Description

Medidor de Intensidad de Campo para Monitoreo de EMF: cMonitEM

Monitor RF Compacto

Monitorización 24/7

  • Control continuo de los niveles de exposición a NIR;

Interior/exterior

  • Ideal para uso en interiores y exteriores a nivel de calle.
Data SheetMore Information

Medidor de Intensidad de Campo Wavecontrol

cMonitEM devices can be optionally used together with a web server using software that is unique on the market and allows remote configuration and management of the monitoring equipment, data consultation and report generation, among other functions. It also offers the option of a public Internet page to display data and compare it easily with regulated limits.

Selective broadband

  • Specific services: mobile phone signal, WiFi;

More information

  • Optional software for system management;
  • Management and configuration of equipment;
  • Data reception, consultation and storage;
  • Report generation and automatic delivery;
  • Display of photographs and diagrams;
  • User friendly, with google maps positioning.

Control Center

Comunicación Remota

El módem incorporado permite la comunicación remota de los resultados al Centro de Control para el almacenamiento y consulta, gestión y parametrización del equipo, generación automática de informes y visualización de resultados a través de Internet. La comunicación pública es fácil, comprensible y visual, utilizando fotos, diagramas y Google Maps.

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Monitoreo 24/7

Control continuo de campos electromagnéticos (EMF) tanto en interiores como en exteriores para la evaluación de la exposición a radiación no ionizante (NIR) de señales de teléfono móvil o Wi-Fi.

Sistema de Alarma

Comunicación Remota

Energía AC

1

2

3

Instalación

Especialmente diseñado para uso en interiores y exteriores a nivel de calle o en áreas con poca iluminación, por lo que no se alimenta con un panel solar como su hermano mayor MonitEM, sino con energía AC.

  • Control de Wi-Fi en escuelas;
  • Emisiones de antenas en centros comerciales, etc.

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WiFi: Monitoreo de niveles de exposición a NIR de señales Wi-Fi

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Móvil: Monitoreo de niveles de exposición a NIR de señales de teléfono móvil

Resistente a Condiciones Climáticas Extremas

Los dispositivos MonitEM tienen una clasificación de protección ambiental IP 66, la más alta en su clase. Una clasificación de protección IP 66 es indispensable para equipos que deben permanecer permanentemente al aire libre, expuestos a tormentas y partículas en el aire. Ese alto grado de protección asegura que el equipo se mantendrá en buen estado de funcionamiento durante años, lo que reduce los costos de mantenimiento y aumenta la fiabilidad.

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wavecontrol

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Soluciones a medida para múltiples sectores

Automotive

Drivers and passengers of automotive vehicles are exposed to significant low-frequency magnetic fields emitted by different electrical and electronic components in these vehicles. With a higher demand for electric cars to minimize pollution and enforce decarbonization, there is an increased EMF risk which must be assessed to ensure that the vehicle users are safe from overexposure to EMF.

International organizations and car manufacturers have developed standards to check that automotive vehicles comply with national and international EMC safety regulations. This assessment must be done from DC to 400 kHz. Some of the standards that define these procedures for assessing LF magnetic fields in vehicles include IEC 62764, GB/T 37130, MBN 10284-2, PSA-MR02 B217110 and many others.

Industry

Workers’ exposure to electromagnetic fields must be monitored for their safety in a wide range of industrial areas, machinery and manufacturing processes. Some examples include induction heating, welding systems and processes, radio frequency (RF) heating, tempering and drying equipment, chemical processes (electrolysis), etc.

Home appliances also generate electromagnetic fields that must be measured and evaluated before they can be put on the market. The applicable reference standards include: EN 50519 (induction heating), IEC/EN 62822-1, IEC/EN 62822-2 and IEC/EN 62822-3 (welding), IEC 62233 (household appliances), IEC 62493 (lighting), EN 50527 (workers bearing active implantable medical devices), etc.

Energy

Low frequency electromagnetic fields are associated mainly with the supply of electricity, through the generation, distribution and use of alternating current (AC), and they are always present in our surroundings. Electricity operates at the frequency of 50 Hz or 60 Hz, depending on the country.

Electric power stations, high- and medium-voltage lines, transformers, electric motors and railway lines are the main sources of these electromagnetic fields. The applicable reference standards include: IEC/EN 62110 (AC power systems), IEC 61786-1 and IEC 61786-2 (measurement of DC and AC fields from 1 Hz to 100 kHz).

Defense

The main sources of electromagnetic radiation in the area of defense are radar stations, satellite equipment, communication equipment, etc. The SMP2 is particularly suitable thanks to its high-speed digital processing that ensures the ability to detect peaks of up to 1 µs. It can also detect isolated very high amplitude peaks thanks to a special self-scaling function that adapts the device’s dynamic margin (amplification) to the necessary levels.

In the area of defense we can find electric and magnetic fields of low frequency, from communications equipment working at several kilohertz (kHz) up to gigahertz (GHz). The SMP2 + WP400 + WPF18 combination is ideal in this case because it can cover the 1 Hz – 18 GHz frequency range with just two probes.

Laboratories R+D

Electric/electronic laboratories normally use radiofrequency equipment and the levels of electromagnetic radiations can therefore be high. This makes it necessary to ensure workers’ safety in connection with exposure to those electromagnetic fields.

To ensure that permitted levels of exposure are not exceeded, the ideal devices are broadband meters that can measure total exposure over the working frequency range of the equipment used. The ideal solution is the SMP3 + the WPF probe that is best suited to the frequency range in question. Wavecontrol also produces continuous measurement systems with built-in alarm, based on the MonitEM devices, designed for monitoring exposure in this sort of facility.

Detection of articles and persons (RFID/EAS)

Radio frequency identification (RFID) and electronic article surveillance (EAS) systems are commonly used in public spaces, generating complex electric fields.

People who work in spaces near those systems are exposed more intensely than people who are passing through them. Most of those systems work in the low frequency range. The reference standards applicable to exposure to RFID/EAS are: EN 50364 and IEC/EN 62369-1.

Telecommunications

Cell phone systems, broadcasting systems and other communication systems are the main sources of electromagnetic radiation in this area. Measurements are sometimes taken under far field conditions, where use of an E (electric) field probe will be sufficient (e.g. WPF8). With low frequency transmitters, we may find ourselves in near field conditions and so the H (magnetic) field will also have to be measured (e.g. WPH60).

It is important that personnel who access telecommunication infrastructures or climb towers with radiating elements, do so with personal protective equipment such as the WaveMon personal monitor, to avoid overexposure.

Some international reference standards are: IEC 62232 and EN 50492 (base stations), EN 50496, EN 50554, EN 50475 and EN 50476 (broadcasting), EN 50400 and EN 50401 (radio communication equipment).

Electromedicine

Magnetic resonance equipment, diathermy and hyperthermia equipment, and electrosurgery equipment are the main sources of electromagnetic radiation in the medical industry.

The medical staff using that equipment or working in nearby spaces are exposed more intensely than patients or people who are passing through, and so exposure within the radius of influence of that equipment must be evaluated and controlled. This includes measurements at low and high frequencies using the suitable devices and probes with isotropic response and RMS. The applicable standard is IEC 60601.

Railway

Electricity is very important in the rail industry, since it allows trains to move quickly, quietly, comfortably and with little pollution. High-power and low-frequency energy is used for moving trains and radio frequencies (RF) are used for communication.

People’s exposure to electromagnetic fields both inside and outside trains, near communication systems and in stations must be controlled. The standard EN 50500 defines procedures for measuring the levels generated in the rail industry in connection with human exposure.

Recomendación ITU-T K.83

Monitoreo de niveles de campos electromagnéticos.

La Recomendación ITU-T K.83 proporciona directrices para tomar mediciones a largo plazo para el control de campos electromagnéticos (EMF) en áreas seleccionadas de interés público, con el fin de mostrar que esos campos están bajo control y permanecen dentro de los límites establecidos. El objetivo de esa Recomendación es proporcionar al público en general información clara y fácilmente accesible sobre los campos electromagnéticos presentada en forma de resultados de medición continua.

Download ITU-T K.83

Wavecontrol Distributors

Worldwide presence for your convenience, more than 50 distributors spread all over the planet.
Contact us directly and discover the best EMF solution for your company.

Nuestra Dirección

Wavecontrol S.L.

Carrer de Pallars 65-71 08018, Barcelona – España

Unión Europea
info@wavecontrol.com
+34 933 208 055

Wavecontrol Inc.

101 Eisenhower Pkwy Suite 300 Roseland, NJ 07068-1054

Estados Unidos de América
sales@wavecontrol.com
+1 201 479 9022

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