CLOCKING ICS IMPROVE PERFORMANCE IN TIMING SIGNAL CHAIN FOR COMMUNICATIONS INFRASTRUCTURE


- AD9553 clock generator features pin-programming and customizable SPI programming modes to facilitate designs of GPON, OC-48 optical network and wireless communications infrastructure equipment.

- ADCLK944 high-speed clock fanout buffer lowers jitter performance in SONET and wireless base station systems.

Norwood, MA (05/21/2010) - Analog Devices, Inc. (ADI), a global leader in high-performance semiconductors for signal-processing applications and leading provider of data conversion technology, today introduced two clock products that, when designed in as part of a complete timing signal chain, improve performance and reduce programming and design complexity in synchronous optical networks and wireless base stations.

The AD9553 clock generator is recommended for low-cost clock translation needs in GPON, SONET/SDH OC-48 (synchronous optical networking/synchronous digital hierarchy), test and measurement, data acquisition, Ethernet, Fibre Channel, T1/E1, broadcast video and other wireless and wired communications applications.

The ADCLK944 is designed to improve SNR (signal-to-noise ratio) performance from data converters in wireless base stations as well as provide low-power, low-jitter performance for SONET/SDH optical networks. More designers turn to ADI than any other supplier for the high-performance data converters and clocking technology required to bridge the analog and digital worlds in today’s electronic systems.

AD9553 Clock Generator Reduces Programming Time
The AD9553 clock generator, available at about half the cost of competing solutions, features pre-set input/output frequency ratios that can be easily pin-programmed. The pin-programming mode provides a matrix of standard input/output frequency translations, while a SPI (serial peripheral interface) port is available to program customized input-to-output frequency translations. The AD9553 clock generator features both jitter clean-up and clock translation. The variety of input/output clock frequency combinations and its output stage flexibility eliminate up to two discrete PLLs (phase-locked loops) and various other discrete components, reducing board space, design complexity and simplifying programming.

The AD9553 features a holdover mode that provides output signals even in the absence of a reference input. If one of the CMOS references fails, the clock generator also includes a switchover function that provides additional security without losing the lock on downstream PLLs.

ADCLK944 Clock Buffer Provides Low-Jitter Performance
The ADCLK944 clock fanout buffer features the industry’s lowest jitter figure of 50-fs (femto seconds) for communications equipment that require multiple high-performance clock signals without compromising high-speed signal conversion in LTE, MC-GSM and other wireless network applications. This jitter performance, combined with low power consumption per channel, also make the ADCLK944 effective for applications based on the Gigabit Ethernet (GbE) and SONET/SDH optical network multiplexing protocols.

The increasing data rates in SONET/SDH and GbE systems necessitate clocks with very low jitter. The ADCLK944’s ultra-low jitter contributes very little to the system jitter budget thus allowing maximum design flexibility for the SerDes (serializer/deserializer) clock designer. Low power is also important because today's systems use high density SONET boards containing multiple channels.

The ADCLK944 clock fanout buffer provides four LVPECL outputs that operate at speeds up to 7 GHz while achieving broadband random rms (root-mean square) additive jitter of 50 fs. The ADCLK944 clock fanout buffer’s extremely low jitter and maxoutput-to-output skew of 15 ps (pico seconds) are designed for wired and wireless equipment that requires clean clock signals for high-speed converter clocking, such as LTE and multi-carrier GSM communications base stations. The jitter performance also contributes to addressing clocking-distribution jitter generation requirements for high-speed OC-192 and OC-768 SONET line cards.

The buffer’s low-noise performance enables significantly higher SNR levels, particularly when designed in as part of a complete signal chain incorporating DACs (digital-to-analog converters), ADCs (analog-to-digital converters) and clock generators.

As part of an optimized communications signal chain, the ADCLK944 clock buffer is designed to operate with ADI’s AD9779 Dual 16-Bit, 1 GSPS DAC; AD9739 14-Bit, 2500 MSPS, RF DAC and AD9789 14-Bit, 2400 MSPS TxDAC+ with 4-Channel Signal Processing and ADCs such as the AD9445 14-Bit, 105 MSPS / 125 MSPS and AD9446 16-Bit, 80 MSPS / 100 MSPS.

Availability and Pricing

Product Sample Availability Temperature
Range
Price Each
Per 1,000
Packaging
AD9553 NOW -40°C to +85°C $5.10 5 mm x 5 mm
32-lead LFCSP
ADCLK944 NOW -40°C to +85°C $6.00 3 mm x 3 mm
16-lead LFCSP
For more product information on the ADCLK944 clock fanout buffer visit: http://www.analog.com/pr/ADCLK944. For more product information on the AD9553 clock generator visit: http://www.analog.com/pr/AD9553.

For more information on ADI’s clock generation and distribution products visit: http://www.analog.com/pr/clock-generation-and-distribution.

About Analog Devices

Innovation, performance, and excellence are the cultural pillars on which Analog Devices has built one of the longest standing, highest growth companies within the technology sector. Acknowledged industry-wide as the world leader in data conversion and signal conditioning technology, Analog Devices serves over 60,000 customers, representing virtually all types of electronic equipment. Analog Devices is headquartered in Norwood, Massachusetts, with design and manufacturing facilities throughout the world. Analog Devices is included in the S&P 500 Index.

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Editor's Contact Information:

Bob Olson
781/937-1666

bob.olson@analog.com

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