Professional Electromagnetic Field Radiation Testing Services
Serving the USA.
Complete and comprehensive electromagnetic field (EMF) testing with diagnostics and solutions engineered for clarity, safety, and precision.
At Elexana, we specialize in advanced EMF testing and diagnostics for homes, offices, hospitals, and industrial spaces. Our approach is based on global science, engineering integrity, and regard for both human and intelligent systems.
Types of EMF Testing We Offer
EMF exposure assessments in homes, apartments, and high-rise residences
EMF diagnostics in office buildings, schools, and commercial facilities
Complete electromagnetic audits of industrial and manufacturing environments
Pacemaker and medical implant compatibility testing
EMF exposure testing for MRI suites, imaging labs, ICUs, and surgical rooms
RF and AC field assessments based on global regulatory thresholds
Pre-design or renovation field surveys for new construction
EMF safety inspections for corporate compliance or real estate due diligence
Diagnostic & Correction Services
Detection of wiring errors, including improper neutral-to-ground bonds
Grounding system verification, impedance testing, and 4-point Wenner soil resistivity testing
Custom-designed grounding systems for EMI-sensitive or high-occupancy environments
Measurement of dirty electricity (transient harmonics, power line noise)
Signal-to-noise ratio (SNR) testing of electrical systems and RF environments
Comparative evaluation of mitigation filters: capacitor, inductor, hybrid types
Consulting on safe filter selection based on spectral needs and site performance
What’s Included in an EMF Report
Time-stamped measurements using ISO 17025-calibrated equipment
GPS coordinates for outdoor RF readings (if applicable)
Photos and spectrographs of identified sources and waveforms
Hotspot mapping and radiative zone interpretation
Comparative analysis against national and international standards
Mitigation recommendations and corrective design suggestions
Documentation formatted for clients, employers, insurers, or regulatory review
Calibration, Compliance & Professional Conduct
All testing equipment is ISO 17025 certified and traceable to NIST
Our consultants arrive professionally dressed, conduct themselves with calm, respect, and discretion
We carry general and professional liability insurance, including for government and hospital access
We maintain HIPAA confidentiality when testing in healthcare environments
Why Choose Elexana?
We solve problems, not just document them
We understand fields from both biological and engineering perspectives
We help homes feel safe, and technologies perform better
We bring empathy, clarity, and global fluency to every space we enter.
At ELEXANA, we refer to the BioInitiative.org safety levels unless otherwise directed, but use the ALARA Principle to guide what is reasonable.
Read: What is the ALARA Principle?
BioInitiative.org Safety Guidelines
Radiofrequency (RF) Radiation
Recommended General Public Exposure Limit:
0.0003 to 0.0006 µW/cm²
(equivalent to 3 to 6 µW/m²)Context:
These are precautionary biological thresholds based on peer-reviewed studies showing cellular effects, oxidative stress, neurological impacts, and tumor promotion at low RF intensities.Recommended indoor level: ≤ 3 µW/m² (0.0003 µW/cm²) for living/sleeping areas
Advisory action level: 1 µW/m² or lower in sensitive environments like schools or healthcare settings
Source: BioInitiative Report Summary 2012 & 2020 updates: bioinitiative.org
Extremely Low Frequency (ELF) – AC Magnetic Fields
Recommended General Public Exposure Limit:
1 to 2 milligauss (mG)
(equivalent to 100 to 200 nanotesla or 0.1 to 0.2 µT)Context:
These thresholds are based on epidemiological data associating ELF magnetic fields above 2 mG (0.2 µT) with increased risk of childhood leukemia, neurodegeneration, and other bioeffects.Sleeping areas should ideally be below 1 mG (0.1 µT)
Long-term exposure above 4 mG (0.4 µT) is considered significantly risky
Source: BioInitiative Working Group, 2012, and follow-up technical summaries
Conversion Reference:
1 milligauss (mG) = 0.1 microtesla (µT)
1 µW/cm² = 10,000 µW/m²
Global EMF Safety Benchmarks
Ranked From the Countries With the Highest Standards to the Lowest Standards.
AC Magnetic Field Exposure Limits (units: µT)
(Sorted by general public limit, most protective to least)
Unit Conversion Reference
1 milligauss (mG) = 0.1 microtesla (µT)
Therefore:
10 mG = 1.0 µT
100 mG = 10.0 µT
500 mG = 50.0 µT
904 mG = 90.4 µT
1,000 mG = 100.0 µT
Switzerland
General Public: 1.0 µT
Occupational: 10.0 µT
Source: Swiss NISV Precautionary Guidelines
Italy
General Public: 1.0 µT
Occupational: 10.0 µT
Source: Italian Ministry of Environment – sensitive areas
Germany / European Union (ICNIRP)
General Public: 10.0 µT
Occupational: 50.0 µT
Source: ICNIRP 1998 Guidelines
Canada
General Public: 20.0 µT
Occupational: 100.0 µT
Source: Health Canada Safety Code 6
United States (IEEE/FCC)
General Public: 90.4 µT (904 mG)
Occupational: 90.4 µT (904 mG)
IEEE C95.1 standard does not differentiate between occupational and public in low-frequency ranges
India / Japan
General Public: 100.0 µT
Occupational: 100.0 µT
Based on ICNIRP harmonization in national standards
International RF Exposure Limits (General Public and Occupational, units: µW/cm²)
Unit Conversion Reference:
1.0 µW/cm² = 10,000 µW/m²
Therefore:
0.001 µW/cm² = 10.0 µW/m²
0.01 µW/cm² = 100.0 µW/m²
0.1 µW/cm² = 1,000.0 µW/m²
100.0 µW/cm² = 1,000,000.0 µW/m²
580.0 µW/cm² = 5,800,000.0 µW/m²
Austria (Salzburg Precautionary Guideline)
General Public Limit: 0.001 µW/cm²
Occupational Limit: Not specified (precautionary only)
Reference: Salzburg Precautionary Guideline
Italy (Fixed sources in sensitive areas)
General Public Limit: 0.1 µW/cm²
Occupational Limit: 10.0 µW/cm²
Reference: Electromagnetic pollution: launching long-awaited regulations
Switzerland
General Public Limit: 4.2 µW/cm²
Occupational Limit: 42.0 µW/cm²
Reference: EMF-related country-specific information for Switzerland
Russia
General Public Limit: 10.0 µW/cm²
Occupational Limit: 100.0 µW/cm²
Reference: Scientific basis for the Soviet and Russian radiofrequency standards
China
General Public Limit: 10.0 µW/cm²
Occupational Limit: 40.0 µW/cm²
Reference: National standards of the People's Republic of China
Belgium (Wallonia, 900 MHz)
General Public Limit: 20.0 µW/cm²
Occupational Limit: 100.0 µW/cm²
Reference: Wallonia relaxes antenna limits to allow 5G start
India
General Public Limit: 450.0 µW/cm²
Occupational Limit: 900.0 µW/cm²
Reference: White Paper on Human Exposure Requirement for EMF
United States (FCC Guidelines for the 870 MHz range.)
General Public Limit: 580.0 µW/cm²
Occupational Limit: See below for a detailed set of levels with corresponding frequencies.*
Reference: Human Exposure to Radio Frequency Fields: Guidelines for Cellular
Canada (Safety Code 6)
General Public Limit: 1,000.0 µW/cm²
Occupational Limit: 5,000.0 µW/cm²
Reference: Limits of Human Exposure to Radiofrequency Electromagnetic Energy
ICNIRP / European Union Standard
General Public Limit: 1,000.0 µW/cm²
Occupational Limit: 5,000.0 µW/cm²
Reference: ICNIRP Guidelines 2020
The FCC's occupational Maximum Permissible Exposure (MPE) limits for radio frequency (RF) electromagnetic fields are frequency-dependent and designed for controlled environments where individuals know and can manage their exposure. WikipediaFederal Register+4CPWR+4Irvine Granicus+4
Key Occupational MPE Limits:
Frequency Range: 0.3–3.0 MHz
Electric Field Strength (E): 614 V/m
Magnetic Field Strength (H): 1.63 A/m
Power Density (S): Not applicable
Averaging Time: 6 minutes, Irvine Granicus+1SlideServe+1
Frequency Range: 3.0–30 MHz
Electric Field Strength (E): 1842/f V/m
Magnetic Field Strength (H): 4.89/f A/m
Power Density (S): Not applicable
Averaging Time: 6 minutes Incident Prevention+3Irvine Granicus+3SlideServe+3
Frequency Range: 30–300 MHz
Electric Field Strength (E): 61.4 V/m
Magnetic Field Strength (H): 0.163 A/m
Power Density (S): 1.0 mW/cm²
Averaging Time: 6 minutes, Irvine Granicus
Frequency Range: 300–1500 MHz (0.3 GHz to 1.5 GHz)
Power Density (S): f/300 mW/cm² (where f is frequency in MHz)
Averaging Time: 6 minutes Legal Information Institute+2Irvine Granicus+2FCC Report+2
Frequency Range: 1500–100,000 MHz (1.5 GHz to 100 GHz)
Power Density (S): 5.0 mW/cm²
Averaging Time: 6 minutes, Irvine Granicus
These limits are detailed in the FCC's regulations under 47 CFR §1.1310. Federal Register+2Legal Information Institute+2RF Cafe+2
It's important to note that these exposure limits are based on the assumption that individuals are trained and aware of the potential for exposure, allowing them to exercise control over their exposure levels. More stringent general public/uncontrolled exposure limits apply for environments where individuals are unaware or cannot control their exposure. Federal Register+1CPWR
EMF Safety Standards for AI or Robotics
No global standards for electromagnetic exposure limits specifically for robots, AI systems, or machine-based intelligence have been set.
However:
High EMI environments can impair sensors, misread encoders, and degrade wireless data in autonomous systems.
Electromagnetic noise can destabilize control algorithms, timing loops, and machine learning training cycles.
RF saturation can reduce localization accuracy in AGVs, drones, or smart cameras.
Elexana proactively assesses these risks in robotic labs, AI centers, and smart manufacturing environments and provides shielding and grounding strategies that preserve signal integrity and extend AI system longevity.
We advocate for future electromagnetic compatibility guidelines for intelligent non-human systems, as awareness grows that AI is not immune to the laws of electromagnetic physics.
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