Measuring current in electronics is a very necessary thing. Just as we need electronics in our lives, so do we need ammeter to use them. As we know, the current in the series remains the same. The ammeter, since it measures current, is connected in series with the circuit under test. Because there is only one current path in a series circuit, all of the circuit currents flows through the meter. Sometimes we say, the internal resistance of the ammeter is zero, but the ammeter must introduce minimum additional resistance into the circuit. However, we can avoid this resistance value since it is much less. Due to this internal resistance, our measurement does not have a problem, because as I said before, the current in the series remains the same.
Ammeter is available in both analog and digital variants. However, with the increase in the use of modern multimeters, the number of analog emitters has decreased somewhat.
Voltage is one of the most important quantities in electronics. The dc voltmeter enables us to measure any value of dc voltage between two points in an electric circuit within the capability of the meter. It is thus in parallel with the circuit or some part of the circuit. To be used in this way, a voltmeter must have enough resistance so that it will not be injured by the current that flows through it, and so that it will not materially affect the current in the circuit to which it is connected. The dc voltmeter has a basic meter movement, commonly called a moving coil or D Arsenoval type movement and one or more series resistors known as multiplier resistors. As the name implies, multiplier resistors increase or multiply the range of the basic meter movement.
The moving coil meter requires a certain current passing through the coil to deflect the pointer to full scale. The full-scale current may be anywhere from a few microamperes to several mill amperes. If the meter requires very little current to give full-scale deflection, the sensitivity of the meter is said to be high. Two factors, the full-scale deflection current and the resistance of the moving coil must be known before a multiplier resistor can be added in series with the meter movement to increase the range.
Measuring power is a very important part of electricity. A wattmeter is an electric measuring device, that measure electric power in watt from a given circuit. We know, by measuring voltage and current from a line we can measure power. That’s why its operation is like using two measuring devices at a time. These are voltmeter and ammeter. This instrument is similar in design and construction to electrodynamometer-type ammeters and voltmeters. The two coils are connected to different circuits for the measurement of power. The fixed coils or ‘field coils’ are connected in series with the load and carry the current in the circuit. The fixed coil, therefore, forms the current coil or simply c.c. of the wattmeter.
The moving coil is connected across the voltage and therefore carries a current proportional to the voltage. High non-inductive resistance is connected in series with the moving coil to limit the current to a small value. Since the moving coil carries a current proportional to the voltage, it is called the ‘pressure coil’ or ‘voltage coil’ or simply called the p.c. of the wattmeter.