会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明申请
    • DYNAMIC PHASE SELECTOR PHASE LOCKED LOOP CIRCUIT
    • 动态相位选择器相位锁定环路
    • WO1997019513A1
    • 1997-05-29
    • PCT/US1996018302
    • 1996-11-15
    • ANALOG DEVICES, INC.
    • ANALOG DEVICES, INC.KOVACS, JanosKROESEN, RonaldMcCALL, Kevin
    • H03D03/24
    • H03K3/0231H03K3/03H03K3/0322H03L7/081H03L7/087H03L7/0996H03L7/14
    • A dynamic phase selector phase locked loop circuit (20) includes: an A/D converter (24) for receiving an input signal (22) to be sampled; a phase detection circuit (26) for determining the phase error between the input signal (22) and a clock signal; a clock circuit (30), responsive to the phase detection circuit (26), for providing the clock signal to the A/D converter for timing the sampling of the input signal (22); the clock circuit (30) including a delay circuit having a number of delay taps; and a phase selector circuit (42), responsive to the phase detection circuit (26) for initially gating (43) the clock signals to the A/D converter from the clock circuit (30), and enabling one of the delay taps to dynamically adjust the phase of the clock signal and reduce the initial phase error.
    • 动态相位选择器锁相环电路(20)包括:A / D转换器(24),用于接收待采样的输入信号(22); 相位检测电路(26),用于确定输入信号(22)和时钟信号之间的相位误差; 响应于相位检测电路(26)的时钟电路(30),用于将时钟信号提供给A / D转换器,以对输入信号(22)的采样进行定时; 所述时钟电路(30)包括具有多个延迟抽头的延迟电路; 以及相位选择器电路(42),响应于所述相位检测电路(26),用于从时钟电路(30)首先将所述时钟信号选通(43)到所述A / D转换器,以及使所述延迟抽头之一动态地 调整时钟信号的相位并减少初始相位误差。
    • 5. 发明申请
    • STEERED FREQUENCY PHASE LOCKED LOOP
    • 转向频率相位锁定环
    • WO1996017435A1
    • 1996-06-06
    • PCT/AU1995000793
    • 1995-11-28
    • CURTIN UNIVERSITY OF TECHNOLOGYHILL, Martin
    • CURTIN UNIVERSITY OF TECHNOLOGY
    • H03L07/07
    • H03L7/14H03L7/087H04L7/033
    • A Steered Frequency Phase Lock Loop (SFPLL) comprises a phase loop that functions like a normal phase locked loop (PLL) and locks to the input signal, and a frequency loop that uses a reference frequency to influence the phase loop and effectively confines the output frequency of the phase loop and the SFPLL to be in a range of frequencies close to the reference frequency. The reference frequency is chosen to be very close to the input signal frequency that it is desired the SFPLL lock to. The SFPLL comprises a phase detector (10), a frequency detector (22), first and second gain components (12, 24), first, second and third filter components (14, 18, 26), a summer (16) and a voltage controlled oscillator (VCO) (20). By a judicious choice of the gains in the phase and frequency loops the SFPLL can be designed so that the range of frequencies to which the SFPLL will lock can be confined to an arbitrarily small region around the reference frequency ( omega 'r). Applications of the SFPLL include demodulation in CW modulation systems and timing recovery from NRZ data. Three advantages of the SFPLL are that the output frequency is equal or close to the reference frequency when no input signal is present, and the range of frequencies to which the SFPLL can lock is confined to a region around the reference frequency, and the phase and frequency instabilities of the VCO can be reduced.
    • 转向频率锁相环(SFPLL)包括一个相位循环,其功能类似于正常的锁相环(PLL)并锁定到输入信号,以及一个使用参考频率影响相位回路并有效地限制输出的频率回路 相位环的频率和SFPLL在接近基准频率的频率范围内。 选择参考频率非常接近SFPLL锁定到的输入信号频率。 SFPLL包括相位检测器(10),频率检测器(22),第一和第二增益分量(12,24),第一,第二和第三滤波器组件(14,18,26),夏季(16)和 压控振荡器(VCO)(20)。 通过明智地选择相位和频率环路的增益,可以设计SFPLL,使得SFPLL锁定的频率范围可以被限制在参考频率(ω'r)周围的任意小的区域。 SFPLL的应用包括CW调制系统中的解调和NRZ数据的定时恢复。 SFPLL的三个优点是当没有输入信号时,输出频率等于或接近参考频率,SFPLL可以锁定的频率范围限制在参考频率周围的一个区域,而相位和 可以降低VCO的频率不稳定性。
    • 6. 发明申请
    • METHOD FOR CONTROLLING A PHASE-LOCKED LOOP, AND A PHASE-LOCKED LOOP
    • 用于控制相位锁定环路的方法和相位锁定环路
    • WO1995009485A1
    • 1995-04-06
    • PCT/FI1994000432
    • 1994-09-26
    • NOKIA TELECOMMUNICATIONS OYKIVIJÄRVI, Antti
    • NOKIA TELECOMMUNICATIONS OY
    • H03L07/14
    • H03L7/199H03L7/081H03L7/14H03L7/145
    • The invention relates to a method for controlling a phase-locked loop in a locking situation, and to a phase-locked loop. The loop comprises a phase detector (13), a loop filter (14) and a voltage-controlled oscillator (15) connected in succession, a feedback path being established from the output of the oscillator to a second input (12) in the phase detector. In response to a change causing a currently used input signal to become inadequate for locking, the signal connected from the loop filter (14) to the oscillator (15) is frozen to a constant value, and in response to a change causing a currently used signal to become again adequate for locking, the freezing is removed. In the method, in order that the locking would take place directly, without any sudden phase changes, (a) the output signal of the loop filter (14) is additionally maintained substantially at said constant value by means of the feedback loop (25; 45) in response to a change causing the currently used input signal to become inadequate for locking; and (b) the control provided by said feedback loop for the loop filter (14) is frozen substantially at its current value in response to a change causing the signal to become again adequate for locking.
    • 本发明涉及一种用于在锁定情况下控制锁相环的方法以及锁相环。 环路包括相位检测器(13),环路滤波器(14)和压控振荡器(15),反相路径从振荡器的输出到相位的第二输入端(12)被建立 探测器。 响应于导致当前使用的输入信号变得不适于锁定的变化,从环路滤波器(14)连接到振荡器(15)的信号被冻结到恒定值,并且响应于导致当前使用的 信号变得再次足够锁定,冻结被去除。 在该方法中,为了直接进行锁定,没有任何突然的相位变化,(a)环路滤波器(14)的输出信号通过反馈回路(25; 25)被额外维持在所述恒定值。 45)响应于导致当前使用的输入信号变得不适于锁定的变化; 并且(b)由环路滤波器(14)的所述反馈回路提供的控制响应于导致信号变得再次适合于锁定的变化被大致冻结在其当前值。