How to use common instruments and an introduction to common electrician tools

Common instrument usage

1. How to use a multimeter

A multimeter can measure DC current, DC voltage, AC voltage, resistance, etc. Some can also measure power, inductance, capacitance, etc. It is one of the most commonly used instruments by electricians.

1. Basic structure and appearance of multimeter

The multimeter mainly consists of three parts: indicating part, measuring circuit and conversion device.

The indicating part is usually a magnetoelectric microammeter, commonly known as the meter head; the measuring part converts the measured electrical quantity into a tiny DC current suitable for the requirements of the meter head, usually including a shunt circuit, a voltage divider circuit and a rectifier circuit; the measurement of different types of electrical quantities and the selection of the range are achieved through a conversion device.

2. How to use a multimeter

①Select the correct terminal (or jack)

The red test lead wire should be connected to the red terminal (or the socket marked with a “+”), and the black test lead wire should be connected to the black terminal (or the socket marked with a “-”). Some multimeters are equipped with 2500 volt AC and DC measurement terminals. When in use, the black test stick is still connected to the black terminal (or the socket marked with a “-”), and the red test stick is connected to the 2500 volt terminal (or socket).

② The selection of the switch position should be correct

Turn the conversion switch to the required position according to the measurement object. For example, when measuring current , turn the conversion switch to the corresponding current range, and when measuring voltage, turn the conversion switch to the corresponding voltage range. Some multimeters have two conversion switches on the panel, one for selecting the measurement type and the other for selecting the measurement range. When using, you should first select the measurement type and then select the measurement range.

③Select the appropriate range

According to the approximate range of the measurement, turn the switch to the appropriate range of the type. When measuring voltage or current, it is best to keep the pointer within the range of one-half to two-thirds of the range for more accurate readings.

④ Read the correct number

There are many scales on the dial of the multimeter, which are suitable for different objects to be measured. Therefore, when measuring, while reading the corresponding scale, you should also pay attention to the coordination of the scale reading and the range to avoid mistakes.

⑤ Correct use of the ohmmeter

1) Choose the appropriate magnification

When measuring resistance, the multiplier should be chosen so that the pointer stays on the part with sparse scale lines. The closer the pointer is to the middle of the scale, the more accurate the reading. The further to the left, the more crowded the scale lines are and the less accurate the reading.

2) Zero adjustment

Before measuring resistance, you should touch the two test rods together and turn the "zero adjustment knob" at the same time so that the pointer just points to the zero position of the ohm scale. This step is called ohm range zero adjustment. Each time you change the ohm range, you should repeat this step before measuring resistance to ensure measurement accuracy. If the pointer cannot be adjusted to zero, it means that the battery voltage is insufficient and needs to be replaced.

3) Do not measure resistance when the device is powered on

When measuring resistance, the multimeter is powered by dry batteries. The measured resistance must not be charged to avoid damaging the meter head. When using the ohm range, do not short-circuit the two test rods to avoid wasting batteries.

⑥ Pay attention to operation safety

1) When using a multimeter, be careful not to touch the metal part of the test rod with your hands to ensure safety and measurement accuracy.

2) When measuring higher voltage or larger current, do not turn the conversion switch while energized, otherwise the switch may burn out.

3) After using the multimeter, it is best to turn the conversion switch to the highest AC voltage range. This range is the safest for the multimeter to prevent the multimeter from being damaged due to negligence during the next measurement.

4) Before the test rod touches the circuit to be tested, a comprehensive inspection should be carried out to see if the positions of each part are correct.

2. How to use the megohmmeter

A megohmmeter is commonly known as a shaking meter. It is used to measure high resistance and insulation resistance. Its unit of measurement is megohm (MΩ), so it is called a megohmmeter. There are many types of megohmmeters, but their functions are roughly the same.

1. Selection of megohmmeter

It is stipulated that the voltage level of the megohmmeter should be higher than the insulation voltage level of the object being measured. Therefore, when measuring the insulation resistance of equipment or lines with a rated voltage below 500V, a 500V or 1000V megohmmeter can be used;

When measuring the insulation resistance of equipment or lines with a rated voltage of more than 500V, a 1000~2500V megohmmeter should be used; when measuring insulators, a 2500~5000V megohmmeter should be used.

Generally, a megohmmeter with a range of 0~200MΩ can be used to measure the insulation resistance of low-voltage electrical equipment.

2. Insulation resistance measurement method

The megohmmeter has three terminals. The two larger terminals at the top are marked "Ground" (E) and "Line" (L), and the smaller terminal at the bottom is marked "Guard Ring" (or "Shield") (G).

①Insulation resistance of line to ground

Reliably ground the "ground" terminal (i.e., the E terminal) of the megohmmeter (generally connected to a grounding body), and connect the "line" terminal (i.e., the L terminal) to the circuit under test, as shown in the figure below.

After the connection is completed, shake the megohmmeter clockwise, gradually increase the speed, maintain it at about 120 rpm, and then shake it at a constant speed. When the speed is stable and the pointer of the meter is also stable, the value indicated by the pointer is the insulation resistance value of the object being measured.

In actual use, the two terminals E and L can be connected arbitrarily, that is, E can be connected to the object under test, and L can be connected to the grounding body (that is, grounded), but the G terminal must not be connected incorrectly.

②Measure the insulation resistance of the motor

Connect the E terminal of the megohmmeter to the casing (i.e. ground), and connect the L terminal to the winding of a certain phase of the motor, as shown in Figure b above. The measured insulation resistance value is the insulation resistance value of a certain phase to ground.

③Measure the insulation resistance of the cable

When measuring the insulation resistance between the conductive core and the cable casing, connect terminal E to the cable casing, terminal L to the core, and terminal G to the insulation layer between the cable casing and the core, as shown in Figure c above.

3. Use precautions

① Open circuit and short circuit tests should be performed before use. Leave the L and E terminals disconnected, shake the megohmmeter, and the pointer should point to "∞"; short-circuit the L and E terminals, and slowly turn them, and the pointer should point to "0". If both of these meet the requirements, it means that the megohmmeter is good.

② When measuring the insulation resistance of electrical equipment, the power supply must be cut off first, and then the equipment is discharged to ensure personal safety and accurate measurement.

③When measuring, the megohmmeter should be placed in a horizontal position and pressed down firmly to prevent it from shaking. The shaking speed is 120 rpm.

④ The lead wires should be made of multi-strand soft wires with good insulation performance. The two lead wires should not be twisted together to avoid inaccurate measurement data.

⑤ After the measurement, the object under test should be discharged immediately. Before the crank of the megohmmeter stops turning and the object under test is discharged, do not touch the measuring part of the object under test or remove the wires to prevent electric shock.

3. Ammeter

The ammeter is connected in series in the circuit being measured to measure its current value. According to the nature of the measured current, it can be divided into DC ammeter, AC ammeter and AC/DC dual-purpose ammeter. According to its measuring range, it can be divided into microammeter, milliammeter and amperemeter. According to the operating principle, it can be divided into magnetoelectric type, electromagnetic type and electric type.

Portable clamp type ammeter

1. Selection of ammeter

When measuring DC current, magnetoelectric meters are more commonly used, but electromagnetic or electric meters can also be used. When measuring AC current, electromagnetic meters are more commonly used, but electric meters can also be used.

Magnetoelectric instruments should be used in situations where high measurement accuracy and high sensitivity are required; electromagnetic instruments with low prices and strong overload capacity are often chosen in situations where measurement accuracy requirements are not strict and the measured objects are large.

The range of the ammeter should be determined according to the current being measured, and the current value should be within the range of the ammeter. When the current value is not clear, a larger range of ammeter should be used for test to avoid damage to the meter due to overload.

2. Usage and precautions

① Be sure to connect the ammeter in series with the circuit being measured.

② When measuring DC current, the "+" and "-" polarities of the ammeter terminals must not be connected incorrectly, otherwise the meter may be damaged. Magnetoelectric ammeters are generally only used to measure DC current.

③ Choose the appropriate range according to the current being measured. For an ammeter with two ranges, it has three terminals. When using it, you must clearly see the terminal range markings and connect the common terminal and one range terminal in series in the circuit being measured.