White Papers

CTS Valpey Corporation has extensive knowledge of our coretechnologies. Our white papers present the latest developments with the technology and how our products enhance the performance of various applications.

RF Integrated Passive (779.74 KB)
The Next Big, Small Thing

Smaller is Better in Military Applications (166.96 KB)
Introduction of a new miniature hi-rel/COTS oscillator that represents a significant change for designers of military systems.

High Repeatability Voltage Variable Attenuator (316.26 KB)
Approach to a low cost, high performance voltage variable attenuator.

Synchronous Ethernet Timing Solutions (1.26 MB)
With Narrow Loop Bandwidth and Ultra Low Output Jitter.

Considerations When Specifying Frequency Control Modules and Oscillators to Optimize System Jitter and Phase Noise (121.52 KB)

OCXOs for Portable Equipment (473.54 KB)
Is a directly heated oscillator right for you?

A Jitter Attenuator for Synchronous Ethernet Applications (3.7 MB)
Recently introduced VFJA905 Jitter Attenuator provides two LVCMOS outputs with a frequency of 25 MHz that can be locked to an input reference frequency.

New 1.8 Volt Hi-Rel Oscillators for Mission Critical Systems (4.19 MB)
The paper focuses on the introduction of Hi-Rel low supply voltage crystal oscillators for mission critical system.

Crystal Oscillators for Today's Defense Electronic Systems (5.41 MB)
The paper demonstrates how techniques developed for upgrade to Hi-Rel performance status of frequency control components provide a blueprint that can be used successfully for other component manufacturers.

Long-Term Frequency Stability of HFF Crystals Sealed with High Vacuum Technology (472.5 KB)
This work is devoted to the results of testing frequency stability of HFF crystal resonators fabricated with inverted mesa-structure procedure and sealed in HC-45 holders with high vacuum process.

Thermodynamic Aspect of Short-Term Frequency Stability of Directly Heated Resonators (357.04 KB)
The directly heated resonator (DHR) technology provides significant reduction in warm-up time, size, and power consumption of OCXO thanks to employing thin film heater and thermistor directly deposited on the crystal surface.