Circuit Technology Center

8.3.1 Component Removal, Surface Mount J Lead Components, Conduction Method

This procedure covers one commonly used method for removing surface mount J lead components.

Note: The goal when removing any component is to remove the component as quickly as possible.

Minimum Skill Level - Advanced
Recommended for technicians with soldering and component rework skills and exposure to most repair/rework procedures, but lacking extensive experience.

Conformance Level - High
This procedure most closely duplicates the physical characteristics of the original, and most probably complies with all the functional, environmental and serviceability factors.

Acceptability References
IPC-A-610 12.0 Surface Mount Assemblies
Procedure References
1.0 Foreword
2.1 Handling Electronic Assemblies
2.2 Cleaning
2.5 Baking And Preheating
7.1.1 Soldering Basics
7.1.2 Preparation For Soldering And Component Removal
7.1.3 Solder Joint Acceptability Criteria
IPC7711 3.8.1 Bridge Fill Method
IPC7711 3.8.2 Solder Wrap Method
IPC7711 3.8.3 Flux Application Method
Kits and Systems
Precision Tool Set
Nine precision-crafted tools for detailed circuit board work.
Additional Items and Supplies
General purpose cleaner for removing contamination.
Precision microscope with stand and lighting for work and inspection.
General purpose oven for drying, baking and curing epoxies.
Solderinmg Iron
Soldering Iron
Properly maintained soldering iron and properly sized soldering iron tips.
Nonabrasive, low-linting wipes for cleanup.
Images and Figures
8.3.1 Component Removal, Surface Mount J Lead Components, Conduction Method
Surface Mount J Lead Component
8.3.1 Component Removal, Surface Mount J Lead Components, Conduction Method
Figure 1: Conduction tip shown with solder added to enhance removal operation.
8.3.1 Component Removal, Surface Mount J Lead Components, Conduction Method
Figure 1: Conduction tip shown with solder added to enhance removal operation.

8.3.1 Component Removal, Surface Mount J Lead Components, Conduction Method
Figure:3;A - Dot indicates pin 1;B - Indicates pin 5;C - Indicates direction of pin count.
This method uses tips that are designed to fit over the top of surface mount components and to reflow all the solder joints at once. The tip fits over the component with just a slight amount of extra space for solder. Measure the overall length and width of the component with a caliper to select the proper size tip. Check the tip for proper fit prior to processing the part.

The tip should not fit the component so tightly that it will get lodged in the tip, but the tip should not be so loose that it will not conduct heat to all the leads simultaneously.

Conduction tips come in several sizes to accommodate many of the different styles and sizes of components, but the component must fit properly in the tool cavity. Since these tips have a cavity, they require special cleaning and tinning procedures.

Note: Carefully inspect the tip to ensure that all surfaces will properly contact the component leads.
  1. Remove any solder from inside the tip cavity with a fiber tool.
    Caution: Do not use a wire brush for any tip cleaning procedure. A wire brush can severely scratch a metal tip. Scratches allow oxidation to form on the base metal of the tip and this will severely decrease the useful life.
  2. Remove any oxidized solder by shocking the tip on a wet sponge. Remove stubborn charred residue using an orange stick or polishing bar.
  3. Add solder to the properly prepared tip. Fill the cavity until there is a fillet on the entire length of each side of the tip. (See Figure 1) Add enough solder to help transfer the heat quickly but not so much that it will fall out when the tip is turned upside down. The entire conducting surface of the tip should be tinned with solder to promote proper heat transfer to the leads of the component to be removed.

    The solder provides surface tension to lift the component off the pads after reflow. Since the tip has more metal surface area than the pads on the circuit board, the solder will be drawn toward the metal tip and so will the component.
    Note: Determine the direction the part is to be swept off the circuit board surface. Densely packed circuit board assemblies often leave only one direction for the rework tool to follow when sweeping the part off the surface.
  1. Apply a small amount of liquid flux to all leads of the component.
  2. Place the tip directly over the top of the component. The extra solder on the tip will melt all the solder joints. When the solder has melted, slide the component out and up. (See Figure 2)

    It's difficult to know precisely how long to dwell prior to safely removing the part. This is complicated by the fact that when removing a bank of components, parts subsequent to the first come off much faster. Obviously, the smaller the part, the quicker it reflows. Small SMT components may reflow in a few seconds, and large SMT components may take more than a minute.

    On the smaller components, you can usually see solder reflow and can then sweep the component off and up. On larger components, it is wise to attempt to view reflow, but often this is not possible. If you cannot clearly see reflow, very lightly rock the component to test for movement. If the component moves freely, then it is ready to be swept off the pads and lifted up.

    Once the component is removed from the circuit board, it can be removed from the tip by the shocking sponge or with a dull, blunt instrument applying downward pressure on the component.
  3. Clean the area.
Procedure for reference only.