{"title":"锁相环的输入带通限制:其对干扰诱导分叉的影响","authors":"J. Stensby, M. Tillman","doi":"10.1109/SSST.2004.1295674","DOIUrl":null,"url":null,"abstract":"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.","PeriodicalId":309617,"journal":{"name":"Thirty-Sixth Southeastern Symposium on System Theory, 2004. Proceedings of the","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2004-09-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"Input band-pass limiting in a PLL: its influence on interference-induced bifurcation\",\"authors\":\"J. Stensby, M. Tillman\",\"doi\":\"10.1109/SSST.2004.1295674\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"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.\",\"PeriodicalId\":309617,\"journal\":{\"name\":\"Thirty-Sixth Southeastern Symposium on System Theory, 2004. 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Proceedings of the","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1109/SSST.2004.1295674","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
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.