Ceramic Resonator Oscillator

Ceramic resonators ceralock are made of high stability piezoelectric ceramics that function as a mechanical resonator.

Ceramic resonator oscillator. The most commonly used circuit is the colpitts circuit. The resonator or crystal itself has two connections. In terms of application ceramic resonators are used in microprocessors where their frequency stability is not important and crystal oscillators are used for more precise time based applications. The most commonly used circuit is the colpitts circuit.

Similar to the crystal oscillator ceramic resonator is also an electronic circuit or a device used to generate an output of oscillation frequency with the help of ceramic as a resonating piezoelectric material. The operating principle of these oscillation circuits can be seen in fig. This type of signal oscillates between a high and low state using a piece of piezoelectric ceramic connected to two or more electrodes. On the left the crystal right the ceramic resonator.

A ceramic resonator works similar to a crystal. Ceramic resonators are made of lead zirconium titanate pzt and are easier to manufacture than crystal oscillators made out of fine cut quartz. A ceramic resonator is sometimes referred to a dielectic resonator they are commonly used for timing devices which create a clock signal. See that tutorial for more information.

What is a ceramic resonator. Another oscillating circuit is the one that use resonators. Like the similar quartz crystal they are used in oscillators for purposes such as generating the clock signal used to control timing in computers and other digital logic devices or generating the. A ceramic resonator is an electronic component consisting of a piece of a piezoelectric ceramic material with two or more metal electrodes attached.

The active part which makes the oscillator work is an amplifier which supplies the energy to keep the oscillation going. Remember from the inductance meter tutorial that an lc tank will resonate at its natural frequency. Before we look at the ceramic and crystal resonators let s take a look at the lc oscillator so we need a coil and capacitor. The material can have two or more electrode which when connected to an oscillator circuit gets mechanical vibration as a result an oscillating signal of a specific frequency is generated.

In a ceramic resonator oscillator the inductor is replaced by a ceramic resonator taking advantage of the fact that the resonator becomes inductive between resonant and anti resonant frequencies. The ceramic resonator utilizes a frequency within the electrical component but unlike the crystal which has a frequency tolerance of 10 30 ppm a ceramic resonator carries a 0 5 or 5 000 ppm frequency tolerance which is generally used in microprocessor applications where absolute stability is not important. Like you say the oscillator needs extra components the two capacitors. The operating principle of these oscillation circuits can be seen in fig 2 1.

What is a ceramic resonator.