Carelabs is authorized provider of Electrical Installation’s Study, Analysis, Inspection, and Certification services in UAE, and offer earth ground testing service.
Electrical safety test is essential to ensure safe operating standards for any product that uses electricity. Various governments and agencies have developed stringent requirements for electrical products that are sold world-wide.
Ground test is the verification that resistance between your grounding system and earth meets the standard specification. Poor grounding not only increases the risk of equipment failure; it is dangerous. Facilities need to have adequately grounded electrical systems so in the event of a lightning strike, or utility overvoltage, current will find a safe path to earth.
Over time, corrosive soils with high moisture content, high salt content, and high temperatures can degrade ground rods and their connections. So although the ground system, when initially installed, had low earth ground resistance values, the resistance of the grounding system can increase if the ground rods are eaten away.
Laboratories are required to maintain earth resistance to less than 1 ohm and earth to neutral voltage to less than 1 volt.
Carelabs follow DEWA recommendation, and adhere to BS7671 IET wiring regulation standards, and as some clients demand, IS 3043 standards also.
The measurement of ground resistance for an earth electrode system is very important. It should be done when the electrode is first installed, and then at periodic intervals thereafter. This ensures that the resistance-to-ground does not increase over time. The International Electrical Testing Association specifies ground electrode testing every three years for a system in good condition with average up-time requirements.
Poor grounding not only increases the risk of equipment failure; it is dangerous too. Facilities need to have adequately grounded electrical systems so in the event of a lightning strike, or utility overvoltage, current will find a safe path to earth. Over time, corrosive soils with high moisture content, high salt content, and high temperatures can degrade ground rods and their connections. So although the ground system when initially installed had low earth ground resistance values, the resistance of the grounding system can increase if the ground rods are eaten away.
It is recommended that all grounds and ground connections be checked annually as a part of normal predictive maintenance plan.
If our technician finds an increase in resistance of more than 20 percent, we will investigate the source of the problem and make the correction to the grounding system to lower the resistance.
How do We Conduct Earth Ground Testing?
We use several methods to do a ground test. All of them use at least two reference ground points and a current source.
Soil resistivity testing is the process of measuring a volume of soil to determine the conductivity of the soil. The resulting soil resistivity is expressed in ohm-meter or ohm-centimetre. It is most necessary when
determining the design of the grounding system for new installations (green field applications) to meet your ground resistance requirements.
Fall-of-Potential test
This method is used to measure the ability of an earth ground system or an individual electrode to dissipate energy from a site. For the 3-pole Fall-of-Potential test, two earth stakes are placed in the soil in a direct line—away from the earth electrode. The fall-of-potential test method is used to measure the ability of an earth ground system or an individual electrode to dissipate energy from a site. The earth electrode of interest must be disconnected. The tester is then connected to the earth electrode. Then, two earth stakes are placed in the soil in a direct line – away from the earth electrode, for the 3-pole fall of potential test. Spacing of 20 m is normally sufficient.
Ground Impedance Measurements
When attempting to calculate possible short-circuit currents in power plants and other high voltage/current situations, determining the complex grounding impedance is important since the impedance will be made up of inductive and capacitive elements.
This test uses a special transformer to induce an oscillating voltage (often 1.7 kHz) into the grounding system. Unlike the 3-point Test which requires the grounding system to be completely disconnected and isolated before testing, this method requires that the grounding system under test be connected to the electric utilities (or other large grounding system such as from the telephone company) grounding system (typically via the neutral return wire) to provide the re.
Our Process
We discuss your facility requirements, compliance goals, and project timeline.
Our engineers gather system data, single-line diagrams, and equipment specifications on-site.
We perform the study using industry-standard software and IEEE/IEC methodologies.
You receive actionable documentation with findings, risk ratings, and remediation recommendations.
We help implement recommendations including labeling, PPE selection, and system modifications.
Final review ensures full alignment with DEWA regulations and international standards.
FAQ
Earth Ground Testing Services Company in Dubai - UAE | Carelabz.com is a critical component of electrical safety and compliance. Our team follows IEEE 1584, NFPA 70E, and DEWA standards to deliver thorough, actionable results for your facility.
Regular earth ground testing services company in dubai - uae | carelabz.com helps identify potential hazards, ensures regulatory compliance with DEWA requirements, and protects personnel and equipment from electrical incidents.
Industry best practice recommends conducting earth ground testing services company in dubai - uae | carelabz.com every three to five years, or after any major system modification. DEWA may require more frequent assessments for certain facility types.
Get Started
Our engineering team is ready to help with your electrical safety requirements.