What is Detex?
Detex 189 has been designed to quickly detect radiation levels at a given spot, be it your home or office. “Number 189 includes GSM 1800 and GSM 900 bands. It is used to measure cumulative power in the frequency range of 800 MHz to 4 GHz,” says Girish Kumar, professor, Electrical Engineering Department, IIT Bombay, who is the creator of this product. Detex displays safe, cautionary and danger levels, as recommended by the Bio-Initiative 2007 report and further underscored by the Bio-Initiative 2012 report.
“Cell-tower radiation power can be generally measured by spectrum analysers and broadband antennae. However, these are expensive devices. Besides, they do not give the cumulative power at that location and are also not easily portable,” says Girish Kumar, informing about the main reasons that prompted him to design such a solution. He adds that it took him approximately one year to fully develop Detex 189.
The cell tower radiation detector has a planar broadband elliptical monopole antenna, explains Prof. Kumar. The antenna has been designed to cover the frequency range of 800 MHz to 4 GHz, which covers the CDMA, GSM 900, GSM 1800, 3G, 4G and Wi-Fi/WLAN/Bluetooth bands. He explains that, “The antenna is integrated with the rest of the circuit, which consists of a broadband impedance matching network, a voltage doubler circuit that uses Schottky diodes, and various threshold level testing circuits.”
A telescopic extender (monopod) is supplied with this unit to avoid any discomfort in detecting radiation seepage from ceiling or vents located high on the walls. To detect radiation levels at hard-to-reach areas, the telescopic extender should be screwed to the 1/4-20 TPI socket (located at the bottom of the unit).
One needs to hold the device up vertically at the bottom and move around the room to detect the radiation seepage from the walls, ceilings, windows, doors and vents. The device can also be used to continuously monitor and detect radiation levels. The in-built broadband impedance matching network, the voltage doubler circuit that uses Schottky diodes, and the multiple threshold-level testing circuits, work in tandem to detect the radiation level, which is then output to the device’s LEDs as programmed.
The radiation levels are indicated by three LEDs—green, yellow and red. If only the green LED lights up, it indicates a safe level of radiation. If the yellow as well as the green LED light up, it indicates the ‘caution’ level of radiation and, simultaneously, the buzzer starts beeping intermittently. If all three LEDs light up, it implies a dangerous level of radiation and the buzzer will start beeping continuously.
What the different LED colours mean
Indication of measured microwave power in the frequency range of 800 MHz to 4 GHz by different LED colours has been decided after interacting with hundreds of people where measurements have been carried out, and interviewing them about possible health hazards experienced by them or their family members and colleagues, Prof. Kumar reports. For radiations below -30 dBm, most people report no health problems, so this is indicated by the green LED. However, there are reports that some electro-sensitive individuals do experience adverse health effects even at radiation levels as low as -40 dBm to -50 dBm.
Between -30 dBm and -15 dBm, some individuals complain of headaches, sleep disturbances, joint pain, memory loss, stress, fatigue, skin rashes and even miscarriages over a few years of exposure, so this is indicated by a yellow LED. Above -15 dBm, many individuals have reported the above-mentioned health problems within a year of exposure and a few cases of cancer have been observed within a few years; so this is indicated by the red LED. The above health effects are based on individual sensitivity or immunity.
What to do if radiation levels are high
If cell-tower radiation is high at your premises, which is indicated by the red LED and/or the yellow LED, you can request your government or telecom regulatory body to adopt stricter radiation norms. You can also request cell operators to reduce the transmitted power, ask them to change the direction of the transmitting antenna or even remove the tower. It is possible that the above options may take time to get implemented. Meanwhile, you can take the following precautions.
- Avoid places where there is high radiation, especially when the red LED is ‘on.’
- Try to spend as little time as possible where radiation is high, indicated by the red and/or yellow LED.
- You can ‘shield’ your place, if the radiation level is high. these ‘shields’ reduce the radiation levels considerably, which can be confirmed with Detex 189. NESA also provides shielding solutions in the form of cell-phone tower-radiation-absorbing fabric curtains, wall papers, window film glass, personal shields and pregnancy aprons. The different kind of shields might sound ordinary but they are integrated with built-in CML (capacitive matched load) electronic chips to absorb the radiation. A reduction in radiation of more than 99 per cent for curtains and wallpapers, and about 95 to 97 per cent for window film glass, is claimed by NESA.
In the future
“We are planning to add more features to it, such as a digital display and more LED displays,” says Prof. Kumar. He adds, “We are in the process of filing for patents too.” The product has been designed and tested at Antenna Lab, IIT Bombay. The technology has been transferred for mass manufacturing to NESA Radiation Solutions Pvt Ltd, and the product will be sold exclusively by it. The company has already sold a number of units.
The author is a tech correspondent at EFY Bengaluru