Cold Solder Joints: Causes and Effects
Cold solder joints are a common issue in electronics manufacturing and repair. They occur when the solder joint doesn’t properly bond with the components or the printed circuit board (PCB), resulting in a weak and unreliable connection. Here are the causes and effects of cold…
Reworking and Repairing Electronic Assemblies
Reworking and repairing electronic assemblies involves diagnosing and correcting faults or defects in electronic components and circuits. This can include fixing issues like damaged components, soldering defects, or incorrect connections. Here’s a general overview of how repairing and reworking electronic assemblies is typically done: 1….
About IPC J-STD-001: Electronics Industry Soldering Standards
IPC J-STD-001 is a widely recognized standard in the electronics industry that provides requirements for the manufacturing and assembly electronic assemblies. It is officially titled “Requirements for Soldered Electrical and Electronic Assemblies.” The IPC (Institute of Printed Circuits), now known as IPC-Association Connecting Electronics Industries,…
Electronics Manufacturing: Value-Added Services
In electronic contract manufacturing (ECM), value-added services are additional services beyond the core manufacturing processes that an ECM provider like ANZER provides. These services are designed to enhance the overall value and convenience for the customer, streamline the production process, and ensure the final product…
Q: What is a Soldering Iron
A: A soldering iron is a handheld tool used to join and repair metal components by melting and flowing solder onto the joint. It comprises a heated metal tip, often copper or iron, an insulated handle, and a power cord. The soldering iron tip can…
Q: What are Pre-tinning Solder Joints
A: Pre-tinning solder joints refer to applying a thin layer of solder on the metal surfaces intended to be joined together using soldering techniques. This is typically done to improve the quality of the solder connection and ensure a robust and reliable bond between the…
Q: Printed Circuit Board Assembly: Parts on Both Sides
A: Components can be placed on both sides of a printed circuit board assembly. This is a “double-sided” or “two-layer” PCB design. It allows for more compact layouts and better utilization of space. However, it requires careful consideration of component placement, routing, and soldering processes…