Standards Library

Terms associated with electromagnetic compatibility (EMC) and electromagnetic environmental effects (E3) are defined in this standard, including electromagnetic pulse (EMP), and electrostatic discharge (ESD) terms. Quantities, units, multiplying factors, symbols, and abbreviations are covered.

This immunity measurement and measurement instrumentation specification document complements the recommended procedures for making emission measurements as specified in ANSI C63.4. The immunity methods are alternative methods that might be of use to manufacturers who want to ensure a reliable(...)

Based upon ESD events on electronic equipment in actual-use environments, a process to establish ESD test criteria is provided. Test procedures for highly repeatable ESD immunity evaluation of tabletop and floor-standing equipment are described. Simulator characteristics for hand/metal and(...)

Specific test procedures for verifying the compliance of unlicensed personal communications services (UPCS) devices (including wideband voice and data devices) are established including applicable regulatory requirements regarding radio-frequency emission levels and spectrum access procedures.

Uniform methods of measurement for compatibility between hearing aids and wireless communications devices are set forth in this standard.

Uniform methods of measurement for compatibility between hearing aids and wireless communications devices are set forth.

Uniform methods of measurement for compatibility between hearing aids and wireless communications devices are set forth. American national standard methods are used for the measurements.

Uniform methods of measurement for compatibility between hearing aids and wireless communications devices are set forth.

Electromagnetic compatibility techniques and requirements for instruments measuring quasi-peak, peak, RMS, and average values for electrical and electronic equipment for various applications are provided.

Electromagnetic compatibility techniques and requirements for instruments measuring quasi-peak, peak, rms, and average values for electrical and electronic equipment for various applications are provided in this standard.

U.S. consensus guideline for automation of conducted and radiated EMI compliance measurements is provided in this guide. This document does not include mandatory specifications for automation tools (i.e., application software, automated test equipment, computers and peripherals). Where(...)

Methods for estimating measurement uncertainty of emissions measurement results are provided, for use in conjunction with the basic methods of ANSI C63.4. Included in this document are both Type A and Type B uncertainty evaluation methods.

This standard sets forth uniform methods of measurement of radio noise emitted from low-voltage electrical and electronic equipment, including digital and other information technology equipment (ITE), in the frequency range of 9 kHz to 40 GHz. Methods for the measurement of radiated and(...)

Uniform methods of measurement of radio noise emitted from low-voltage electrical and electronic equipment, including digital and other information technology equipment, in the frequency range of 9 kHz to 40 GHz are set forth. Both unintentional and certain intentional radiators are included.(...)

U.S. consensus standard methods, instrumentation, and facilities for measurement of radio-frequency (RF) signals and noise emitted from electrical and electronic devices in the frequency range 9 kHz to 40 GHz are specified. This standard does not include generic nor product-specific emission(...)

U.S. consensus standard methods, instrumentation, and facilities for measurement of radio-frequency (RF) signals and noise emitted from electrical and electronic devices in the frequency range 9 kHz to 40 GHz are specified. This standard does not include generic nor product-specific emission(...)

This Standard covers U. S. consensus standard methods, instrumentation, and facilities for measurement of radio-frequency (RF) signals and noise emitted from electrical and electronic devices in the frequency range 9 kHz to 40 GHz are specified. It does not include generic nor product-specific(...)

Methods for determining antenna factors of antennas used for radiated emission measurements of electromagnetic interference (EMI) from 9 kHz to 40 GHz are provided. Antennas included are linearly polarized antennas such as loops, rods (monopoles), tuned dipoles, biconical dipoles, log-periodic(...)

Methods for determining antenna factors of antennas used for radiated emission measurements of electromagnetic interference (EMI) from 9 kHz to 40 GHz are provided. Antennas included are linearly polarized antennas such as loops, rods (monopoles), tuned dipoles, biconical dipoles, log-periodic(...)

Methods for determining antenna factors of antennas used for radiated emission measurements of electromagnetic interference (EMI) from 9 kHz to 40 GHz are provided. Antennas included are linearly polarized antennas such as loops, rods (monopoles), tuned dipoles, biconical dipoles, log-periodic(...)

Shows the basis for the acceptability criterion of +or-14 dB for the site attenuation measurements required in ANSI C63.4-1988. This covers measurement methods for emissions from low voltage electrical and electronics equipment in the range of 10 kHz to 1 GHz.

The basis for the acceptability criterion of /spl plusmn/4 dB for the site attenuation measurements required in ANSI C63.4-1992 is provided.

Information that is useful in constructing an open-area test site (OATS) used to perform radiated emission measurements in the frequency range of 30-1000 MHz is provided. Final validity of the test site can only be made by performing site attenuation measurements as described in ANSI C63.4-1992.

Information that is useful in constructing an open-area test site used to perform radiated emission measurements in the frequency range of 30 MHz to 1000 MHz is provided. Final validity of the test site can only be made by performing site attenuation measurements as described in ANSI C63.4-2003.

This standard provides recommended test methods and limits for assuring the radio frequency (RF) immunity of office equipment to general use transmitters with transmitter power up to 8 watts.

Recommendations to protect against harmful effects in human beings exposed to electromagnetic fields in the frequency range from 3 kHz to 300 GHz are provided in this standard. These recommendations are intended to apply in controlled environments and for general population exposure. These(...)

This amendment to IEEE Std C95.1-2005 specifies ceiling values for induced and contact current requirements, clarifies distinctions between “localized exposure” and “peak power density.

Symbols to inform people about the presence of potentially hazardous levels of radiofrequency energy or the presence of contact current hazards in the frequency range of 3 kHz to 300 GHz are specified. Guidance is given about how these symbols should be used on warning signs and labels.

Techniques and instrumentation for the measurement and computation of potentially hazardous electromagnetic (EM) fields both in the near field and the far field of the electromagnetic source are specified. The specifications previously set forth in IEEE Std C95.3-1991 are extended and(...)

Techniques and instrumentation for the measurement and computation of electric, magnetic, and electromagnetic (EM) fields in the near field of an EM field source are presented in this recommended practice. Descriptions of the concepts, techniques, and instruments that can be applied to the(...)