Login/SignupNewsletter!

How to Test and Measure the Ground Resistance using a Megger?

Table of content

  • 7:25 min

  • 0 comments
  • 21 Aug 2024
  • Ahmed Badry

How to Test and Measure the Ground Resistance using a Megger?

A Megger, or Megohmmeter (also known as Megger earth tester), is a specialized instrument commonly used for insulation resistance testing, but it can also be employed for measuring ground resistance and testing the earthing or grounding system to ensure that it is within acceptable limits and working properly. Meggers are particularly useful for assessing the integrity of electrical insulation and grounding systems. Here’s a step-by-step guide on how to measure ground resistance using a analog and digital Megger earth testers:

Good to Know:

  • According to NEC 250.56, the maximum grounding resistance is 25 ohms, and 50 ohms for sensitive applications. An additional ground rod needs to be installed if the ground resistance exceeds 50 ohms.
  • According to IEC/BS EN 62561-2:2012, good earth resistance is 5 – 10 ohms.
  • Recommended grounding resistance per IEEE and NFPA standards is typically < 5 ohms, also applicable to telecommunications.

Note: Before proceeding, disconnect the earth lead / ground wire from the main distribution board / main panel when testing the ground resistance. Ensure that you are familiar with the specific model and features of your Megger earth tester, and follow the manufacturer’s instructions. Additionally, make sure to observe proper safety precautions, especially when working with electrical systems.The author will not be liable for any losses, injuries, or damages resulting from the display or use of this information or any attempt to implement a circuit in the incorrect format. Therefore, exercise caution, as working with electricity poses inherent risks.

Testing & Measuring Ground Resistance using Digital Megger Earth Tester

  1. Select the Ground Resistance Measurement Function:
    • Most Meggers have a specific function or setting for measuring ground resistance. Refer to the user manual for your Megger earth tester to identify the appropriate setting. In this tutorial, we have used Megger DET3TC – 3 terminals digital ground resistance tester.
  2. Prepare the Megger:
    • Connect the leads of the Megger to the appropriate terminals on the instrument. There are typically two or three leads: one for injecting current into the ground (current electrode) and the other for measuring the voltage drop (potential electrode). The third one (Ground) is connected to the ground rod / earth electrode in the earth pit.
  3. Connect Ground Electrodes:
    • Drive the ground electrodes into the ground at the desired measurement locations (see the user manual which states the recommended distance between the electrodes and spikes). These electrodes may include a current electrode (CE) for injecting current and potential electrodes (PE) for measuring voltage drop.
    • Connect the current electrode (CE) to the Megger’s current terminal and the potential electrodes (PE) to the Megger’s potential terminal.
    • Connect the Ground terminal to the ground electrode/rod already buried in the earth pit. (Make sure the the ground wire / earth lead is disconnected from the main panel / consumer unit when testing for earth / ground resistance).
  4. Set Measurement Parameters:
    • Set the measurement parameters on the Megger, such as the duration of the test and the voltage applied. These parameters may vary depending on the specific model of the Megger. For example, set the 250-500V if you are going to test the 230V/240V wiring system.
  5. Perform the Test:
    • Initiate the measurement by activating the Megger (by pressing the TEST button in digital Megger). The instrument will inject a known current into the ground and measure the resulting voltage drop.
    • The Megger will calculate the ground resistance using Ohm’s law (), where  is the ground resistance,  is the voltage drop, and  is the injected current.
    • The Megger will display the ground/earth resistance in ohms on its digital display.
  6. Record and Analyze Results:
    • Record the measured ground resistance values for each location.
    • Compare the results with any applicable standards or local area codes and guidelines (refer to the NEC/IEC/NFPA & IEEE codes in the above Good to know section). Ground resistance values can vary depending on the specific requirements of the system.
  7. Interpret the Results:
    • Analyze the results to determine the effectiveness of the grounding system. If the measured resistance is within the acceptable range, the grounding system is considered effective. If not, further investigation and improvement of the grounding system may be necessary.
  • The current spike should be set between 30 m and 50 m. For recommended distances, please refer to the user manual of the exact model of the earth tester.
  • Potential spike set in line and equidistant between electrode/rod and test & the current spike.
  • Set the potential spike at 62% of the distance between electrode/rod under test & the current spike.

Checking & Measuring Earth Resistance using Analog Earth Tester

The operation mechanism for testing and measuring earth or ground resistance using an analog earth tester is the same as above, except it requires some additional steps to match the results and obtain the appropriate value of earth resistance.

We are going to use the HIOKI FT3115 Analog Earth Tester. There are two dials in this earth tester: the deflection of the first one (on the left) always shows “0,” while the second one with a rotary knob (on the right) indicates the earth resistance. The lower knob is for selecting the value of resistances i.e. ×1Ω, ×10Ω, ×100Ω etc. The wiring setup to the earth tester terminals, electrodes, and spikes is the same as above. To determine the value of ground resistance;

  • Set the resistance selection knob to the minimum value (e.g., ×1Ω and increase to ×10Ω if you didn’t get any result).
  • Press the measurement button (or drive the rotating handle of DC generator in case of old models of analog Meggers).
  • Rotate the rotary knob until the deflection point indicates “0” value. This represents the ground resistance value.
  • For example, when rotary knob for reading is in between 9 and 10, and it matches the “0” on the deflection while the selected resistance knob at ×10Ω, it means the earth resistance is 9.5Ω.
  • Compare the results with the local area codes. If they fall within the safe limit, it’s okay; otherwise, contact a licensed electrician to address the issue.

Testing and measuring ground resistance with a Megger provides a reliable and accurate assessment of the grounding system. Remember to consult the Megger earth tester’s user manual for specific instructions and guidelines tailored to your instrument model. Additionally, adhere to local electrical codes and regulations during testing procedures.

FAQ

How do you test ground resistance?

To test soil resistivity, connect the Fluke 1625-2 to four stakes in the ground. The earth ground tester will generate a known current through the outer two stakes and the inner two will measure any drop in voltage potential. The tester then automatically calculates soil resistance using Ohms law

How is resistance measured with a megger?

Megger test leads are connected to LV and HV bushing studs to measure Insulation Resistance IR value in between the LV and HV windings. Megger test leads are connected to HV bushing studs and transformer tank earth point to measure Insulation Resistance IR value in between the HV windings and earth

Can an insulation tester megger be used to perform ground resistance tests?

No. This is a common error, and the “victims” are often field operators who are issued from stores a “Megger”®, without its being checked to determine whether it’s an insulation or ground tester. Insulation testers are designed to measure at the opposite end of the resistance spectrum from a ground tester

How to measure the insulation resistance of underground cable using Megger?

How to perform an Insulation Resistance Test (Meg Test)

  1. Step 1: Safely strip the cable exposing the conductors.
  2. Step 2: Connect the black test lead to the grounding braid and the red test to both bus wires.
  3. Step 3: Perform the insulation resistance test for one minute. …
  4. Step 4: Record the test values

What is the Megger method?

Megger testing involves applying a high-voltage DC potential to the motor’s insulation system and measuring the resulting current flow. This test provides a quantifiable measure of the insulation resistance, typically expressed in hundreds of megaohms, or even gigaohms

What is a good ground resistance value?

Ideally a ground should be of zero ohms resistance. There is not one standard ground resistance threshold that is recognized by all agencies. However, the NFPA and IEEE have recom- mended a ground resistance value of 5.0 ohms or less

Can you measure resistance with a Megger?

The Megger insulation tester such as a Megger MIT525 or MIT1025 is a small, portable instrument that gives you a direct reading of insulation resistance in ohms or megohms. For good insulation, the resistance usually reads in the megohm range

Is Megger testing AC or DC?

The insulation resistance (IR) test (also commonly known as a Megger) is a spot insulation test which uses an applied DC voltage (typically either 250Vdc, 500Vdc or 1,000Vdc for low voltage equipment <600V and 2,500Vdc and 5,000Vdc for high voltage equipment) to measure insulation resistance in either kΩ, MΩ or GΩ

Share this post:

Related Tips

Reading Time: 10:5 min

What is the Suitable Wire Size for 20A Breaker and Outlet?

How to Find the the Right Wire Size for a 20-Amp Breaker and Outlet Based on NEC? Choosing the the…

View post

Reading Time: 7:39 min

Why Do We Need to Install a Starter with a Motor?

Why Do We Need to Connect a Starter with Electrical Motors? Essential and Need of Starter with Motor A starter is a device used…

View post

Reading Time: 4:22 min

Why are Generators and Alternators Rated in kVA, Not in kW?

Why is an Alternator or Generator Rated in kVA, Not in kW? As we already know that why is a transformer…

View post

Reading Time: 4:41 min

Why Does AC Need More Insulation than DC at the Same Voltage Level?

Why Does AC Voltage Require More Insulation than DC Voltage for the Same Working Voltage Level? For the same working…

View post

Reading Time: 3:54 min

Why is a Power Plant Capacity Rated in MW and not in MVA?

Why is the Rating of a Power Plant Capacity Expressed in MW instead of MVA? For the following reasons, a…

View post

Reading Time: 6:36 min

Why are Overhead Power Lines Loose on Electric Poles & Towers?

Why are Overhead Power Lines Loose on Utility Poles and Transmission Towers? Transportation of people, goods, and services today is…

View post

Reading Time: 9:31 min

Why Radio Waves Are Chosen For Close Range Transmission?

Why Radio Waves Are Chosen For Close Range Transmission? INTRODUCTION Back then in the stone ages, information were disseminated either…

View post

Reading Time: 6:5 min

Why Don’t Birds and Squirrels Get Electrocuted on Power Lines?

Why Don’t Birds Setting on Power Lines Get Electrocuted? We mentioned many times that electricity is our best friend as…

View post
Subscribe to our

Newsletter

We will update you with all the latest books and references.