CY28800OXCT Silicon Laboratories Inc, CY28800OXCT Datasheet - Page 6

CY28800OXCT

Manufacturer Part Number

CY28800OXCT

Description

Clock Buffer PCI Express & Sata Diff Buffer 100MHz

Manufacturer

Silicon Laboratories Inc

Datasheet

1.CY28800OXC.pdf (15 pages)

Specifications of CY28800OXCT

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Rev 1.0, November 21, 2006

OE_INV Clarification

The OE_INV pin is an input strap sampled at power-on. The

functionality of this input is to set the active level polarities for

OE_[7:0], PWRDWN, and SRC_STP input pins. ‘Active High’

indicates the functionality of the input is asserted when the

input voltage level at the pin is high and deasserted when the

voltage level at the input is low. ‘Active Low’ indicates that the

functionality of the input is asserted when the voltage level at

the input is low and deasserted when the voltage level at the

input pin is high. See V

cations for input voltage high and low ranges.

PWRDWN Clarification

The PWRDWN pin is an asynchronous input used to shut off

all clocks cleanly and instruct the device to evoke power

savings mode. It may be active high or active low depending

on the strapped value of the OE_INV input. The PWRDWN pin

should be asserted prior to shutting off the input clock or power

to ensure all clocks shut down in a glitch-free manner. This

signal is synchronized internal to the device prior to powering

down the clock buffer. PWRDWN is an asynchronous input for

powering up the system. When the PWRDWN pin is asserted,

all clocks will be held high or tri-stated (depending on the state

of the control register drive mode and OE bits) prior to turning

off the VCO. All clocks will start and stop without any abnormal

behavior and meet all AC and DC parameters. This means no

OE_INV

Active High

Active Low

PWRDWN

DIFC

DIFT

and V

Active High

Active Low

in the DC Electrical Specifi-

Figure 3. PWRDWN Deassertion Diagram, OE_INV = 0

SRC

Figure 1. PWRDWN Assertion Diagram, OE_INV = 0

Figure 2. PWRDWN Assertion Diagram, OE_INV = 1

Active High

Active Low

OE_[7:0]

<300 μs, >200 mV

Tdrive_Pwrdwn#

Tstable

<1 ms

glitches, frequency shifting or amplitude abnormalities among

others.

PWRDWN Assertion

When the power down pin is sampled as being asserted by

two consecutive rising edges of DIFC, all DIFT outputs will be

held high or Tri-stated (depending on the state of the control

transition. When the SMBus PWRDWN Drive Mode bit is

programmed to ‘0’, all clock outputs will be held with the DIFT

pin driven high at 2 x Iref and DIFC tri-stated. However, if the

control register PWRDWN Drive Mode bit is programmed to

‘1’, then both DIFT and the DIFC are Tri-stated.

PWRDWN Deassertion

The power-up latency is less than 1 ms. This is the time from

the deassertion of the PWRDWN pin or the ramping of the

power supply or the time from valid SRC_IN input clocks until

the time that stable clocks are output from the buffer chip (PLL

locked). IF the control register PWRDWN Drive Mode bit is

programmed to ‘1’, all differential outputs must be driven high

in less than 300 μs of the power down pin deassertion to a

voltage greater than 200 mV.

OE_INV

PWRDWN

CY28800

Power Down

Page 6 of 15

Normal

Mode

CY28800OXCT Silicon Laboratories Inc, CY28800OXCT Datasheet - Page 6

CY28800OXCT

Specifications of CY28800OXCT

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