Well first of all here is the basic method of setting a wave soldering system it may be of assistance to you and it is guaranteed to be as practical as possible its the only way I can work.. Of further assistance is my new CD ROM which is interactive and provides example of wave soldering defects and solutions. It like an interactive data base and includes some of the following defects. Procedure for Setting Soldering Parameters The following procedure may be used when setting up a wave soldering system for a new board design or the test board. To fully prove the soldering process only fully populated boards should be used. The component lead length should be checked along with the correct position of all surface mount components. The samples should be soldered with all the necessary jigs or support clips to prevent any sagging of the boards during the soldering operation. Engineering should specify the flux to be used for the new design and it should be used in the machine's fluxing system during final trials The speed of the conveyor should initially be set at approximately 3.0/3.5ft/min for double sided and multilayer boards and 4.0ft/min for single sided boards. The solder temperature should be 235-240oC when using 63% tin /37% lead alloys. Fluxing Operation The spray fluxer should be set-up and checked for correct operation. A sample unsoldered board should be passed through the machine. The board should be removed just after passing through the fluxer and the air knife. There should be evidence of a thin coating of flux over the complete board with evidence that the flux has just entered the holes, (plated through hole boards only). In the case of foam fluxers the flux head should be stable and have the smallest bubbles possible when adjustments have been made to the air pressure. Using an unsoldered board or a Lev Check, confirm that good contact is being made with the foam head. When using the Lev Check, the foam head is depressed, again check that the foam bubbles making contact are relatively small. In the case of both fluxers the air knife should be set to remove excess flux from the base of the board. In the case of spray fluxing with plated through hole boards the air knife should be adjusted vertically to aid flux rising into the plated through holes. Pre Heat Operation A fully populated assembly should be passed through the machine to establish the temperature profile. This will be done with the fluxer and solder wave switched off. The assembly may have been previously soldered to locate the components in position. The temperature on the topside of the board should reach a minimum of 100oC prior to passing over the solder bath. Either temperature labels or the Datpaq profiler can be used for this operation. Ideally the profiler should be used as this provides a full record of the profile for future reference. If the profiler is used thermocouples should be positioned on the bottom of the board and on the topside. The probes should be soldered in position using high temperature solder and only the leads held in place with tape. The additional probes should be located in areas of the board where there is the greatest heat sinking effect. In the case of surface mount boards the termination points of selected parts on the underside of the boards should be checked. There should be no more than an 80oC temperature difference between termination temperature and solder wave temperature prior to hitting the first wave. If topside surface mount components are included in the design the peak temperature over the wave is also important. If fine pitch terminations reflow again during wave contact it can cause them to be lifted leading to open joints. This can occur due to the increased movement of the board during wave contact, although not desirable all boards do flex during wave contact. A record of the profile file name saved on the computer should be recorded for future reference along with a copy of the profile attached to the prototype result report. The file reference should be the board name or board reference number for ease of location. A test board should be passed through the machine with the fluxer and pre heater section operating. The board should be removed prior to passing over the solder wave. There should be no evidence of solvent left on the underside of the board which may cause gassing and spitting during wave contact. Solder Wave Operation As the board goes through the solder wave the board should not sag. If it does the support is inadequate and should be reviewed. If surface mount parts are positioned on the bottom of the board then the double wave should be used. The solder contact should be checked by using the Lev check before processing the prototype boards. It can be valuable to check for flux gassing which can affect satisfactory soldering of chip components. The contact width on the solder wave should be approximately 15mm for the chip wave and 30mm for the second wave. This should provide a minimum of 2 seconds in the chip wave and 4 seconds in the second wave. During wave contact the back section of the second wave should be moving at the same speed as the board assembly. After soldering the first board check that on any through plated holes full solder penetration has been achieved. If this is not visible check flux application again in the through holes and the pre-heat settings to confirm topside temperature is correct in the area of poor solder penetration. The solder wave height setting should achieve a board depth of 50% of the board thickness with or without jigs or fixtures. In the case of tooling holes or breakout routs the solder meniscus should be clearly visible. In the case of finger transport the fingers should fully depress the wave with the solder lapping into the finger "V" groove. After soldering the minimum of flux residues should be left on the board surface. Provided the soldering performance is satisfactory with no shorts or missing joints the quantity of flux applied by spray may be reduced. The inspection department should be asked to inspect the board samples after soldering with reference to the current soldering standard. A photocopy of the bottom board layout should be made and any defects marked with colour pens. Shorts should be marked with red, unsoldered joints should be marked in blue. A full report on the soldering trials should be produced highlighting any soldering problems encountered. This should be attached to any new design assessment form which should accompany all new prototype production designs. If specific soldering faults are encountered or the correct jigs or support clips are not provided the soldering section of any design review should not be approved. Bob Willis Electronic Presentation Services 2 Fourth Avenue, Chelmsford, Essex CM1 4HA. England. Tel: (44) 01245 351502 Fax: (44) 01245 496123 Home Page: http://ourworld.compuserve.com/homepages/bwillis Email: [log in to unmask] *************************************************************************** * TechNet mail list is provided as a service by IPC using SmartList v3.05 * *************************************************************************** * To unsubscribe from this list at any time, send a message to: * * [log in to unmask] with <subject: unsubscribe> and no text. * ***************************************************************************