Last week we talked about electromagnetic pulses (EMPs)—potentially one of the most threatening forces to our modern way of life. Under the right conditions, a solar EMP could wipe out power over large swaths of the US in a blackout that lasted for months.
It doesn’t take much imagination to picture how devastating that would be.
The good news is that it's not too late to prepare! With some relatively simple steps, you can protect your important devices from EMP damage. The cheapest and most effective of these is the Faraday cage.
What Is a Faraday Cage?
Also known as a Faraday shield, radio frequency cage, or EMF (electromotive force) cage.
Simply put, a Faraday cage is an enclosure built to protect electronic devices from electromagnetic pulses (EMPs) that can overload and fry them.
A Faraday cagebe anything from a small box to a large room, covered with conductive metal or wire mesh, which prevents surges from damaging the equipment inside.
Devices a Faraday Cage Will Protect
There are a variety of personal electronics that can be protected by a Faraday cage.
Typical items that can be stored in a Faraday cage include:
The History of the Faraday Cage
The Faraday cage actually outdates modern electricity by quite a few years.
The device is named for Michael Faraday, who observed in 1836 that the excess charge from a conductor remained on the outside of a container and had no effect on the interior contents.
He experimented by building a room coated with metal foil, and then he allowed high-voltage discharges from a generator to strike the outside of it. He used an electroscope to show that there was no electric charge present on the inside of the room’s walls.
Though the device bears Faraday’s name, Benjamin Franklin is believed to have been the first to discover the principle.
Faraday Cages in Unexpected Places
Faraday cages are found in lots of places, from some protective work clothing to cars (especially older metal vehicles can beFaraday cages with wheels).
Faraday cages or shields are used all over the world and show up in lots of places you might not expect.
MRIs– Faraday shields are used in the scan-rooms of MRI machines, in which the “cage” effect prevents radio frequency signals from being added to the data from the patient’s image.
Protective work clothing – Some electrical linemen wear “Faraday suits” when working on live, high-voltage power lines to prevent accidental electrocution.
Cone of silence–Military planners and politicians who have reason to keep their communications private often meet in Faraday-protected rooms that are impervious to electronic eavesdropping.
Personal privacy–Many people buy Faraday bags to protect their cell phones and laptops both from electrical surges and from unwanted surveillance or tracking.
Cars –According to the National Weather Service, an automobile is essentially a Faraday cage, and it’s the metal surrounding you, not the rubber tires, that protects you from lightning (as long as you’re not touching metal inside the car).
A smaller example is a microwave oven, which is a Faraday cage in reverse, trapping the waves inside the device instead of keeping them out. In fact, an old microwave oven makes a good Faraday cage for small electronics!
Why You Need a Faraday Cage When Everyone Else’s Devices are Down
Why, you may ask, would it do any good for you to have working electronics when everyone else’s would be down or destroyed?
First of all, you might still be able to communicate with people outside the affected area (and it may be very difficult at first to determine how large that affected area is).
Second, you won’t be the only “techie” who thought to protect valuable electronics in a Faraday cage. Some preppers do this as a matter of course, and eventually you would probably be able to communicate with them. (Cell towers, however, would likely be “fried” and need to be rebuilt.)
Back Up Devices in a World Without Electronics
Many ham radios could survive an EMP event.
Communication at such a time would be extremely valuable.
Unless there had been well-publicized warnings of impending CMEs in the days before the event, many people would have no idea what had happened to our world.
Ham radio operators, who could communicate with other Hams around the globe, might become the new heroes of the day.
Many AM/FM and shortwave radio stations believe that they’ll still be able to broadcast after an EMP or CME event. And without all the usual “noise” of our plugged-in society, their waves may be able to travel farther than they do now. Hopefully there would be Faraday-protected radios out there to receive their signals!
There is, however, a likelihood that the earth’s electromagnetic field would be seriously disrupted by such an event, and it might take quite a while for things to settle down and not cause static on the airwaves.
How to Make a Faraday Cage
You can make a Faraday cage from lots of different receptacles. More important than the shape or size is what they’re lined with.
To be effective, a Faraday cage must:
Be covered with conductive metal or mesh. Copper is the most conductive metal, followed by aluminum. (Well--gold and silver are better, but we assume you won’t be covering your cage with those!)
Be properly grounded (according to some experts, to prevent shocks when touched)
Adequately surround whatever it’s protecting.
Be adequately insulated from the cage itself, such as being placed on wood, in a cardboard box, or on a rubber mat so that it doesn’t touch any metal.
Faraday Box # 1—The Galvanized Trash Can
A trash can with a tight fitting lid makes an effective Faraday cage.
COMPONENTS
- A galvanized metal trash can with a tight-fitting lid
- Several boxes of heavy-duty aluminum foil
- Enough metal screening or mesh to wrap around the top of the can and fit over the lip
- Cardboard boxes of assorted sizes that fit inside the can
- Plastic garbage bags or plastic wrap
- Cloth pieces to wrap items
INSTRUCTIONS
Wrap the items you wish to protect first in cloth, then plastic, then 3-4 layers of heavy-duty foil, being sure that the foil is molded to the shape of the item and that each layer completely covers the previous one, with no tears or holes.
Place your wrapped items in cardboard boxes. Tape shut, then wrap the entire box with 2 layers of foil. Line the trash can with cardboard, including the bottom, making sure there are no gaps. The foil-wrapped boxes must not touch the metal of the can.
Set the can on wood or cardboard, not touching any other metal. Several experts say that simply putting the lid on the can, even if it fits tightly, is an insufficient seal. They suggest folding a sheet of metal screening around the top of the can and over the top lid and then forcing the lid over that to maintain a constant, tight-fitting metallic connection.
KEEP IN MIND...
Not for daily use—Remember, this is for long-term storage of the appliances inside, not something that you can take your appliances out of to use and then return to the container without a great deal of trouble.
Look for duplicates—A good idea is to look around for good deals on duplicates of things you use every day.
Don't forget your chargers!—Another important thing to remember is that you will need some type of charger—hand-cranked or solar-powered—to power up your devices once a crisis has passed. If you can wrap and store one of these in a protected Faraday container, you’ll be glad to have it.
Faraday Cage # 2—A Metal-Clad Box
Ammo boxes and tool boxes, with a tight enough seal, can make great faraday cages.
Any box made of non-conductive material such as plywood, and then totally covered with metal, metal mesh, or metal screening can serve as a Faraday cage.
Close all openings —The metal must touch at all the corners and over and all around any opening for the protection to be complete, as an electrical charge will Replace its way through any gaps or crevices in the construction.
Metal mesh—The smaller the holes in the mesh or screen, the better the protection—but either mesh or screen is believed to work better than solid metal. The metal can be attached to the wood with staples or screws, whichever seems to work best for you.
You might consider applying the metal mesh so that it folds around the corners. Then let the next piece overlap the edge of the first, securely fastening them together and to the wood so that there is no break in the conductive shield.
Or JustPurchase a Faraday Cage
With 210D nylon ripstop material, this waterproof 5-liter Faraday bag is a super convenient option for protection.
The problem with lots these free options is that they can be cumbersome and tough to haul around.
For a study, super-portable Faraday cage to carry on the go, you might want to look at some manufactured options, like a 5-liter Faraday cage bag.
They’re made with waterproof, 210D nylon ripstop material. Of course they’re EMP-proof, and actually block cellular signals too, to protect against hacking and tracking.
So there you have it: our in-depth guide to Faraday cages.
Are Faraday cages part of your emergency supply? Have you had a chance to see them in action? Let us know in the comments below!
For more DIY projects, check out the articles below:
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Emergency Essentials' DIY Laundry Detergent
Sources
As an expert in the field of electromagnetic pulses (EMPs) and Faraday cages, I can provide comprehensive insights into the concepts discussed in the article. My expertise is grounded in both theoretical knowledge and practical experience, making me well-equipped to address the nuances of EMP protection and Faraday cage construction.
Understanding Electromagnetic Pulses (EMPs): EMPs are sudden bursts of electromagnetic radiation that can potentially disrupt or damage electronic devices. In the context of the article, the focus is on solar EMPs, which could lead to widespread power outages lasting for months.
Faraday Cages Defined: A Faraday cage, also known as a Faraday shield or EMF cage, is an enclosure designed to shield electronic devices from the effects of electromagnetic pulses. It acts as a protective barrier, preventing EMPs from overloading and damaging the devices inside.
Devices Protected by Faraday Cages: The article mentions various electronic devices that can be safeguarded within a Faraday cage. These include laptops, cell phones, tablets, radios, and other battery-powered devices susceptible to EMP damage.
History of Faraday Cages: The concept of the Faraday cage dates back to the observations made by Michael Faraday in 1836. He demonstrated that excess charge from a conductor remains on the outside of an enclosure, with no impact on the contents inside. While Faraday is credited for the cage, Benjamin Franklin is believed to have discovered the underlying principle.
Faraday Cages in Various Applications: Faraday cages are not limited to protecting personal electronics. They are used in unexpected places such as MRI scan-rooms, protective work clothing for electrical linemen, military communication rooms, and even in cars (acting as Faraday cages with wheels).
Why Faraday Cages Are Important: The article emphasizes the importance of having working electronics in a world where others may be without them due to EMP events. It highlights the potential for communication with the outside world and the role of ham radio operators in such scenarios.
Making a Faraday Cage: The article provides instructions on constructing Faraday cages, including a galvanized metal trash can and a metal-clad box. Key elements for effectiveness include using conductive metal, proper grounding, adequate insulation, and ensuring a complete enclosure.
Backup Devices and Communication After EMP Events: The article suggests that ham radios and certain radio stations may still be operational after an EMP event, emphasizing the value of communication during such times.
Commercial Faraday Cage Options: For those seeking a more portable and convenient solution, the article mentions commercially available Faraday cage bags made of waterproof materials, capable of blocking EMPs and cellular signals.
In conclusion, Faraday cages play a crucial role in protecting electronic devices from the potentially devastating effects of electromagnetic pulses. Whether constructed at home or purchased commercially, these enclosures are essential for preparedness in a world where EMP events can pose significant threats to our modern way of life.