Using PLL synthesis technology such as frequency multiplication and frequency division, may obtain the multi-frequencies, the high stable oscillator signal output.
利用锁相环的倍频、分频等频率合成技术,可以获得多频率、高稳定的振荡信号输出。
To use a crystal unit as an oscillator, its oscillated frequency is required to be stable against temperature variations.
石英晶体作为谐振器在使用时,要求其谐振频率在温度发生变化时保持稳定。
In this case, the crystal oscillator can not provide a stable clock frequency, which results in the abnormality of the device.
在这种情况下,晶体振荡器就不能为设备提供稳定的时钟频率,导致设备工作异常。
High temperature oscillator, divider and inverter produce logic square wave for working frequency so that precise frequency and stable temperature are achieved.
用高温晶体震荡器、分频器和反向器形成新的工作所需的工作频率逻辑方波,以提高工作频率精度和温度的稳定性;
In this paper the designing method for crystal oscillator in low noise and widely stable frequency scope is presented and the principle chart is given.
本文主要论述了低噪声、宽稳频范围的晶体振荡器的设计方法,给出了设计的原理框图,通过实例介绍了振荡电路的设计过程并求出了电路参数值。
In this paper the designing method for crystal oscillator in low noise and widely stable frequency scope is presented and the principle chart is given.
本文主要论述了低噪声、宽稳频范围的晶体振荡器的设计方法,给出了设计的原理框图,通过实例介绍了振荡电路的设计过程并求出了电路参数值。
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