January 25, 2011 - BUSINESS WIRE -- Discera Inc., silicon timing technology provider, debuted high-performance MEMS oscillators for networking, server, storage, and video applications. The DSC11XX silicon oscillators are available at accuracies up to 10ppm, and temperature ranges up to 125°C.
The DSC11XX are the highest performance silicon-based oscillators to enter production, with 300 femtosecond RMS phase jitter in CMOS, LVPECL, LVDS, and HCSL output versions, says Discera. "Silicon processes enable a great deal of programmability and flexibility, but until today, they did not provide the highest level of jitter performance, frequency stability, and noise immunity necessary for high-speed communications,” said Bruce Diamond, CEO of Discera.
Independent system-level testing has validated these Silicon MEMS oscillators as exceeding the performance of crystal oscillators for storage and networking applications. GRL testing of the LVPECL DSC1122 found that it surpassed 6G SAS compliance requirements with 59% lower transmitter jitter than the SAS 2.1 specification. UNH Interoperability Labs testing of the DSC1122 found that it surpassed 10 Gigabit Ethernet conformance requirements by delivering transmitter timing jitter 45% lower than the 10GBASE-T specification.
"In our testing of the same production 6G SAS HBA design with both the DSC1122 Silicon MEMS oscillator and a 3rd overtone crystal oscillator, we found that the use of the DSC1122 resulted in equivalent system performance with a bit lower measured transmitter random jitter and total jitter," said Mike Engbretson, chief technology engineer of Granite River Labs. "The results showed the necessity of system-level compliance testing since the crystal oscillator had an even lower RMS phase jitter specification on a component level."
Using Discera's silicon MEMS technology, the DSC11XX provide excellent jitter while consuming less power and delivering higher frequency stability over a wider temperature ranges than crystal oscillator products. By eliminating the need for quartz crystal or SAW technology, silicon oscillators significantly enhance reliability and accelerate product development. With femtosecond jitter and 10ppm frequency accuracy, DSC11XX oscillators meet the performance demands of high-speed protocols including DisplayPort, Ethernet, Fibre Channel, PON, SAS, and Wi-Gig for signaling rates of 10 Gbps and beyond.
The DSC11XX oscillators are pin-compatible replacements for standard crystal oscillators. Key features include ultra-low phase noise jitter of 300 femtosecond RMS at 156.25 MHz (integrated 200 kHz to 20 MHz), industry-leading frequency accuracy up to 10 ppm across temperature, highest operating temperature range of up to 125°C, and production leadtime of 2 weeks.
Learn more at www.discera.com