SMT,PEC,UIC,Camera,Balser

UIC SMT machine PEC Camera Assembly – T50319001 Rev

Beam 2 FW PEC Camera Assembly – T50319001 Rev. K
This Document Supports Assembly 50319001 Rev. G


Replace the PEC Camera Assembly

If the PEC Camera Assembly is damaged or experiences an electrical or optical failure, the camera must be replaced.

CAUTION
Use caution when handling the PEC Camera and Lighting Assemblies. These assemblies are very sensitive to sudden shock. Also use ESD precautionary measures when handling the PEC Camera and Lighting Assemblies. A properly grounded ESD wrist strap is recommended.

Prerequisites

Make sure that the following items are available before beginning the procedure:

  • A new PEC Camera Assembly
  • A calibration kit and a new PEC gray card

Remove the PEC Camera Assembly

To remove the faulty PEC Camera Assembly from the head cage, perform the following procedure:

  1. Power down the machine and perform Lockout/Tagout according to local procedures.

WARNING – LOCKOUT/TAGOUT
The machine must be powered down and your site’s Lockout/Tagout procedure executed during this procedure to ensure personal safety.
  1. Open the access cover.
  2. Move the beam to a location where the PEC camera can be easily accessed.
  3. Disconnect the PEC_VIDEO/PWRPL and PEC_LED_CTRPL cables from the Head Cage Interface PCA.
  4. Remove all cable ties securing the PEC camera cables to the head cage.
  5. Remove the PEC camera cables from the cable clamps on the bottom of the head cage.
  6. Remove the screws that secure the PEC lighting to the PEC camera. Let the lighting hang loose from the hole in the carriage plate.

  7. Disconnect the PEC lighting cable from the PEC lighting. Set aside the PEC lighting.
  8. Remove the screws that secure the PEC camera to the carriage plate.
  9. Lift the PEC camera out of the head cage and discard.


Remove/Install the PEC Camera Assembly

If the PEC Camera Assembly is damaged or experiences an electrical or optical failure, the camera must be replaced.

CAUTION
Use caution when handling the PEC Camera and Lighting Assemblies. These assemblies are very sensitive to sudden shock. Also use ESD precautionary measures when handling the PEC Camera and Lighting Assemblies. A properly grounded ESD wrist strap is recommended.

Prerequisites

Make sure that the following items are available before beginning the procedure:

  • A new PEC Camera Assembly
  • A calibration kit and a clean, undamaged PEC gray card

Remove the PEC Camera Assembly

To remove the faulty PEC Camera Assembly from the head cage, perform the following procedure:

  1. Power down the machine and perform Lockout/Tagout according to local procedures.

WARNING – LOCKOUT/TAGOUT
The machine must be powered down and your site’s Lockout/Tagout procedure executed during this procedure to ensure personal safety.
  1. Open the access cover.
  2. Move the beam to a location where the PEC camera can be easily accessed.
  3. Disconnect the camera control/interface cables from the Head Cage Interface PCA.
  4. Remove all cable ties securing the PEC camera cables to the head cage.
  5. Remove the PEC camera cables from the cable clamps on the bottom of the head cage.
  6. Remove the screws that secure the PEC lighting to the PEC camera. Let the lighting hang loose from the hole in the carriage plate.

    (Typical PEC Camera and old-style mount shown below)


    (New-style PEC mount shown below)


  7. Disconnect the PEC lighting cable from the PEC lighting. Set aside the PEC lighting.
  8. Remove the screws that secure the PEC camera to the carriage plate or mounting block.
  9. Carefully remove the PEC from the head cage.
  10. If installing a camera with a different magnification, remove the 6 frame fiducial inserts on the feeder uprights and the 4 nozzle changer fiducials on the nozzle changer. Retain for use with the .4 MPP PEC camera.

    For UPS+ 7.5SC and higher with a .4 MPP PEC camera: Remove the 6 frame fiducial inserts on the feeder uprights; they will not be re-installed.

Install the PEC Camera Assembly

To install the PEC Camera Assembly, perform the following procedure:

  1. Carefully move the PEC camera into the head cage and position on the alignment pins.
  2. Apply Loctite 222 to the PEC camera mounting screws.
  3. Install the PEC camera mounting screws and torque to 1,36 Nm (12.0 in-lb.).
  4. Connect the PEC lighting cable to the PEC lighting.
  5. Install the PEC lighting to the new PEC camera and secure with the screws removed earlier.
  6. Route the PEC cables through the cable clamps on the bottom of the head cage.
  7. Connect the camera control/interface cables to the Head Cage Interface PCA.
  8. Install new cable ties to secure the PEC cables to the head cage. Do not over-tighten the cable ties.
  9. If installing a .4 MPP PEC camera where one did not exist previously, install the 6 frame fiducial inserts on the feeder uprights and the 4 nozzle changer fiducials on the nozzle changer. Install over the existing fiducials.

    For UPS+ 7.5SC and higher with a .4 MPP PEC camera:  Do not install the 6 frame fiducial inserts on the feeder uprights.

  10. Close the access cover.
  11. Power up the machine.
  12. Determine if the machine is equipped with the Cognex Vision system:
    1. Open Diagnostics II.
    2. Select Version Information > Hardware Options > Vision Systems.

If Cognex Vision is…

Then…

On the machine Continue with the next step.
Not on the machine Do the following:

  1. Update the camera drivers. For instructions, see the Update the Camera Drivers help topic in Voyager.
  2. Continue with the next step after the drivers are updated.
  1. Calibrate the PEC camera and lighting. For instructions, see the PEC Calibration: Camera and Lighting (Multifunction Machines) help topic in Voyager.

PEC Camera Polarizing Components

The PEC camera consists of two elements: a rotating polarizer that covers four of the eight illumination petals and a sliding polarizer. The sliding polarizer is located in the camera aperture. The axis of this polarizer, frequently referred to as the “analyzer”, is orthogonal to that of the rotating polarizer. The combination of these polarizers on the module results in cross-polarized illumination.


(Typical PEC Camera shown)

The rotating polarizer ensures that the substrate is illuminated with linear polarized light. The metal features and ceramic background reflect polarized light differently. The light reflected from the metal has no net change in polarization. Because the orientation of the sliding polarizer located in the camera aperture is orthogonal to that of the rotating polarizer, most of the light reflected from metal features is blocked. Therefore, metal features appear dark on the camera.

In contrast, the ceramic surrounding the metal features randomizes the polarization upon reflection. Because the polarization is randomized, a portion of the reflected light can pass through the central polarizer and reach the camera. Therefore, the ceramic background appears as a shade of gray.

The following table summarizes the polarization effects on metals and ceramics:

Material

Incident Polarization

Reflected Polarization

Central Polarizer Orientation

Intensity at Camera

Metal

Ceramic

Polarized Lighting Zones

The PEC Lighting Assembly has two lighting zones. Which zones are used for imaging depends on the type of substrate being imaged. The two lighting zones are shown in the table below.

Lighting Zone

LED Color

Graphic

Zone I

Blue

Zone II

Red

Petal Zones I and II each contain four illumination petals positioned at 90 degrees to each other. The illustration below shows how the Red (R) and Blue (B) LEDs are oriented.


Selectable Polarizer Positions

The PEC Lighting Assembly is equipped with a rotating polarizing filter and high intensity LEDs. The PEC camera has a polarizing film mounted within a rotating ring and a second polarizer mounted on a slide above the lighting module. Certain classes of flexible circuits image well with cross-polarized illumination. For the polarized option, it is recommended that the central polarizer be left in place.

  • The blue lighting zone of the PEC Lighting Assembly is designed to image flexible circuits.
  • The red lighting zone of the PEC Lighting Assembly is designed to image ceramic circuits.

The following table summarizes the available Polarized lighting options:

Lighting Zone

Graphic

Function

Zone I

Orienting the rotating polarizer above the blue LEDs allows non-polarized illumination from the Red LEDs. This lighting type is effective on dark-colored ceramics.

Zone II

Orienting the rotating polarizer located above the red LEDs allows polarized illumination from the Red LEDs. This lighting type is effective on white or light-colored ceramics.


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How to use Solder Preforms to improve your Electronic Product Quality

 

Solder Preforms are used in a variety of applications that require precise amounts of solder. Preforms come in standard shapes such as squares, rectangles, washers and discs. Typical sizes range from .010″ (.254mm) up to 2″ (50.8mm). Smaller and larger sizes, as well as custom shapes, are also available. Dimensions can be held to tight tolerances to assure volume accuracy.

 

  • Increased solder volume
  • Improved drop test results
  • Fewer issues with flux residue
  • Reduced rework
  • Improved fillet shape and volume

 

 

 

 

 

 

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After the PCB is completed, the electric elements ought to be attached in order that a functional PCB assembly is formed. There are two construction processes which can be utilized to be able to type the PCB assembly. One could be the through-hole building in which the component leads are inserted within the holes although the other one may be the surface-mount building wherein the components are situated on pads positioned around the external surfaces on the PCB. Each sorts of construction have element leads that are fixed mechanically also as electrically towards the board through a metal solder which has melted.

Additionally, you’ll find a variety of soldering solutions to become utilized as a way to connect the PCB elements to ensure that PCB assembly could be achievable.

Production that is definitely of higher volume have to be carried out by means of machine placement and bulk wave sort of soldering. Having said that, expert technicians possess the capability to solder incredibly minute parts by the hand beneath a microscope. This is typically completed together with the use of tweezers and a soldering iron with a fine tip which is made for compact volume prototypes. Yet, there are parts that are impossible to solder together with the hands just like the ball grid array.

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PCB’s which would make up the PCB assembly have conformal coating that is certainly applied by way of dipping or spraying once the elements are carried out soldering. This coat will generally protect against corrosion plus the leaking of present or achievable shorting because of condensation. PCB assembly is static sensitive, thereby; it should be placed inside antistatic bags although it can be becoming transported. Improper techniques in handling could transmit static charge by way of the board and because of this may well damage the elements.

图片2

图片1Odd-form Component Mounter

Odd-form component mounter

Odd-form component mounter
Improve product quality and increase production capacity solution.

odd-form solutions are designed for high volume and high mix production. Odd-form process automation is an efficient way to improve profitability significantly by increasing the throughput and assembly quality.
The benefits can be measured in assembly reliability, accuracy and flexibility, labor savings, assembly yield improvements, floor space savings and optimization of processes.

What special shaped components can be used in the Odd-form Comeponent Mounter?

we are professional in this project ,not only just 2or 3 parts . we can install 6 to 48 feeder ,If you have some non-standard shaped components required to complete the machine, you can give us to help you solve.

Machine advantage
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One way to insert Through Hole Components by SMT Pick and place machine

KEY WORDS
Solder Preforms, Pin-In-Paste, Intrusive Reflow, Mixed Technology, Selective Wave Soldering.

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How is the future Through Hole Technology in Electronic Manufacturing

Automatic component insertion provides the consistency required to
ensure the highest levels of circuit board quality, throughput, and
process control. When properly planned and implemented, automatic
component insertion provides significant cost savings in the
printed circuit board assembly process.
The benefits realized from automating circuit board assembly processes
span all areas of manufacturing. Ultimately, all of these
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Three key inputs affect the economics and logistics of PC board
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process variability, which leads to increased insertion reliability,
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ultimately, reduced production costs.

 

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What is First Article Inspection

First Article Inspection overview

Before the manufacturing course begins, business necessities require an in depth verification and comparability of product design vs. manufacturing outcomes, often called First Article Inspection (FAI). Frequently used within the aerospace, medical electronics and automotive industries, FAI studies have gotten an ordinary course of to make sure high quality and consistency of the ultimate product is in order. Although conducting FAI could be advanced, technological developments and person pleasant software programs have allowed customers to implement and execute this course of shortly and precisely.

What is First Article Inspection?

As an official authentication technique for production, FAI intention is to overview and authorize dimensional studies. FAI stories make the most of dimensional properties of a manufacturing like design specs, to make sure of consistency or uncover any deviations. This inspection ensures reliability and repeatability of the manufacturing course, in addition to making certain the producer’s capability to provide elements in accordance with specifications.

 

What is the aim of FAI?

The goal of a FAI report outlined below:

  1. The FAI report supplies a tenet for goal affirmation that every engineering design and specification is appropriately understood, accounted for, verified and documented.
  2. Ensure the manufacturing course of action is dependable, repeatable and constant
  3. Develops a transparent understanding and communication outlet between purchaser and provider.
  4. Verify the accuracy of drawings, making certain that each adjustments made to any part of the designs are accounted for.
  5. Validate all tooling used for production, guaranteeing the instruments’ capabilities to supply all required elements at defined and accepted speed.
  6. Ensure manufacturing course is succesful and might meets the entiretly of all manufacturing needs.

When is FAI report crucial?

FAI studies are crucial when any of the following occur:

  • A change in design which may probably have an effect on match, kind or operation
  • A change in manufacturing supply, course of action, inspection technique, location of producer, tooling or supplies
  • A change to a special media program that will likely have an effect on match, kind or performance
  • Production has not been executed for 2 years or more (or as specified by buyer)

FAI Benefits

Before proceeding with manufacturing elements, FAI studies will be helpful in figuring out whether or not a production course of action is able to deliver elements constantly within design parameters. Furthermore, FAI studies present construction between buyer and provider for understanding and verifying the final mission necessities. FAI additionally assists buyer and provider with communications and help to avoid future miscommunication. This course of action additionally ensures that you will be using the precise supplies and instruments, offering an efficient initiative for the anticipated outcomes for manufacturing.

Full FAI vs. Partial FAI

A full FAI requires that each field has been accounted for.  With a partial FAI report, any subject missed will affect the FAI sucess. In regards to any excellent fields, they might be crammed out at a later date or utilizing earlier knowledge, on condition that it applies to the precise traits of duplicate elements produced by the identical manufacturing course of action.

FAI Planning

Before the primary manufacturing beings to run elements, many components have to be accounted for with the intention to execute FAI planning, which generally embrace the following:

Records for the manufacturing course of action– manage actions to be executed all through FAI course of and accountable suppliers/organizations.

Ensure authorized  materials sources, laboratory and relevant manufacturing, planning, routing and buying are in accordance with the specifications.

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