differential (VC)TCXO
- Description:
  220 to 625 MHz, ±5 ppm Differential (VC)TCXO
- Description:
  ±2 to ±10 ppm Low-Power TCXO, 10 to 60 MHz
- Description:
  1 to 60 MHz, ±0.5 to ±2.5 ppm AEC-Q100 Super-TCXO
- Description:
  60 to 220 MHz, ±0.5 to ±2.5 ppm AEC-Q100 Super-TCXO
- Description:
  1 to 60 MHz, ±0.1 to ±2.5 ppm AEC-Q100 Super-TCXO
- Description:
  60 to 220 MHz, ±0.1 to ±2.5 ppm AEC-Q100 Super-TCXO
- Description:
  1 to 60 MHz, ±0.5 to ±2.5 ppm Super-TCXO
- Description:
  60 to 220 MHz, ±0.5 to ±2.5 ppm Super-TCXO
- Description:
  1 to 60 MHz, ±0.1 to ±0.25 ppm precision Super-TCXO
- Description:
  1 to 60 MHz, ±50-ppb precision Super-TCXO
- Description:
  60 to 220 MHz, ±50-ppb precision Super-TCXO
- Description:
  60 to 220 MHz, ±0.1 to ±0.25 ppm precision Super-TCXO
- Description:
  115 to 137 MHz, Extended Temperature (-55 °C to 125 °C) SOT-23 Oscillator
- Description:
  1 to 110 MHz, Extended Temperature (-55 °C to 125 °C) SOT-23 Oscillator
- Description:
  115 to 137 MHz, Extended Temperature (-55 °C to 125 °C) Oscillator
- Description:
  1 to 110 MHz, Extended Temperature (-55 °C to 125 °C) Oscillator
- Description:
  1 to 150 MHz, Spread-spectrum, Extended Temperature (-55°C to 125 °C)
- Description:
  1 to 220 MHz, Ultra-low Jitter, ±10 to ±50 ppm Differential Oscillator
- Description:
  220 to 725 MHz, Ultra-low Jitter, ±10 to ±50 ppm Differential Oscillator
- Description:
  1 to 340 MHz, Ultra-Low Jitter, ±20 to ±50 ppm, I2C Programmable Oscillator
- Description:
  340 to 725 MHz, Ultra-Low Jitter, ±20 to ±50 ppm, I2C Programmable Oscillator
- Description:
  220 to 725 MHz, Ultra-Low Jitter, ±15 to ±50 ppm VCXO
- Description:
  1 to 220 MHz, Ultra-Low Jitter, ±15 to ±50 ppm VCXO
- Description:
  Ultra-Small, Low-Power, Low-Jitter, ±5 ppm, 32.768 kHz TCXO
- Description:
  Ultra-Small, Low-Power, Low-Jitter, 1 Hz to 2.5 MHz Oscillator
- Description:
  Ultra-Small µPower, 32.768 kHz Quartz XTAL Replacement
- Description:
  µPower, 32.768 kHz Quartz XTAL Replacement
- Description:
  Ultra-Small Low-Jitter, 32.768 kHz ±50 ppm Oscillator
- Description:
  Ultra-Low Power, Ultra-Small 32.768 kHz or 16.384 kHz Oscillator
- Description:
  Ultra-Small Low-Jitter, 32.768-kHz ±100-ppm Oscillator
- Description:
  Ultra-Small µPower, ±5 to ±20 ppm, 32.768 kHz TCXO
- Description:
  Ultra-Small, Low-Power, Low-Jitter, ±3 to ±5 ppm, 32.768 kHz TCXO
- Description:
  超薄低功率,±5 ppm, 32.768 kHz TCXO智慧h In-System Auto-Calibration
- Description:
  Ultra-Small µPower, 1 Hz to 32.768 kHz Oscillator
- Description:
  Ultra-Small Low Power, 1 Hz to 462.5 kHz, ±50 ppm Oscillator
- Description:
  Ultra-Small Low Power, Low-Jitter, 1 Hz to 2.5 MHz TCXO
- Description:
  Ultra-Small, Low-Power, Low-Jitter, 1 Hz to 2.5 MHz Oscillator
- Description:
  1 to 26 MHz, Ultra-Small µPower Oscillator
- Description:
  坐1252 Embedded MEMS kHz Resonator
- Description:
  ApexMEMS MHz Resonators, 0.18 mm2
亚博电竞
- Support Overview
Company
- Company Overview
- About
- Innovations
- Careers
- News
- Events
- Awards
- Leadership
- Board of Directors
- Contact Us
Investors
- Investors Overview

坐1552

Ultra-Small µPower, ±5 to ±20 ppm, 32.768 kHz TCXO

坐ime's TempFlat MEMS technology enables the first 32 kHz TCXO in a 1.2mm2 chip-scale package, the world's smallest footprint. Typical core supply current is only 1 μA. And unlike standard oscillators, the SiT1552 features NanoDrive™, a factory-programmable output that reduces voltage swing to minimize power. The SiT1552 is factory calibrated over multiple temperature points to guarantee extremely tight frequency stability from ±5 ppm to ±20 ppm (initial and over temperature).

Video Demo: The SiT1552 is placed in temperature chamber that increases temp. from < -40 to +85 °C at a fast ramp rate of 4 degrees per second.

View related products:1 Hz to 2.5 MHz|2.5 ns phase jitter|±3 ppm

Oscillator Type	32kHz TCXO
Frequency	32.768 kHz
Frequency Stability (ppm)	±5, ±10, ±20
Output Type	LVCMOS, NanoDrive™
NanoDrive™	300mV to 700mV, full swing LVCMOS
Operating Temperature Range (°C)	-0 to +70, -40 to +85
Voltage Supply (V)	1.5 to 3.63
Package Type (mm²)	1.5x0.8
Features	Smallest size
Availability	Production

±10 ppm all-inclusive frequency stability

Improved local timekeeping and improved system power with less dependency on network timekeeping updates with mobile and wearable devices

Smallest footprint in chip-scale (CSP)

1.5 x 0.8 mm: Saves board space

NanoPower: 990 nA (typ.)

Maximizes battery life

NanoDrive™ reduced swing oscillator output

Programmable output swing minimizes power

Internal VDD supply filtering

Eliminates external VDD bypass capacitor to maintain ultra-small footprint

Smart meters (AMR)
Health and wellness monitors
Pulse-per-second (PPS) timekeeping
医疗电子设备
Retail electronics
Long-range communications
Machine to machine (M2M)
Asset tracking
Smart farming
Smart city
Smartwatch
Fitness tracker
Home appliances

Document Name	Type
WLCSP Package Composition Report (SiT15XX, SiT8021)	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 (16.72 kB)	Other Quality Documents
ISO9001:2015 Certificate of Registration	Other Quality Documents
Conflict Minerals Reporting Template	Other Quality Documents
坐ime Oscillator Reliability Report (0.18 micron CMOS process products)	Reliability Reports
坐1552 Product Qualification Report	Reliability Reports
坐153X, SiT1552, SiT163X Product Qualification Report	Reliability Reports
TSMC Wafer SGS Report	RoHS/Reach/Green Certificates
Tower Jazz Wafer 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

坐6098 (1508) Evaluation Board User Manual– Evaluate oscillator performance

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

CSP 1508 4-Pins3D Step Model– Preview oscillator packages in 3D

Resource Name	Type
Silicon MEMS Reliability and Resilience	Presentations
Performance Comparison: Silicon MEMS Verses Quartz Oscillators	Presentations
How to Measure Clock Jitter in Precision Timing Applications	Presentations
How to Measure Phase Jitter and Phase Noise in Precision Timing Applications	Presentations
Silicon MEMS vs Quartz Supply Chain	Presentations
坐1552 32kHz TCXO FAQs	FAQs
Extending Battery Life of Wireless Medical Devices	White Papers
MEMS Oscillators: Enabling Smaller, Lower Power Wearables	White Papers
Silicon MEMS Oscillators Provide Benefits for LED Lighting	White Papers
MEMS Timekeeper Extends Standby Life of Mobile Devices	White Papers
MEMS Timing Solutions Improve Touchscreen Devices	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
Smart Clocking Techniques Extend Battery Life of Wearables	Presentations
坐1552 Datasheet	Datasheets
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
J-AN10037 低消費電力MCUの32 kHz発振動作モードに対する SiT15xx製品の最適なドライブ出力設定	Application Notes
AN10037 Optimized SiT15xx Drive Settings for 32 kHz Inputs of Low Power MCUs	Application Notes
J-AN10043 SiT15xxシリーズ（32 kHz発振器）の測定ガイドライン	Application Notes
AN10043 Measurement Guidelines for 32 kHz SiT15xx 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
J-AN10046 32 kHz Nano-Power MEMS 発振器による複数負荷駆動	Application Notes
AN10046 Driving Multiple Loads with 32 kHz Nano-Power MEMS Oscillators	Application Notes
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
AN10052 IEEE 1588 Precision Time Protocol (PTP) in ITU-T Standards	Application Notes
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
AN10062 Phase Noise Measurement Guide for Oscillators	Application Notes
Phase Noise Measurement Tutorial	Videos
Phase Noise Measurement Tutorial (Download MP4 Video)	Videos
PCI Express Refclk Jitter Compliance using a Phase Noise Analyzer	Presentations
Advantages of MEMS Timing - Parameters (Download MP4 Video)	Videos
Silicon Replaces Quartz (Chinese Subtitles) (Download MP4 Video)	Videos
Silicon Replaces Quartz (Japanese Subtitles) (Download MP4 Video)	Videos
坐1552 32 kHz TCXO Stability over Temperature (Download MP4 Video)	Videos
坐ime MEMS Oscillators - Revolutionizing the Timing Market (Download MP4 Video)	Videos
坐ime MEMS Oscillators and Clock Generators at Electronics Summit (Download MP4 Video)	Videos
Training Module: Replacing Crystals with Oscillators (Download MP4 Video)	Videos
为物联网SiTime如何节省空间,可穿戴,手机域名le Applications	Videos
为物联网SiTime如何节省空间,可穿戴,手机域名le Applications (Download MP4 Video)	Videos
CSP 1508 4-Pins	3D Step Models
坐ime MEMS Timing Solutions (8.5x11)	Brochures/Fliers
坐ime MEMS Timing Solutions (A4)	Brochures/Fliers
坐ime MEMS Timing Solutions (A4) Chinese	Brochures/Fliers
Timing Solutions for Mobile & IoT	Brochures/Fliers
坐6098EBB Evaluation Board User Manual	User Manuals
Silicon Replaces Quartz (Japanese Subtitles)	Videos
Silicon Replaces Quartz (Chinese Subtitles)	Videos
Smart Meters	Application Briefs
坐1552 (LVCMOS, 1.5 V)	IBIS Models
坐1552 (LVCMOS, 1.8 V)	IBIS Models
坐1552 (LVCMOS, 3.3 V)	IBIS Models
坐ime MEMS First 工艺	Technology Papers

top

坐1552

Ultra-Small µPower, ±5 to ±20 ppm, 32.768 kHz TCXO

±10 ppm all-inclusive frequency stability

Smallest footprint in chip-scale (CSP)

NanoPower: 990 nA (typ.)

NanoDrive™ reduced swing oscillator output

Internal VDD supply filtering

Narrow By:

Narrow By:

坐1552

Ultra-Small µPower, ±5 to ±20 ppm, 32.768 kHz TCXO

±10 ppm all-inclusive frequency stability

Smallest footprint in chip-scale (CSP)

NanoPower: 990 nA (typ.)

NanoDrive™ reduced swing oscillator output

Internal VDD supply filtering

Narrow By:

Narrow By:

Subscribe to news and updates