I have a Bally Skateball that is misbehaving. The left pop bumper fires randomly, but not completely randomly (I will explain).
At first I suspected it to be a faulty switch capacitor. I cut the capacitor, but it still misfired randomly. I began to notice that the coil misfired usually always (if not always) coincidentally when the flippers were activated. The coil does not misfire every time the flippers are used, in fact, it takes a lot of flipper action to eventually misfire the pop bumper. But when it does misfire, it always seems to misfire when the flippers are being used.
The other thing that is noticed is that scoring occurs most of the time the coil misfires. So, this would mean that the MPU is “seeing” a switch closure, even though the switch is not being closed (especially with the switch capacitor cut). I dismantled the bumper switch assembly just to make sure, and still got the same result.
I then suspected something may not be right with the SD board, and tested the pop bumper coils by grounding the main driver transistor. The central and right bumpers fired when grounded (as expected) and did not score points (as expected). Grounding the left bumper coil transistor not only fired the coil (which was expected), it also scored points (not expected). I then removed the J2 connector on the MPU board, and retested. This time the left bumper only fired when its transistor was grounded, and did not score points. This is beginning to look like EMF backlash/inducted voltage from somewhere.
Back to the flippers ….. I also began to notice that sometimes the left bumper would misfire after releasing one of the flippers from a ball trap position. Web searches reveal EOS switch electrical spikes causing interesting problems, and some with bumper misfirings. The conclusion here seems to point to the benefit of adding a capacitor across the EOS leaf switches to suppress the electrical arcs. This also leads to another area – in the Skateball switch matrix schematic (which is available on the ipdb), it DOES show high voltage (500V) caps across the EOS switches, but this is referenced in note 5 at the bottom of the schematic to be used for Germany. My skateball does not have caps across the EOS switches, and I am curious why only for Germany was this recommended? As Skateball has 4 flippers, there are 4 EOS switch capacitors as this option. I am also wondering if a cap may be needed for the leaf switches (2 of these, co-located with the bottom 2 flipper EOS switches) which eventually power the upper flippers. This is not suggested to do so in the schematic.
Back to the pop bumpers ….. I still wondered why the left bumper coil scored points when the SD board transistor was grounded. This seems to be yet another source of problem (and may also be independent of what is going on with the flippers?). I had a closer look at the bumper coils, and then I noticed it. The diodes on all three bumper coils are not the expected 1N4004 diodes, but very much look like the 1N4148 diodes used for the switch diodes (ie. the coil diodes look exactly the same as the switch matrix diodes). Maybe the diode across the left bumper is not 100% anymore, and allowing a backlash of EMF when the coil releases causing further EMF to be induced enough to score points in the switch matrix?
Don’t know guys …. maybe I’m dealing with two issues here rather than one. It would appear to be one or both possible actions. First could be to replace the bumper diodes with 1N4004. Second could be caps across the EOS switches.
Suggestions or comments most welcome.
