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VSC7140, VSC7142, VSC7142EKN

Table of contents:
Info of VSC7140
Info of VSC7142
Info of VSC7142EKN

VSC7140, VSC7142, VSC7142EKN Selling Leads, Datasheet

MFG:800 Package Cooled:QFP D/C:VSC

VSC7140, VSC7142, VSC7142EKN Datasheet download

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Part Number: VSC7140

MFG: 800

Package Cooled: QFP

D/C: VSC

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VSC7140 General Description

The VSC7140 is a dual Fibre Channel repeater which can be used in Hubs, JBODs or any Fibre Channel Subsystem requiring clean incoming and outgoing signals at a bulkhead connector. The digital Clock Recovery Unit (CRU) recovers incoming data from an external device, amplifies it and attenuates jitter. A digital Signal Detect Unit (SDU) determines whether the incoming signal contains invalid Fibre Channel data. A 2:1 multiplexer forms a Port Bypass Circuit (PBC) to route either recovered incoming data or SI to SO.

Fibre Channel subsystems requiring signal cleanup at the bulkhead would connect RX1 to the incoming signal and SO1 to the internal subsystem's input. RX2 would connect to the output of the subsystem and SO2 would connect to the bulkhead.

For Hub applications, SI would connect to the previous Hub Node and output data to the external device on TX. Incoming data from the external device on RX is recovered and cleaned up and passed to the next Hub node on SO. If the external device is not functional, SI is passed to SO.

VSC7140 Maximum Ratings

Power Supply Voltage (V_DD) .......................................................................................-0.5V to +4V
PECL DC Input Voltage .................................................................................... -0.5V to V_DD +0.5V
TTL DC Input Voltage................................................................................................. -0.5V to 5.5V
DC Voltage Applied to TTL Outputs ................................................................. -0.5V to V_DD + 0.5V
TTL Output Current ...........................................................................................................+/-50mA
PECL Output Current .........................................................................................................+/-50mA
Case Temperature Under Bias ................................................................................-55° to +125
Storage Temperature..............................................................................................-65° to + 150
Maximum Input ESD (Human Body Model)........................................................................... 1500 V

VSC7140 Features

• Supports ANSI X3T11 1.0625Gb/s, FC-AL Disk Attach for Resiliency
• Dual Digital Clock Recovery Units
• Dual Digital Signal Detect Units
• Dual Port Bypass Circuits
• 106.25 or 53.125 MHz Reference Clock
• Implements 2 Hub Nodes
• Provides Bi-directional Signal Clean-up.
• 1.2 W Typical Power Dissipation
• 3.3V Power Supply
• 52-Pin, 10mm PQFP

VSC7140 Connection Diagram

VSC7142 General Description

The VSC7142 contains two FibreTimer Repeater /Retimer cells and Signal Detect Units (SDUs) primarily used for bidirectional signal clean up applications. Each FibreTimer cell contains an all-digital clock recovery unit which can be configured as either a Repeater or a Retimer. Repeaters recover the incoming signal and retransmit the data synchronously to the recovered clock in order to attenuate jitter so that downstream devices see high amplitude, low jitter signals. Retimers eliminate jitter transfer by retiming the recovered data to the local reference clock. An add/ drop FIFO inserts or deletes 40-bit Fibre Channel Fill Words to match the incoming data rate to the local reference clock, thereby ensuring Fibre Channel compliance at the output of the Retimer. The VSC7142 also operates as a Repeater for Gigabit Ethernet applications at 1.25 Gb/s. Retimer mode is not available for Gigabit Ethernet applications.

VSC7142 Features

`Two FibreTimer™ Cells Configurable as:
- Repeaters for Low Latency
- Retimers for True Fibre Channel Compliance
- Provides Design Flexibility by Allowing Mixing and Matching of the Functions for Design Optimization
`Digital Design of the FibreTimers Produce a Device that is Well Controlled Over Voltage, Process and Temperature Variations Provides a More Robust and Reliable Design
`Supports Both 1.0625 Gb/s and 2.125 Gb/s Fibre Channel Data Rates Dual Mode Provides Flexibility by Having One
Device for New and Legacy Designs
`Supports 1.25 Gb/s Data Rates for Gigabit Ethernet Applications
`User-Selectable, On-chip Receive Termination at Either 100 or 150􀂟
`Speed Independent Tx and Rx Paths Aid in Fibre Channel Auto-Speed Negotiation
`World-class Signal Integrity for Jitter Compliance Reduces Debug and Redesign Efforts
`Two Digital/Analog Signal Detect Units to Detect the Presence
of Valid Fibre Channel Encoded Serial Data Improves Signal Detect Reliability
`User Selectable Pre-emphasis on all High-speed Outputs Compensates for Deterministic Jitter Due to Long Traces and Cables
`106.25MHz or 125MHz Reference Clock
`5V-tolerant LVTTL Inputs Provides Design Flexibility and Backward Compatibility
`Cable Equalization on all High-speed Inputs Reliably Recovers Jittery Signals
`Single 2.5V Supply Reduces Wiring Complexity
`64-pin, 10x10mm TQFP Package Ideal for High Density Designs

VSC7142 Typical Application

One application for the VSC7142 is in high port-count Fibre Channel and Ethernet systems, such as switches. The following diagram shows a switch with a CMOS protocol ASIC with integrated Serializer/Deserializers (SerDes) located on the Switch Fabric card. Serial data from the protocol ASIC passes through multiple connectors and long traces on the PCB before reaching the connector. Without the VSC7142, the signal quality at the connectors would result in poor system performance. However,by using the VSC7142, signal quality is ensured to meet the specifications of Fibre Channel standards at the system interface connectors.

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