MC8640DTHX1067NE Freescale Semiconductor, MC8640DTHX1067NE Datasheet - Page 69

MC8640DTHX1067NE

Manufacturer Part Number

MC8640DTHX1067NE

Description

IC MPU DUAL CORE E600 1023FCCBGA

Manufacturer

Freescale Semiconductor

Datasheet

1.MC8640HX1067NE.pdf (130 pages)

Specifications of MC8640DTHX1067NE

Processor Type

MPC86xx PowerPC 32-Bit

Speed

1.067GHz

Voltage

0.95V

Mounting Type

Surface Mount

Package / Case

1023-FCCBGA

Processor Series

MPC8xxx

Core

e600

Development Tools By Supplier

MCEVALHPCN-8641D

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Features

Lead Free Status / Rohs Status

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Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

MC8640DTHX1067NE

Manufacturer:

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De- Emphasized

Differential

Output Voltage

(Ratio)

Minimum TX Eye

Width

Maximum time

between the jitter

median and

maximum

deviation from

the median.

D+/D– Tx Output

Rise/Fall Time

RMS AC Peak

Common Mode

Output Voltage

Absolute Delta of

DC Common

Mode Voltage

During L0 and

Electrical Idle

Absolute Delta of

DC Common

Mode between

D+ and D–

Electrical Idle

differential Peak

Output Voltage

The amount of

voltage change

allowed during

Receiver

Detection

The Tx DC

Common Mode

Voltage

Tx Short Circuit

Current Limit

Minimum time

spent in

electrical idle

Freescale Semiconductor

Parameter

MPC8640 and MPC8640D Integrated Host Processor Hardware Specifications, Rev. 3

TX-CM-DC-LINE-DELTA

TX-EYE-MEDIAN-to-

TX-RISE

TX-CM-DC-ACTIVE-

TX-RCV-DETECT

TX-IDLE-DIFFp

Table 49. Differential Transmitter Output Specifications (continued)

MAX-JITTER

IDLE-DELTA

TX-DE-RATIO

TX-IDLE-MIN

TX-SHORT

Symbol

TX-CM-ACp

TX-DC-CM

TX-EYE

, T

TX-FALL

0.125

–3.0

0.70

Min

—

Nom

–3.5

—

Max

–4.0

0.15

100

600

3.6

—

Units

Ratio of the V

after a transition divided by the V

bit after a transition. See Note 2.

The maximum Transmitter jitter can be derived as

See Notes 2 and 3.

Jitter is defined as the measurement variation of the

crossing points (V

recovered Tx UI. A recovered Tx UI is calculated over

3500 consecutive unit intervals of sample data. Jitter is

measured using all edges of the 250 consecutive UI in

the center of the 3500 UI used for calculating the Tx UI.

See Notes 2 and 3.

See Notes 2 and 5

See Note 2

Idle)

[Electrical Idle]

See Note 2.

The total amount of voltage change that a transmitter

can apply to sense whether a low impedance receiver

is present. See Note 6.

The allowed DC common mode voltage under any

conditions. See Note 6.

The total current the transmitter can provide when

shorted to its ground

Minimum time a transmitter must be in electrical idle.

Utilized by the receiver to start looking for an electrical

idle exit after successfully receiving an electrical idle

ordered set.

TX-MAX-JITTER

TX-CM-ACp

TX-CM-DC

TX-CM-Idle-DC

TX-CM-DC-D+

TX-CM-DC-D–

TX-IDLE-DIFFp

TX-CM-DC (during L0)

TX-CM-DC-D+

| ≤ 100 mV

= DC

= RMS(|V

TX-DIFFp-p

= DC

– V

= |V

= 1 – T

(avg)

TX-CM-DC-D-

TX-DIFFp-p

TX-IDLE-D+

(avg)

of |V

– V

of |V

TXD+

TX-EYE

of the second and following bits

of |V

Notes

TX-CM-Idle-DC (During Electrical

of |V

TX-D+

+ V

= 0 V) in relation to a

TX-D+

TX-D–

TX-D+

-V

| ≤ 25 mV

= 0.3 UI.

TXD-

+ V

TX-IDLE-D–

TX-DIFFp-p

|/2 – V

TX-D–

TX-D-

+ V

TX-D–

|/2 [L0]

|/2

TX-CM-DC

| ≤ 20 mV

PCI Express

of the first

|/2

)

MC8640DTHX1067NE Freescale Semiconductor, MC8640DTHX1067NE Datasheet - Page 69

MC8640DTHX1067NE

Specifications of MC8640DTHX1067NE

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