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The March 2016 issue of SILICON
CHIP is due on sale in newsagents
by Monday 29th February. Expect
postal delivery of subscription copies in Australia between February
29th and March 5th.
Serviceman’s Log
. . . continued from page 43
going around in circles for an hour, I
decided to replace all the electrolytic
capacitors since these devices are notoriously unreliable once they have
aged. There weren’t many so it was a
cost-effective way to hopefully make
some progress.
Replacing these capacitors actually
seemed to make a bit of a difference, so
I packed up and returned to the glasshouse. However, I wasn’t convinced
that I’d found the fault, so I took the
precaution of taking the signal tracer,
an oscilloscope and a floodlight along
with me, just in case.
After reconnecting the module and
turning on the power, I was dismayed
to discover that nothing had changed!
I listened in with my signal tracer
and again there was lots of noise but
it was now quite loud – much louder
than at my workshop. It seemed to be
everywhere, even on the supply rails,
and then I had a light-bulb moment!
The nearer I got to the battery with
the signal tracer, the louder the noise
became. I put the tracer aside, grabbed
my digital voltmeter and checked the
battery voltage once again. This time
though, I held the meter there long
enough to see that the battery voltage,
now sitting at 46V, was fluctuating
minutely. I then went from cell to cell
with the voltmeter and each one read
a nominal 2V until I got to about cell
number 20 (yes, I had started at the
wrong end). This cell had a reverse
voltage on it and it was fluctuating
wildly.
In fact, it was producing enough
noise to break through the filtered supply rails and regulators of the control
module and create havoc. Since the
cell was effectively dead, I bypassed
it with a jumper cable and everything
sprang to life. The solenoids worked
as they should and the rear wheels
accelerated smoothly.
When I looked inside the faulty cell,
I could see that the plates were quite
distorted and almost corroded away.
I made up a more permanent link to
bypass the dead cell and advised the
“Duck’s” driver that doing so would
put more load on the other cells and
that they would probably have to have
the lot replaced one day soon.
My guess is that it would cost at
least $2000 for a new bank of batteries so I was happy that I had at least
given them time to consider whether
to spend that money on a new heart
or to retire “The Duck” when it eventually broke down again. I also told
the maintenance man not to leave the
charger on for extended periods and to
carefully monitor the state of charge.
And the clue I had missed right at
the beginning? Having unplugged the
charger when I first looked at “The
Duck”, the freshly-charged battery
should have measured at least 50V
and probably as much as 56V; certainly
not 48V. The dead cell was not only
not contributing its normal 2V but
because it was negatively charged, it
was subtracting that amount from the
overall voltage.
Advertising Index
Altronics.................................. 66-69
Core Electronics........................... 57
Digi-Key Electronics....................... 3
DSCAPE...................................... 95
Hare & Forbes.......................... OBC
High Profile Communications....... 95
Icom Australia................................ 5
Jaycar .............................. IFC,45-52
Keith Rippon ................................ 95
LD Electronics.............................. 95
LEDsales...................................... 95
Master Instruments...................... 13
Microchip Technology................. IBC
Ocean Controls............................ 11
Rohde & Schwarz.......................... 9
Sesame Electronics..................... 95
Silicon Chip Binders..................... 37
Silicon Chip Online Shop........ 88-89
Silicon Chip Subscriptions........... 53
Silicon Chip Wallchart.................. 87
Silvertone Electronics.................. 65
Tendzone........................................ 7
Tronixlabs.................................. 8,95
There is a well known adage in the
industry that I had failed to apply –
always thoroughly check the power
supply before anything else! A bad
power supply can be the root of so
SC
many problems.
WARNING!
SILICON CHIP magazine regularly describes projects which employ a mains power supply or produce high voltage. All such
projects should be considered dangerous or even lethal if not used safely.
Readers are warned that high voltage wiring should be carried out according to the instructions in the articles. When working on these projects use extreme care to ensure that you do not accidentally come into contact with mains AC voltages or
high voltage DC. If you are not confident about working with projects employing mains voltages or other high voltages, you
are advised not to attempt work on them. Silicon Chip Publications Pty Ltd disclaims any liability for damages should anyone
be killed or injured while working on a project or circuit described in any issue of SILICON CHIP magazine.
Devices or circuits described in SILICON CHIP may be covered by patents. SILICON CHIP disclaims any liability for the infringement of such patents by the manufacturing or selling of any such equipment. SILICON CHIP also disclaims any liability
for projects which are used in such a way as to infringe relevant government regulations and by-laws.
Advertisers are warned that they are responsible for the content of all advertisements and that they must conform to the
Competition & Consumer Act 2010 or as subsequently amended and to any governmental regulations which are applicable.
96 Silicon Chip
siliconchip.com.au
