WaveMon – EMF Personal Monitor
The WaveMon is a personal electromagnetic field monitor. Its main function is to monitor the user’s exposure. For that purpose, it should be carried close to the body to provide a warning in the event of overexposure.
It may also be placed in other locations to warn of high field strength in areas of special interest that we wish to monitor. The warning is given by means of audible signals (beeps), vibration and visible signals (LEDs). The WaveMon can measure field strength continuously and store readings in its internal memory. It has a capacity to store up to 1,000,000 readings.
There are 3 variants of the Wavemon personal RF monitor: RF-8, RF-60 and LF-400
Product Datasheets:
The WaveMon is a personal electromagnetic field monitor. Its main function is to monitor the user’s exposure. For that purpose, it should be carried close to the body to provide a warning in the event of overexposure.
It may also be placed in other locations to warn of high field strength in areas of special interest that we wish to monitor. The warning is given by means of audible signals (beeps), vibration and visible signals (LEDs). The WaveMon can measure field strength continuously and store readings in its internal memory. It has a capacity to store up to 1,000,000 readings.
There are 3 variants of the Wavemon personal RF monitor: RF-8, RF-60 and LF-400:
- WaveMon RF-8 monitors E-field up to 8 GHz and H-field up to 1 GHz.
- WaveMon RF-60 monitors E-field up to 60 GHz
- WaveMon LF-400 monitors H-field at DC and from 10 Hz to 400 kHz.
Warnings are given based on instantaneous field values. However, measurements are taken continuously and stored in memory to make it possible to check whether exposure has exceeded the permitted limits, to what extent, when and where (geographical position and altitude). The information stored in memory can easily be downloaded to a PC via USB for later processing.
The WaveMon has a shaped (weighted) response to specific standards.
It is not a single model trying to follow all standards at the same time.
That approach will inevitably result in a lack of accuracy.
It is available in different models with specific shaping to follow each standard, for increased accuracy.