锁相环的输入带通限制:其对干扰诱导分叉的影响

J. Stensby, M. Tillman
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引用次数: 2

摘要

期望音调和干扰音调的总和,频率偏移v弧度/秒,被认为是由理想带通限制器和一阶锁相环组合组成的系统的输入参考信号。参数y表示干扰信号与期望信号幅度的比值。在第一种情况下,这个双音参考信号直接提供给锁相环。在第二种情况下,双音参考在应用于环路之前是带通限制的。在这两种情况下,如果比值y足够小(即,干扰相对较弱),锁相环可以锁相到所需的音调,并且干扰音调引起闭环,(2/spl pi//v)-周期相位误差(即,循环内的周期性拍音)。但是,随着y的增加,到达一个点y = y/下标b/,此时周期相位误差分岔(y/下标b/为分岔点),锁相环解除锁相。抑制干扰能力的度量值y/sub b/是音调频率间隔v、锁相环闭环带宽G、环路失谐w/spl Delta/以及是否采用输入带通限制的函数。描述了计算分岔点y/下标b/的两种不同算法。第一种方法是基于描述锁相环的方程的数值解;第二种是基于谐波平衡的方法。这两种算法用来表明,根据v相对于锁相环闭环带宽G的值,输入带通限制可能会或可能不会增加分岔点y/sub b/。具体来说,对于w/spl δ / = 0的失谐,输入带通限制在锁相环闭环带宽的v范围内降低分岔点y/sub b/。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Input band-pass limiting in a PLL: its influence on interference-induced bifurcation
The sum of a desired tone and an interfering, offset in frequency by v radians/second, tone is considered as the input reference signal for a system comprised of an ideal band-pass limiter and first-order PLL combination. Parameter y denotes the ratio of interfering signal to desired signal amplitudes. In the first of two cases, this two-tone reference signal is supplied directly to the PLL. In the second case, the two-tone reference is band-pass limited before application to the loop. In both cases, if ratio y is sufficiently small (i.e., the interference is relatively weak), the PLL can phase lock to the desired tone, and the interfering tone causes a closed-loop, (2/spl pi//v)-periodic phase error (i.e., a periodic beat note within the loop). However, as y increases, a point y = y/sub b/ is reached where the periodic phase error bifurcates (y/sub b/ is the bifurcation point), and the PLL breaks phase lock. A metric of interference rejection ability, the value y/sub b/, is a function of tone frequency spacing v, PLL closed loop bandwidth G, loop detuning w/spl Delta/ and whether or not input band-pass limiting is employed. Two different algorithms are described for calculating the bifurcation point y/sub b/. The first is based on a numerical solution of the equation that describes the PLL; the second is based on harmonic balance methods. These two algorithms are used to show that, depending on the value of v relative to the PLL closed-loop bandwidth G, input band-pass limiting may, or may not, increase the bifurcation point y/sub b/. Specifically, for detuning w/spl Delta/ = 0, input band-pass limiting decreases the bifurcation point y/sub b/ for a range of v within the PLL closed-loop bandwidth.
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