operation-cp45.pdf - 第177页

PCB Edit Command 1 1-23 Set the area to test the Accept Mark. The purpose is t o limit the testing area when recognition is interfered due to a shape similar to the mark near the m ark.  <W idth X> edit box Set th…

Samsung Component Placer CP-45F(V)/FS Operations Manual

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Saves the bad mark data and closes the “Bad Position” dialog box.

 <Cancel> button

Closes the “Bad Position” dialog box without saving the bad mark data.

 <Accept Mark…> button

A bad mark is a mark that indicates whether a loaded PCB is good or defective.

When a PCB is defective, the bad mark is marked but the accept mark is not marked,

and only the marked PCBs are worked on. When this button is clicked on, the

following dialog box for the editing of accept mark data is displayed.

 <1.Use> check box

Use it to select or check the use of Accept Mark.

 <2. Inspection Device> combo box

Select the device to test the Accept Mark. Available device is as follows.

Vision: Recognizes with the move camera in the Head Block.

Figure 11-16. “Accept Mark Position” dialog box (Checked in ‘Use” check box)

 <3. Mark Position> group

Shows the position of Accept Mark.

 <4. Teach> button

Teaches the accept mark offset value with the method same as the one used to

teach the PCB size.

 <5. Logic> group

Select the color of Accept Mark. Available mad mark colors are as follows.

Black: the mark appears darker than the surrounding.

White: the mark appears brighter than the surrounding.

 <6. Camera No.> combo box

Select the camera to test the Bad Mark. At present, it is fixed to “Move Camera”.

 <7. Search Area> group

PCB Edit Command

11-23

Set the area to test the Accept Mark. The purpose is to limit the testing area when

recognition is interfered due to a shape similar to the mark near the mark.

 <Width X> edit box

Set the range to test in X axis direction. In general, set to 6mm.

 <Width Y> edit box

Set the range to test in Y axis direction. In general, set to 6mm.

 <8. Parameter> group

 <Threshold> edit box

Set the threshold value of <Bad Mark Logic> when testing the Accept Mark.

For example, if <Accept Mark Logic> is “Black” and the <Threshold> value

is 100, all values under 100 in the vision image are recognized as black. And

if <Accept mark Logic> is “White” and the <Threshold> value is 100, all

values over 100 in the vision image are recognized as white. On the vision

display, the image for which the threshold value is applied is in the binary

mode and the image for which the threshold value is not applied is the real

display.

 <Light> group

Set the lighting value when testing the Accept Mark. In general, set to 7.

However, adjust it properly according to the condition of the PCB and accept

mark.

 <Test> button

Tests the mark by using the set mark data. The user can check whether the set

mark data is correct.

 <PCB In> button

Loads the PCB in the operation area.. Before executing this function, the PCB

arrangement method must be set in “Fix Type” of <7. Handling>.

 <PCB Out> button

Releases the PCB fixed in the operation area.

 <Stopper U/D> button

Moves up or down the work stopper, the stopper of PCB in the operation area.

<BUT U/D> button

Moves up or down the BUT(Back Up Table) that locks up the PCB in the operation

area.

 <Cancel> button

Cancels the edited data.

Caution - If you move to another screen while editing the “Board” dialog box, the

edited data is saved automatically.

11.1. Part [F3]

The <Part> command is used to register components necessary for PCB operation and

edit data.

The component data managed by this equipment include PCB Part, Local Part Library,

and Standard Part DB. The following is the structure of each data and the relationship

Samsung Component Placer CP-45F(V)/FS Operations Manual

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between these data.

Chuck Align

Package

QA Align

Package

CA Align

Package

Vision Align

Package

Common

Package

Part

(Align Type)

Figure 11-17. Component Data Structure

The component data in the Figure 11-19 is composed of “Part” that controls component

names and component sizes and “Common Package” that has the data related to the

machine.

Based on the alignment device, the component alignment methods (hereafter Align Type)

are classified into “Chuck Align”, “QA Align (Quad Aligner)”, “CA Align(Cyber Optics)”,

and “Vision Align”. And as the data controlled differ depending on the align type, the

align data are classified into “Chuck Align Package”, “QA Align Package”, “CA Align

Package”, and “Vision Align Package”.

The align data of a component can have only one or more than one of the four listed

above. Set the align data to be applied now in the Align Type of “Part”.

In the Fig. 1-1, “Vision Align Package” is being set with the current align data.

Each PCB controls component data on all components operated on the corresponding

PCB and saves the component data in the Local Part DB of the equipment. To create

component data for a new PCB, component data stored in the Local Part DB can be

copied. To create component data for a new component whose data is not stored in the

Local Part DB, data for a similar component stored in the Local Part DB can be copied

and edited or standard component data can be copied from the Standard Part DB and

edited. The Standard Part DB is a DB of generally used components developed and

supplied by this equipment manufacturer. The relationship between component data is

shown in the following.