My student group was unable to get our lipo chargers to pass
tag and testing (PAL). This particular model has a built in AC adaptor and it's worth noting the makers claim CE certification.
Yes
. Fakes are not always bad -- many people are fine with fake B6 chargers. This does however explain why this charger never took my Li-ions above 4V whilst claiming they were fully charged to 4.2.
The reason I'm told they failed the tag and test was that they had a metal case and a three-prong plug, but the case was not earthed. I initially presumed the manufacturers had cost-cut by avoiding to add an earthing wire and mount-point internally, but having a look inside quickly explained the real reason:
To me this makes sense: laptop-style power bricks are "double insulated" and likely cheaper in
some situations than spinning your own primary side board. This design seems perfectly fine but I'm not sure if there is a convenient spot in Australian regulations for devices like this. At the moment I'm researching what the regulations are because my only knowledge comes from these forums, Dave's videos and Wikipedia.
If anyone knows some great material to read, please link me to it.DownhillAnyway, from "OK" things turn to 'not so okay' in a couple of areas of this product. You may notice a large capacitor on the left side of the board flying on long leads -- it can't sit flat because of a MELF diode obstructing its footprint. Then there's the wonderful soldering of the arrayed SMD resistors on the right (output side) of the board:
Both of these problems can easily be lived with. Underneath the charging board however is a more subtle problem: a couple of TO-220 packages are poorly heatsunk against the bottom of the case:
The nearest package in this shot has a definite air gap between itself and the pad when assembled. I wasn't able to get the right angle for the camera to show this, but the two surfaces are no-where near touching and you can see daylight between them the whole way.
I've since fixed this with some thicker SIL pads I had lying about but I don't want this as a permanent solution if I can avoid it.. This problem may have come up because of me disassembling the item so I will compare it with our other charger. Not happy -- I would have preferred it if the three screw-mounting points were re-arranged so that a couple of them sit right next to the packages on the underside, ensuring they are kept well clamped against the case.
Power SupplyThis is the fun part and why I decided to make this topic: a 100% authentic super awesome gigglepower PSU.
Before I go any further I need to point out how easy this was to open. If they used any glue it was barely functional: the top split off easily. I had issues stopping it from falling off after I assembled it so I glued it shut myself.
Apart from the massive cap on rectified mains there is no mains filtering. A Y cap, an X cap and an inductor are all AWOL, but hey, at least they didn't skip on the tiny glass fuse!
Again I'm not happy. This does not inspire confidence in its ability to handle nasty messes of mains-slapping. Would this meet Australian standards? I doubt so (and don't want it to), but I'm not sure.
ConclusionI'm going to suggest my group use external laptop adaptors to power our chargers for the time being. The designers were polite enough to leave the DC jack inputs on the charger board from the IMAX B6 designs without the internal AC adaptor. We have lots of laptops and are going to get them tagged anyway, so this is easy.
EDIT: It looks like the DC jack is disconnected until I solder a link across CN0. I suspect this is to avoid someone using the internal adaptor and an external one at the same time. This socket works as is, I don't know what CN0 is for. Silicon bridges the gap instead.
EDIT2: It appears the insulation atop the main input cap in the PSU has melted slightly where it would touch to the black plastic case. This is odd -- surely the whole cap would have melting symptoms?
Home
Help
Search
Login
Register
