Z9973 Datasheet, PDF(3/9 Page) Cypress Semiconductor – 3.3V, 125-MHz, Multi-Output Zero Delay Buffer

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Z9973 Datasheet, PDF (3/9 Pages) Cypress Semiconductor – 3.3V, 125-MHz, Multi-Output Zero Delay Buffer

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Z9973

Functional Description

The Z9973 has an integrated PLL that provides low-skew and

low-jitter clock outputs for high-performance microprocessors.

Three independent banks of four outputs as well as an

independent PLL feedback output, FB_OUT, provide excep-

tional flexibility for possible output configurations. The PLL is

ensured stable operation given that the VCO is configured to

run between 200 MHz to 480 MHz. This allows a wide range

of output frequencies up to125 MHz.

The phase detector compares the input reference clock to the

external feedback input. For normal operation, the external

feedback input, FB_IN, is connected to the feedback output,

FB_OUT. The internal VCO is running at multiples of the input

reference clock set by FB_SEL(0:2) and VCO_SEL select

Table 2. Frequency Select Inputs

VCO_SEL

SELA1

SELA0

VCO/8

VCO/12

VCO/16

VCO/24

VCO/4

VCO/6

VCO/8

VCO/12

SELB1

Zero Delay Buffer

When used as a zero delay buffer, the Z9973 will likely be in a

nested clock tree application. For these applications the

Z9973 offers a low-voltage PECL clock input as a PLL

reference. This allows the user to use LVPECL as the primary

clock distribution device to take advantage of its far superior

skew performance. The Z9973 can then lock onto the LVPECL

reference and translate with near-zero delay to low-skew

outputs.

By using one of the outputs as a feedback to the PLL, the

propagation delay through the device is eliminated. The PLL

works to align the output edge with the input reference edge

thus producing near-zero delay. The reference frequency

affects the static phase offset of the PLL and thus the relative

delay between inputs and outputs. Because the static phase

offset is a function of the reference clock, the Tpd of the Z9973

is a function of the configuration used.

Glitch-Free Output Frequency Transitions

Customarily, when output buffers have their internal counters

changed âon the fly,â their output clock periods will:

inputs (see Table 1). The VCO frequency is then divided to

provide the required output frequencies. These dividers are

set by SELA(0,1), SELB(0,1), SELC(0,1) select inputs (see

Table 2). For situations in which the VCO needs to run at

relatively low frequencies and hence might not be stable,

assert VCO_SEL LOW to divide the VCO frequency by 2. This

will maintain the desired output relationships, but will provide

an enhanced PLL lock range.

The Z9973 is also capable of providing inverted output clocks.

When INV_CLK is asserted HIGH, QC2 and QC3 output

clocks are inverted. These clocks could be used as feedback

outputs to the Z9973 or a second PLL device to generate early

or late clocks for a specific design. This inversion does not

affect the output to output skew.

SELB0

VCO/8

VCO/12

VCO/16

VCO/20

VCO/4

VCO/6

VCO/8

VCO/10

SELC1

SELC0

VCO/4

VCO/8

VCO/12

VCO/16

VCO/2

VCO/4

VCO/6

VCO/8

1. contain short or âruntâ clock periods. These are clock cycles

in which the cycle(s) are shorter in period than either the

old or new frequency to which it is being transitioned.

2. contain stretched clock periods. These are clock cycles in

which the cycle(s) are longer in period than either the old

or new frequency to which it is being transitioned.

This device specifically includes logic to guarantee that runt

and stretched clock pulses do not occur if the device logic

levels of any or all of the following pins changed âon the flyâ

while it is operating: SELA, SELB, SELC, and VCO_SEL.

SYNC Output

In situations where output frequency relationships are not

integer multiples of each other, the SYNC output provides a

signal for system synchronization. The Z9973 monitors the

relationship between the QA and the QC output clocks. It

provides a low-going pulse, one period in duration, one period

prior to the coincident rising edges of the QA and QC outputs.

The duration and the placement of the pulse depend on the

higher of the QA and QC output frequencies. The following

timing diagram illustrates various waveforms for the SYNC

output (see Figure 1). Note. The SYNC output is defined for

all possible combinations of the QA and QC outputs even

though under some relationships the lower frequency clock

could be used as a synchronizing signal.

Document #: 38-07089 Rev. *D

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