SIPLACE Vision Customer_en.pdf - 第78页

Component Shapes Specific Component Shapes Leaded Component Shapes S tudent Guide SIPLACE V ision (Customer) Component Shapes Edition 12/2008 EN 78 5.3.7.8 Socket Component Shape JEDEC description Group description Lead …

Component Shapes

Leaded Component Shapes Specific Component Shapes

Student Guide SIPLACE Vision (Customer)

Edition 12/2008 EN Component Shapes

5.3.7.7 QFP Component Shape (Quad Flat Pack)

JEDEC description

Group description

Lead description

Special features

 Inspection of the lead number, position and pitch is set as a default for these leads and can not be

disabled.

 COPLANARITY measurement is possible provided the option has been installed.

Joint datasets with ICOS data possible –

SW extensions: FaceDown recognition (See: New Siplace Vision Functions 702).can be programmed

and from SC 702.01 SW (SIPLACE Vision 4.1).

(see MS-012 and MS-027)

Body description: rectangular or, in the most common special

case, square.

 The Z height of the body determines the CO height for the

Z positioning profile.

 The X/Y body dimensions determine the field of vision, the

Region of Interest.

 This also determines the inner starting edge of the Gullwing

leads.

 This component shape has four lead groups on the four

component sides, meaning that the CO must be

symmetrical to the body axes.

 The leads in the groups must be identical!

 The lead pitch and pitch tolerance must be identical in all

groups.

 Different numbers of leads are permitted.

 Multiple lead groups are possible per side.

 This component shape has so-called Gullwing leads i.e.

leads with level contact surfaces.

 The leads are connected to the IC level and are then curved

down to the contact surface, standing away from the

component body in the form of a fan.

 These leads are as wide as the solder resist contact

surface, on the board connection surface.

 The lead length is significantly longer than the contact

length. The contact length must be programmed shorter

than the lead length.

 QFN (Quad Flatpack NO lead) are classified in the same

manner since the features (silver from black) comply with

the typical QFP arrangement.

 The leads are outside the body surface. Notches may not

be programmed.

Component Shapes

Specific Component Shapes Leaded Component Shapes

Student Guide SIPLACE Vision (Customer)

Component Shapes Edition 12/2008 EN

5.3.7.8 Socket Component Shape

JEDEC description

Group description

Lead description

 All lead types are permitted for this component shape.

 The leads are inside the body surface. Notches can not be programmed.

 Socket with a 90° lead alignment (pointing outwards) could also be recognized as QFP.

Special features

 Inspection of the lead number, position and pitch is currently not available and can therefore not be

enabled.

 In many cases, the socket has leads which have half the width of the contact in the socket frame. In

this case, only the width of the socket frame (visible metal surface) is programmed.

Theoretically, a round Socket could also be programmed.

Joint datasets with ICOS data possible –

SW extensions: FaceDown recognition (See: New Siplace Vision Functions 702).can be programmed

and from SC 702.01 SW (SIPLACE Vision 4.1).

Body description: rectangular.

 The Z height of the body is the height in the CO center.

 The X/Y body dimensions determine the field of vision, the

Region of Interest.

Here: View from below

 One or more groups are permitted.

 The leads in the groups must be identical!

 The (pitch) and pitch tolerance must be identical in all

groups.

 Different numbers of leads are permitted.

 The lead groups may be aligned inwards or outwards.

Component Shapes

Optical Recognition and Evaluation of Leaded COs Specific Component Shapes

Student Guide SIPLACE Vision (Customer)

Edition 12/2008 EN Component Shapes

5.3.8 Optical Recognition and Evaluation of Leaded COs

Shown in the example of a SO 14…

A leaded CO is processed with the following measurement steps:

1. Position recognition through:

A.) Recognition of possible feature positions

B.) Filtering, evaluation and determination of actual features

C.) Combination of features so that the CO center position can be calculated for placement.

2. Component inspection via:

A.) Determination of feature position

B.) Determination of feature quality

C.) Recalculation of CO position.

The term "feature" stands for programmed, recognizable parts of the component, suitable for clear

determination of the CO center for placement purposes.

5.3.8.1 Determination of Leaded CO Position

Diagram Presentation position

This menu is the same as that used for the

unleaded COs.

The green points in the leads indicate the lead

ends.

Attention: an incorrect lead angle will result in false

measurement values!

The division in the leads shows the contact length

(at the end of the pin) for a Gullwing lead type.

The outline of the plastic body should reach up to

where the lead begins, making evaluation and

correct programming simpler. SIPLACE Vision will

not check this dimension.

The gray value of 255 in the diagram on the left,

shows that the mouse cursor is pointing to a part

of the camera field which has this brightness.

The gray value 255 means that the mouse cursor

has been placed on a bright contact surface.

Presentation Features searched for

The blue U-shaped tick marks the gullwing lead

ends searched for i.e. the contact surfaces.

The green tick shows the measured CO center

(also see the measurement results below the

screenshot).

The white tick shows the expected CO center in

the CO camera center.