889875AKLF IDT, Integrated Device Technology Inc, 889875AKLF Datasheet - Page 10

889875AKLF

Manufacturer Part Number

889875AKLF

Description

Manufacturer

IDT, Integrated Device Technology Inc

Type

Clock Dividerr

Datasheet

1.889875AKLF.pdf (16 pages)

Specifications of 889875AKLF

Number Of Clock Inputs

Mode Of Operation

Differential

Output Frequency

>2000MHz

Output Logic Level

LVDS

Operating Supply Voltage (min)

2.375V

Operating Supply Voltage (typ)

2.5V

Operating Supply Voltage (max)

2.625V

Package Type

VFQFN

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Signal Type

CML/LVDS/LVPECL

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Compliant

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VFQFN EPAD Thermal Release Path

In order to maximize both the removal of heat from the package

and the electrical performance, a land pattern must be

incorporated on the Printed Circuit Board (PCB) within the footprint

of the package corresponding to the exposed metal pad or

exposed heat slug on the package, as shown in Figure 4. The

solderable area on the PCB, as defined by the solder mask, should

be at least the same size/shape as the exposed pad/slug area on

the package to maximize the thermal/electrical performance.

Sufficient clearance should be designed on the PCB between the

outer edges of the land pattern and the inner edges of pad pattern

for the leads to avoid any shorts.

While the land pattern on the PCB provides a means of heat

transfer and electrical grounding from the package to the board

through a solder joint, thermal vias are necessary to effectively

conduct from the surface of the PCB to the ground plane(s). The

land pattern must be connected to ground through these vias. The

vias act as “heat pipes”. The number of vias (i.e. “heat pipes”) are

Figure 4. P.C. Assembly for Exposed Pad Thermal Release Path – Side View (drawing not to scale)

2.5V LVDS Driver Termination

Figure 5 shows a typical termination for LVDS driver in

characteristic impedance of 100Ω differential (50Ω single)

Figure 5. Typical LVDS Driver Termination

IDT™ / ICS™ LVDS BUFFER/DIVIDER W/INTERNAL TERMINATION

ICS889875

DIFFERENTIAL-TO-LVDS BUFFER/DIVIDER W/INTERNAL TERMINATION

2.5V

LVDS Driver

100Ω Differential Transmission Line

PIN PAD

GROUND PLANE

SOLDER

50Ω

EXPOSED HEAT SLUG

THERMAL VIA

100Ω

application specific and dependent upon the package power

dissipation as well as electrical conductivity requirements. Thus,

thermal and electrical analysis and/or testing are recommended to

determine the minimum number needed. Maximum thermal and

electrical performance is achieved when an array of vias is

incorporated in the land pattern. It is recommended to use as many

vias connected to ground as possible. It is also recommended that

the via diameter should be 12 to 13mils (0.30 to 0.33mm) with 1oz

copper via barrel plating. This is desirable to avoid any solder

wicking inside the via during the soldering process which may

result in voids in solder between the exposed pad/slug and the

thermal land. Precautions should be taken to eliminate any solder

voids between the exposed heat slug and the land pattern. Note:

These recommendations are to be used as a guideline only. For

further information, please refer to the Application Note on the

Surface Mount Assembly of Amkor’s Thermally/Electrically

Enhance Leadfame Base Package, Amkor Technology.

transmission line environment. For buffer with multiple LDVS driver,

it is recommended to terminate the unused outputs.

–

2.5V

LAND PATTERN

(GROUND PAD)

SOLDER

ICS889875AK REV. B OCTOBER 27, 2008

PIN PAD

889875AKLF IDT, Integrated Device Technology Inc, 889875AKLF Datasheet - Page 10

889875AKLF

Specifications of 889875AKLF

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