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To satisfy this diverse range of requirements, the timing IC industry has responded by developing application-specific clocks.  Each device is highly customized to meet the frequency, jitter, phase and skew requirements for a particular application.  These ICs are simple, pin-controlled devices and require no firmware or configuration via a host processor.  There are two significant limitations with this traditional approach. 

First, if the application’s frequency, jitter or other performance requirements change, a new application-specific clock must be designed, manufactured, qualified and tested.  Sample lead times for clocks customized using dedicated wafer masks can approach 8 weeks or more, which can be an issue in some time-sensitive designs. 

Second and more importantly, application-specific clocks have traditionally only been available for high volume applications.  As a result, mid and low volume designs have resorted to using a combination of clocks, crystal oscillators (XO), and crystals to complete their timing architectures.  The resulting solutions are not optimized in terms of cost, power or real estate.

A new type of programmable clock generator is available that addresses the deficiencies with traditional solutions.  The new Silicon Labs’ Si5355 Any-Rate 1-200 MHz Clock Generator can be completely customized using a web-based utility available at www.silabs.com/ClockBuilder. Using a simple point-and-click graphical user interface, a user can quickly configure the device input (crystal versus clock), input frequency and output frequencies.  The utility assigns a unique orderable part number for each custom configuration.  Samples can be ordered directly via the website and are available in as little as two weeks after order placement. 

In order to support web-based device configuration, a highly flexible device architecture is required.  The Si5355 has four banks of clock outputs, with each bank comprised of two CMOS output clocks.  Each bank can generate any frequency from 1 to 200 MHz, such that a single device can produce 8 outputs at 4 unique, non-integer related frequencies.  All combinations of output frequencies are guaranteed to have 0 ppm frequency synthesis error.  All Si5355 devices are pin-controlled, eliminating the need for I2C firmware development and simplifying device startup.  The device has consistently low jitter across all input/output frequency combinations (50 ps peak-peak period jitter), providing significantly lower jitter than traditional programmable clocks.  Also, up to three unique frequency configurations can be customized per device, with external control pins available to select the active frequency plan.   This enables one part number to replace three SKUs with a single device, simplifying inventory management.

The most significant benefit provided by web-customized programmable clocks is that low and mid volume based applications can finally enjoy the benefits of having fully customized, application-specific clocks.  All frequencies can be synthesized from a single IC with 0 ppm frequency synthesis error, making it possible to replace multiple discrete clocks and oscillators with a single IC.  All device customization, including custom part number assignment, device programming, custom part marking, and logistics can be handled by the supplier, freeing up hardware designers and procurement to focus on higher value-add activities.