Movatterモバイル変換
[0]ホーム
Re: How does a touch lamp work?Date:Tue Apr 21 15:11:47 1998
Posted By:William Beaty, Electrical Engineer / Physics explainer / K-6 science textbook content provider
Area of science:Engineering
ID:891020878.Eg
Message:
Hi Luke!
Touch-lamps are misleading because they seem so simple, but the electronic circuitry inside them is pretty complicated. It's not as complex as a television or computer,it�s something like an inexpensive radio. Get ready, because the explanationisn�t going to be brief! (grin!)
The touch lamp has several main parts:
- A metal antenna
- touch-sense circuitry
- flip-flop memory bit
- low-voltage power supply
- high-voltage electronic switch
- Light bulb
A touch-lamp is interesting because it uses a combination of "static electricity" and electric current to sense your touch.
Antenna
The metal shell of the lamp is the antenna. The touch-sense circuitry works by givingthe antenna a positive charge imbalance and then a negative one. It does thisover and over very rapidly, so positive and negative voltages appear on the metal shell ofthe lamp. In other words, the outside of the lamp has vibrating static electricity on itssurface. ( It�s not "static" and unmoving. Yet it�s the same stuff as "static electricity.") The vibrating charge is very feeble, it�s far too weak to make sparks. But it can be measured.
As the touch-sense circuitry moves charge into and out of the antenna, it measures the tiny flow of charge in the conductor leading to the antenna. As long as nobody is touching theantenna, this flow of charge always is less than a particular value. (It's probably a fewmicroamperes of alternating current, millionths of amps.)
If you touch the metal lamp shell with your finger, the touch-sense circuitry has to workharder. It isn�t just sending charge in and out of the metal lamp anymore. Nowit has to electrify your whole body too. Your body has a much larger surface than the lamp,so it takes a much larger amount of charge. When you touch the lamp, the circuitry detects the higher current going to the anteanna. It then sends a signal to the memory circuit below,which causes the lamp to switch from off to on (or vice versa.)
Memory bit
The lamp contains a pair of electronic switches which control eachother. Their function is to "remember" whether the lamp is supposed to stayon or off. Together they are called a binary flip flop, and they act as a single memory bit just like that in a computer. When the touch-sensecircuitry gives them a signal, they "flip" one way and send a signal toturn the light bulb on. When the touch-sense circuitry gives them a secondsignal, they "flip" the other way and tell the light bulb to turn off.High voltage, High current switch
The lamp has one big transistor in it which controls the light bulb. This electronic switch can withstand dangerous amounts of voltage (120volts from the wall, plus surges from distant lightning storms.) Itcan pass several amperes of current through itself when turned on.
The flipflop memory circuit gives the main transistor a tiny signal, and this makes the transistor act like a closed switch. This turns on the light bulb.If you touch the lamp again, the touch-sense circuitry will detect it, andsend a signal to the flipflop memory circuit. The memory circuit flips, and stops sending its signal to the main power transistor. The power transistorturns into an open circuit, and the light bulb turns off.
Silicon chip
All this circuitry would be expensive, but it�s all reduced to microscopicsize and printed into the surfaceof a silicon chip about 1/8 inch square. Transistors, wires, and insulatorsare formed on the silicon, and the chip costs less than 1$. But just becauseit�s small and cheap, doesn�t mean it�s simple!Experiments
I never had my own touch-lamp to play with, but I can think of somethings you might try.- Hold a metal object in your hand and touch it to the lamp. The lamp should turn on or off. Metal is a conductor. It is full of movablecharge, and it offers a path for charge flow. It electrically connects your body tothe metal shell of the lamp, so the lamp "knows" that you�ve touched it.
- hold a plastic object in your hand and touch it to the lamp. Nothinghappens. Plastic does not contain movable charges, it is an insulator. Plastic provides no path for charges to flow, so your body has not touched the lamp electrically.
- Dip your finger in oil, then touch your finger to the lamp. Nothingshould happen. Oil is insulating. It interrupts the electrical connectionbetween your finger and the lamp. (Don�t get in trouble for getting the lampall oily!)
- Tape a strip of aluminum foil to the metal part of the touch-lamp. Nowtouch the foil. The lamp should go on or off. Aluminum (as well as all metals) is conductive, and it electrically becomes part of the antenna.
- Wet a strip of paper towel, hold the wet part in your hand, and let ittouch the lamp. The lamp should go on or off. (If it doesn�t work, tryusing salty water on the paper towel.) The water makes the paper becomeconductive. If you do this with a dry paper towel, nothing should happen.Try wet string. Try wet thread.
Current Queue |Current Queue for Engineering |Engineering archivesTry the links in theMadSci Library for more information onEngineering.
MadSci Home |Information |Search |Random Knowledge Generator |MadSci Archives |Mad Library |MAD Labs |MAD FAQs |Ask a ? |Join Us! |Help Support MadSci
MadSci Network,webadmin@www.madsci.org
© 1995-1998. All rights reserved.
[8]ページ先頭