Silicon Laboratories Inc. has introduced an expansion of its Any-Rate Precision Clock family with the Si5315, a jitter-attenuating clock multiplier IC that meets or exceeds the performance, integration, frequency and jitter requirements for the 1G and 10G Synchronous Ethernet (SyncE) market. The Si5315 is the industry’s only SyncE clock multiplier IC to support 10G line encoding rates (161.13 MHz) in addition to SONET/SDH and Ethernet frequencies. The device requires no external phase-locked loop (PLL) components, dramatically simplifying line card design and frequency translation in carrier Ethernet switch routers (CESR), wireless backhaul, 3G/4G base stations, multi-service access platforms, passive optical networking, IP DSLAM and T1/E1 infrastructure.
As service providers upgrade legacy circuit switched networks to more cost-effective carrier Ethernet/IP networks, communications equipment suppliers face challenges when translating between legacy SONET/SDH and Ethernet clock frequencies. Existing SyncE clock ICs and voltage-controlled crystal oscillator-based module level solutions are limited by a combination of poor jitter performance, limited frequency flexibility and lack of integration, which ultimately make these traditional solutions difficult to use.
The Si5315 provides the lowest jitter of any SyncE clock IC in the industry at less than 0.6 ps rms phase jitter, meeting the jitter requirements specified by ITU-T G.8262 and providing significant margin to Gigabit Ethernet (GbE) and 10 GbE PHY jitter requirements. The Si5315 achieves this level of performance by leveraging Silicon Labs’ patented DSPLL® technology to integrate all key components of a high-performance analog PLL on chip, thereby providing excellent immunity to system noise sources. For ease of use, the Si5315 generates more than 200 of the most popular frequency translations required in SyncE line card applications, simplifying design and reducing BOM cost and complexity.
“Current SyncE solutions are incomplete because they do not provide the breadth of frequencies and jitter performance to fully meet 10G requirements,” said Dave Bresemann, vice president of Silicon Labs. “Silicon Labs’ solution provides an unprecedented level of frequency flexibility, integration and performance, simplifying design and lowering costs for our customers.”
In addition to this new family of SyncE clocks, Silicon Labs offers an expansive portfolio of frequency flexible, low jitter any-rate clock generators and buffers, jitter attenuating clock multipliers, XO/VCXOs, and silicon oscillators. These products use optimized DSPLL® and MultiSynth technology to shorten lead times and deliver outstanding jitter performance for datacom, telecom, wireless, broadcast video, test and measurement, and consumer markets.
Pricing and Availability
The Si5315 is packaged in a space-saving 36-lead, 6x6 mm QFN package with samples available in January and full production in Q1 2009. The Si5315A for 10G applications is priced at $17.72 in 1,000 piece quantities. The Si5315B for 1G applications is priced at $12.50 in 1,000 piece quantities.
Silicon Laboratories Inc.
Silicon Laboratories is an industry leader in the innovation of high-performance, analog-intensive, mixed-signal ICs. Developed by a world-class engineering team with unsurpassed expertise in mixed-signal design, Silicon Labs’ diverse portfolio of highly integrated, easy-to-use products offers customers significant advantages in performance, size and power consumption. These patented solutions serve a broad set of markets and applications including consumer, communications, computing, industrial and automotive.
Headquartered in Austin, TX, Silicon Labs is a global enterprise with operations, sales and design activities worldwide. The company is committed to contributing to our customers’ success by recruiting the highest quality talent to create industry-changing innovations.
For more information about Silicon Labs, please visit www.silabs.com.
Silicon Laboratories Inc.,
Note: The above text is the public part of the press release obtained from the manufacturer (with minor modifications). EETimes Europe cannot be held responsible for the claims and statements made by the manufacturer. The text is intended as a supplement to the new product presentations in EETimes Europe magazine.