Using a Multimeter to Test an Electric Motor
Test the Motor
1First stop the motor and remove the electric power cable from the motor.
Set your multimeter to DCV mode. A multimeter is identical to an ohmmeter, and both will suffice for this test. Connect your tool and select a voltage from the DCV (direct current voltage) area. Choose a voltage that is similar to the voltage used by your tool.
You may adjust the DCV to 20 for most electric motors.
Use the "Resistance or Ohms" setting for an ohmmeter.
Make sure the numbers are set to 0 when you turn on the tool. If the display does not read 0, press the probes together to zero it out. If you have a digital multimeter, it will immediately zero out.
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Facts About Multifunction Meters
Electrical installations are monitored using multifunction energy metres. All electrical characteristics such as active power, voltage, apparent power, current, reactive power, power factor, Active energy, phase angle, and so on are monitored and measured by a multifunction energy metre.
This machine is especially useful when precise, reliable, and repeatable measurements are necessary.
The first Multifunction metres appeared in the early 1920s. Radio receivers and vacuum tube electronic equipment were the most common. Donald Macadie was the first to invent the mm. Multifunction metres
He was displeased with the fact that he had to carry multiple instruments to maintain the telephone links.
It was at this time that he created a one-of-a-kind gadget that can measure ohms, volts, and amperes. Avometer was the name given to the multifunction metre at the time.
This metre has voltage and accuracy resistors, range selection sockets and switches, and a moving coil metre.
What is the purpose of a multifunction metre?
This instrument is used to monitor current, voltage, active and reactive powers, power factor, and frequency in electrical panels.
Energy consumption, total harmonic distortions, and phase angle, order are all measured in some more comprehensive models.
They will be the subject of a separate post. The multifunction metre is used to monitor energy usage and can measure all three phases at the same time.
The following are some facts about a multifunction energy metre:
• In the industrial sector, a multifunction energy metre is extensively utilised. It's commonly utilised in motor control centres, control panels, generator panels, power distribution panels, and other applications.
• These are useful for troubleshooting a wide range of electrical issues, including residential appliances, industrial electronic equipment, power supply, motor controllers, and the wiring system, among others.
• The first multifunction metres appeared in the early 1920s. Radio receivers and vacuum tube electronic equipment were the most common.
• The multifunction energy metre is extremely valuable for enterprises all over the world. By continuously monitoring and recording energy consumption, it aids in the reduction of energy costs. Other integrated characteristics are backed up as well.
What is the mechanism behind it?
• Sensors
Potential and current transformers are used to measure voltage and electric current, respectively. The current transformer (CT) contains a ferromagnetic core and a primary winding with few turns.
Due to Faraday's induction rule, the measured current produces a magnetic field that is sensed by the primary winding.
There is no need to open the circuit to measure current with CT. Some hypothetical transformers function similarly to well-known transformers, as discussed in the post linked below.
However, there are numerous types of measurement transformers and constructive characteristics that will be discussed in a later post. Sensors are connected in bars to send data to the data management.
• Data keeper
Collects sensor data through RS-485 interface, transforms quantities to digital signals using analog-digital converters, and outputs to LEDs or LCD displays. Microprocessors perform the calculations required to obtain other values.
With 96 single-phase circuit breakers, 48 biphasic circuit breakers, or 32 three-phase circuit breakers, some data managers can read up to 96 sensors.
Communication
Multifunction metres can interface with other devices and transmit information about the circuit remotely.
Additional Information
The multimeter can be moved around, however the multifunction metre is not. Current, Voltage, resistance, and capacitance are the only quantities that multimeters can measure.
Multifunction metres, which keep track of a variety of electrical values, are beneficial to the energy economy since they aid in consumption reduction through better management and decision-making.
When a multifunction metre designed for 50 Hz is used at 60 Hz, and vice versa, I'm asked what occurs.
Because there isn't a key component that runs on only one frequency, it's unlikely that an issue will arise. Almost all multifunction metres are dual-frequency capable.
Final Words
So, this was all about multifunction meter.
Hopefully, these pointers will give you a basic idea about nature and facts of multifunction meters.
Author’s Bio:
Mehul is an eminent content writer who is well versed in drafting content that is related to thermo hygrometers.
Not only this, but he has a good number of experience in writing content about the right gadgets people should choose for their homes and ways to keep updating technology.
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