Cypress FS781, FS784, FS782 manual Features, Applications, Benefits, Functional Description

Page 1

FS781/82/84

Low EMI Spectrum Spread Clock

Features

Spread Spectrum clock generator (SSCG) with 1×, 2×, and 4× outputs

6- to 82-MHz operating frequency range

Modulates external clocks including crystals, crystal oscillators, or ceramic resonators

Programmable modulation with simple R-C external loop filter (LF)

Center spread modulation

3V-5V power supply

TTL-/CMOS-compatible outputs

Low short-term jitter

Low-power Dissipation

3.3 VDC = 37 mW – typical

5.0 VDC = 115 mW – typical

Available in 8-pin SOIC and TSSOP packages

Applications

Desktop/notebook computers

Printers, copiers, and MFP

Scanners and fax

LCD displays and monitors

CD-ROM, VCD, and DVD

Automotive and embedded systems

Networking, LAN/WAN

Digital cameras and camcorders

Modems

Benefits

Programmable EMI reduction

Fast time to market

Lower cost of compliance

No degradation in rise/fall times

Lower component and PCB layer count

Functional Description

The Cypress FS781/82/84 are Spread Spectrum clock generator ICs (SSCG) designed for the purpose of reducing electromagnetic interference (EMI) found in today’s high-speed digital systems.

The FS781/82/84 SSCG clocks use a Cypress-proprietary technology to modulate the input clock frequency, XIN, by modulating the frequency of the digital clock. By modulating the reference clock the measured EMI at the fundamental and harmonic frequencies of FSOUT is greatly reduced. This reduction in radiated energy can significantly reduce the cost of complying with regulatory requirements without degrading digital waveforms.

The Cypress FS781/82/84 clocks are very simple and versatile devices to use. By programming the two range select lines, S0 and S1, any frequency from 6- to 82-MHz operating range can be selected. The FS781/2/4 are designed to operate over a very wide range of input frequencies and provides 1×, 2×, and 4× modulated clock outputs.

The FS78x devices have a simple frequency selection table that allows operation from 6 MHz to 82 MHz in four separate ranges. The bandwidth of the frequency spread at FSOUT is determined by the values of the loop filter components. The modulation rate is determined internally by the input frequency and the selected input frequency range.

The Bandwidth of these products can be programmed from as little as 1.0% up to as much as 4.0% by selecting the proper loop filter value. Refer to the Loop Filter Selection chart in Table 2 and Table 3 for the recommended values. Due to a wide range of application requirements, an external loop filter (LF) is used on the FS78x products. The user can select the exact amount of frequency modulation suitable for the appli- cation. Using a fixed internal loop filter would severely limit the use of a wide range of modulation bandwidths (Spread %) to a few discrete values. Refer to FS791/2/4 products for appli- cations requiring 80- to 140-MHz frequency range.

Cypress Semiconductor Corporation

198 Champion Court • San Jose, CA 95134-1709

408-943-2600

Document #: 38-07029 Rev. *F

 

Revised January 2, 2005

[+] Feedback

Image 1
Contents Applications FeaturesBenefits Functional DescriptionLoop Filter Selection Chart Block DiagramPin Description Output Frequency SelectionFS781/82/84 610 Theory of Operation Sscg Modulation ProfileSpectrum Analysis of 19.8-20.2 MHz Clock MHz Unmodulated ClockSoic Absolute Maximum Ratings Parameter Description Min Unit Absolute Maximum Ratings6Parameter Description Min Typ Max Unit Part Number Package Type Product Flow Ordering Information8Lead-free Marking Example Package Drawing and DimensionsLead 150-Mil Soic S8 Lead Thin Shrunk Small Outline Package 4.40 MM Body Z8 Dimensions in Mminches MIN MAXDocument History Issue Date Orig. Description of Change