(A). RF energy can heat body tissue and cause burns. It is important to use proper precautions against excessive exposure to high amounts of RF energy. Just remember that Microwave ovens use RF energy to cook food!

If RF radiation is absorbed by the body in large enough amounts, it can produce heat. This can lead to burns and body tissue damage. Although RF radiation is not thought to cause cancer by damaging the DNA in cells the way ionizing radiation does, there has been concern that in some circumstances, some forms of non-ionizing radiation might still have other effects on cells that might somehow result in cancer.

American Cancer Society: Radiofrequency (RF) Radiation

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All of the choices listed (duty cycle, power density, and signal frequency) are factors in estimating whether an RF signal will exceed the maximum permissible exposure (MPE).

Maximum Permissible Exposure (MPE) is the maximum level of radiation to which a person may be exposed without hazardous effects or biological changes in the eye or skin. The MPE is determined by the wavelength, the energy involved, and the duration of the exposure.

MPE is according to field strength and power density limits based on whole-body Specific Absorption Rate (SAR) averaging concepts that are used for evaluating the exposure conditions of fixed and mobile exposure conditions. SAR compliance is with respect to both whole-body and partial body SAR limits.

Think of defrosting chicken breasts in a microwave oven (which uses RF energy to cook food): below the MPE the chicken thaws, above the MPE the chicken COOKS!

FCC: § 1.1310 Radiofrequency radiation exposure limits.

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All of the methods listed are good ways to make sure that your station complies with FCC RF exposure regulations.

Computer resources are available to make the job easier. It is important to follow good engineering and electrical safety practices to make sure your station does not put you at risk of RF exposure in excess of the maximum permissible exposure (MPE)

To see these guidelines, here is the link to the FCC for downloading the FCC OET Bulletin No. 65 (August 1997): Evaluating Compliance With FCC Guidelines for Human Exposure to Radiofrequency Electromagnetic Fields

• Download:
  • Bulletin
    • oet65.wp (753221) (WordPerfect 5.1)
    • oet65.pdf (390141) (Adobe®Portable Document Format)
  • Supplement A
    • oet65a.wp (1093334) (WordPerfect 5.1)
    • oet65a.pdf (462426) (Adobe®Portable Document Format)
  • Supplement B
    • oet65b.wp (521045) (WordPerfect 5.1)
    • oet65b.pdf (561202) (Adobe®Portable Document Format)
  • Supplement C
    • oet65c.doc (454 KB) Revised (6-29-01) (Word)
    • oet65c.pdf (187 KB) Revised (6-29-01) (Adobe®)
  • Public Notices
    • Bulletin 65 Revision
    • Supplement C to Bulletin 65 Revision

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Because the amount of time that a person is subjected to sources of RF radiation is important in determining the safe amount of RF exposure (the greater the exposure time, the less RF you should be exposed to over that period), the FCC uses a "time averaging" method for calculating the limits for Maximum Permissible Exposure (MPE), or looking at the total RF exposure averaged over a certain time.

They look at the different factors that affect RF dose and set limits based on either a 6 or 30 minute time-averaged exposure period. As an example of how voltage affects RF dose over time, a microwave oven (which uses RF energy to cook food) can safely thaw a pound of chicken at 10% power for 5 minutes and not be completely thawed, however, those same 5 minutes at 100% power will burn your popcorn!

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If you find that your station shows RF energy in excess of permissible limits, you must take action to prevent human exposure to the excessive RF fields, which may cause tissue damage and RF burns.

Reducing the total RF exposure may be accomplished by reducing any or a combination of factors:

• Reduce power
• Move your antenna
• Move the RF source farther away from possible contact
• Improve shielding or insulation.

All of these can help

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The standard requirement is that it is mandatory for ALL transmitting stations, with timed exposure greater than 1 milliwatt, to conduct an RF Exposure Evaluation on their stations. The FCC does however give a few exemptions to this rule, if you meet that criteria the RF Exposure Evaluation is not required.

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The duty cycle refers to the amount of time you are actually transmitting. No transmitter is exempt from RF exposure requirements.

CW and phone operations only use intermittent power (you are sending part of the time, pausing to listen or receive), so these are lower duty cycle transmissions.

Data transmissions such as RTTY and packet use much closer to 100% power duty cycles.

Because the lower duty cycle transmissions use less RF energy over time (e.g. 20-60% instead of 100%), they permit a greater short-term exposure level.

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Routine RF exposure tests must be performed to make sure that our amateur station does not produce RF doses higher than the maximum permitted exposure (MPE). You need to know that you are not going to expose yourself or others who may be near your station.

FCC: 47 CFR § 97.13 - Restrictions on station location.

Here are links to FCC OET Bulletin 65 which outline testing for RF exposure:

• Download:
  • Bulletin
    • oet65.wp (753221) (WordPerfect 5.1)
    • oet65.pdf (390141) (Adobe®Portable Document Format)
  • Supplement A
    • oet65a.wp (1093334) (WordPerfect 5.1)
    • oet65a.pdf (462426) (Adobe®Portable Document Format)
  • Supplement B
    • oet65b.wp (521045) (WordPerfect 5.1)
    • oet65b.pdf (561202) (Adobe®Portable Document Format)
  • Supplement C
    • oet65c.doc (454 KB) Revised (6-29-01) (Word)
    • oet65c.pdf (187 KB) Revised (6-29-01) (Adobe®)
  • Public Notices
    • Bulletin 65 Revision
    • Supplement C to Bulletin 65 Revision

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The most cost-effective and accurate way to measure an RF field around your equipment is to use a field-strength meter and antenna, both of which have been properly calibrated for the range of RF energy being measured.

Hint: The words "field strength" are in both the question and the answer.

Wikipedia: Field strength meter

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You should always try to avoid pointing a directional antenna directly toward nearby people. Steps must be taken to make sure that the antenna cannot be directly pointed in their direction, such as marking the conflict points on your antenna rotator control, so that you do not use that directional heading.

Title 97 §13(c)(2) states:

If the routine environmental evaluation indicates that the RF electromagnetic fields could exceed the limits contained in §1.1310 of this chapter in accessible areas, the licensee must take action to prevent human exposure to such RF electromagnetic fields.

ARRL: RF Radiation and Electromagnetic Field Safety

FCC: Radio Frequency Safety

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You should use testing equipment (calibrated field-strength meter and calibrated antenna) to make sure that the maximum permissible exposure (MPE) limits are not exceeded.

ARRL: RF Radiation and Electromagnetic Field Safety

FCC: Radio Frequency Safety

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Determination of exemption.

(i) For single RF sources (i.e., any single fixed RF source, mobile device, or portable device, as defined in paragraph (b)(2) of this section): A single RF source is exempt if:

(A) The available maximum time-averaged power is no more than 1 mW, regardless of separation distance.

https://www.ecfr.gov/current/title-47/chapter-I/subchapter-A/part-1/subpart-I/section-1.1307#p-1.1307(b)

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