IPC-SM-782A 表面安装设计和焊盘设计标准(带BGA).pdf - 第160页

6.0 TOLERANCE AND SOLDER JOINT ANALYSIS Figure 4 provides an analysis of tolerance assumptions and resultant solder joints based on the land pattern dimensions shown in Figure 3. Tolerances for the component dimensions, …

RLP No. Component Identiﬁer Z (mm) G (mm) X (mm)

Y (mm) C (mm) D (mm) E (mm)

Placement Grid

(No. of Grid

Elements)ref ref ref ref

630A QFP 32x32-184 35.80 32.20 0.40 1.80 34.00 29.25 0.65 74x74

631A SQFP 32x32-240 34.80 31.60 0.30 1.60 33.20 29.50 0.50 72x72

632A SQFP 32x32-248 34.80 31.60 0.30 1.60 33.20 30.50 0.50 72x72

633A SQFP 32x32-304 34.80 31.60 0.25 1.60 33.20 30.00 0.40 72x72

634A SQFP 32x32-312 34.80 31.60 0.25 1.60 33.20 30.80 0.40 72x72

635A SQFP 32x32-400 34.80 31.60 0.17 1.60 33.20 29.70 0.30 72x72

636A SQFP 32x32-408 34.80 35.60 0.17 1.60 33.20 30.30 0.30 72x72

640A SQFP 36x36-272 38.80 35.60 0.30 1.60 37.20 33.50 0.50 80x80

641A SQFP 36x36-280 38.80 35.60 0.30 1.60 37.20 34.50 0.50 80x80

642A SQFP 36x36-344 38.80 35.60 0.25 1.60 37.20 34.00 0.40 80x80

643A SQFP 36x36-352 38.80 35.60 0.25 1.60 37.20 34.80 0.40 80x80

644A SQFP 36x36-456 38.80 35.60 0.17 1.60 37.20 33.90 0.30 80x80

645A SQFP 36x36-464 38.80 35.60 0.17 1.60 37.20 34.50 0.30 80x80

650A QFP 40x40-232 43.80 40.20 0.40 1.80 42.00 37.05 0.65 90x90

651A SQFP 40x40-304 42.80 39.60 0.30 1.60 41.20 37.50 0.50 88x88

652A SQFP 40x40-312 42.80 39.60 0.30 1.60 41.20 38.50 0.50 88x88

653A SQFP 40x40-384 42.80 39.60 0.25 1.60 41.20 38.00 0.40 88x88

654A SQFP 40x40-392 42.80 39.60 0.25 1.60 41.20 38.80 0.40 88x88

655A SQFP 40x40-512 42.80 39.60 0.17 1.60 41.20 38.10 0.30 88x88

656A SQFP 40x40-520 42.80 39.60 0.17 1.60 41.20 38.70 0.30 88x88

660A SQFP 44x44-336 46.80 43.60 0.30 1.60 45.20 41.50 0.50 96x96

661A SQFP 44x44-344 46.80 43.60 0.30 1.60 45.20 42.50 0.50 96x96

662A SQFP 44x44-424 46.80 43.60 0.25 1.60 45.20 42.00 0.40 96x96

663A SQFP 44x44-432 46.80 43.60 0.25 1.60 45.20 42.80 0.40 96x96

664A SQFP 44x44-568 46.80 43.60 0.17 1.60 45.20 42.30 0.30 96x96

665A SQFP 44x44-576 46.80 43.60 0.17 1.60 45.20 42.90 0.30 96x96

Figure 3d SQFP/QFP (square) land pattern dimensions

Full radius

optional

▼

Grid placement courtyard

▼

IPC-782-11-2-3d

IPC-SM-782

Subject

SQFP/QFP (Square)

Date

5/96

Section

11.2

Revision

Page9of10

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6.0 TOLERANCE AND SOLDER JOINT ANALYSIS

Figure 4 provides an analysis of tolerance assumptions and

resultant solder joints based on the land pattern dimensions

shown in Figure 3. Tolerances for the component dimensions,

the land pattern dimensions (fabrication tolerances on the

interconnecting substrate), and the component placement

equipment accuracy are all taken into consideration.

Figure 4 provides the solder joint minimums for toe, heel, and

side fillets, as discussed in Section 3.3. The tolerances are

addressed in a statistical mode, and assume even distribution

of the tolerances for component, fabrication, and placement

accuracy.

Individual tolerances for fabrication (‘‘F’’) and component

placement equipment accuracy (‘‘P’’) are assumed to be as

given in the table. These numbers may be modified based on

user equipment capability or fabrication criteria. Component

tolerance ranges (C

, and C

) are derived by subtracting

minimum from maximum dimensions given in Figure 2. The

user may also modify these numbers, based on experience

with their suppliers. Modification of tolerances may result in

alternate land patterns (patterns with dimensions other than

the IPC registered land pattern dimensions).

The dimensions for minimum solder fillets at the toe, heel, or

side (J

) have been determined based on industry

empirical knowledge and reliability testing. Solder joint

strength is greatly determined by solder volume. An observ-

able solder fillet is necessary for evidence of proper wetting.

Thus, the values in the table usually provide for a positive sol-

der fillet. Nevertheless, the user may increase or decrease the

minimum value based on process capability.

Component

Pitch (mm)

Tolerance

Assumptions (mm)

Solder Joint

Toe (mm) Heel (mm) Side (mm)

Basic F P C

min J

max C

min J

max C

min J

max

0.80 0.10 0.10 0.50 0.17 0.43 0.66 0.42 0.75 0.15 0.00 0.10

0.65 0.10 0.10 0.50 0.17 0.43 0.66 0.42 0.75 0.16 –0.02 0.09

0.50 0.10 0.10 0.50 0.29 0.50 0.69 0.29 0.65 0.20 –0.02 0.10

0.40 0.10 0.10 0.50 0.29 0.50 0.69 0.29 0.65 0.17 –0.01 0.10

0.30 0.10 0.10 0.50 0.29 0.50 0.69 0.29 0.65 0.10 –0.03 0.06

Figure 4 Tolerance and solder joint analysis

Zmax

Lmin

▼

/2 T

min

Zmax = Lmin + 2J

min + T

Where:

min = Minimum toe fillet

= Combined tolerances

at toe fillet

Smax

min

Gmin = Smax - 2J

min - T

Where:

min = Minimum heel fillet

= Combined tolerances

at heel fillet

/2 T

Xmax

Xmax = Wmin + 2J

min + T

Where:

min = Minimum side fillet

= Combined tolerances

at side fillet

▼

Toe Fillet

▼

Heel Fillet Side Fillet

▼

max

min

▼

Gmin

▼

/2 T

max

▼

Wmin

▼

IPC-782-11-2-4

IPC-SM-782

Subject

SQFP/QFP (Square)

Date

5/96

Section

11.2

Revision

Page 10 of 10

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1.0 SCOPE

This subsection provides the component and land pattern

dimensions for rectangular SQFP (Shrink Quad Flat Pack) and

the QFP (metric plastic quad flat pack) components. Basic

construction of the SQFP device is also covered. At the end

of this subsection is a listing of the tolerances and target sol-

der joint dimensions used to arrive at the land pattern dimen-

sions.

2.0 APPLICABLE DOCUMENTS

See

Section 11.0 for documents applicable to the

subsections.

2.1 Electronic Industries Association (EIA)

JEDEC Publication 95

Registered and Standard Outlines for

Solid State and Related Products, ‘‘Metric Quad Flat Pack

Family 3.2 mm Footprint,’’ Outline MO-108, issue ‘‘A,’’ dated

10/90

Application for copies should be addressed to:

Global Engineering Documents

1990 M Street N.W.

Washington, DC

2.2 Electronic Industries Association of Japan (EIAJ)

EIAJ-ED-7404-1

General Rules for the Preparation of Outline

Drawings of Integrated Circuits Fine Pitch Quad Flat Packages

(dated January 26, 1989)

3.0 COMPONENT DESCRIPTIONS

Flatpacks are widely used in a variety of applications for com-

mercial, industrial, or military electronics.

3.1 Basic Construction

See Figure 1.

The shrink quad flat pack has been developed for applications

requiring low height and high density. The SQFP, along with

the TSOP components, are frequently used in memory card

applications. The square SQFP family comes in 13 standard

sizes, each of which sizes can come in either a 0.5, 0.4, or 0.3

mm pitch. There are therefore 39 configurations for square

SQFPs.

Two different pin counts are allowed for each package and

the component will still meet the standard (e.g., a 5x5 pack-

age with a 0.3 mm pitch can have either 56 or 48 pins, and

still meet EIAJ-7404-1).

QFPs are also square and come in larger pitches. Wherever

applicable, the body sizes of the components identified in Fig-

ures 2 and 3 show the relationships and pin numbers for

SQFPs and QFPs that have the same body size.

3.1.1 Termination Materials

Leads must be solder-

coated with a tin/lead alloy. The solder should contain

between 58 to 68% tin. Solder may be applied to the leads by

hot dipping or by plating from solution. Plated solder termina-

tions should be subjected to post-plating reflow operation to

fuse the solder. The tin/lead finish should be at least 0.0075

mm [0.0003 in] thick.

3.1.2 Marking

All parts shall be marked with a part number

and an index area. The index area shall identify the location of

pin 1.

3.1.3 Carrier Package Format

The carrier package for-

mat for flat packs may be tube format; but, in most instances,

flat packs are delivered in a carrier tray.

3.1.4 Process Considerations

SQFPs and QFPs are usu-

ally processed using standard solder reflow processes. Parts

should be capable of withstanding ten cycles through a stan-

dard reflow system operating at 215°C. Each cycle shall con-

sist of 60 seconds exposure at 215°C.

IPC-782-11-3-1

SQFP (Rectangular)

IPC-SM-782

Surface Mount Design

and Land Pattern Standard

Date

5/96

Section

11.3

Revision

Subject

SQFP/QFP (Rectangular)

Page1of6

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