quartz oscillator

Quartz oscillators are superior in the extreme high ends of the performance range.

Typically a quartz oscillator is used in the receiver to do the timing.

These can be measured and modeled to vastly improve the performance of quartz oscillators.

During the 20th century, quartz oscillators were invented, followed by atomic clocks.

This is done using a series of phase-locked loops and a high performance quartz oscillator.

Initially a quartz oscillator in a temperature controlled oven was used as the master clock.

Since the exactness of quartz oscillators is limited, real cards will have slightly higher or lower frequency.

For example, a quartz watch uses a quartz oscillator to keep track of what time it is.

Manufacturing and stocking quartz oscillators to the wide variety of specifications that users require is difficult.

The radiation also caused phase shifts in Galileo's ultra-stable quartz oscillator.

All quartz oscillator crystals are the α-quartz type.

Although first used in laboratories, quartz oscillators were both easy to produce and accurate, leading to their use in wristwatches.

Variations of quartz oscillators are used in everything from the least expensive digital wristwatch to complex battlefield navigation gear.

Its transmitter, now directly controlled by a quartz oscillator, was moved to College Park, Maryland.

Like the high-end quartz oscillators, Dr. Kitching's clock has some temperature issues.

The piezoelectric sorption instrument compares the changes in frequency of hydroscopically coated quartz oscillators.

The quartz oscillator or resonator was first developed by Walter Guyton Cady in 1921.

Warren Marrison created the first quartz oscillator clock based on the work of Cady and Pierce in 1927.

Dr. Kitching estimates that a full clock based on his technology should cost about one-third the price of an extremely accurate quartz oscillator clock.

The first quartz oscillators were invented in the mid-1920s, and they greatly improved the accuracy of WWV's frequency broadcasts.

A number of quartz oscillator suppliers resell MEMS oscillators.

Therefore, quartz oscillators provide the baseline from which MEMS oscillators are compared.

However, he estimates that his device is 1,000 times more accurate than the best quartz oscillators and 10,000 times better than most crystal units now in use.

This is a significant contributor to their cost effectiveness and reliability as compared to quartz oscillators, which are assembled with specialized ceramic packages in custom-built factories.

Quartz oscillators are secure in specific applications where suitable MEMS oscillators have not been introduced.