For people learning electronICs, it is natural to set test points on PCBs, but for people learning mechanics, what are test points?
Basically, the purpose of setting test points is to test whether the components on the PCB meet the specifications and solderability. For example, to check whether the resistance on a PCB is correct, the SIMplest way is to measure the two ends of the PCB with a multimeter.
However, in mass production plants, there is no way for you to slowly measure each resistance, capacitance, inductance, and even IC circuit on each board with an electric meter. Therefore, the so-calLED ICT (In Circuit Test) automatic testing machine appears. It uses multiple probes (generally called "Bed Of Nails" fixture) to contact all the parts and circuits on the board that need to be measured at the same time, Then, the characteristics of these electronIC parts are measured in sequence through program control, mainly in sequence, supplemented by juxtaposition. Generally, the test of all parts of a general board can be completed in about 1-2 minutes. Depending on the number of parts on the PCB, the more parts, the longer the time.
However, if these probes directly contact the electronic parts or their welding legs on the board, it is likely to crush some electronic parts, which is counterproductive. Therefore, SMArt engineers invented a "test point", which leads an additional pair of round dots at both ends of the part. There is no mask on it, so that the test probe can contact these dots without directly contacting the measured electronic parts.
In the early days when the PCB was still a traditional plug-in (DIP), it was true that the solder legs of parts were used as test points, because the solder legs of traditional parts were strong enough to not be afraid of pin pricking, but the misjudgment of poor probe contact often occurred, because after wave soldering or SMT tin eating, a layer of residual film of solder paste flux was usually formed on the solder surface of general electronic parts, The impedance of this film is very high, which often leads to poor contact of the probe. Therefore, it is often seen that the test operators of the production line often blow hard with an air spray gun, or wipe these places that need to be tested with alcohol.
In fact, the probe may have poor contact at the test point after wave soldering. Later, after the prevalence of SMT, the situation of test misjudgment has been greatly improved, and the application of test points has also been given a great responsibility. Because SMT parts are usually fragile and cannot withstand the direct contact pressure of the test probe, the use of test points allows the probe to not directly contact the parts and their weld legs, 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 development of science and technology, the size of PCBs is getting smaller and smaller. It is hard to squeeze so many electronic parts on small PCBs. Therefore, the problem of test points occupying the space of PCBs is often a tug of war between the design side and the manufacturing side. However, this topic will be discussed later when the opportunity arises. 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 make adjacent probes closer, so that the needle planting density of the needle bed can be increased.
1. There are some limitations on the mechanism when using the needle bed for circuit testing, such as: the minimum diameter of the probe has a certain limit, and the needle with too small diameter is easy to break and damage.
2. The distance between needles is also limited, because each needle must come out of a hole, and a flat cable must be welded at the back end of each needle. If the adjacent holes are too small, in addition to the problem of contact short circuit between needles, the interference of flat cables is also a major problem.
3. The needle cannot be planted beside some high parts. If the probe is too close to the high part, there will be a risk of damage caused by collision with the high part. In addition, because the part is high, it is usually necessary to make holes on the needle bed of the test fixture to avoid it, which also indirectly causes that the needle cannot be planted. Test points of all parts on the PCB that are increasingly difficult to accommodate.
4. As the boards are getting smaller and smaller, the number of test points has been discussed repeatedly. 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 that want to replace the original needle bed test, such as AOI and X-Ray, but at present, each test seems unable to replace ICT 100%.
As for the needle planting capability of ICT, the matching fixture manufacturers should be asked, that is, the minimum diameter of the test point and the minimum distance between adjacent test points. Usually, there will be a minimum value that can be expected and the minimum value that can be reached by the capability. However, the large-scale manufacturers will require that the distance between the minimum test point and the minimum test point should not exceed how many points, otherwise the fixture is easy to be damaged.