HOME

TheInfoList



OR:

Electromagnetic field monitors measure the exposure to electromagnetic radiation in certain ranges of the electromagnetic spectrum. This article concentrates on monitors used in the telecommunication industry, which measure exposure to radio spectrum radiation. Other monitors, like extremely low frequency monitors which measure exposure to radiation from
electric power Electric power is the rate at which electrical energy is transferred by an electric circuit. The SI unit of power is the watt, one joule per second. Standard prefixes apply to watts as with other SI units: thousands, millions and billions o ...
lines, also exist. The major difference between a "Monitor" and a "Dosimeter" is that a Dosimeter can measure the absorbed dose of ionizing radiation, which does not exist for RF
Monitors Monitor or monitor may refer to: Places * Monitor, Alberta * Monitor, Indiana, town in the United States * Monitor, Kentucky * Monitor, Oregon, unincorporated community in the United States * Monitor, Washington * Monitor, Logan County, West Vir ...
. Monitors are also separated by "RF Monitors" that simply measure fields and "RF Personal Monitors" that are designed to function while mounted on the human body.


Introduction

Electromagnetic field monitors, as used in the cellular phone industry, are referred as "personal RF safety monitors", personal protection monitors (PPM) or RF exposimeters. They form part of the personal protective equipment worn by a person working in areas exposed to radio spectrum radiation. A personal RF safety monitor is typically worn either on the torso region of the body or handheld and is required by the
occupational safety and health Occupational safety and health (OSH), also commonly referred to as occupational health and safety (OHS), occupational health, or occupational safety, is a multidisciplinary field concerned with the safety, health, and welfare of people at wor ...
acts of many telecommunication companies. Most of the scientifically proven RF safety monitors are designed to measure the RF exposure as a percentage of the two most common international RF safety guidelines: International Commission on Non-Ionizing Radiation Protection ( ICNIRP) guidelines and the U.S. Federal Communications Commission (FCC). The ICNIRP guidelines are also endorsed by the WHO. RF personal safety monitors were originally designed for
RF Engineer Radio-frequency (RF) engineering is a subset of electronic engineering involving the application of transmission line, waveguide, antenna and electromagnetic field principles to the design and application of devices that produce or use signals ...
s working in environments where they could be exposed to high levels of RF energy or be working close to a RF source, for example working at the top of a telecommunication tower, or working on the rooftop of a building where transmitting
antenna Antenna ( antennas or antennae) may refer to: Science and engineering * Antenna (radio), also known as an aerial, a transducer designed to transmit or receive electromagnetic (e.g., TV or radio) waves * Antennae Galaxies, the name of two collid ...
s are present. Most international RF safety programs include the training and use of RF personal safety monitors and the IEEE C95.7 specifies what is a RF Personal Monitor.http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=1611107&url=http%3A%2F%2Fieeexplore.ieee.org%2Fxpls%2Fabs_all.jsp%3Farnumber%3D1611107, title"IEEE Recommended Practice for Radio Frequency Safety Programs, 3 kHz to 300 GHz," IEEE, International Committee on Electromagnetic Safety, New York, IEEE Std C95.7, 2014 In some cases the RF safety monitor comes in a version or mode for the general public. These meters can then be used to determine areas where the public might be exposed to high levels of RF energy or used to indicate the RF level in areas where the general public has access.


Specification

The specifications of a RF monitor determines the work environment where could be applicable. Wideband RF monitors can be used at a broader variety of
base station Base station (or base radio station) is – according to the International Telecommunication Union's (ITU) Radio Regulations (RR) – a "land station in the land mobile service." The term is used in the context of mobile telephony, wireless com ...
sites than for example a narrowband, cellular RF monitor which is designed only to be used in the
mobile telephone A mobile phone, cellular phone, cell phone, cellphone, handphone, hand phone or pocket phone, sometimes shortened to simply mobile, cell, or just phone, is a portable telephone that can make and receive calls over a radio frequency link whil ...
- and data networks. IEEE Std C95.3 states that "In the region between 1-100 GHz, resistive thermoelectric dipoles are used as sensors with a background of lossy material to reduce the effect of scattering from the body. Electrically short dipoles with diode detectors as sensors may cover a portion of this range". The results of monitors which do not incorporate "lossy material" to reduce the effects of scattering, are questionable on the body. The type of response is a basic feature of any RF personal monitor and can be expressed in two basic parameters: * Directivity: Some of them have an isotropic response, which means that they are able to measure RF fields from any space direction. Others, like radial field monitors, have a partial space coverage, and have to be worn in a specific way in order to provide a correct reading. * Frequency response: ** Flat response: units that have a flat response for all the frequency range covered, i.e. the response does not change with frequency. ** Shaped response: contain frequency dependent sensors that automatically weight the detected RF fields in accordance with frequency-dependent RF exposure limits. It is common that RF personal monitors provide results as a percentage (%) of frequency-dependent limit values of a specific standard (sometimes called reference levels or MPE, maximum permissible exposure). It is important to be careful interpreting exposure during an alarm condition based on a % result; shaped response RF personal monitors will provide a result as a % of the standard, independently of the frequency, while flat response monitors will provide a result as a % of a particular value (not frequency-dependent), so it is important to know which is the particular value this % is referring to. Some RF personal monitors have different versions, shaped to each standard, so they will be more accurate, but can be used only for that standard. Others have a single version, so will be less accurate, but can be used for different standards. Usually, the alarm of most RF personal monitors is triggered by instant values, however, standard limits are specified as time-averaged values. Some RF monitors have the possibility to trigger alarms based on average values, which is a better indication of the real exposure situation (as an example, an instant value can be at 200% while the average being below 100%). As they are typically small, portable units, they are usually equipped with only a few LEDs for a rough field level indication (50%, 100%, etc). Nevertheless, some of them have a datalogger that allows to download the measurements, check for the exact values, and keep a history record of the exposures. Wavecontrol's WaveMon has available a GPS and altimeter to include position information to the data records. Other specifications that may be relevant, depending on the application are battery characteristics (lifetime, ways to change or recharge), dimensions, weight, and operating temperature. The following table shows different basic specifications of some RF monitors:


Operating instructions

Each specific personal RF safety monitor has its own operating instructions. And most of the monitors have different operating modes. For instance, the Narda Radman has a mode in which it can be body worn by the operator, but it also has a probe mode where the operator can scan certain areas to find accurate exclusion zones. The FieldSENSE on the other hand has a monitor and measure mode. The measure mode is similar to the Radman's probe mode, but the monitor mode is used by mounting the FieldSENSE onto an inactive antenna and then it is safe to work on the antenna until the FieldSENSE raise an alarm to warn RF technicians that the antenna is live and that any work on the antennas should be ceased until deactivation is confirmed. The Wavecontrol's WaveMon and Narda's RadMan 2 9can be body-worn, and used off the body as a probe or as a monitor. Most of the RF monitors such as the FieldSENSE, EME Guard, WaveMon and the RadMan 2 also have a data logging functionality that can log the RF exposure of a worker over time. The RadMan 2XT's RF detection mode with its tone search feature can locate leaks in waveguides and verify that an antenna is turned off
[30
/nowiki>">0">[30
/nowiki>br />


List of personal RF monitors

* EME Guard Plus * EME Guard XS * EME Guard XS 40 GHz * EME SPY Evolution * Narda Radman XT *Narda RadMan 2L
[29
/nowiki>">9">[29
/nowiki>*Narda RadMan 2X
[29
/nowiki>">9">[29
/nowiki>* Nardalert S3 *FieldSENSE60 * FieldSENSE 2.0 * Public FieldSENSE * SafeOne Pro SI-1100XT *WaveMon RF-8 *WaveMon RF-60


Gallery

File:MVG - EME Guard XS 40 GHz.jpg, MVG - EME Guard XS 40 GHz.jpg File:MVG - EME Guard XS.jpg, MVG - EME Guard XS.jpg File:MVG-EME Spy Evolution.jpg, MVG-EME Spy Evolution File:MVG EME Guard Plus.jpg, MVG EME Guard Plus File:Fieldsense60.jpg, FieldSENSE60 File:Copy of IMG 3371.png, FieldSENSE 2.0 File:Narda RadMan Mobile 191113.jpg, alt=Narda RadMan XT, Narda RadMan XT File:Narda RadMan 2XT.png, alt=Narda RadMan 2XT, Narda RadMan 2XT File:Narda RadMan 2LT 191113.jpg, alt=Narda RadMan 2LT, Narda RadMan 2LT File:Nardalert S3 191113.jpg, alt=Nardalert S3, Nardalert S3 File:WaveMon. RF Personal Monitor .gif, alt=Personal RF safety monitors, WaveMon RF-8 Personal RF monitor File:Wavemon, RF Personal Monitor .png, alt=WaveMon RF-60, WaveMon RF-60 Personal RF monitor File:WaveMon. RF Personal Monitors.jpg, alt=A worker using a personal RF safety monitors on a mast, near antennas., A worker using a personal RF safety monitors on a mast, near antennas.


References


{{DEFAULTSORT:Personal RF safety monitors Dosimeters Radio spectrum Radio technology, Radio waves Electromagnetic spectrum, Radio waves Electromagnetic radiation