CY28400OXC-2T Silicon Laboratories Inc, CY28400OXC-2T Datasheet - Page 7

CY28400OXC-2T

Manufacturer Part Number

CY28400OXC-2T

Description

Clock Buffer PCIe buffer 1in 4out

Manufacturer

Silicon Laboratories Inc

Datasheet

1.CY28400OXC-2.pdf (15 pages)

Specifications of CY28400OXC-2T

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Rev 1.0, November 21, 2006

Table 4. Buffer Power-up State Machine

SRC_STP Clarification

The SRC_STP signal is an asynchronous input used for clean

stopping and starting the DIFT/C outputs. This input can be

Active HIGH or Active LOW based on the strapped value of

the OE_INV input. The SRC_STP signal is a debounced signal

in that its state must remain unchanged during two consec-

utive rising edges of DIFC to be recognized as a valid

assertion or deassertion. (The assertion and deassertion of

this signal is absolutely asynchronous.) In the case where the

output is disabled via OE control, the output will always be

tri-stated regardless of the SRC_STP Drive Mode register bit

state.

Table 5. SRC_STP Functionality

Notes:

1. Disabling of the SRCT_IN input clock prior to assertion of PWRDWN is an undefined mode and not recommended. Operation in this mode may result in glitches

2. The total power up latency from power-on to all outputs active is less than 1 ms (assuming a valid clock is present on SRC_IN input).

3. In PLL Mode, if power is valid and PWRDWN is deasserted but no input clocks are present on the SRC_IN input, DIF clocks will remain disabled. Only after valid

4. In the case where OE is asserted low, the output will always be three-stated regardless of SRC_STP drive mode register bit state.

OE_INV

State

excessive frequency shifting.

input clocks are detected, valid power, PWRDWN deasserted with the PLL locked and stable, are the DIF outputs enabled.

[2,3,4]

[1]

3.3V Buffer power off

After 3.3V supply is detected to rise above 1.8V - 2.0V, the buffer enters state 1 and initiates a 0.2-ms–0.3-ms delay

Buffer waits for PWRDWN deassertion (and waits for a valid clock on the SRC_IN input in PLL mode)

Once the PLL is locked to the SRC_IN input clock, the buffer enters state 3 and enables outputs for normal operation

SRC_STP

Iref * 6 or Float

[4]

Normal

DIFT

Figure 5. Buffer Power-up State Diagram

Normal

DIFC

Low

Description

SRC_STP Assertion

The impact of asserting the SRC_STP pin is that all DIF

outputs that are set in the control registers to stoppable via

assertion of SRC_STP are stopped after their next transition.

When the control register SRC_STP tri-state bit is

programmed to ‘0’, the final state of all stopped DIFT/C signals

is DIFT clock = High and DIFC = Low. There will be no change

to the output drive current values, DIFT will be driven high with

a current value equal 6 x Iref, and DIFC will not be driven.

When the control register SRC_STP three-state bit is

programmed to ‘1’, the final state of all stopped DIF signals is

low, both DIFT clock and DIFC clock outputs will not be driven.

CY28400-2

Page 7 of 15

CY28400OXC-2T Silicon Laboratories Inc, CY28400OXC-2T Datasheet - Page 7

CY28400OXC-2T

Specifications of CY28400OXC-2T

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