Deze website maakt gebruik van zogeheten cookies. Klik op [OK] om deze melding te verbergen. Klik hier om meer informatie te lezen over de gebruikte cookies.
P O L Y T E C H . N U
Nederlands

fail-gallery

PLC overvoltage
On the image is a Siemens Logo! plc shown. This (brand new) one was wired to 230VAC. Since this is a 24VDC model, the result was a lot of smoke and a 16A blown fuse. Since my colleagues know ham-radio operators can use all kinds of broken equipment for components it was brought to me. Fixing was worth trying so the relics of the evaporated component were removed and the evaporated pcb trace was replaced by a piece of wire. After cleaning up the black stains, the plc was wired to a 24VDC power supply. And it's alive again! Resurrection after electrocution is not bad I guess...

image

exploded regulator
On the image in the middle are two voltage regulators shown. The right one is as it should look like. The left one is exploded. It's very likely this happened by overvoltage and not by a production fault.

image

realy bad caps!
Anyone who repairs old equipment are probably familiar with bad capacitors (by aging). Mains noise from old tube amplifiers is one of the indications of bad capacitors. Sometimes bad caps can be found by visual inspection since they start to bulge. This week I found two caps in a (still working) device. That they went bad could be seen from one meter distance... The first one is leaking (a lot) of fluid and is very bad corroded. The other one is dried out. When it was shaken, there is clearly a rattling sound to be heard. The exact age of the caps isn't known. They are at least two decades permanent in use; at least 175.000 hours...

image

packaging fail...
Today I received two waveguide attenuators which I bought earlier this week. (For the record; model J382A and P382A, both from HP.) The "small" is in good shape, the "big" one... not so good. Since it was not packaged well enough, during transport one flange is badly damaged. The compression mark on the box can clearly be seen on the image, along with the other half of the flange. Luckily the cartboard box is not damaged badly and therefore it can be used again. ;-) And the attenuator... well, probably the housing will be used for another ham-radio building project...

image

image

image

USB stick
Today a colleague of the IT department asked if I could repair a broken (as in two pieces) USB stick. The USB stick was installed in the front of a PC which was on the floor. Someone hit the USB stick by accident and the pcb traces came off the pcb. Note; the same colleague always strongly advises not to place computers on the floor to prevent this types of accident. ;-)

Well, the repair... I like soldering, but SMT isn't my favorite. I like challenges and this seems a good one to test my skills. After cleaning the connector and scraping off the protective paint of the copper traces, the two pieces are placed onto a breadboard pcb using solder wire and double sided tape. Then four small wires are used to create the point to point connection. The thickness of the wire is 0,25mm/0,01" (AWG30). The soldering wire is four times thicker and the tip of the soldering iron is even six times bigger than the copper wire. That's not the ideal equipment, but surprisingly the "repair" went quite well and rather fast.

Luckily there was a stereo microscope which made the job quite easy. And the assembly works! The documents are saved and this USB stick is added to the hall of fame (or shame...)

image

image

image