Errata
The term errata in the electronics industry refers not only to printing errors
in documentation, but also errors in the design or manufacture of parts which
lead to deviations from the specification.
This page documents several kinds of “errata”: errors in the exercises which
have not yet been corrected in the text, specific problems we have
discovered with lab equipment, and common mistakes we have seen students make.
General information on techniques can also be found under Tips and Tricks
and Essential Skills List.
Common Mistakes
- The power supplies have current limit settings which govern the maximum
current it will output from each channel. If the draw is too high (e.g. load
resistance too low), it will drop the voltage to meet this limit. Some power
supplies had this knob set at zero and were properly refusing to output any
current.
- The power supplies have series, parallel, and independent modes: we will
almost always use independent mode. The other two modes gang the two halves
together: series can offer higher voltages, parallel can offer high
currents. If in doubt, check the manual.
Errors in Exercises
Lab Electronics
- Apparently our RGB LEDs are common-anode (determined empirically). The
longest lead is the common. When in doubt, test with the DMM diode function.
(The anode is the positive terminal, the cathode is the negative terminal.)
Lab Equipment
- Not all of the DMMs had the probes with the long tips; the long tips make the
AC wall measurement much easier.
- The DMMs have a diode measurement mode for measuring the forward voltage
drop, but it doesn’t work for the purple LEDs, most likely because the
forward voltage drop is too high because of the particular chemistry, which
is also related to the color. The lab meters don’t even work for the red
LEDs, although they will measure the 0.6 volt drop of a 1N914 diode. I used a
better meter (a Fluke 179) to test one of our red LEDs and it showed a
voltage drop of 1.79V. However, even the better meter was only able to light
the purple LED but not register its voltage drop.