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What are the connection methods for crystal oscillators?
In practical applications, the choice between an internal or external crystal oscillator mainly depends on specific application requirements and circuit design. For example, in some applications that require strict space requirements or high integration, internal crystal oscillators may be more preferred.
06-03
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What is the difference between crystal oscillators and crystals
When it comes to crystal oscillators, one may think of quartz crystals. In fact, these two are equivalent. So what is the difference between crystal oscillators and crystals? Give a brief analysis.
04-19
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Does the thickness of the chip affect the frequency of the crystal oscillator?
The thickness of the chip is one of the key factors determining the frequency parameters of the crystal oscillator. The thinner the chip, the higher its oscillation frequency. This is because the thickness of the chip determines the characteristics of its vibration mode. Under the same excitation conditions, thinner chips are more likely to generate high-frequency vibrations. For example, a 40MHz crystal oscillator typically requires a chip thickness of around 41.75 microns to achieve
04-12
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What are the connection methods for crystal oscillators?
In practical applications, the choice between an internal or external crystal oscillator mainly depends on specific application requirements and circuit design. For example, in some applications that require strict space requirements or high integration, internal crystal oscillators may be more preferred.
View Details
06-03
2024
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What is the difference between crystal oscillators and crystals
When it comes to crystal oscillators, one may think of quartz crystals. In fact, these two are equivalent. So what is the difference between crystal oscillators and crystals? Give a brief analysis.
View Details
04-19
2024
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Does the thickness of the chip affect the frequency of the crystal oscillator?
The thickness of the chip is one of the key factors determining the frequency parameters of the crystal oscillator. The thinner the chip, the higher its oscillation frequency. This is because the thickness of the chip determines the characteristics of its vibration mode. Under the same excitation conditions, thinner chips are more likely to generate high-frequency vibrations. For example, a 40MHz crystal oscillator typically requires a chip thickness of around 41.75 microns to achieve
View Details
04-12
2024
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Output waveform of active crystal oscillator
These two waveforms each have their own advantages and disadvantages, and are suitable for different application scenarios. In practical applications, the choice of sine wave or square wave output waveform depends on the specific requirements of electronic devices and the overall circuit design requirements. For example,
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04-01
2024
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8 pieces! Answering why crystal oscillators are designed next to ICs
Crystal oscillator is a key component for generating stable clock signals. Placing the crystal oscillator near the IC can minimize the loss and interference of clock signal transmission. The shorter the transmission distance of the signal, the higher the stability of the clock signal. This is because the transmission of signals may be affected by various factors such as electromagnetic interference, resistance, capacitance, etc., all of which can lead to signal distortion or attenuation.
View Details
03-15
2024
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