For people studying electronics, it is natural to set up test points on the circuit board, but for people studying machinery, what are the test points?
Maybe I'm still a little confused. I remember that when I first worked as a process engineer in a PCBA processing plant, I asked many people about this test site to understand it. Basically, the purpose of setting test points is to test whether the components on the circuit board meet the specifications and solderability. For example, if you want to check whether there is any problem with the resistance on a circuit board, the easiest way is to measure with a multimeter. You can know it by measuring both ends.
However, in mass production factories, there is no way for you to use an electricity meter to slowly measure whether each resistance, capacitance, inductance, and even IC circuits on each board are correct. So there is the so-called ICT (In -Circuit-Test) The emergence of automated test machines, which use multiple probes (generally called "Bed-Of-Nails" fixtures) to simultaneously contact all the parts on the board that need to be measured. Then the characteristics of these electronic parts are measured sequentially through the program control with sequence as the main and side by side method. Usually, it only takes about 1 to 2 minutes to test all the parts of the general board, depending on the number of parts on the circuit board. It is determined that the more parts, the longer the time.
However, if these probes directly touch the electronic parts on the board or its solder feet, it is very likely that some electronic parts will be crushed, and it will be counterproductive. Therefore, smart engineers invented "test points", which are located on the two parts of the board. A pair of small round dots are additionally led out on the end, and there is no mask on the top, so that the test probe can touch these small dots instead of directly contacting the electronic parts to be measured.
In the early days when there were traditional plug-ins (DIP) on the circuit board, the solder feet of the parts were indeed used as test points, because the solder feet of the traditional parts were strong enough that they were not afraid of needle sticks, but there were often probes. The misjudgment of poor contact occurs, because after general electronic parts undergo wave soldering or SMT tin, a residual film of solder paste flux is usually formed on the surface of the solder, and the resistance of this film is It is very high, which often causes poor contact of the probes. Therefore, test operators on the production line were often seen at the time, often holding air spray guns to blow desperately, or rubbing alcohol on these places that needed to be tested.
In fact, the test points after wave soldering will also have the problem of poor probe contact. Later, after the popularity of SMT, the misjudgment of the test was greatly improved, and the application of test points was also given a great deal of responsibility, because the parts of SMT are usually very fragile and cannot withstand the direct contact pressure of the test probe. Use test points. This eliminates the need for the probe to directly contact the parts and their solder feet, which not only protects the parts from damage, but also indirectly greatly improves the reliability of the test, because there are fewer misjudgments.
However, with the evolution of technology, the size of the circuit board is getting smaller and smaller. It is already a bit difficult to squeeze so many electronic parts on the small circuit board. Therefore, the problem of the test point occupying the circuit board space is often There is a tug of war between the design side and the manufacturing side, but this topic will be discussed later when there is a chance. The appearance of the test point is usually round, because the probe is also round, which is easier to produce, and it is easier to bring the adjacent probes closer, so that the needle density of the needle bed can be increased.
There are some inherent restrictions on the mechanism when using a needle bed for circuit testing. For example, the minimum diameter of the probe has a certain limit, and the needle with too small diameter is easy to break and damage.
The distance between the needles is also limited, because each needle must come out of a hole, and the back end of each needle must be soldered with a flat cable. If the adjacent holes are too small, except for the gap between the needles There is the problem of contact short circuit, and the interference of the flat cable is also a big problem.
Needles cannot be implanted next to some tall parts. If the probe is too close to the high part, there is a risk of collision with the high part and cause damage. In addition, because of the high part, it is usually necessary to make holes in the needle bed of the test fixture to avoid it, which indirectly makes it impossible to implant the needle. Test points for all parts that are increasingly difficult to accommodate on the circuit board.
As the boards are getting smaller and smaller, the number of test points has been repeatedly discussed. Now there are some methods to reduce test points, such as Net test, Test Jet, Boundary Scan, JTAG, etc.; there are also other test methods. To replace the original bed of needle tests, such as AOI, X-Ray, but it seems that each test cannot replace ICT 100%.
Regarding the ability of ICT needle implantation, you should ask the matching fixture manufacturer, that is, the minimum diameter of the test point and the minimum distance between adjacent test points. There is usually a desired minimum value and a minimum value that the ability can achieve, but there are Large-scale manufacturers will require that the distance between the minimum test point and the minimum test point cannot exceed a few points, otherwise the jig will be easily damaged.
