Manufacturer Part Number
LMK62E2-156M25SIAR
Manufacturer
Texas Instruments
Introduction
The LMK62E2-156M25SIAR is a high-performance, low-jitter, and low-noise clock oscillator from Texas Instruments. It is designed to provide a stable and reliable clock signal for various applications, including telecommunications, networking, and industrial automation.
Product Features and Performance
Programmable clock frequency of 156.25 MHz
Tight frequency stability of ±25 ppm
Low jitter performance of <300 fs RMS
Low power consumption of 95 mA
Wide operating temperature range of -40°C to 85°C
Small 6-pin QFM (5x3.2) package
Product Advantages
Exceptional frequency stability and low jitter for high-precision timing applications
Efficient power consumption for energy-conscious designs
Compact package for space-constrained board layouts
Wide temperature range for use in diverse environmental conditions
Key Reasons to Choose This Product
Reliable and consistent clock signal for mission-critical systems
Outstanding performance-to-power ratio for optimized system efficiency
Flexible configuration options to meet specific application requirements
Proven quality and reliability from a trusted industry leader, Texas Instruments
Quality and Safety Features
Designed and manufactured to the highest quality standards
Compliant with relevant industry safety and environmental regulations
Compatibility
The LMK62E2-156M25SIAR is compatible with a wide range of digital and analog circuits, making it suitable for various applications.
Application Areas
Telecommunications equipment
Network infrastructure
Industrial automation and control systems
Data centers and server platforms
Medical electronics
Military and aerospace systems
Product Lifecycle
The LMK62E2-156M25SIAR is an active product, and there are no known plans for its discontinuation. Texas Instruments offers a range of equivalent and alternative clock oscillator models that may be suitable for your specific needs. If you require further assistance, please contact our sales team through our website.