VSC8163 查看數據表（PDF） - Vitesse Semiconductor

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VSC8163

OC-48 16:1 SONET/SDH MUX with Clock Generator

Vitesse Semiconductor 

VITESSE

SEMICONDUCTOR CORPORATION

OC-48 16:1 SONET/SDH

MUX with Clock Generator

Preliminary Data Sheet

VSC8163

Functional Description

Low-Speed Interface

The Upstream Device should use the CLK16O as the timing source for its final output latch (see Figure 1).

The Upstream Device should then generate a CLK16I phase aligned with the data. The VSC8163 will latch

D[15:0]± on the rising edge of CLK16I+. The data must meet setup and hold times with respect to CLK16I (see

Table 2). In addition to the CLK16O clock output, there also exists a utility REFCLKO output signal, which is a

clock with the same rate as that presented at the REFCLK input.

A FIFO exists within the VSC8163 to eliminate difficult system loop timing issues. Once the PLL has

locked to the reference clock, RESET must be held low for a minimum of five CLK16 cycles ( > 32ns) to ini-

tialize the FIFO, then RESET should be set high and held constant for continuous FIFO operation. For the

transparent mode of operation (no FIFO), simply hold RESET at a constant low state (see Figure 2).

The use of a FIFO permits the system designer to tolerate an arbitrary amount of delay between CLK16O

and CLK16I. Once RESET is asserted and the FIFO initialized, the delay between CLK16O and CLK16I can

decrease or increase up to one period of the low-speed clock (6.4ns). Should this delay drift exceed one period,

the write pointer and the read pointer could point to the same word in the FIFO, resulting in a loss of transmitted

data (a FIFO overflow). In the event of a FIFO overflow, an active low FIFO_WARN signal is asserted (for a

minimum of 5 CLK16I cycles) which can be used to initiate a reset signal from an external controller.

The CLK16O± output driver is a LVPECL output driver designed to drive a 50Ω transmission line. The

transmission line can be DC terminated with a split-end termination scheme (see Figure 3), or DC terminated by

50Ω to VCC-2V on each line (see Figure 4). At any time, the equivalent split-end termination technique can be

substituted for the traditional 50Ω to VCC-2V on each line. AC-coupling can be achieved by a number of meth-

ods. Figure 5 illustrates an example AC-coupling method for the occasion when the downstream device pro-

vides the bias point for AC-coupling. If the downstream device were to have internal termination, the line-to-

line 100Ω resistor may not be necessary.

Figure 1: Low-Speed Systems Interface

Upstream

Device

CLK16I

x16

Write

16 x 5 FIFO

CLK16O

REFCLK

Read

VSC8163

2.488GHz

PLL

Divide by 16

Page 2

© VITESSE SEMICONDUCTOR CORPORATION • 741 Calle Plano • Camarillo, CA 93012

Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: prodinfo@vitesse.com

Internet: www.vitesse.com

G52216-0, Rev 3.3

01/05/00

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