00198374-01_UG_OSC_Package_DE_EN.pdf - 第54页

4 Working with the OSC Features 4.1 Placement of Snap-In Components 54 Bedienungsanleitung OSC Package User Guide OSC-Paket - 06/2017 CAUTION The next board in the input section will be moved in! If the next board is alr…

4 Working with the OSC Features

4.1 Placement of Snap-In Components

Bedienungsanleitung OSC Package User Guide OSC-Paket - 06/2017 53

Correct locking after a correct Z-threshold value has been set

1. Z-axis position = 0

2. Z-axis = reference position

3. Segment

4. Gripper

5. Snap-in component

6. Board

7. Locking mechanism

8. Support pin

Step 5: Station software

► If necessary, configure the inspection station

under Machine options – Inspection – If snap-in

confirmation is needed.

(Default: Inspect in output area).

When the board enters the output section, a detailed message is displayed.

The message contains:

●

The position of the board in the machine.

●

A list including all placement positions on the board which have to be confirmed.

●

A graphical board overview in which the selected items in the list are highlighted.

There are three options for each row in the list:

●

Component was placed correctly

The Z-height will be set as good for the snap-in detection.

●

Component placed manually now

The measured height will be ignored and the user has to confirm the height whenever the next

component is placed. The board is no longer marked for inspection.

●

Repeat measurement

The measured height will be ignored and the user has to confirm the height whenever the next

component is placed. The board keeps marked for inspection.

After setting the results for all placement positions, the settings have to be confirmed.

4 Working with the OSC Features

4.1 Placement of Snap-In Components

54 Bedienungsanleitung OSC Package User Guide OSC-Paket - 06/2017

CAUTION

The next board in the input section will be moved in!

If the next board is already present in the input section, it will be moved in and placed

although the first board has not yet been confirmed!

Step 6: Station software

► Check all placement positions at the inspection

station.

► Confirm all placement positions with the All

placement positions confirmed button.

4 Working with the OSC Features

4.2 Stereo Measurement for THT Pins

Bedienungsanleitung OSC Package User Guide OSC-Paket - 06/2017 55

4.2 Stereo Measurement for THT Pins

For correct placement of components with THT pins (Through Hole Technology) it is important to

detect and measure the position of the tip of each pin to fit the pins into the holes on the board.

Since the pins often have different shapes and lengths, it is very difficult or impossible to accurately

locate the center of each tip with conventional 2D measurements. In addition, reflections and other

structures of the component could interfere with the image of the tip and restrain the camera from

determining the THT pin position exactly during a 2D measurement.

Therefore, the new Stereo Measurement for THT pins process has been introduced to measure

THT pins exactly and robustly. The stereo measurement can be used for all components with the

THT round pin and THT square pin pin types. Mixed usage of THT pins and other connection

types, e.g. Gullwing, is currently not possible.

When using the stereo measurement, at least two images are captured per component. Between

capturing the two images the component is moved in x-direction to obtain images of the component

from two different perspectives. Out of the two images a height image is calculated and a 3D image

created showing the component structures very detailed. Depending on the distance to the camera,

an object pixel is displayed at different points on the x-axis in the stereo images. Based on the pos-

ition of an object pixel in the respective stereo image, its distance to the camera can then be calcu-

lated. If necessary, the traverse path can be changed.

Example

Original component Left image capture Right image capture 3D image as result of

the two measurements

Prerequisites

●

The measurability of the features depends on feature size, feature appearance and back-

ground interference.

●

Currently, only THT round pins and THT square pins are allowed for stereo measurement.

●

Stationary camera types 25 or 33 are required.

●

Minimum features size 145 µ = 9 Pixel:

Camera type 25 = 145 µ

Camera type 33 = 360 µ

●

Minimum feature height: minimum distance between pin top and background:

Camera type 25: 1.0 mm

Camera type 33: 2.0 mm

Recommendation: lead height >= (3 * <height resolution>)

The height resolution depends on the traverse path between the left and right images. For the

default traverse path, the following (pixel) height resolutions are valid:

Camera type 25: 0.49 mm

Camera type 33: 0.9 mm

●

Maximum component size: the rules for the normal 2D measurement minus the traverse path

are applied. The result for the default traverse path

(8 mm for camera type 25, 18 mm for camera type 33) is:

Camera type 25: maximum 55 mm – 8 mm = 47 mm edge length

Camera type 33: maximum 85 mm – 18 mm = 67 mm edge length (or (200 mm – 18 mm) x

(125 mm – 18 mm) = 182 mm x 107 mm with restrictions)

These values refer to the multiple measurement.

●

Supported placement heads:

Twin Head (all high force variants included)

CPP (in Pick&Place mode, if equipped with stationary camera)