Advanced Clock-Tree Solutions

4th June 2015
Source: IDT
Posted By : Phil Ling
Advanced Clock-Tree Solutions

The latest generations of fully-programmable multi-output clock sources help designers satisfy the timing requirements of multiple high-speed interfaces, while offering a healthy jitter margin, low power consumption, and a compact footprint. By Baljit Chandhoke, Product Marketing Manager, Multi-Market Timing Products, Integrated Device Technology

Today’s high performance equipment comprises multiple processors, FPGAs or network processors, memories, and physical layer devices supporting multi-protocol high-speed connectivity. Such systems typically call for a complex timing architecture comprising multiple reference clocks capable of coordinating the various devices and satisfying the exact clock frequency, voltage level and jitter specifications of interfaces such as PCI Express, Gigabit or 10 Gigabit Ethernet, USB3.0 and others.

Demands to minimise the complexity as well as size and cost overheads associated with such timing architectures are driving the design and development of innovative new integrated timing devices by companies such as IDT.
By replacing multiple crystals and crystal oscillators, designers can save board space and lower power consumption by using a single integrated device to generate multiple clock references. Avoiding or minimising crystal use can also mitigate procurement risks in time critical designs and deliver improved system reliability. Typically only one crystal oscillator is required as a reference. This not only reduces component costs and saves PCB real-estate, but also simplifies design.
Using an integrated multi-channel timing IC can also greatly reduce procurement risks since purchasers only need to manage the availability of one crystal part number to ensure that production can continue without delays. Other specification points that designers should consider when selecting programmable clocks include power consumption, jitter across a wide frequency range, physical size and in-system programmability.
IDT’s VersaClock 5 family of fully programmable clock generators is an example of the new generation of integrated timing devices. They differ from conventional integer-N phase-locked loop devices that provide multiple clock outputs at integer multiples of the reference input. A VersaClock 5 - 5P49V5901 can produce output clock signals at any multiple of the input reference, and with its fractional output dividers is not restricted to pure integer multiples.
In addition, each clock channel can be configured independently as dual LVCMOS outputs, or as LVPECL or LVDS outputs or the Host Clock Signal Level (HCSL) protocol as specified for PCI Express cards. The flexibility to configure clock-output channels independently, in accordance with any of these specifications, can save any need for discrete level translation ICs in a large number of applications.

The importance of Jitter
The jitter performance of programmable clock generator ICs has been improving steadily through successive generations, to meet the demands of high-speed connectivity standards. VersaClock 5 devices have class-leading RMS phase jitter of less than 0.7 picoseconds over the full 12kHz to 20MHz integration range.
High-speed interconnect standards such as 1G or 10G Ethernet and PCI Express Gen 3 specify a maximum jitter budget taking into account the contributions of all jitter sources. These include not only the clock, but also the transmitter as well as the effects of terminations and board traces. The RMS jitter budget for a 10G Ethernet connection can be as low as 1.55ps (10G BASE-R), while PCI Express Gen 3 specifies RMS jitter budget of 1.0ps for the clock. Minimising the RMS phase jitter contributed by the clock source gives the designer a greater margin to meet the link jitter budget when other contributions are taken into account.
Programmable multi-output clock generators give system designers a great deal of flexibility and can save the need for discrete level translation ICs in a lot of applications. Some applications may require a convenient integrated clock tree that can be connected in-circuit and will power up directly in the desired configuration. IDT’s VersaClock IC has four One-Time Programmable (OTP) Memory banks, which allow the device to operate in this way.
The OTP banks also enable VersaClock devices to store multiple alternative configurations. This allows engineers to use one part number in multiple projects, which can simplify procurement and inventory management, buyers can also benefit from better volume pricing. The ability to store up to four configurations also caters for applications that require frequency margining.
Power consumption is a critical parameter from both a thermal viewpoint and also helping extend battery life in the ever-increasing number of portable, battery powered devices. In general terms, integration of previously separate components into a single device has a positive effect on overall system power consumption. This holds true with integrated programmable clock generators such as the VersaClock 5 which has a total device power consumption of just 300mW with all outputs operational. In fact, VersaClock 5 compares very well not only with discrete clock sources but also with other competing integrated clocks; its core current of 30mA is about half that of alternative devices. Of course, lower power requirements also translate to fewer thermal issues which simplifies the design process. And as less provision for heat management is needed, the space, weight and cost of the finished design can be lessened too.


You must be logged in to comment

Write a comment

No comments




Sign up to view our publications

Sign up

Sign up to view our downloads

Sign up

EMO Hannover 2019
16th September 2019
Germany Hannover
European Microwave Week 2019
29th September 2019
France Porte De Versailles Paris
HETT 2019
1st October 2019
United Kingdom EXCEL, London
World Summit AI 2019
9th October 2019
Netherlands Taets Park, Amsterdam
New Scientist Live 2019
10th October 2019
United Kingdom ExCeL, London