An open Smart device for EMF/EMP monitoring in a window

Join AeonLabs Discord Server here.

The problem

change language

Nowadays many are sensitive to electromagnetic frequency radiation mainly due to excessive exposure above natural and healthy limits. There are many solutions to mitigate exposure to this kind of radiation however none have the ability to collect EMF energy values directly from a window or access door to a balcony.

This project started with simple circuit schematics for harvesting electromagnetic electricity from any radio or frequency wave that touches its antenna (see the photo below). It is composed of 4 capacitors, 4 diodes, and two wires on the other end where a multimeter is connected to do voltage measurements stored on 2 capacitors.

The idea

The smart device presented here is intended to be installed and fixed into a copper electromagnetic (EM) shield on any EM indoor window or balcony door. It has the main ability to collect EM sensor data from the curtain itself and send it to a public data repository, for instance, a #dataverse (see www.dataverse.org)

The smart safety & health solution is for the kind of wireless aggression that behaves like ripples in a pond. For instance Wireless electromagnetic radios, including those found on smartphones, tablets, WIFI routers at home, and many more.

This smart device is not able to detect wireless aggressions targeted to a person's body and individual. For instance, using some kind of beam-forming device or technologies. For example, Laser and laser-like kind of devices and kind of technologies.

When installing this smart solution, take action and be conscient the aggression/aggressor may change to other types and kinds of "wireless devices" this smart device is unable to detect.

Always use this smart device connected to a public data repository with LIVE data streams. At the same time, notify the authorities immediately and provide the web address link where the public data repository can be found. Data repositories based on Harvard's www.dataverse.org are currently the most suited (not ideal) for the smart solution provided.

Be advised

Known open data repositories partially compatible with these smart devices:

• www.dataverse.org [partial compatible] (open firmware provided here uses a dataverse repository API)
• www.figshare.com [partial compatible]
• www.datadryad.org [not compatible; no API]

Click below to view the latest revision in a web interactive viewer

—————————————————————————————————————————

Interactive view of the PCB Layout Interactive view of the circuit schematic

—————————————————————————————————————————

The immediate response and reaction, of a person that lives in the north of Portugal, and who protected herself for the first time in her life from all the electricity and magnetism that passed through the air that day was...

A feeling of cozy and comfortable warmth

It is this sensation, sensation here meaning a feeling, biosensors in the human body, that is stolen whenever someone or something attacks another person this way. It is also a feeling that indicates good health and natural rejuvenation, that is, the healing and treatment the human body does to itself all day and night, throughout life.

In the photo below you can see the placement of two protective curtains against all types of electricity and magnetism in the air, normally mentioned in conversations simply as "microwaves". And it was one of those curtains that I used to wrap the body of the person I'm talking about here in this article, before placing them on the balcony window.

We must learn about this type of invisible aggression so that health and longevity remain desirable for much longer.

Installing the Smart EMF Device

The very first prototype can be seen in the photo above and utilizes the ADS1115 from Texas Instruments to do electromagnetic measurements. This IC is a 16-bit, 4-channel, delta-sigma ADC.

Installation of this smart device is very simple and easy, after installation of the EMF-shielded curtain, the device is inserted at the bottom and inside the curtain itself (see photo below).

Those with no sleep and into "Star Wars" kind of electromagnetic games during the night, in particular using those fast drones, will have a curtain to test it, and help authorities and law enforcement to identify the criminal aggressor faster. By providing useful real-time data of all-electric "sparks" that, for some reason, are thrown directly to the window and into the shielded curtain as a sensor (see photo above).

The very first EMF value measured

After installation on the curtain of my bedroom window, the smart device began monitoring for any electromagnetic abnormality during the night and while I was sleeping. In the next morning, the very first thing I did was to measure the amount of energy the device was able to detect. A total of almost 50mV were harvested over the time period of 22h to 6h AM. (see photo below).

Initial Electromagnetic measurements
After completing the programming of the very first firmware code for the Smart EM monitor I began testing it on a window at my home, where I live in Belgium.

Below is a snapshot of the initial measurements made and sent to AdaFruit.IO. To see more values I invite the reader to go to Adafruit.IO (click here).

2nd iteration

The second iteration of this smart EMF monitor device was made to fit an 18650 battery charger and enclosure sold on Aliexpress (buy here). This new PCB layout has new hardware components and specifications:

- Powered by the ESP32 C3 microcontroller with a maximum clock speed of 160MHz

• 400kb of RAM
• 4MB of SRAM
• 2.4 GHz connectivity (IPEX connector) ( buy on AliExpress )

- Security & Data Validation

• Data Fingerprint ID for communications (learn more here)

- Micro USB connection

• for firmware updates/upgrades
• installation of Custom firmware possible ( tunning)
• for local troubleshooting of errors on the smart device

- Status RGB LED

- Extreme low power consumption. Only ~320 nano Ampere when in deep sleep.

- Electromagnetic sensing and probing using an RG178 shielded cable with an IPEX connector in one end ( buy on AliExpress ).

The PCB layout was designed to be a direct fit into a commercially available, sold-on AliExpress ( buy here ) aluminum enclosure for a conventional 18650 lithium polymer battery. It is sold in 7 different colors more than enough to fit personal taste in interior design for a home. One only needs to buy the 18650 enclosure, remove the electronics that came with it, and install the Smart EM monitor into the plastic enclosure (see photos above).

Powering the smart EM device can be done in as many different ways possible from using a USB-A cable, a micro USB cable, or it can connect to another 18650 enclosure, one with an 18650 battery connected to the Smart EM Monitor using a "male to male" USB-A connector sold on Amazon here (see photos above). This way it is possible to insert the 2x aluminum enclosures, one with the smart EM device and the other with an 18650 lithium polymer battery, at the bottom of a window curtain ( buy one on Aliexpress ) for measurements of possible electromagnetic attacks sent through the window (see photos below).

Data Fingerprint ID

In the 2nd iteration, I included hardware components, to enable trustworthy sensor data validation that can be used in cases of legal dispute. Anyone can read in full the scientific publication here.

Named "Data Fingerprint ID", using everyday language, it is a hash algorithm that uses data from the surrounding environment to create a unique fingerprint identification for every individual sensor measurement of EMF / EMP. The "data fingerprint ID" measures and collects the following environmental data:

• Atmospheric pressure
• Ambient Temperature
• Ambient Humidity
• Carbon Dioxide Levels
• Luminosity Intensity
• Motion Data (accelerometer and Gyroscope)

How it works
Every time the Smart EM monitor collects EM sensor data, the algorithm requests, at the same time, data from the onboard sensors (listed above) and creates a unique key identifier for the measured EM data. Next, it connects to the internet to send the newly measured EM data value and its unique key identifier, the "Unique Fingerprint ID", to a data repository where authorities and law enforcement can access and analyze in almost real-time, looking for patterns of electromagnetic aggression. Known open data repositories partially compatible with this smart device are:

• www.dataverse.org [partial compatible] (the open firmware available on my Github uses a dataverse repository API)
• www.figshare.com [partial compatible]
• www.datadryad.org [not compatible; no API]

✓ 🟢 This project is now completed and closed. If you like to know more about this smart device, for instance, to know how to install one, send me a message on GitHub, or on the Discord server. Links above and below.

How to get one of these EM-shielded curtains
The electromagnetic Protection Curtains for a home are for sale on AliExpress. Search for "EMF shield fabric". Here's one:
https://s.click.aliexpress.com/e/_DEncGbb

Buy the Smart EM Monitor Device
The open smart device for EMF and EMP active monitoring in any glass window or door can be found on one of the many repositories I maintain on GitHub, named "Home Automation Safety & Health", and it can be bought on Tindie.com. Click here to buy one.

Stay Safe
More information about this type of invisible aggression can be found on Google searching for "Bio Electromagnetic Terrorism".

About the sponsor
Seeed Studio Fusion partially sponsored this project with their PCBA Service, Offering comprehensive PCB manufacturing, prototype PCB assembly, and more. Their services cover everything from PCB fabrication, parts sourcing, and assembly, to testing. Seeed Co-create Program can assist you in bringing your product to market with expert guidance and business networking.

About the author

Miguel, an experienced professional in scientific research and smart technology solutions, adeptly combines hardware and software expertise. He has a 5-year bachelor's in civil engineering. A 2yr master in smart carbon fiber composites. A second master in machine learning and artificial intelligence. More than 30 years of experience in computer science and programming. More than 5 years in hardware electronics design (see noteworthy accomplishments here).

This project is part of Miguel's effort, and work, to promote "Do It Yourself" projects, open innovation, and startup entrepreneurship using open methods for reverse-engineer, design, and prototype open software solutions, and open hardware electronics solutions.

The PCB Design Files provided on GitHub for anyone to use, are free with a Creative Commons share-alike non-commercial license. If you like this Smart Device or use it, please consider sponsoring Miguel's work Github, buy me a cup of coffee, a slice of pizza, or a book to help me study, eat, and think to work on new PCB design files.

Make a donation on PayPal and get a TAX refund*.