ICS830584AGILF IDT, Integrated Device Technology Inc, ICS830584AGILF Datasheet - Page 5

ICS830584AGILF

Manufacturer Part Number

ICS830584AGILF

Description

IC FANOUT BUFF 1:4 PCI-X 8-TSSOP

Manufacturer

IDT, Integrated Device Technology Inc

Series

HiPerClockS™r

Type

Fanout Buffer (Distribution)r

Datasheet

1.ICS830584AGILFT.pdf (12 pages)

Specifications of ICS830584AGILF

Number Of Circuits

Ratio - Input:output

1:4

Differential - Input:output

No/No

Input

LVCMOS, LVTTL

Output

LVCMOS, LVTTL

Frequency - Max

140MHz

Voltage - Supply

3 V ~ 3.6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-TSSOP

Frequency-max

140MHz

Number Of Outputs

Operating Supply Voltage (max)

3.6V

Operating Temp Range

-40C to 85C

Propagation Delay Time

3ns

Operating Supply Voltage (min)

Mounting

Surface Mount

Pin Count

Operating Supply Voltage (typ)

3.3V

Package Type

TSSOP

Operating Temperature Classification

Industrial

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

830584AGILF

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IDT

The spectral purity in a band at a specific offset from the

fundamental compared to the power of the fundamental is called

the dBc Phase Noise. This value is normally expressed using a

Phase noise plot and is most often the specified plot in many

applications. Phase noise is defined as the ratio of the noise power

present in a 1Hz band at a specified offset from the fundamental

frequency to the power value of the fundamental. This ratio is

expressed in decibels (dBm) or a ratio of the power in the 1Hz

As with most timing specifications, phase noise measurements

has issues relating to the limitations of the equipment. Often the

noise floor of the equipment is higher than the noise floor of the

ICS830584I

LOW SKEW, PCI-X 1-TO-4 FANOUT BUFFER

™

/ ICS

™

PCI-X 1-TO-4 FANOUT BUFFER

DDITIVE

FFSET

ROM

HASE

ARRIER

band to the power in the fundamental. When the required offset

is specified, the phase noise is called a dBc value, which simply

means dBm at a specified offset from the fundamental. By

investigating jitter in the frequency domain, we get a better

understanding of its effects on the desired application over the

entire time record of the signal. It is mathematically possible to

calculate an expected bit error rate given a phase noise plot.

device. This is illustrated above. The device meets the noise floor

of what is shown, but can actually be lower. The phase noise is

dependent on the input source and measurement equipment.

ITTER

REQUENCY

140MHz (12kHz – 20MHz) = 0.15ps typical

Input/Output Additive Phase Jitter

)

ICS830584AGI REV. B MARCH 31, 2009

ICS830584AGILF IDT, Integrated Device Technology Inc, ICS830584AGILF Datasheet - Page 5

ICS830584AGILF

Specifications of ICS830584AGILF

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