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In the assembly industries, the process of attaching electronic components on to a printed circuit board (PCB) is usually done by soldering them onto the board. Reflow soldering oven is one of the most modern devices used for to achieve this attachment. The process starts with a sticky mixture of flux and powdered solder that helps to attach the components on to their correct positions on to the board. A process of controlled heating and cooling then follows to achieve permanent joints.
One or more ceramic infrared heaters can be used for heating the oven. The heat is then directed through the radiation process to the assembly compartments although infrared ovens use fans to direct heat to the assembly. The target is usually to expose PCB to the optimum heat conditions enough to melt the solder into the correct positions without damaging the PCB or devices on it.
The process starts with loose attachments of the components to the desired positions on the PCB using sticky solder powder and flux mixture. This is then directed to first of the four phases through which the process undergoes. The first of this is the preheat zone which involves determination of temperature/time relationship (ramp rate). This significance of this comes in other stages as the maximum temperature and time exposure should be maintained to avoid destroying the PCB and the components on it.
The PCB is then taken to the thermal soak zone where the removal of solder paste volatiles takes place. Flux activation which involves freeing of leads and pads of any oxide then follows. The temperature range is anywhere between 60 to 120 degrees primary depending on the predetermined ramp rate.
Maximum temperatures are reached at the reflow zone (the third stage). At this stage, the surface tension of the flux gets reduced at the metal juncture resulting to metallurgical bonding-all the solder powder combines. In considering the maximum tolerable temperature, the components with the lowest thermal damage is very significant as the maximum operating temperature is set slightly below this level. It is at this phase that full control of the temperatures and exposure time must be done for obvious reasons of avoiding device destruction.
The last phase for the PCB is the cooling zone where the board and its components cool and the soldier solidifies. The temperature control is also significant here to avoid thermal shock excess intermetallic formation. The primary goal here is to achieve a mechanically sound and fine grain structure.
In the modern ovens with the most up to date technology, there is usually no need for solder to flow more than once as these advances techniques guarantees that the granules in the paste can surpass the reflow temperature of the solder used. The trick is therefore to select an oven that can perform optimally at all the phases resulting into the best possible PCB with attached components.
The high rate of the change in business environment reflected by changing consumer needs, shifting technology, market changes and increasing competition all calls for drastic measures such as investing in highly efficient and optimally performing devices such as a reflow soldering oven which should drive production levels and increase profitability for the survival of the business.
One or more ceramic infrared heaters can be used for heating the oven. The heat is then directed through the radiation process to the assembly compartments although infrared ovens use fans to direct heat to the assembly. The target is usually to expose PCB to the optimum heat conditions enough to melt the solder into the correct positions without damaging the PCB or devices on it.
The process starts with loose attachments of the components to the desired positions on the PCB using sticky solder powder and flux mixture. This is then directed to first of the four phases through which the process undergoes. The first of this is the preheat zone which involves determination of temperature/time relationship (ramp rate). This significance of this comes in other stages as the maximum temperature and time exposure should be maintained to avoid destroying the PCB and the components on it.
The PCB is then taken to the thermal soak zone where the removal of solder paste volatiles takes place. Flux activation which involves freeing of leads and pads of any oxide then follows. The temperature range is anywhere between 60 to 120 degrees primary depending on the predetermined ramp rate.
Maximum temperatures are reached at the reflow zone (the third stage). At this stage, the surface tension of the flux gets reduced at the metal juncture resulting to metallurgical bonding-all the solder powder combines. In considering the maximum tolerable temperature, the components with the lowest thermal damage is very significant as the maximum operating temperature is set slightly below this level. It is at this phase that full control of the temperatures and exposure time must be done for obvious reasons of avoiding device destruction.
The last phase for the PCB is the cooling zone where the board and its components cool and the soldier solidifies. The temperature control is also significant here to avoid thermal shock excess intermetallic formation. The primary goal here is to achieve a mechanically sound and fine grain structure.
In the modern ovens with the most up to date technology, there is usually no need for solder to flow more than once as these advances techniques guarantees that the granules in the paste can surpass the reflow temperature of the solder used. The trick is therefore to select an oven that can perform optimally at all the phases resulting into the best possible PCB with attached components.
The high rate of the change in business environment reflected by changing consumer needs, shifting technology, market changes and increasing competition all calls for drastic measures such as investing in highly efficient and optimally performing devices such as a reflow soldering oven which should drive production levels and increase profitability for the survival of the business.
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