Cory’s Grilled Cheese is a little food trailer that’s been setting up in front of MUSC’s Institute of Psychiatry building on President St for the past few weeks. I’d seen them before at other events and around town, but never got around to giving it a try.
As food goes, grilled cheese sandwiches are about as simple as it gets. Here, you get your pick of bread and cheese as well as a number of different add-ons. You can have a basic grilled cheese sandwich, build your own or go for the “Chef’s Whim”. I like the Deluxe Grilled Cheese which comes with bacon and tomato.
The sandwiches are nicely toasted with lots of melty cheese. Grab one, find a spot to sit outside and enjoy the nice fall weather with a comforting and filling grilled cheese sammich.
Bacon and egg grilled cheese
Deluxe grilled cheese
If you’re in the neighbourhood, or see the trailer on the street, stop and give them a try for breakfast or lunch!
“I make grilled cheese sandwiches with the stuff you like in them.” – Cory
New office mates
A few weeks ago when Connie and I were in Tennessee sorting through stuff, I came across these funny little Dilbert and PHB heads.
Being a Dilbert fan, I thought they were pretty neat. Stuffed Dilbert/PHB heads with a weighted base (figured it was just to help them stay upright), I decided I probably didn’t need more stuff so they were headed to the garage sale pile. While I was playing around with it, I tossed one up in the air and when it landed on my hand, it spoke!
Then I decided that I needed to keep them. I finally remembered to bring them in to the office with me so now they’ve joined the rest of the office crew
Who do you share your office with?
Amateur Extra in the books
My amateur radio license in the FCC ULS database changed from General to Amateur Extra this afternoon, so now it’s really official!
I put in the application for a vanity call sign, so in a few weeks I should be getting on the air with a shiny new and cool call sign.
Whee!
Still looking at radios and deciding what I want to get.
Measuring capacitance Part 2
I decided to explore a method for measuring the capacitance of an unknown capacitor using the capacitance measuring capability of my DMM. It has a range of 7 orders of magnitude (pF to 20 μF).
The total capacitance of capacitors in a parallel arrangement is just the sum of the capacitors.
C = C1 + C2 + ...In series, the inverse of the total capacitance is the sum of the inverse of the capacitance of each capacitor.
1/C = 1/C1 + 1/C2 + ...The total capacitance will be less than the smallest capacitor in the chain.
By placing the unknown capacitance in series or parallel with a known capacitance and measuring the resulting total capacitance, it becomes a pretty trivial matter to calculate the value of the unknown capacitor. Of course the total capacitance still has to be in the DMM’s measurable range.
In theory, either arrangement should yield the same result. I thought it would be interesting to see what kind of results I would get.
Armed with breadboard, some jumper wires and my DMM, I grabbed 5 capacitors that my DMM could measure. One capacitor served as my known (0.47 μF, which measured 0.442 μF according to the DMM). The other four would be my “unknowns”. Each of them was a 1 μF cap with measured values of 0.961, 0.0.964, 0.972 and 0.996 μF. By measuring the total capacitance with the capacitors in series or parallel arrangements, the unknown capacitance is easily calculated and can be compared with the measured value.
I ended up with some interesting results, but probably not terribly significant in the grand scheme of things.
Calculating the capacitance of the unknown capacitor in series with a known capacitor underestimated the measured value by 3%. Calculating the capacitance of the unknown capacitor in parallel with a known capacitor was more accurate, overestimating the value by just 1%.
I suspect most likely source of the difference between the two methods is due to stray capacitance in the breadboard or maybe in the DMM. It’s like having adding extra capacitor in network. With differences this small, I’d consider the two methods to be pretty much the same (as would be expected).
Some of the other “unknown” capacitors I have are pretty big, but armed with enough knowns and putting them in a suitable arrangement of series and parallel layouts, I should be able to bring the total capacitance down to something my DMM can measure, and be able to see just what the unknowns are.
Part 3 will probably see me exploring another method. I may need some more components for that though.
Measuring capacitance
Digital multi-meters have come a long way since I first used them. Back then all they gave you was voltage, current and resistance. My new DMM also has a temperature probe, measures capacitance and tests diodes and transistors.
During the process of sacrificing and dissecting a couple of old laptop power bricks, I’ve harvested a number of components, including transformers, inductors and capacitors.
Testing a capacitor to see if it’s still good is pretty simple by checking the resistance. Low resistance is bad, very high/infinite resistance is good, high but not very high is leaky.
I’d also like to know what the actual capacitance is, and how it compares to what’s printed on the capacitor. The capacitors I harvested are outside the measuring range of my DMM, so the easy way would be to just buy a capacitance meter to test them.
I don’t always do things the easy way though, especially when there’s an opportunity to learn something new. I’m pretty sure I can come up with a workable method to measure the “mystery” capacitors.