"Maybe the power lines made her jumpy"

-Our five year old daughter, Lisa, had trouble falling asleep at night. We read stories to her and cuddled her, but she still tossed and turned. Our family life was happy, and the doctor said she was a perfectly healthy little girl, so we decided to do some research on our own. We learned that potentially hazardous electromagnetic fields can cause all sorts of problems. These fields can vary dramatically from one spot to another, even in a small room. We bought an electromagnetic field meter and found "hot spots" near Lisa's bed that were caused by a transformer outside. The solution was simple: we moved the bed across the room, and Lisa's been having sweet dreams ever since."


MOVING? - Make sure to check electromagnetic field levels before you sign. Also moving or not, check levels in bedrooms, make sure beds are in low radiation areas

The TriField Meter

The TriField Meter combines all the features needed for fast, accurate measurements of electromagnetic pollution. It independently measures electric field and magnetic field, and is properly scaled to indicate the full magnitude of currents produced by each type of field inside the human body. As a result, it "sees" much more than any other electromagnetic pollution meter. Depending on where the knob is set, it detects either frequency-weighted magnetic fields (two separate scales), or frequency-weighted electric fields in the ELF and VLF range. It has significant sensitivity at 100,000 Hz, well past the 17,000 Hz horizontal scan of video displays. It's radio\microwave setting can detect up to three billion Hz (3 GHz), which lets you gauge radiowave power, CB and cellular phone equipment, and many types of radars.

This meter is the only one which combines magnetic, electric, and radio/microwave detectors in one package, so that the entire nonionizing electromagnetic spectrum is covered. In addition, the magnetic setting and the electric setting measure true magnitude, a feature found elsewhere only in more expensive meters. If you hold the meter in the center of a room and tip it to various angles, the magnetic reading will stay approximately the same regardless of which way you tip or rotate it. The electric reading is similar, although the presence of your body alters the actual electric field, so readings will vary more. The radio/microwave setting reads the full power of radiowaves when the meter is pointed toward the source.

Surprisingly, the standard TriField Meter is one of the least expensive meters available. The magnetic section of the TriField meter has three field-detecting coils pointing in the X, Y, and Z directions. A circuit amplifies these signals and gives them the proper frequency-weighting (sensitivity increases linearly from 30 Hz to 500 Hz, but with some residual sensitivity up to 100 MHz). A unique network combines the three coil outputs nonlinearly to approximate a true magnitude. The meter is sensitive from 0.2 to 100 milligauss full scale at 60 Hz (or 0.1 to 50 milligauss full scale at 120 Hz, etc.) with a resolution of 0.2 milligauss in the sensitive range. Accuracy is +/-20% at mid-range.

The TriField Meter comes with a one-year warranty and a 9-volt transistor battery included. This type of battery lasts about 10 hours (total measurement time). When the BATTERY TEST reads low, the battery can be replaced with any rectangular 9 volt transistor or alkaline (which lasts about 50 hours) type. This meter is manufactured in the USA. TriField is a registered trademark of W.B. Lee.

USING THE TRIFIELD METER

A knob on the front has six positions: OFF, BATTERY TEST, two MAGNETIC field sensitivities (0.5-100 milligauss at 60 Hz, and 0.2-3 milligauss at 60 Hz, the second sensitivity to measure weak fields more accurately), ELECTRIC field and RADIO/MICROWAVE power density. The meter face is analog (needle type). A needle reading of one-third of full scale corresponds to either 3 milligauss (or 0.6 milligauss) @ 60 Hz, 3 kilovolts/meter @ 60 Hz, or 0.04 mW/cm2 respectively in the magnetic, electric, and radio/microwave field settings. Long-term personal exposure to levels higher than these should probably be avoided, so the meter is labeled "HIGH" above these levels. Unfortunately, because of uncertainty of population studies, any true health-effect threshold may be as low as 1 milligauss or as high as 10 milligauss.

MAGNETIC FIELD DETECTION

In most homes or offices, some areas are "hot" spots with readings in the HIGH range. Most often, this is caused by magnetic fields, which come largely from unpaired internal wiring. (Contrary to popular belief, power transmission lines and transformers do not generally contribute as much magnetic field as does internal wiring.) Other magnetic sources include video displays, motorized clocks and other equipment, electric blankets and heaters, fluorescent lights and light dimmers, and the transformers that are inside consumer devices. Many of the effects are from frequencies that are harmonics or multiples of 60 Hz (120 Hz, 180 Hz, etc.) and 17,000 Hz of video displays. Cars (especially near the front floorboard of electronic ignition cars) and motorcycles have fairly strong fields that are at frequencies higher than 60 Hz. Magnetic field is difficult to shield, but sheet steel is somewhat effective.

ELECTRIC FIELD DETECTION

A few areas in most homes read HIGH in the electric field setting. These include areas near improperly grounded equipment, the front of video screens, and fluorescent lights. Most of these fields can be easily shielded using a grounded metal screen or foil; VDT screens of this type are readily available. You can greatly reduce the strength of an electric field just by placing your hand in front of the source. This effect can be seen using a TriField meter.

MICROWAVE DETECTION

Occasionally, certain areas read HIGH in the radio/microwave setting. These include door seals around microwave ovens, and cellular phones (but not regular radio phones, which are very low-power). Radio/microwaves can be shielded in the same way as electric fields, although the lower frequency radio waves are not shielded by your hand as easily as microwaves are. (Metal screens will shield both.) In the United States, radars and FM transmitters can legally expose residents to moderately high power levels (as high as 10 mW/cm2 briefly), but such exposure is not common.

AVOIDING RISK

By seeing "hot" spots in your home and office, you can move furniture, cribs, or beds to reduce exposure. You can also take corrective action to avoid long term exposure to appliances that emit high electromagnetic pollution levels. If you have unusual sensitivity to a particular type of field, you can identify where problems exist. Wearers of pacemakers should avoid even brief exposure to high radio/ microwave power levels. Some evidence suggests that brief exposure to very high AC electric or magnetic fields may cause nervousness or seizures in some people.

This meter has three easy-to-read scales, red-lined to show field levels that may be harmful. It measures electric and magnetic and radio and microwaves in the X, Y and Z axes simultaneously, without tipping and turning the meter. Test microwave oven door gaskets, appliances, cellular phones, computers, TVs and other electronic equipment.

Instead of simply rendering actual milligauss fields present, the TriField compensates for differences among magnetic field frequencies to accurately indicate the electrical currents induced within the human body. Measures electrical and magnetic fields from 50 Hz to 100 KHz, radios from 30 MHz to 3 GHz. All in all, you get a tremendous amount of information considering the TriField Meter's low price. Includes l- year limited warranty, 9V battery, and instructions.


Reducing, Shielding, or Counteracting the Hazards
The most reliable way to protect yourself is to measure, identify, and avoid all fields

Electromagnetic Fields: What You Don't Know Can Hurt You