What are the application of series and parallel combination of resistors?
Answers
Answer:
Explanation:
Resistor in Series
In this kind of connection, resistors are in a sequential array of resistors to form an electronic circuit/ device. Resistors are connected is in a single line and hence common current flows in the circuit.
The connection is in such a manner that the current flowing through the 1st register has to then flow further through the 2nd register and then through 3rd. Therefore, a common current is flowing in connection with a resistor in series. At all point in the circuit, the current amoung the resistors is same. For example,
I1 = I2 = I3 = It = 2ma
All the resistors in series that is R1, R2, R3 have current I1, I2, I3 respectively and the current of the circuit is It.
As resistors are connected in series the sum of the individual resistor is equal to the total resistance of the circuit. Let R1, R2, R3 be the resistors connected in series and Rt be the total resistance of the circuit. so the total resistance of the circuit that is 12Ω, is the sum of all individual resistors R1, R2, R3 having 6KΩ, 4KΩ, 2KΩ respectively.
Resistors in series
This circuit of the resistors in series can also be represented by
Resistors in Series
Therefore, the total resistance can be calculated as
R1 + R2 + R3 = Rt
furthermore, the total resistance of the above resistors in series is given by
Rt = 6KΩ + 4KΩ + 2KΩ = 12KΩ
The Equation of Resistors in Series
Since the connection of resistor is in a series fashion that is in the sequential array or continuously one after other. The total resistance is equal to the resistance value of each resistor in the device/ circuit.
R1+R2+R3+R4+………………….Rn=Rt
where R is the resistance of the resistor and Rn represents the resistor number or the total resistance value.
Resistor in Parallel
In this kind of connection, the terminals of resistors are connected to the same terminal of the other resistor to form an electronic circuit/ device. Resistors are connected is in parallel fashion and hence common voltage drop in the circuit.
Unlike, series connection, in parallel connection, current can have multiple paths to flow through the circuit, hence parallel connection is also current dividers. Common voltage drop is across the parallelly connected circuits/networks. At the terminals of the circuit, the voltage drop is always the same. For example
VR1=VR2=VR3=VRT=14V
The voltage across R1 is equal to the voltage across R2 and similarly, equal to R3 and hence the total voltage drop is equal to the voltage across the circuit. Reciprocal of individual resistance of each resistor and the sum of all the reciprocated resistance of resistor will us the total resistance of the circuit.
Answer:
Series resistance has many applications in an electrical/electronics circuit some of them are as follows :
Fan regulator
Current limiting ( LED)
Voltage divider
Impedance matching
Pull up resistors
Pull down resistors
These were a few examples, let's examine one of them closely,
FAN REGULATOR
Image source:
Ceiling fan regulators - conventional vs. electronic - electricalcommunity blog
The speed of the motor decreases with decrease in current supplied to it.
Let the supply voltage be 220 V
Let the motor resistance be Rm
Let the resistance between 1 and 2 be R1 and similarly let the resistance between 2 and 3 be R2 and …. R3, R4.
As you can see when the regulator is at position-1, maximum resistance is in series and hence the current input to the fan motor decreases.
Current = voltage / (Rm+ R1 + R2 + R3 + R4)
As you move the knob from position 1 to position 4 the series resistance decreases and hence the motor receives the current equal to
= ( 220/ ( Rm+ R1))
Hence we can control the speed of the fan.