As with other Passive Components ( Capacitors and Resistors ) , Coil Inductor or can also be arranged in series and parallel to obtain the desired inductance value . Inductor is a passive electronic component which comprises wire windings and capable of storing energy in the magnetic field generated by an electric current through it. Energy storage capabilities in this magnetic field is called the inductance with Henry in units denoted by the letter " H " .
Keep in mind that not all Inductance values are mass produced by manufacturers . Therefore , to obtain the desired inductance value we can assemble two or more inductor in series or parallel .
Inductor Series circuit The inductor series circuit is a circuit that consists of two or more inductors arranged in parallel or serial form. This inductor series circuit generates inductance value which is a summation of all inductors that are arranged in series ini.Rangkaian Series Inductors and formula
Where :
Ltotal = Total Nilai Induktor
L1 = Induktor ke-1
L2 = Induktor ke-2
L3 = Induktor ke-3
Ln = Induktor ke-n Case circuit Inductor Series Based on the example image above Inductor Series circuit, it is known that the value Inductor: L1 = 100nH
L2 = 470nH
L3 = 30nH
Ltotal= ? Solved Ltotal = L1 + L2 + L3
Ltotal = 100nH + 470nH + 30nH
Ltotal = 600nH Parallel circuit Inductor Parallel inductor circuit is a circuit which comprises two or more inductors that are arranged in parallel rows or shape.
The series of Seri and Parallel Inductors
Parallel circuit Inductor formula
Parallel circuit Inductor formula is as follows:
1 / Ltotal = 1 / L1 + 1 / L2 + 1 / L3 + ... .. + 1 / Ln
Where :
Ltotal = Total Nilai Induktor
L1 = Induktor ke-1
L2 = Induktor ke-2
L3 = Induktor ke-3
Ln = Induktor ke-n Example Calculation Parallel Networks Based on the example image above Inductor Parallel circuit, it is known that the value Inductor: L1 = 100nH
L2 = 300nH
L3 = 30nH
Ltotal= ? Solved 1/Ltotal = 1/L1 + 1/L2 + 1/L3
1/Ltotal = 1/100nH + 1/300nH + 1/30nH
1/Ltotal = 3/300 + 1/300 + 10/300
1/Ltotal = 14/300
1/Ltotal = 14 x L = 1 x 300
1/Ltotal = 300/14
1/Ltotal = 21,428nH
L1 = Induktor ke-1
L2 = Induktor ke-2
L3 = Induktor ke-3
Ln = Induktor ke-n Case circuit Inductor Series Based on the example image above Inductor Series circuit, it is known that the value Inductor: L1 = 100nH
L2 = 470nH
L3 = 30nH
Ltotal= ? Solved Ltotal = L1 + L2 + L3
Ltotal = 100nH + 470nH + 30nH
Ltotal = 600nH Parallel circuit Inductor Parallel inductor circuit is a circuit which comprises two or more inductors that are arranged in parallel rows or shape.
The series of Seri and Parallel Inductors
L1 = Induktor ke-1
L2 = Induktor ke-2
L3 = Induktor ke-3
Ln = Induktor ke-n Example Calculation Parallel Networks Based on the example image above Inductor Parallel circuit, it is known that the value Inductor: L1 = 100nH
L2 = 300nH
L3 = 30nH
Ltotal= ? Solved 1/Ltotal = 1/L1 + 1/L2 + 1/L3
1/Ltotal = 1/100nH + 1/300nH + 1/30nH
1/Ltotal = 3/300 + 1/300 + 10/300
1/Ltotal = 14/300
1/Ltotal = 14 x L = 1 x 300
1/Ltotal = 300/14
1/Ltotal = 21,428nH
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