康纳温菲尔德振荡器与NPLL时间同步,Connor-Winfield is a long established leader in the electronic manufacturing and high precision frequency control device industries. Our design engineers' and staff's vigilant focus on innovative products, and understanding the direction of the industry, gives us the opportunity to share some of this information. We welcome you utilizing our Support Page for reference and to possibly find answers to your questions in the White Papers and Application Notes.

Connor-Winfield是电子制造和高精度频率控制设备行业的长期领导者。我们的设计工程师和员工对创新产品的高度关注，以及对行业发展方向的理解，让我们有机会分享这些信息。我们欢迎您利用我们的支持页面作为参考，并在白皮书和应用笔记中找到您的问题的答案。

A NPLL (Numerical Phase-Locked Loop) is a numerical/ digital implementation of the traditional phase-locked loop, which is a feedback control system that aims to synchronize the phase of an oscillator with the phase of a reference signal. In the context of time synchronization, NPLLs can be used in various ways to ensure that the local oscillator remains synchronized with a reference time source. Here’s how NPLLs support time synchronization:

NPLL（数字锁相环）是一种数字/数字锁相环传统锁相环的实现，它是一个旨在同步振荡器与参考信号的相位。在的上下文中时间同步，NPLL可以以各种方式使用，以确保本地石英晶体振荡器与参考时间保持同步来源以下是NPLL如何支持时间同步：

1. Frequency and Phase Alignment: The primary role of the NPLL is to maintain frequency and phase alignment between the local oscillator and the reference signal. In doing so, it corrects for any drift in the local oscillator.

1.频率和相位对准：NPLL的主要作用是保持频率和本地振荡器和基准之间的相位对准信号通过这样做，它可以校正本地振荡器中的任何漂移。
2. Jitter and Wander Reduction: Digital systems, especially those transmitting data over networks, can introduce timing jitter (short-term phase variations) and wander (long-term phase variations). A NPLL can act as a filter, reducing these effects and ensuring a more stable output frequency and phase.

2.抖动和漂移减少：数字系统，尤其是那些通过网络传输数据的系统，可能会引入定时抖动（短期相位变化）和漂移（长期相位变化）。NPLL可以充当滤波器，减少这些影响并确保更稳定的输出频率和相位。

3. Clock Recovery in Digital Communications: One classic application of NPLLs is in clock recovery for digital communication systems. When digital data is received, the original clock used for transmission isn’t directly available, but it’s embedded in the data itself. A NPLL can “lock” onto this embedded clock information, effectively recovering the original clock, which is then used for data interpretation and further processing.

3.数字通信中的时钟恢复：NPLLs的一个经典应用是用于数字的时钟恢复通信系统。当接收到数字数据时，用于传输的原始时钟不直接可用，但它嵌入数据本身。NPLL可以“锁定”到这个嵌入的时钟信息上，有效地恢复原始时钟，然后将其用于数据解释和进一步处理。

4. Time Synchronization in Networks: In networked systems, ensuring that all nodes operate on a synchronized timeline is crucial. Protocols like NTP (Network Time Protocol) or PTP (Precision Time Protocol) transmit timestamped messages. A NPLL at the receiving end can use these time-stamped messages as reference signals to adjust and synchronize its local clock.

4.网络中的时间同步：在网络系统中，确保所有节点都在同步的时间线是至关重要的。NTP等协议（网络时间协议）或PTP（精确时间协议）发送带有时间戳的消息。接收端的NPLL可以使用这些带有时间戳的消息作为参考信号，用于调整和同步其本地时钟。康纳温菲尔德振荡器与NPLL时间同步.

5. Support for Holdover Mode: In situations where the reference signal becomes unavailable (e.g., a GPS signal loss), a NPLL can switch to a “holdover” mode. In this mode, the NPLL relies on its last known phase and frequency error measurements to maintain the local oscillator’s output. While not as accurate as when locked to a reference, it ensures continuity of operations.

5.支持滞留模式：在参考信号不可用的情况下（例如，GPS信号丢失），NPLL可以切换到“保持”模式在这种模式下，NPLL依赖于其最后一个已知阶段以及频率误差测量以维持本地振荡器的输出。虽然不如锁定到时准确参考，它确保了操作的连续性。

6. Interpolation and Time-stamping: In some advanced time synchronization applications, NPLLs are used alongside digital logic to interpolate between received time reference signals, providing higher resolution time-stamping or alignment capabilities.

6.插值和时间戳：在一些高级时间同步应用中，NPLLs与数字逻辑一起使用，以在接收到的时间参考信号，提供更高分辨率的时间戳或对准能力。

原厂代码	品牌	型号	频率	工作温度
OH100-70503CF-020.0M	Connor-Winfield振荡器	OH100	20MHz	-20°C ~ 70°C
OH100-61005SV-010.0M	Connor-Winfield振荡器	OH100	-	-
OH300-70503CF-020.0M	Connor-Winfield振荡器	OH300	20MHz	-20°C ~ 70°C
OX200-DK-010.0M	Connor-Winfield振荡器	*	-	-
OX200-DKV-010.0M	Connor-Winfield振荡器	*	-	-
OH100-71005SV-100.0M	Connor-Winfield振荡器	OH100	100MHz	-20°C ~ 70°C
OHSM100-60803CF-010.0M	Connor-Winfield振荡器	OHSM100-60803CF	10MHz	-40°C ~ 85°C
OH200-61003CF-024.576M	Connor-Winfield振荡器	OH200	24.576MHz	-40°C ~ 85°C
OH100-60503CF-024.576M	Connor-Winfield振荡器	OH100	24.576MHz	-40°C ~ 85°C
OH200-61003CF-020.0M	Connor-Winfield振荡器	OH200	20MHz	-40°C ~ 85°C
OH200-71005SV-010.0M	Connor-Winfield振荡器	OH200	10MHz	-20°C ~ 70°C
CWX823-032.0M	Connor-Winfield振荡器	CWX823	32MHz	-20°C ~ 70°C
CWX823-080.0M	Connor-Winfield振荡器	CWX823	80MHz	-20°C ~ 70°C
PM113-622.08M	Connor-Winfield振荡器	PM	622.08MHz	0°C ~ 70°C
PM113-161.1328M	Connor-Winfield振荡器	PM	161.1328MHz	0°C ~ 70°C
T100F-012.8M	Connor-Winfield振荡器	T100/200	12.8MHz	0°C ~ 70°C
OX9140S3-012.8M	Connor-Winfield振荡器	OX914xS3	12.8MHz	0°C ~ 70°C
DOC100F-019.44M	Connor-Winfield振荡器	DOC	19.44MHz	0°C ~ 70°C
DOC100V-012.8M	Connor-Winfield振荡器	DOC	12.8MHz	0°C ~ 70°C
DOC100F-010.0M	Connor-Winfield振荡器	DOC	10MHz	0°C ~ 70°C
OX9143S3-010.0M	Connor-Winfield振荡器	OX914xS3	10MHz	-40°C ~ 85°C
DOC102V-010.0M	Connor-Winfield振荡器	DOC	10MHz	-40°C ~ 85°C
DOC102V-012.8M	Connor-Winfield振荡器	DOC	12.8MHz	-40°C ~ 85°C
DOC020V-012.8M	Connor-Winfield振荡器	DOC	12.8MHz	0°C ~ 70°C
DOC050F-019.44M	Connor-Winfield振荡器	DOC	19.44MHz	0°C ~ 70°C
DOC102F-024.576M	Connor-Winfield振荡器	DOC	24.576MHz	-40°C ~ 85°C
DOC052F-019.44M	Connor-Winfield振荡器	DOC	19.44MHz	-40°C ~ 85°C
DOC102F-049.152M	Connor-Winfield振荡器	DOC	49.152MHz	-40°C ~ 85°C
DOCSC022F-024.576M	Connor-Winfield振荡器	DOCSC	24.576MHz	-40°C ~ 85°C
OH200-51003CF-012.8M	Connor-Winfield振荡器	OH200	12.8MHz	0°C ~ 70°C
OH200-51003CV-005.0M	Connor-Winfield振荡器	OH200	5MHz	0°C ~ 70°C
OH100-61003CV-012.8M	Connor-Winfield振荡器	OH100	12.8MHz	-40°C ~ 85°C
OH200-51003CF-005.0M	Connor-Winfield振荡器	OH200	5MHz	0°C ~ 70°C
OH100-50503CF-020.0M	Connor-Winfield振荡器	OH100	20MHz	0°C ~ 70°C
OH200-51003CV-010.0M	Connor-Winfield振荡器	OH200	10MHz	0°C ~ 70°C
OH300-61003CV-012.8M	Connor-Winfield振荡器	OH300	12.8MHz	-40°C ~ 85°C
OH300-61003CF-012.8M	Connor-Winfield振荡器	OH300	12.8MHz	-40°C ~ 85°C
OH300-50503CF-020.0M	Connor-Winfield振荡器	OH300	20MHz	0°C ~ 70°C
OH300-70503CF-024.576M	Connor-Winfield振荡器	OH300	24.576MHz	-20°C ~ 70°C
OH300-50503CF-012.8M	Connor-Winfield振荡器	OH300	12.8MHz	0°C ~ 70°C
OH300-60503CF-024.576M	Connor-Winfield振荡器	OH300	24.576MHz	-40°C ~ 85°C
OH300-61003CF-020.0M	Connor-Winfield振荡器	OH300	20MHz	-40°C ~ 85°C
OH300-50503CF-010.0M	Connor-Winfield振荡器	OH300	10MHz	0°C ~ 70°C
OH300-61003CF-040.0M	Connor-Winfield振荡器	OH300	40MHz	-20°C ~ 70°C
CWX823-016.384M	Connor-Winfield振荡器	CWX823	16.384MHz	-20°C ~ 70°C
CWX823-030.0M	Connor-Winfield振荡器	CWX823	30MHz	-20°C ~ 70°C
CWX823-044.736M	Connor-Winfield振荡器	CWX823	44.736MHz	-20°C ~ 70°C
HSM93-008.0M	Connor-Winfield振荡器	HSM9	8MHz	0°C ~ 70°C
HSM93-010.0M	Connor-Winfield振荡器	HSM9	10MHz	0°C ~ 70°C
HSM93-040.0M	Connor-Winfield振荡器	HSM9	40MHz	0°C ~ 70°C
DV75D-012.8M	Connor-Winfield振荡器	DV75D	12.8MHz	-40°C ~ 85°C
D75F-025.0M	Connor-Winfield振荡器	D75F	25MHz	0°C ~ 70°C
PM113-311.04M	Connor-Winfield振荡器	PM	311.04MHz	0°C ~ 70°C
LM113-311.04M	Connor-Winfield振荡器	LM113	311.04MHz	0°C ~ 70°C
LM113-425.0M	Connor-Winfield振荡器	LM113	425MHz	0°C ~ 70°C
PM113-625.0M	Connor-Winfield振荡器	PM	625MHz	0°C ~ 70°C
P212-155.52M	Connor-Winfield振荡器	P	155.52MHz	-40°C ~ 85°C
T602-040.0M	Connor-Winfield振荡器	T	40MHz	-40°C ~ 85°C
TB602-050.0M	Connor-Winfield振荡器	TB	50MHz	-40°C ~ 85°C
OH300-61003CV-020.0M	Connor-Winfield振荡器	OH300	20MHz	-40°C ~ 85°C
OH300-61003CV-040.0M	Connor-Winfield振荡器	OH300	40MHz	-20°C ~ 70°C
OHSM100-60803CF-020.0M	Connor-Winfield振荡器	OHSM100-60803CF	20MHz	-40°C ~ 85°C
DOCSC022F-040.0M	Connor-Winfield振荡器	DOCSC	40MHz	-40°C ~ 85°C
OH4610LF-024.576M	Connor-Winfield振荡器	OH4	24.576MHz	-40°C ~ 85°C
OX200-SC-010.0M	Connor-Winfield振荡器	OX200-SC	10MHz	0°C ~ 70°C
OH100-50503CV-012.8M	Connor-Winfield振荡器	OH100	12.8MHz	0°C ~ 70°C
DOCAT050F-19.44M	Connor-Winfield振荡器	*	-	-
DOCSC022F-020.0M	Connor-Winfield振荡器	DOCSC	20MHz	-40°C ~ 85°C
DOCSC022F-024.0M	Connor-Winfield振荡器	*	-	-
DOCSC012F-020.0M	Connor-Winfield振荡器	*	-	-
DOCSC012F-040.0M	Connor-Winfield振荡器	*	-	-
OH4610LF-012.8M	Connor-Winfield振荡器	OH4	12.8MHz	-40°C ~ 85°C
OH4610LF-010.0M	Connor-Winfield振荡器	OH4	10MHz	-40°C ~ 85°C
OH4610LF-020.0M	Connor-Winfield振荡器	OH4	20MHz	-40°C ~ 85°C
CWX823-003.6864M	Connor-Winfield振荡器	CWX823	3.6864MHz	-20°C ~ 70°C
CWX823-014.31818M	Connor-Winfield振荡器	CWX823	14.31818MHz	-20°C ~ 70°C
CWX823-015.36M	Connor-Winfield振荡器	CWX823	15.36MHz	-20°C ~ 70°C
CWX823-019.44M	Connor-Winfield振荡器	CWX823	19.44MHz	-20°C ~ 70°C
CWX823-020.48M	Connor-Winfield振荡器	CWX823	20.48MHz	-20°C ~ 70°C
CWX823-045.0M	Connor-Winfield振荡器	CWX823	45MHz	-20°C ~ 70°C
CWX825-1.544M	Connor-Winfield振荡器	CWX825	1.544MHz	-20°C ~ 70°C
CWX825-1.8432M	Connor-Winfield振荡器	CWX825	1.8432MHz	-20°C ~ 70°C
CWX825-3.6864M	Connor-Winfield振荡器	CWX825	3.6864MHz	-20°C ~ 70°C
CWX825-4.0M	Connor-Winfield振荡器	CWX825	4MHz	-20°C ~ 70°C
CWX825-7.3728M	Connor-Winfield振荡器	CWX825	7.3728MHz	-20°C ~ 70°C
CWX825-8.0M	Connor-Winfield振荡器	CWX825	8MHz	-20°C ~ 70°C
CWX825-10.0M	Connor-Winfield振荡器	CWX825	10MHz	-20°C ~ 70°C
CWX825-12.0M	Connor-Winfield振荡器	CWX825	12MHz	-20°C ~ 70°C
CWX825-12.288M	Connor-Winfield振荡器	CWX825	12.288MHz	-20°C ~ 70°C
CWX825-14.31818M	Connor-Winfield振荡器	CWX825	14.31818MHz	-20°C ~ 70°C
CWX825-15.36M	Connor-Winfield振荡器	CWX825	15.36MHz	-20°C ~ 70°C
CWX825-16.0M	Connor-Winfield振荡器	CWX825	16MHz	-20°C ~ 70°C
CWX825-16.384M	Connor-Winfield振荡器	CWX825	16.384MHz	-20°C ~ 70°C
CWX825-18.432M	Connor-Winfield振荡器	CWX825	18.432MHz	-20°C ~ 70°C
CWX825-19.44M	Connor-Winfield振荡器	CWX825	19.44MHz	-20°C ~ 70°C
CWX825-20.0M	Connor-Winfield振荡器	CWX825	20MHz	-20°C ~ 70°C
CWX825-20.48M	Connor-Winfield振荡器	CWX825	20.48MHz	-20°C ~ 70°C
CWX825-24.0M	Connor-Winfield振荡器	CWX825	24MHz	-20°C ~ 70°C
CWX825-24.576M	Connor-Winfield振荡器	CWX825	24.576MHz	-20°C ~ 70°C
CWX825-25.0M	Connor-Winfield振荡器	CWX825	25MHz	-20°C ~ 70°C
CWX825-27.0M	Connor-Winfield振荡器	CWX825	27MHz	-20°C ~ 70°C
CWX825-29.4912M	Connor-Winfield振荡器	CWX825	29.4912MHz	-20°C ~ 70°C
CWX825-30.0M	Connor-Winfield振荡器	CWX825	30MHz	-20°C ~ 70°C
CWX825-32.0M	Connor-Winfield振荡器	CWX825	32MHz	-20°C ~ 70°C
CWX825-33.0M	Connor-Winfield振荡器	CWX825	33MHz	-20°C ~ 70°C
CWX825-33.333M	Connor-Winfield振荡器	CWX825	33.333MHz	-20°C ~ 70°C
CWX825-40.0M	ConnorWinfield晶振	CWX825	40MHz	-20°C ~ 70°C
CWX825-44.736M	Connor-Winfield振荡器	CWX825	44.736MHz	-20°C ~ 70°C
CWX825-45.0M	Connor-Winfield振荡器	CWX825	45MHz	-20°C ~ 70°C
CWX825-49.152M	Connor-Winfield振荡器	CWX825	49.152MHz	-20°C ~ 70°C
CWX825-50.0M	Connor-Winfield振荡器	CWX825	50MHz	-20°C ~ 70°C
CWX825-60.0M	Connor-Winfield振荡器	CWX825	60MHz	-20°C ~ 70°C
CWX823-072.0M	Connor-Winfield振荡器	CWX823	72MHz	-20°C ~ 70°C
CWX825-64.0M	Connor-Winfield振荡器	CWX825	64MHz	-20°C ~ 70°C
CWX825-66.6666M	Connor-Winfield振荡器	CWX825	66.6666MHz	-20°C ~ 70°C
CWX825-72.0M	Connor-Winfield振荡器	CWX825	72MHz	-20°C ~ 70°C
CWX825-80.0M	Connor-Winfield振荡器	CWX825	80MHz	-20°C ~ 70°C
CWX813-003.6864M	Connor-Winfield振荡器	CWX813	3.6864MHz	-20°C ~ 70°C
CWX813-008.0M	Connor-Winfield振荡器	CWX813	8MHz	-20°C ~ 70°C
CWX813-032.0M	Connor-Winfield振荡器	CWX813	32MHz	-20°C ~ 70°C
CWX813-032.768M	Connor-Winfield振荡器	CWX813	32.768MHz	-20°C ~ 70°C
CWX813-033.333M	Connor-Winfield振荡器	CWX813	33.333MHz	-20°C ~ 70°C
CWX815-1.544M	Connor-Winfield振荡器	CWX815	1.544MHz	-20°C ~ 70°C
CWX815-1.8432M	Connor-Winfield振荡器	CWX815	1.8432MHz	-20°C ~ 70°C
CWX815-3.6864M	Connor-Winfield振荡器	CWX815	3.6864MHz	-20°C ~ 70°C
CWX815-4.0M	Connor-Winfield振荡器	CWX815	4MHz	-20°C ~ 70°C
CWX815-7.3728M	Connor-Winfield振荡器	CWX815	7.3728MHz	-20°C ~ 70°C
CWX815-8.0M	Connor-Winfield振荡器	CWX815	8MHz	-20°C ~ 70°C
CWX815-10.0M	Connor-Winfield振荡器	CWX815	10MHz	-20°C ~ 70°C
CWX815-12.0M	Connor-Winfield振荡器	CWX815	12MHz	-20°C ~ 70°C
CWX815-12.288M	Connor-Winfield振荡器	CWX815	12.288MHz	-20°C ~ 70°C
CWX815-14.31818M	Connor-Winfield振荡器	CWX815	14.31818MHz	-20°C ~ 70°C
CWX815-15.36M	Connor-Winfield振荡器	CWX815	15.36MHz	-20°C ~ 70°C
CWX815-16.0M	Connor-Winfield振荡器	CWX815	16MHz	-20°C ~ 70°C
CWX815-16.384M	Connor-Winfield振荡器	CWX815	16.384MHz	-20°C ~ 70°C
CWX815-18.432M	Connor-Winfield振荡器	CWX815	18.432MHz	-20°C ~ 70°C
CWX815-19.44M	Connor-Winfield振荡器	CWX815	19.44MHz	-20°C ~ 70°C

7. Frequency Synthesis: NPLLs, especially when combined with dividers or multipliers, can generate frequencies that are harmonically related to the reference. This is useful in applications that require synchronized clocks at different frequencies

7.频率合成：尤其是当与除法器或乘法器组合时，可以产生与参考这在需要不同频率的同步时钟的应用中很有用
8. Distributed Systems and Grids: In complex systems like power grids or distributed computing setups, multiple NPLLs in different locations can synchronize with a common reference, ensuring that all subsystems work in harmony.

8.分布式系统和网格：在电网或分布式计算等复杂系统中设置，不同位置的多个NPLL可以同步具有通用参考，确保所有子系统工作和谐.

通过保持与参考的相位和频率对准信号，NPLLs为确保准确的时间提供了关键工具跨不同应用程序的同步。作为数字系统复杂性和对精确时间的需求持续增长同步性增强，NPLLs的作用及其先进性变体仍将是关键。

在Connor-Winfield，我们的政策是以诚实和符合道德的方式处理业务。这一目标要求组织中的每一个人都承担起促进诚信的责任，并在我们的所有活动中展现最高水平的道德行为。应避免可能对我们的声誉或诚信产生负面影响的活动。实现我们的业务目标和遵守本准则的关键是运用良好的判断力。这意味着遵守法律，做“正确的”事情，即使法律或内部政策并不具体，也要遵守道德规范。