Electronics All-in-One For Dummies. Doug Lowe
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Larger capacitors should be discharged by connecting their leads to a lamp or a large resistor. The easiest way to do this is to wire up a lamp holder to a pair of alligator clips, screw a lamp into the lamp holder, then carefully connect the clips to the capacitor leads. If the capacitor is holding a charge, the lamp will glow for a moment as the capacitor discharges through the lamp.
If you don’t feel completely confident in what you’re doing where large capacitors are concerned, walk away from the project.
Other Ways to Stay Safe
Electric shock isn’t the only danger you’ll encounter when you work with electronics. The following paragraphs summarize a few of the other risks you may be exposed to and describes the precautions you should take to minimize those risks:
Soldering poses an obvious fire hazard. If your soldering iron is hot enough to melt solder, it’s also hot enough to ignite combustible materials such as paper, wire insulation, and so on. Therefore:Always be aware of when your soldering iron is on. Don’t plug it in until you need it, and unplug it when you’re finished soldering.Never set a hot soldering iron down directly on your workbench. Instead, get a soldering iron holder to safely hold the soldering iron while it’s hot. Figure 4-1 shows a soldering iron resting in a simple stand. As you can see, this stand keeps the business end of the soldering iron safely elevated away from the work surface.FIGURE 4-1: A soldering iron resting on a stand.Give your soldered joints a few minutes to cool down before you handle them.Watch out for the soldering iron’s electrical cord. Obviously, you want to avoid burning the cord with the soldering iron. As ridiculous as it sounds, I did this myself once when I carelessly set the soldering iron aside, directly on top of its own power cord. Fortunately, I noticed my mistake before the soldering iron melted much of the power cord’s insulation.Make sure the soldering iron’s power cord is placed safely away from your stuff so that you won’t bump it as you work, knocking it out of its stand and perhaps causing a burn. Be sure to wear eye protection when you solder. As solder melts, it occasionally boils and splatters little globules of hot solder through the air. You really don’t want molten metal anywhere near your eyes.
Electronics — and especially soldering — can also create a chemical hazard. When you solder, small amounts of lead are released into the air. Therefore:Always work in a well-ventilated place.Wash your hands after you work with solder or any other electronic components before you touch your face, mouth, nose, or eyes. Small amounts of lead and potentially other toxic substances are bound to get on your hands. It’s best to wash them frequently to keep whatever gunk they pick up from getting into your body.Keep your soldering tools away from children. Young children and pets love to stick things in their mouths. If you leave solder or little electronic parts like resistors or diodes sitting loose on top of your workbench, your kids or pets may decide to make a meal of them, so keep such things safely stored in boxes or cabinets and, if possible, keep your entire work area safely off-limits and behind closed doors.Don’t get into the habit of sticking parts into your mouth to hold them while you’re working. As crazy as it sounds, I’ve seen people hold a dozen resistors in their mouth while soldering each one into a printed circuit board. That’s definitely a bad idea.
Working with sharp tools such as knives, wire cutters, and power drills creates a risk of cutting injury. Therefore:Think before you cut. Make sure you know exactly where you want to make the cut, and make sure you know exactly where all your fingers are before you start the cut.Let the tool do the work. Don’t apply excessive force to coerce a tool into making a bigger, deeper, or wider cut than it’s designed to do.Keep your tools sharp. Working with dull tools causes you to use extra force, which often results in the tool slipping and finding itself lodged in your finger.Remove jewelry such as rings, wristwatches, and long dangling necklaces before you start — especially if you’re working with power tools.Wear safety goggles whenever you’re cutting, sawing, or drilling. Little pieces of the work or blade can easily break off and hit you in the face. Add bits of insulation, copper wire, and broken drill bits to the growing list of things you don’t want in your eyes.
Keeping Safety Equipment on Hand
In spite of every precaution you might take, accidents are bound to happen as you work with electronics. Other than preventing an accident from happening in the first place, the best strategy for dealing with an accident is to be prepared for it, so I recommend you keep the following items nearby whenever you’re working with electronics:
Fire extinguisher: So you can quickly put out any fire that might start before it gets out of hand.
First-aid kit: For treating small cuts and abrasions as well as small burns. The kit should include bandages, antibacterial creams or sprays, and burn ointments.
Phone: So that you can call for assistance in case something goes really wrong.
Friend: If your project works with household current (120 volts), a friend can help in case you get shocked.
Protecting Your Stuff from Static Discharges
Static electricity — more properly called electrostatic charge — results when electric charges (that is, voltage) builds up in the absence of a circuit that allows current to flow. Your own body is frequently the carrier of static charge, which can be created by a variety of causes. The most common is friction that results from simple things such as walking across a carpet. Your clothes can also pick up static charge, and usually do when you toss them around in a clothes dryer.
Static charge accumulated in your body usually discharges itself over time. However, if you touch a conductor — such as a brass doorknob — while you’re charged up, the charge will dissipate itself quickly in an annoying shock.
If the conductor happens to be a sensitive electronic component such as a transistor or an integrated circuit rather than a brass doorknob, the discharge can be more than annoying; it can fry the innards of the component, rendering it useless for your projects. For this reason, it’s wise to protect your stuff from static discharge when you work on your electronic projects. The easiest way to do that is to make sure you’re properly discharged before you start your work. If you have a metal workbench or a large metal tool such as a drill press or grinder near your workbench, simply reach out and touch it after you’ve settled in to your seat and before you begin your work.
A more reliable way to protect your gear from static discharge is to wear a special antistatic wristband on one wrist, as shown in Figure 4-2. Wear the wristband tightly so that it’s in good solid contact with your skin all the way around your wrist. Then, plug the alligator clip into a metal surface such as your workbench frame or that nearby drill press.
FIGURE 4-2: An antistatic wristband.