Abstract: Apparatus (1) for applying solder to electrical components such as integrated circuit packages (2) has a chamber (4) which contains a body of solder. The chamber (4) has outlet openings (10) which are below the surface of the solder and from which a flow of solder is provided. Since dross (oxidized solder) floats on the surface of the solder, the flow of solder is relatively pure. The leads of the packages are dipped into the flow of solder so that they are coated with a protective layer of solder. Vibrational apparatus (2) is also provided to vibrate the circuit packages (2) during the dipping of the packages (2) into the solder flow. In this way solder is prevented from bridging the spacing between two closely spaced, adjacent leads.

Abstract: Apparatus for plating electrical or electronic components, comprises a plating chamber (2) for receiving electrolyte through which a current is to be passed via a first anode (10) and cathode (13) pair, means being provided to arrange a component (12) to be plated as the cathode of said first pair, means for supplying the plating chamber with electrolyte enriched with plating material, the supplying means including a reservoir chamber (4) for receiving electrolyte through which a current is to be passed via a second anode and cathode pair (21,22), means being provided to arrange a body of plating material (17) as the anode of said second pair, whereby in use plating material dissolved from the anode of the second pair enriches the electrolyte supplied to the plating chamber (2) and is deposited on the cathode of the first pair.

Abstract: Apparatus for plating electrical or electronic components, comprises a plating chamber (2) for receiving electrolyte through which a current is to be passed via a first anode (10) and cathode (13) pair, means being provided to arrange a component (12) to be plated as the cathode of said first pair, means for supplying the plating chamber with electrolyte enriched with plating material, the supplying means including a reservoir chamber (4) for receiving electrolyte through which a current is to be passed via a second anode and cathode pair (21, 22), means being provided to arrange a body of plating material (17) as the anode of said second pair, whereby in use plating material dissolved from the anode of the second pair enriches the electrolyte supplied to the plating chamber (2) and is deposited on the cathode of the first pair.

Abstract: A carrier for holding SOIC packages during the application of solder to their leads, the carrier including a frame provided with an end plate (17) with mounting lugs (20). On each lug (20) is mounted an upper U-shaped member (1) and a lower U-shaped elongate member (8) with the respective legs (3) and (10) of the members projecting downwardly. The legs (10) are disposed within the legs (3) but extend further and terminate at outwardly turned ends (11). Adjacent assemblies of the members (1) and (8) define a track (T) therebetween for a line of SOIC packages (24) whose leads (26) rest on end portions (11), and which are restricted against upward movement by the ends (4) of legs (3).