- 您现在的位置:买卖IC网 > PDF目录300164 > ZL50112GAG2 (ZARLINK SEMICONDUCTOR INC) SPECIALTY TELECOM CIRCUIT, PBGA552 PDF资料下载
参数资料
| 型号: | ZL50112GAG2 |
| 厂商: | ZARLINK SEMICONDUCTOR INC |
| 元件分类: | 通信及网络 |
| 英文描述: | SPECIALTY TELECOM CIRCUIT, PBGA552 |
| 封装: | 35 X 35 MM, 1.27 MM, LEAD FREE, PLASTIC, BGA-552 |
| 文件页数: | 76/113页 |
| 文件大小: | 1923K |
| 代理商: | ZL50112GAG2 |
第1页第2页第3页第4页第5页第6页第7页第8页第9页第10页第11页第12页第13页第14页第15页第16页第17页第18页第19页第20页第21页第22页第23页第24页第25页第26页第27页第28页第29页第30页第31页第32页第33页第34页第35页第36页第37页第38页第39页第40页第41页第42页第43页第44页第45页第46页第47页第48页第49页第50页第51页第52页第53页第54页第55页第56页第57页第58页第59页第60页第61页第62页第63页第64页第65页第66页第67页第68页第69页第70页第71页第72页第73页第74页第75页当前第76页第77页第78页第79页第80页第81页第82页第83页第84页第85页第86页第87页第88页第89页第90页第91页第92页第93页第94页第95页第96页第97页第98页第99页第100页第101页第102页第103页第104页第105页第106页第107页第108页第109页第110页第111页第112页第113页
ZL50110/11/12/14
Data Sheet
65
Zarlink Semiconductor Inc.
6.0
Clock Recovery
One of the main issues with circuit emulation is that the clock used to drive the TDM link is not necessarily linked
into the central office reference clock, and hence may be any value within the tolerance defined for that service.
The reverse link may also be independently timed, and operating at a slightly different frequency. In the
plesiochronous digital hierarchy the difference in clock frequencies between TDM links is compensated for using bit
stuffing techniques, allowing the clock to be accurately regenerated at the remote end of the carrier network.
With a packet network, that connection between the ingress and egress frequency is broken, since packets are
discontinuous in time. From Figure 6, the TDM service frequency fservice at the customer premises must be exactly
reproduced at the egress of the packet network. The consequence of a long-term mismatch in frequency is that the
queue at the egress of the packet network will either fill up or empty, depending on whether the regenerated clock is
slower or faster than the original. This will cause loss of data and degradation of the service.
The ZL50110/11/12/14 provides clock recovery function to reproduce the TDM service frequency at the egress of
the packet network for structured and unstructured mode. Two schemes are employed, depending on the
availability of a common reference clock at each provider edge unit, differential and adaptive.
The adaptive and differential algorithms assume that there are no bit errors in the received packet header sequence
number or timestamp fields. If there are bit errors in the sequence number or timestamp fields, especially in the
most significant bits, then it is likely to cause a temporary degradation of the recovered clock performance. It is
advised to protect packets end-to-end (e.g., by using Ethernet FCS) such that packets with bit errors are discarded
and do not impact the recovered clock performance.
The clock recovery itself is performed by software in the host processor, with support from on-chip hardware to
gather the required statistics.
6.1
Differential Clock Recovery
For applications where the wander characteristics of the recovered clock are very important, such as when the
emulated circuit must be connected into the plesiochronous digital hierarchy (PDH), the ZL50110/11/12/14 also
offers a differential clock recovery technique. This relies on having a common reference clock available at each
provider edge point.
The differential algorithm assumes that the common clock is always present. There is no internal holdover
capability for the common clock source (e.g. TDM_CLKiP). If the availability of the common clock can not be
guaranteed, then it is recommended to use an external DPLL with holdover capability to provide a clock source at
all times. The external DPLL may enter holdover while the common clock is absent to maintain a relatively close
frequency to the original common clock.
In a differential technique, the timing of data packet formation is sent relative to the common reference clock. Since
the same reference is available at the packet egress point and the packet size is fixed, the original service clock
frequency can be recovered. This technique is unaffected by any low frequency components in the packet delay
variation. The disadvantage is the requirement for a common reference clock at each end of the packet network,
which could either be the central office TDM clock, or provided by a global position system (GPS) receiver.
相关PDF资料 |
PDF描述 |
|---|---|
| ZL50112GAG | SPECIALTY TELECOM CIRCUIT, PBGA552 |
| ZL50114GAG2 | SPECIALTY TELECOM CIRCUIT, PBGA552 |
| ZL50114GAG | SPECIALTY TELECOM CIRCUIT, PBGA552 |
| ZL50232GD | DATACOM, ISDN ECHO CANCELLER, PBGA208 |
| ZL50233/GDG | DATACOM, ISDN ECHO CANCELLER, PBGA208 |
相关代理商/技术参数 |
参数描述 |
|---|---|
| ZL50114 | 制造商:ZARLINK 制造商全称:Zarlink Semiconductor Inc 功能描述:128, 256, 512 and 1024 Channel CESoP Processors |
| ZL50114GAG | 制造商:Microsemi Corporation 功能描述:CESOP PROCESSOR 552BGA - Trays 制造商:MICROSEMI CONSUMER MEDICAL PRODUCT GROUP 功能描述:IC CESOP PROCESSOR 128CH 552PBGA 制造商:Microsemi Corporation 功能描述:IC CESOP PROCESSOR 128CH 552PBGA |
| ZL50114GAG2 | 制造商:Microsemi Corporation 功能描述:CESOP PROCESSOR 552BGA - Trays 制造商:MICROSEMI CONSUMER MEDICAL PRODUCT GROUP 功能描述:IC CESOP PROCESSOR 128CH 552PBGA 制造商:Microsemi Corporation 功能描述:IC CESOP PROCESSOR 128CH 552PBGA |
| ZL50115 | 制造商:ZARLINK 制造商全称:Zarlink Semiconductor Inc 功能描述:32, 64 and 128 Channel CESoP Processors |
| ZL50115GAG | 制造商:Microsemi Corporation 功能描述:SWIT FABRIC 1K X 1K 1.8V/3.3V 324BGA - Trays 制造商:Microsemi Corporation 功能描述:IC CESOP PROCESSOR 32CH 324PBGA |
发布紧急采购,3分钟左右您将得到回复。