Allicdata Part #: | PT7C5009AN3-2WF-ND |
Manufacturer Part#: |
PT7C5009AN3-2WF |
Price: | $ 0.00 |
Product Category: | Crystals, Oscillators, Resonators |
Manufacturer: | Diodes Incorporated |
Short Description: | XO CLOCK |
More Detail: | 40MHz Ceramic Resonator -20°C ~ 80°C Surface M... |
DataSheet: | PT7C5009AN3-2WF Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | -- |
Part Status: | Obsolete |
Type: | Ceramic |
Frequency: | 40MHz |
Frequency Stability: | -- |
Operating Temperature: | -20°C ~ 80°C |
Mounting Type: | Surface Mount |
Package / Case: | Die |
Size / Dimension: | -- |
Height: | -- |
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Resonators: PT7C5009AN3-2WF Application Field and Working Principle
A resonator is a basic electrical component used to control the frequency of an electronic oscillator. It is used to filter out unwanted frequencies while creating desired ones. The PT7C5009AN3-2WF is a surface mounted oscillator resonator especially designed to offer a high performance in the oscillation of microprocessors and other devices for the beginning and end wave forms in the radio frequency field. The PT7C5009AN3-2WF resonator is used for the oscillation of processors and other devices and is specifically designed for use in the radio frequency field.
The PT7C5009AN3-2WF surface mounted oscillator resonator is an efficient component that is well-equipped to control frequency applied in the microprocessor, circuit, and other devices for radio frequency applications. The component features an efficient oscillation ability with high-stability frequency rate that is capable of handling the transmitting signals with accuracy and excellence. The component is situated in a small package, which makes it suitable for the machines with limited space.
The PT7C5009AN3-2WF component contains a quartz mechanical resonator, which works as the frequency controller. Quartz resonators owe their properties to a physical phenomenon known as the piezoelectric effect, which is the ability of a material to produce an electrical charge when subjected to mechanical stress. Quartz forms an integral part of the oscillation process: it vibrates at a compatible rate, creating a stable frequency at which the oscillator will operate.
The resonator is constructed of two layers of quartz material. The top layer, which is referred to as the “driving layer”, is the most important part of the resonator. It consists of cut and polished quartz pieces, usually in the form of discs or plates. This layer is where the oscillator performs its function by vibrating as a result of the constant alternating current passing through it. The lower thin layer, which is referred to as the “wick layer”, consists of thin quartz plates. The wick layer absorbs the energy generated by the oscillator, helping to provide better stability and faster response times.
The working principle of the PT7C5009AN3-2WF resonator is relatively simple. The resonator is placed in an oscillator circuit, which is used to generate the necessary AC current. The AC current passes through the driving layer, which vibrates at a predetermined frequency. This difference in frequency between the AC current and the driving layer produces a frequency output. The wick layer absorbs and dissipates any excess energy, ensuring that the resonator can maintain its stability during operation.
The application field of the PT7C5009AN3-2WF resonator is wide. It is used in a variety of applications, including in frequencies measuring equipment, communication systems, radio and television equipment, microwave and radar systems, consumer electronics, medical equipment, optical equipment and many other fields. The high performance and stability of the PT7C5009AN3-2WF resonator allows for accurate and reliable frequency control, making it an ideal choice for these applications.
In conclusion, the PT7C5009AN3-2WF resonator is a high-performance component used in oscillator circuits, providing enhanced accuracy and frequency control. The resonator’s working principles are relatively simple and it is used in a variety of applications, including in many electronic and medical equipment.
The specific data is subject to PDF, and the above content is for reference
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