What is a Digital Multimeter?

A digital multimeter, or DMM, measures and verifies multiple electrical quantities, including voltage, current and resistance. It’s a daily diagnostic tool used by technicians and electrical engineers and combines the features of a voltmeter, ammeter and ohmmeter. A digital multimeter typically includes probes, clamps or leads, which are inserted into inputs on the instrument and then connected to the device under test to make a measurement.

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• What is a digital multimeter used for?
• Types of digital multimeters
• How to choose a digital multimeter
• How to use a digital multimeter
• Digital Multimeter vs. Oscilloscope
• Digital multimeter resources
• Frequently Asked Questions (FAQ)

What is a digital multimeter used for?

A DMM is primarily used to verify one of the three factors of Ohm’s Law voltage (volts), current (amps) and resistance (ohms). This simple equation, expressed below, is commonly used by electrical engineers during diagnostic testing.

V = I x R

V = voltage

I = current

R = resistance

Engineers in the lab and in the field also use digital multimeters to verify the state of a system or circuit for safety purposes. For instance, voltages in excess of 42V or currents in excess of 10 mA can provide painful shocks, and in some cases, be lethal. Resistances are also rated for certain powers (watts) and can get hot when driving higher currents and voltages. Digital multimeters essentially help engineers verify that a device under test is safe to work on.

Types of Digital Multimeters

General purpose digital multimeter

General Purpose Multimeter	Used By	Used To	Form Factor	Overview
	Beginners and Hobbyists	Troubleshooting simple circuits and get a general idea of what is and isn't working.	Handheld	They don't provide a high degree of accuracy but readings are fool proof.

Often used by hobbyists, these DMMs measure voltage, resistance, continuity and current to troubleshoot simple circuits. They don’t provide a high degree of accuracy—just a general idea of what’s working. Simplicity is key and readings are fool proof.

Handheld digital multimeter

Handheld Digital Multimeter	Used By	Used To	Form Factor	Overview
	Electricians, electrical contractors and HVAC specialists	Make measurements and troubleshoot potentially hazardous system in the field.	Handheld	Handheld DMMs should be used when mobility is required.

Also known as digital voltmeters, handheld digital multimeters are used by electricians, electrical contractors and HVAC specialists to make measurements and troubleshoot potentially hazardous systems in the field. Handheld DMMs should be used when mobility is required.

Advanced digital multimeter

Advanced Digital Multimeter	Used By	Used To	Form Factor	Overview
	Electrical and electronic engineers	Perform more advanced measurements and gain confidence in their designs.	Bench Top	These DMMs are extremely precise and have a variety of advanced functionality

Also known as bench DMMs or commercial DMMs, these instruments are used by electrical and electronic engineers to perform more advanced measurements and gain confidence in their designs. These instruments are extremely precise and have a variety of advanced functionality, including the ability to program automation, slow or speed up measurements to observe low-level or transient signal behavior, and interface with other instruments.

Compact digital multimeter

Compact Digital Multimeter	Used By	Used To	Form Factor	Overview
	Electrical and electronic engineers	Perform more advanced measurements and gain confidence in their designs.	Rack Mounted	Used when precise measurements are needed, but space is limited.

These multi-channel multimeters are used in manufacturing when precise measurements are needed, but equipment space is limited. They embed cards with switches and mux to "squeeze" tens or even hundreds of channels into a single mainframe.

How to Use a Digital Multimeter

Running lab tests using a digital multimeter is easy. Follow these six simple steps to set up your device and begin measuring your device under test (DUT):

1. Check for physical damage on your digital multimeter and DUT.
2. Connect the appropriate probes to the color-coded inputs of your digital multimeter.
3. Configure your digital multimeter settings to the desired mode (resistance, voltage, or current).
4. Verify the functionality of your digital multimeter by testing it with a known voltage source.
5. Use the probes or clamps to measure by placing them on the positive and negative terminals of the DUT.
6. Keep an eye on the digital multimeter's display screen for safety warnings while working.

1. Inspect your digital multimeter and DUT for signs of physical damage.

2. Insert the appropriate probes into the DMM inputs (the probes and inputs are typically color coded for ease of use).

3. Set your DMM to resistance, voltage or current mode, depending on what you’re measuring.

4. Test that your DMM is working correctly with a known voltage source.

5. Hold the tip of the probes or clamps to the positive and negative terminals of the DUT to make your measurements.

6. As you’re working, watch the DMM’s display screen for safety warnings.

Note: The steps above cover the basics of how to use a digital multimeter, but engineers should always consult the model-specific instruction manual before operating a digital multimeter to ensure practices are safe and measurements are accurate. 

Digital Multimeter vs. Oscilloscope

A digital multimeter allows you to read the voltage at any one moment in time, but oscilloscopes show how the voltage changes over time by graphically displaying a waveform. Oscilloscopes are often used over digital multimeters when troubleshooting more complex circuits.

Digital Multimeter	Used to:	Circuit type:
	Read the voltage at any one moment in time.	Simple Circuits

Oscilloscope	Used to:	Circuit type:
	Measure how the voltage changes over time.	Complex Circuits

How to Choose a Digital Multimeter

When it comes to choosing the right digital multimeter for your application, there are a number of considerations, starting with where you will be using it. You’ll also want to look at accuracy, speed and the number of channels needed to ensure the instrument will meet the demands of your job.  

How to find the best digital multimeter for your needs 

• Don’t break the bank: DMM6500, 2100 Series, 2110 Series 
• The most precise reading: DMM7510, 2002 Performance DMM 
• The need for speed: DMM6500, DAQ6510, DMM7510 
• Give me more channels: DAQ6510, DAQ2750, 3700A 
• I want it all: DMM7512 

Digital Multimeter Resources

Ready to take your DMM knowledge to the next level? Learn more about digital multimeters and how to use them in the Tektronix Learning Center, where you can find these and many other resources:

• Digital multimeter selector guide
• Temple University IDEAS Hub Education Case Study
• Top Five Digital Multimeter User Questions (and Our Answers)
• Getting Back to the Basics of Electrical Measurements

If you’re thinking of purchasing an advanced digital multimeter, view our DMM comparison table, browse our collection of digital multimeters or request a product demo.