Allicdata Part #: | ABL-3.579545MHZ-B4Y-T-ND |
Manufacturer Part#: |
ABL-3.579545MHZ-B4Y-T |
Price: | $ 0.15 |
Product Category: | Crystals, Oscillators, Resonators |
Manufacturer: | Abracon LLC |
Short Description: | CRYSTAL 3.579545MHZ 18PF T/H |
More Detail: | 3.579545MHz ±30ppm Crystal 18pF 180 Ohms HC-49/US |
DataSheet: | ABL-3.579545MHZ-B4Y-T Datasheet/PDF |
Quantity: | 1000 |
1000 +: | $ 0.13860 |
Series: | ABL |
Packaging: | Tape & Reel (TR) |
Part Status: | Active |
Type: | MHz Crystal |
Frequency: | 3.579545MHz |
Frequency Stability: | ±30ppm |
Frequency Tolerance: | ±30ppm |
Load Capacitance: | 18pF |
ESR (Equivalent Series Resistance): | 180 Ohms |
Operating Mode: | Fundamental |
Operating Temperature: | -20°C ~ 70°C |
Ratings: | -- |
Mounting Type: | Through Hole |
Package / Case: | HC-49/US |
Size / Dimension: | 0.453" L x 0.197" W (11.50mm x 5.00mm) |
Height - Seated (Max): | 0.138" (3.50mm) |
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Crystals: ABL-3.579545MHZ-B4Y-T Application Field and Working Principle
Crystals have become increasingly common components in electronics in recent years due to the advancement of technology. The ABL-3.579545MHZ-B4Y-T crystal is a particular type of crystal that is widely used in various applications. This article will discuss the application field and working principle of ABL-3.579545MHZ-B4Y-T crystals, and how they are used in modern electronics.
Application Field of ABL-3.579545MHZ-B4Y-T Crystals
ABL-3.579545MHZ-B4Y-T crystals are primarily used in radiofrequency (RF) applications. The frequency output of the crystal is specifically designed to meet these applications\' requirements. They are used in electronics such as radio receivers, telecommunication equipment, and satellite navigation systems. In addition, these crystals are also used to generate a reference clock frequency in computers, cellular phones, and other digital devices.
ABL-3.579545MHZ-B4Y-T crystals are also widely used in telecommunications, such as in modems, fax machines, and ISDN terminal adaptors. They are used for data transmission and for controlling f he modem’s timing in order to maximize the modem’s efficiency. Furthermore, these crystals are used to generate synchronized clock signals that are required for controlling the timing of data packets on a network.
Working Principle of ABL-3.579545MHZ-B4Y-T Crystals
ABL-3.579545MHZ-B4Y-T crystals are small quartz crystals that are cut in such a way that their resonant frequency is 3.579545MHz. They consist of two metal electrodes attached to two opposite sides of the quartz resonator, along with an external capacitor that acts as the oscillator’s load. When an alternating electric current is applied to the electrodes, it causes the quartz crystal to vibrate at a specific frequency, which is determined by its size and shape.
When the electric current is applied at the resonant frequency, the crystal oscillator produces a sustained voltage. This voltage is used to create a stable reference frequency for various applications. As a result, quartz oscillators are used as time bases to generate regular pulses in digital electronics. They are also used to regulate the clock frequency in computers, cellular phones, and other digital devices.
Furthermore, the crystal oscillator is also used for frequency control in radiofrequency (RF) applications. Since the oscillator has a predictable frequency, it can be used to generate signals at a specific wavelength. For example, in radio receivers, they are used to generate high-frequency signals that are required to receive radio waves. In satellite navigation systems, they are used to generate signals at 3.579545 MHz, which is the exact frequency of the navigation signal from GPS satellites.
In conclusion, ABL-3.579545MHZ-B4Y-T crystals are a type of quartz oscillator that is widely used in various application fields. They are mainly used in radiofrequency applications, such as radio receivers, telecommunication equipment, and satellite navigation systems. Additionally, they are also used in other electronics, such as computers, cellular phones, and modems. The crystal oscillator works by vibrating at a predetermined frequency when an alternating electric current is applied to it. As a result, they are able to generate stable reference frequencies that are required for various applications.
The specific data is subject to PDF, and the above content is for reference
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