ZL30314 Data Sheet
2
Microsemi Corporation
Applications
• IEEE 1588 and Synchronous Ethernet timing
• GSM and UMTS air interface synchronization over a packet network
• Circuit Emulation Services over Packets
• IP-PBX and VoIP Gateways
• Video Conferencing
• Broadband Video Distribution
Description
Network infrastructures are gradually converging onto a packet-based architecture. With this convergence, there
are a significant number of synchronous applications that require accurate timing to be distributed over the packet
networks. Examples of precision timing sensitive applications that need the transport of synchronization over
packet networks include transport of TDM over packet networks, connections to 2 G and 3 G cellular base stations,
Voice over IP, IP PBXs, video-conferencing and broadband video.
There are two main ways to enable synchronization over a packet network, synchronizing the packet network itself,
as in the Synchronous Ethernet approach, or distributing the timing using the packets as in Microsemi’s Timing over
Packet (ToP) technology. The two techniques can also be combined to provide a very powerful hybrid solution.
Synchronous Ethernet delivers a very accurate frequency reference, but doesn’t address phase and time
synchronization. ToP can be used to supplement the excellent frequency distribution of Synchronous Ethernet with
accurate phase and time information. Alternatively, ToP can be used to extend the reach of the Synchronous
Ethernet reference across an asynchronous network, such as a LAN connected to a synchronous WAN.
Microsemi has combined both methods into a single device. The ZL30314 incorporates an extremely low-jitter
frequency synthesizer, capable of generating all the frequencies required for Synchronous Ethernet operation,
together with Microsemi’s patent-pending Timing over Packet (ToP) technology based on the industry-standard
IEEE1588
TM
“PTP” (Precision Time Protocol). Not only can it function as a fully-featured Digital PLL, it also
supports the distribution of time, phase and frequency across both layer 2 and layer 3 networks, using both
Synchronous Ethernet and IEEE1588 protocols, either alone or in combination.
The ZL30314 is a member of a family of footprint-compatible devices offering the full range of features required for
timing and synchronization across the packet network. These devices facilitate design of a flexible card that can be
upgraded as required by simply placing another member of the same family.
The family members include:
ZL30310 Combined IEEE1588
TM
ToP and Synchronous Ethernet, coupled with a GR-1244 Stratum 3E/3/4/4E
and GR-253 SONET and G.813 quality phase locked loop for timing card applications, plus a second
independent PLL for rate conversion or generation of additional derived clocks.
ZL30312 Combined IEEE1588
TM
ToP and Synchronous Ethernet, coupled with a GR-1244 Stratum 3/4/4E and
GR-253 SEONET and G.813 quality phase locked loop for timing card applications, plus a second
independent PLL for rate conversion or generation of additional derived clocks.
ZL30314 Combined IEEE1588
TM
ToP and Synchronous Ethernet, coupled with a GR1244 Stratum 3/4/4E and
G.813 Option 1 quality phase locked loop for timing card applications, plus a second independent PLL
for rate conversion or generation of additional derived clocks.
ZL30316 Combined IEEE1588
TM
ToP and Synchronous Ethernet, coupled with two independent, flexible phase
locked loops for line card applications
ZL30320 Combined IEEE1588
TM
ToP and Synchronous Ethernet for line card applications
ZL30321 Synchronous Ethernet line card device in a ToP compatible footprint, containing two independent DPLLs